CN111805773A - Anode carbon block grooving machine and anode production line comprising same - Google Patents

Abstract

The invention relates to the technical field of anode carbon block manufacturing equipment for electrolytic aluminum, in particular to an anode carbon block grooving machine and an anode production line comprising the same. The invention not only can separately slot the anode carbon block, but also can slot the anode carbon block which is provided with the anode guide rod, thereby improving the yield of the anode.

Description

Anode carbon block grooving machine and anode production line comprising same

Technical Field

The invention relates to the technical field of anode carbon block manufacturing equipment for electrolytic aluminum, in particular to an anode carbon block grooving machine and an anode production line comprising the same.

Background

In the industrial production of electrolytic aluminum, anode carbon blocks are generally needed to be used as anodes of aluminum electrolytic cells, and along with the increasingly strict requirements on energy conservation and emission reduction, various novel anodes are continuously developed, wherein the anode carbon blocks with grooves on bottom palms have certain practical significance in the aspects of reducing working voltage, reducing anode efficiency coefficient, keeping the stability of the electrolytic cells, improving current efficiency, strengthening current and the like.

In the practical production, the common anode carbon block slotting method comprises two types, namely a mould forming raw block (anode carbon block before roasting) slotting and a slotting machine cooked block (anode carbon block after roasting), but the raw block slotting has certain adverse effects on the physicochemical indexes and the qualification rate of the anode carbon block, the slotting quality is poor, the slag and the sediments are more in the electrolytic use process, the slotting of the cooked block needs to use the slotting machine to slot after the anode carbon block is formed by the anode carbon block manufacturing device, the slotting machine opens the exhaust groove on the bottom palm of the anode carbon block in a common rotary cutting mode, the grooves with different sizes, styles and numbers can be cut on the bottom of the carbon block according to the requirement of the anode needing slotting, and the slotting method has the advantages of regular shape, accurate size, smooth surface, no crack and high product quality.

However, in the existing grooving machine, grooves are directly formed in the bottom palm of the anode carbon block without the anode guide rod, the anode carbon block is required to be grooved and then the anode guide rod is mounted to form an anode, and waste products and inferior products are inevitably generated in the process of mounting, so that the yield of the whole anode is low, and therefore, the grooving machine capable of grooving the anode carbon block with the anode guide rod is necessary to be developed, so that the yield is improved.

Disclosure of Invention

The invention provides an anode carbon block grooving machine, which solves the problem that the conventional grooving machine can only groove an anode carbon block without an anode guide rod, so that the yield of an anode is low. Simultaneously, an anode production line comprising the anode carbon block grooving machine is also provided.

The anode carbon block grooving machine adopts the following technical scheme:

the anode carbon block grooving machine is used for grooving on an anode carbon block of an anode and comprises a frame, wherein a conveying mechanism which extends from left to right and is used for conveying the anode is arranged on the frame, the frame corresponds to the position parts of the front side and the rear side of the conveying mechanism and is provided with a limiting mechanism used for limiting the position of the anode, the frame is provided with a pushing mechanism which stretches above the conveying mechanism and is used for matching with the conveying mechanism to push the anode, the conveying mechanism corresponds to the position part of the pushing mechanism and is provided with a cutting grooving gap, the frame is further provided with a cutting mechanism corresponding to the cutting grooving gap, and the cutting mechanism comprises a cutting piece which stretches out upwards to cut the grooving gap on the anode carbon block.

The conveying mechanism comprises two conveying roller groups which are arranged at left and right intervals, each conveying roller group comprises a plurality of conveying rollers which are arranged at left and right intervals and the axes of which extend along the front and back directions, and the space between the two conveying roller groups forms the cutting slotting gap.

Every stop gear all includes the mounting bracket, the mounting bracket towards be equipped with a plurality of about spacing distribution, axis along the spacing roller that extends from top to bottom on one side of conveying mechanism, thereby the common centre gripping positive pole of each stop gear limits its position in the front and back direction.

The limiting mechanism positioned on the front side is divided into a guiding part and a tightening part which are arranged at left and right intervals, the left end of the guiding part is correspondingly arranged on the front side of the conveying mechanism, the right end of the guiding part is inclined backwards and extends on the conveying mechanism in a hanging mode, so that the anode is guided by the guiding frame and then leans against the limiting mechanism positioned on the rear side, and the tightening part extends along the left and right direction and clamps the anode together with the limiting mechanism positioned on the rear side.

