CN112675732A - Smelt copper ore sand flash mixed device for copper - Google Patents

Abstract

The invention relates to a mixing device, in particular to a copper ore sand rapid mixing device for smelting copper. The invention provides a copper ore sand rapid mixing device for smelting copper, which is small in size, convenient for people to operate and uniform in mixing. The utility model provides a smelt copper ore sand flash mixed device for copper, includes: the bottom plate is provided with a workbench; the collecting box is placed on the bottom plate; the bottom plate is provided with a clutch driving mechanism; the bottom plate is provided with a stirring and mixing mechanism; the discharging mechanism is arranged on the bottom plate. The invention realizes the placement of the copper ore sand through the discharging mechanism, and then realizes the automatic stirring of the copper ore sand and the solvent under the coordination of the clutch driving mechanism and the stirring and mixing mechanism.

Description

Smelt copper ore sand flash mixed device for copper

Technical Field

The invention relates to a mixing device, in particular to a copper ore sand rapid mixing device for smelting copper.

Background

Before the copper metallurgy, the workman all can stir copper ore sand and solvent usually, then carry out processing on next step, the mixing stirring device in present market is usually bulky, people at first need pour copper ore sand and solvent into mixing stirring device when operating, then start mixing stirring device and stir it, but because mixing stirring device need stir the volume more at every turn, so just stir inhomogeneously easily, and it then can't be better to a small amount of copper ore sand stir, so just comparatively inconvenient.

Therefore, in view of the above disadvantages, there is a need to develop a copper ore sand rapid mixing device for copper smelting, which has a small volume, is convenient for people to operate, and can be uniformly mixed.

Disclosure of Invention

In order to overcome the defects of larger volume and easy uneven stirring in the prior art, the invention has the technical problems that: the utility model provides a smelt copper ore sand flash mixed device for copper that volume is less, be convenient for people's operation and misce bene.

The technical implementation scheme of the invention is as follows: the utility model provides a smelt copper ore sand flash mixed device for copper, includes: the bottom plate is provided with a workbench; the collecting box is placed on the bottom plate; the bottom plate is provided with a clutch driving mechanism; the bottom plate is provided with a stirring and mixing mechanism; the discharging mechanism is arranged on the bottom plate.

Preferably, the clutch drive mechanism includes: the bottom plate is provided with a first support column; the bottom plate is provided with a first bearing seat; the first rotating shaft, the first bearing block and the first supporting column are respectively provided with a first rotating shaft, and the first supporting column is rotatably connected with the first rotating shaft; the first clamping plates are arranged on the first rotating shafts; the first clamping plates are provided with first elastic pieces; the first hinge blocks are arranged on the first rotating shafts in a sliding mode and are connected with the first elastic piece; the first support column is rotatably provided with a first rotating shaft, and the first rotating shaft is matched with the first hinge block; the workbench is provided with a first support seat; the servo motor is arranged in the first supporting seat; a third rotating shaft is arranged on an output shaft of the servo motor and rotatably penetrates through the first supporting seat; the first belt conveyer is arranged between the first rotating shaft and the third rotating shaft.

Preferably, the stirring and mixing mechanism includes: the bottom plate is provided with a second supporting seat; the first connecting rods are symmetrically arranged on the second supporting seat; the second clamping plate is arranged between the first connecting rods in a sliding manner; the first connecting rod is sleeved with the first elastic piece; the bottom of the second clamping plate is rotatably provided with a fourth rotating shaft; the second supporting seat is provided with a second supporting column; the second support column is rotatably provided with a rotating shaft sleeve, and the fourth rotating shaft slides in the rotating shaft sleeve; the second belt conveyer is arranged between the first rotating shaft on the upper side and the rotating shaft sleeve; the second supporting seat is provided with a guide sleeve in a sliding mode, and the fourth rotating shaft is connected with the guide sleeve in a rotating mode; the crank is arranged at the lower part of the fourth rotating shaft; the crank is rotatably provided with a connecting frame; the connecting frame is provided with a second connecting rod; the annular frame is arranged on the outer side of the second connecting rod.

