CN211246935U - Broken stone material deironing device - Google Patents

Abstract

The utility model discloses a rubble material deironing device, rubble material deironing device sets up directly over the transmission band, rubble material deironing device includes outer container, magnetic coil, control power supply cabinet, pine material subassembly and scraping mechanism, the outer container is the cuboid, magnetic coil sets up in the outer container, be provided with the control power supply cabinet on the lateral wall of outer container, just the control power supply cabinet with magnetic coil communication connection, the pine material subassembly sets up on the outer container, and can with the surface of transmission band offsets, scraping mechanism sets up on the outer container, scraping mechanism can along slide on the bottom plate of outer container, will the bottom plate of outer container carries out the scraping. This rubble material deironing device can remove the iron object in the building stones of transportation on the conveyer belt, prevents iron object with damages such as interior welt, tup, broken tooth of breaker cavity.

Description

Broken stone material deironing device

Technical Field

The utility model relates to a rubble processing field, concretely relates to rubble material deironing device.

Background

In the process of stone crushing, the stone material to be crushed is usually conveyed by a conveyor belt into a crusher cavity for crushing. However, since stone is generally contaminated with many impurities, and the impurities generally contain ferrous objects. The lining plate, the hammers, the crushing teeth and the like of the crusher cavity are usually made of metal, and if the iron objects enter the crusher cavity, the lining plate, the hammers, the crushing teeth and the like of the crusher cavity are damaged in the crushing process, so the iron objects in the stone materials must be removed before the stone materials enter the crusher cavity.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a rubble material deironing device, this rubble material deironing device can remove the iron object in the building stones of transportation on the conveyer belt, prevents that the iron object from with damages such as neck bush, tup, broken tooth of breaker cavity.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides a rubble material deironing device, rubble material deironing device sets up directly over the transmission band, rubble material deironing device includes outer container, magnetic coil, control power supply cabinet, pine material subassembly and scraping mechanism, the outer container is the cuboid, magnetic coil sets up in the outer container, be provided with the control power supply cabinet on the lateral wall of outer container, just the control power supply cabinet with magnetic coil communication connection, the pine material subassembly sets up on the outer container, and can with the surface of transmission band offsets, scraping mechanism sets up on the outer container, scraping mechanism can along the bottom plate of outer container slides, will the bottom plate of outer container carries out the scraping.

Preferably, the loose material assembly is arranged at the end part of the outer box and is positioned at one end of the stone incoming material.

Preferably, the pine material subassembly sets up the tip of outer container to be located the one end of building stones supplied materials, the pine material subassembly includes first mounting bracket, swiveling wheel and rotary power source, first mounting bracket has two, two the relative setting of first installation is in the both sides of outer container to be located the edge near the material side, rotary power source sets up one of them on the first mounting bracket, the horizontal setting of swiveling wheel is two between the first mounting bracket, and with rotary power source's power take off hub connection, the interval is provided with a plurality of puddlers on the circumference of swiveling wheel, just the tip of puddler is close to the surface of transmission band.

Preferably, the first mounting bracket is rotatably disposed on the outer box and located in a middle portion of the outer box in a height direction, and a length of the first mounting bracket is greater than one half of a height of the outer box.

Preferably, the rotation direction of the rotary power source is consistent with the advancing direction of the stone.

Preferably, the relative spaced of bottom plate of outer container is provided with two second mounting brackets, and two the second mounting bracket along the direction setting of transmission band motion, the guide way has been seted up along its length direction on the second mounting bracket, scraping mechanism includes knife rest and spiller, the knife rest is rectangular shape, the both ends of knife rest all are provided with the slider, two the card that the slider can slide respectively is established in the guide way, the spiller sets up on the knife rest, the edge of a knife of spiller with the bottom plate of outer container offsets.

Preferably, the scraping mechanism still includes the brush subassembly, the brush subassembly is including installation axle and brush, install the horizontal and perpendicular to of axle the direction setting of transmission band motion is in on the knife rest, and be located and keep away from the one side that the spiller is relative, the even setting in brush interval install epaxially, the installation axle with distance between the outer container bottom plate is less than the length of brush.

Preferably, the mounting shaft is rotatably disposed on the tool holder.

