CN116587433B

CN116587433B - Multistage compounding formula high ductility concrete conveying device

Info

Publication number: CN116587433B
Application number: CN202310778346.3A
Authority: CN
Inventors: 夏春蕾; 王永久; 张建雄; 燕斌; 陶水忠; 邢百朋; 李宇容; 张雄飞
Original assignee: Beijing Guodaotong Highway Design&research Institute Co ltd; Beijing Jingcheng Group Co ltd; Beijing Municipal Road and Bridge Co Ltd; Beijing Municipal Engineering Research Institute
Current assignee: Beijing Guodaotong Highway Design&research Institute Co ltd; Beijing Jingcheng Group Co ltd; Beijing Municipal Road and Bridge Co Ltd; Beijing Municipal Engineering Research Institute
Priority date: 2023-06-29
Filing date: 2023-06-29
Publication date: 2024-09-06
Anticipated expiration: 2043-06-29
Also published as: CN116587433A

Abstract

The invention discloses a multistage mixing type high-ductility concrete conveying device, which comprises a device base, wherein a grading conveying device for conveying concrete materials is arranged between a first bracket and a second bracket, a charging hopper structure capable of quantitatively charging the concrete materials is arranged in the grading conveying device, a stirring mechanism capable of rapidly mixing the concrete materials is arranged in the mixing device, and a waste collection structure capable of recycling the concrete materials is arranged between a driving mechanism and the grading conveying device: through setting up hierarchical conveyor and charging hopper structure for not only can use to carry out the ration to various raw and other materials when carrying high ductility concrete raw and other materials and carry out the ration to the concrete volume of ability accurate control, and the hopper main part can revolute the section of thick bamboo and rotate to hopper main part opening downwards under the rotary drum effect when carrying raw and other materials, thereby reaches the function of automatic unloading, greatly increased concrete transportation's efficiency.

Description

Multistage compounding formula high ductility concrete conveying device

Technical Field

The invention relates to the technical field of concrete, in particular to a multistage mixing type high-ductility concrete conveying device.

Background

The high-ductility concrete has good ductility and toughness under a certain load effect, and can effectively resist the generation and expansion of cracks, and the composition of the high-ductility concrete mainly comprises cementing materials, aggregate and additives.

The multistage mixing is a special concrete preparation mode, and different aggregates and admixtures are sequentially added on a plurality of grades, so that the structure, performance and characteristics of the concrete are changed.

In the prior art, the multistage mixing and batching of the high-ductility concrete generally adopts an automatic batching mode and a manual batching mode, wherein the automatic batching mode is realized by a computer control system, so that each raw material is automatically discharged to a concrete mixer truck for mixing according to a certain proportion, and finally the mixer truck transports the high-ductility concrete to a construction site for use; the manual batching is a traditional batching mode, and a worker is required to manually mix materials such as cement, aggregate, admixture and the like according to a certain proportion according to a design standard, and the materials are conveyed into a stirrer to finish stirring after mixing.

In real life, the existing automatic batching system of high-ductility concrete is composed of large-scale equipment such as conveying equipment of various raw materials and batching bins, so that the whole batching system cannot be adjusted and transferred according to actual requirements, the production of the high-ductility concrete cannot be carried out on a construction site, and the automatic batching system has great use limitation;

The concrete needed by many construction sites is often manually proportioned on the construction sites, and the manual proportioning mode not only can roughly mix the proportioned materials, so that whether the high-ductility concrete is qualified or not cannot be ensured, but also has the defects of low working efficiency, difficult accurate control of slurry amount and the like;

For the mixer for carrying out concrete mixing on a construction site, the working process of the concrete mixer in the prior art is that a mixing drum rotates, and a mixing blade continuously mixes concrete raw materials from the bottom of the drum to the top of the drum and then falls to the bottom of the drum when the mixing drum rotates, so that the function of uniform mixing is achieved, but the mixing mode only has the mixing effect when the concrete raw materials fall to the bottom of the drum from the top of the drum, and the mixing direction is single, so that the mixing rate of the concrete raw materials cannot be greatly improved, and the mixing time of the concrete raw materials is overlong.

