CN210863189U

CN210863189U - Sampling device for iron ore detection

Info

Publication number: CN210863189U
Application number: CN201921216001.4U
Authority: CN
Inventors: 于辉; 杨海西; 刘元霞; 马建军
Original assignee: Jingye Steel Co Ltd
Current assignee: Guangdong taidu iron and Steel Industry Co.,Ltd.
Priority date: 2019-07-30
Filing date: 2019-07-30
Publication date: 2020-06-26
Anticipated expiration: 2029-07-30

Abstract

The utility model relates to an iron ore detects technical field, especially relates to an iron ore detects uses sampling device, solves among the prior art because can only rely on artifical screening and the problem that consumes a large amount of manpowers and efficiency are lower that leads to when screening iron ore, including sampling platform, fixed box and unloading ramp, the fixed box has been welded to upper portion one side of sampling platform, and one side of fixed box is provided with ejection of compact pipeline to the lateral wall welding of sampling platform has the unloading ramp, be provided with the driver plate of putting to one side between the inner wall of fixed box, the export of taking pressure sensor is seted up to the one end of driver plate, slides through the regulating plate between export and the ejection of compact pipeline and is provided with the baffle, and the regulating plate slides through the screw rod and arranges one side of spout in, compares in artifical screening, the utility model discloses not only save the manpower, but also improved.

Description

Sampling device for iron ore detection

Technical Field

The utility model relates to an iron ore detects technical field, especially relates to an iron ore detects uses sampling device.

Background

Iron ore is an important raw material for iron and steel production enterprises, natural ore (iron ore) is gradually separated from iron through procedures of crushing, grinding, magnetic separation, flotation, gravity separation and the like, and the iron ore is a mineral aggregate containing iron simple substances or iron compounds and capable of being economically utilized.

When detecting iron ore, need take a sample, but when taking a sample, some detection departments can filter suitable iron ore and detect, and those iron ore that are less, light in weight need abandon it, but general screening all is that the manual work is screened, need consume a large amount of manpowers, and efficiency is lower moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the iron ore can only rely on manual screening and result in consume a large amount of manpowers and efficiency lower among the prior art when screening iron ore, and the iron ore sampling device for detection that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a sampling device for iron ore detection comprises a sampling table, a fixed box and a blanking ramp, wherein the fixed box is welded on one side of the upper part of the sampling table, a discharge pipeline is arranged on one side of the fixed box, the blanking ramp is welded on the side wall of the sampling table, an inclined drive plate is arranged between the inner walls of the fixed box, an outlet with a pressure sensor is arranged at one end of the drive plate, a baffle is arranged between the outlet and the discharge pipeline in a sliding manner through an adjusting plate, the adjusting plate is arranged on one side of a sliding chute in a sliding manner through a screw rod, the bottom wall of the discharge pipeline is in an open shape, a fixed disc is arranged on the upper inner wall of the sampling table below the discharge pipeline through a fixed support, a sliding slope is arranged inside the sampling table below the fixed disc, four groups of shielding plates with triggers are movably arranged on the upper surface of the, the gleitbretter welds in the bottom of sunshade, the centre of fixed disk is rotated and is provided with and is the annular roating seat of circle, all is connected fixedly through the gangbar between the diapire of roating seat and the four groups gleitbretters.

Preferably, the sliding grooves are formed in the side walls of the two sides of the fixing box, the screw rods are arranged in the sliding grooves through motors, and the motors are located at the bottoms of the sliding grooves.

Preferably, the adjusting plate is fixed with the side wall of the baffle plate through welding, a sliding block is further welded on one side of the adjusting plate, the sliding block is matched with the sliding groove, the sliding block is connected with the screw rod through threads, and the sliding block is sleeved on the outer wall of the screw rod.

Preferably, four groups of sliding holes are formed in the fixed disc, limiting side grooves matched with the sliding pieces are further formed in the bottoms of the sliding holes, and the side walls of the sliding pieces are arranged in the limiting side grooves.

Preferably, the linkage rod is fixedly connected with the bottom wall of the rotating seat through a key, and the linkage rod is fixedly connected with the bottom wall of the sliding sheet through a key.

Preferably, a driving motor is disposed inside the rotary base, and a control panel is mounted on a side wall of the fixed box.