Preferably, the scraping mechanism further comprises a push handle, the push handle is U-shaped, and two ends of the push handle are hinged to the two sliding blocks respectively.

The broken stone material deironing device at least comprises the following advantages:

above-mentioned rubble material deironing device gets rid of iron object in the building stones, including outer container, magnetic coil, control power cabinet, pine material subassembly and scraping mechanism. Magnetic coil has the production magnetic field at the circular telegram to iron object adsorbs in the building stones that will transport on outer bottom of the case board, and the transportation is accomplished the back, and the corresponding iron button of unloading on the start control power cabinet, iron object drop, and is simple among the whole operation process, convenient, practical. The material loosening assembly throws and loosens stone materials so as to facilitate magnetic field iron absorption; after the conveying is finished, the scraping mechanism is pushed, and the residual impurities attached to the bottom plate can be cleaned, so that the iron sucking effect can be prevented from being influenced by the fact that part of iron pins and the impurities are attached to the bottom of the box body.

Drawings

FIG. 1 is a schematic structural diagram of an iron removal device for crushed stone materials in this embodiment;

FIG. 2 is a schematic view of the loose material assembly of FIG. 1 rotated to the top of the outer box;

FIG. 3 is a schematic structural view of the loosening assembly of FIG. 1;

FIG. 4 is a schematic view of the scraping mechanism of FIG. 1;

reference numerals: 10-a broken stone material deironing device, 100-an outer box, 110-a second mounting rack, 111-a guide groove, 200-a control power supply cabinet, 300-a material loosening component, 310-a first mounting rack, 320-a rotating wheel, 330-a rotating power source, 340-a stirring rod, 400-a scraping mechanism, 410-a knife rest, 411-a sliding block, 420-a scraper knife, 430-a brush component, 440-a pushing handle and 1-a conveying belt.

Detailed Description

Referring to fig. 1 to 4, a deironing device 10 for crushed stone materials is disclosed. For removing ferrous objects from stone. The broken stone material deironing device 10 is arranged right above the conveying belt 1. The crushed stone material deironing device 10 comprises an outer box 100, a magnetic coil, a control power supply cabinet 200, a material loosening assembly 300 and a scraping mechanism 400. The outer case 100 is a rectangular body. The magnetic coil is disposed in the outer case 100. The outer side wall of the outer box 100 is provided with a control power supply cabinet 200, and the control power supply cabinet 200 is in communication connection with the magnetic coil. The control power supply cabinet 200 is provided with a plurality of buttons for controlling the magnetic coil, such as a power supply button, a magnet-attracting direction control button, a magnet-releasing button, a fault button, and the like. The loosening member 300 is disposed on the outer case 100 and can abut against the surface of the conveyor belt 1. The scraping mechanism 400 is provided on the outer box 100, and the scraping mechanism 400 can slide along the bottom plate of the outer box 100 to scrape the bottom plate of the outer box 100. In the process of transporting stones, the power button on the control power supply cabinet 200 and the material loosening assembly 300 are started at the same time, the magnetic coil generates a magnetic field after being electrified, the material loosening assembly 300 loosens stones on the conveyor belt 1 at the same time, and iron objects in the stones are attracted to the bottom of the outer box 100 under the action of the magnetic field force. After the stone is transported, the iron unloading button is started, and the iron object can be separated from the bottom plate of the outer box 100, so that the iron unloading operation is completed. If the bottom plate of the outer box 100 is still attached with iron pins and impurities, the scraping mechanism 400 can be pushed, and the scraping mechanism 400 scrapes the bottom plate completely, so that the subsequent iron-sucking operation can be prevented from being influenced by the impurities such as the attached iron pins and the like.