Disclosure of Invention

The invention provides a multistage mixing type high-ductility concrete conveying device for solving the various problems.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

The multistage mixing type high-ductility concrete conveying device comprises a device base, a control panel is arranged above the device base, a first support is arranged on the left side of the control panel, a second support is arranged on the left side of the first support, a grading conveying device for conveying concrete materials is arranged between the first support and the second support, a charging hopper structure capable of quantitatively containing the concrete materials is arranged inside the grading conveying device, a mixing device capable of fully mixing the concrete materials is arranged on the left side of the second support, a stirring mechanism capable of enabling the concrete materials to be quickly mixed is arranged inside the mixing device, a driving mechanism capable of providing kinetic energy for the grading conveying device and the stirring mechanism is arranged below the grading conveying device, a first transmission structure and a second transmission structure are respectively connected between the driving mechanism and the grading conveying device and between the driving mechanism and the stirring mechanism, and a waste collecting structure capable of recycling the concrete materials is arranged between the driving mechanism and the grading conveying device;

The grading conveying device comprises two driving shafts and two driven shafts, wherein the driving shafts penetrate through the top of a support, a first bevel gear is arranged at the outer end of the driving shafts, a first driving wheel is fixed at the inner end of the driving shafts, a rotary drum is arranged on the driven shafts, first driven wheels are arranged at the two ends of the rotary drum, a first driving belt is connected between each first driven wheel and each first driving wheel, a connecting block is uniformly arranged on each first driving belt, a hinging rod is fixed at the inner end of each connecting block, the outer portions of the hinging rods are hinged to the top of a weighing device, and a charging hopper structure is arranged between the two corresponding weighing devices.

As an improvement, the charging hopper structure comprises a hopper main body, hinged blocks are arranged on the end faces of two sides of the hopper main body, the hinged blocks are hinged to the bottom of the weighing device, limiting blocks are arranged at the inner ends of hinged rods, and rollers are arranged on the hopper main body.

As an improvement, compounding device includes the compounding bucket, compounding bucket top is equipped with connects the silo, compounding bucket right-hand member face is equipped with two perforations, the preceding terminal surface of compounding bucket is fixed with solid fixed ring, gu fixed ring is fixed with electric telescopic handle, electric telescopic handle lower extreme is connected with the baffle, the baffle below is equipped with the blown down tank, the terminal surface is equipped with the discharge gate before the inside compounding bucket of blown down tank, the inside baffle that is equipped with of compounding bucket, compounding bucket bottom is equipped with rabbling mechanism.

As an improvement, rabbling mechanism includes second action wheel, second follow driving wheel, the compounding bucket bottom is equipped with the chassis, the chassis top is equipped with down the runner, the runner up end is fixed with first pivot down, first pivot top evenly is equipped with the scraper blade, first pivot outside cover has the fixed block that is located runner top down, be connected with the dead lever between fixed block and the compounding bucket, the up end is equipped with the runner, it is fixed with the second pivot of cover in first pivot outside to go up the runner up end, second pivot top evenly is equipped with the stirring rake, second action wheel, second follow driving wheel, go up the runner, be connected with the second drive belt down between the runner, actuating mechanism passes through transmission structure two drive second action wheels and rotates.

As an improvement, the driving mechanism comprises a motor base, a driving motor is fixed on the motor base, a second bevel gear is arranged at the output end of the driving motor, and a first transmission structure is arranged on the left side of the second bevel gear.

As an improvement, the first transmission structure comprises a first transmission rod, a third bevel gear meshed with the second bevel gear is arranged on the first transmission rod, a second transmission structure is arranged on the left side of the third bevel gear, the first transmission rod penetrates through the support and is connected with the first support in a rotating mode, fourth bevel gears are fixed at two ends of the first transmission rod, the fourth bevel gears are meshed with the bottom of the first transmission member, and the top of the first transmission member is meshed with the first bevel gears.

As an improvement, the second transmission structure comprises a second transmission part, the right end of the second transmission part is meshed with a third bevel gear, a second transmission rod is arranged on the left side of the second transmission part, the second transmission rod is rotationally connected with the second support, the second driving wheel and the second driven wheel are sleeved outside the second transmission rod, the second driving wheel, the second driven wheel and the second transmission rod are respectively fixedly connected and rotationally connected, a fifth bevel gear is fixedly sleeved on the second transmission rod, and the fifth bevel gear is meshed with the left end of the second transmission part.