The left end of guide portion pass through the hinge with the frame is connected, thereby be equipped with in the frame be used for with thereby the adjustment of guide portion drive the right-hand member of guide portion is angle electronic jar backward, tight portion in top with adjustable connection around the frame, thereby through corresponding the adjustment guide portion with the positive pole of different specifications can be held to the stop gear of tight portion in top messenger front and back both sides.

The pushing mechanism comprises a support frame arranged at the position, corresponding to the rear side of the conveying mechanism, of the rack, at least two chain wheels arranged on the support frame at left and right intervals, and chains arranged on the chain wheels, wherein one chain wheel is connected with a driving motor, the chain is arranged above the conveying mechanism, a plurality of shifting blocks used for pushing the anode are arranged on the outer peripheral side of the chain at intervals, and two retaining rings respectively arranged on the front side and the rear side of the chain and used for clamping the chain to prevent the chain from twisting are further arranged on the support frame.

Cutting mechanism still includes the base, sets up guide rail, the setting of sliding from top to bottom that extend along upper and lower direction on the base are in guide rail upper bracket, be used for the drive gliding lead screw lift about the support, the upper end of support is equipped with the pivot that extends along the fore-and-aft direction and is used for driving pivot pivoted motor, the cutting piece is installed in the pivot.

The right end of the conveying mechanism is provided with a bearing platform for bearing the grooved anode, the front end of the bearing platform is provided with a roller conveyor, and the rear end of the bearing platform is provided with a cylinder for pushing the anode on the bearing platform to the roller conveyor.

The anode production line adopts the following technical scheme:

the anode production line comprises an anode carbon block manufacturing device and an anode carbon block grooving machine, wherein the anode carbon block grooving machine comprises a frame, a conveying mechanism which extends from left to right and is used for conveying an anode is arranged on the frame, the frame corresponds to the position parts of the front side and the rear side of the conveying mechanism and are respectively provided with a limiting mechanism used for limiting the position of the anode, a cantilever is arranged on the frame and is used for matching with a pushing mechanism used for pushing the anode by the conveying mechanism, the conveying mechanism corresponds to the position part of the pushing mechanism and is provided with a cutting grooving gap, the frame is further provided with a cutting mechanism corresponding to the cutting grooving gap, and the cutting mechanism comprises a cutting piece which upwards stretches out the cutting grooving gap for cutting the anode carbon block.

The conveying mechanism comprises two conveying roller groups which are arranged at left and right intervals, each conveying roller group comprises a plurality of conveying rollers which are arranged at left and right intervals and the axes of which extend along the front and back directions, and the space between the two conveying roller groups forms the cutting slotting gap.

Every stop gear all includes the mounting bracket, the mounting bracket towards be equipped with a plurality of about spacing distribution, axis along the spacing roller that extends from top to bottom on one side of conveying mechanism, thereby the common centre gripping positive pole of each stop gear limits its position in the front and back direction.

The limiting mechanism positioned on the front side is divided into a guiding part and a tightening part which are arranged at left and right intervals, the left end of the guiding part is correspondingly arranged on the front side of the conveying mechanism, the right end of the guiding part is inclined backwards and extends on the conveying mechanism in a hanging mode, so that the anode is guided by the guiding frame and then leans against the limiting mechanism positioned on the rear side, and the tightening part extends along the left and right direction and clamps the anode together with the limiting mechanism positioned on the rear side.

The left end of guide portion pass through the hinge with the frame is connected, thereby be equipped with in the frame be used for with thereby the adjustment of guide portion drive the right-hand member of guide portion is angle electronic jar backward, tight portion in top with adjustable connection around the frame, thereby through corresponding the adjustment guide portion with the positive pole of different specifications can be held to the stop gear of tight portion in top messenger front and back both sides.

The pushing mechanism comprises a support frame arranged at the position, corresponding to the rear side of the conveying mechanism, of the rack, at least two chain wheels arranged on the support frame at left and right intervals, and chains arranged on the chain wheels, wherein one chain wheel is connected with a driving motor, the chain is arranged above the conveying mechanism, a plurality of shifting blocks used for pushing the anode are arranged on the outer peripheral side of the chain at intervals, and two retaining rings respectively arranged on the front side and the rear side of the chain and used for clamping the chain to prevent the chain from twisting are further arranged on the support frame.

