CN115672098B - Batching device of ball pressing production line - Google Patents

Abstract

The invention relates to the technical field of material mixing equipment, and provides a batching device of a ball pressing production line, which comprises a rack, wherein a stirring mechanism is arranged on the rack, and the stirring mechanism comprises: the stirring tank is arranged on the rack; the stirring motor is arranged on the frame, and the output end of the stirring motor is positioned in the stirring tank; the stirring shaft is arranged at the output end of the stirring motor; the stirring blades are arranged on the stirring shaft at intervals; wherein the stirring blades are provided with a plurality of stirring columns, and the axial leads of the stirring blades and the stirring shaft are obliquely arranged; through the technical scheme, the problem that the crushing of the pressed balls is easily caused due to uneven mixing of the mineral powder and the adhesive in the related technology is solved.

Description

Batching device of ball pressing production line

Technical Field

The invention relates to the technical field of material mixing equipment, in particular to a batching device of a ball pressing production line.

Background

The briquetting refers to a product obtained by pelletizing and agglomerating nonferrous and black metal mineral powder, and the briquetting can be directly smelted in a furnace to improve the added value; the equipment for manufacturing the pressed balls is called a pressed ball machine, the commonly used equipment is a pressed ball machine, and an adhesive is usually added in the process of manufacturing the pressed balls, so that the adhesive force among the metal mineral powder is improved, the forming and shaping of the pressed balls are facilitated, and the pressed balls are sintered into blocks after the shaping, so that the transfer and the use of the pressed balls are facilitated; in the prior art, if the mineral powder and the binding agent are mixed unevenly, the bonding force of the metal mineral powder in part of the pressed balls is too small, the metal mineral powder is easy to crack, and subsequent operation cannot be performed, so that the prior art needs to be improved, and the mixing uniformity between the mineral powder and the binding agent is improved.

Disclosure of Invention

The invention provides a batching device of a pellet pressing production line, which solves the problem that the pellet pressing is easy to crack due to uneven mixing of mineral powder and an adhesive in the related technology.

The technical scheme of the invention is as follows:

batching device of ball production line, which comprises a frame, be provided with rabbling mechanism in the frame, the rabbling mechanism includes:

the stirring tank is arranged on the rack;

the stirring motor is arranged on the rack, and the output end of the stirring motor is positioned in the stirring tank;

the stirring shaft is arranged at the output end of the stirring motor;

a plurality of stirring blades are arranged on the stirring shaft at intervals;

wherein a plurality of stirring columns are arranged on the stirring fan blades, and the stirring fan blades and the axial lead of the stirring shaft are obliquely arranged.

As a further technical scheme, the stirring mechanism further comprises a material overturning assembly, and the material overturning assembly comprises:

the lining cylinder is rotatably arranged in the stirring tank;

the linkage disc is arranged on the stirring shaft;

the linkage rod is arranged on the lining barrel and is meshed and connected with the linkage disc;

the material turning strip is arranged on the lining barrel;

the discharging piece is arranged on the stirring tank and is abutted against or separated from the end part of the turning strip.

As a further technical scheme, still include the briquetting mechanism, the briquetting mechanism includes:

the bin is arranged on the rack and is communicated with the stirring tank;

the auxiliary frame is arranged on one side of the storage bin;

the pressing block rotating shafts are arranged on the auxiliary frame in a rotating mode, and are respectively arranged on two sides of the discharge port of the storage bin;

the briquetting motor is arranged on the auxiliary frame, and the output end of the briquetting motor is fixedly connected with the briquetting rotating shaft;

and the receiving hopper is arranged on the auxiliary frame and positioned below the pressing block rotating shaft.

As a further technical scheme, the auxiliary frame is provided with a sliding groove, the pressing block mechanism further comprises a shaft replacing component, and the shaft replacing component comprises:

the material breaking plates are arranged on the stock bin in a rotating mode, and the number of the material breaking plates is a plurality;

the two ends of the telescopic rod are respectively hinged with the stock bin and the material cutting plate;

the sliding block is movably arranged on the auxiliary frame, the pressing block rotating shaft is rotatably connected with the sliding block, and the pressing block motor is arranged on the sliding block;

the lifting motor is arranged on one side of the auxiliary frame, and a lifting supporting plate is arranged on the output end of the lifting motor;

the push shaft motor is arranged on one side of the auxiliary frame, and the output end of the push shaft motor is abutted to or separated from the sliding block.