Referring to fig. 1 and 3, the loose material assembly 300 is disposed at an end of the outer box 100 and at an end of the incoming stone material (indicated by the arrow in the drawing). The iron absorption device is arranged at one end of the incoming stone material, so that the iron absorption can be carried out after the stone material is loosened, and the iron absorption operation is more facilitated. Specifically, the loose material assembly 300 includes a first mounting bracket 310, a rotating wheel 320, and a rotating power source 330. The first mounting brackets 310 are provided in two numbers, and the two first mounting brackets 310 are oppositely disposed at both sides of the outer case 100 and located near the edges of the material side. The rotary power source 330 is provided on one of the first mounting brackets 310. The rotary wheel 320 is transversely disposed between the two first mounts 310 and is connected to a power output shaft of the rotary power source 330. A plurality of stirring rods 340 are arranged at intervals on the circumference of the rotating wheel 320, and the ends of the stirring rods 340 are close to the surface of the conveyor belt 1. In the using process, the rotary power source 330 is started, the rotary power source 330 drives the rotary wheel 320 and the stirring rod 340 to rotate, and the stirring rod 340 can loosen or break up stone materials, so that the iron absorption effect is improved.

In this embodiment, the rotation direction of the rotary power source 330 coincides with the direction in which the stones advance. The first direction enables the stones to be thrown directly under the outer box 100 through the stirring rod 340 when they are transported again, to be loosened and scattered during the throwing process, and to be attracted during the process, thereby increasing the attraction effect.

Referring to fig. 2, in the present embodiment, the first mounting bracket 310 is rotatably disposed on the outer box 100 and located in the middle of the outer box 100 in the height direction, and the length of the first mounting bracket 310 is greater than one half of the height of the outer box 100. When the feeding is not required, the two first mounting frames 310 may be rotated to place the rotating wheels on the top of the outer case 100 for the passage of stones.

Referring to fig. 1 and 4, two second mounting brackets 110 are oppositely arranged at intervals on the bottom plate of the outer box 100, and the two second mounting brackets 110 are arranged along the moving direction of the conveyor belt 1. The second mounting bracket 110 is provided with a guide groove 111 along the length direction thereof. Scraping mechanism 400 includes a blade holder 410 and a blade 420. The blade holder 410 is elongated. The two ends of the tool holder 410 are provided with sliders 411, and the two sliders 411 are slidably engaged with the guide grooves 111, respectively. The scraper blade 420 is provided on the blade holder 410, and the blade edge of the scraper blade 420 abuts against the bottom plate of the outer box 100. When the impurities and iron pins remained on the bottom plate of the outer box 100 need to be removed, the knife rest 410 is pushed to slide the knife rest 410 along the bottom plate of the outer box 100, and the scraper knife 420 can scrape the impurities and iron pins remained on the bottom plate of the outer box 100.

With continued reference to fig. 1 and 4, in the present embodiment, the scraping mechanism 400 further includes a brush assembly 430. Comprises a mounting shaft and a brush. The mounting shaft is disposed on the blade carrier 410 transversely and perpendicularly to the direction of movement of the conveyor belt 1 and on the opposite side from the blade 420. The hairbrushes are arranged on the mounting shaft at even intervals. The distance between the mounting shaft and the bottom plate of the outer box 100 is less than the length of the brush. In the process of the movement of the scraping mechanism 400, the brush can clean the impurities left on the bottom plate of the box, thereby increasing the wiping effect.

Further, the mounting shaft is rotatably disposed on the tool holder 410. As the entire scraping mechanism 400 translates. The installation axle can be along with knife rest 410 translation, can also rotate simultaneously, then can increase and clean the effect, also can let the dregs that drop between the brush freely drop at the rotation in-process simultaneously, prevents that dregs card from establishing in the brush and reducing and clean the effect. Meanwhile, the scraping mechanism 400 further comprises a push handle 440, the push handle 440 is U-shaped, and two ends of the push handle 440 are respectively hinged with the two sliding blocks 411. When the tool holder 410 needs to be pushed to advance, the tool holder 410 can be conveniently pushed to move only by pushing the push handle 440.

The concrete use method of the broken stone material deironing device 10 comprises the following steps: in the process of transporting stones, the power button on the control power supply cabinet 200 is started at the same time, the magnetic coil generates a magnetic field after being electrified, at the same time, the rotary power source 330 of the material loosening assembly 300 is started, stones conveyed by the conveyor belt 1 are thrown and loosened by the stirring rod 340, and iron objects in the stones are attracted to the bottom of the outer box 100 under the action of the magnetic field force. After the building stones transport, then start and unload indisputable button, the iron object then can break away from the bottom plate of outer container 100, if the bottom plate of outer container 100 still adheres to indisputable round pin and impurity when, then the accessible pushes away 440 promotion knife rest 410, scrapes totally with the adnexed impurity of spiller 420 with the bottom plate to can prevent to adhere to indisputable round pin and impurity influence and inhale indisputable effect, at the in-process that promotes spiller 420, the brush can further carry out the scour with remaining impurity on the bottom plate, thereby increase and clean the effect.

