CN211637187U - Full-automatic mixer of aluminum hull - Google Patents

Abstract

The utility model discloses a full-automatic mixer of aluminum hull, include: the shell is provided with an accommodating space and an opening at the bottom, and the opening at the bottom is a feed opening; the stirring barrel is rotatably arranged in the accommodating space of the shell cover, and the inside of the stirring barrel is hollow; the driving component is positioned on one side of the shell and drives the stirring barrel to rotate in the accommodating space of the shell; the material conveying assembly is positioned below the feed opening and used for conveying the stirred aluminum shell; the lubricating powder separating component is arranged on the stirring barrel; the lubricating powder separating component comprises a hollowed-out area formed on the outer wall of the stirring barrel and a pressing plate unit arranged on the outer wall of the stirring barrel and matched with the hollowed-out area. The full-automatic aluminum shell stirrer has the advantages of high automation degree and high stirring efficiency.

Description

Full-automatic mixer of aluminum hull

Technical Field

The utility model relates to an aluminum hull processing equipment technical field especially relates to full-automatic mixer of aluminum hull.

Background

The aluminum shell of the aluminum electrolytic capacitor is called as an aluminum shell for short, the aluminum shell in a factory needs to be coated with a lubricant before being processed, so that the aluminum shell has good tensile property, the lubricant which is relatively common is zinc stearate, and the zinc stearate is white powder. The aluminum shell lubricating operation in a factory is generally that workers carry out manual stirring after putting the aluminum shell and the zinc stearate into a stirring barrel, so that the surface of the aluminum shell is uniformly adhered with the zinc stearate to realize aluminum shell lubrication. The manual stirring has the defects of low working efficiency and low automation degree, so that an aluminum shell full-automatic stirrer needs to be researched.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists in the above-mentioned technique, the utility model provides a degree of automation is high, stir efficient full-automatic mixer of aluminum hull.

The utility model provides a technical scheme that its technical problem adopted is: an aluminum hull full automatic mixer, comprising: the shell is provided with an accommodating space and an opening at the bottom, and the opening at the bottom is a feed opening; the stirring barrel is rotatably arranged in the accommodating space of the shell cover, and the inside of the stirring barrel is hollow; the driving component is positioned on one side of the shell and drives the stirring barrel to rotate in the accommodating space of the shell; the material conveying assembly is positioned below the feed opening and used for conveying the stirred aluminum shell; the lubricating powder separating component is arranged on the stirring barrel; the lubricating powder separating component comprises a hollowed-out area formed on the outer wall of the stirring barrel and a pressing plate unit arranged on the outer wall of the stirring barrel and matched with the hollowed-out area.

Preferably, a barrel opening is formed in the side wall of the stirring barrel, and a pair of door plates is symmetrically pivoted at the barrel opening.

Preferably, the stirring barrel is further provided with a door plate opening and closing component for driving the door plate to be opened or closed; the door plate opening and closing components are symmetrically arranged at two opposite end parts of the stirring barrel.

Preferably, the door plate opening and closing assembly comprises a first air cylinder fastened on the outer wall of the stirring barrel, a transverse connecting rod horizontally fastened on a piston rod of the first air cylinder, a pair of connecting blocks detachably arranged on the door plate, and a pair of vertical connecting rods connecting the transverse connecting rod and the connecting blocks; one end of the vertical connecting rod is pivoted with the connecting block, and the other end of the vertical connecting rod is pivoted with the transverse connecting rod.

Preferably, the pressure plate unit comprises a bracket fixedly arranged on the outer wall of the stirring barrel and provided with a second air cylinder, and a pressure plate fastened on a piston rod of the second air cylinder; the pressure plate can be abutted against the hollow area under the driving of the second cylinder so as to cover the hollow area and block the communication relation between the hollow cavity of the stirring barrel and the outside.

Preferably, two opposite sides of the shell cover are respectively provided with a bearing seat, and the bearing seats are provided with rotating shafts; the two opposite ends of the stirring barrel are respectively and fixedly provided with a connecting seat, one end of the rotating shaft is fixedly connected with the connecting seats, the other end of the rotating shaft is connected with the driving assembly, and the stirring barrel rotates along with the rotation of the rotating shaft.