As a further technical scheme, the briquetting mechanism still includes card axle subassembly, card axle subassembly includes:

the supporting plate is arranged at the output end of the push shaft motor, and a first groove is formed in one side, far away from the push shaft motor, of the supporting plate;

the movable plate is rotatably arranged on the supporting plate, the movable plate is abutted against or separated from the sliding block, a second groove is formed in the movable plate, and third grooves are formed in two opposite side walls of the second groove;

the sliding shaft is movably arranged in the second groove, and two ends of the sliding shaft are respectively positioned in the third groove and movably connected;

the swinging rod is rotatably arranged in the first groove;

the two ends of the first spring are fixedly connected with rotating joints respectively, and the rotating joints are rotatably connected with the sliding shaft and the swinging rod respectively;

and the second spring is arranged in the third groove, and two ends of the second spring are fixedly connected with the bottom of the third groove and the sliding shaft respectively.

As a further technical scheme, a first through hole and a second through hole which are communicated and connected with each other are formed in the auxiliary frame, the pressing block mechanism further comprises a trigger assembly, and the trigger assembly comprises;

the trigger rod is movably arranged in the first through hole;

a trigger pressure plate disposed within the second through-hole, the trigger pressure plate electrically connected to the lift motor;

and the third spring is arranged in the first through hole, and two ends of the third spring are fixedly connected with the trigger rod and the trigger pressure plate respectively.

As a further technical scheme, still include screening feed back mechanism, screening feed back mechanism includes:

the screening frame is arranged on one side of the discharge hole of the receiving hopper;

the screening conveyer belt is movably arranged on the screening frame and is provided with a plurality of screening holes;

the vibration motor is arranged on one side of the screening frame, and the output end of the vibration motor is abutted against the screening conveyer belt;

the collecting box is arranged on the screening frame, and the screening conveyer belt is arranged outside the collecting box in a surrounding manner;

the crushing bin is arranged on one side of the collecting box and is communicated with the collecting box;

the crushing motor is arranged on the crushing bin;

a crushing shaft disposed on an output end of the crushing motor;

the crushing disks are arranged on the crushing shaft at intervals, and a plurality of crushing knives are arranged on the crushing disks;

the lifting machine is arranged on one side of the screening frame and is communicated with the discharge hole of the crushing bin and the stirring tank respectively.

The working principle and the beneficial effects of the invention are as follows:

in order to uniformly mix the mineral powder and the adhesive, the invention provides a batching device which specifically comprises a rack and a stirring mechanism, wherein the stirring mechanism comprises a stirring tank, a stirring motor, a stirring shaft, stirring blades, a lining barrel, a linkage disk, a linkage rod, a turning strip and a discharging piece, wherein the stirring tank is communicated with an external feeding pipe; when the stirring device works, mineral powder and an adhesive enter the stirring tank through the feeding pipe, the stirring motor is started, the stirring motor drives the stirring shaft to rotate, the stirring shaft drives the stirring blades to rotate in the same direction, and the stirring blades drive the stirring columns to rotate in the same direction; when the stirring shaft rotates, the stirring blades and the stirring column can fully stir the raw materials in the stirring tank, so that the mineral powder and the adhesive are uniformly mixed; the stirring fan blade that the slope set up can realize the turn-ups to the material when stirring the raw materials, improves stirring effect. The stirring shaft can drive the linkage disc to synchronously rotate while rotating, and the linkage disc can drive the linkage rod connected in a meshing way to move while rotating; the movable connecting rod drives the lining cylinder to rotate in the stirring tank; when the lining cylinder rotates, the material turning strips are driven to rotate in the same direction, and the material turning strips are spirally arranged on the inner wall of the lining cylinder; the stirring bar can drive the raw materials on the inner wall of the stirring tank to gradually move upwards when rotating, so that the raw materials can be effectively prevented from being adhered to the on the inner wall of the stirring tank, and the mixing uniformity of the raw materials is improved; along with the rotation of interior bushing, it is regional that the raw materials that pastes to agitator tank inner wall department is taken the turn-down strip to the upper portion of agitator tank, under the guide effect of the piece of unloading, the raw materials removes the middle region of agitator tank from the turn-down strip, avoids appearing the stirring dead angle in the agitator tank with the help of the turn-down strip, can make the raw materials of agitator tank bottom mix with the raw materials at top simultaneously, improves the mixture uniformity of raw materials.

