CN219839910U - Regenerated material double mixing system - Google Patents

Abstract

The utility model relates to the technical field of mixing equipment, in particular to a regenerated material double-mixing system which comprises a bracket, a first mixing mechanism, a second mixing mechanism and a conveyor, wherein the first mixing mechanism, the second mixing mechanism and the conveyor are sequentially arranged from top to bottom, the first mixing mechanism is arranged on the bracket, the second mixing mechanism is provided with a moving mechanism, the moving mechanism can horizontally move on the bracket, a feed inlet of the second mixing mechanism can move to the position right below a discharge port of the first mixing mechanism or can move to the position right below the discharge port of the first mixing mechanism, the conveyor is used for receiving mixed materials discharged from the discharge port of the first mixing mechanism and the discharge port of the second mixing mechanism, and a bucket elevator is arranged at the output end of the conveyor. The utility model can save cost and reduce occupied space.

Description

Regenerated material double mixing system

Technical Field

The utility model relates to the technical field of mixing equipment, in particular to a regenerated material double mixing system.

Background

At present, in order to meet the requirements of environmental protection and energy conservation, waste materials generated by the retreaded asphalt road are reused for paving the asphalt road after reprocessing, the cold mix reclaimed material is subjected to primary mixing or secondary mixing in a mixing cylinder according to the requirements, and the water stabilized material can be subjected to primary mixing only for saving procedures, so that different mixing times of the cold mix reclaimed material and the water stabilized material are required, two sets of mixing production lines are usually required to be equipped for mixing the cold mix reclaimed material and the water stabilized material respectively in a factory, the cost is high, the occupied space is large, and improvement is required.

Disclosure of Invention

In order to save cost and reduce occupied space, the utility model provides a regeneration material double mixing system.

The utility model provides a regenerated material double mixing system, which adopts the following technical scheme: the utility model provides a dual mixing system of reclaimed materials, which comprises a bracket, from last first mixing mechanism that sets gradually down, second mixing mechanism and conveyer, first mixing mechanism installs on the support, install moving mechanism on the second mixing mechanism, moving mechanism can horizontal migration on the support, the feed inlet of second mixing mechanism can move to the discharge gate of first mixing mechanism under or the motion breaks away from under the discharge gate of first mixing mechanism, the conveyer is used for accepting the mixture of follow the discharge gate of first mixing mechanism and the discharge gate of second mixing mechanism discharge, the output department of conveyer is equipped with bucket elevator.

Optionally, first mixing mechanism is including installing the first jar that mixes on the support, and the feed inlet of first jar that mixes sets up, and the discharge gate of first jar that mixes sets up downwards, rotates in the first jar that mix to be connected with two and be the level setting and the first pivot that is parallel to each other, installs a plurality of first stirring teeth in the first pivot, installs two first motors on the first jar that mix, the output shaft coaxial coupling of first motor in first pivot.

Optionally, the second mixing mechanism is including the second jar that stirs that supplies moving mechanism to install, and the feed inlet of second jar that stirs sets up, and the discharge gate of second jar that stirs sets up down, rotates in the second jar to be connected with two and is the level setting and the second pivot that is parallel to each other, installs a plurality of second stirring teeth in the second pivot, installs two second motors on the second jar that stirs, the output shaft coaxial coupling of second motor in the second pivot.

Optionally, two tracks horizontally arranged are installed on the support, the moving mechanism comprises a plurality of rollers rolling on the corresponding tracks, and the rollers are rotatably installed at the bottom of the second mixing cylinder.

Optionally, the gyro wheel is equipped with four altogether and is the rectangle and arranges, and two gyro wheels coaxial coupling of every row have same root connecting rod, and the fixed cover is equipped with the band pulley on two connecting rods, and the fastening cover is equipped with same belt on two band pulleys, installs gear motor on the second mix jar, gear motor's output shaft coaxial coupling in one of them connecting rod.