Preferably, the emptying mechanism comprises: the bottom plate is provided with a third supporting seat; the third supporting seat is internally provided with a loading frame; the third supporting seat is symmetrically provided with sliding sleeves; the sliding sleeves are slidably provided with rectangular frames; the second bearing seat is arranged on the workbench; the second bearing block is provided with a fifth rotating shaft; the fifth rotating shaft is provided with a convex rotating block; the fan-shaped block is arranged between the convex rotating block and the fifth rotating shaft and matched with the rectangular frame; the material carrying frame is provided with a first hinge block; the third clamping plate is rotatably arranged on the second hinging block and connected with the rectangular frame; the material carrying frame is provided with a third hinge block; the third hinge block is provided with a second round cover plate; the first round cover plate is symmetrically provided with a first connecting rod; a fixing plate is arranged between the third connecting rods; the ejector rod is arranged on the fixing plate and matched with the convex rotating block.

Preferably, the device further comprises a feeding mechanism, wherein the feeding mechanism comprises: the third bearing seat is arranged on the workbench; the third bearing seat is provided with a third rotating shaft; the third belt conveyer is arranged between the sixth rotating shaft and the first rotating shaft on the lower side; a fourth belt conveyer is arranged between the sixth rotating shaft and the fifth rotating shaft; the sixth rotating shaft is provided with a gear lack wheel; the fourth supporting seat is arranged on the workbench; the fourth bearing seat is arranged on the workbench; a seventh rotating shaft is arranged on the fourth bearing seat and rotatably connected with the fourth supporting seat; the seventh rotating shaft is provided with a first circular gear which is meshed with the gear lacking; the eighth rotating shaft is arranged on the seventh rotating shaft; the seventh rotating shaft is provided with a circular feeding plate; the fixed rod is arranged on the workbench; the fixed rod is provided with a guide frame; the circular feeding plate is provided with a feeding cylinder in a sliding manner, and the feeding cylinder is matched with the seventh rotating shaft in a sliding manner; the fixed blocks are arranged on the material loading cylinders; the fixed blocks are provided with rotating rods; the rotating rods are respectively and rotatably provided with connecting blocks; the connecting blocks are provided with second circular cover plates; the slider is equipped with on the connecting block all slidingtype.

Preferably, the method further comprises the following steps: the guide sleeve is symmetrically provided with L-shaped plates; the handle is arranged on each L-shaped plate; and a fourth connecting rod is arranged between the L-shaped plates and is connected with the second connecting rod.

Preferably, the method further comprises the following steps: the third support column is arranged on the workbench; the third support column is provided with a rack in a sliding manner; the rack is provided with a special-shaped block; the bottom of the material loading cylinder is provided with an annular top block, the annular top block is matched with the connecting block, and the annular top block is connected with the special-shaped block; a fifth supporting seat is arranged on the workbench; the fifth supporting seat is rotatably provided with a Y-shaped handle; and a second circular gear is arranged on the Y-shaped handle and meshed with the rack.

Preferably, the second elastic member is a coil spring.

The invention has the beneficial effects that: 1. the invention realizes the placement of the copper ore sand through the discharging mechanism, and then realizes the automatic stirring of the copper ore sand and the solvent under the coordination of the clutch driving mechanism and the stirring and mixing mechanism.

2. Through the cooperation of feeding mechanism and separation and reunion actuating mechanism, and then realize the material loading to the copper ore sand, through the cooperation of feeding mechanism and drop feed mechanism, realize the automatic unloading to the copper ore sand that the stirring was accomplished.

3. Through being equipped with the hand handle, when people need clear up the material frame of carrying, just can upwards stimulate the hand handle, drive uide bushing and annular frame rebound, just so can make the annular frame keep away from and carry the material frame, and then the people of being convenient for clear up.

4. Through the cooperation that is equipped with annular kicking block and slider, and then realize the automatic rotation from top to bottom of the circular apron of second, and when people need adjust the volume of copper ore sand unloading, just rotatable Y shape handle to the adjustment of the volume of realization to copper ore sand unloading.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the clutch driving mechanism of the present invention.

Fig. 3 is a schematic perspective view of the stirring and mixing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the discharging mechanism of the present invention.

FIG. 5 is a schematic view of a first partial body structure according to the present invention.

Fig. 6 is a schematic perspective view of the feeding mechanism of the present invention.

