CN220803774U - Iron removing device for preparing recycled aggregate - Google Patents

Abstract

The utility model relates to the technical field of buildings, in particular to an iron removing device for preparing recycled aggregate, which comprises a support frame, an aggregate vibration flattening device, a recycled aggregate conveying device and an iron removing device, wherein the aggregate vibration flattening device is positioned above the support frame, the recycled aggregate conveying device is positioned on the aggregate vibration flattening device, the iron removing device is positioned on one side of the top of the aggregate vibration flattening device, and comprises a first vertical plate, a second vertical plate, a rotating shaft, a first electromagnet, a second electromagnet and a driving component for driving the rotating shaft to rotate.

Description

Iron removing device for preparing recycled aggregate

Technical Field

The utility model relates to the technical field of buildings, in particular to an iron removing device for preparing recycled aggregate.

Background

The production and utilization of the recycled aggregate for the building have important significance for saving resources, protecting the environment and realizing sustainable development of the building industry, and the inside of the recycled aggregate is often also provided with more iron metal impurities after being crushed in the preparation process at present.

The regenerated aggregate impurity removing device mainly comprises a feed inlet, a material conveying belt, a device main body, a high-pressure air flow spraying device, an organic matter discharge channel, a regenerated aggregate discharge channel and an electromagnetic adsorption device. The left upper end of the device main body is provided with a feed inlet, the upper part in the device main body is provided with a material conveying belt, the right end in the device main body is provided with a discharge channel, and a high-pressure air flow injection device is arranged below the discharge channel.

But carry by band conveyer among the prior art regeneration aggregate, regeneration aggregate often carries with the state of piling up, pile up in a large number when carrying the discharge passageway mouth when piling up the aggregate transport when carrying, influence the deironing effect, and the de-ironing separator is the lower extreme that sets up at regeneration aggregate discharge passageway, when regeneration aggregate discharges, can pass through the de-ironing separator, and then the iron waste material in the regeneration aggregate can adsorb in regeneration aggregate discharge passageway, stop regeneration aggregate's discharge easily, and then jam regeneration aggregate discharge passageway, influence regeneration aggregate's normal discharge, and the de-ironing separator need stop to clear up after the magnetism is inhaled a period, influence deironing efficiency.

Disclosure of utility model

The utility model aims to provide an iron removing device for preparing recycled aggregate, which is used for solving the problems in the background technology.

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

The utility model provides an deironing device for regeneration aggregate preparation, includes support frame, aggregate vibration flattening device, regeneration aggregate conveyor and deironing device, the support frame is rectangular structure setting, aggregate vibration flattening device is located the top of support frame, regeneration aggregate conveyor is located on the aggregate vibration flattening device, deironing device is located aggregate vibration flattening device top one side, deironing device is including first riser, second riser, pivot, first electro-magnet, second electro-magnet and be used for right the pivot carries out the rotatory drive assembly of drive, first riser is parallel to be located second riser one side, the pivot both ends respectively through the bearing with first riser and second riser are connected, first electro-magnet and second electro-magnet symmetry connect in the both sides of pivot, deironing device keeps away from regeneration aggregate conveyor one end connection and is provided with the deironing recovery box.

As a preferable scheme of the utility model, the driving assembly comprises a driving motor, the driving motor is positioned on the outer wall of one side of the second vertical plate, and one end of the rotating shaft penetrates through the second vertical plate and is connected with the output end of the driving motor through a coupler.

As a preferable scheme of the utility model, one end of the first vertical plate and one end of the second vertical plate close to the outer edge are respectively connected with a positioning sensor.

As a preferable scheme of the utility model, the top parts around the support frame are connected with vibration springs, a connecting plate is arranged between every two vibration spring tops in parallel, the tops of the connecting plates are uniformly distributed and connected with flattening plates, each flattening plate is perpendicular to the connecting plate, and the outer wall of one side of each connecting plate is connected with a vibration motor.