Preferably, the driving assembly is connected with the other end of the rotating shaft through a chain wheel and a chain; the driving assembly comprises a motor driving the rotating shaft to rotate.

Preferably, the material conveying assembly comprises a material conveying frame which is obliquely arranged below the shell and used for receiving and conveying materials, and a vibration motor which is arranged at the bottom of the material conveying frame, wherein a material outlet is formed in the material conveying frame.

Preferably, the outer wall of the shell cover is also provided with a first air pipe for communicating the shell cover with external dust collection equipment; and the material conveying frame is provided with a second air pipe communicated with external dust collection equipment.

Preferably, the stirring device further comprises a lifting assembly positioned on one side of the stirring barrel; the lifting assembly comprises a support frame, a third air cylinder unit and a movable frame for placing materials, the movable frame is driven by the third air cylinder unit to do lifting motion on the support frame, a guide wheel is pivoted on the movable frame, and a sliding groove matched with the guide wheel is formed in the support frame; the third cylinder unit comprises a third cylinder vertically installed on the support frame, a third cylinder and a bearing chain, wherein the third cylinder enables a piston rod to move up and down, the third cylinder is fastened on the third cylinder piston rod, the base block is pivoted with a lifting chain wheel, the bearing chain is arranged on the lifting chain wheel, one end of the bearing chain is hinged with a first fixing piece, the other end of the bearing chain is hinged with a second fixing piece, the first fixing piece is fixedly arranged on the support frame, and the second fixing piece is fixedly arranged on the movable frame.

Compared with the prior art, the utility model, its beneficial effect is: the utility model provides an aluminum shell full-automatic stirrer, the driving component of which drives the stirring barrel to rotate in the containing space of the shell cover, and the stirring machine has the advantages of high automation degree and high stirring efficiency; the lubricating powder separating component can realize effective switching between stirring operation and lubricating powder separating operation of the stirring barrel, can conveniently separate the lubricating powder in the stirring barrel, and has the advantages of high automation degree and convenient use; the first air pipe and the second air pipe can absorb and remove the residual lubricating powder, so that dust in a workshop is effectively avoided, and the device has the advantages of environmental protection and safety; the door plant subassembly that opens and shuts can realize the automation of door plant and open and shut, has the advantage that degree of automation is high.

Drawings

FIG. 1 is one of the schematic structural diagrams of the fully automatic aluminum-shell mixer of the present invention;

FIG. 2 is a second schematic structural view of the fully automatic aluminum-shell mixer of the present invention;

FIG. 3 is a schematic view of the position of the casing, the driving assembly, the feeding assembly and the hopper on the frame;

FIG. 4 is a schematic view of the position relationship among the mixing tank, the housing, the driving assembly, the feeding assembly and the hopper of the present invention;

FIG. 5 is a side view schematic of the structure of FIG. 4;

FIG. 6 is a schematic view of the position relationship among the mixing tank, the casing and the bearing seat of the present invention;

FIG. 7 is a schematic view of the position relationship among the mixing tank, the door plate opening and closing assembly and the lubricant separating assembly of the present invention;

fig. 8 is a schematic view of the position relationship between the door panel and the door panel opening and closing assembly according to the present invention;

fig. 9 is a schematic structural view of the mixing tank of the present invention;

fig. 10 is a schematic structural view of the door opening and closing assembly of the present invention;

fig. 11 is a schematic structural view of the platen unit of the present invention;

fig. 12 is a schematic structural view of the housing of the present invention;

fig. 13 is a schematic structural view of the lifting assembly of the present invention;

fig. 14 is an exploded view of the lift assembly of the present invention.

