Production line of woody crop fermented feed raw materials
Technical Field
The utility model relates to the field of feed processing equipment, in particular to a production line for woody crop fermented feed raw materials.
Background
Woody crop fermented feed is with woody crop as the main ingredient, through adding various additives or bacterial and mixing the novel feed that forms after smashing, in the course of working, need through operations such as material loading, crushing, mixture, bagging-off, prior art adopts solitary equipment to carry out every step of operation usually, and each equipment adopts manual control to carry out the processing production, and the production efficiency that leads to current woody crop fermented feed is very low, can't satisfy the demand in current market.
Disclosure of Invention
Aiming at the defects of the prior art, the utility model provides the production line of the woody crop fermented feed raw material, which has high processing efficiency, good mixing effect and convenient operation.
The production line comprises an auxiliary material adding box, a crusher, a main auger conveyor, a forced stirring device, a tail end storage box and a bagging auger which are sequentially arranged, and further comprises a first feeding conveying belt and an upper auxiliary material auger which are used for respectively adding materials into the auxiliary material adding box, wherein the lower ends of the tail end storage box and the bagging auger are provided with an automatic discharging bagging auger, and a finished product outlet is formed in the automatic discharging bagging auger.
The forage in the scheme is added into the auxiliary material adding box through the first feeding conveyer belt, the auxiliary material is added into the auxiliary material adding box through the upper auxiliary material packing auger, the mixed auxiliary material adding box is crushed in the crusher, the crushed forage is conveyed into the forced stirring device through the main packing auger conveyer to be stirred, the crushed forage enters the tail end storage box and the bagging packing auger to be stored, and finished products in the tail end storage box and the bagging packing auger are output through the finished product outlet through the discharging automatic bagging auger at the lower ends of the tail end storage box and the bagging packing auger, so that the forage is packaged in the inlet bag.
Preferably, a fixed strong magnet is arranged above the first feeding conveying belt. Iron impurity such as the iron nail in this scheme is adsorbed to strong magnetism in to the forage, prevents to get into following process damage machine.
As optimizing, still including setting up the shakeout device in first reinforced conveyer belt top, the shakeout device is including fixed shakeout mount, coupling shakeout pivot and the rotatory shakeout motor of drive shakeout pivot on shakeout mount, the rigid coupling has a plurality of shakeout boards of arranging along circumference in the shakeout pivot. The rotation of shakeout pivot in this scheme is rotatory, and the forage through the rotation of shakeout board on to first reinforced conveyer belt is shaked out, makes the forage evenly get into the auxiliary material and adds the case.
As optimization, still include the supplementary material mechanism and the bacterial of intercommunication in the compulsory agitating unit of intercommunication in the intercommunication main auger conveyer add the mechanism. The auxiliary material feeding mechanism and the strain adding mechanism in the scheme can add other auxiliary materials and strains.
As optimizing, still including setting up the middle storage case in mandatory agitating unit below, the storage conveyer belt is equipped with in the middle storage case, and the conveyer belt is in the middle of being equipped with at the storage conveyer belt end, and the terminal auger conveyer import intercommunication of middle conveyer belt, the export and the terminal storage case and the packing auger intercommunication of terminal auger conveyer. The middle storage case that sets up in this scheme can temporarily store the finished product after the compulsory agitating unit stirs, and when not full in terminal storage case and the bagging auger, the storage conveyer belt carries the finished product in the middle storage case on the conveyer belt in the middle, then carries through terminal auger conveyer in terminal storage case and the bagging auger.
As optimization, first reinforced conveyer belt slope sets up, and first reinforced conveyer belt lower extreme stretches into to the feed bin, and the upper end adds the case intercommunication with the auxiliary material. First reinforced conveyer belt lower extreme stretches into to the feed bin in this scheme, can add the case with the auxiliary material automatic transport of the raw materials in the feed bin.