As a preferable scheme of the utility model, the recycled aggregate conveying device comprises a plurality of conveying rods and a conveying belt, wherein the conveying rods are provided with a plurality of conveying plates, two ends of each conveying rod are connected with the connecting plates, the conveying belt is roundabout positioned on the conveying rods, the conveying rods are connected with an external conveying motor through a conveying belt, the flattening plate is positioned above the conveying belt, and one side of the flattening plate is connected with a flattening scraping plate at thirty degrees.

As a preferable scheme of the utility model, the bottoms of the first vertical plate and the second vertical plate are connected with the top of the connecting plate.

As a preferable scheme of the utility model, an insulating layer is connected between the first electromagnet and the second electromagnet.

Compared with the prior art, the utility model has the beneficial effects that:

Aiming at the problems in the background art, the utility model adopts the aggregate vibration flattening device to perform vibration flattening on the materials placed on the conveying belt, so that a large amount of accumulated aggregates are prevented from being accumulated when the accumulated aggregates are conveyed to the discharge passage port during conveying, and the iron device is covered and shielded to influence the iron removal effect; through setting up two electromagnets and carrying out deironing absorption through the aggregate on the conveyer belt, set up positioning sensor on every electromagnet, when driving motor drive pivot epaxial electromagnet rotates, positioning sensor detects the position and removes, positioning sensor gives the controller with signal transmission, the controller is controlled first electro-magnet and second electro-magnet break-make electricity, the electro-magnet circular telegram that is located pivot bottom conveyer belt top adsorbs the aggregate on the conveyer belt, keep away from the electro-magnet outage on the positioning sensor, its top absorbing iron fillings drop this moment, drop and retrieve the inside unified recovery of carrying out of box in deironing. The utility model realizes the aim of preventing the iron device from covering and shielding due to the fact that a large amount of aggregate is piled up when the aggregate is conveyed to the discharge passage opening, and influences the iron removing effect, and the two electromagnets are arranged to remove iron and adsorb the aggregate on the conveying belt, so that the adsorbed iron device is not required to be stopped for treatment, and the iron removing efficiency is high.

Drawings

FIG. 1 is a perspective view of the overall structure of the present utility model;

FIG. 2 is a three-dimensional schematic view of an aggregate vibration flattening apparatus of the present utility model;

FIG. 3 is an overall three-dimensional schematic view of the recycled aggregate delivery device of the present utility model;

FIG. 4 is a three-dimensional schematic view of the iron removal device of the present utility model;

FIG. 5 is a side view of a screed and a screed according to the present utility model.

In the figure: 1. a support frame; 11. a vibration spring; 12. a connecting plate; 13. spreading the plate; 131. flattening the scraping plate; 14. a vibration motor; 2. an aggregate vibration flattening device; 3. a recycled aggregate conveying device; 31. a transport wand; 32. a conveyor belt; 4. an iron removing device; 41. a first vertical plate; 42. a second vertical plate; 412. positioning a sensor; 43. a rotating shaft; 44. a first electromagnet; 45. a second electromagnet; 46. an insulating layer; 47. and driving the motor.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below in connection with the embodiments of the present utility model.