As an improvement, waste collection structure includes the inclined groove, the inclined groove left end is the arch shape and is connected with the material receiving groove, and the right-hand member is connected with the buffer tank, buffer tank right part is circular arc shape, and the lower extreme is connected with the front and back penetrating collecting vat, the collecting vat is located device base up end department.

As improvement, support pieces are arranged at four corners below the device base, and travelling wheels are arranged on the inner sides of the support pieces.

Compared with the prior art, the invention has the advantages that: the invention relates to a multistage mixing type high-ductility concrete conveying device, which has the following advantages:

1. through setting up hierarchical conveyor and charging hopper structure for not only can use to carry out the ration to various raw and other materials when carrying high ductility concrete raw and other materials and carry out the ration to the concrete volume of ability accurate control, and the hopper main part can revolute the section of thick bamboo and rotate to hopper main part opening downwards under the rotary drum effect when carrying raw and other materials, thereby reaches the function of automatic unloading, greatly increased concrete transportation's efficiency.

2. The driving mechanism is arranged, the grading conveying device and the stirring mechanism are driven to operate simultaneously through the first transmission structure and the second transmission structure by starting the driving motor, and compared with the two mechanisms driven by double driving respectively, the purchasing cost of equipment can be reduced.

3. Set up the garbage collection structure, through setting up inclined groove and buffer tank can retrieve the material that the hopper main part carelessly spills when carrying the material in the collecting vat, reduce concrete material's loss and waste greatly.

4. The stirring mechanism is arranged, the second driving wheel can be driven to rotate through the second driving belt when the driving motor is started, and the second driving wheel and the second driven wheel are coaxially rotated to generate a reverse rotation effect, so that the upper rotating wheel and the lower rotating wheel can oppositely rotate, the rotation direction of the scraping plate and the rotation direction of the stirring paddle are opposite, and the opposite rotation scraping plate and the stirring paddle can increase the chaotic degree of high-ductility concrete raw materials in the mixing barrel, so that the mixing efficiency is improved, and the stirring time of high-ductility concrete is greatly shortened.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a schematic view of the staged conveyor device of the present invention.

FIG. 3 is a schematic view of the structure of the hopper of the present invention.

Fig. 4 is a partial schematic view of the present invention.

Fig. 5 is a schematic diagram of the transmission of the present invention.

FIG. 6 is a schematic diagram of a mixing device according to the present invention.

FIG. 7 is a cross-sectional view of a mixing device of the present invention.

FIG. 8 is a schematic view of a stirring mechanism according to the present invention.

FIG. 9 is a schematic diagram of a stirring mechanism according to the present invention.

FIG. 10 is a schematic view of the waste collection structure of the present invention.