Optionally, two baffles are installed on the support and are arranged on the left side and the right side of the conveyor belt respectively, the lower surface of each baffle is abutted to the upper surface of the conveyor belt, and a discharge hole of the second mixing mechanism is positioned between the two baffles.

In summary, the utility model has the following beneficial technical effects:

1. when the mixture enters the first mixing cylinder from the feeding port at the upper side of the first mixing cylinder, the first motor drives the first rotating shaft to rotate, and the first rotating shaft drives the first stirring teeth to rotate so as to stir the mixture in the first mixing cylinder;

2. the mixture after primary mixing can fall into the second mixing cylinder downwards, the second motor drives the second rotating shaft to rotate, and the second rotating shaft drives the second stirring teeth to rotate to stir the mixture in the second mixing cylinder;

3. through the movement of the second mixing cylinder, a worker can rotate to mix the mixture for the first time or the second time, and two sets of mixing production lines are not required to be arranged in the production area in a factory, so that the cost is reduced and the occupied space is reduced;

4. the gear motor can drive all the rollers to synchronously rotate in the same direction through the connecting rod, the belt and the belt wheel, and the rollers drive the second mixing cylinder to move on the track in the rolling process, so that the position of the second mixing cylinder is convenient to adjust;

5. the conveyor is used for receiving the mixture discharged from the discharge port of the first mixing cylinder and the discharge port of the second mixing cylinder, so that the conveyor can convey the mixed mixture to the next working procedure;

6. the factory can install a bucket elevator at the output end of the conveyor, and the bucket elevator can convey the mixture on the conveyor upwards into the loading vehicle, so that the loading and the transportation of the mixture are facilitated;

7. the baffle makes the mixture of the discharge gate ejection of compact from the second mix jar be difficult for dropping to the outside of conveyer, and the baffle can block spacingly to the mixture on the conveyer for the mixture on the conveyer is difficult for dropping from the limit of conveyer.

Drawings

FIG. 1 is a schematic view of the overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic view of the first mixing mechanism, the second mixing mechanism and the conveyor in an embodiment of the utility model;

FIG. 3 is a schematic view of the first mixing mechanism, the second mixing mechanism and the moving mechanism according to the embodiment of the present utility model;

fig. 4 is a schematic structural view of a second mixing mechanism according to an embodiment of the present utility model.

Reference numerals: 1. a bracket; 11. a baffle; 2. a first mixing mechanism; 21. a first mixing cylinder; 22. a first rotating shaft; 23. a first stirring tooth; 24. a first motor; 3. a second mixing mechanism; 31. a second mixing cylinder; 32. a second rotating shaft; 33. a second stirring tooth; 34. a second motor; 4. a conveyor; 5. a track; 6. a moving mechanism; 61. a roller; 62. a connecting rod; 63. a belt wheel; 64. a belt; 65. a speed reducing motor; 7. bucket elevator.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses a regenerated material double mixing system. As shown in fig. 1 and 2, a regeneration material double mixing system comprises a bracket 1, a first mixing mechanism 2, a second mixing mechanism 3 and a conveyor 4 which are sequentially arranged from top to bottom.

As shown in fig. 3 and 4, the first mixing mechanism 2 is mounted on the support 1, the first mixing mechanism 2 includes a first mixing cylinder 21 mounted on the support 1, a feed inlet of the first mixing cylinder 21 is upward, a discharge outlet of the first mixing cylinder 21 is downward, two first rotating shafts 22 which are horizontally arranged and parallel to each other are rotationally connected to the first mixing cylinder 21, a plurality of first stirring teeth 23 are mounted on the first rotating shafts 22, two first motors 24 are mounted on the first mixing cylinder 21, and an output shaft of each first motor 24 is coaxially connected to the first rotating shafts 22. When the mixture enters the first mixing cylinder 21 from the feeding port on the upper side of the first mixing cylinder 21, the first motor 24 drives the first rotating shaft 22 to rotate, and the first rotating shaft 22 drives the first stirring teeth 23 to rotate and stir the mixture in the first mixing cylinder 21.

