Multifunctional feed elevator
Technical Field
The invention relates to a multifunctional feed elevator, and belongs to the field of feed elevators.
Background
The fodder hoister is a mechanical conveying equipment with a fixing device, is mainly suitable for continuously and vertically hoisting powdery, granular and small-sized materials, and can be widely applied to hoisting bulk materials in various-scale fodder factories.
When prior art used, 1, when the fodder was too moist, when carrying out fodder lifting, be difficult for the dehydration, and easily cause the fodder can condense the piece when promoting, be difficult for through the discharge gate ejection of compact, 2, when the fodder is promoting, the lump that condenses is too big, easily blocks up the discharge gate, makes equipment trouble, needs the manual work to dredge, wastes time and energy.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a multifunctional feed elevator, and solves the problems that when the feed elevator is used in the prior art, 1, when the feed is too humid, the feed is not easy to dehydrate and is easy to cause the feed to be condensed into blocks during lifting, the feed is not easy to discharge through a discharge hole, and 2, when the feed is lifted, the condensed blocks are too large, the discharge hole is easy to block, equipment faults are caused, manual dredging is needed, and time and labor are wasted.
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a multi-functional fodder lifting machine, its structure includes safety cover, lift bar, feed inlet, motor, work box, supporting foot frame, dead lever, safety cover one end is located the one end of lift bar and is welded with the one end of lift bar, the top surface of work box one side and the top surface welding of work box are located to the other end of lift bar, the right side of the lift bar other end is located to feed inlet one end and welds with the lift bar right side, the other end top surface of work box is equipped with the motor and is integrated structure with the one end of motor, the supporting foot frame is located the left side of motor and welds with the left side of motor, the left side top of supporting foot frame is equipped with the dead lever and welds with the both ends of dead lever, the below of lift bar is located to the top of dead lever and welds with the side of lift bar, the lift bar includes spiral lift, The spiral lifting rod is arranged inside the protective shell, the right end of the spiral lifting rod penetrates through one side of the protective shell and is welded with one side of the working box, the discharge port is arranged at the left end of the lower part of the protective shell and is of an integrated structure with the left end of the lower part of the protective shell, one end of the dehydration transmission device is arranged inside the lower part of the protective shell and is matched with the spiral lifting rod at the upper part of the dehydration transmission device, the other end of the dehydration transmission device penetrates through the right end of the protective shell and is of an integrated structure with the protective shell, the cutting transmission device is arranged inside the left end of the spiral lifting rod and is matched with the spiral lifting rod, one end of the lock catch transmission device is arranged on the left side of the protective shell and the other end of the lock catch transmission device is arranged inside the cutting transmission device, and the other, the other end of the transmission rod is welded with the working box.
Further, dehydration transmission includes filtration mouth, closed tube, delivery port, the filtration mouth is equipped with seven and all locates inside and the top of the below of protecting sheathing and all cooperatees with the below of spiral lifting rod, the below of filtration mouth all is equipped with closed tube and all welds with the top of closed tube, the right-hand member below of closed tube and the top of delivery port are integrated structure.
Further, cutting transmission includes cutting knife, magnet piece, magnet pole, the cutting knife is equipped with four and one end and all cooperatees with the spiral lifting rod, the cutting knife other end all welds with magnet piece one end, the magnet piece is equipped with four and the other end and all cooperatees with magnet pole one side, the magnet pole is quadrangle structure and one end and transfer line one end lock joint, the magnet pole other end cooperatees with hasp transmission's one end.
Further, hasp transmission includes fixed block, rotatory key, fixed gear, stay cord, gag lever post, reset spring, guide pulley, rotatory key one end and protective housing's left end laminating and the other end run through protective housing, all mesh with the one end of fixed gear from top to bottom the rotatory key other end, the fixed gear is equipped with two, the fixed block is equipped with two and all cooperatees with rotatory key middle part in one side, the stay cord is equipped with two and the top surface lock joint of one end all with the fixed gear, the stay cord other end is all walked around the guide pulley and is spliced with the one end of gag lever post, the gag lever post is equipped with two and one end all welds with reset spring, reset spring is equipped with two, the gag lever post other end all is connected with the one end of transfer line.
