CN111331741A - Brittle silver ore splitting machine - Google Patents

Abstract

The invention discloses a brittle silver ore contraction and separation machine, which structurally comprises an inner control box, a contraction and separation pipe, a material placing barrel and a main placing body, wherein the inner control box is welded on the inner wall of the main placing body, the upper surface of the main placing body penetrates through the contraction and separation pipe and is connected with the inner control box, a contraction and separation ring and an inner solid layer are unfolded through an opening to form two halves, the two halves are propped against the surface of an ore through the force of the combination of the inner solid layer, a side arc glue is arranged between a uniform propping block and a following arc, when brittle silver ore is placed in a processing pipe, the brittle silver ore is fixed in a concave-convex shape according to the surface of the ore, the adhesion and movement are carried out along the surface size of the inner solid layer, a cutting head and an opening arc move along the force of the collision and the block, a middle support ball at the upper end can be connected with the force attached to the outer side, the unfolding area of the engagement force is enlarged, the support edge is enlarged to assist in pulling, and the middle ring continues to pull the anti-, after the brittle silver ore is cut, the two cut parts can be pushed and wrapped to different degrees.

Description

Brittle silver ore splitting machine

Technical Field

The invention belongs to the field of ore machinery, and particularly relates to a brittle silver ore division machine.

Background

The ore division machine is used for carrying out double-sleeve cutting sampling on one part of small ore, the ore processed by the division machine has various types, the brittle silver ore has concentrated form and slightly small size, and the cut sample body and most parts are conveyed and placed separately.

Based on the findings of the inventor, the existing ore reducing machine mainly has the following defects, such as:

because the self material of the brittle silver ore is fragile, the middle sleeve is fixed, and when the outer sleeve is used for sliding cutting, when the protruded part is tightly bonded with the part concentrated in the middle section, the cutting block is easy to break and crack after cutting.

Therefore, a brittle silver ore reduction machine needs to be provided.

Disclosure of Invention

In order to solve the problem that the brittle silver ore is fragile in material, the middle sleeve fixes the brittle silver ore and the outer sleeve is easy to break and crack along with the cutting block after cutting when the protruded part is tightly bonded with the concentrated middle part when the outer sleeve is subjected to sliding cutting.

The invention relates to a brittle silver ore reducing machine, which is realized by the following specific technical means:

the structure of the device comprises an internal control box, a contracting and separating pipe, a material placing barrel, a main placing body and a separating drawer.

The internal control box is welded on the inner wall of the main body, the upper surface of the main body penetrates through the dividing pipe and is connected with the internal control box, one end of the dividing pipe, which is far away from the internal control box, is communicated with the material placing barrel, and the dividing drawers are located inside the main body and are movably connected.

As a further improvement of the invention, the division pipe comprises a division ring, an expansion opening and an inner fixing layer, wherein the expansion opening and the division ring are of an integrated structure, the inner wall of the division ring is abutted against the inner fixing layer and is positioned on the same axis, the division ring is provided with two halves which are symmetrically distributed, and the inner fixing layer is of an arc structure.

As a further improvement of the invention, the inner fixed layer comprises a follow-on arc, a middle channel, node balls and abutting edges, the node balls are embedded in the follow-on arc, the middle channel penetrates through the interior of the follow-on arc, the abutting edges abut against the outer surface of the follow-on arc, the node balls are of an oval structure and are uniformly distributed in a circular ring shape, and six abutting edges are arranged.

As a further improvement of the invention, the shape supporting edge comprises uniform supporting blocks, side arc glue, a main supporting block, an inner punching core and a glue interval support, wherein the side arc glue is arranged on the outer surface of the uniform supporting block, the glue interval support is arranged between the uniform supporting blocks, the inner punching core is embedded in the main supporting block, the side arc glue is of an arc-shaped structure, and the glue interval support is made of rubber materials and has certain protection performance.

As a further improvement of the invention, the dividing ring comprises a force supporting strip, an object supporting ball, a main layer, a dividing head and an opening arc, wherein the upper half part of the object supporting ball is arranged in the force supporting strip, the force supporting strip is embedded in the main layer, the lateral surface of the dividing head is connected with the main layer, the opening arc is arranged below the dividing head, the three object supporting balls are uniformly distributed in the horizontal direction, and the dividing head is of a triangular structure.

As a further improvement of the invention, the opening arc comprises an inclined strip, a support strip, two swinging heads and a counter-pulling arc, wherein the inclined strip is abutted against the lower surface of the support strip, one end of the inclined strip, which is far away from the support strip, is connected with the counter-pulling arc, the swinging heads wrap the outer surface of the support strip, and the inclined strips are of a fan-shaped structure.