The second mixing mechanism 3 comprises a second mixing cylinder 31, a feeding hole of the second mixing cylinder 31 is arranged upwards, a discharging hole of the second mixing cylinder 31 is arranged downwards, two second rotating shafts 32 which are horizontally arranged and parallel to each other are connected in a rotating mode in the second mixing cylinder 31, a plurality of second stirring teeth 33 are arranged on the second rotating shafts 32, two second motors 34 are arranged on the second mixing cylinder 31, and an output shaft of each second motor 34 is coaxially connected with the second rotating shafts 32. The mixture after primary mixing can fall into the second mixing cylinder 31, the second motor 34 drives the second rotating shaft 32 to rotate, and the second rotating shaft 32 drives the second stirring teeth 33 to rotate to stir the mixture in the second mixing cylinder 31.

As shown in fig. 2 and 3, two horizontally arranged rails 5 are arranged on the bracket 1, a moving mechanism 6 is arranged on the second mixing mechanism 3, and the moving mechanism 6 can horizontally move on the bracket 1; the moving mechanism 6 comprises a plurality of rollers 61 rolling on the corresponding tracks 5, the rollers 61 are rotatably arranged at the bottom of the second mixing cylinder 31, so that the second mixing cylinder 31 can move along the length direction of the tracks 5, and the feed inlet of the second mixing cylinder 31 can move to the position right below the discharge outlet of the first mixing cylinder 21 or move to the position right below the discharge outlet of the first mixing cylinder 21, so that a worker can select to mix the mixture for the first time or the second time through the movement of the second mixing cylinder 31, and two sets of mixing production lines are not needed to be arranged in a production area in a factory, so that the cost is solved and the occupied space is reduced.

The rollers 61 are arranged in a rectangular mode, two rollers 61 in each row are coaxially connected with the same connecting rod 62, belt wheels 63 are fixedly sleeved on the two connecting rods 62, the same belt 64 is fixedly sleeved on the two belt wheels 63, a gear motor 65 is mounted on the second mixing cylinder 31, and an output shaft of the gear motor 65 is coaxially connected with one connecting rod 62. The gear motor 65 can drive all the rollers 61 to synchronously rotate in the same direction through the connecting rod 62, the belt 64 and the belt pulley 63, and the rollers 61 drive the second mixing cylinder 31 to move on the track 5 in the rolling process, so that the position of the second mixing cylinder 31 is convenient to adjust.

As shown in fig. 1, the conveyor 4 is configured to receive the mixture discharged from the discharge port of the first mix cylinder 21 and the discharge port of the second mix cylinder 31, so that the conveyor 4 can convey the mixed mixture to the next process.

The mill can install bucket elevator 7 at the output of conveyer 4, and bucket elevator 7 can upwards carry the mixture on the conveyer 4 to the loading car in, has made things convenient for the loading transportation of mixture.

Install two baffles 11 that divide to locate the conveyer belt left and right sides on the support 1, the lower surface of baffle 11 is contradicted in the upper surface of conveyer belt, and the discharge gate of second mix jar 31 is located between two baffles 11 for the mixture of the discharge gate ejection of compact from second mix jar 31 is difficult for dropping to the outside of conveyer 4, and baffle 11 can block spacingly to the mixture on the conveyer 4, makes the mixture on the conveyer 4 be difficult for dropping from the limit of conveyer 4.

