CN217527805U - High-efficiency sawtooth wave jigger for metal screening - Google Patents

Abstract

The utility model relates to the technical field of metal screening, in particular to a high-efficiency sawtooth wave jigger for metal screening, which comprises a frame, a vibration screening device, a material distribution tank and an extrusion device, wherein the vibration screening device comprises a vibration buffering element connected with the frame, a sorting bin arranged on the vibration buffering element and a vibrator arranged on one side of the sorting bin, the sorting bin comprises a first discharge port and a second discharge port, a sawtooth sorting plate is arranged in the sorting bin, and the sawtooth sorting plate separates the first discharge port from the second discharge port; a first material guide bin and a second material guide bin are arranged in the material distribution tank, the first material guide bin is communicated to the first material outlet port, and the second material guide bin is communicated with the second material outlet port; the utility model discloses can select separately the metal and the non-metallic ore of not equidimension size, the metal material after will selecting separately leads respectively through dividing the material jar, convenient subsequent processing, overall structure is simple, reasonable in design, divides the material efficient, and stable in structure is reliable.

Description

High-efficiency sawtooth wave jigger for metal screening

Technical Field

The utility model relates to a metal screening technical field especially relates to a high efficiency metal screening sawtooth wave jigging machine.

Background

The sawtooth wave jigger occupies a small area, is simple and convenient to operate, is an efficient, energy-saving and environment-friendly mineral separation device newly developed and produced in recent years, has a good effect on the mineral separation of various metal and nonmetal minerals, is particularly suitable for the mineral separation of fine-grained minerals, and plays an important role in the fields of metal smelting slag recovery and mine tailing treatment.

The existing jigger has technical problems in use, for example, the sorting effect is poor in use, materials cannot be further processed after sorting, the overall efficiency is influenced, and therefore the existing metal screening equipment can be further improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an adopt the vibration mode screening, can select separately the metal and the non-metallic ore deposit of different size and dimension, the metal material after will selecting separately leads respectively through dividing the material jar, makes things convenient for subsequent processing, overall structure is simple, reasonable in design, divides the material efficient, the reliable and stable in structure's high efficiency metal screening sawtooth wave jigger.

The utility model adopts the technical proposal that: a high-efficiency sawtooth wave jigger for metal screening comprises a rack, a vibration screening device, a material distribution tank and an extrusion device, wherein the vibration screening device comprises a vibration buffering element connected to the rack, a sorting bin installed on the vibration buffering element and a vibrator installed on one side of the sorting bin, the sorting bin comprises a first discharge port and a second discharge port, a sawtooth sorting plate is arranged in the sorting bin, and the sawtooth sorting plate separates the first discharge port from the second discharge port; a first material guide bin and a second material guide bin are arranged in the material distribution tank, the first material guide bin is communicated to the first discharge port, and the second material guide bin is communicated with the second discharge port; the extrusion device is provided with an extrusion shaft, and the extrusion shaft is arranged in the second material guide bin.

The improved structure of the material distributing tank is characterized in that the rack comprises a supporting angle frame and a fixed frame arranged on the supporting angle frame, and the material distributing tank is arranged in the fixed frame.

The scheme is further improved in that the sorting bin is provided with a feed port which is communicated to the sawtooth sorting plate, and the vibration buffering element is a spring.

The further improvement of the scheme is that the sawtooth separation plate is obliquely arranged in the separation bin and is inclined towards the second discharge port.

The sawtooth separation plate comprises a plate body and a plurality of jigging grooves uniformly distributed on the plate body, and the jigging grooves are communicated to the first discharging port.

The further improvement of the scheme is that the first material guide bin is provided with a first material receiving port corresponding to the first discharge port.

The further improvement of the scheme is that a second material receiving port is arranged on the second material guide bin corresponding to the second discharge port.

The scheme is further improved in that the first material guide bin inclines downwards and is extended with a first material outlet, and a second material outlet is formed in one side of the second material guide bin.

The extrusion shaft is connected with a driving element, and the driving element is used for driving the extrusion shaft to move in the second material guiding bin.

The further improvement of the scheme is that the driving element comprises a driving motor, the driving motor is connected with a cam shaft, the cam shaft is connected with an extrusion shaft, and the extrusion shaft is connected with an extrusion hammer.