As a further improvement of the invention, the directional supporting strip comprises an extension angle, a supporting expanding edge and a middle ring, the extension angle is arranged on the outer surface of the supporting expanding edge, one end of the supporting expanding edge, which is far away from the extension angle, is connected with the middle ring, the middle ring is of a circular structure, and the extension angles are uniformly distributed in the circular structure.

As a further improvement of the invention, the object supporting ball comprises a middle supporting ball, an expanding supporting surface, four supporting cores and four object supporting hooks, wherein the expanding supporting surface is attached to the outer surface of the middle supporting ball, the supporting cores are arranged between the object supporting hooks and the expanding supporting surface, the object supporting hooks are of a spherical structure, and the expanding supporting surface is made of rubber materials and has certain pulling property.

Compared with the prior art, the invention has the following beneficial effects:

1. the division ring and the internal solid layer are unfolded through the unfolding port to form two halves, the force combined by the internal solid layer is supported on the surface of the ore, the concave-convex fluctuation of the ore is followed, the collision is carried out along with the change of the shape supporting edge outside the contact arc, the side arc glue is arranged between the uniform contact block and the contact arc, and the concave-convex shape of the ore is fixed according to the surface of the ore when the fragile silver ore is placed into the processing pipe.

2. Will carry out attached removal along the surface size of interior solid layer, let cut head and opening arc follow the power of contradicting and remove and the piece, let support the thing and collude better pocketed the material, the well ball that holds in the palm of upper end will link up the power that the outside held in the palm attaches, enlarge the exhibition area of linking force, expand the supplementary pull of support limit, let the zhonghuan continue dragging its anti-arc of dragging to holding in the palm the strip outside, after the brittle silver ore deposit is cut apart and is accomplished, can carry out the promotion and the parcel of different degrees to its two parts of cutting apart.

Drawings

Fig. 1 is a schematic structural diagram of a brittle silver ore splitter of the invention.

FIG. 2 is a schematic diagram of a right-view internal structure of a division pipe according to the present invention.

Fig. 3 is a schematic front view of an internal structure of an internal fixation layer according to the present invention.

Fig. 4 is a schematic front perspective view of a shape-supporting edge according to the present invention.

FIG. 5 is a schematic left-view internal structure of a division ring according to the present invention.

FIG. 6 is a schematic front view of an internal structure of an open arc according to the present invention.

FIG. 7 is a schematic diagram of a right-view internal structure of a direction supporting strip according to the present invention.

Fig. 8 is a schematic front view of an internal structure of an object-supporting ball according to the present invention.

In the figure: the device comprises an inner control box-q 110, a division pipe-q 220, a material containing barrel-q 330, a main placement body-q 440, a division drawer-q 550, a division ring-110, an expansion opening-220, an inner fixed layer-330, a follow-up sticking arc-g 11, a middle channel-g 22, a node ball-g 33, a butt-shaped edge-g 44, a uniform butt block-z 01, a side arc glue-z 02, a main butt block-z 03, an inner punching core-z 04, an inter-glue butt-z 05, a force supporting strip-10, an object butt ball-20, a main layer-30, a cutting head-40, an opening arc-50, a tendency strip-r 01, a downward butt strip-r 02, an inward butt-r 03, an inverse arc-r 04, an extension angle-e 1, a butt-e 2, a middle ring-e 3, a middle butt ball-737h 6, a butt surface-35h-30 and a butt hook 40.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 4:

the invention provides a brittle silver ore splitting machine which structurally comprises an inner control box q110, a splitting pipe q220, a material placing barrel q330, a main placing body q440 and a splitting drawer q 550.

The internal control box q110 is welded on the inner wall of the main placing body q440, a dividing pipe q220 penetrates through the upper surface of the main placing body q440 and is connected with the internal control box q110, one end, far away from the internal control box q110, of the dividing pipe q220 is communicated with the material placing barrel q330, and the dividing drawer q550 is located inside the main placing body q440 and is movably connected with the main placing body q 440.

Wherein, dividing pipe q220 includes dividing ring 110, exhibition mouth 220, interior solid layer 330, exhibition mouth 220 and dividing ring 110 structure as an organic whole, dividing ring 110 inner wall supports to have interior solid layer 330 and lie in the same axle center, dividing ring 110 is equipped with two halves and symmetric distribution, interior solid layer 330 is the arc structure, interior solid layer 330 supports on the ore surface, follows the unsmooth undulant attached change in the lump of ore, and dividing ring 110 supports and changes the cutting at the size of inner wall form, and exhibition mouth 220 lets the opening of both sides expand and has a fixed mouth.

The inner fixing layer 330 comprises a following pasting arc g11, a middle path g22, a node ball g33 and a supporting edge g44, the node ball g33 is embedded into the following pasting arc g11, the middle path g22 penetrates through the inside of the following pasting arc g11, the supporting edge g44 supports against the outer surface of the following pasting arc g11, the node ball g33 is of an oval structure and is uniformly distributed in a circular ring shape, six supporting edges g44 are arranged, the supporting edge g44 conducts component force collision on the inner wall, the middle path g22 wraps the collided object in an all-directional mode, and the node ball g33 enables the pulled part to bear force uniformly.

