CN113620631B - Be used for even forming device of concrete large aggregate production smelting process - Google Patents

Abstract

The invention discloses a uniform forming device for a production and smelting process of concrete large aggregates, which comprises a support frame, wherein the support frame is a main support structure of equipment, the bottom end of the support frame is provided with a rack, and one end of the rack is provided with a screening machine; the crushing box is located at the top end of the supporting frame, a servo motor is arranged on the outer surface of the crushing box, one end of the servo motor is connected with a first transmission chain, and the other end of the first transmission chain is connected with a movable shaft. This be used for concrete large aggregate production smelting process uniform forming device, the shaping dish can conduct cold air inside the building stones at the connection pad under the cooling of condenser, makes large aggregate rapid solidification to make large aggregate extrude through rotatory mode, and discharge large aggregate of shaping from the through-hole discharge, reduce the edges and corners of large aggregate surface, improve the shaping degree of consistency of large aggregate, strengthen the intensity of large aggregate self material.

Description

Be used for even forming device of concrete large aggregate production smelting process

Technical Field

The invention relates to the technical field of large aggregate production, in particular to a uniform forming device used in the production and smelting process of concrete large aggregates.

Background

The concrete large aggregate is one of the most important industrial and civil building materials, the concrete is formed by mixing and stirring the aggregate, cement, water, additives and other materials according to a designed mixing ratio, in the concrete, the quality of the aggregate is good or bad, the quality of the concrete is very important, the aggregate is divided into natural aggregate, recycled aggregate and artificial aggregate, and the aggregate is the framework of the concrete. Because the concrete contains the aggregate, the concrete can resist and realize the pressure intensity, and the indexes of the durability, the anti-shrinkage capability and the like can be greatly improved.

However, during the production of concrete large aggregates, the aggregates have different shapes and sizes, and in the actual use process, the shapes and sizes of the aggregates are not uniform, so that the stress in the concrete is not uniform, and meanwhile, the coarse and angular aggregates are tightly combined in the concrete, so that the surface area is larger, the inter-particle friction is large, and the vibration is more laborious in the construction process, thereby reducing the construction performance of the concrete.

Disclosure of Invention

The invention aims to provide a uniform forming device for a concrete large aggregate production and smelting process, which aims to solve the problems that aggregates proposed in the background art have different shapes and sizes, the shapes and sizes cannot cause uneven stress in the concrete in the actual use process, meanwhile, the coarse and multi-edge aggregates are tightly combined in the concrete, the surface area is larger, the inter-particle friction is large, and the vibration is laborious in the construction process, so that the construction performance of the concrete is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: a be used for even forming device of concrete large aggregate production smelting process, includes:

the support frame is a main support structure of the equipment, the bottom end of the support frame is provided with a frame, and one end of the frame is provided with a screening machine;

the crushing box is positioned at the top end of the supporting frame, a servo motor is arranged on the outer surface of the crushing box, one end of the servo motor is connected with a first transmission chain, and the other end of the first transmission chain is connected with a movable shaft;

the smelting box is positioned at the bottom end of the support frame, a smoke exhaust pipe and a water delivery pipe are respectively arranged inside the smelting box, and the water delivery pipe is positioned at the right end of the smoke exhaust pipe;

the heat conduction shell is positioned at the bottom end of the smelting box, a three-phase motor is arranged on the outer surface of the heat conduction shell, and one end of the three-phase motor is connected with a connecting disc;

the water tank is positioned on the outer surface of the front end of the heat conduction shell, a condenser is arranged in the water tank, and an evaporation chamber is connected to the outer surface of the water tank;

the conveying belt is positioned inside the rack, and linkage rollers are arranged at the left end and the right end of the conveying belt;

the driving box is positioned on the outer surface of the left end of the heat-conducting shell, and a first rotating shaft, a second rotating shaft and a third rotating shaft are arranged in the driving box;