In the figure: 10. a stirring barrel; 11. a bung; 12. a hollow-out area; 121. a through hole; 13. installing a door frame; 14. a door panel; 141. door hinges; 15. a connecting seat; 20. a bearing seat; 30. a door panel opening and closing assembly; 31. a first cylinder; 32. a transverse connecting rod; 33. a vertical connecting rod; 34. connecting blocks; 40. a platen unit; 41. a support; 411. a guide groove; 42. a second cylinder; 43. pressing a plate; 431. a guide block; 50. a housing; 51. a feeding port; 52. a first air duct; 60. a drive assembly; 61. a drive motor; 611. a motor frame; 70. a material conveying component; 71. a material conveying frame; 711. a discharge port; 72. a vibration motor; 73. a spring fixing block; 74. a second air duct; 80. a lifting assembly; 81. a support frame; 811. a chute; 82. a third cylinder; 83. a base block; 84. a first fixing member; 85. a second fixing member; 86. a movable frame; 861. a carrier plate; 862. a guide wheel frame; 90. a frame; 91. a hopper; 92. and (7) a cover plate.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

As shown in fig. 1 to 14, the utility model provides a full-automatic mixer of aluminum hull, include: a housing 50 having an accommodating space and an opening at the bottom, wherein the opening at the bottom is a feed opening 51; the stirring barrel 10 is rotatably arranged in the accommodating space of the shell cover 50, the interior of the stirring barrel is hollow, and the hollow cavity of the stirring barrel 10 is a working area of the stirring barrel; a driving component 60 positioned at one side of the housing 50 for driving the mixing drum 10 to rotate in the accommodating space of the housing 50; a material conveying component 70 positioned below the feed opening 51 and used for conveying the stirred aluminum shell; and a lubricant powder separating assembly arranged on the stirring barrel 10; wherein, the lubricant separation component includes the hollowed-out area 12 of shaping on the outer wall of agitator 10, set up on the outer wall of agitator 10 and with hollowed-out area 12 matched with clamp plate unit 40, and hollowed-out area 12 includes the through-hole 121 that a plurality of arrays formed, and hollowed-out area 12 and clamp plate unit 40 one-to-one set up. In the scheme, as shown in fig. 1 to 5, a shell cover 50 is fixedly arranged on a frame 90, a hopper 91 is detachably arranged on the frame 90, the hopper 91 is used for feeding materials into a stirring barrel 10, wherein the feeding refers to feeding an aluminum shell and lubricating powder into the stirring barrel 10, the lubricating powder is zinc stearate, the hopper 91 is positioned right above the stirring barrel 10, a cover plate 92 is pivoted at the top of the hopper 91, and a handle for conveniently opening and closing the cover plate 92 is arranged on the cover plate 92; the frame 90 is also formed with a walkway for a worker to walk.

As an embodiment of the present disclosure, as shown in fig. 6 to 9, an outer wall perpendicular to an axial direction of the stirring barrel 10 is named as an end wall, an outer wall distributed along the axial direction of the stirring barrel 10 is named as a side wall, the side wall of the stirring barrel 10 is six prismatic surfaces of a regular hexagonal prism, a barrel opening 11 is disposed on the side wall of the stirring barrel 10, the barrel opening 11 is disposed on one of the prismatic surfaces, the hollow area 12 and the barrel opening 11 are located in different areas of the side wall of the stirring barrel 10, a pair of door panels 14 are symmetrically pivoted at the barrel opening 11, the door panels 14 are pivoted at the barrel opening 11 through door hinges 141, specifically, as shown in fig. 9, since the barrel wall of the stirring barrel 10 is thin, in order to facilitate installation of the door hinges 141, a mounting door frame 13 is fixedly disposed at the barrel opening 11, and the door hinges 141 are mounted on the mounting door.

As an embodiment of the present disclosure, as shown in fig. 7 and 8, a door opening and closing assembly 30 for opening or closing the door 14 is further disposed on the mixing tank 10; wherein, door plant subassembly 30 that opens and shuts is symmetrical to be set up in agitator 10 in both ends department in opposite directions, and the intention that sets up like this is: the opening and closing effect of the door panel 14 is good. As shown in fig. 10, the door opening and closing assembly 30 includes a first cylinder 31 fastened to the end wall of the mixing tank 10, a transverse connecting rod 32 horizontally fastened to the piston rod of the first cylinder 31, a pair of connecting blocks 34 detachably disposed on the door panel 14, and a pair of vertical connecting rods 33 connecting the transverse connecting rod 32 and the connecting blocks 34; wherein, a vertical connecting rod 33 has one end pivoted with the connecting block 34 and the other end pivoted with the transverse connecting rod 32, and has the advantages of stable and reliable connection.