The shape supporting edge g44 comprises a uniform supporting block z01, side arc glue z02, a main supporting block z03, an inner punching core z04 and a glue space support z05, wherein the side arc glue z02 is installed on the outer surface of the uniform supporting block z01, glue space support z05 is arranged between the uniform supporting blocks z01 at intervals, the inner punching core z04 is embedded into the main supporting block z03, the side arc glue z02 is of an arc-shaped structure, the glue space support z05 is made of rubber materials and has certain protection performance, the inner punching core z04 penetrates through the whole to play a role in buffering stress, the uniform supporting block z01 uniformly supports against foreign objects, and the side arc glue z02 supports against the objects which are integrally supported.

Wherein, the division ring 110 includes that the support power strip 10, thing support ball 20, main layer 30, cut and divide head 40, opening arc 50, the thing supports the first half of ball 20 and installs inside supporting power strip 10, support power strip 10 embedding inside main layer 30, cut and divide head 40 side surface and be connected with main layer 30, cut and divide head 40 below and install opening arc 50, the thing supports ball 20 and is equipped with three and be horizontal direction evenly distributed, cut and divide head 40 to the triangle-shaped structure, main layer 30 has restricted holistic scope, and the thing supports ball 20 and when having the object to contradict at the surface, plays the effect of following the displacement to inside implementation, support power strip 10 links up and holds outside and inside power, cut and divide head 40 to carry out the power that hard promoted to the object, opening arc 50 will be crooked down when having power to pull in inside.

The specific use mode and function of the embodiment are as follows:

in the invention, when brittle silver ore is placed into the interior through a material placing barrel q330, a dividing ring 110 and an inner solid layer 330 are unfolded into two halves through an unfolding port 220, the ore is placed into the inner solid layer 330 through a dividing pipe q220, the ore is placed into a middle channel g22, the force combining the inner solid layers 330 changes along with the change of a contact arc g11 according to the contacted surface, an inner node ball g33 changes along with the contact arc g11 and plays a role in force equalization, the contact arc g11 changes along with the change of the contact arc g11, a contact edge g44 contacting the outer side of the contact arc g11 changes along with the change of the contact arc, side arc glue z02 is placed between a uniform contact block z01 and a contact arc g11 to play a role in friction, and when a uniform contact block z01 is stressed, a glue inter-contact z05 between the contact blocks plays a role in protection, so that the change and fixation is carried out according to the surface morphology of the silver ore in the middle channel g 22. When the brittle silver ore is placed in the treatment pipe, the brittle silver ore can be fixed in a concave-convex shape according to the surface of the ore.

Example 2:

as shown in fig. 5 to 8:

the opening arc 50 comprises an inclination strip r01, a support strip r02, an inclination strip r03 and an anti-dragging arc r04, the inclination strip r01 abuts against the lower surface of the support strip r02, one end, far away from the support strip r02, of the inclination strip r01 is connected with the anti-dragging arc r04, the inclination strip r03 wraps the outer surface of the support strip r02, two inclination strips are arranged on the inclination strip r03, the inclination strip r01 is of a fan-shaped structure, the support strip r02 drives the whole to bear the pulling force of the rear end, the inclination strip r01 does not influence the outer layer in a static state, the inclination strip r01 drives the outer layer to pull downwards when stressed and bent, the anti-dragging arc r04 extends to a stress point of a joint part, and the inclination strip r03 wraps in one direction when moving.

The supporting strip r02 comprises an extension angle e1, a supporting expansion edge e2 and a middle ring e3, the extension angle e1 is mounted on the outer surface of the supporting expansion edge e2, one end, far away from the extension angle e1, of the supporting expansion edge e2 is connected with the middle ring e3, the middle ring e3 is of a circular structure, the extension angle e1 is uniformly distributed in the circular structure, the extension angle e1 bears external force in all directions and extends inwards, the extension force of the outer side of the supporting expansion edge e2 is applied, and the middle ring e3 is placed between the stressed state and the stressed state to play a supporting role.

The object supporting ball 20 comprises a middle supporting ball h10, an expanding supporting surface h20, a supporting core h30 and a supporting object hook h40, the expanding supporting surface h20 is attached to the outer surface of the middle supporting ball h10, the supporting core h30 is installed between the supporting object hook h40 and the expanding supporting surface h20, four supporting object hooks h40 are arranged, the middle supporting ball h10 is of a ball structure, the expanding supporting surface h20 is made of rubber materials and has certain pulling performance, the supporting core h30 is arranged between the inner portion and the outer layer at intervals to play a supporting role, the supporting object hooks h40 resist the object to play a reacting role and drag the inner portion under force, and the middle supporting ball h10 expands the spreading area of the engaging force.