the crushing support plate is positioned inside the crushing box, the outer surface of the top end of the crushing support plate is connected with a balance frame, and the other end of the balance frame is mutually connected with the top end of the crushing box;

as a preferable technical scheme, the crushing box is internally connected with a wheel shaft and a movable shaft, arc-shaped grooves are formed in the front end and the rear end of the crushing box and are in sliding connection with the movable shaft, the movable shaft and the outer surface of the wheel shaft are connected with supporting arms, hydraulic rods and crushing auxiliary plates are respectively arranged on the outer surfaces of the supporting arms, and the crushing auxiliary plates are located on opposite surfaces of the hydraulic rods.

Adopt above-mentioned technical scheme, servo motor carries out the interlock through first driving chain and loose axle, and the loose axle carries out centrifugal rotation to broken wheel, and broken wheel carries out the building stones to be broken, and the support arm cooperation hydraulic stem is convenient for adjust the angle of broken wheel simultaneously, and broken wheel uses the shaft as the central point to rotate, makes the interval of broken wheel and broken extension board reduce, can carry out self-adaptation regulation according to the type size of building stones.

According to the preferable technical scheme, crushing lugs are distributed on the outer surface of the crushing support plate at equal intervals, the crushing support plate and the crushing auxiliary plate are of the same structure, the bottom end of the crushing support plate is rotatably connected with a rotating seat, the crushing support plate is rotatably connected with a crushing box through a balance frame, a telescopic rod is arranged on the back of the crushing auxiliary plate, a spring is arranged on the outer surface of the telescopic rod, and a blanking gap is formed between the crushing support plate and the crushing auxiliary plate.

Adopt above-mentioned technical scheme, broken lug that broken extension board surface set up can increase frictional force, and can assist broken wheel pair building stones to carry out the breakage, the unloading clearance that forms between broken extension board and the broken auxiliary plate is convenient for transmit big aggregate inside the equipment, carry out broken in-process at broken extension board and broken wheel pair building stones, can last cause the extrusion to broken extension board, lead to broken extension board aggravation wearing and tearing, cushion broken extension board by the spring of telescopic link cooperation surface, the balancing stand balances broken extension board top simultaneously, make the atress of broken extension board more even, at the in-process of buffering, the shake that can utilize broken extension board to produce dredges the building stones after the breakage, avoid big aggregate grain to block up in the unloading clearance, the stability of unloading work has been increased.

According to the preferable technical scheme, the spiral reinforcing components are symmetrically arranged inside the smelting box, the outer surface of each spiral reinforcing component is connected with an electric heating layer in a fitting mode, the outer surface of the smelting box is provided with a hot-pressing support, the hot-pressing support is connected with the outer surface of one end of each spiral reinforcing component in a fitting mode, a filter plate is arranged inside the smelting box, a heat insulation layer is arranged inside an interlayer of the smelting box, and the bottom end of the smelting box is symmetrically provided with inclined plates.

Adopt above-mentioned technical scheme, smelt the case and smelt building stones by fuel cooperation electric heating layer, at the in-process of smelting incasement portion intensification, pass through the friction that centrifugal rotation caused by spiral reinforcing component to increase the inside building stones fusing point of equipment, spiral reinforcing component cooperation hot pressing support carries out supplementary centre gripping to the both ends of equipment, and concentrate the heat in smelting the incasement with the physics method of raising the temperature of spiral reinforcing component, improve the effect of smelting to the big aggregate of concrete.

According to the preferable technical scheme, the heat-conducting shell is attached to and connected with the condenser, the heat-conducting shell is connected with the connecting disc through the three-phase motor, a through hole is formed in the connecting disc, the forming disc is arranged in the connecting disc, and grooves are distributed on the outer surface of the forming disc at equal intervals.

