CN104668070A - Inclined-shaft grinding device - Google Patents

Abstract

The invention provides an inclined-shaft grinding device. The inclined-shaft grinding device comprises a feeding box, wherein a feeding cavity is designed inside the feeding box; the horizontal section of the feeding cavity is kidney-shaped; a spiral shaft is arranged inside the feeding cavity in an inclined way; a transmission shaft rod is arranged in the middle of the spiral shaft; a spiral blade is designed on the transmission shaft rod; the bottom of the spiral shaft is connected with a rotating module; the upper part of the spiral shaft is in transmission connection with a reducing motor; a discharge port is formed in the bottom of the feeding cavity; the spiral shaft penetrates out of the discharge port. The inclined-shaft grinding device is simple in structure and large in extrusion, and does not need a relatively high-inertia component; the section of the feeding cavity gradually becomes smaller downwardly, and an extruding force becomes larger, so that ores gradually become smaller and the grinding effect is good.

Description

A kind of sloping shaft reducing mechanism

Art

The invention belongs to ore processing facility technical field, especially relate to a kind of sloping shaft reducing mechanism.

Background technology

In ore extraction and following process are produced, ore through broken, sieve, grind, transport, the operation such as to gather materials.Ore build when just exploiting out is too large, not easy to operate, therefore must first pulverize it, traditional mill structure is comparatively complicated, operationally can be severely affected power in addition as jaw crusher, make the power of equipment larger, equipment can be subject to larger strength dash simultaneously, equipment is easily damaged, and traditional pulverizer keeps enough impacts in order to make in the course of work in use, need heavier inertance element is housed, make Whole Equipment quality larger.

Summary of the invention

For above-mentioned problem, the object of the present invention is to provide a kind of structure simple, lighter weight, pulverize strength foot, use the sloping shaft reducing mechanism of tilting screw bar structure.

The technical solution adopted for the present invention to solve the technical problems is: this sloping shaft reducing mechanism comprises feed bin, the feed cavity that sectional area diminishes gradually is designed with downwards in described feed bin, the kidney-shaped that the horizontal cross-section of described feed cavity is two ends semi-circular shape, intermediate parallel straight line connects, described feed cavity is tilted is placed with helical axis, be transmission shaft lever in the middle of described helical axis, described transmission shaft lever be designed with the blade of spiral winding; The bottom of described helical axis is connected with rotary module, and top and the reducing motor of described helical axis are in transmission connection; The bottom design of described feed cavity has discharging opening, and described helical axis passes from discharging opening.

As preferably, the blade outer edge of described helical axis is designed with squish lip block.

As preferably, described spiral shaft vane and helicoid is designed with protruding brake pad.

As preferentially, vertically downward, another side is tilted to down described feed cavity left and right sides.

As preferably, described helical axis uses high-abrasive material to make.

Beneficial effect of the present invention is: this sloping shaft reducing mechanism puts into ore to be comminuted by the feed cavity of feed bin, start reducing motor drives described helical axis to rotate simultaneously, make the downward worm drive of the blade lean of helical axis, ore just drives by the blade on such helical axis, because described feed cavity sectional area diminishes downwards gradually, the blade of helical axis is made to produce extruding to ore, because blade screw is wrapped in transmission shaft lever, in such transmission shaft lever, torsion can be transferred on blade, the blade of helical axis is made to produce great extruding force to ore, ore is crushed, expose from the bottom of feed cavity.This apparatus structure is simple, and the extruding of generation is large, and without the need to comparatively Great inertia part, cutting of feed cavity pronely diminishes gradually simultaneously, and make extruding dynamics increasing, ore can diminish gradually, good crushing effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of this sloping shaft reducing mechanism forward section.

Fig. 2 is feed bin horizontal direction schematic cross-section.

Fig. 3 is helical axis structural representation in the axial direction.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further described:

As shown in the embodiment shown in fig, this sloping shaft reducing mechanism comprises feed bin 1, the feed cavity 11 that sectional area diminishes gradually is designed with downwards, the kidney-shaped that as shown in Figure 2, the horizontal cross-section of described feed cavity is two ends semi-circular shape, intermediate parallel straight line connects in described feed bin 1.Described feed cavity 11 is tilted is placed with helical axis 2, is transmission shaft lever, described transmission shaft lever is designed with the blade of spiral winding in the middle of described helical axis 2; The bottom of described helical axis 2 is connected with rotary module 3, and top and the reducing motor 4 of described helical axis 2 are in transmission connection; The bottom design of described feed cavity 11 has discharging opening 12, and described helical axis 2 passes from discharging opening 12.

This sloping shaft reducing mechanism puts into ore to be comminuted by the feed cavity 11 of feed bin 1, start reducing motor 4 drives described helical axis 2 to rotate simultaneously, make the downward worm drive of the blade lean of helical axis 2, ore just drives by the blade on such helical axis 2, because described feed cavity 11 sectional area diminishes downwards gradually, the blade of helical axis 2 is made to produce extruding to ore, because blade screw is wrapped in transmission shaft lever, when it is reversed as helicitic texture, great extruding force screw-threaded coupling can be produced on flank; In such transmission shaft lever, torsion can be transferred on blade, makes the blade of helical axis 2 produce great extruding force to ore, is crushed by ore, exposes from the bottom of feed cavity 11.This apparatus structure is simple, and the extruding of generation is large, and without the need to comparatively Great inertia part, cutting of feed cavity 11 pronely diminishes gradually simultaneously, and make extruding dynamics increasing, ore can diminish gradually, good crushing effect.

As shown in Figure 3, the blade outer edge of described helical axis 2 is designed with squish lip block 21.Blade edge, along being zigzag fashion, has better crushing effect.Described helical axis 2 blade and helicoid is designed with protruding brake pad 22.Certain friction crushing effect can be started to lump.

As shown in Figure 1, vertically downward, another side is tilted to down described feed cavity 11 left and right sides.Be convenient to the whereabouts of lump like this.

Described helical axis 2 uses high-abrasive material to make.

Claims (5)

1. a sloping shaft reducing mechanism, it comprises feed bin (1), it is characterized in that: in described feed bin (1), be designed with the feed cavity (11) that sectional area diminishes gradually downwards, the kidney-shaped that the horizontal cross-section of described feed cavity (11) is two ends semi-circular shape, intermediate parallel straight line connects, described feed cavity (11) is tilted is placed with helical axis (2), be transmission shaft lever in the middle of described helical axis (2), described transmission shaft lever be designed with the blade of spiral winding; The bottom of described helical axis (2) is connected with rotary module (3), and top and the reducing motor (4) of described helical axis (2) are in transmission connection; The bottom design of described feed cavity (11) has discharging opening (12), and described helical axis (2) passes from discharging opening (12).

2. sloping shaft reducing mechanism according to claim 1, is characterized in that: the blade outer edge of described helical axis (2) is designed with squish lip block (21).

3. sloping shaft reducing mechanism according to claim 1, is characterized in that: described helical axis (2) blade and helicoid is designed with protruding brake pad (22).

4. sloping shaft reducing mechanism according to claim 1, is characterized in that: vertically downward, another side is tilted to down described feed cavity (11) left and right sides.

5. sloping shaft reducing mechanism according to claim 1, is characterized in that: described helical axis (2) uses high-abrasive material to make.