As shown in the figure: 1. a device base; 2. a support; 3. a walking wheel; 4. a control panel; 5. a first bracket; 6. a second bracket; 7. a hierarchical conveying device; 701. a driving shaft; 702. a first helical gear; 703. a first drive wheel; 704. a rotating drum; 705. a first driven wheel; 706. a driven shaft; 707. a first belt; 708. a connecting block; 709. a hinge rod; 710. a limiting block; 711. a weighing device; 8. a charging hopper structure; 801. a hopper body; 802. a hinge block; 803. a roller; 9. a driving mechanism; 901. a motor base; 902. a driving motor; 903. a second helical gear; 10. a mixing device; 1001. a mixing barrel; 1002. a receiving groove; 1003. perforating; 1004. a fixing ring; 1005. an electric telescopic rod; 1006. a baffle; 1007. a discharge chute; 1008. a discharge port; 1009. a partition plate; 11. a stirring mechanism; 1101. a second driving wheel; 1102. a second driven wheel; 1103. a chassis; 1104. a lower rotating wheel; 1105. a first rotating shaft; 1106. a scraper; 1107. a fixed block; 1108. a fixed rod; 1109. an upper rotating wheel; 1110. a second rotating shaft; 1111. stirring paddles; 1112. a second belt; 12. a first transmission structure; 1201. a third bevel gear; 1202. a first transmission rod; 1203. a fourth helical gear; 1204. a first transmission member; 13. a second transmission structure; 1301. a second transmission member; 1302. a second transmission rod; 1303. a fifth helical gear; 14. a waste collection structure; 1401. an inclined groove; 1402. a buffer tank; 1403. a collection tank.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 and 4, a multistage mixing type high-ductility concrete conveying device comprises a device base 1, a control panel 4 is arranged above the device base 1, a first bracket 5 is arranged on the left side of the control panel 4, a second bracket 6 is arranged on the left side of the first bracket 5, a grading conveying device 7 for conveying concrete materials is arranged between the first bracket 5 and the second bracket 6, a hopper structure 8 capable of quantitatively containing the concrete materials is arranged inside the grading conveying device 7, a mixing device 10 capable of fully mixing the concrete materials is arranged on the left side of the second bracket 6, a stirring mechanism 11 capable of enabling the concrete materials to be quickly mixed is arranged inside the mixing device 10, a driving mechanism 9 capable of providing kinetic energy for the grading conveying device 7 and the stirring mechanism 11 is arranged below the grading conveying device 7, a first transmission structure 12 and a second transmission structure 13 are respectively connected between the driving mechanism 9 and the grading conveying device 11, a waste collection structure 14 capable of recycling the concrete materials is arranged between the driving mechanism 9 and the grading conveying device 7, a supporting piece 2 is arranged at four corners below the device base 1, and a supporting piece 3 is arranged inside the supporting piece 2;

The support piece 2, the walking wheel 3, control panel 4 is prior art, the support piece 2 comprises vaulting pole, the sleeve, the inserted bar is constituteed, need to prop up the device with lifting means such as jack during the use, stretch out the vaulting pole again and thereby fix vaulting pole and sleeve with device base 1 support by the inserted bar, thereby guarantee the stability of device, walking wheel 3 can make the device be convenient for remove, control panel 4 can control the start and stop of actuating mechanism 9, support one 5 and support two 6 can provide the support for classifying conveyor 7, classifying conveyor 7 can carry the hopper that is equipped with high-ductility concrete material to compounding device 10 inside in proper order, rabbling mechanism 11 can the high-ductility concrete material of high-ductility, and by compounding device 10 output finished high-ductility concrete, actuating mechanism 9 can drive rabbling mechanism 11 and classifying conveyor 7 operation simultaneously through transmission structure one 12, transmission structure two 13, garbage collection structure 14 can collect the high-ductility concrete material that spills.

Referring to fig. 5, the driving mechanism 9 includes a motor base 901, a driving motor 902 is fixed on the motor base 901, a second bevel gear 903 is provided at an output end of the driving motor 902, a first transmission structure 12 is provided at a left side of the second bevel gear 903, the first transmission structure 12 includes a first transmission rod 1202, a third bevel gear 1201 meshed with the second bevel gear 903 is provided on the first transmission rod 1202, a second transmission structure 13 is provided at a left side of the third bevel gear 1201, the first transmission rod 1202 passes through the first bracket 5 and is rotatably connected with the first bracket 5, fourth bevel gears 1203 are fixed at both ends, the fourth bevel gear 1203 is meshed with a bottom of the first transmission member 1204, a top of the first transmission member 1204 is meshed with the first bevel gear 702, the second transmission structure 13 includes a second transmission member 1301, a right end of the second transmission member 1301 is meshed with the third bevel gear 1201, a second transmission rod 1302 is provided at a left side thereof, the second transmission rod is rotatably connected with the second bracket 6, the second transmission rod 1102 and the second driven wheel 1102 are sleeved outside the second transmission rod 1101 and the second transmission member 1302, and the fifth transmission member 1302 is rotatably connected with the fifth transmission member 1302;

When the high-ductility concrete conveying device works, the driving motor 902 is started to drive the second bevel gear 903 to rotate, the second bevel gear 903 drives the first transmission rod 1202 and the fourth bevel gear 1203 to rotate anticlockwise through the third bevel gear 1201, the fourth bevel gear 1203 drives the grading conveying device 7 to work through the first transmission member 1204, the third bevel gear 1201 drives the fifth bevel gear 1303 to rotate clockwise through the second transmission member 1301, and the fifth bevel gear 1303 drives the stirring mechanism 11 to operate through the second transmission rod 1302.