Cutting mechanism still includes the base, sets up guide rail, the setting of sliding from top to bottom that extend along upper and lower direction on the base are in guide rail upper bracket, be used for the drive gliding lead screw lift about the support, the upper end of support is equipped with the pivot that extends along the fore-and-aft direction and is used for driving pivot pivoted motor, the cutting piece is installed in the pivot.

The right end of the conveying mechanism is provided with a bearing platform for bearing the grooved anode, the front end of the bearing platform is provided with a roller conveyor, and the rear end of the bearing platform is provided with a cylinder for pushing the anode on the bearing platform to the roller conveyor.

The invention has the beneficial effects that: the anode is limited on the conveying mechanism by arranging the limiting mechanism and the pushing mechanism together, the pushing mechanism can correspond to the rear side position of the anode guide rod in the anode, so that the normal movement of the anode is not influenced, and the cutting blade of the cutting mechanism can smoothly cut and groove the anode carbon block in the anode, so that the whole device not only can independently groove the anode carbon block, but also can groove the anode carbon block provided with the anode guide rod, the yield of the anode is improved, the application range of the device is greatly expanded, and the device can flexibly deal with various production environments; in addition, when the anode carbon block is processed, the grooving position of the anode carbon block is always kept downward, the anode carbon block does not need to be turned over, and the butt joint with other equipment of an anode production line is easier and smoother.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of an anode carbon block groover of the present invention;

FIG. 2 is a schematic structural diagram (rear side view) of the pushing mechanism in FIG. 1;

FIG. 3 is a schematic structural view of the cutting mechanism of FIG. 1;

in the figure: 1. the device comprises a rack, 2, an anode, 3, a first roller group, 31, a second roller group, 4, a first limiting mechanism, 41, a guide part, 42, a jacking part, 5, a pushing mechanism, 51, a support seat, 52, a chain wheel, 53, a driving motor, 54, a shifting block, 55, a chain, 56, a baffle ring, 6, a cutting mechanism, 61, a base, 62, a screw rod lifter, 63, a support, 64, a rotating shaft, 65, a cutting piece, 66, a cutting motor, 67, a guide rail, 7, a bearing platform, 71, an air cylinder, 72, a roller conveyor, 8, a carbon powder collecting device, 9 and a control cabinet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An embodiment of the anode carbon block grooving machine of the invention is shown in fig. 1 and fig. 2, the anode carbon block grooving machine, is used for slotting on an anode carbon block in an anode 2, the anode carbon block is positioned at the lower end of the anode 2 and comprises a frame 1, a conveying mechanism which extends from left to right and is used for conveying the anode 2 is arranged on the frame 1, limiting mechanisms which are used for limiting the position of the anode 2 are arranged at the positions of the frame 1 corresponding to the front side and the rear side of the conveying mechanism, wherein the rear side is provided with a first limit mechanism 4, the front side is provided with a second limit mechanism, the machine frame 1 is provided with a pushing mechanism 5 which is suspended above the conveying mechanism and used for pushing the anode 2 by matching with the conveying mechanism, a cutting slotting gap is arranged at the position of the conveying mechanism corresponding to the pushing mechanism 5, a cutting mechanism 6 corresponding to the cutting slotting gap is also arranged on the frame 1, and the cutting mechanism 6 comprises a cutting blade 65 which extends upwards out of the cutting slotting gap so as to cut and slot the anode carbon block.

In the present embodiment, the conveying mechanism includes two conveying roller groups, i.e., the first roller group 3 and the second roller group 31, which are provided at intervals left and right, each of which includes a plurality of conveying rollers provided at intervals left and right and having axes extending in the front-rear direction, wherein the interval space between the two conveying roller groups constitutes the above-mentioned cutting grooving gap. Furthermore, the conveying rollers of each conveying roller group are divided into a front row and a rear row, so that the anodes 2 with two anode carbon blocks can be better conveyed. Furthermore, the parts of the cutting slotting gaps corresponding to the front and the rear rows of conveying rollers can be staggered front and back to form two cutting slotting gaps, and each cutting slotting gap corresponds to one cutting mechanism 6, so that the conveying stability during cutting is ensured.