FIG. 7 is a schematic view of a second partial body structure according to the present invention.

Fig. 8 is a perspective view of a third embodiment of the present invention.

Fig. 9 is a perspective view of a fourth embodiment of the present invention.

Reference numerals: 1_ base plate, 2_ workbench, 21_ collection box, 3_ clutch driving mechanism, 31_ first support column, 32_ first bearing seat, 33_ first rotating shaft, 34_ first clamping plate, 35_ first elastic member, 36_ first hinge block, 37_ second rotating shaft, 38_ first support seat, 39_ servo motor, 310_ third rotating shaft, 311_ first belt conveyer, 4_ stirring and mixing mechanism, 41_ second support seat, 42_ second clamping plate, 43_ first connecting rod, 44_ second elastic member, 45_ fourth rotating shaft, 46_ second support column, 47_ rotating shaft sleeve, 48_ second belt conveyer, 49_ guide sleeve, 410_ crank, 411_ connecting frame, 412_ annular frame, 413_ second connecting rod, 5_ discharging mechanism, 51_ third support seat, 52_ material carrying frame, 53_ sliding sleeve, 54_ frame, 55_ second shaft, 56_ fifth rotating shaft, 57_ male turning block, 58_ sector, 59_ second hinge block, 510_ third catch plate, 511_ first circular cover plate, 512_ third hinge block, 513_ third connecting rod, 514_ fixed plate, 515_ ram, 6_ feeding mechanism, 61_ third bearing block, 62_ sixth rotating shaft, 63_ third belt conveyer, 64_ fourth belt conveyer, 65_ missing gear, 66_ fourth bearing block, 67_ fourth bearing block, 68_ seventh rotating shaft, 69_ first circular gear, 610_ eighth rotating shaft, 611_ circular feeding plate, 612_ guide frame, 613_ loading cylinder, 614_ second circular cover plate, 615_ fixed block, 616_ rotating rod, 617_ connecting block, 618_ slider, 619_ fixed rod, 7_ L-shaped plate, 8_ hand grip, 9_ fourth connecting rod, 10_ third support column, 11_ rack, 12_ special-shaped block, 13_ annular top block, 14_ fifth support seat, 15_ Y-shaped handle, 16_ second circular gear.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

The utility model provides a smelt copper ore sand flash mixed device for copper, is shown as figure 1, figure 2, figure 3, figure 4 and figure 5, including bottom plate 1, workstation 2, collecting box 21, separation and reunion actuating mechanism 3, stirring mixing mechanism 4 and drop feed mechanism 5, be equipped with workstation 2 on the bottom plate 1, placed collecting box 21 on the bottom plate 1, be equipped with separation and reunion actuating mechanism 3 on the bottom plate 1, be equipped with stirring mixing mechanism 4 on the bottom plate 1, be equipped with drop feed mechanism 5 on the bottom plate 1.

When people need use this device, at first people pour copper ore sand and solvent into drop feed mechanism 5 in, just can start separation and reunion actuating mechanism 3 corotation after that, separation and reunion actuating mechanism 3 corotation and then drive stirring mixing mechanism 4 and rotate, stirring mixing mechanism 4 rotates and then stirs copper ore sand and solvent in drop feed mechanism 5, after waiting to stir the completion, people just can open the part of drop feed mechanism 5 lower part, make the copper ore sand that the stirring was accomplished fall to the collecting box 21 in by drop feed mechanism 5, so just be convenient for people to the collection of copper ore sand, wherein when stirring again, people can be with stirring mixing mechanism 4 extrusion downwards, make copper ore sand and solvent by more even stirring, when people need not use this device, close separation and reunion actuating mechanism 3 can.