Referring to fig. 2 and 3, the grading conveying device 7 includes two driving shafts 701 and two driven shafts 706, the driving shafts 701 penetrate through the top of the first bracket 5, a first bevel gear 702 is provided at the outer end, a first driving wheel 703 is fixed at the inner end, a rotating drum 704 is provided on the driven shafts 706, a first driven wheel 705 is provided at two ends of the rotating drum 704, a first driving belt 707 is connected between the first driven wheel 705 and the first driving wheel 703, a connecting block 708 is uniformly provided on the first driving belt 707, a hinge rod 709 is fixed at the inner end of the connecting block 708, the hinge rod 709 is externally hinged at the top of the weighing machine 711, a charging hopper structure 8 is provided between the two corresponding weighing machines 711, the charging hopper structure 8 includes a hopper main body 801, hinge blocks 802 are provided at two side end surfaces of the hopper main body 801, the hinge blocks 802 are hinged at the bottom of the weighing machine 711, a limiting block 710 is provided at the inner end of the hinge rod 709, and a roller 803 is provided on the hopper main body 801.

The manual work is poured into hopper main part 801 with high ductility concrete material to weigh hopper main part 801 by weighing ware 711 and observe by the manual work, thereby can accurate control concrete quantity, weighing ware 711 is prior art, after high ductility concrete material loads, start actuating mechanism 9, actuating mechanism 9 drives first helical gear 702 anticlockwise rotation through transmission structure one 12, first helical gear 702 drives first action wheel 703 rotation through driving shaft 701, first action wheel 703 drives rotary drum 704 through first drive belt 707, first follow driving wheel 705 rotation, first drive belt 707 passes through connecting block 708, hinge lever 709 drives charging hopper structure 8 and does reverse rotation, when next charging hopper structure 8 rotates to first action wheel 703 department, gyro wheel 803 and rotary drum 704 contact and make the opening of hopper main part round rotary drum 704 circular motion under the drive of first drive belt 707, when hopper main part 801 opening down third charging hopper structure 8 is located first action wheel 703, make first hopper main part 801 to rotate the effect of charging hopper main part under the effect that can be at the same time to the rotary drum of first hopper main part 801 at the time, can carry out reverse rotation to the rotary drum 8 at the time of the rotary drum main part of a big scale, thereby the manual work continues charging, when the charging hopper main part 8 rotates to the position of first charging hopper main part 801, the effect can reach the high-speed charging efficiency at the rotary drum 801, the first charging structure can reach the first charging structure at the time, the round automatic charging hopper structure is greatly rotates the charging efficiency, the top can reach the top of the charging hopper structure is 8, the charging efficiency is achieved.

Referring to fig. 6, fig. 7, fig. 8, and fig. 9, the mixing device 10 includes a mixing barrel 1001, a receiving groove 1002 is provided at the top of the mixing barrel 1001, two perforations 1003 are provided at the right end surface of the mixing barrel 1001, a fixing ring 1004 is fixed at the front end surface of the mixing barrel 1001, an electric telescopic rod 1005 is fixed at the fixing ring 1004, a baffle 1006 is connected to the lower end of the electric telescopic rod 1005, a discharging groove 1007 is provided below the baffle 1006, a discharging hole 1008 is provided at the front end surface of the mixing barrel 1001 inside the discharging groove 1007, a partition 1009 is provided inside the mixing barrel 1001, a stirring mechanism 11 is provided at the bottom of the mixing barrel 1001, the stirring mechanism 11 includes a second driving wheel 1101 and a second driven wheel 1102, a chassis 1103 is provided at the bottom of the mixing barrel 1001, a lower rotating wheel 1104 is provided above the chassis 1103, a first rotating shaft 1104 is fixed at the upper end surface of the lower rotating wheel 1104, a scraper blade 1106 is uniformly provided at the top of the first rotating shaft 1105, a fixed block 1107 located above the lower rotating wheel is sleeved outside the first rotating wheel 1107, a fixed rod 1107 is connected to the fixed end surface between the fixed block 1107 and the mixing barrel 1108, a fixed rod 1110 is provided at the upper end surface of the fixed driving wheel 1110, a second rotating shaft 1109 is connected to the second rotating shaft 1109, a second rotating shaft 1109 is provided between the second rotating wheel 1109 and a second driving wheel 1101 is connected to the second driving wheel 1109 through a second driving mechanism, and a second driving wheel 1101 is provided at the upper rotating structure;

