CN219525330U - Automatic lead electrolysis copper bar supply unit - Google Patents

Abstract

The utility model relates to the field of lead electrolysis equipment, in particular to an automatic lead electrolysis copper rod feeding unit which comprises a copper rod feeding device, wherein the copper rod feeding device comprises a V-shaped hopper, a conveying chain is arranged on the inner wall of the V-shaped hopper, a slide way is obliquely arranged in front of the V-shaped hopper, a rod separating mechanism is arranged at the lower end of the slide way and comprises a rotating shaft, a plurality of rod separating discs are coaxially arranged on the rotating shaft, rod separating grooves are formed in the rod separating discs, a cross beam is arranged at the front side of the rod separating mechanism, a plurality of H-shaped wheels are arranged at the upper end of the cross beam, a plurality of rollers are arranged at the right side of the H-shaped wheels, a rod pushing mechanism is arranged at the rear side of the rollers, a rod receiving mechanism is arranged at the front side of the rod pushing mechanism, the rod receiving mechanism comprises a lifting frame, and rod receiving blocks are installed at two ends of the lifting frame. According to the utility model, the feeding device and the rod separating mechanism are utilized to separate bundled copper rods, and the H-shaped wheel, the rod pushing mechanism and the rod receiving mechanism are utilized to sequentially feed the copper rods to the cathode plate, so that the occupation of manpower is reduced.

Description

Automatic lead electrolysis copper bar supply unit

Technical Field

The utility model relates to the field of lead electrolysis equipment, in particular to an automatic lead electrolysis copper rod feeding unit.

Background

The anode plate and the cathode plate are required to be used in lead electrolysis, wherein conductive copper rods are required to be wrapped in the manufacturing process of the cathode plate, the conductive copper rods subjected to straightening are often put together in bundles, and one device is required to separate out a single copper rod for subsequent devices. In the actual production process, copper bars are usually placed in rows manually, then a single copper bar is separated by a machine, and the manual demand is greatly increased in the high-load production process, so that equipment capable of realizing automatic arrangement, separation, feeding and feeding of the copper bars is needed to reduce the occupation of manpower, and the automatic feeding and feeding of the copper bars are particularly necessary.

Disclosure of Invention

The utility model aims to provide an automatic lead electrolysis copper bar supply unit which has the functions of realizing automatic arrangement, separation, supply and feeding of copper bars and reduces the occupation of manpower.

The technical scheme adopted is as follows:

the utility model provides an automatic copper bar feeding unit of plumbous electrolysis, including copper bar feedway, copper bar feedway includes the V-arrangement hopper, the V-arrangement hopper inner wall is provided with the conveying chain, V-arrangement hopper front side slope is provided with the slide, the slide lower extreme is provided with branch stick mechanism, branch stick mechanism includes the axis of rotation, the axis of rotation is coaxial to be provided with a plurality of branch stick dish, divide the stick groove has all been seted up on the stick dish, branch stick mechanism front side is provided with the crossbeam, the crossbeam upper end is provided with a plurality of H shape wheels, H shape wheel right side is provided with a plurality of gyro wheels, the gyro wheel rear side is provided with pushes away stick mechanism, it is provided with and connects stick mechanism to push away stick mechanism front side, connect stick mechanism includes the crane, connect the stick piece all is installed at crane both ends.

Preferably, an oil collecting disc with an opening at the upper end is arranged below the V-shaped hopper, and the oil collecting disc extends to the lower part of the slideway.

Preferably, the cross beam is provided with two guide beams, the two guide beams are arranged between the rollers, and the extension directions of the axes of the guide beams and the rollers are the same.

Preferably, the upper end of the guide beam is lower than the upper end face 2MM of the roller.

Preferably, the side surface of the connecting rod block is provided with a through groove, the upper end surface of the inside of the through groove is provided with a limit groove, and the lower end surface of the inside of the through groove is provided with a limit table.

Preferably, the right end of the cross beam is provided with a limiting plate.

Preferably, the pushing rod mechanism comprises a telescopic mechanism arranged along the front-back direction, the front end of the telescopic mechanism is connected with a pushing plate, and the front end of the pushing plate is provided with a plurality of L-shaped frames with downward openings.

Preferably, two rod separating grooves are formed in the rod separating disc, and the rod separating grooves are symmetrical to the axis of the rod separating disc.

Preferably, the idler wheels and the H-shaped wheels are coaxially provided with chain wheel groups, a transmission chain is arranged between every two adjacent chain wheel groups, a third motor is arranged on the cross beam, and a driving chain is arranged between the third motor and one of the chain wheel groups.