Drawings

The invention is described in further detail below with reference to the drawings and the detailed description.

Fig. 1 is a schematic structural view of the whole of the present invention.

Fig. 2 is a schematic structural diagram of the stirring mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the briquetting mechanism of the invention.

Fig. 4 is a schematic structural diagram at X in fig. 3.

FIG. 5 is a schematic view of the structure of the chuck shaft assembly of the present invention.

Fig. 6 is a schematic structural diagram of the screening and feeding back mechanism of the invention.

In the figure: 1. the device comprises a rack, 2, a stirring tank, 3, a stirring motor, 4, a stirring shaft, 5, stirring fan blades, 6, a lining barrel, 7, a linkage disk, 8, a linkage rod, 9, a stirring strip, 10, a discharging piece, 11, a bin, 12, an auxiliary frame, 13, a briquetting rotating shaft, 14, a briquetting motor, 15, a receiving hopper, 16, a chute, 17, a breaking plate, 18, a telescopic rod, 19, a sliding block, 20, a lifting motor, 21, a pushing shaft motor, 22, a supporting plate, 23, a first groove, 24, a movable plate, 25, a second groove, 26, a third groove, 27, a sliding shaft, 28, a swinging rod, 29, a first spring, 30, a second spring, 31, a second through hole, 32, a triggering rod, 33, a triggering pressure plate, 34, a third spring, 35, a screening frame, 36, a screening conveyer belt, 37, a vibrating motor, 38, a collecting box, 39, a crushing bin, 40, a crushing motor, 41, a crushing shaft, 42, a crushing disk, 43 and a lifter.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 6, the present embodiment provides a batching device for a pellet pressing production line.

Batching device of ball production line, including the frame, be provided with rabbling mechanism in the frame 1, the rabbling mechanism includes:

the stirring tank 2 is arranged on the frame 1;

the stirring motor 3 is arranged on the rack 1, and the output end of the stirring motor 3 is positioned in the stirring tank 2;

the stirring shaft 4 is arranged at the output end of the stirring motor 3;

a plurality of stirring fan blades 5 are arranged on the stirring shaft 4 at intervals;

wherein, the stirring fan blade 5 is provided with a plurality of stirring columns, and the axial leads of the stirring fan blade 5 and the stirring shaft 4 are obliquely arranged.

Further, rabbling mechanism still includes the stirring subassembly, and the stirring subassembly includes:

the lining cylinder 6, the lining cylinder 6 is rotatably arranged in the stirring tank 2;

the linkage disc 7 is arranged on the stirring shaft 4;

the linkage rod 8 is arranged on the inner lining barrel 6, and the linkage rod 8 is meshed with the linkage disc 7;

the material turning strip 9, the material turning strip 9 is arranged on the inner lining cylinder 6;

and the discharging piece 10 is arranged on the stirring tank 2, and the discharging piece 10 is abutted against or separated from the end part of the stirring strip 9.