Advantageous effects
The invention relates to a multifunctional feed lifter, wherein after a motor operates normally, feed is uniformly added from a feeding box, the feed after being fed in the lifter moves forward along the axial direction under the pushing of a spiral rotating blade of a spiral lifting rod, the feed is subjected to the action of a variable screw pitch in the forward process to form a huge extrusion force, so that the feed is subjected to mechanical dehydration under the action of an external force, water is filtered through a filtering port of a dehydration transmission device and then discharged from a water outlet through a communicating pipe, the dehydrated feed is discharged from a discharge port, when the motor operates, a transmission rod is driven to drive a magnet rod of a cutting transmission device to rotate, so that the magnet rod and a magnet block generate a magnetic field reaction, the magnet block is separated from the magnet rod, a cutting knife is driven by the magnet block to enter the spiral lifting rod, the cutting knife cuts the feed which is coagulated under the action of the external force when the cutting knife rotates, and the feed is convenient to be, the discharge port is not easy to block, when the cutting edge of the cutting knife of the cutting transmission device is abraded, the rotary key of the rotary lock catch transmission device is rotated to drive the fixed gear, the fixed gear pulls the pull rope, the pull rope passes through the guide wheel to drive the limiting rod to move and separate the magnet rod from the transmission rod, and the disassembly and the replacement are convenient and fast. Time and labor are saved, and the replacement and the disassembly are convenient.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of a multifunctional feed elevator of the present invention.
Fig. 2 is a schematic elevation view of the spiral lifting rod of the present invention.
Fig. 3 is a schematic side view of the cutting transmission device of the present invention.
Fig. 4 is a schematic elevation structure view of the latch transmission device of the present invention.
In the figure: the device comprises a protective cover-1, a lifting rod-2, a feed inlet-3, a motor-4, a working box-5, a supporting foot stand-6, a fixed rod-7, a spiral lifting rod-a, a discharge outlet-b, a dehydration transmission device-c, a protective shell-d, a lock catch transmission device-e, a transmission rod-f, a cutting transmission device-g, a filtering port-c 1, a communicating pipe-c 2, a water outlet-c 3, a cutting knife-g 1, a magnet block-g 2, a magnet rod-g 3, a fixed block-e 1, a rotary key-e 2, a fixed gear-e 3, a pull rope-e 4, a limiting rod-e 5, a reset spring-e 6 and a guide wheel-e 7.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Referring to fig. 1-4, the present invention provides a technical solution of a multifunctional fodder elevator: the lifting device structurally comprises a protective cover 1, a lifting rod 2, a feed inlet 3, a motor 4, a working box 5, a supporting foot frame 6 and a fixed rod 7, wherein one end of the lifting rod 2 is arranged at one end of the protective cover 1, the other end of the lifting rod 2 is welded with one end of the lifting rod 2, the other end of the lifting rod 2 is arranged on the top surface of one side of the working box 5 and welded with the top surface of the working box 5, one end of the feed inlet 3 is arranged on the right side of the other end of the lifting rod 2 and welded with the right side of the lifting rod 2, the other end top surface of the working box 5 is provided with the motor 4 and is integrated with one end of the motor 4, the supporting foot frame 6 is arranged on the left side of the motor 4 and is welded with the left side of the motor 4, the fixed rod 7 is arranged above the left side of the supporting foot frame 6 and is welded with two ends of the, Discharge gate b, dehydration transmission device c, protecting sheathing d, hasp transmission device e, transfer line f, cutting transmission device g, spiral lifting rod a is located protecting sheathing d's inside and right-hand member and runs through one side welding of protecting sheathing d and work box 5, discharge gate b is located protecting sheathing d's below left end and is the integral structure with protecting sheathing d's below left end, dehydration transmission device c one end is located protecting sheathing d's below inside and top and cooperatees with spiral lifting rod a, dehydration transmission device c other end runs through protecting sheathing d's right-hand member and is the integral structure with protecting sheathing d, cutting transmission device g is located inside the left end of spiral lifting rod a and cooperatees with spiral lifting rod a, the one end of hasp transmission device e is located protecting sheathing d left side and the other end is located inside cutting transmission device g, the other end of the lock catch transmission device e penetrates through the inside of the right end of the cutting transmission device g and is connected with one end