The clutch driving mechanism 3 comprises a first supporting column 31, a first bearing seat 32, a first rotating shaft 33, a first clamping plate 34, a first elastic part 35, a first hinging block 36, a second rotating shaft 37, a first supporting seat 38, a servo motor 39, a third rotating shaft 310 and a first belt conveyer 311, wherein the bottom plate 1 is provided with the first supporting column 31, the bottom plate 1 is provided with the first bearing seat 32, the first bearing seat 32 and the first supporting column 31 are both provided with the first rotating shaft 33, the first supporting column 31 is rotatably connected with the first rotating shaft 33, the first rotating shaft 33 is both provided with the first clamping plate 34, the first clamping plate 34 is both provided with the first elastic part 35, the first rotating shaft 33 is both provided with the first hinging block 36 in a sliding manner, the first hinging block 36 is connected with the first elastic part 35, the first supporting column 31 is rotatably provided with the second rotating shaft 37, the second rotating shaft 37 is matched with the first hinging block 36, the workbench 2 is provided with the first supporting seat 38, a servo motor 39 is arranged in the first supporting seat 38, a third rotating shaft 310 is arranged on an output shaft of the servo motor 39, the third rotating shaft 310 rotatably penetrates through the first supporting seat 38, and a first belt conveying device 311 is arranged between the second rotating shaft 37 and the third rotating shaft 310.

The stirring and mixing mechanism 4 comprises a second supporting seat 41, a second clamping plate 42, a first connecting rod 43, a second elastic piece 44, a fourth rotating shaft 45, a second supporting column 46, a rotating shaft sleeve 47, a second belt conveyer 48, a guiding sleeve 49, a crank 410, a connecting frame 411, a ring frame 412 and a second connecting rod 413, wherein the bottom plate 1 is provided with the second supporting seat 41, the second supporting seat 41 is symmetrically provided with the first connecting rod 43, the second clamping plate 42 is slidably arranged between the first connecting rods 43, the first connecting rods 43 are sleeved with the second elastic piece 44, the bottom of the second clamping plate 42 is rotatably provided with the fourth rotating shaft 45, the second supporting seat 41 is provided with the second supporting column 46, the second supporting column 46 is rotatably provided with the rotating shaft sleeve 47, the fourth rotating shaft 45 slides in the rotating shaft sleeve 47, the second belt conveyer 48 is arranged between the first rotating shaft 33 at the upper side and the rotating shaft sleeve 47, the second supporting seat 41 is slidably provided with the guiding sleeve 49, the fourth shaft 45 is rotatably connected to the guide sleeve 49, a crank 410 is disposed at a lower portion of the fourth shaft 45, a connecting frame 411 is rotatably disposed on the crank 410, a second connecting rod 413 is disposed on the connecting frame 411, and an annular frame 412 is disposed outside the second connecting rod 413.

The discharging mechanism 5 comprises a third supporting seat 51, a material carrying frame 52, a sliding sleeve 53, a rectangular frame 54, a second bearing seat 55, a fifth rotating shaft 56, a convex rotating block 57, a fan-shaped block 58, a second hinge block 59, a third clamping plate 510, a first circular cover plate 511, a third hinge block 512, a third connecting rod 513, a fixing plate 514 and a top rod 515, wherein the third supporting seat 51 is arranged on the bottom plate 1, the material carrying frame 52 is arranged in the third supporting seat 51, the sliding sleeves 53 are symmetrically arranged on the third supporting seat 51, the rectangular frame 54 is slidably arranged between the sliding sleeves 53, the second bearing seat 55 is arranged on the workbench 2, the fifth rotating shaft 56 is arranged on the second bearing seat 55, the convex rotating block 57 is arranged on the fifth rotating shaft 56, the fan-shaped block 58 is arranged between the convex rotating block 57 and the fifth rotating shaft 56, the fan-shaped block 58 is matched with the rectangular frame 54, the material carrying frame 52 is provided with a second hinge block 59, the second clamping, the third clamping plate 510 is connected with the rectangular frame 54 in a sliding manner, the material carrying frame 52 is provided with a third hinge block 512, the third hinge block 512 is provided with a first circular cover plate 511, the first circular cover plate 511 is symmetrically provided with third connecting rods 513, a fixing plate 514 is arranged between the third connecting rods 513, the fixing plate 514 is provided with a top rod 515, and the top rod 515 is matched with the convex rotating block 57.