In the embodiment, as shown in fig. 1 to 2, in order to uniformly mix the mineral powder and the binder, a batching device is provided, which specifically includes a rack 1 and a stirring mechanism, wherein the stirring mechanism includes a stirring tank 2, a stirring motor 3, a stirring shaft 4, stirring blades 5, an inner lining tube 6, a linkage disc 7, a linkage rod 8, a material turning strip 9 and a discharging piece 10, and the stirring tank 2 is communicated with an external feeding pipe; during operation, mineral powder and an adhesive enter the stirring tank 2 through the feeding pipe, the stirring motor 3 is started, the stirring motor 3 drives the stirring shaft 4 to rotate, the stirring shaft 4 drives the stirring blades 5 to rotate in the same direction, and the stirring blades 5 drive the stirring columns to rotate in the same direction; when the stirring shaft 4 rotates, the stirring fan blades 5 and the stirring column can fully stir the raw materials in the stirring tank 2, so that the mineral powder and the adhesive are uniformly mixed; the stirring fan blade 5 that the slope set up can realize the turn-ups to the material when stirring the raw materials, improves stirring effect. The stirring shaft 4 can drive the linkage disk 7 to synchronously rotate while rotating, and the linkage disk 7 can drive the linkage rod 8 in meshed connection to move when rotating; the movable connecting rod drives the lining cylinder 6 to rotate in the stirring tank 2; when the lining cylinder 6 rotates, the turning strip 9 is driven to rotate in the same direction, and the turning strip 9 is spirally arranged on the inner wall of the lining cylinder 6; the stirring bar 9 can drive the raw materials on the inner wall of the stirring tank 2 to gradually move upwards when rotating, so that the raw materials can be effectively prevented from being adhered to the on the inner wall of the stirring barrel, and the mixing uniformity of the raw materials is improved; along with the rotation of interior bushing 6, the raw materials that paste and lean on agitator tank 2 inner wall department are taken to the upper portion region of agitator tank 2 by stirring strip 9, under the guide effect of piece 10 of unloading, and the raw materials moves to the middle zone of agitator tank 2 from stirring strip 9, avoids appearing the stirring dead angle in the agitator tank 2 with the help of stirring strip 9, can make the raw materials of agitator tank 2 bottom mix with the raw materials at top simultaneously, improves the mixture degree of consistency of raw materials.

Further, still include briquetting mechanism, briquetting mechanism includes:

the bin 11 is arranged on the rack 1 and is communicated with the stirring tank 2;

the auxiliary frame 12, the auxiliary frame 12 is set up in one side of the stock bin 11;

the pressing block rotating shafts 13 are arranged on the auxiliary frame 12 in a rotating mode, the number of the pressing block rotating shafts 13 is several, and the pressing block rotating shafts 13 are arranged on two sides of a discharge port of the storage bin 11 respectively;

the briquetting motor 14, the briquetting motor 14 is set up on the subframe 12, the output end of the briquetting motor 14 is fixedly connected with spindle 13 of briquetting;

and the receiving hopper 15 is arranged on the auxiliary frame 12 and is positioned below the briquetting rotating shaft 13.

Further, seted up spout 16 on the subframe 12, briquetting mechanism still includes trades a subassembly, trades a subassembly and includes:

the material cutting plates 17 are arranged on the stock bin 11 in a rotating mode, and the number of the material cutting plates 17 is a plurality;

the two ends of the telescopic rod 18 are respectively hinged with the bin 11 and the material breaking plate 17;

the sliding block 19 is movably arranged on the auxiliary frame 12, the pressing block rotating shaft 13 is rotatably connected with the sliding block 19, and the pressing block motor 14 is arranged on the sliding block 19;

the lifting motor 20 is arranged on one side of the auxiliary frame 12, and a lifting supporting plate is arranged on the output end of the lifting motor 20;

a push shaft motor 21, the push shaft motor 21 is arranged at one side of the auxiliary frame 12, and the output end of the push shaft motor 21 is abutted against or separated from the slide block 19.