Preferably, the inclination angle of the conveying chain is 50-60 degrees, and the inclination angle of the slideway is 40-50 degrees.

Compared with the prior art, the beneficial effects are that:

according to the utility model, bundled copper bars are automatically arranged into copper bars adjacent in sequence by utilizing the conveying chain, the copper bars are placed on the H-shaped wheel at intervals by the bar separating mechanism, when the copper bars move to the roller, the copper bars are pushed down from the roller by the bar pushing mechanism, and the copper bars are lowered and placed on the cathode plate after being received by the bar receiving mechanism, so that the whole unit realizes automatic feeding of the copper bars, and the occupation of manpower is reduced.

Drawings

Figure 1 is a schematic diagram of the structure of an automatic lead electrolytic copper bar feeding unit of the utility model,

figure 2 is a schematic view of the structure of a V-shaped hopper of an automatic lead electrolytic copper bar feeding unit,

FIG. 3 is a schematic view showing the structure of the side surface of a V-shaped hopper of an automatic lead electrolytic copper bar feeding unit of the present utility model,

figure 4 is a schematic diagram of the structure of a conveyor chain of an automatic lead electrolytic copper bar feeding unit,

figure 5 is a schematic view of the structure of a slideway of an automatic lead electrolytic copper bar feeding unit,

figure 6 is a schematic view of the structure of the roller of the automatic lead electrolytic copper bar feeding unit,

figure 7 is a schematic view of the structure of the H-shaped wheel of the automatic lead electrolytic copper bar feeding unit,

figure 8 is a schematic structural view of a rod pushing mechanism of an automatic lead electrolytic copper rod feeding unit,

figure 9 is a schematic view of the structure of a rod receiving mechanism of an automatic lead electrolytic copper rod feeding unit of the utility model,

figure 10 is a schematic view of the structure of a rod receiving block of an automatic lead electrolytic copper rod feeding unit of the present utility model,

in the figure: 1. the device comprises a V-shaped hopper, 2, a rotating shaft, 3, a first motor, 4, a conveying chain, 5, a third motor, 6, a slideway, 7, an oil collecting disc, 8, a rotating shaft, 9, a rod separating disc, 91, a rod separating groove, 10, a second motor, 11, a cross beam, 12, an H-shaped wheel, 13, a roller, 14, a telescopic mechanism, 15, a push plate, 16, an L-shaped frame, 17, a rod receiving block, 171, a through groove, 172, a limiting groove, 173, a limiting table, 18, a guide beam, 19, a limiting plate, 20 and a copper rod.

Detailed Description

The utility model is further described below in connection with specific embodiments, as shown in fig. 1 to 10:

example 1: an automatic lead electrolysis copper bar feeding unit comprises a copper bar 20 feeding device, wherein the copper bar 20 feeding device comprises a V-shaped hopper 1, the upper end and the lower end of the inner wall of the V-shaped hopper 1 are horizontally provided with rotating shafts 2, the two ends of the rotating shafts 2 are provided with chain wheels, a first motor 3 is arranged below the V-shaped hopper 1, the first motor 3 and the rotating shafts 2 are connected with driving chain wheels, a transmission chain is arranged between the two driving chain wheels,

a conveying chain 4 is arranged between the two chain wheels at the same side, the conveying chain 4 is distributed at the left side and the right side inside the V-shaped hopper 1, the conveying chain 4 is a belt accessory chain, a copper bar 20 is horizontally arranged on the inner wall of the V-shaped hopper 1, the copper bar 20 is clamped in a groove of the conveying chain 4 and rises along with the conveying chain 4,

the front side of the V-shaped hopper 1 is obliquely provided with a slide way 6, a conveying chain 4 lifts a copper rod 20 to the outer side of the V-shaped hopper 1, then the copper rod 20 slides down along the slide way 6 under the action of gravity after being separated from the conveying chain 4, the lower end of the slide way 6 is provided with a rod separating mechanism, the rod separating mechanism comprises a rotating shaft 8, the rotating shaft 8 is coaxially provided with a plurality of rod separating discs 9, the rod separating discs 9 are provided with rod separating grooves 91, the side surface of the slide way 6 is provided with a second motor 10, the second motor 10 is connected with the rotating shaft 8, the copper rod 20 slides down along the slide way 6 and is clamped into the rod separating grooves 91,

the front side of the bar separating mechanism is provided with a cross beam 11, the upper end of the cross beam 11 is provided with a plurality of H-shaped wheels 12, the bar separating disc 9 rotates 180 degrees to clamp the copper bars 20 into the H-shaped wheels 12, the H-shaped wheels 12 rotate to horizontally convey the copper bars 20, the right side of the H-shaped wheels 12 is provided with a plurality of rollers 13, the upper end surfaces of the rollers 13 and the H-shaped wheels 12 are at the same height, the rollers 13 and the H-shaped wheels 12 synchronously rotate,