Preferably, a blanking port is formed in the bottom of the forced stirring device, a plug plate rotating shaft is further connected to the forced stirring device in a shaft connection mode, a discharging plug plate matched with the blanking port is fixedly connected to the plug plate rotating shaft, a rotating shaft driving rod is further fixedly connected to the plug plate rotating shaft, one end of a driving oil cylinder is hinged to the forced stirring device, and the other end of the driving oil cylinder is hinged to the rotating shaft driving rod. The drive oil cylinder in this scheme drives the closure plate pivot rotatory to it is rotatory to drive ejection of compact closure plate, and when ejection of compact closure plate was rotatory to the blanking mouth, plug up the blanking mouth.
The bag conveying device is characterized by further comprising a bag conveying belt arranged below the finished product outlet, the finished product conveying belt is arranged at the tail end of the bag conveying belt, and a heat sealing device is arranged on one side of the finished product conveying belt. The pocket conveyer belt that sets up in this scheme is used for outwards transporting to be equipped with off-the-shelf pocket, and the pocket is finally outwards carried through the off-the-shelf conveyer belt, and heat-sealing device carries out the heat-seal to the sack of pocket.
As optimizing, the automatic bagging-off auger of ejection of compact transversely sets up, and the automatic bagging-off auger middle part of ejection of compact communicates with terminal storage case lower extreme, and the auger blade at the automatic bagging-off auger both ends of ejection of compact revolves to opposite, and the finished product export has all been opened at the both ends of the automatic bagging-off auger of ejection of compact. In the scheme, the auger blades at the two ends of the automatic discharging bagging auger are opposite in rotating direction, and materials enter from the middle of the automatic discharging bagging auger and are conveyed to the two ends, so that the materials are bagged through the two finished product outlets.
The utility model has the beneficial effects that: the production line of the woody crop fermented feed raw material can realize automatic feeding, mixing, crushing, stirring and discharging operations, realize automatic production of the woody crop fermented feed, reduce the labor cost of workers and improve the production efficiency.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the installation of the ferromagnetic of the present invention;
FIG. 3 is a schematic view of the flattening apparatus according to the present invention;
FIG. 4 is a schematic structural view of a compulsory stirring device according to the present invention;
FIG. 5 is a schematic view of the structure of the end bin of the present invention;
FIG. 6 is a left side view of FIG. 5 in accordance with the present invention;
shown in the figure:
1. the device comprises a first feeding conveyer belt, 2, strong magnetism, 3, a flattening device, 4, a forced stirring device, 5, a tail end storage box, 6, an auxiliary material adding box, 7, an auxiliary material adding auger, 8, a pulverizer, 9, a feeding auger, 10, an auxiliary material feeding mechanism, 11, a strain adding mechanism, 12, a storage conveyer belt, 13, an intermediate conveyer belt, 14, a tail end auger conveyer, 15, a heat sealing device, 16, a finished product conveyer belt, 17, a pocket, 18, a pocket conveyer belt, 19, a storage bin, 20, an intermediate storage box, 21, a strong magnetism fixing frame, 22, a hanging plate, 23, a hanging rod, 31, a flattening fixing frame, 32, a flattening rotating shaft, 33, a flattening plate, 34, a flattening motor, 41, a discharging blocking plate, 42, a blocking plate rotating shaft, 43, a rotating shaft driving rod, 44, a driving oil cylinder, 51, an automatic discharging auger, 52 and a finished product outlet.
Detailed Description
In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.
As shown in figures 1-6, the production line of the woody crop fermented feed raw material comprises an auxiliary material adding box 6, a crusher 8, a feeding auger 9, a forced stirring device 4 and a tail end storage box 5 which are sequentially arranged. Including adding first reinforced conveyer belt 1 and the last auxiliary material auger 7 of material in the case 6 to the auxiliary material respectively, terminal storage case and 5 lower extremes of packing auger are equipped with the automatic packing auger 51 of ejection of compact, and it has finished product export 52 to open on the automatic packing auger 51 of ejection of compact.
First reinforced conveyer belt 1 slope sets up, and 1 lower extreme of first reinforced conveyer belt stretches into to feed bin 19, and the upper end adds 6 intercommunications with the auxiliary material.
The auxiliary material feeding auger 7 adopts an auger conveyor to add the auxiliary material into the auxiliary material adding box 6.