Adopt above-mentioned technical scheme, the heat conduction casing has fine cold and hot conductivity, when the one end of heat conduction casing and condenser laminating, inside the heat conduction casing was carried to the inside condensation gas that produces of condenser, the connection pad is located same water flat line with the output of condenser with the surface of shaping dish, can be quick carry out rapid cooling to the temperature of connection pad and shaping dish body, the mode that utilizes the cooling increases the shaping speed of big aggregate, and extrude the building stones by connection pad and shaping dish, make the shaping shape of big aggregate more even, increase the intensity of big aggregate bulk material.

As a preferred technical scheme of the present invention, the driving box is movably connected to the second rotating shaft and the third rotating shaft, the outer surface of the third rotating shaft is provided with a third transmission chain and a driven gear, the outer surface of the second rotating shaft is slidably connected to the inner surface of the first rotating shaft, the outer surface of the first rotating shaft is connected to a linkage gear, the third rotating shaft is meshed with the linkage gear through the driven gear, the second rotating shaft penetrates through the first rotating shaft and is connected to the inner wall of the left end of the connecting disc, and the outer surface of one end of the second rotating shaft is fixedly connected to the forming disc.

By adopting the technical scheme, the driving box is a shell of a main driving structure, the top end of the driving box is provided with the top cover which is connected in a rotating mode, the internal sealing performance is convenient to guarantee, and meanwhile, the maintenance is convenient to carry out, the first rotating shaft is driven by the linkage gear and the driven gear, the third rotating shaft and the first rotating shaft rotate oppositely, the third rotating shaft is driven by the third driving chain and the second rotating shaft, the second rotating shaft and the third rotating shaft rotate synchronously, the second rotating shaft rotates in the opposite direction in the first rotating shaft, the connecting disc and the forming disc rotate oppositely, the centrifugal force in the forming disc and the connecting disc is increased, the large aggregate in the gap is thrown in a rotating mode, the large aggregate is shaped by matching with the groove, the granular large aggregate is discharged from the through hole, and the forming effect of the large aggregate is increased.

According to the preferable technical scheme, the conveyor belt and the second transmission chain form a transmission structure through the linkage roller, the other end of the second transmission chain is connected with the direct current motor, the front end and the rear end of the conveyor belt are attached to the inner surface of the frame, the inner surface of the frame is rotatably connected with the cleaning blade, the cleaning blade is in sliding connection with the conveyor belt, and the outer surface of one end of the frame is connected with the material guide plate.

Adopt above-mentioned technical scheme, direct current motor transmits through second driving chain and linkage roller, make the conveyer belt be in the function state, the conveyer belt carries out the unloading to the big aggregate that equipment dropped and carries, when big aggregate is located conveyer belt one end border position, shoveled out by cleaning the big aggregate of blade with the conveyer belt surface, and cooperate the stock guide to carry big aggregate to sieve in carrying the screening machine, can avoid big aggregate to drop from the conveyer belt bottom, and the clean and tidy degree of the surface of conveyer belt has been guaranteed, the unloading efficiency of big aggregate has still been increased simultaneously, thereby holistic practicality has been increased.

Compared with the prior art, the invention has the beneficial effects that: this be used for concrete large aggregate production smelting process uniform forming device:

1. the crushing support plate and the crushing auxiliary plate are arranged in the crushing box, the telescopic rod and the spring are arranged on the back of the crushing support plate, and the two ends of the telescopic rod are respectively provided with the rotating seat in rotating connection, so that when the crushing support plate and the crushing wheel crush stones, the self-adaptive buffering can be carried out according to the size of the stones, and the crushed stones flow into the bottom end from the gap between the crushing support plate and the crushing auxiliary plate by utilizing the vibration, not only can the buffering protection effect be achieved, but also the stability of the blanking can be improved;

2. the spiral reinforcing component is arranged in the smelting box, the spiral reinforcing component continuously rotates under the action of hot pressing, the temperature in the smelting box is locked by utilizing centrifugal force, the interior of the smelting box can also be heated, the hot pressing support is arranged between the spiral reinforcing components, the balance between the spiral reinforcing components can be well balanced, the smelting efficiency of large aggregates in the equipment is improved, in the smelting process, fragile stones in the large aggregates can be filtered, gaps in the large aggregates are reduced, the strength reduction of the large aggregates caused by bubbles is avoided, and the processing quality of the large aggregates is improved;