Firstly, people pour the copper ore sand and the solvent into the material carrying frame 52, then the servo motor 39 can be started to rotate positively, the output shaft of the servo motor 39 rotates positively to drive the third rotating shaft 310 to rotate, the third rotating shaft 310 drives the second rotating shaft 37 to rotate through the first belt conveyer 311, the second rotating shaft 37 rotates positively to drive the first hinging block 36 on the upper side to rotate, meanwhile, the first hinging block 36 on the lower side is continuously extruded, the first elastic part 35 on the lower side is continuously compressed, the first hinging block 36 on the upper side rotates to drive the first rotating shaft 33 on the upper side to rotate, the first rotating shaft 33 on the upper side drives the rotating shaft sleeve 47 to rotate through the second belt conveyer 48, the rotating shaft sleeve 47 drives the crank 410 to rotate through the fourth rotating shaft 45, the crank 410 further drives the connecting frame 411, the annular frame 412 and the second connecting rod 413 to rotate, thus, the copper ore sand and the solvent in the material carrying frame 52 can be stirred, wherein people can also extrude the second clamping plate 42 downwards, the second clamping plate 42 drives the guide sleeve 49 and the crank 410 to move downwards through the fourth rotating shaft 45, the crank 410 drives all the components on the second clamping plate to move downwards, the second elastic member 44 is compressed, so that the copper ore sand and the solvent in the material carrying frame 52 can be stirred more uniformly, then after the stirring of the copper ore sand is completed, people can close the servo motor 39 and release the second clamping plate 42, so that the second elastic member 44 drives the second clamping plate 42 to reset, the annular frame 412 resets, then the rectangular frame 54 can be pushed backwards, the rectangular frame 54 drives the third clamping plate 510 to rotate backwards, the third clamping plate 510 is separated from the first circular cover plate 511, at the moment, the first circular cover plate 511 rotates downwards and drives all the components on the first circular cover plate to rotate, so that the copper ore sand in the material carrying frame 52 is not carried, the copper ore sand falls into the collecting box 21 through the first circular cover plate 511, and after the copper ore sand falls completely, one can reposition the first circular cover 511 and the sliding sleeve 53 so that the third clamping plate 510 re-clamps the first circular cover 511.

Example 2

Based on embodiment 1, as shown in fig. 1, 6, 7, 8 and 9, the present invention further includes a feeding mechanism 6, where the feeding mechanism 6 includes a third bearing seat 61, a sixth rotating shaft 62, a third belt conveyer 63, a fourth belt conveyer 64, a missing gear 65, a fourth bearing seat 66, a fourth bearing seat 67, a seventh rotating shaft 68, a first circular gear 69, an eighth rotating shaft 610, a circular feeding plate 611, a material guiding frame 612, a material carrying cylinder 613, a second circular cover 614, a fixed block 615, a rotating rod 616, a connecting block 617, a sliding block 618 and a fixed rod 619, the workbench 2 is provided with the third bearing seat 61, the third bearing seat 61 is provided with the sixth rotating shaft 62, the third belt conveyer 63 is provided between the sixth rotating shaft 62 and the first rotating shaft 33 on the lower side, the fourth belt conveyer 64 is provided between the sixth rotating shaft 62 and the fifth rotating shaft 56, the missing gear 65 is provided on the sixth rotating shaft 62, the workbench 2 is provided with a fourth supporting seat 66, the workbench 2 is provided with a fourth supporting seat 67, the fourth supporting seat 67 is provided with a seventh rotating shaft 68, the seventh rotating shaft 68 is rotatably connected with the fourth supporting seat 66, the seventh rotating shaft 68 is provided with a first circular gear 69, the first circular gear 69 is meshed with the missing gear 65, the seventh rotating shaft 68 is provided with an eighth rotating shaft 610, the seventh rotating shaft 68 is provided with a circular feeding plate 611, the workbench 2 is provided with a fixing rod 619, the fixing rod 619 is provided with a guide frame 612, a material carrying cylinder 613 is slidably arranged on the circular feeding plate 611, the material carrying cylinder 613 is slidably matched with the seventh rotating shaft 68, the material carrying cylinder 613 is provided with a fixing block 615, the fixing blocks 615 are provided with rotating rods 616, the rotating rods 616 are provided with connecting blocks 617 in a rotating mode, the connecting blocks 617 are provided with second circular cover plates 614, and the connecting blocks 618 are slidably arranged.