of a transmission rod f, the other end of the transmission rod f is welded with the working box 5, the dehydration transmission device c comprises a filtering port c1, a communicating pipe c2 and a water outlet c3, seven filtering ports c1 are arranged inside the lower portion of the protective shell d, the upper portions of the seven filtering ports c1 are matched with the lower portion of the spiral lifting rod a, a communicating pipe c2 is arranged below the filtering port c1 and is welded with the upper portion of the communicating pipe c2, the lower portion of the right end of the communicating pipe c2 and the upper portion of the water outlet c3 are of an integrated structure, the cutting transmission device g comprises a cutting knife g1, a magnet block g2 and a magnet rod g3, the cutting knife g1 is provided with four magnets, one end of each cutting knife is matched with the spiral lifting rod a, the other end of the cutting knife g1 is welded with one end of a magnet block g2, four magnets g2 are, the magnet rod g3 is of a quadrilateral structure, one end of the magnet rod g3 is buckled with one end of the transmission rod f, the other end of the magnet rod g3 is matched with one end of a lock catch transmission device e, the lock catch transmission device e comprises a fixed block e1, a rotary key e2, a fixed gear e3, a pull rope e4, a limiting rod e5, two return springs e6 and a guide wheel e7, one end of the rotary key e2 is attached to the left end of the protective shell d, the other end of the rotary key e2 penetrates through the protective shell d, the upper side and the lower side of the other end of the rotary key e2 are meshed with one end of the fixed gear e3, the fixed gears e3 are provided with two fixed blocks e1, one sides of the two fixed blocks e1 are matched with the middle of the rotary key e2, the pull rope e4 is provided with two fixed gears, one end of the pull rope e4 is buckled with the top surface of the fixed gear e3, the other end of the pull rope, the two return springs e6 are arranged, and the other end of the limiting rod e5 is connected with one end of the transmission rod f.
The invention is mainly characterized in that: after the motor 4 operates normally, feed is uniformly added from the feeding box, the feed after entering the machine advances along the axial direction under the pushing of the spiral rotating blade of the spiral lifting rod a, the feed is subjected to the action of the changed screw pitch in the advancing process to form huge extrusion force, the feed is mechanically dehydrated under the action of external force, moisture is filtered through a filtering port c1 of a dehydration transmission device c, and then the feed is discharged from a water outlet c3 through a communicating pipe c2, and the dehydrated feed is discharged from a discharge port b.
The invention is mainly characterized in that: when the motor operates, the driving rod f can be driven, the driving rod f drives the magnet rod g3 of the cutting transmission device g to rotate, the magnet rod g3 and the magnet block g2 generate magnetic field reaction, the magnet block g2 is separated from the magnet rod g3, the magnet block g2 pushes the cutting knife g1, the cutting edge of the cutting knife g1 enters the spiral lifting rod a, the cutting knife g1 cuts the coagulated block of the feed under the action of external force when rotating, the feed is convenient to discharge from the discharge port b, and the discharge port b is not easy to block.
The invention is mainly characterized in that: when the cutting edge of the cutting knife g1 of the cutting transmission device g is worn, the rotary key e2 of the locking transmission device e is rotated to enable the rotary key e2 to drive the fixed gear e3, the fixed gear e3 pulls the pull rope e4, the pull rope e4 passes through the guide wheel e7 to drive the limiting rod e5 to move, the magnet rod g3 is separated from the transmission rod f, and the disassembly and the replacement are convenient.
The invention solves the problems that when the prior art is used, 1, when the feed is too wet, the feed is not easy to dehydrate when being lifted, and the feed is easy to be coagulated into blocks when being lifted, and is not easy to discharge through a discharge hole, 2, when the feed is lifted, the coagulated blocks are too large, the discharge hole is easy to block, so that equipment fails, manual dredging is needed, time and labor are wasted, and through the mutual combination of the components, the invention enables 1, when in use, the equipment to rapidly dehydrate when the feed is too wet by arranging the spiral lifting rod and the dehydration transmission device, 2, when the feed is lifted, the coagulated blocks can be cut by the arranged cutting transmission device and the rotary lock catch transmission device, so that the feed is convenient to discharge from the discharge hole and is not easy to block the discharge hole, do not need to artifically dredge, labour saving and time saving, and be convenient for change and dismantle.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.