3. through setting up the connection pad at the surface of shaping dish, the both ends of connection pad are connected with three-phase motor and transmission shaft respectively, under the transmission structure of drive incasement portion, make the shaping dish advance rotatoryly in the inside relative direction of connection pad, fluidic building stones flow into the shaping dish between the connection pad from the through-hole, the shaping dish is under the cooling of connection pad at the condenser, can conduct inside the building stones with air conditioning, make big aggregate rapid solidification, and make big aggregate extrude through rotatory mode, and discharge fashioned big aggregate from the through-hole, reduce the edges and corners of big aggregate surface, strengthen the intensity of big aggregate self material, improve the practical value of big aggregate.

Drawings

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

FIG. 2 is a schematic overall side view of the present invention;

FIG. 3 is a schematic view of the internal structure of the crushing box of the present invention;

FIG. 4 is a schematic view of the internal structure of the melting box of the invention;

FIG. 5 is a schematic view of the internal structure of the heat-conducting housing according to the present invention;

FIG. 6 is a schematic view of the internal structure of the housing of the present invention;

FIG. 7 is a side view of the forming plate and the connecting plate of the present invention.

In the figure: 1. a support frame; 101. a frame; 102. screening machine; 2. a crushing box; 21. a wheel axle; 22. a crushing wheel; 23. a movable shaft; 24. an arc-shaped slot; 25. a support arm; 26. a hydraulic lever; 27. a blanking gap; 28. a first drive chain; 29. a servo motor; 3. a smelting box; 31. a helical reinforcement assembly; 32. hot-pressing the bracket; 33. a smoke exhaust pipe; 34. a water delivery pipe; 35. an electric heating layer; 36. filtering the plate; 37. a thermal insulation layer; 38. a sloping plate; 4. a thermally conductive housing; 41. a three-phase motor; 42. a connecting disc; 43. a through hole; 44. forming a disc; 45. a groove; 5. a water tank; 51. a condenser; 52. an evaporation chamber; 6. a conveyor belt; 61. a linkage roller; 62. cleaning a blade; 63. a material guide plate; 64. a second drive chain; 65. a direct current motor; 7. a drive box; 71. a first rotating shaft; 72. a second rotating shaft; 73. a third drive chain; 74. a third rotating shaft; 75. a driven gear; 76. a linkage gear; 8. crushing the support plate; 81. a balancing stand; 82. crushing the auxiliary plate; 83. a telescopic rod; 84. a spring; 85. a rotating seat; 86. and breaking the bumps.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a be used for concrete large aggregate production smelting process homogeneous forming device includes:

the support frame 1 is a main support structure of the equipment, the bottom end of the support frame 1 is provided with a frame 101, and one end of the frame 101 is provided with a screening machine 102; the crushing box 2 is positioned at the top end of the support frame 1, a servo motor 29 is arranged on the outer surface of the crushing box 2, one end of the servo motor 29 is connected with a first transmission chain 28, and the other end of the first transmission chain 28 is connected with a movable shaft 23; the smelting box 3 is positioned at the bottom end of the support frame 1, a smoke exhaust pipe 33 and a water delivery pipe 34 are respectively arranged inside the smelting box 3, and the water delivery pipe 34 is positioned at the right end of the smoke exhaust pipe 33; the heat-conducting shell 4 is positioned at the bottom end of the smelting box 3, a three-phase motor 41 is arranged on the outer surface of the heat-conducting shell 4, and one end of the three-phase motor 41 is connected with a connecting disc 42; a water tank 5 positioned on the outer surface of the front end of the heat conduction shell 4, wherein a condenser 51 is arranged in the water tank 5, and an evaporation chamber 52 is connected to the outer surface of the water tank 5; the conveyor belt 6 is positioned inside the rack 101, and linkage rollers 61 are arranged at the left end and the right end of the conveyor belt 6; a driving box 7 located on the outer surface of the left end of the heat conducting shell 4, wherein a first rotating shaft 71, a second rotating shaft 72 and a third rotating shaft 74 are arranged inside the driving box 7; the crushing support plate 8 is positioned inside the crushing box 2, the outer surface of the top end of the crushing support plate 8 is connected with a balance frame 81, and the other end of the balance frame 81 is connected with the top end of the crushing box 2;