Firstly, people pour the copper ore sand and the solvent into the right material loading cylinder 613 through the material guiding frame 612 and fix the second circular cover plate 614, so that the second circular cover plate 614 cannot rotate downwards, then after the copper ore sand is stirred, people can control the servo motor 39 to rotate reversely, the output shaft of the servo motor 39 further drives the second rotating shaft 37 to rotate reversely, the second rotating shaft 37 rotates reversely to drive the first hinged block 36 and the first rotating shaft 33 on the lower side to rotate, at the moment, the first hinged block 36 on the upper side is continuously extruded, the first elastic element 35 on the upper side is continuously compressed, the first rotating shaft 33 on the lower side rotates to drive the sixth rotating shaft 62 to rotate through the third belt conveyer 63, the sixth rotating shaft 62 drives the fifth rotating shaft 56 to rotate through the fourth belt conveyer 64, the fifth rotating shaft 56 further drives all the components thereon to rotate, and then when the sector block 58 rotates to contact with the rectangular frame 54, the rectangular frame 54 is squeezed, the push rod 515 rotates to the concave of the convex rotating block 57, at this time, the third clamping plate 510 does not block the first circular cover plate 511 any more, so that the copper ore sand can automatically slide downwards, then when the sector block 58 rotates to separate from the rectangular frame 54, the push rod 515 rotates to be in convex contact with the convex rotating block 57, at this time, one can reset the rectangular frame 54 and the third clamping plate 510, so that the third clamping plate 510 clamps the first circular cover plate 511, at the same time, when the sixth rotating shaft 62 rotates, the sixth rotating shaft 62 drives the missing gear 65 to rotate, when the missing gear 65 is engaged with the first circular gear 69, the first circular gear 69 drives the eighth rotating shaft 610 to rotate through the seventh rotating shaft 68, the seventh rotating shaft 68 drives all the components thereon to rotate, when the missing gear 65 is separated from the first circular gear 69, the circular feeding plate 611 rotates half a circle, so that the right-side material carrying cylinder 613 rotates to the left side, at this time, people can open the second circular cover plate 614 on the left side, so that the copper ore sand and the solvent fall into the material carrying frame 52, and the copper ore sand can be automatically fed and discharged by repeating the steps.

Still including L shaped plate 7, hand grip 8 and fourth connecting rod 9, the symmetry is equipped with L shaped plate 7 on the uide bushing 49, all is equipped with hand grip 8 on the L shaped plate 7, is equipped with fourth connecting rod 9 between the L shaped plate 7, and fourth connecting rod 9 is connected with second connecting rod 413.

When people need to clean the material carrying frame 52, the hand grip 8 can be pulled upwards, the hand grip 8 drives the L-shaped plate 7 and the fourth connecting rod 9 to move upwards, the guide sleeve 49 and the annular frame 412 are further driven to move upwards, the second elastic element 44 is stretched, the annular frame 412 can be far away from the material carrying frame 52, and after the cleaning is finished, people can release the hand grip 8, so that the second elastic element 44, the guide sleeve 49 and the annular frame 412 are reset.

Still including third support column 10, rack 11, dysmorphism piece 12, annular kicking block 13, fifth supporting seat 14, Y shape handle 15 and second circular gear 16, be equipped with third support column 10 on the workstation 2, the last slip of third support column 10 is equipped with rack 11, be equipped with dysmorphism piece 12 on the rack 11, it is equipped with annular kicking block 13 to carry the material drum 613 bottom, annular kicking block 13 and connecting block 617 cooperation, annular kicking block 13 is connected with dysmorphism piece 12, be equipped with fifth supporting seat 14 on the workstation 2, the last rotation type of fifth supporting seat 14 is equipped with Y shape handle 15, be equipped with second circular gear 16 on the Y shape handle 15, second circular gear 16 and rack 11 mesh.