When the high-ductility concrete materials are mixed, the second transmission rod 1302 drives the second driving wheel 1101 to rotate clockwise, at the moment, the second transmission belt 1112 at the top of the second driving wheel 1101 drives the upper rotating wheel 1109 to rotate clockwise in a overlook mode, the second transmission belt 1112 at the bottom of the second driving wheel 1101 drives the lower rotating wheel 1104 to rotate anticlockwise in a overlook mode, at the moment, the second driven wheel 1102 rotates anticlockwise, the scraping plate 1106 and the stirring paddle 1111 rotate oppositely, and the scraping plate 1106 and the stirring paddle 1111 rotate oppositely, so that the mixing efficiency is improved, the mixing time of the high-ductility concrete is greatly shortened, and after the stirring of the stirring device is finished, the electric telescopic rod 1005 is started to shrink to drive the baffle 1006 to move upwards, so that the high-ductility concrete is discharged from the discharge groove 1007 through the discharge hole 1008.

Referring to fig. 10, the waste collection structure 14 includes an inclined groove 1401, wherein the left end of the inclined groove 1401 is arch-shaped and is connected with a receiving groove 1002, the right end of the inclined groove 1401 is connected with a buffer groove 1402, the right part of the buffer groove 1402 is arc-shaped, the lower end of the buffer groove 1402 is connected with a collection groove 1403 which is transparent in front and back, and the collection groove 1403 is located at the upper end face of the device base 1;

when the grading conveying device 7 operates, a small part of scattered materials of the hopper main body 801 are guided into the mixing device 10 by the right end of the inclined groove 1401, and most of the materials fall on the inclined groove 1401 and the buffer groove 1402 and slide into the collecting groove 1403, so that the recycling treatment of workers is facilitated, and the loss and waste of concrete materials are greatly reduced.

The specific embodiment is as follows: the invention provides a multistage mixing type high-ductility concrete conveying device, which is used for conveying multistage mixing type high-ductility concrete materials when the multistage mixing type high-ductility concrete conveying device is used for conveying the multistage mixing type high-ductility concrete materials:

When the high-ductility concrete conveying device works, the driving motor 902 is started to drive the second bevel gear 903 to rotate, the second bevel gear 903 drives the first transmission rod 1202 and the fourth bevel gear 1203 to rotate anticlockwise through the third bevel gear 1201, the fourth bevel gear 1203 drives the grading conveying device 7 to work through the first transmission member 1204, the third bevel gear 1201 drives the fifth bevel gear 1303 to rotate clockwise through the second transmission member 1301, and the fifth bevel gear 1303 drives the stirring mechanism 11 to operate through the second transmission rod 1302;

Manually pouring high-ductility concrete materials into a hopper main body 801, weighing the hopper main body 801 by a weighing device 711 and observing the high-ductility concrete materials manually, so that the concrete quantity can be accurately controlled, the weighing device 711 is of the prior art, after the high-ductility concrete materials are loaded, a driving mechanism 9 is started, the driving mechanism 9 drives a first bevel gear 702 to rotate anticlockwise through a first transmission structure 12, the first bevel gear 702 drives a first driving wheel 703 to rotate through a driving shaft 701, the first driving wheel 703 drives a rotary drum 704 and a first driven wheel 705 to rotate through a first transmission belt 707, the first transmission belt 707 drives a charging hopper structure 8 to reversely rotate through a connecting block 708 and a hinging rod 709, a driving motor 902 is closed when the next charging hopper structure 8 rotates to the first driving wheel 703, the manual work continues to charge, when the first charging hopper structure 8 rotates anticlockwise to the rotary drum 704, at this time, the idler wheel 803 contacts with the rotary drum and enables an opening of the hopper main body 801 to do circular motion around the rotary drum 704 under the driving of the first transmission belt 707, and when the opening of the hopper main body 801 is downward, a third charging structure 8 is positioned at the first driving wheel 703, so that the first charging structure 801 can rotate around the first charging structure 801 automatically, and the charging efficiency of the hopper main body 801 can be greatly increased under the action of the first charging structure 8 when the first charging structure is in a circle, and the charging structure is greatly increased under the condition that the charging efficiency of the charging structure 801 can be reached under the condition that the first charging structure is automatically and the charging structure is rotated under the first charging structure 801;