the inside connection of broken case 2 has shaft 21 and loose axle 23, arc wall 24 has been seted up at the front and back both ends of broken case 2, arc wall 24 and loose axle 23 sliding connection, loose axle 23 is connected with support arm 25 with the surface of shaft 21, the surface of support arm 25 is provided with hydraulic stem 26 and broken auxiliary plate 82 respectively, broken auxiliary plate 82 is located the opposite face of hydraulic stem 26, servo motor 29 carries out the interlock through first driving chain 28 and loose axle 23, loose axle 23 carries out centrifugal rotation to broken wheel 22, broken wheel 22 is broken the building stones, support arm 25 cooperates hydraulic stem 26 to be convenient for adjust the angle of broken wheel 22 simultaneously, broken wheel 22 uses shaft 21 as the central point to rotate, make the interval of broken wheel 22 and broken extension board 8 reduce, can carry out self-adaptation regulation according to the type size of building stones.

The crushing supporting plate 8 and the crushing auxiliary plate 82 are of the same structure, the bottom end of the crushing supporting plate 8 is rotatably connected with a rotating seat 85, the crushing supporting plate 8 is rotatably connected with the crushing box 2 through a balance frame 81, a telescopic rod 83 is arranged on the back of the crushing auxiliary plate 82, a spring 84 is arranged on the outer surface of the telescopic rod 83, a blanking gap 27 is formed between the crushing supporting plate 8 and the crushing auxiliary plate 82, the crushing lugs 86 arranged on the outer surface of the crushing supporting plate 8 can increase friction force and can assist the crushing wheel 22 to crush stones, the blanking gap 27 formed between the crushing supporting plate 8 and the crushing auxiliary plate 82 facilitates the transmission of large aggregates into equipment, the crushing supporting plate 8 and the crushing wheel 22 can continuously extrude the crushing supporting plate 8 in the process of crushing, the crushing supporting plate 8 is accelerated to wear, the telescopic rod 83 is matched with the spring 84 on the outer surface to buffer the crushing supporting plate 8, meanwhile, the balance frame 81 balances the top end of the crushing supporting plate 8, stress of the crushing supporting plate 8 is more uniform, in the buffering process, the shaking generated by the crushing supporting plate 8 can be utilized to dredge crushed stones, the working gap of the large aggregates is prevented from being blocked, and the working gap 27 of the large aggregates is increased in the blanking gap.

Smelt the inside symmetry of case 3 and be provided with spiral reinforcing component 31, the surface laminating of spiral reinforcing component 31 is connected with electric heating layer 35, the surface of smelting case 3 is provided with hot pressing support 32, hot pressing support 32 is connected with spiral reinforcing component 31's one end surface laminating, it is provided with filter plate 36 to smelt the inside filter plate 36 that is provided with of case 3, smelt the inside insulating layer 37 that is equipped with of intermediate layer of case 3, the bottom symmetry of smelting case 3 is provided with swash plate 38, it is smelted the building stones by fuel cooperation electric heating layer 35 to smelt case 3, at the in-process of smelting the inside intensification of case 3, the friction that causes through centrifugal rotation by spiral reinforcing component 31, with the building stones melting point of increasing equipment inside, spiral reinforcing component 31 cooperates hot pressing support 32 to carry out supplementary centre gripping to the both ends of equipment, and concentrate the heat in smelting case 3 with spiral reinforcing component 31's physics method, improve the effect of smelting to the big aggregate of concrete.