The utility model has the advantages that:

compare current metal screening installation, the utility model discloses a vibration mode screening can select separately the metal of not equidimension size and non-metallic ore deposit, and the metal material after will selecting separately leads respectively through dividing the material jar, makes things convenient for subsequent processing, and overall structure is simple, reasonable in design, divides the material efficient, and stable in structure is reliable, and the practicality is strong. The vibration screening device comprises a vibration buffering element connected to the frame, a sorting bin installed on the vibration buffering element and a vibrator installed on one side of the sorting bin, the sorting bin comprises a first discharging port and a second discharging port, a sawtooth sorting plate is arranged in the sorting bin, and the sawtooth sorting plate separates the first discharging port from the second discharging port; a first material guide bin and a second material guide bin are arranged in the material distribution tank, the first material guide bin is communicated to the first discharge port, and the second material guide bin is communicated with the second discharge port; the extrusion device is provided with an extrusion shaft, and the extrusion shaft is arranged in the second material guide bin. Select separately metal and non-metal frame, set up the extrusion axle moreover and can be used to extrude the great non-metal ore of particle diameter, can smash the extrusion of non-metal ore, discharge through the second guide storehouse in the back, overall structure is simple reliable, and the function is diversified.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the high-efficiency metal screening sawtooth jigger of the present invention;

FIG. 2 is a schematic perspective view of another view angle of the high efficiency sawtooth wave jig for metal screening shown in FIG. 1;

FIG. 3 is a schematic top view of the high efficiency sawtooth jig of FIG. 1;

fig. 4 isbase:Sub>A cross-sectional viewbase:Sub>A-base:Sub>A of fig. 3.

Description of reference numerals: the device comprises a frame 1, a supporting angle bracket 11, a fixed frame 12, a vibration screening device 2, a vibration buffering element 21, a sorting bin 22, a first discharging port 221, a second discharging port 222, a sawtooth sorting plate 223, a plate body 223a, a jigging groove 223b, a feeding port 224, a vibrator 23, a material distribution tank 3, a first material guiding bin 31, a first material receiving port 311, a first discharging port 312, a second material guiding bin 32, a second material receiving port 321, a second discharging port 322, an extrusion device 4, an extrusion shaft 41, a driving element 42, a driving motor 421, a cam shaft 422 and an extrusion hammer 423.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 4, a high-efficiency sawtooth wave jigger for metal screening is provided with a frame 1, a vibration screening device 2, a material separating tank 3 and an extruding device 4, wherein the vibration screening device 2 comprises a vibration buffering element 21 connected to the frame 1, a sorting bin 22 installed on the vibration buffering element 21 and a vibrator 23 installed on one side of the sorting bin 22, the sorting bin 22 comprises a first material outlet 221 and a second material outlet 222, a sawtooth sorting plate 223 is arranged in the sorting bin 22, and the sawtooth sorting plate 223 separates the first material outlet 221 from the second material outlet 222; a first material guiding bin 31 and a second material guiding bin 32 are arranged in the material distributing tank 3, the first material guiding bin 31 is communicated with a first material outlet port 221, and the second material guiding bin 32 is communicated with a second material outlet port 222; the extruding device 4 is provided with an extruding shaft 41, and the extruding shaft 41 is arranged in the second material guiding bin.

The frame 1 comprises a supporting angle bracket 11 and a fixed frame 12 arranged on the supporting angle bracket 11, the material distribution tank 3 is arranged in the fixed frame 12, the supporting angle bracket 11 is matched with the supporting frame to fix the material distribution tank 3, and meanwhile, a vibration buffering element 21 is also arranged on the surface of the fixed frame 12.

The sorting bin 22 is provided with a feeding port 224, the feeding port 224 is communicated to the sawtooth sorting plate 223, the vibration buffering element 21 is a spring, and the feeding port 224 is used for feeding materials, so that the materials can be conveniently sorted, and the materials can be sorted for sorting metal materials and non-metal materials.

Sawtooth sorting plate 223 is the slope form and installs in sorting bin 22, sawtooth sorting plate 223 inclines towards second discharge port 222, adopts the slope to set up sawtooth sorting plate 223 and is used for the material direction, stably carries the material when the vibration.

The sawtooth sorting plate 223 comprises a plate body 223a and a plurality of jigging grooves 223b uniformly distributed on the plate body 223a, the jigging grooves 223b are communicated to the first discharging port 221, the plate body 223a is provided with the plurality of jigging grooves 223b, and materials can fall into the first discharging port 221 to be discharged according to the size of the jigging grooves 223b when passing through.

First leading feed bin 31 is equipped with first material receiving port 311 corresponding to first discharge port 221, and the further improvement does, and second leading feed bin 32 is equipped with second material receiving port 321 corresponding to second discharge port 222, and first leading feed bin 31 slopes down, and extends and have first discharge gate 312, one side of second leading feed bin 32 is equipped with second discharge gate 322, and overall structure is simple, and is efficient to the material ejection of compact.

