CN220126336U - Waste recycling and separating equipment for green building construction - Google Patents

Abstract

The utility model discloses a waste recycling and separating device for green building construction, which comprises a supporting shell, wherein one side of the supporting shell is provided with a feed inlet, a feed hopper is connected to the feed inlet, one side of the supporting shell, which corresponds to the feed hopper, is provided with a first discharge port, and a pulverizer is arranged at the bottom of the feed inlet in the supporting shell; the utility model relates to the technical field of waste separating equipment, in particular to waste recycling and separating equipment for green building construction, which adopts an integrated multistage separating structure, and can separate ironwork from large-grain plastic garbage and small-grain building material powder by utilizing a magnetic suction roller with circulating motion and a linear conveying mechanism with a screening function, wherein the three parts respectively have different recycling values, are very fine in separation and have the characteristics of compact structure and high automation degree.

Description

Waste recycling and separating equipment for green building construction

Technical Field

The utility model relates to the technical field of waste separation equipment, in particular to waste recycling and separating equipment for green building construction.

Background

In modern construction, in order to improve the utilization rate of materials and avoid material waste, and improve environmental awareness, in the modern construction process, waste materials after the original construction is destroyed can be separated, useful materials in the waste materials are separated, for example, scrap iron separating equipment for recycling construction waste materials disclosed in patent publication No. CN214766147U can separate scrap iron in the construction waste materials, a first magnetic attraction mechanism and a second magnetic attraction mechanism of a magnetic attraction device can absorb iron from the construction waste materials below a path, iron waste materials in the waste materials are adsorbed and fixed, the adsorbed iron waste materials are transferred to a collecting frame under the action of a linear sliding table, and the iron waste materials lose magnetism and are adsorbed after the electromagnet is powered off and drop to the collecting frame, so that the iron waste materials can be timely transferred, and an effective magnetic iron removing action is maintained; the whole cooperation can retrieve the ironwork fragment in the construction waste, reduces extravagant, but foretell iron fillings splitter still has following problem in the use, and firstly some other rubbish that adhere to on iron fillings or ironware can not be effectively separated, secondly can only separate the iron fillings, and separation type is more single, in view of this, is in depth studied to above-mentioned problem, has the scheme to produce.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a waste recycling and separating device for green building construction, which solves the problems of the prior background technology.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the waste recycling and separating device for the green building construction comprises a supporting shell, wherein a feed inlet is formed in one side of the supporting shell, a feed hopper is connected to the feed inlet, a first discharge outlet is formed in one side, corresponding to the feed hopper, of the supporting shell, and a pulverizer is arranged at the bottom of the feed inlet in the supporting shell;

the lower part of the pulverizer is provided with a linear conveying belt, a plurality of screening holes are formed in the linear conveying belt in a matrix array, an oblique discharge hole is formed between the upper parallel layer and the lower parallel layer of the linear conveying belt, and the oblique discharge hole penetrates through the side wall of the linear conveying belt in the conveying direction;

the upper part of the linear conveying belt is provided with a pair of roll shafts parallel to the linear conveying belt, a pair of rotary belts are circularly connected between the pair of roll shafts, a plurality of pairs of rotary holes are uniformly formed in the pair of rotary belts, and a plurality of magnetic suction rolls are movably arranged in the plurality of pairs of rotary holes;

the ends of the magnetic suction rollers are provided with a plurality of control gears, and a pair of control racks are arranged between the lower edges of the pair of rotary belts and the linear conveying belt on two sides in the supporting shell.

Preferably, the plurality of magnetic attraction rollers are engaged with a pair of control racks when running to the bottom edge of the rotating belt.

Preferably, the first discharge port extends out of the first discharge plate towards the inside of the supporting shell, the magnetic suction rollers pass through the upper part of the first discharge plate, and a demagnetizer is arranged at the upper part of one side of the magnetic suction rollers in the supporting shell.

Preferably, a second discharge hole is formed in the supporting shell corresponding to the end portion of the linear conveying belt, and the second discharge hole extends out of the second discharge plate towards the inside of the supporting shell.

