CN216638247U - Raw materials lifting means is used in magnesia carbon brick production - Google Patents

Abstract

The utility model discloses raw material lifting equipment for carbon brick magnesium production, and relates to the technical field of carbon brick magnesium production. The utility model provides a raw materials lifting means is used in magnesia carbon brick production, includes the chassis, and the slope is provided with the conveyer on the chassis, and the equidistance is equipped with a plurality of material boxes on the conveyer, and the conveyer top is equipped with the discharging pipe, is equipped with a plurality of supports on the chassis, and the support top is fixed on the conveyer, and chassis one side is provided with out the hopper, goes out the hopper and is located directly over the conveyer, go out hopper bottom integrated into one piece and have the mixing chamber, be provided with the vibration structure in going out the hopper, the vibration structure top is provided with the filter. The coke screening device can be used for primarily screening coke and other raw materials, filtering the coke and the raw materials with larger particle sizes, and screening the raw materials better, so that the coke cannot be directly clamped on the discharge port, the discharge port is not easy to be blocked, the raw materials can be fully mixed, the raw materials do not need to be mixed in advance, the production steps are reduced, and the production efficiency is improved.

Description

Raw materials lifting means is used in magnesia carbon brick production

Technical Field

The utility model relates to the technical field of carbon brick magnesium production, in particular to raw material lifting equipment for producing a magnesia carbon brick.

Background

Magnesia carbon bricks are produced by using a high-melting point basic oxide magnesium oxide (melting point 2800 ℃) and a high-melting point carbon material which is difficult to be infiltrated by slag as raw materials, and adding various non-oxide additives. The composite refractory material is made up by using carbon binding agent.

When the magnesia carbon brick raw material is lifted, multiple carbonaceous materials need to be mixed, the mixed raw material is lifted and transported through a lifting machine, the raw material needs to be guided to a hopper in the lifting process, coke is contained in the magnesia carbon brick raw material, the coke is solid and different in size, if the coke is directly poured into the hopper, a large amount of coke can be directly clamped on a discharge port, the discharge port is easily blocked, the step of mixing the raw material needs to be carried out in advance, the production steps are increased, and the mixing in the lifting machine is difficult to carry out, so that the utility model provides a novel solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide raw material lifting equipment for producing magnesia carbon bricks, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a raw materials lifting means is used in magnesia carbon brick production, includes the chassis, and the slope is provided with the conveyer on the chassis, and the equidistance is equipped with a plurality of material boxes on the conveyer, and the conveyer top is equipped with the discharging pipe, is equipped with a plurality of supports on the chassis, and the support top is fixed on the conveyer, and chassis one side is provided with out the hopper, goes out the hopper and is located directly over the conveyer, go out hopper bottom integrated into one piece and have the hybrid chamber, be provided with the vibration structure in going out the hopper, the vibration structure top is provided with the filter, has seted up a plurality of filtration pores of crossing on the filter, installs the hybrid structure in the hybrid chamber, and the hybrid chamber bottom is equipped with the tripper.

Preferably, the vibration structure comprises two rotating rods rotatably connected with the discharge hopper, one ends of the rotating rods are fixedly connected with cam disks, transverse rods are fixedly connected between the cam disks, ejector rods are rotatably connected to the transverse rods, the top ends of the ejector rods are rotatably connected with ejector disks, limiting seats are symmetrically arranged at the bottoms of the filter plates and are in sliding connection with the ejector disks, a vibration motor is arranged on the outer wall of the discharge hopper, and the output end of the vibration motor is fixedly connected with one end of one rotating rod.

Preferably, go out many dead levers of fixedly connected with on the hopper inner wall, the dead lever all sets up in the rotating rod both sides, and filter bottom fixedly connected with a plurality of springs, the spring bottom is all fixed on the dead lever.

Preferably, mixed structure is including fixing the fixed plate in the mixing chamber, and vertical rotation is connected with the montant on the fixed plate, and the equidistance is equipped with a plurality of stirring rods on the montant, and montant top fixedly connected with driven bevel gear is equipped with the motor on the mixing chamber outer wall, and motor output end fixedly connected with initiative bevel gear, initiative bevel gear and driven bevel gear mesh mutually, are equipped with the protection box on the fixed plate, and initiative bevel gear and driven bevel gear all are located the protection box.

Preferably, the top of the bottom frame is symmetrically welded with supporting plates, and the mixing chamber is fixed between the supporting plates.

Preferably, universal wheels are installed at four corners of the bottom of the underframe.

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

this raw materials lifting means is used in magnesia carbon brick production, through the filter and the use of mutually supporting of vibrating structure that set up, can carry out preliminary screening to coke and other raw materialss, filters the great coke of particle diameter and raw materials, can better screening raw materials, and coke can not the direct card like this on the discharge gate, is difficult to cause the discharge gate to block up.