In this embodiment, as shown in fig. 1 and fig. 3 to 4, in order to ensure that the raw materials are smoothly pelletized and prepared for subsequent sintering operation, the batching device is optimized, and a briquetting mechanism is added, wherein the briquetting mechanism specifically comprises a storage bin 11, an auxiliary frame 12, a briquetting rotating shaft 13, a briquetting motor 14, a receiving hopper 15, a material cutting plate 17, an expansion link 18, a sliding block 19, a lifting motor 20 and a push shaft motor 21, and the number of the material cutting plates 17 is preferably two; when the briquetting machine works, the briquetting motor 14 is started, the briquetting motor 14 drives the briquetting rotating shafts 13 to rotate, the number of the briquetting rotating shafts 13 is preferably two, the rotating directions of the briquetting rotating shafts 13 are opposite, and the outer surfaces of the briquetting rotating shafts 13 are provided with a plurality of grooves with preset shapes; the uniformly mixed raw materials enter the bin 11 from the stirring tank 2 and are discharged from a discharge port of the bin 11; the material discharged from the bin 11 falls to the joint of the two briquetting rotating shafts 13, and under the extrusion action of the briquetting rotating shafts 13, the raw material is extruded into blocks and then falls into the receiving hopper 15; in the process, in order to facilitate the replacement of the briquetting rotating shaft 13 and realize the continuous production of the briquetting balls with various specifications, a shaft replacing assembly is added on the auxiliary frame 12, the working process is as follows, the working briquetting rotating shaft 13 and the sliding block 19 are integrally defined as A, and the briquetting rotating shaft 13 and the sliding block 19 to be replaced are integrally defined as B; starting a push shaft motor 21, wherein the output end of the push shaft motor 21 can stretch, the output end of the push shaft motor 21 extends to push the B to move in the chute 16 in the direction close to a lifting motor 20 until a sliding block 19 on the B moves onto a lifting supporting plate, and then the push shaft motor 21 stops running and returns to the initial position; then the lifting motor 20 is started, the output end of the lifting motor 20 is telescopic, the lifting motor 20 pushes the lifting support plate to move upwards and gradually approach to the lower part of the storage bin 11, the lifting support plate drives the B to move integrally in the same direction, when the B moves in the sliding chute 16, the sliding block 19 on the B can firstly extrude and move the locking support pin arranged on the auxiliary frame 12, the locking support pin extrudes the locking spring under stress, when the B moves to the preset working position, the sliding block 19 does not extrude the locking support pin, the locking support pin returns to the original state under the action of the locking spring and is positioned below the sliding block 19, the lifting of the sliding block 19 is realized, and the pressing block rotating shaft 13 on the B starts to rotate when the lifting motor 20 is started.

When the lifting motor 20 is started, the telescopic rod 18 starts to contract under the action of the built-in motor, so that the two material breaking plates 17 rotate towards the direction close to each other, the discharge amount of the storage bin 11 is reduced, the quick replacement of A and B is conveniently finished, and the working pressure of B during replacement is reduced; when equipment needs to be shut down for maintenance, the built-in motor of the telescopic rod 18 is started by means of the external processor, so that the two material breaking plates 17 are attached together, the discharging of the storage bin 11 is blocked, and the maintenance and the overhaul of the pressing block rotating shaft 13 are facilitated.

When the lifting motor 20 starts, a shaft unloading motor is arranged between the two A, and a plurality of output ends are arranged on the shaft unloading motor and can be stretched and contracted simultaneously; the shaft unloading motor is started and pushes the two A to move along the chute 16 in the direction away from each other, and the shaft unloading motor reversely runs and recovers to the initial position after the two A move for a certain distance; the shaft-unloading motor can avoid the extrusion collision of the A and the B. Simultaneously, when two A kept away from each other, the material that drops in the feed bin 11 can directly drop between two B, and B has begun to rotate and begin to carry out the briquetting operation this moment, realizes the continuous pelletization briquetting of powdered ore, guarantees going on in succession of the operation of pressing the ball.

Further, briquetting mechanism still includes card axle subassembly, and card axle subassembly includes:

the supporting plate 22 is arranged at the output end of the push shaft motor 21, and a first groove 23 is formed in one side, far away from the push shaft motor 21, of the supporting plate 22;

the movable plate 24 is rotatably arranged on the support plate 22, the movable plate 24 is abutted against or separated from the sliding block 19, a second groove 25 is formed in the movable plate 24, and third grooves 26 are formed in two opposite side walls of the second groove 25;

the sliding shaft 27 is movably arranged in the second groove 25, and two ends of the sliding shaft 27 are respectively positioned in the third groove 26 and movably connected;

the swing rod 28, the swing rod 28 is rotatably arranged in the first groove 23;

the two ends of the first spring 29 are fixedly connected with rotating joints respectively, and the rotating joints are rotatably connected with the sliding shaft 27 and the swinging rod 28 respectively;

and the second spring 30 is arranged in the third groove 26, and two ends of the second spring 30 are fixedly connected with the bottom of the third groove 26 and the sliding shaft 27 respectively.