Preferably, a lateral separation fan is arranged on the second discharging hole.

Preferably, the shredder is a pair of symmetrically moving shredder rollers.

Advantageous effects

The utility model provides a waste recycling and separating device for green building construction. The beneficial effects are as follows: this green construction is with waste material recovery splitter adopts integration multistage separation structure, utilizes cyclic motion's magnetism suction roll and has the linear conveying mechanism of screening function, can separate ironwork and big particle diameter's plastics rubbish and little particle diameter's building material powder, and the three has different recovery value respectively, and not only the separation is very meticulous, has compact structure high degree of automation's characteristics moreover.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a waste recycling and separating device for green building construction.

Fig. 2 is a schematic side view of a waste recycling and separating device for green construction according to the present utility model.

Fig. 3 is a schematic diagram of a partial axial measurement structure of the waste recycling and separating device for green building construction.

In the figure: 1. a support case; 2. a feed hopper; 3. a first discharge port; 4. a pulverizer; 5. a linear conveyor belt; 6. oblique discharge port; 7. a roll shaft; 8. rotating the belt; 9. a magnetic suction roller; 10. a control gear; 11. controlling a rack; 12. a demagnetizer; 13. a second discharge port; 14. separating the fans.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: according to the description and the attached drawings 1-3, the scheme is a waste recycling and separating device for green building construction, which comprises a supporting shell 1, wherein one side of the supporting shell 1 is provided with a feed inlet, a feed hopper 2 is connected to the feed inlet, one side of the supporting shell 1 corresponding to the feed hopper 2 is provided with a first discharge outlet 3, a pulverizer 4 is arranged at the bottom of the feed inlet in the supporting shell 1, in the specific implementation process, the supporting shell 1 is a supporting shell 1 body of the device, materials are introduced into the feed inlet through the feed hopper 2, and waste building materials are pulverized through the pulverizer 4; the lower part of the pulverizer 4 is provided with a linear conveying belt 5, a plurality of screening holes are formed in the linear conveying belt 5 in a matrix array, the pulverized materials are conveyed to one side of a first discharge hole 3 through the linear conveying belt 5, and can be screened through the screening holes in the linear conveying belt 5, so that finer materials fall on an inclined discharge hole 6 through the screening holes, an inclined discharge hole 6 is formed between upper and lower parallel layers of the linear conveying belt 5, the inclined discharge hole 6 penetrates through the side wall of the linear conveying belt 5 in the conveying direction, the inclined discharge hole 6 guides the finer materials to the outside of a supporting shell 1, primary separation is achieved, the rest large-particle-size waste materials are conveyed to one side of the first discharge hole 3 from the linear conveying belt 5 and are discharged through a second discharge hole 13, and plastic garbage is blown to the outside through wind force at the second discharge hole 13; the upper part of the linear conveyer belt 5 is provided with a pair of roll shafts 7 parallel to the linear conveyer belt 5, a pair of rotary belts 8 are circularly connected between the pair of roll shafts 7, a plurality of pairs of rotary holes are uniformly formed in the pair of rotary belts 8, a plurality of magnetic suction rolls 9 are movably arranged in the plurality of pairs of rotary holes, the pair of rotary belts 8 are driven to circularly move through the pair of roll shafts 7 while the linear conveyer belt 5 runs, the moving direction is symmetrical to the running direction of the linear conveyer belt 5, the magnetic suction rolls 9 and the linear conveyer belt 5 are driven to synchronously move, and iron products are sucked up by the magnetic suction rolls 9; the tip of a plurality of magnet rolls 9 is provided with a plurality of control gear 10, both sides are located the lower margin of a pair of rotary belt 8 and are provided with a pair of control rack 11 between the linear conveyer belt 5 in the supporting shell 1, through the meshing effect of a plurality of control gear 10 and control rack 11, when rotary belt 8 drives magnet rolls 9 linear motion, rotate through control gear 10, can make magnet rolls 9 rotatory, and then make magnet absorption's more even, the rethread magnet rolls 9 reach behind the first discharge gate 3 and demagnetize, discharge ironwork.