In addition, the mixed structure who sets up can be comparatively abundant mix the raw materials, does not need the premix raw materials, has reduced production steps and then has improved production efficiency.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic diagram of a disassembled structure of the mixing chamber of the present invention;

FIG. 3 is a schematic perspective view of a filter plate and vibrating structure according to the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3 according to the present invention;

fig. 5 is a schematic perspective view of the hybrid structure of the present invention.

In the figure: 1. a chassis; 101. a universal wheel; 102. a conveyor; 103. placing a material box; 104. a discharge pipe; 105. a support; 106. a support plate; 2. a discharge hopper; 3. a mixing chamber; 301. a discharger; 302. a protection box; 4. a filter plate; 401. a filtration pore; 402. a limiting seat; 5. a hybrid structure; 501. a driven bevel gear; 502. a fixing plate; 503. a vertical rod; 504. a stirring rod; 505. a drive bevel gear; 506. a motor; 6. a vibrating structure; 601. rotating the rod; 602. a cam plate; 603. ejecting the rod; 604. ejecting the disc; 605. a spring; 606. fixing the rod; 607. a vibration motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that in the description of the present invention, the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Further, it will be appreciated that the dimensions of the various elements shown in the figures are not drawn to scale, for ease of description, and that the thickness or width of some layers may be exaggerated relative to other layers, for example.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus, once an item is defined or illustrated in one figure, it will not need to be further discussed or illustrated in detail in the description of the following figure.

As shown in fig. 1 to 5, the present invention provides a technical solution: the utility model provides a raw materials lifting means is used in magnesia carbon brick production, including chassis 1, universal wheel 101 is all installed in 1 bottom four corners of chassis, the slope is provided with conveyer 102 on 1 chassis, the equidistance is equipped with a plurality of magazine 103 of putting on the conveyer 102, conveyer 102 top is equipped with discharging pipe 104, be equipped with a plurality of supports 105 on 1 chassis, support 105 top is fixed on conveyer 102, 1 one side of chassis is provided with out hopper 2, it is located directly over conveyer 102 to go out hopper 2, go out hopper 2 bottom integrated into one piece and have mixing chamber 3, be provided with vibrating structure 6 in the play hopper 2, vibrating structure 6 top is provided with filter 4, a plurality of filtration holes 401 have been seted up on the filter 4, install mixing structure 5 in the mixing chamber 3, 3 bottoms in the mixing chamber are equipped with tripper 301.

As a specific embodiment, the vibrating structure 6 includes two rotating rods 601 rotatably connected to the discharging hopper 2, one end of each rotating rod 601 is fixedly connected to a cam disc 602, a horizontal rod is fixedly connected between the cam discs 602, an ejector rod 603 is rotatably connected to the horizontal rod, the top end of the ejector rod 603 is rotatably connected to an ejector disc 604, the bottom of the filter plate 4 is symmetrically provided with limiting seats 402, the limiting seats 402 are slidably connected to the ejector disc 604, the outer wall of the discharging hopper 2 is provided with a vibrating motor 607, and the output end of the vibrating motor 607 is fixedly connected to one end of one rotating rod 601. It should be noted that a cross rod is connected between the cam plates 602, the ejector rod 603 is rotatably connected to the cross rod, and the diameter of the cam plate 602 is slightly larger than that of the rotating rod 601.

It should be noted that, when the vibrating structure 6 starts to work, the vibration motor 607 is first turned on, the vibration motor 607 drives the rotating rod 601 to rotate, and drives the cam disc 602 between the rotating rods 601 to rotate, and as the cam disc 602 rotates, since the crossbar between the ejector rod 603 and the cam plate 602 is rotationally connected, and the diameter of the cam plate 602 is slightly larger than the diameter of the rotating rod 601, thereby driving the ejector rod 603 to continuously move downwards, then driving the ejector disk 604 fixed on the ejector rod 603 to continuously move upwards and downwards, because the stopper 402 is slidably connected to the eject plate 604, the different impact stoppers 402 on the top of the eject plate 604, meanwhile, the spring 605 continuously deforms along with the continuous up-and-down movement of the ejecting disc 604, so that the filter plate 4 is effectively driven to shake, the raw materials on the filter plate 4 continuously vibrate up and down to accelerate the filtering effect, the screening time is shortened, so that the coke and the raw material which meet the specification can smoothly pass through the filter plate 4 and enter the mixing chamber 3.

As a specific embodiment, go out many dead levers 606 of fixedly connected with on hopper 2 inner wall, dead lever 606 all sets up and rotates stick 601 both sides, and filter 4 bottom fixedly connected with is a plurality of springs 605, and spring 605 bottom all fixes on dead lever 606.