The embodiment of the utility model provides a regenerated material double mixing system, which has the implementation principle that: when the mixture enters the first mixing cylinder 21 from a feed inlet at the upper side of the first mixing cylinder 21, the first motor 24 drives the first rotating shaft 22 to rotate, and the first rotating shaft 22 drives the first stirring teeth 23 to rotate so as to stir the mixture in the first mixing cylinder 21; then the workman will carry out primary mix or secondary mix to the mixture according to the different selections of mixture, promptly drive connecting rod 62 through gear motor 65 and rotate, connecting rod 62 will drive all gyro wheels 61 through belt 64 and band pulley 63 and rotate in the same direction in step, gyro wheels 61 will drive second blending jar 31 and remove on track 5 in the roll process for the feed inlet of second blending jar 31 can move to under the discharge gate of first blending jar 21 or the motion breaks away from under the discharge gate of first blending jar 21, thereby has realized primary mix or secondary mix to the mixture.

The mixed mixture falls onto the conveyor 4, the conveyor 4 horizontally conveys the mixture into the bucket elevator 7, and the bucket elevator 7 upwardly conveys the mixture into the loading vehicle, so that the loading and the transportation of the mixture are facilitated.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (6)

1. A dual blending system for reclaimed materials, which is characterized in that: including support (1), from last first mixing mechanism (2), second mixing mechanism (3) and conveyer (4) that set gradually down, first mixing mechanism (2) are installed on support (1), install moving mechanism (6) on second mixing mechanism (3), moving mechanism (6) can be at support (1) upper level mobile, the feed inlet of second mixing mechanism (3) is movable to under the discharge gate of first mixing mechanism (2) or the motion breaks away from under the discharge gate of first mixing mechanism (2), conveyer (4) are used for accepting the mixture of discharging from the discharge gate of first mixing mechanism (2) and the discharge gate of second mixing mechanism (3), the output department of conveyer (4) is equipped with bucket elevator (7).

2. The reclaimed material dual blending system of claim 1 wherein: the first mixing mechanism (2) comprises a first mixing cylinder (21) arranged on the support (1), a feed inlet of the first mixing cylinder (21) is arranged upwards, a discharge outlet of the first mixing cylinder (21) is arranged downwards, two first rotating shafts (22) which are horizontally arranged and parallel to each other are connected in a rotating mode of the first mixing cylinder (21), a plurality of first mixing teeth (23) are arranged on the first rotating shafts (22), two first motors (24) are arranged on the first mixing cylinder (21), and an output shaft of each first motor (24) is coaxially connected with the first rotating shafts (22).

3. The reclaimed material dual blending system of claim 1 wherein: the second mixing mechanism (3) comprises a second mixing cylinder (31) for mounting a moving mechanism (6), a feed inlet of the second mixing cylinder (31) is arranged upwards, a discharge outlet of the second mixing cylinder (31) is arranged downwards, two second rotating shafts (32) which are horizontally arranged and parallel to each other are connected in a rotating mode of the second mixing cylinder (31), a plurality of second stirring teeth (33) are mounted on the second rotating shafts (32), two second motors (34) are mounted on the second mixing cylinder (31), and an output shaft of each second motor (34) is coaxially connected with the second rotating shafts (32).

4. A reclaimed material dual blending system as claimed in claim 3, wherein: two horizontally arranged rails (5) are arranged on the support (1), the moving mechanism (6) comprises a plurality of rollers (61) rolling on the corresponding rails (5), and the rollers (61) are rotatably arranged at the bottom of the second mixing cylinder (31).

5. The dual blending system for reclaimed materials of claim 4, wherein: the roller (61) is provided with four rollers in total and is in rectangular arrangement, each row of two rollers (61) is coaxially connected with the same connecting rod (62), belt wheels (63) are fixedly sleeved on the two connecting rods (62), the same belt (64) is fixedly sleeved on the two belt wheels (63), a gear motor (65) is mounted on the second mixing cylinder (31), and an output shaft of the gear motor (65) is coaxially connected with one connecting rod (62).

6. The reclaimed material dual blending system of claim 1 wherein: two baffles (11) which are respectively arranged at the left side and the right side of the conveyor belt are arranged on the support (1), the lower surface of each baffle (11) is abutted against the upper surface of the conveyor belt, and a discharge hole of the second mixing mechanism (3) is arranged between the two baffles (11).