In other embodiments, the two conveying roller sets in the conveying mechanism can also be any one or a combination of a belt conveyor, a net chain conveyor or a chain plate conveyor; or the conveying mechanism can be at least two groups of conveyors arranged at intervals in the front-back direction, each conveyor extends along the left-right direction, and can be any one of the conveyors, and then the gap between the two adjacent conveyors in the front-back direction forms a cutting slotting gap which can be used for the cutting blade to extend out and extends along the left-right direction.

In this embodiment, each of the limiting mechanisms includes a mounting frame, a plurality of limiting rollers which are distributed at intervals left and right and have axes extending in the up-down direction are provided on one side of the mounting frame facing the conveying mechanism, and the limiting rollers are used for clamping the anode 2 together so as to limit the position of the anode in the front-back direction.

Specifically, the stop gear that is located the front side is that the second stop gear divides into the guide portion 41 and the tight portion in top 42 that the interval set up about, and the left end of guide portion 41 corresponds the setting at conveying mechanism's front side, the right-hand member inclines backward and the overhang is on conveying mechanism to anode 2 is by the guide frame guide back to the stop gear who is located the rear side, so that fix a position anode 2, do benefit to follow-up centre gripping, tight portion in top 42 along left right direction extend and with the common centre gripping anode 2 of the stop gear who is located the rear side.

Further, the tight portion 42 of top is connected with frame 1 adjustable from beginning to end, specifically is bolt adjustable connection, is equipped with the double-screw bolt that extends along the fore-and-aft direction promptly on the tight portion 42 of top, thereby the double-screw bolt is worn to be adorned and is supported tight portion 42 in frame 1 relevant position, and tight portion 42 overhang in the top of conveying mechanism front side in top this moment, all wears to be equipped with the nut on the double-screw bolt is located frame 1 relevant position's front and back both sides, makes the fore-and-aft position of double-screw bolt adjustable through adjusting two nuts, and then drives tight portion 42 of top adjustable. The front and rear limiting mechanisms can clamp anodes 2 with different specifications by adjusting the jacking part 42.

In other embodiments, the limiting mechanism can also be a smooth plate or a rod extending in the left-right direction; the position department that the frame corresponds tight portion in top also can set up two or a plurality of electronic jar at the interval, still can form a complete set and set up along the telescopic link that the fore-and-aft direction is flexible to replace above-mentioned bolt, the nut that corresponds tight portion in top.

The pushing mechanism 5 comprises a support frame arranged at the position of the rear side of the conveying mechanism corresponding to the rack 1, two chain wheels 52 arranged on the support frame at left and right intervals, and chains 55 arranged on the chain wheels 52, wherein one chain wheel 52 is connected with a driving motor 53 to form a driving wheel, the driving motor 53 is fixedly arranged on the support frame, the chains 55 are arranged above the conveying mechanism, a plurality of shifting blocks 54 used for pushing the anode 2 are arranged on the outer peripheral side of the chains 55 at intervals, and two retaining rings 56 which are respectively arranged at the front side and the rear side of the chains 55 to clamp the chains 55 to prevent the chains 55 from twisting are further arranged on the support frame.

Specifically, in this embodiment, the support frame includes that two control the interval set up, the supporting seat 51 of L shape, two supporting seats 51 all have two overhanging ends that hang forward, two inner ring sides that keep off ring 56 are fixed connection each other, and two keep off ring 56 and correspond the overhanging end of installing at two supporting seats 51, thereby each supporting seat 51 and each keep off ring 56 and form above-mentioned support frame jointly, two sprocket 52 are installed respectively and are kept off ring 56's left and right sides both ends department and lie in two and keep off ring 56 middles, the bearing frame that two sprocket 52 correspond respectively is fixed on two fender rings, driving motor 53 is fixed on the fender ring 56 that corresponds.

Specifically, the conveying roller below the pushing mechanism 5 is an unpowered roller, the other conveying rollers are power rollers, and the shifting blocks on the chain shift the anode 2 to move on the unpowered roller.

In other embodiments, each conveying roller can be a power roller, and the movement speed of the chain of the pushing mechanism can be synchronous with the conveying speed of the power roller; the chain can also be a belt fixed with a shifting block, and the chain wheel is a corresponding belt pulley; the number of the chain wheels can be three or more than three; the support frame also can be the board that has the mounting base, extends along left and right direction, and the mounting base is fixed in frame relevant position department, and the board overhangs above cutting fluting space, and sprocket, fender ring and driving motor all can correspond the installation on the board this moment.