As an embodiment of the present solution, as shown in fig. 7, 8 and 11, the platen unit 40 is configured as a unit capable of effectively switching the stirring operation and the lubricant separating operation of the stirring barrel 10; when the pressing plate unit 40 abuts against the hollow area 12, the hollow cavity of the stirring barrel 10 is a closed space, and the lubricating powder in the stirring barrel 10 cannot be separated outwards, i.e. is limited in the hollow cavity of the stirring barrel 10, and at this time, the stirring barrel 10 is in a stirring operation state; when the pressing plate unit 40 is not abutted against the hollow area 12, the lubricant in the stirring barrel 10 can be separated from the stirring barrel 10 through the hollow area 12, and at this time, the stirring barrel 10 is in the lubricant separation operation state. As shown in fig. 7 and 8, two hollow-out areas 12 are provided, and the two hollow-out areas 12 are respectively located on different prism surfaces, and the purpose of the arrangement is as follows: the separation effect of the lubricating powder is good. As shown in fig. 11, the pressing plate unit 40 includes a bracket 41 fixedly disposed on the outer wall of the mixing tank 10 and mounted with a second cylinder 42, and a pressing plate 43 fastened to the piston rod of the second cylinder 42; the pressing plate 43 is driven by the second cylinder 42 to abut against the hollow area 12 to cover the hollow area 12, so as to block the communication relationship between the hollow cavity of the stirring barrel 10 and the outside; specifically, the support 41 is arranged on the side wall of the stirring barrel 10, the guide groove 411 is formed in the support 41, the guide block 431 is arranged on the pressing plate 43, and the guide block 431 is partially clamped in the guide groove 411, wherein the distribution direction of the guide groove 411 is parallel to the movement direction of the piston rod of the second air cylinder 42, and the stirring device has the advantages of good guide effect and stable and reliable movement.

As an embodiment of the present disclosure, as shown in fig. 4 to 7, bearing seats 20 are respectively disposed on two opposite sides of a housing 50, and a rotating shaft is disposed on each bearing seat 20; the bearing housing 20 is fixedly disposed on the frame 90. As shown in fig. 6 and 7, the connecting seats 15 are respectively and fixedly disposed on the two opposite end face walls of the stirring barrel 10, one end of the rotating shaft is fixedly connected with the connecting seats 15, the other end of the rotating shaft is connected with the driving assembly 60, and the stirring barrel 10 rotates along with the rotation of the rotating shaft, so that the aluminum shell and the lubricating powder are effectively stirred.

As an embodiment of the present solution, as shown in fig. 5, the driving assembly 60 is connected to the other end of the rotating shaft through a sprocket and a chain; the driving assembly 60 includes a motor 61 for driving the rotation shaft to rotate, and the motor 61 is disposed on the frame 90 through a motor frame 611; specifically, a slave sprocket is disposed at the other end of the rotating shaft, a drive sprocket (not shown) is disposed on the output shaft of the motor 61, and a chain (not shown) is tensioned between the slave sprocket and the drive sprocket.

As an embodiment of the present scheme, as shown in fig. 4 and fig. 5, the material transporting assembly 70 includes a material transporting frame 71 obliquely disposed below the casing 50 for receiving and transporting material, and a vibration motor 72 installed at the bottom of the material transporting frame 71, wherein a material outlet 711 is formed on the material transporting frame 71, a spring fixing block 73 is further fixedly disposed at the bottom of the material transporting frame 71, a pressure spring is disposed on the spring fixing block 73, one end of the pressure spring is clamped on the spring fixing block 73, the other end of the pressure spring is clamped on the frame 90, and the pressure spring has a damping and buffering effect. In the scheme, an acute angle inclination angle M exists between the material conveying frame 71 and the horizontal plane, and the value range of the acute angle inclination angle M is 2-5 degrees.