In this embodiment, as shown in fig. 1, fig. 3 and fig. 5, the pressing block mechanism is improved, and a shaft clamping assembly is added, specifically including a supporting plate 22, a movable plate 24, a sliding shaft 27, a swing rod 28, a first spring 29 and a second spring 30, so as to facilitate the shaft pushing motor 21 to clamp the sliding block 19; during operation, when the push shaft motor 21 operates, the movable plate 24 is in pressing contact with the sliding block 19, at this time, the planes on the two sides of the support plate 22 and the movable plate 24 are in an overlapped state, the first spring 29 is in a compressed state, and the second spring 30 is in a natural extension state under the action of gravity of the swing rod 28; when the push shaft motor 21 returns to the initial position, there is no pressing contact between the movable plate 24 and the sliding block 19, and at this time, the swing lever 28 rotates in the third groove 26 in a direction away from the movable plate 24 until the swing lever 28 comes into pressing contact with the side wall of the third groove 26, and under the action of the second spring 30, the sliding shaft 27 moves in the second groove 25 in a direction close to the supporting plate 22, and at the same time, the first spring 29 starts to extend; the movable plate 24 will rotate towards the direction approaching the support plate 22 under the action of the second spring 30, the second spring 30 changes from extension to contraction along with the rotation of the movable plate 24, and provides acting force for blocking the rotation of the movable plate 24; the movable plate 24 is finally angled with respect to the support plate 22 by the forces of the first spring 29 and the second spring 30. After a new pressing block rotating shaft 13 and a new sliding block 19 are added in the sliding groove 16, the pressing block rotating shaft 13 and the new sliding block 19 need to be moved from one side of the movable plate 24 close to the push shaft motor 21 to one side far away from the push shaft motor 21, the movable plate 24 is pressed by the sliding plate in the moving process, the movable plate 24 is made to rotate towards the direction close to the supporting plate 22, when the sliding plate is moved in place, the movable plate 24 is restored to the included angle state under the action of the second spring 30, the newly added sliding block 19 can be prevented from moving back, and the limiting effect is achieved.

Further, the auxiliary frame 12 is provided with a first through hole and a second through hole 31 which are communicated and connected with each other, and the pressing block mechanism further comprises a trigger assembly;

the trigger rod 32 is movably arranged in the first through hole;

a trigger pressure plate 33, the trigger pressure plate 33 is arranged in the second through hole 31, and the trigger pressure plate 33 is electrically connected with the lifting motor 20;

and the third spring 34, the third spring 34 is arranged in the first through hole, and two ends of the third spring 34 are respectively fixedly connected with the trigger rod 32 and the trigger pressure plate 33.

In the embodiment, as shown in fig. 3 to 4, in order to ensure the smooth start of the operation of the lifting motor 20, a trigger rod 32, a trigger pressure plate 33 and a third spring 34 are added to the auxiliary frame 12; in operation, when B moves to the lifting pallet completely, the sliding block 19 on B will first make pressing contact with the triggering rod 32, the triggering rod 32 presses the third spring 34, the third spring 34 contracts and presses the triggering pressure plate 33, when the pressure detected on the triggering pressure plate 33 reaches the preset value, the triggering pressure plate 33 will transmit an electric signal to the lifting motor 20 and start the lifting motor 20, at this time, the sliding block 19 just moves to the right position, and the continuity of the transverse movement and the vertical movement of the sliding block 19 is realized by the triggering component.

Further, still including screening feed back mechanism, screening feed back mechanism includes:

the screening frame 35, the screening frame 35 is arranged on one side of the discharge hole of the receiving hopper 15;

the screening conveyer belt 36 is movably arranged on the screening frame 35, and a plurality of screening holes are formed in the screening conveyer belt 36;

the vibration motor 37 is arranged on one side of the screening frame 35, and the output end of the vibration motor 37 is abutted against the screening conveyer belt 36;

the collecting box 38, the collecting box 38 is set up on the screening shelf 35, the screening conveyer belt 36 is set up outside the collecting box 38 around;

a crushing bin 39, the crushing bin 39 is arranged on one side of the collecting box 38 and communicated with the collecting box 38;

a crushing motor 40, wherein the crushing motor 40 is arranged on the crushing bin 39;

a pulverizing shaft 41, the pulverizing shaft 41 being provided on an output end of the pulverizing motor 40;

a plurality of crushing disks 42, the crushing disks 42 are arranged on the crushing shaft 41 at intervals, and a plurality of crushing knives are arranged on the crushing disks 42;

and the lifter 43 is arranged on one side of the screening frame 35, and the lifter 43 is respectively communicated with the discharge hole of the crushing bin 39 and the stirring tank 2.