In this embodiment, the cutting mechanism 6 further includes a base 61, a guide rail 67 disposed on the base 61 and extending in the up-down direction, a bracket 63 disposed on the guide rail 67 in the up-down sliding manner, and a screw rod elevator 62 for driving the bracket 63 to slide in the up-down direction, four guide rails 67 are correspondingly disposed, a rotating shaft 64 extending in the front-back direction and a cutting motor 66 for driving the rotating shaft 64 to rotate are disposed at the upper end of the bracket 63, and a cutting blade 65 is mounted on the rotating shaft 64, so that when the anode carbon block is not cut, the cutting blade 65 can be withdrawn downward from the cutting and slotting region to prevent accidental injury of personnel and damage of the cutting blade 65, and the height of the cutting blade 65 extending out of the cutting and slotting gap can be adjusted by the screw rod elevator 62 to adjust the slotting depth, and in addition, when the anode carbon block is cut, the cutting blade 65 is driven by the screw rod elevator 62, and cutting a groove meeting the requirement together.

In this embodiment, two cutting blades 65 are arranged and distributed on the rotating shaft 64 at intervals, and the position and the distance of the notch can be adjusted by adjusting the distance and the position of the two cutting blades 65 when in use.

In other embodiments, the cutting mechanism may also include a base, a rotating shaft disposed on the base, a driving motor for driving the rotating shaft to rotate, and a cutting blade mounted on the rotating shaft, wherein the cutting blade is not capable of extending up and down; the number of the cutting pieces can be one, three or more, and the specific number can be set according to the actual processing requirement.

In order to facilitate the transfer of the anode 2 after slotting, the right end of the conveying mechanism is provided with a receiving platform 7 for receiving the anode 2 after slotting, the front end of the receiving platform 7 is provided with a roller conveyor 72, and the rear end of the receiving platform 7 is provided with an air cylinder 71 for pushing the anode 2 on the receiving platform 7 to the roller conveyor 72. The roller conveyor 72 may be another type of conveyor, and the air cylinder 71 may be another telescopic device having the same function.

In order to prevent the cutting scraps from polluting the environment, a dust recovery device, namely a carbon powder collecting device 8 is correspondingly arranged near each cutting mechanism 6, and the device can adopt the existing dust recovery device.

In order to improve the automation degree of the whole device, a plurality of sensors capable of detecting the position of the anode 2 can be arranged on the conveying mechanism, each sensor and each action mechanism such as the conveying mechanism, the pushing mechanism 5, the cutting mechanism 6, the air cylinder 71 and the like can be controlled by an electric control system in a unified mode to perform corresponding actions, the electric control system can be arranged in the control cabinet 9 and comprises a PLC, and the sensors, the electric control system and the control connection of the electric control system and each action mechanism are all easy to achieve through the prior art means, so that excessive description is not needed.

In order to improve the conveying fluency of the anode 2 on the conveying mechanism, the right end of the frame 1 is inclined downwards at any angle of 0-3 degrees.

During the operation, the installed anode 2 is placed at the left end of the conveying mechanism, and along with the conveying of the conveying mechanism, when the anode 2 reaches the guide portion 41, it is pushed toward the first stopper mechanism 4 by the guide portion 41 to perform the pre-positioning, then, after the anode 2 enters the pressure feeding range of the pushing mechanism 5, the anode 2 is limited by the first limiting mechanism 4, the jacking part 42 and the pushing mechanism 5 and is continuously conveyed rightwards, when the anode 2 reaches the cutting and slotting section, the cutting blade 65 extends upwards out of the cutting and slotting section and cuts and slots the anode carbon block of the anode 2, the cutting blade 65 moves up and down according to the preset slotting requirement in the slotting process, the uniform linear motion of the anode carbon block is matched to jointly open the grooves meeting the requirement, the anode 2 after slotting is sent to the bearing platform 7, and then pushed toward the roller conveyor 72 by the air cylinder 71, and the roller conveyor 72 sends the anode 2 to the next processing station.

According to the invention, the anode 2 is limited on the conveying mechanism together by arranging the limiting mechanism and the pushing mechanism 5, the pushing mechanism 5 can correspond to the rear side position of the anode guide rod in the anode 2, so that the normal movement of the anode 2 is not influenced, and the cutting blade 65 of the cutting mechanism 6 can smoothly cut and groove the anode carbon block in the anode 2, so that the whole device not only can independently cut and groove the anode carbon block, but also can cut and groove the anode carbon block provided with the anode guide rod, and the yield of the anode 2 is improved, the application range of the invention is greatly expanded, and the invention can flexibly cope with various production environments; in addition, when the anode carbon block is processed, the grooving position of the anode carbon block is always kept downward, the anode carbon block does not need to be turned over, and the butt joint with other equipment of an anode 2 production line is easier and smoother.