As an embodiment of the present solution, as shown in fig. 5 and 12, a first air duct 52 communicating with an external dust suction device is further disposed on the outer wall of the housing 50; the material conveying frame 71 is provided with a second air pipe 74 which is communicated with external dust collection equipment; the first air duct 52 and the second air duct 74 are used for sucking away the separated lubricant powder, so that dust generated in a workshop is avoided, and the advantages of environmental protection, safety and reliability are achieved.

As an embodiment of the scheme, the full-automatic aluminum shell stirrer further comprises a lifting assembly 80 positioned on one side of the stirring barrel 10, and the lifting assembly 80 is used for feeding; as shown in fig. 13 and 14, the lifting assembly 80 includes a supporting frame 81, a third cylinder unit, and a movable frame 86 for placing materials, the movable frame 86 is driven by the third cylinder unit to move up and down on the supporting frame 81, wherein a guide wheel is pivoted on the movable frame 86, and a sliding groove 811 matched with the guide wheel is arranged on the supporting frame 81; the third cylinder unit comprises a third cylinder 82 vertically arranged on the support frame 81 and enabling a piston rod to move up and down, a base block 83 fastened on the piston rod of the third cylinder 82 and pivoted with a lifting chain wheel, and a bearing chain arranged on the lifting chain wheel, wherein one end of the bearing chain is hinged with a first fixing piece 84, the other end of the bearing chain is hinged with a second fixing piece 85, the first fixing piece 84 is fixedly arranged on the support frame 81, and the second fixing piece 85 is fixedly arranged on the movable frame 86. The movable frame 86 comprises a bearing plate 861 for placing materials and a wheel guide frame 862 fixedly arranged on one edge of the bearing plate 861, and guide wheels are respectively arranged on two opposite side edges of the wheel guide frame 862.

The working principle of the full-automatic aluminum shell stirrer is as follows: when the mixing drum 10 is in the reset state, the opening of the mixing drum 10 is upward, the pressing plate 43 is pressed at the hollow-out area 12, and during operation, the door plate 14 of the stirring barrel 10 is opened through the door plate opening and closing component 30, the aluminum shell and the lubricating powder are respectively poured into the stirring barrel 10, the door plate 14 is driven to be closed through the door plate opening and closing component 30, then, the driving component 60 is used to drive the stirring barrel 10 to rotate, after the stirring barrel 10 rotates for a preset time, the stirring of the aluminum shell is completed, then, the second cylinder 42 drives the pressing plate 43 to leave the hollow area 12, so that the hollow cavity of the mixing tank 10 is communicated with the outside, and then the mixing tank 10 is driven to rotate for a certain time, in the rotation process of the stirring barrel 10, redundant lubricating powder in the stirring barrel 10 can be separated from the cavity in the stirring barrel 10 through the hollow area 12, and the lubricating powder is sucked away from the shell cover 50 by the first air pipe 50 after leaving the stirring barrel 10, so that dust is effectively prevented from flying; and finally, rotating the barrel opening 11 of the stirring barrel 10 to the lower part to be opposite to the feed opening 51, opening the door plate 14 to invert the stirred aluminum shell on the material conveying frame 71, driving the aluminum shell to move towards the feed opening by the vibrating motor 72 on the material conveying frame 71, and sucking the residual lubricating powder by the second air pipe on the material conveying frame 71.

While the embodiments of the invention have been disclosed above, it is not limited to the applications listed in the description and the embodiments, which are fully applicable in all kinds of fields of application suitable for this invention, and further modifications may be readily made by those skilled in the art, and the invention is therefore not limited to the specific details and illustrations shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (10)

1. The utility model provides a full-automatic mixer of aluminum hull which characterized in that includes:

a shell cover (50) with an accommodating space and an opening at the bottom, wherein the opening at the bottom is a feed opening (51);

the stirring barrel (10) is rotatably arranged in the accommodating space of the shell cover (50), and the inside of the stirring barrel is hollow;

the driving component (60) is positioned on one side of the shell cover (50) and drives the stirring barrel (10) to rotate in the accommodating space of the shell cover (50);

the material conveying assembly (70) is positioned below the feed opening (51) and used for conveying the stirred aluminum shell; and

the lubricating powder separating component is arranged on the stirring barrel (10);

the lubricating powder separating component comprises a hollow area (12) formed on the outer wall of the stirring barrel (10) and a pressing plate unit (40) arranged on the outer wall of the stirring barrel (10) and matched with the hollow area (12).