When circular feed plate 611 rotates, material carrying cylinder 613 drives annular kicking block 13 to rotate, annular kicking block 13 rotates and then makes second circular cover plate 614 rotate from top to bottom automatically, so just need not people manually to fix second circular cover plate 614, after that when people need to adjust the volume of copper ore sand unloading, just rotatable Y shape handle 15, Y shape handle 15 drives rack 11 through second circular gear 16 and reciprocates, rack 11 and then drives dysmorphism piece 12 and annular kicking block 13 rebound, and then make material carrying cylinder 613 reciprocate, so just the volume of adjustable copper ore sand unloading.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. The utility model provides a smelt copper ore sand flash mixed device for copper, characterized by includes:

the device comprises a bottom plate (1), wherein a workbench (2) is arranged on the bottom plate (1);

the collecting box (21) is placed on the bottom plate (1);

the clutch driving mechanism (3) is arranged on the bottom plate (1);

the stirring and mixing mechanism (4) is arranged on the bottom plate (1);

the discharging mechanism (5) is arranged on the bottom plate (1).

2. A copper ore sand flash mixing device for smelting copper according to claim 1, characterized by, clutch actuating mechanism (3) includes:

the bottom plate (1) is provided with a first support column (31);

the bottom plate (1) is provided with a first bearing seat (32);

the first rotating shaft (33), the first bearing seat (32) and the first supporting column (31) are respectively provided with the first rotating shaft (33), and the first supporting column (31) is rotatably connected with the first rotating shaft (33);

the first clamping plates (34) are arranged on the first rotating shafts (33);

the first elastic pieces (35) are arranged on the first clamping plates (34);

the first hinge blocks (36) are arranged on the first rotating shaft (33) in a sliding mode, and the first hinge blocks (36) are connected with the first elastic piece (35);

the first support column (31) is rotatably provided with a second rotating shaft (37), and the second rotating shaft (37) is matched with the first hinging block (36);

the first supporting seat (38) is arranged on the workbench (2);

a servo motor (39), wherein the servo motor (39) is arranged in the first supporting seat (38);

a third rotating shaft (310) is arranged on an output shaft of the servo motor (39), and the third rotating shaft (310) rotatably penetrates through the first supporting seat (38);

the first belt conveying device (311) is arranged between the first belt conveying device (311) and the third rotating shaft (310) and between the second rotating shaft (37) and the third rotating shaft (310).

3. The copper ore sand rapid mixing device for smelting copper according to claim 2, characterized in that, stirring and mixing mechanism (4) includes:

a second supporting seat (41), wherein the bottom plate (1) is provided with the second supporting seat (41);

the first connecting rods (43) are symmetrically arranged on the second supporting seat (41);

the second clamping plate (42) is arranged between the first connecting rods (43) in a sliding manner;

the first connecting rod (43) is sleeved with the second elastic piece (44);

the bottom of the second clamping plate (42) is rotatably provided with a fourth rotating shaft (45);

a second supporting column (46), wherein the second supporting seat (41) is provided with the second supporting column (46);

the second supporting column (46) is rotatably provided with a rotating shaft sleeve (47), and the fourth rotating shaft (45) slides in the rotating shaft sleeve (47);

a second belt conveyer (48), wherein the second belt conveyer (48) is arranged between the first rotating shaft (33) at the upper side and the rotating shaft sleeve (47);

the guide sleeve (49) is arranged on the second supporting seat (41) in a sliding mode, and the fourth rotating shaft (45) is connected with the guide sleeve (49) in a rotating mode;

the crank (410) is arranged at the lower part of the fourth rotating shaft (45);

the connecting frame (411) is rotationally arranged on the crank (410);

the second connecting rod (413) is arranged on the connecting frame (411);

the annular frame (412) is arranged on the outer side of the second connecting rod (413).

4. A smelt copper ore sand flash mixed device for copper according to claim 3, characterized by, drop feed mechanism (5) includes:

a third supporting seat (51), wherein the bottom plate (1) is provided with the third supporting seat (51);

the third supporting seat (51) is internally provided with a loading frame (52);

the third supporting seat (51) is symmetrically provided with the sliding sleeve (53);

the rectangular frame (54) is arranged between the sliding sleeves (53) in a sliding manner;

a second bearing seat (55), wherein the second bearing seat (55) is arranged on the workbench (2);

a fifth rotating shaft (56), wherein the second bearing seat (55) is provided with the fifth rotating shaft (56);

the fifth rotating shaft (56) is provided with a convex rotating block (57);

the fan-shaped block (58) is arranged between the convex rotating block (57) and the fifth rotating shaft (56), and the fan-shaped block (58) is matched with the rectangular frame (54);