The anode production line comprises an anode carbon block manufacturing device and an anode carbon block grooving machine, wherein the anode carbon block grooving machine is the anode carbon block grooving machine, so that the details are not repeated.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. An anode carbon block grooving machine for grooving on an anode carbon block of an anode is characterized in that: the anode cutting machine comprises a frame, wherein a conveying mechanism which extends from left to right and is used for conveying anodes is arranged on the frame, position parts of the frame, corresponding to the front side and the rear side of the conveying mechanism, are respectively provided with a limiting mechanism used for limiting the position of an anode, a pushing mechanism which is arranged above the conveying mechanism in a hanging mode and used for being matched with the conveying mechanism to push the anode is arranged on the frame, a cutting slotting gap is arranged at the position part of the conveying mechanism, corresponding to the pushing mechanism, the frame is further provided with a cutting mechanism corresponding to the cutting slotting gap, and the cutting mechanism comprises a cutting blade which upwards extends out of the cutting slotting gap to cut and slot an anode carbon block.

2. The anode carbon block grooving machine of claim 1, wherein: the conveying mechanism comprises two conveying roller groups which are arranged at left and right intervals, each conveying roller group comprises a plurality of conveying rollers which are arranged at left and right intervals and the axes of which extend along the front and back directions, and the space between the two conveying roller groups forms the cutting slotting gap.

3. The anode carbon block grooving machine of claim 1, wherein: every stop gear all includes the mounting bracket, the mounting bracket towards be equipped with a plurality of about spacing distribution, axis along the spacing roller that extends from top to bottom on one side of conveying mechanism, thereby the common centre gripping positive pole of each stop gear limits its position in the front and back direction.

4. The anode carbon block grooving machine of claim 3, wherein: the limiting mechanism positioned on the front side is divided into a guiding part and a tightening part which are arranged at left and right intervals, the left end of the guiding part is correspondingly arranged on the front side of the conveying mechanism, the right end of the guiding part is inclined backwards and extends on the conveying mechanism in a hanging mode, so that the anode is guided by the guiding frame and then leans against the limiting mechanism positioned on the rear side, and the tightening part extends along the left and right direction and clamps the anode together with the limiting mechanism positioned on the rear side.

5. The anode carbon block grooving machine of claim 4, wherein: the jacking portion is connected with the rack in a front-back adjustable mode, so that anodes with different specifications can be clamped by limiting mechanisms on the front side and the rear side through corresponding adjustment of the guide portion and the jacking portion.

6. The anode carbon block grooving machine of claim 1, wherein: the pushing mechanism comprises a support frame arranged at the position, corresponding to the rear side of the conveying mechanism, of the rack, at least two chain wheels arranged on the support frame at left and right intervals, and chains arranged on the chain wheels, wherein one chain wheel is connected with a driving motor, the chain is arranged above the conveying mechanism, a plurality of shifting blocks used for pushing the anode are arranged on the outer peripheral side of the chain at intervals, and two retaining rings respectively arranged on the front side and the rear side of the chain and used for clamping the chain to prevent the chain from twisting are further arranged on the support frame.

7. The anode carbon block grooving machine of claim 1, wherein: cutting mechanism still includes the base, sets up guide rail, the setting of sliding from top to bottom that extend along upper and lower direction on the base are in guide rail upper bracket, be used for the drive gliding lead screw lift about the support, the upper end of support is equipped with the pivot that extends along the fore-and-aft direction and is used for driving pivot pivoted motor, the cutting piece is installed in the pivot.

8. The anode carbon block groover of any of claims 1-7, wherein: the right end of the conveying mechanism is provided with a bearing platform for bearing the grooved anode, the front end of the bearing platform is provided with a roller conveyor, and the rear end of the bearing platform is provided with a cylinder for pushing the anode on the bearing platform to the roller conveyor.

9. The anode production line comprises an anode carbon block manufacturing device and an anode carbon block grooving machine, and is characterized in that: the anode carbon block grooving machine as claimed in any one of claims 1-8.

Images