Heat conduction casing 4 is connected with the laminating of condenser 51, heat conduction casing 4 is through three-phase motor 41 and connection pad 42 interconnect, the inside through-hole 43 of having seted up of connection pad 42, the inside shaping dish 44 that is provided with of connection pad 42, the equidistant distribution of surface of shaping dish 44 has recess 45, heat conduction casing 4 has fine cold and hot conductivity, when the one end of heat conduction casing 4 was laminated with condenser 51, the inside condensation gas that produces of condenser 51 is carried inside heat conduction casing 4, the surface of connection pad 42 and shaping dish 44 is located same water flat line with condenser 51's output, can be quick carry out rapid cooling to the temperature of connection pad 42 and shaping dish 44 body, utilize the mode of cooling to increase the shaping speed of big aggregate, and extrude the building stones by connection pad 42 and shaping dish 44, make the shaping shape of big aggregate more even, increase big aggregate bulk material's intensity.

The driving box 7 is movably connected with a second rotating shaft 72 and a third rotating shaft 74, a third transmission chain 73 and a driven gear 75 are arranged on the outer surface of the third rotating shaft 74, the outer surface of the second rotating shaft 72 is connected with the inner surface of the first rotating shaft 71 in a sliding manner, the outer surface of the first rotating shaft 71 is connected with a linkage gear 76, the third rotating shaft 74 is meshed with the linkage gear 76 through the driven gear 75, the second rotating shaft 72 penetrates through the first rotating shaft 71 and is connected with the inner wall of the left end of the connecting disc 42, the outer surface of one end of the second rotating shaft 72 is fixedly connected with the forming disc 44, the driving box 7 is a shell of a main driving structure, a top cover which is connected in a rotating manner is arranged at the top end of the driving box 7, so that the internal sealing performance is ensured, and maintenance is facilitated, the first rotating shaft 71 is transmitted with the driven gear 75 through the linkage gear 76, the third rotating shaft 74 rotates in the opposite direction to the first rotating shaft 71, the third rotating shaft 74 is transmitted with the second rotating shaft 72 through the third transmission chain 73, the second rotating shaft 72 rotates in the opposite direction to the connecting disc 42, the opposite direction to increase the rotating direction of the forming disc 44, the aggregate, the rotating clearance of the forming disc 42 is increased, and the aggregate is discharged from the inner clearance of the forming disc 42, and the aggregate forming disc 44, and the aggregate is increased, and the aggregate is discharged from the aggregate forming disc 42, and the aggregate forming disc 45.

The conveyor belt 6 and the second transmission chain 64 form a transmission structure through the linkage roller 61, the other end of the second transmission chain 64 is connected with the direct current motor 65, the front end and the rear end of the conveyor belt 6 are attached to the inner surface of the frame 101, the inner surface of the frame 101 is rotatably connected with the cleaning blade 62, the cleaning blade 62 is in sliding connection with the conveyor belt 6, the outer surface of one end of the frame 101 is connected with the material guide plate 63, the direct current motor 65 is in transmission with the linkage roller 61 through the second transmission chain 64, the conveyor belt 6 is in an operating state, the conveyor belt 6 carries out blanking conveying on large aggregates dropped by equipment, when the large aggregates are located at the edge position of one end of the conveyor belt 6, the large aggregates on the outer surface of the conveyor belt 6 are shoveled out by the cleaning blade 62 and are conveyed into the screening machine 102 by matching with the material guide plate 63 for screening, the large aggregates can be prevented from falling from the bottom end of the conveyor belt 6, the cleanliness of the outer surface of the conveyor belt 6 is ensured, meanwhile, the blanking efficiency of the large aggregates is increased, and the overall practicability is increased.