The extrusion shaft 41 is connected with a driving element 42, the driving element 42 is used for driving the extrusion shaft 41 to move in the second material guiding bin 32, the further improvement is that the driving element 42 comprises a driving motor 421, the driving motor 421 is connected with a cam shaft 422, the cam shaft 422 is connected with the extrusion shaft 41, the extrusion shaft 41 is connected with an extrusion hammer 423, and the driving motor 421 drives the cam shaft 422 to be matched to drive the extrusion shaft 41 and the extrusion hammer 423 to strike the non-metal frame in a reciprocating manner.

The utility model discloses a vibration mode screening can be selected separately the metal of not equidimension and non-metallic ore deposit, and the metal material after will sorting leads respectively through material separating tank 3, makes things convenient for subsequent processing, and overall structure is simple, reasonable in design, divides the material efficient, and stable in structure is reliable, and the practicality is strong. Specifically, a rack 1, a vibration screening device 2, a material distribution tank 3 and an extrusion device 4 are arranged, the vibration screening device 2 comprises a vibration buffering element 21 connected to the rack 1, a sorting bin 22 installed on the vibration buffering element 21 and a vibrator 23 installed on one side of the sorting bin 22, the sorting bin 22 comprises a first material outlet port 221 and a second material outlet port 222, a sawtooth sorting plate 223 is arranged in the sorting bin 22, and the sawtooth sorting plate 223 separates the first material outlet port 221 from the second material outlet port 222; a first material guiding bin 31 and a second material guiding bin 32 are arranged in the material distributing tank 3, the first material guiding bin 31 is communicated with a first material outlet port 221, and the second material guiding bin 32 is communicated with a second material outlet port 222; the extruding device 4 is provided with an extruding shaft 41, and the extruding shaft 41 is arranged in the second material guiding bin. Select separately metal and non-metal frame, set up extrusion axle 41 moreover and can be used to extrude the great non-metal ore of particle diameter, can smash the extrusion of non-metal ore, discharge through second guide bin 32 after, overall structure is simple reliable, and the function is diversified.

The above-mentioned embodiments only represent several embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A high efficiency metal screening sawtooth wave jigger is characterized in that: comprises that

A machine frame, a plurality of guide rails and a plurality of guide rails,

the vibration screening device comprises a vibration buffering element connected to the rack, a sorting bin mounted on the vibration buffering element and a vibrator mounted on one side of the sorting bin, the sorting bin comprises a first discharge port and a second discharge port, a sawtooth sorting plate is arranged in the sorting bin, and the sawtooth sorting plate separates the first discharge port from the second discharge port;

the material distribution tank is internally provided with a first material guide bin and a second material guide bin, the first material guide bin is communicated to the first discharge port, and the second material guide bin is communicated with the second discharge port;

and the extruding device is provided with an extruding shaft, and the extruding shaft is arranged in the second material guiding bin.

2. The high efficiency sawtooth jig for metal screening of claim 1 wherein: the frame includes support angle frame and locates the fixed frame who supports the angle frame, divide the material jar to locate in the fixed frame.

3. The high efficiency sawtooth jig for metal screening of claim 1 wherein: the sorting bin is provided with a feed port which is communicated to the sawtooth sorting plate, and the vibration buffering element is a spring.

4. The high efficiency saw-tooth wave jig for metal screening of claim 1 wherein: the sawtooth sorting plate is installed in the sorting bin in an inclined manner, and the sawtooth sorting plate is inclined towards the second discharge port.

5. The high efficiency sawtooth jig for metal screening of claim 1 wherein: the sawtooth sorting plate comprises a plate body and a plurality of jigging grooves uniformly distributed on the plate body, and the jigging grooves are communicated to the first discharging port.

6. The high efficiency sawtooth jig for metal screening of claim 1 wherein: the first material guide bin is provided with a first material receiving port corresponding to the first discharge port.

7. The high efficiency sawtooth jig for metal screening of claim 6 wherein: and a second material receiving port is arranged on the second material guide bin corresponding to the second discharge port.

8. The high efficiency sawtooth jig for metal screening of claim 7 wherein: the first material guide bin inclines downwards and is extended with a first discharge hole, and one side of the second material guide bin is provided with a second discharge hole.

9. The high efficiency sawtooth jig for metal screening of claim 1 wherein: the extrusion shaft is connected with a driving element, and the driving element is used for driving the extrusion shaft to move in the second material guide bin.

10. The high efficiency sawtooth jig for metal screening of claim 9 wherein: the driving element comprises a driving motor, the driving motor is connected with a cam shaft, the cam shaft is connected with an extrusion shaft, and the extrusion shaft is connected with an extrusion hammer.

Images