the rear side of the roller 13 is provided with a bar pushing mechanism, the front side of the bar pushing mechanism is provided with a bar receiving mechanism, the bar pushing mechanism pushes down the steel bar from the roller 13 and pushes the steel bar into a bar receiving block 17, and the bar receiving block 17 descends along with the lifting frame so as to place the copper bar 20 on the cathode plate;

example 2: an automatic lead electrolysis copper bar feeding unit comprises a copper bar 20 feeding device, wherein the copper bar 20 feeding device comprises a V-shaped hopper 1, the upper end and the lower end of the inner wall of the V-shaped hopper 1 are horizontally provided with rotating shafts 2, the two ends of the rotating shafts 2 are provided with chain wheels, a first motor 3 is arranged below the V-shaped hopper 1, the first motor 3 and the rotating shafts 2 are connected with driving chain wheels, a transmission chain is arranged between the two driving chain wheels,

a conveying chain 4 is arranged between the two chain wheels at the same side, the conveying chain 4 is distributed at the left side and the right side inside the V-shaped hopper 1, the inclination angle of the conveying chain 4 is 50 degrees to 60 degrees, the conveying chain 4 is a belt accessory chain, the copper bar 20 is horizontally arranged on the inner wall of the V-shaped hopper 1, the copper bar 20 is clamped in a groove of the conveying chain 4 and rises along with the conveying chain 4,

the front side of the V-shaped hopper 1 is obliquely provided with a slideway 6, the inclination angle of the slideway 6 is 40-50 degrees, the copper bar 20 is separated from the conveying chain 4 and slides down the slideway 6 under the action of gravity after the conveying chain 4 lifts the copper bar 20 to the outer side of the V-shaped hopper 1, an oil collecting disc 7 with an opening at the upper end is arranged below the V-shaped hopper 1, the oil collecting disc 7 extends to the lower side of the slideway 6 and is used for collecting oil left on the copper bar 20,

the lower extreme of slide 6 is provided with branch excellent mechanism, divides excellent mechanism to include axis of rotation 8, and axis of rotation 8 is provided with a plurality of minute stick dish 9 coaxially, all has seted up minute stick groove 91 on minute stick dish 9, and slide 6 side is provided with second motor 10, and second motor 10 is connected with axis of rotation 8, and bar copper 20 slides down along slide 6 and blocks into minute stick groove 91, and the minute stick groove 91 on every minute stick dish 9 has two, and divides stick groove 91 to be symmetrical about the axis of minute stick dish 9

The front side of the bar separating mechanism is provided with a beam 11, the upper end of the beam 11 is provided with a plurality of H-shaped wheels 12, a bar separating disc 9 rotates 180 degrees to clamp a copper bar 20 into the H-shaped wheels 12, the H-shaped wheels 12 rotate to horizontally convey the copper bar 20, the right side of the H-shaped wheels 12 is provided with a plurality of rollers 13, the upper end surfaces of the rollers 13 and the H-shaped wheels 12 are at the same height, the rollers 13 and the H-shaped wheels 12 are coaxially provided with chain wheel groups, a transmission chain is arranged between the adjacent chain wheel groups, the beam 11 is provided with a third motor 5, a driving chain is arranged between the third motor 5 and one of the chain wheel groups, the rollers 13 and the H-shaped wheels 12 synchronously rotate,

the rear side of the roller 13 is provided with a bar pushing mechanism, the bar pushing mechanism comprises a telescopic mechanism 14 arranged along the front-rear direction, the front end of the telescopic mechanism 14 is connected with a push plate 15, the front end of the push plate 15 is provided with a plurality of L-shaped frames 16 with downward openings, the copper bars 20 move into the L-shaped frames 16, the L-shaped frames 16 play a limiting role on the copper bars 20 along the front-rear direction,

the front side of the rod pushing mechanism is provided with a rod receiving mechanism, the rod pushing mechanism pushes down a steel rod from the roller 13 and pushes the steel rod into the rod receiving block 17, the cross beam 11 is provided with two guide beams 18, the two guide beams 18 are arranged between the roller 13, the extension direction of the axes of the guide beams 18 and the roller 13 is the same, the guide beams 18 support the copper rod 20 after the copper rod 20 is separated from the roller 13, the upper end of the guide beams 18 is lower than the upper end face 2MM of the roller 13, the guide beams 18 are prevented from influencing the movement of the copper rod 20 on the roller 13, the right end of the cross beam 11 is provided with a limiting plate 19, the limiting plate 19 limits the copper rod 20,

the through groove 171 is formed in the side face of the connecting rod block 17, the limit groove 172 is formed in the upper end face of the inner portion of the through groove 171, the limit table 173 is formed in the lower end face of the inner portion of the through groove 171, the rod pushing mechanism pushes the copper rod 20 into the connecting rod block 17, two ends of the copper rod 20 respectively enter the connecting rod block 17, the limit table 173 limits the copper rod 20 in the front-rear direction, and the connecting rod block 17 descends along with the lifting frame to place the copper rod 20 on the cathode plate.