The utility model discloses a set up the driver plate, let iron ore convey along with the driver plate to set up pressure sensor in the exit and monitor the weight of the iron ore of every process, the hole in the middle of the iron ore from the roating seat that makes not reach detection standard weight falls down, and makes the iron ore that reaches detection standard weight follow unloading ramp landing, with this effect that reaches the screening, compares and sieves in the manual work, has not only saved the manpower, but also has improved work efficiency.

Drawings

FIG. 1 is a schematic structural view of a sampling device for iron ore detection according to the present invention;

FIG. 2 is a schematic view of a driving plate structure of a sampling device for iron ore detection according to the present invention;

FIG. 3 is a top view of a fixing plate of a sampling device for iron ore detection according to the present invention;

fig. 4 is a bottom view of the fixing plate of the sampling device for iron ore detection provided by the utility model.

In the figure: the device comprises a sampling table 1, a fixed box 2, a chute 21, a screw 22, a discharging pipeline 3, a discharging ramp 4, a fixed disc 5, a rotary seat 51, a shielding plate 52, a sliding hole 53, a sliding sheet 54, a linkage rod 55, a baffle 6, an adjusting plate 61, a dial 7, an outlet 71 and a pressure sensor 72.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, a sampling device for iron ore detection comprises a sampling platform 1, a fixed box 2 and a blanking ramp 4, wherein the fixed box 2 is welded on one side of the upper part of the sampling platform 1, a discharge pipeline 3 is arranged on one side of the fixed box 2, the blanking ramp 4 is welded on the side wall of the sampling platform 1, the blanking ramp 4 is used for facilitating the falling of iron ore, an inclined drive plate 7 is arranged between the inner walls of the fixed box 2, an outlet 71 with a pressure sensor 72 is arranged at one end of the drive plate 7, the pressure sensor 72 is used for facilitating the screening of iron ore, a baffle 6 is arranged between the outlet 71 and the discharge pipeline 3 in a sliding way through an adjusting plate 61, the baffle 6 is used for facilitating the screening of iron ore and is used for blocking the subsequent iron ore during the screening of the previous iron ore, the adjusting plate 61 is arranged on one side of a chute 21 in a sliding way through a screw 22, the bottom wall of the discharge pipeline 3, the fixed disk 5 is used for installing a shielding plate 52, sliding pieces 54, a rotary base 51 and the like, a landslide is arranged below the fixed disk 5 in the sampling platform 1, four groups of shielding plates 52 with triggers are movably arranged on the upper surface of the fixed disk 5, the shielding plates 52 are used for controlling iron ore to fall, four groups of sliding pieces 54 are slidably arranged on the lower surface of the fixed disk 5, the sliding pieces 54 are used for driving the shielding plates 52 to move, the sliding pieces 54 are welded at the bottom of the shielding plates 52, a circular rotary base 51 is rotatably arranged in the middle of the fixed disk 5, the rotary base 51 is used for driving a linkage rod 55 to move, and the bottom wall of the rotary base 51 and the four groups of sliding pieces 54 are fixedly connected through the.

Specifically, the sliding grooves 21 are formed in the side walls of the two sides of the fixing box 2, the screw rods 22 are arranged inside the sliding grooves 21 through the motors, and the motors are located at the bottoms of the sliding grooves 21.

Concretely, through welded fastening between the lateral wall of regulating plate 61 and baffle 6, regulating plate 61's effect is in order to drive baffle 6 and remove to regulating plate 61's one side has still welded the slider, slider and spout 21 phase-match, and pass through threaded connection between slider and the screw rod 22, the slider overlaps in the outer wall of screw rod 22.

Specifically, four sets of sliding holes 53 are arranged in the fixed disk 5, the bottom of each sliding hole 53 is further provided with a limiting edge groove matched with the sliding piece 54, the side wall of each sliding piece 54 is arranged in the limiting edge groove, the linkage rod 55 and the bottom wall of the rotary seat 51 are fixedly connected through a key, the linkage rod 55 and the bottom wall of the sliding piece 54 are fixedly connected through a key, the rotary seat 51 is internally provided with a driving motor, and the side wall of the fixed box 2 is provided with a control panel.