In this embodiment, as shown in fig. 1 and 6, the material after passing through the briquetting rotating shaft 13 forms a press ball, but a part of the press ball is cracked before being transferred to the sintering operation, and a material returning mechanism is added to improve the utilization rate of the material, specifically including a screening frame 35, a screening conveyer belt 36, a vibration motor 37, a collection box 38, a crushing bin 39, a crushing motor 40, a crushing shaft 41, a crushing disk 42 and a lifter 43, wherein the lifter 43 has a material lifting function, and can be a material lifter 43 in the prior art; during operation, the pressed balls in the receiving hopper 15 are discharged onto the screening conveyer belt 36, the screening conveyer belt 36 is vibrated continuously under the action of the vibration motor 37, some pressed balls which are not firmly connected are broken into small pieces under the vibration action, and then the small pieces fall into the collecting box 38 through the screening holes and are conveyed into the crushing bin 39; the crushing motor 40 is started, the crushing shaft 41 is driven to rotate under the action of the crushing motor 40, the crushing shaft 41 drives the crushing disc 42 to synchronously rotate, the crushing disc 42 drives the crushing cutter to rotate in the same direction, the materials which are crushed into small blocks are crushed by the aid of the rotating crushing cutter, and then the crushed materials are conveyed into the cutter stirring tank 2 by the aid of the action of the hoister 43, so that the materials are recycled, and waste of the materials is reduced.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. Batching device of ball production line, including the frame, be provided with rabbling mechanism on frame (1), its characterized in that, the rabbling mechanism includes:

the stirring tank (2), the stirring tank (2) is arranged on the frame (1);

the stirring motor (3) is arranged on the rack (1), and the output end of the stirring motor (3) is positioned in the stirring tank (2);

the stirring shaft (4), the stirring shaft (4) is arranged on the output end of the stirring motor (3);

a plurality of stirring blades (5), wherein the stirring blades (5) are arranged on the stirring shaft (4) at intervals;

wherein a plurality of stirring columns are arranged on the stirring fan blades (5), and the axial leads of the stirring fan blades (5) and the stirring shaft (4) are obliquely arranged;

still include briquetting mechanism, briquetting mechanism includes:

the storage bin (11), the storage bin (11) is arranged on the frame (1) and is communicated with the stirring tank (2);

the auxiliary frame (12), the auxiliary frame (12) is arranged on one side of the storage bin (11);

the pressing block rotating shafts (13) are arranged, the number of the pressing block rotating shafts (13) is a plurality, the pressing block rotating shafts (13) are all rotatably arranged on the auxiliary frame (12), and the pressing block rotating shafts (13) are respectively arranged on two sides of a discharge port of the storage bin (11);

the briquetting motor (14), the briquetting motor (14) is arranged on the auxiliary frame (12), and the output end of the briquetting motor (14) is fixedly connected with the briquetting rotating shaft (13);

the material receiving hopper (15) is arranged on the auxiliary frame (12) and is positioned below the briquetting rotating shaft (13);

seted up spout (16) on subframe (12), briquetting mechanism still includes trades a subassembly, it includes to trade a subassembly:

the material breaking plates (17) are arranged, and the number of the material breaking plates (17) is a plurality and the material breaking plates are all rotatably arranged on the stock bin (11);

the two ends of the telescopic rod (18) are hinged with the stock bin (11) and the material breaking plate (17) respectively;

the sliding block (19) is movably arranged on the auxiliary frame (12), the pressing block rotating shaft (13) is rotatably connected with the sliding block (19), and the pressing block motor (14) is arranged on the sliding block (19);