When the high-ductility concrete materials are mixed, the second transmission rod 1302 drives the second driving wheel 1101 to rotate clockwise, at the moment, the second transmission belt 1112 at the top of the second driving wheel 1101 drives the upper rotating wheel 1109 to rotate clockwise in a overlook mode, the second transmission belt 1112 at the bottom of the second driving wheel 1101 drives the lower rotating wheel 1104 to rotate anticlockwise in a overlook mode, at the moment, the second driven wheel 1102 rotates anticlockwise, so that the scraping plate 1106 and the stirring paddle 1111 rotate oppositely, the mixing efficiency is improved due to the fact that the mess degree of the high-ductility concrete raw materials in the mixing barrel 1001 can be increased, the mixing time of the high-ductility concrete is greatly shortened, and after the mixing device finishes mixing, the electric telescopic rod 1005 is started to shrink to drive the baffle 1006 to move upwards, so that the high-ductility concrete is discharged from the discharge groove 1007 through the discharge hole 1008;

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims

1. The utility model provides a multistage compounding formula high ductility concrete conveying appliance, includes device base (1), device base (1) top is equipped with control panel (4), control panel (4) left side is equipped with support one (5), support one (5) left side is equipped with support two (6), characterized in that, be equipped with between support one (5) and support two (6) and carry hierarchical conveyor (7) of concrete material, hierarchical conveyor (7) inside is equipped with hopper structure (8) that can quantitatively be equipped with concrete material, support two (6) left side is equipped with compounding device (10) that can fully mix concrete material, compounding device (10) inside is equipped with rabbling mechanism (11) that can make concrete material flash mixed, hierarchical conveyor (7) below is equipped with actuating mechanism (9) that can provide kinetic energy for hierarchical conveyor (7) and rabbling mechanism (11), be connected with transmission structure one (12) and transmission structure two (13) between actuating mechanism (7) and the rabbling mechanism (11) respectively, but hierarchical conveyor (7) and the recovery structure (14) of actuating mechanism (7) are equipped with waste material between;

The grading conveying device (7) comprises two driving shafts (701) and two driven shafts (706), wherein the driving shafts (701) penetrate through the top of a first bracket (5), a first bevel gear (702) is arranged at the outer end of the driving shafts, a first driving wheel (703) is fixed at the inner end of the driving shafts, a rotary drum (704) is arranged on each driven shaft (706), a first driven wheel (705) is arranged at two ends of each rotary drum (704), a first driving belt (707) is connected between each first driven wheel (705) and each first driving wheel (703), connecting blocks (708) are uniformly arranged on the first driving belts (707), hinging rods (709) are fixedly arranged at the inner ends of the connecting blocks (708), the hinging rods (709) are externally hinged to the top of a weighing device (711), and a charging hopper structure (8) is arranged between the two corresponding weighing devices (711);

the charging hopper structure (8) comprises a hopper main body (801), hinging blocks (802) are arranged on the end faces of two sides of the hopper main body (801), the hinging blocks (802) are hinged to the bottom of a weighing device (711), a limiting block (710) is arranged at the inner end of a hinging rod (709), and a roller (803) is arranged on the hopper main body (801);