the second articulated block (59) is arranged on the material loading frame (52);

the third clamping plate (510) is arranged on the second hinging block (59) in a rotating mode, and the third clamping plate (510) is connected with the rectangular frame (54);

the third hinge block (512) is arranged on the material carrying frame (52);

the first round cover plate (511) is arranged on the third hinge block (512);

the third connecting rods (513) are symmetrically arranged on the first circular cover plate (511);

the fixing plate (514) is arranged between the third connecting rods (513);

the ejector pin (515) is arranged on the fixing plate (514), and the ejector pin (515) is matched with the convex rotating block (57).

5. A smelt copper ore sand flash mixed device for copper according to claim 4, characterized by, still include feeding mechanism (6), feeding mechanism (6) includes:

the third bearing seat (61), the third bearing seat (61) is arranged on the workbench (2);

a sixth rotating shaft (62), wherein the third bearing seat (61) is provided with the sixth rotating shaft (62);

a third belt conveying device (63), wherein the third belt conveying device (63) is arranged between the sixth rotating shaft (62) and the first rotating shaft (33) on the lower side;

a fourth belt conveying device (64), wherein the fourth belt conveying device (64) is arranged between the sixth rotating shaft (62) and the fifth rotating shaft (56);

a gear lack wheel (65) is arranged on the sixth rotating shaft (62);

a fourth supporting seat (66), wherein the workbench (2) is provided with the fourth supporting seat (66);

the fourth bearing seat (67) is arranged on the workbench (2);

a seventh rotating shaft (68), wherein the seventh rotating shaft (68) is arranged on the fourth bearing seat (67), and the seventh rotating shaft (68) is rotatably connected with the fourth supporting seat (66);

the seventh rotating shaft (68) is provided with a first circular gear (69), and the first circular gear (69) is meshed with the gear lacking wheel (65);

an eighth rotating shaft (610), wherein the seventh rotating shaft (68) is provided with the eighth rotating shaft (610);

the seventh rotating shaft (68) is provided with a circular feeding plate (611);

a fixed rod (619), wherein the fixed rod (619) is arranged on the workbench (2);

the material guiding frame (612) is arranged on the fixing rod (619);

a material loading cylinder (613), the circular feeding plate (611) is provided with the material loading cylinder (613) in a sliding way, and the material loading cylinder (613) is matched with the seventh rotating shaft (68) in a sliding way;

the fixed blocks (615) are arranged on the material loading cylinders (613);

the rotating rods (616) are arranged on the rotating rods (616) and the fixed blocks (615);

the rotating rod (616) is provided with the connecting blocks (617) in a rotating mode;

the second circular cover plates (614) are arranged on the connecting blocks (617);

the sliding blocks (618) and the connecting blocks (617) are both provided with the sliding blocks (618) in a sliding way.

6. The copper ore sand rapid mixing device for smelting copper according to claim 5, characterized by further comprising:

the L-shaped plates (7) are symmetrically arranged on the guide sleeve (49);

the hand grips (8) and the L-shaped plates (7) are provided with the hand grips (8);

a fourth connecting rod (9) is arranged between the L-shaped plates (7), and the fourth connecting rod (9) is connected with the second connecting rod (413).

7. The device for rapidly mixing the copper ore sand for smelting copper according to claim 6, characterized by further comprising:

a third supporting column (10), wherein the workbench (2) is provided with the third supporting column (10);

the rack (11) is arranged on the third supporting column (10) in a sliding mode;

the rack (11) is provided with a special-shaped block (12);

the bottom of the material loading cylinder (613) is provided with an annular top block (13), the annular top block (13) is matched with the connecting block (617), and the annular top block (13) is connected with the special-shaped block (12);

a fifth supporting seat (14), wherein the workbench (2) is provided with the fifth supporting seat (14);

a Y-shaped handle (15) is rotationally arranged on the fifth supporting seat (14);

a second circular gear (16) is arranged on the Y-shaped handle (15), and the second circular gear (16) is meshed with the rack (11).

8. A rapid copper ore sand mixing device for copper smelting according to claim 3 characterized in that the second elastic member (44) is a coil spring.

Images