As a specific embodiment, the mixing structure 5 includes a fixing plate 502 fixed in the mixing chamber 3, a vertical rod 503 is vertically and rotatably connected to the fixing plate 502, a plurality of stirring rods 504 are equidistantly arranged on the vertical rod 503, a driven bevel gear 501 is fixedly connected to the top end of the vertical rod 503, a motor 506 is arranged on the outer wall of the mixing chamber 3, a driving bevel gear 505 is fixedly connected to the output end of the motor 506, the driving bevel gear 505 is engaged with the driven bevel gear 501, a protection box 302 is arranged on the fixing plate 502, and the driving bevel gear 505 and the driven bevel gear 501 are both located in the protection box 302. Wherein, the protection box 302 is played the guard action, avoid the raw materials to obstruct the work of drive bevel gear 505 and driven bevel gear 501, it should be said, when needing to carry out abundant mixing to the raw materials, at first turn on motor 506, motor 506 drives drive bevel gear 505 rotatory, intermeshing between drive bevel gear 505 and the driven bevel gear 501, and then drive driven bevel gear 501 rotatory, finally drive the montant 503 of fixing on driven bevel gear 501 rotatory, finally drive the stirring rod 504 on montant 503 and rotate, carry out abundant mixing to the raw materials in the mixing chamber 3.

As a specific example, the top of the chassis 1 is symmetrically welded with supporting plates 106, and the mixing chamber 3 is fixed between the supporting plates 106.

It is special, when needs material loading and promotion raw materials, at first pour the raw materials into on the filter 4 on the play hopper 2, then open vibrating structure 6, vibrating structure 6 drives the vibration of filter 4, thereby the raw materials that accord with the particle diameter enter into mixing chamber 3, and the raw materials that do not accord with the particle diameter are stayed on filter 4, further open mixing structure 5, mixing structure 5 is comparatively abundant mixes the raw materials, open tripper 301 after the mixture is accomplished, the raw materials drops in the material box 103 of putting on conveyer 102 from mixing chamber 3, and along with the removal of putting material box 103 and enter into discharging pipe 104, what need illustrate is, conveyer 102, it is prior art to put material box 103 and discharging pipe 104, the event is no longer repeated in detail.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 raw materials lifting means is used in magnesia carbon brick production, including chassis (1), it is provided with conveyer (102) to slope on chassis (1), conveyer (102) are equidistant to be equipped with a plurality of material boxes (103) of putting, conveyer (102) top is equipped with discharging pipe (104), be equipped with a plurality of supports (105) on chassis (1), support (105) top is fixed on conveyer (102), chassis (1) one side is provided with out hopper (2), go out hopper (2) and be located directly over conveyer (102), its characterized in that: go out hopper (2) bottom integrated into one piece and have mixing chamber (3), be provided with vibrating structure (6) in going out hopper (2), vibrating structure (6) top is provided with filter (4), has seted up a plurality of filtration holes (401) on filter (4), installs mixing structure (5) in mixing chamber (3), is equipped with tripper (301) bottom mixing chamber (3).

2. The raw material lifting equipment for producing the magnesia carbon brick according to claim 1, which is characterized in that: the vibrating structure (6) comprises two rotating rods (601) rotatably connected with the discharge hopper (2), one end of each rotating rod (601) is fixedly connected with a cam disc (602), a cross rod is fixedly connected between the cam discs (602), an ejection rod (603) is rotatably connected to the cross rod, the top end of the ejection rod (603) is rotatably connected with an ejection disc (604), limiting seats (402) are symmetrically arranged at the bottoms of the filter plates (4), the limiting seats (402) are slidably connected with the ejection disc (604), a vibrating motor (607) is arranged on the outer wall of the discharge hopper (2), and the output end of the vibrating motor (607) is fixedly connected with one end of one rotating rod (601).

3. The raw material lifting equipment for producing the magnesia carbon brick according to claim 2, characterized in that: go out many dead levers of fixedly connected with (606) on hopper (2) inner wall, dead lever (606) all set up and are rotating stick (601) both sides, and a plurality of springs of filter (4) bottom fixedly connected with (605), spring (605) bottom all fix on dead lever (606).

4. The raw material lifting equipment for producing the magnesia carbon brick according to claim 1, which is characterized in that: mixing structure (5) is including fixing fixed plate (502) in mixing chamber (3), vertical rotation is connected with montant (503) on fixed plate (502), montant (503) equidistance is equipped with a plurality of stirring rod (504), montant (503) top fixedly connected with driven bevel gear (501), be equipped with motor (506) on mixing chamber (3) outer wall, motor (506) output end fixedly connected with initiative bevel gear (505), initiative bevel gear (505) and driven bevel gear (501) mesh mutually, be equipped with protection box (302) on fixed plate (502), initiative bevel gear (505) and driven bevel gear (501) all are located protection box (302).

5. The raw material lifting equipment for producing the magnesia carbon brick according to claim 1, which is characterized in that: the top of the bottom frame (1) is symmetrically welded with support plates (106), and the mixing chamber (3) is fixed between the support plates (106).

6. The raw material lifting equipment for producing the magnesia carbon brick according to claim 1, which is characterized in that: universal wheels (101) are installed at four corners of the bottom of the underframe (1).

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