The working principle is as follows: when the uniform forming device for the concrete large aggregate production smelting process is used, firstly, large aggregate raw materials are put into the device from the upper end of the crushing box 2, the servo motor 29 is started to rotate the first transmission chain 28, the first transmission chain 28 and the movable shaft 23 are transmitted, the crushing wheel 22 is in a high-speed rotating state, the crushing work is carried out by utilizing the contact of the crushing wheel 22 and stones, the stones are continuously rubbed between the crushing wheel 22 and the crushing support plate 8 and are rubbed to be in a powder state to be discharged into the smelting box 3, in the crushing process, the crushing support plate 8 is continuously vibrated under the action of the spring 84 by the telescopic rod 83, the buffer effect can be achieved, the service durability of the crushing support plate 8 is improved, meanwhile, the large aggregate raw materials can be discharged by vibration to avoid blockage, then the electric heating layer 35 heats the inside of the device, the wind pressure and the temperature inside the device are assisted by the spiral reinforcing component 31, then, a proper amount of water and solvent are discharged from the water conveying pipe 34, so that powdery stone and liquid are mixed, smelting is carried out in a high-temperature environment, flue gas generated in the smelting process is discharged from the smoke discharge pipe 33, the inclined plate 38 is opened after smelting, the inclined plate 38 opens a channel between the smelting box 3 and the heat conduction shell 4 in a rotating mode, so that raw materials flow into the heat conduction shell 4, then the condenser 51 conveys condensed gas into the heat conduction shell 4, the interior of the heat conduction shell 4 is in a low-temperature state, high-temperature large aggregates enter through the through hole 43 of the connecting disc 42, then the connecting disc 42 is rotated by the three-phase motor 41, the connecting disc 42 is driven by the driven gear 75 through the interlocking gear 76 of the first rotating shaft 71, so that the third rotating shaft 74 connected with the driven gear 75 rotates, and the third driving chain 73 is connected to the outer surfaces of the second rotating shaft 72 and the third rotating shaft 74, the second rotating shaft 72 and the first rotating shaft 71 rotate oppositely, the forming disc 44 and the connecting disc 42 rotate transversely, materials in the inner gap are thrown, large aggregates solidified in the grooves 45 in the forming disc 44 fall off, the three-phase motor 41 is started and controlled to intermittently rotate the connecting disc 42 and the forming disc 44, selection can be performed according to the blanking condition, the formed large aggregates fall onto the conveying belt 6, the conveying belt 6 is driven by a transmission structure formed by the direct current motor 65 and the second transmission chain 64, the conveying belt 6 conveys the large aggregates, when the large aggregates are located at the edge of one end of the conveying belt 6, the large aggregates on the outer surface of the conveying belt 6 are shoveled out by the cleaning blade 62 and conveyed into the screening machine 102 by matching with the guide plate 63 for screening, the large aggregates can be prevented from falling from the bottom end of the conveying belt 6, the cleanliness of the outer surface of the conveying belt 6 is guaranteed, the blanking efficiency of the large aggregates is increased, and the overall practicability is increased.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a be used for even forming device of concrete large aggregate production smelting process which characterized in that includes:

the support frame (1) is a main support structure of equipment, a rack (101) is arranged at the bottom end of the support frame (1), and a screening machine (102) is arranged at one end of the rack (101);

the crushing box (2) is positioned at the top end of the supporting frame (1), a servo motor (29) is arranged on the outer surface of the crushing box (2), one end of the servo motor (29) is connected with a first transmission chain (28), and the other end of the first transmission chain (28) is connected with a movable shaft (23);

the smelting box (3) is positioned at the bottom end of the support frame (1), a smoke exhaust pipe (33) and a water delivery pipe (34) are respectively arranged in the smelting box (3), and the water delivery pipe (34) is positioned at the right end of the smoke exhaust pipe (33);

the heat conduction shell (4) is positioned at the bottom end of the smelting box (3), a three-phase motor (41) is arranged on the outer surface of the heat conduction shell (4), and one end of the three-phase motor (41) is connected with a connecting disc (42);