The specific use mode and function of the embodiment are as follows:

in the invention, after the inner solid layer 330 fixes the brittle silver ore, the contraction and separation ring 110 with the contact outer side can attach and move along the surface size of the inner solid layer 330, the cutting head 40 and the opening arc 50 can move and block with the force of collision, after the object is separated, the material can move into the main layer 30, the object resisting ball 20 is collided in the moving process, the object hooking ball h40 can better hold the material, the middle supporting ball h10 at the upper end can connect the force of the contact outer side to drag the connected supporting bar 10, the support bar r02 with one end connected with the supporting bar 10 can drag the supporting bar with the tensile force of an angle e1 in all directions, the support edge e2 assists in dragging, the middle ring e3 can drag the large block r04 outside the supporting bar r02 continuously to swing the head r03 to move backwards, and swing under the self shape to bend and fix the brittle silver ore 50 with the opening arc, the ores with the upper ends cut are separated by the cutting head 40 and fall into the separation drawer q550 for placement. After the brittle silver ore is cut, the two cut parts can be pushed and wrapped to different degrees.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (8)

1. The utility model provides a brittle silver ore division machine, its structure includes accuse case (q110), division pipe (q220), puts storage bucket (q330), main body (q440), branch row's steamer tray (q550), its characterized in that:

the inner control box (q110) is welded on the inner wall of the main placing body (q440), a dividing pipe (q220) penetrates through the upper surface of the main placing body (q440) and is connected with the inner control box (q110), one end, far away from the inner control box (q110), of the dividing pipe (q220) is communicated with the material placing barrel (q330), and the dividing drawer (q550) is located inside the main placing body (q440) and is movably connected with the main placing body.

2. A brittle silver ore reducing machine according to claim 1, characterised in that: the dividing pipe (q220) comprises a dividing ring (110), an expanding opening (220) and an internal fixing layer (330), the expanding opening (220) and the dividing ring (110) are of an integrated structure, and the internal fixing layer (330) is propped against the inner wall of the dividing ring (110) and is positioned on the same axis.

3. A brittle silver ore reducing machine according to claim 2, characterised in that: the inner fixing layer (330) comprises an attached arc (g11), a middle channel (g22), a node ball (g33) and a shape supporting edge (g44), wherein the node ball (g33) is embedded into the attached arc (g11), the middle channel (g22) penetrates through the inside of the attached arc (g11), and the shape supporting edge (g44) supports against the outer surface of the attached arc (g 11).

4. A brittle silver ore reducing machine according to claim 3, characterised in that: the shape supporting edge (g44) comprises a uniform supporting block (z01), side arc glue (z02), a main supporting block (z03), an inner punching core (z04) and glue inter-support (z05), the side arc glue (z02) is installed on the outer surface of the uniform supporting block (z01), glue inter-support (z05) is arranged between the uniform supporting blocks (z01), and the inner punching core (z04) is embedded into the main supporting block (z 03).

5. A brittle silver ore reducing machine according to claim 2, characterised in that: division ring (110) are including holding in the palm power strip (10), thing to ball (20), main layer (30), segmentation head (40), opening arc (50), the thing is supported ball (20) first half and is installed inside holding in the palm power strip (10), hold in the palm power strip (10) and imbed inside main layer (30), it is connected with main layer (30) to cut branch head (40) side surface, cuts and installs opening arc (50) below dividing head (40).

6. A brittle silver ore reducing machine according to claim 5, characterized in that: the opening arc (50) comprises an inclination strip (r01), a support strip (r02), a swinging head (r03) and a counter-pulling arc (r04), the inclination strip (r01) supports the lower surface of the support strip (r02), one end, far away from the support strip (r02), of the inclination strip (r01 is connected with the counter-pulling arc (r04), and the swinging head (r03) wraps the outer surface of the support strip (r 02).

7. A brittle silver ore reducing machine according to claim 6, characterised in that: the support bar (r02) comprises an extension angle (e1), a support expanding edge (e2) and a middle ring (e3), the extension angle (e1) is installed on the outer surface of the support expanding edge (e2), and one end, far away from the extension angle (e1), of the support expanding edge (e2) is connected with the middle ring (e 3).

8. A brittle silver ore reducing machine according to claim 5, characterized in that: the object supporting ball (20) comprises a middle supporting ball (h10), an expanding supporting surface (h20), a supporting core (h30) and an object supporting hook (h40), the expanding supporting surface (h20) is attached to the outer surface of the middle supporting ball (h10), and the supporting core (h30) is installed between the object supporting hook (h40) and the expanding supporting surface (h 20).

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