Above-mentioned rubble material deironing device 10 gets rid of iron object in the building stones, has the magnetic field that produces including magnetic coil at the circular telegram, can adsorb iron object on 100 bottom plates of outer container in the building stones that come transporting, transports the completion back, unloads the iron button on the start control power supply cabinet 200, and the iron object drops, and is simple in the whole operation process, convenient, practical. Stirring rod 340 in the pine material subassembly 300 can throw the building stones and loosen, and the magnetic field of being convenient for is inhaled the iron, and spiller 420 scrapes the adnexed impurity of bottom plate totally to can prevent adnexed iron round pin and impurity influence and inhale the iron effect, the brush can further carry out the clean brush with remaining impurity on the bottom plate, further increases and cleans the effect.

Finally, it should be noted that: the basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a rubble material deironing device, a serial communication port, rubble material deironing device sets up directly over the transmission band, rubble material deironing device includes outer container, magnetic coil, control power supply cabinet, pine material subassembly and scraping mechanism, the outer container is the cuboid, magnetic coil sets up in the outer container, be provided with the control power supply cabinet on the lateral wall of outer container, just the control power supply cabinet with magnetic coil communication connection, the pine material subassembly sets up on the outer container, and can with the surface of transmission band offsets, scraping mechanism sets up on the outer container, scraping mechanism can along the bottom plate of outer container slides, will the bottom plate of outer container scrapes.

2. The apparatus as claimed in claim 1, wherein the loose material assembly is disposed at an end of the outer box and at an end of the incoming stone material.

3. The crushed stone material deironing device of claim 2, characterized in that loose material subassembly includes first mounting bracket, swiveling wheel and rotary power source, first mounting bracket has two, two the relative setting of first installation is in the both sides of outer container to be located by the edge of near material side, rotary power source sets up on one of them on the first mounting bracket, the horizontal setting of swiveling wheel is two between the first mounting bracket, and with rotary power source's power take off shaft, the interval is provided with a plurality of puddlers on the circumference of swiveling wheel, just the tip of puddler is close to the surface of transmission band.

4. The deironing device of claim 3, characterized in that the first mounting rack is rotatably arranged on the outer box and is positioned in the middle of the outer box in the height direction, and the length of the first mounting rack is greater than half of the height of the outer box.

5. The apparatus as claimed in claim 3, wherein the rotational direction of the rotary power source is the same as the direction of the movement of the stones.

6. The crushed stone material deironing device of claim 1, characterized in that, the relative interval of bottom plate of outer container is provided with two second mounting brackets, and two the second mounting brackets set up along the direction of transmission band motion, seted up the guide way on the second mounting bracket along its length direction, scraping mechanism includes knife rest and spiller, the knife rest is rectangular shape, the both ends of knife rest all are provided with the slider, two the slider respectively slidable card establish in the guide way, the spiller sets up on the knife rest, the edge of a knife of spiller with the bottom plate of outer container offsets.

7. The deironing device of claim 6, characterized in that, the scraping mechanism further comprises a brush assembly, the brush assembly comprises an installation shaft and a brush, the installation shaft is arranged on the tool rest transversely and perpendicularly to the moving direction of the conveying belt and is positioned on the opposite side far away from the scraper knife, the brush is arranged on the installation shaft at uniform intervals, and the distance between the installation shaft and the bottom plate of the outer box is less than the length of the brush.

8. The deironing device of claim 7, characterized in that the mounting shaft is rotatably arranged on the knife rest.

9. The deironing device for the crushed stone materials as claimed in claim 6, wherein the scraping mechanism further comprises a push handle, the push handle is U-shaped, and two ends of the push handle are respectively hinged with the two sliding blocks.

Images