the lifting motor (20), the lifting motor (20) is arranged on one side of the auxiliary frame (12), and a lifting supporting plate is arranged on the output end of the lifting motor (20);

the push shaft motor (21), the said push shaft motor (21) is set up in one side of the said subframe (12), the output end of the said push shaft motor (21) is supported against or separated from said slide block (19);

briquetting mechanism still includes card axle subassembly, card axle subassembly includes:

the supporting plate (22), the supporting plate (22) is arranged at the output end of the push shaft motor (21), and a first groove (23) is formed in one side, far away from the push shaft motor (21), of the supporting plate (22);

the movable plate (24) is rotatably arranged on the supporting plate (22), the movable plate (24) is abutted against or separated from the sliding block (19), a second groove (25) is formed in the movable plate (24), and third grooves (26) are formed in two opposite side walls of the second groove (25);

the sliding shaft (27) is movably arranged in the second groove (25), and two ends of the sliding shaft (27) are respectively positioned in the third groove (26) and movably connected;

a swing lever (28), the swing lever (28) being rotatably disposed within the first groove (23);

the two ends of the first spring (29) are fixedly connected with rotating joints respectively, and the rotating joints are rotatably connected with the sliding shaft (27) and the swinging rod (28) respectively;

and the second spring (30) is arranged in the third groove (26), and two ends of the second spring (30) are fixedly connected with the bottom of the third groove (26) and the sliding shaft (27) respectively.

2. The batching device of a pellet pressing production line as claimed in claim 1, wherein said stirring mechanism further comprises an overturning assembly, said overturning assembly comprising:

the lining cylinder (6), the lining cylinder (6) is rotatably arranged in the stirring tank (2);

the linkage disc (7), the linkage disc (7) is arranged on the stirring shaft (4);

the linkage rod (8), the linkage rod (8) is arranged on the lining cylinder (6), and the linkage rod (8) is meshed and connected with the linkage disk (7);

the material turning strip (9), the material turning strip (9) is arranged on the lining barrel (6);

the discharging piece (10) is arranged on the stirring tank (2), and the discharging piece (10) is abutted to or separated from the end part of the turning strip (9).

3. The batching device of the ball pressing production line according to claim 1, wherein the auxiliary frame (12) is provided with a first through hole and a second through hole (31) which are communicated and connected with each other, the briquetting mechanism further comprises a triggering assembly, and the triggering assembly comprises;

a trigger rod (32), wherein the trigger rod (32) is movably arranged in the first through hole;

a trigger pressure plate (33), wherein the trigger pressure plate (33) is arranged in the second through hole (31), and the trigger pressure plate (33) is electrically connected with the lifting motor (20);

and the third spring (34) is arranged in the first through hole, and two ends of the third spring (34) are fixedly connected with the trigger rod (32) and the trigger pressure plate (33) respectively.

4. The batching device for the ball pressing production line according to claim 1, further comprising a screen return mechanism, said screen return mechanism comprising:

the screening frame (35) is arranged on one side of the discharge hole of the receiving hopper (15);

the screening conveyer belt (36) is movably arranged on the screening frame (35), and a plurality of screening holes are formed in the screening conveyer belt (36);

the vibrating motor (37) is arranged on one side of the screening frame (35), and the output end of the vibrating motor (37) is abutted to the screening conveying belt (36);

a collecting box (38), wherein the collecting box (38) is arranged on the screening frame (35), and the screening conveyer belt (36) is arranged outside the collecting box (38) in a surrounding manner;

a crushing bin (39), wherein the crushing bin (39) is arranged on one side of the collecting box (38) and is communicated with the collecting box (38);

a crushing motor (40), wherein the crushing motor (40) is arranged on the crushing bin (39);

a crushing shaft (41), the crushing shaft (41) being provided on an output end of the crushing motor (40);

the crushing discs (42), the number of the crushing discs (42) is a plurality, the crushing discs are arranged on the crushing shaft (41) at intervals, and a plurality of crushing knives are arranged on the crushing discs (42);

lifting machine (43), lifting machine (43) set up screening frame (35) one side, lifting machine (43) respectively with smash the discharge gate in storehouse (39) with agitator tank (2) intercommunication.

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