Examples

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides an deironing device for reclaimed aggregate preparation, including support frame 1, aggregate shakeout device 2, reclaimed aggregate conveyor 3 and deironing device 4, support frame 1 is rectangular structure setting, aggregate shakeout device 2 is located the top of support frame 1, reclaimed aggregate conveyor 3 is located aggregate shakeout device 2, deironing device 4 is located aggregate shakeout device 2 top one side, deironing device 4 is including first riser 41, second riser 42, pivot 43, first electro-magnet 44, second electro-magnet 45 and be used for carrying out the rotatory drive assembly of drive to pivot 43, first riser 41 is parallel to be located second riser 42 one side, pivot 43 both ends are connected with first riser 41 and second riser 42 through the bearing respectively, first electro-magnet 44 and second electro-magnet 45 symmetry are connected in pivot 43's both sides, deironing device 4 keeps away from reclaimed aggregate conveyor 3 one end and connects and is provided with the deironing recovery box, the first vertical plate 41 and the bottom of the second vertical plate 42 are connected with the top of the connecting plate 12 through the iron removal recovery box, the driving assembly comprises a driving motor 47, the driving motor 47 is positioned on the outer wall of one side of the second vertical plate 42, one end of the rotating shaft 43 penetrates through the second vertical plate 42 to be connected with the output end of the driving motor 47 through a coupler, when one electromagnet positioned above the conveyer belt 32 at the bottom of the rotating shaft 43 is electrified and adsorbed more, the driving motor 47 drives the first electromagnet 44 and the second electromagnet 45 on the rotating shaft 43 to rotate, the positioning sensor 412 detects that the electromagnet is moved, the electromagnet positioned above the conveyer belt 32 is electrified to adsorb aggregate on the conveyer belt 32, the electromagnet far away from the positioning sensor 412 is powered off, the iron filings adsorbed above the positioning sensor 412 fall off, the iron removal recovery box is internally and uniformly recovered, one end of the first vertical plate 41 and one end of the second vertical plate 42 are close to the outer edge, the positioning sensor 412 is connected and arranged, the positioning sensor 412 position detection moving technology is the conventional technology, the working principle of the iron removal recovery box is not repeated, the positioning sensor 412 transmits signals to the controller, the controller controls on-off of the first electromagnet 44 and the second electromagnet 45, an insulating layer 46 is arranged between the first electromagnet 44 and the second electromagnet 45, the insulating layer 46 is arranged on the outer circumferential wall of the rotating shaft 43, one side of the electromagnet is prevented from affecting the other side through electricity by the insulating layer 46, the two electromagnets are arranged to remove iron and adsorb aggregates on the conveying belt 32, the positioning sensor 412 is arranged on each electromagnet, when the driving motor 47 drives the electromagnet on the rotating shaft 43 to rotate, the positioning sensor 412 detects the position movement, the electromagnet on the bottom of the rotating shaft 43 is electrified to adsorb the aggregates adsorbed by the power-off on the conveying belt 32, the electromagnet on the iron filings is far away from the positioning sensor 412, and the iron filings adsorbed on the upper side of the electromagnet falls off, and the iron removal box is uniformly recovered.

Referring to fig. 1, 2, 3 and 5, the top around the support frame 1 is connected and is provided with vibrating springs 11, parallel connection is provided with connecting plate 12 between every two vibrating springs 11 tops, connecting plate 12 top evenly distributed is connected with shakeout plate 13, every shakeout plate 13 is perpendicular with connecting plate 12, every connecting plate 12 one side outer wall is connected with vibrating motor 14, vibrating motor 14 is connected with external power supply, regeneration aggregate conveyor 3 is including conveying rod 31 and conveyer belt 32, conveying rod 31 is provided with a plurality of, every conveying rod 31 both ends are connected with connecting plate 12, conveyer belt 32 roundabout is located on conveying rod 31, conveying rod 31 is connected with external conveying motor through the conveyer belt, the connection and the theory of operation of conveyer belt 32 and conveying rod 31 are prior art, this is no longer described, shakeout plate 13 is located in the conveyer belt 32 top, one side of the shakeout plate 13 is thirty degrees and is connected with shakeout scraper 131, vibrating spring 11 cooperates vibrating motor 14 to the fixed on conveyer belt 32 on the conveyer belt 12, the material on the conveyer belt 32 is carried by the cooperation shakeout scraper 131 and when carrying out shakeout, prevent to carry out the material on the conveyer belt 32 and shake out plate, prevent that the material from piling up and the large scale, the channel is covered when the material is carried out and the material is blocked.