2. An aluminum hull fully automatic mixer according to claim 1,

the side wall of the stirring barrel (10) is provided with a barrel opening (11), and a pair of door plates (14) are symmetrically pivoted at the barrel opening (11).

3. An aluminum hull fully automatic mixer according to claim 2,

the stirring barrel (10) is also provided with a door plate opening and closing component (30) for driving the door plate (14) to open or close;

the door plate opening and closing assemblies (30) are symmetrically arranged at two opposite end parts of the stirring barrel (10).

4. An aluminum hull fully automatic mixer according to claim 3,

the door plate opening and closing assembly (30) comprises a first air cylinder (31) fastened on the outer wall of the stirring barrel (10), a transverse connecting rod (32) horizontally fastened on a piston rod of the first air cylinder (31), a pair of connecting blocks (34) detachably arranged on the door plate (14), and a pair of vertical connecting rods (33) connecting the transverse connecting rod (32) and the connecting blocks (34);

one end of the vertical connecting rod (33) is pivoted with the connecting block (34), and the other end of the vertical connecting rod is pivoted with the transverse connecting rod (32).

5. The aluminum-shell full-automatic mixer as claimed in claim 1, wherein the pressure plate unit (40) comprises a bracket (41) fixedly arranged on the outer wall of the mixing barrel (10) and provided with a second air cylinder (42), and a pressure plate (43) fastened on a piston rod of the second air cylinder (42);

the pressing plate (43) can abut against the hollowed-out area (12) under the driving of the second air cylinder (42) to cover the hollowed-out area (12) so as to block the communication relation between the hollow cavity of the stirring barrel (10) and the outside.

6. An aluminum hull fully automatic mixer according to claim 1,

bearing seats (20) are respectively arranged on two opposite sides of the shell cover (50), and a rotating shaft is arranged on each bearing seat (20);

the two opposite ends of the stirring barrel (10) are respectively and fixedly provided with a connecting seat (15), one end of the rotating shaft is fixedly connected with the connecting seats (15), the other end of the rotating shaft is connected with the driving component (60), and the stirring barrel (10) rotates along with the rotation of the rotating shaft.

7. An aluminum hull fully automatic mixer according to claim 6,

the driving component (60) is connected with the other end of the rotating shaft through a chain wheel and a chain;

the drive assembly (60) includes a motor (61) for rotating the shaft.

8. An aluminum hull fully automatic mixer according to claim 1,

the material conveying assembly (70) comprises a material conveying frame (71) which is obliquely arranged below the shell cover (50) and used for receiving and conveying materials and a vibration motor (72) which is arranged at the bottom of the material conveying frame (71), wherein a material outlet (711) is formed in the material conveying frame (71).

9. An aluminum hull fully automatic mixer according to claim 8,

the outer wall of the shell cover (50) is also provided with a first air pipe (52) for communicating the shell cover with external dust collection equipment;

and a second air pipe (74) communicated with external dust collection equipment is arranged on the material conveying frame (71).

10. An aluminum hull fully automatic mixer according to claim 1,

the stirring device also comprises a lifting component (80) positioned on one side of the stirring barrel (10);

the lifting assembly (80) comprises a support frame (81), a third cylinder unit and a movable frame (86) for placing materials, wherein the movable frame (86) is driven by the third cylinder unit to do lifting motion on the support frame (81), a guide wheel is pivoted on the movable frame (86), and a sliding groove (811) matched with the guide wheel is formed in the support frame (81);

the third cylinder unit includes vertical installation make the piston rod up and down direction motion third cylinder (82), fastening on support frame (81) and on the piston rod of third cylinder (82) and the pin joint have lifting sprocket's base block (83), set up bearing chain on the lifting sprocket, wherein, bearing chain's one end articulates there is first mounting (84), the other end articulates there is second mounting (85), first mounting (84) are fixed to be set up on support frame (81), second mounting (85) are fixed to be set up on adjustable shelf (86).

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