the water tank (5) is positioned on the outer surface of the front end of the heat conduction shell (4), a condenser (51) is arranged in the water tank (5), and an evaporation chamber (52) is connected to the outer surface of the water tank (5);

the conveying belt (6) is positioned inside the rack (101), and linkage rollers (61) are arranged at the left end and the right end of the conveying belt (6);

the driving box (7) is positioned on the outer surface of the left end of the heat conduction shell (4), and a first rotating shaft (71), a second rotating shaft (72) and a third rotating shaft (74) are arranged inside the driving box (7);

the crushing support plate (8) is positioned inside the crushing box (2), the outer surface of the top end of the crushing support plate (8) is connected with a balance frame (81), and the other end of the balance frame (81) is connected with the top end of the crushing box (2);

the crushing box (2) is internally connected with a wheel shaft (21) and a movable shaft (23), arc-shaped grooves (24) are formed in the front end and the rear end of the crushing box (2), the arc-shaped grooves (24) are connected with the movable shaft (23) in a sliding mode, the outer surfaces of the movable shaft (23) and the wheel shaft (21) are connected with supporting arms (25), the outer surfaces of the supporting arms (25) are respectively provided with a hydraulic rod (26) and a crushing auxiliary plate (82), and the crushing auxiliary plates (82) are located on opposite surfaces of the hydraulic rod (26);

crushing lugs (86) are distributed on the outer surface of the crushing support plate (8) at equal intervals, the crushing support plate (8) and the crushing auxiliary plate (82) are of the same structure, the bottom end of the crushing support plate (8) is rotatably connected with a rotating seat (85), the crushing support plate (8) is rotatably connected with the crushing box (2) through a balance frame (81), an expansion rod (83) is arranged on the back surface of the crushing auxiliary plate (82), a spring (84) is arranged on the outer surface of the expansion rod (83), and a blanking gap (27) is formed between the crushing support plate (8) and the crushing auxiliary plate (82);

spiral reinforcing components (31) are symmetrically arranged inside the smelting box (3), an electric heating layer (35) is attached to the outer surface of each spiral reinforcing component (31), a hot-pressing support (32) is arranged on the outer surface of the smelting box (3), the hot-pressing support (32) is attached to the outer surface of one end of each spiral reinforcing component (31), a filter plate (36) is arranged inside the smelting box (3), a heat insulation layer (37) is arranged inside an interlayer of the smelting box (3), and inclined plates (38) are symmetrically arranged at the bottom end of the smelting box (3);

heat conduction casing (4) are connected with condenser (51) laminating, heat conduction casing (4) are through three-phase motor (41) and connection pad (42) interconnect, through-hole (43) have been seted up to connection pad (42) inside, connection pad (42) inside is provided with shaping dish (44), the equidistant distribution of surface of shaping dish (44) has recess (45).

2. The uniform forming device for the production and smelting process of the concrete large aggregate according to claim 1, which is characterized in that: drive case (7) and second pivot (72) and third pivot (74) swing joint, third pivot (74) surface is provided with third driving chain (73) and driven gear (75), second pivot (72) surface and first pivot (71) internal surface sliding connection, the surface of first pivot (71) is connected with interlock gear (76), third pivot (74) are connected with interlock gear (76) meshing through driven gear (75), second pivot (72) run through first pivot (71) and connection pad (42) left end inner wall interconnect, the one end surface and the shaping dish (44) fixed connection of second pivot (72).

3. The uniform forming device for the production and smelting process of the concrete large aggregate according to claim 1, which is characterized in that: conveyer belt (6) constitute transmission structure through linkage roller (61) and second driving chain (64), the other end and direct current motor (65) interconnect of second driving chain (64), both ends laminating is at frame (101) internal surface around conveyer belt (6), frame (101) internal surface rotates and is connected with and cleans blade (62), it is sliding connection with conveyer belt (6) to clean blade (62), the one end surface of frame (101) is connected with stock guide (63).

Images