Preferably, the magnetic suction rollers 9 are meshed with a pair of control racks 11 when running to the bottom edge of the rotary belt 8, so that the magnetic suction rollers 9 start to work again when being closest to the linear conveyor belt 5. As a preferred scheme, still further, first discharge gate 3 extends first flitch to supporting shell 1 in, and a plurality of magnetism suction rolls 9 pass through the upper portion of first flitch, and the one side upper portion that is located a plurality of magnetism suction rolls 9 in the supporting shell 1 is provided with demagnetizer 12, carries out the demagnetization to magnetism suction roll 9 that passes through first flitch upper portion through demagnetizer 12, makes the iron product that adsorbs on magnetism suction roll 9 take off to first flitch. As a preferred scheme, still further, be provided with second discharge gate 13 on the supporting shell 1 that the tip of linear conveyor 5 corresponds, second discharge gate 13 extends out the second flitch to supporting shell 1 in, and the second flitch is used for unloading the material on the linear conveyor 5. Preferably, the second discharging hole 13 is provided with a lateral separating fan 14 for separating large plastic garbage. Preferably, the shredder 4 is a pair of symmetrically moving crushing rollers.

In summary, the above-mentioned general knowledge, this green construction is with waste recycling splitter adopts integration multistage separation structure, utilizes cyclic motion's magnetism suction roll 9 and has the linear conveying mechanism of screening function, can separate ironwork and big particle diameter plastics rubbish and small-size building material powder, and the three has different recovery value respectively, and not only the separation is very fine, has compact structure moreover degree of automation height's characteristics.

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

Claims (6)

1. The utility model provides a green construction is with waste recycling splitter, includes support shell (1), the feed inlet has been seted up to one side of support shell (1), be connected with feeder hopper (2) on the feed inlet, support shell (1) and feeder hopper (2) correspond one side and be provided with first discharge gate (3), its characterized in that, be provided with grinder (4) in being located the feed inlet bottom in support shell (1);

the lower part of the pulverizer (4) is provided with a linear conveying belt (5), a plurality of screening holes are formed in the linear conveying belt (5) in a matrix array, an inclined discharge hole (6) is formed between the upper parallel layer and the lower parallel layer of the linear conveying belt (5), and the inclined discharge hole (6) penetrates through the side wall of the linear conveying belt (5) in the conveying direction;

the upper part of the linear conveying belt (5) is provided with a pair of roller shafts (7) parallel to the linear conveying belt (5), a pair of rotating belts (8) are circularly connected between the pair of roller shafts (7), a plurality of pairs of rotating holes are uniformly formed in the pair of rotating belts (8), and a plurality of magnetic suction rollers (9) are movably arranged in the plurality of pairs of rotating holes;

the ends of the magnetic suction rollers (9) are provided with a plurality of control gears (10), and a pair of control racks (11) are arranged between the lower edges of the pair of rotary belts (8) and the linear conveying belt (5) on two sides in the supporting shell (1).

2. A waste recycling and separating apparatus for green building construction according to claim 1, characterized in that the plurality of magnetic suction rolls (9) are engaged with a pair of control racks (11) when they run to the bottom edge of the rotating belt (8).

3. The waste recycling and separating device for green building construction according to claim 2, wherein the first discharge hole (3) extends out of the first discharge plate into the supporting shell (1), a plurality of the magnetic suction rollers (9) pass through the upper part of the first discharge plate, and a demagnetizer (12) is arranged on the upper part of one side of the plurality of the magnetic suction rollers (9) in the supporting shell (1).

4. A green construction waste recycling and separating device according to claim 3, wherein the supporting shell (1) corresponding to the end part of the linear conveyor belt (5) is provided with a second discharge port (13), and the second discharge port (13) extends out of the second discharge plate into the supporting shell (1).

5. The waste recycling and separating device for green building construction according to claim 4, wherein the second discharging port (13) is provided with a lateral separating fan (14).

6. A green construction waste recycling separation equipment according to claim 5 wherein the shredder (4) is a pair of symmetrically moving shredding rolls.