The working flow of the utility model is as follows:

When the device is used, firstly, the vibration motor 14, the positioning sensor 412, the driving motor 47 and the aggregate conveying driving power supply are connected with an external power supply, aggregate is placed on the conveying belt 32 through the feeding hole, the vibration spring 11 is matched with the vibration motor 14 to fixedly carry out vibration type conveying on the conveying belt 32 on the connecting plate 12, the material on the conveying belt 32 is vibrated and flattened through the matching flattening scraping plate 131, the driving motor 47 drives the first electromagnet 44 and the second electromagnet 45 on the rotating shaft 43 to rotate, at the moment, the positioning sensor 412 detects that the electromagnet is in position movement, the controller controls on-off electricity of the first electromagnet 44 and the second electromagnet 45, the electromagnet above the conveying belt 32 at the bottom of the rotating shaft 43 is electrified to adsorb the aggregate on the conveying belt 32, the electromagnet above the positioning sensor 412 is far away from the power failure, at the moment, the iron filings adsorbed above the iron filings fall off, the iron filings fall into the iron removing recovery box to be uniformly recovered, a large amount of accumulation is prevented when the aggregate is conveyed to the discharging channel hole, the iron device is covered, iron removing effect is affected, iron absorption is carried out through the two electromagnets, the iron absorption through the conveying belt 32 is stopped, the iron absorption is stopped, and the iron absorption is not needed, and the iron absorption device is stopped.

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 (7)

1. The utility model provides an deironing device for regeneration aggregate preparation, includes support frame (1), aggregate vibration shakeouts device (2), regeneration aggregate conveyor (3) and deironing device (4), its characterized in that: the utility model provides a device for recycling aggregate, including support frame (1), aggregate vibration shakeouts device (2) are located the top of support frame (1), regeneration aggregate conveyor (3) are located on aggregate vibration shakeouts device (2), deironing device (4) are located aggregate vibration shakeouts device (2) top one side, deironing device (4) are including first riser (41), second riser (42), pivot (43), first electro-magnet (44), second electro-magnet (45) and be used for right pivot (43) carry out the rotatory drive assembly of drive, first riser (41) parallel is located second riser (42) one side, pivot (43) both ends respectively through the bearing with first riser (41) and second riser (42) are connected, first electro-magnet (44) and second electro-magnet (45) symmetry connect in the both sides of pivot (43), deironing device (4) keep away from regeneration conveyor (3) one end and connect and set up deironing recovery box.

2. The iron removing device for recycled aggregate preparation according to claim 1, wherein: the driving assembly comprises a driving motor (47), the driving motor (47) is located on the outer wall of one side of the second vertical plate (42), and one end of the rotating shaft (43) penetrates through the second vertical plate (42) and is connected with the output end of the driving motor (47) through a coupler.

3. The iron removing device for recycled aggregate preparation according to claim 1, wherein: and positioning sensors (412) are respectively connected and arranged at the positions, close to the outer edges, of one ends of the first vertical plate (41) and the second vertical plate (42).

4. The iron removing device for recycled aggregate preparation according to claim 1, wherein: the vibration motor is characterized in that vibration springs (11) are connected to the tops of the periphery of the support frame (1), connecting plates (12) are connected between the tops of every two vibration springs (11) in parallel, flattening plates (13) are uniformly distributed and connected to the tops of the connecting plates (12), each flattening plate (13) is perpendicular to the connecting plates (12), and one side outer wall of each connecting plate (12) is connected with a vibration motor (14).

5. The iron removing apparatus for recycled aggregate preparation according to claim 4, wherein: the recycled aggregate conveying device (3) comprises a conveying roller (31) and a conveying belt (32), the conveying rollers (31) are provided with a plurality of conveying rollers (31), two ends of each conveying roller (31) are connected with the connecting plate (12), the conveying belt (32) is roundabout to be located on the conveying roller (31), the conveying rollers (31) are connected with an external conveying motor through the conveying belt, the flattening plate (13) is located above the conveying belt (32), and one side of the flattening plate (13) is connected with a flattening scraping plate (131) in thirty degrees.

6. The iron removing apparatus for recycled aggregate preparation according to claim 5, wherein: the bottoms of the first vertical plate (41) and the second vertical plate (42) are connected with the top of the connecting plate (12).

7. A deironing device for recycled aggregate preparation according to claim 3, wherein: an insulating layer (46) is connected between the first electromagnet (44) and the second electromagnet (45).