Auxiliary material adds case 6 and sets up in rubbing crusher 8 top, and the auxiliary material adds and is equipped with the stirring rake in the case 6, drives the stirring rake through the motor and carries out the compounding, flows into rubbing crusher 8 through the opening of lower extreme after the compounding.
After the material is crushed by the crusher 8, the crushed material is conveyed into the forced stirring device 4 through the feeding auger 9, and the material is stirred and mixed through a stirring paddle in the forced stirring device.
The bottom of the mandatory stirring device 4 is provided with a blanking port, the mandatory stirring device 4 is further provided with a plug plate rotating shaft 42 in a shaft connection mode, a discharging plug plate 41 matched with the blanking port is fixedly connected onto the plug plate rotating shaft 42, the discharging plug plate 41 is an upwards-protruding arc-shaped plate, the plug plate rotating shaft 42 is further fixedly connected with a rotating shaft driving rod 43, one end of a driving oil cylinder 44 is hinged to the mandatory stirring device 4, and the other end of the driving oil cylinder is hinged to the rotating shaft driving rod 43.
The device also comprises an auxiliary material feeding mechanism 10 communicated into the feeding auger 9 and a strain adding mechanism 11 communicated into the forced stirring device 4.
Still including setting up middle storage case 20 in the 4 below of mandatory agitating unit, storage conveyer belt 12 is equipped with in middle storage case 20, and outside storage case 20 in the middle of stretching out of storage conveyer belt 12's end, 12 ends of storage conveyer belt are equipped with middle conveyer belt 13, and the end and the 14 import of terminal auger conveyer of middle conveyer belt 13 communicate, and the export and the terminal storage case of terminal auger conveyer 14 and bagging-off auger 5 communicate.
The top of first reinforced conveyer belt 1 is provided with fixed strong magnetism 2, and strong magnetism 2 hangs on strong magnetism mount 21 through jib 23, is fixed with on the strong magnetism mount 21 and hangs link plate 22, and it has the hanging hole of a plurality of vertical arrangements to open on hanging plate 22, through hanging jib 23 on the hanging hole of difference, can adjust the distance of strong magnetism 2 for first reinforced conveyer belt 1.
Still including setting up the shakeout device 3 in first reinforced conveyer belt 1 top, shakeout device 3 is including fixed shakeout mount 31, coupling shakeout pivot 32 and the rotatory shakeout motor 34 of drive shakeout pivot 32 on shakeout mount 31, the rigid coupling has a plurality of shakeout boards 33 of arranging along circumference on the shakeout pivot 32, and shakeout board 33 is rotatory in first reinforced conveyer belt 1 top, and the interval between shakeout board 33 and first reinforced conveyer belt 1 is exactly the forage thickness of shakeout.
The automatic auger 51 of bagging-off of ejection of compact is provided with two, the automatic auger 51 of bagging-off of ejection of compact transversely sets up, and the automatic auger 51 middle part of bagging-off of ejection of compact communicates with 5 lower extremes of terminal storage case, and the auger blade at the automatic auger 51 both ends of bagging-off of ejection of compact revolves to opposite to carry the material in the middle of the rotation of the automatic auger 51 of bagging-off of ejection of compact to both ends, and the finished product export 52 has all been opened at the both ends of the automatic auger 51 of bagging-off of ejection of compact.
The bag-type packaging machine further comprises a bag conveying belt 18 arranged below the finished product outlet 52, the finished product conveying belt 16 is arranged at the tail end of the bag conveying belt 18, a heat sealing device 15 is arranged on one side of the finished product conveying belt 16, when the bag-type packaging machine is used, a bag 17 is placed on the bag conveying belt 18, and after the bag 17 is filled with materials at the finished product outlet 52, the bag 17 is conveyed onto the finished product conveying belt 16 through the bag conveying belt 18.
Of course, the above description is not limited to the above examples, and the undescribed technical features of the present invention can be implemented by or using the prior art, and will not be described herein again; the above embodiments and drawings are only for illustrating the technical solutions of the present invention and not for limiting the present invention, and the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that changes, modifications, additions or substitutions within the spirit and scope of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, and shall also fall within the scope of the claims of the present invention.