In this embodiment, the control panel presses the switch to start the machine, the iron ore is sequentially placed in the fixed box 2, and sequentially falls into each distribution space, and rotates to the outlet 71 along with the dial 7 (one side of the dial 7 is provided with the rotating motor, and the rotating motor drives the rotating motor to rotate), when passing through the outlet 71, the pressure sensor 72 monitors the weight of the iron ore, if the detected standard weight is reached, the rotating base 51 does not operate, that is, the bottom wall of the discharging pipeline 3 is flat, meanwhile, the motor at the bottom of the chute 21 drives the screw rod 22 to rotate forward, so that the slider drives the adjusting plate 61 to move upward along the chute 21, thereby driving the baffle 6 to move upward, then the iron ore passing through the outlet 71 slides from the bottom of the raised baffle 6, then slides to the discharging ramp 4 through the discharging pipeline 3 and falls down, and if the detected standard weight is not reached, the baffle 6 moves upwards after monitoring the quality, simultaneously, the driving motor of the rotary seat 51 in the rotary seat starts to rotate anticlockwise, along with the rotation of the rotary seat 51, four groups of sliding sheets 54 are driven by a linkage rod 55 to slide outwards along a sliding hole 53, so that a shielding plate 52 on the upper surface of the fixed disk 5 is driven to move outwards, a hole in the middle of the rotary seat 51 is exposed, then when iron ore passes through the hole, the iron ore directly falls down and slides down along a sliding slope, after the iron ore falls down, the rotary seat 51 rotates reversely immediately, so that the shielding plate 52 is driven by the sliding sheets 54 to move towards the middle, and after triggers of 4 groups of shielding plates 52 are contacted at the middle position of the fixed disk 5, the rotary seat 51 is controlled to stop rotating, so that the shielding plate.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. A sampling device for iron ore detection comprises a sampling table (1), a fixed box (2) and a blanking ramp (4), wherein the fixed box (2) is welded on one side of the upper part of the sampling table (1), a discharging pipeline (3) is arranged on one side of the fixed box (2), and the blanking ramp (4) is welded on the side wall of the sampling table (1), the sampling device is characterized in that an inclined drive plate (7) is arranged between the inner walls of the fixed box (2), one end of the drive plate (7) is provided with an outlet (71) with a pressure sensor (72), a baffle (6) is arranged between the outlet (71) and the discharging pipeline (3) in a sliding manner through an adjusting plate (61), the adjusting plate (61) is arranged on one side of a sliding chute (21) in a sliding manner through a screw rod (22), the bottom wall of the discharging pipeline (3) is in an open shape, and a fixed disk (5) is arranged below the discharging pipeline (3) on the upper inner wall, the inside of the below of fixed disk (5) in sample platform (1) is provided with the landslide, the upper surface activity of fixed disk (5) is provided with four groups and all takes sunshade (52) of trigger to the lower surface slip of fixed disk (5) is provided with four groups gleitbretters (54), and gleitbretter (54) weld in the bottom of sunshade (52), the centre of fixed disk (5) is rotated and is provided with and is the annular roating seat (51) of circle, all is connected fixedly through gangbar (55) between the diapire of roating seat (51) and four groups gleitbretters (54).

2. The sampling device for iron ore detection according to claim 1, wherein the sliding groove (21) is formed in both side walls of the fixed box (2), the screw rod (22) is arranged in the sliding groove (21) through a motor, and the motor is located at the bottom of the sliding groove (21).

3. The iron ore sampling device according to claim 1, wherein the adjusting plate (61) is fixed to the side wall of the baffle (6) by welding, a sliding block is welded to one side of the adjusting plate (61), the sliding block is matched with the sliding groove (21), the sliding block is connected with the screw rod (22) by threads, and the sliding block is sleeved on the outer wall of the screw rod (22).

4. The iron ore sampling device for detection according to claim 1, wherein four sets of sliding holes (53) are formed in the fixed disk (5), the bottom of each sliding hole (53) is provided with a limit edge groove matched with the sliding sheet (54), and the side wall of each sliding sheet (54) is arranged in the limit edge groove.

5. The iron ore sampling device for detection according to claim 1, wherein the linkage rod (55) is fixed to the bottom wall of the rotary seat (51) through a key connection, and the linkage rod (55) is fixed to the bottom wall of the sliding sheet (54) through a key connection.

6. A sampling device for iron ore detection according to claim 1 characterized in that a driving motor is provided inside the rotary base (51) and a control panel is mounted on the side wall of the fixed box (2).