The specific working process is as follows: the bundled copper bars 20 are horizontally placed in the V-shaped hopper 1, the copper bars 20 slide downwards along the V-shaped hopper 1, when the copper bars 20 contact the conveying chain 4, two ends of the copper bars 20 are clamped in grooves of the conveying chain 4 and ascend along with the conveying chain 4, the copper bars 20 slide down along the slide ways 6 after being lifted, the copper bars 20 slide to the lower ends of the slide ways 6 and are clamped in the bar separating grooves 91, the bar separating grooves 91 rotate 180 degrees to place the copper bars 20 on the H-shaped wheels 12, the copper bars 20 move along with the rotating H-shaped wheels 12, the copper bars 20 move to the rollers 13, the limiting plates 19 limit the copper bars 20, the pushing plates 15 push the copper bars 20 forwards, the copper bars 20 move forwards to the two ends of the copper bars 20 and are clamped in the bar receiving blocks 17, the limiting platforms 173 in the bar receiving blocks 17 limit the copper bars 20, then the lifting frames drive the copper bars 20 to descend to place the copper bars 20 on the copper bars 17, the copper bars 20 move horizontally, and then the lifting frames ascend to reset the bar receiving blocks 17, and automatically arrange the copper bars 20, separate and feed the cathode plates and the cathode plates.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (10)

1. An automatic lead electrolysis copper bar supply unit is characterized in that: including bar copper feedway, bar copper feedway includes V-arrangement hopper (1), V-arrangement hopper (1) inner wall is provided with conveyor chain (4), V-arrangement hopper (1) front side is inclined and is provided with slide (6), slide (6) lower extreme is provided with branch excellent mechanism, branch excellent mechanism includes axis of rotation (8), axis of rotation (8) are coaxial to be provided with a plurality of branch stick dish (9), divide all to offer on the stick dish (9) and divide excellent groove (91), branch excellent mechanism front side is provided with crossbeam (11), crossbeam (11) upper end is provided with a plurality of H shape wheels (12), H shape wheel (12) right side is provided with a plurality of gyro wheels (13), gyro wheel (13) rear side is provided with pushes away excellent mechanism, it is provided with and connects excellent mechanism to push away excellent mechanism front side, connect excellent mechanism includes the crane, connect excellent piece (17) are all installed at the crane both ends.

2. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: an oil collecting disc (7) with an opening at the upper end is arranged below the V-shaped hopper (1), and the oil collecting disc (7) extends to the lower part of the slideway (6).

3. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: the cross beam (11) is provided with two guide beams (18), the two guide beams (18) are arranged between the rollers (13), and the extension directions of the axes of the guide beams (18) and the rollers (13) are the same.

4. An automatic lead electrolytic copper bar feeding unit according to claim 3, wherein: the upper end of the guide beam (18) is lower than the upper end face 2MM of the roller (13).

5. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: the side of the connecting rod block (17) is provided with a through groove (171), the upper end surface inside the through groove (171) is provided with a limit groove (172), and the lower end surface inside the through groove (171) is provided with a limit table (173).

6. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: the right end of the cross beam (11) is provided with a limiting plate (19).

7. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: the push rod mechanism comprises a telescopic mechanism (14) arranged along the front-back direction, the front end of the telescopic mechanism (14) is connected with a push plate (15), and the front end of the push plate (15) is provided with a plurality of L-shaped frames (16) with downward openings.

8. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: two rod separating grooves (91) are formed in the rod separating disc (9), and the rod separating grooves (91) are symmetrical to the axis of the rod separating disc (9).

9. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: the roller (13) and the H-shaped wheel (12) are coaxially provided with chain wheel groups, a transmission chain is arranged between every two adjacent chain wheel groups, a third motor (5) is arranged on the cross beam (11), and a driving chain is arranged between the third motor (5) and one of the chain wheel groups.

10. An automatic lead electrolytic copper bar feeding unit according to claim 1, wherein: the inclination angle of the conveying chain (4) is 50-60 degrees, and the inclination angle of the slideway (6) is 40-50 degrees.