The mixing device (10) comprises a mixing barrel (1001), the stirring mechanism (11) comprises a second driving wheel (1101) and a second driven wheel (1102), a chassis (1103) is arranged at the bottom of the mixing barrel (1001), a lower rotating wheel (1104) is arranged above the chassis (1103), a first rotating shaft (1105) is fixed on the upper end face of the lower rotating wheel (1104), scraping plates (1106) are uniformly arranged at the top of the first rotating shaft (1105), a fixed block (1107) positioned above the lower rotating wheel (1104) is sleeved outside the first rotating shaft (1105), a fixed rod (1108) is connected between the fixed block (1107) and the mixing barrel (1001), an upper rotating wheel (1109) is arranged on the upper end face of the upper rotating wheel, a second rotating shaft (1110) sleeved outside the first rotating shaft (1105) is fixed on the upper end face of the upper rotating wheel (1109), stirring paddles (1111) are uniformly arranged at the top of the second rotating wheel (1101), a second driving wheel (1102), a second driving belt (1112) is connected between the upper rotating wheel (1109) and the lower rotating wheel (1104), and the second driving wheel (1101) is driven by a driving mechanism (13);

The waste collection structure (14) comprises an inclined groove (1401), a receiving groove (1002) is formed in the top of the mixing barrel (1001), the left end of the inclined groove (1401) is arch-shaped and connected with the receiving groove (1002), the right end of the inclined groove is connected with a buffer groove (1402), the right part of the buffer groove (1402) is arc-shaped, the lower end of the buffer groove is connected with a front-back transparent collecting groove (1403), and the collecting groove (1403) is located at the upper end face of the device base (1);

The driving mechanism (9) comprises a motor base (901), a driving motor (902) is fixed on the motor base (901), a second bevel gear (903) is arranged at the output end of the driving motor (902), and a first transmission structure (12) is arranged on the left side of the second bevel gear (903);

The first transmission structure (12) comprises a first transmission rod (1202), a third bevel gear (1201) meshed with the second bevel gear (903) is arranged on the first transmission rod (1202), a second transmission structure (13) is arranged on the left side of the third bevel gear (1201), the first transmission rod (1202) penetrates through the first bracket (5) and is rotationally connected with the first bracket (5), a fourth bevel gear (1203) is fixed at two ends, the fourth bevel gear (1203) is meshed with the bottom of the first transmission member (1204), and the top of the first transmission member (1204) is meshed with the first bevel gear (702);

The second transmission structure (13) comprises a second transmission member (1301), the right end of the second transmission member (1301) is meshed with a third bevel gear (1201), a second transmission rod (1302) is arranged on the left side, the second transmission rod (1302) is rotationally connected with a second bracket (6), the second driving wheel (1101) and the second driven wheel (1102) are sleeved outside the second transmission rod (1101), the second driving wheel (1101) and the second driven wheel (1102) are fixedly connected and rotationally connected with the second transmission rod (1302) respectively, a fifth bevel gear (1303) is fixedly sleeved on the second transmission rod (1302), and the fifth bevel gear (1303) is meshed with the left end of the second transmission member (1301);

The roller (803) is in contact with the rotary drum (704) and driven by the first transmission belt (707) to enable the opening of the hopper main body (801) to do circular motion around the rotary drum (704), and when the hopper main body (801) rotates to the lower side on the rotary drum (704), the charging hopper structure (8) can return to the original state under the action of gravity.

2. The multistage mixing type high-ductility concrete conveying device according to claim 1, wherein two perforations (1003) are formed in the right end face of the mixing barrel (1001), a fixing ring (1004) is fixed to the front end face of the mixing barrel (1001), an electric telescopic rod (1005) is fixed to the fixing ring (1004), a baffle plate (1006) is connected to the lower end of the electric telescopic rod (1005), a discharge chute (1007) is formed below the baffle plate (1006), a discharge hole (1008) is formed in the front end face of the mixing barrel (1001) in the discharge chute (1007), a partition plate (1009) is arranged in the mixing barrel (1001), and a stirring mechanism (11) is arranged at the bottom of the mixing barrel (1001).

3. The multistage mixed high-ductility concrete conveying device according to claim 1, wherein supporting pieces (2) are arranged at four corners below the device base (1), and travelling wheels (3) are arranged on the inner sides of the supporting pieces (2).