Total mixed ration feed mixer
Technical Field
The utility model relates to the technical field of feed stirring, in particular to a total mixed ration feed stirrer.
Background
The total mixed ration is a coarse material, a fine material, minerals, microorganisms and other additives which are thoroughly mixed and can provide enough nutrition to meet the needs of cows. The total mixed ration feed stirrer is used for preparing total mixed ration, is suitable for feed stirring operation in agriculture and animal husbandry cultivation areas, large and medium-sized farms and standard community farms, and can cut up various fibrous feeds such as pasture, crop straw, silage and the like, uniformly mix and stir with refined materials, and complete the mixing operation once. The mixing stirring effect of the total mixed ration feed stirrer in the prior art is poor, materials are not easy to mix sufficiently, the mixing time is increased, and the mixing efficiency is reduced. Therefore, we propose a total mixed ration feed mixer.
Disclosure of Invention
Aiming at the defects that materials are not easy to be fully mixed in the prior art, the mixing time is increased and the mixing efficiency is reduced, the utility model provides a total mixed ration feed mixer which has the advantages of being capable of rapidly mixing materials and improving the processing efficiency and solves the problems in the prior art.
The utility model provides the following technical scheme: the utility model provides a complete mixing ration fodder mixing machine, includes the agitator, the bottom coaxial coupling of agitator has the toper shell, the inside coaxial coupling of agitator has the back shaft, the lower extreme of back shaft runs through to the bottom of toper shell and is connected through the bearing with it;
the outer side of the support shaft is connected with at least three second spiral stirring blades which are in spiral bending arrangement, the surfaces of the second spiral stirring blades are all in an inclined state, the top of each second spiral stirring blade is connected with a first connecting plate, the bottom of each second spiral stirring blade is connected with a fourth connecting plate, and the other ends of the fourth connecting plates and the other ends of the first connecting plates are connected to the support shaft;
the outside at second helical mixing blade is equipped with at least three first helical mixing blade, first helical mixing blade is spiral crooked setting, just first helical mixing blade surface is the incline condition, first helical mixing blade's spiral direction is opposite with second helical mixing blade, and incline condition is opposite with first helical mixing blade second helical mixing blade's top is connected with the second connecting plate second helical mixing blade's bottom is connected with the third connecting plate, wherein, third connecting plate end-to-end connection is in fourth connecting plate one side, the end at first connecting plate is connected to the second connecting plate.
Preferably, the outer wall of the stirring barrel is connected with at least three supporting legs, the bottoms of the supporting legs are connected to the top of the bottom plate, a connecting frame is fixedly connected between the two supporting legs, a driving motor is connected to the connecting frame through a motor mounting frame, belt pulleys are coaxially connected to the output end of the driving motor and the bottom of the supporting shaft, and the belt pulleys are connected through a belt.
Preferably, the end at the third connecting plate all is connected with the third spiral stirring vane that the slope set up downwards, the space that third spiral stirring vane encloses is the toper structure, third spiral stirring vane is located the toper shell, first spiral stirring vane and second spiral stirring vane are located the agitator, third spiral stirring vane bottom all is connected on annular seat, annular seat coaxial fixation is in the bottom of back shaft surface mounting between annular seat and the fourth connecting plate has spiral stirring piece.
Preferably, the top of the stirring barrel is rotationally connected with a top cover through a hinge, and one side, far away from the hinge, of the top cover top is fixedly connected with a handle.
Preferably, one side of the conical shell is fixedly connected with an inclined channel, the inclined channel is arranged obliquely downwards, a drawing plate is arranged at the joint of the inclined channel and the conical shell, and a grip is connected to the outer wall of the drawing plate.
Compared with the existing total mixed ration feed stirrer, the utility model has the following beneficial effects:
according to the utility model, the materials in the conical shell can be sufficiently stirred by the inner and outer two-layer structure formed by the first spiral stirring blade and the second spiral stirring blade and the stirring structure with opposite stirring directions of the first spiral stirring blade and the second spiral stirring blade, so that the processing efficiency is improved.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic view of a part of the structure of the present utility model.
In the figure: the stirring barrel 1, the top cover 2, the handle 3, the grip 4, the drawing plate 5, the inclined channel 6, the bottom plate 7, the supporting leg 8, the driving motor 9, the motor mounting frame 10, the connecting frame 11, the supporting shaft 12, the conical shell 13, the second connecting plate 14, the first spiral stirring blade 15, the second spiral stirring blade 16, the third connecting plate 17, the fourth connecting plate 18, the spiral stirring blade 19, the annular seat 20, the third spiral stirring blade 21, the first connecting plate 22 and the belt pulley 23.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1-2, a total mixed ration feed mixer comprises a mixing drum 1, wherein the bottom of the mixing drum 1 is coaxially connected with a conical shell 13, a supporting shaft 12 is coaxially connected inside the mixing drum 1, and the lower end of the supporting shaft 12 penetrates through the bottom of the conical shell 13 and is connected with the conical shell through a bearing, so that the supporting shaft 12 can normally rotate;
the outer side of the support shaft 12 is connected with at least three second spiral stirring blades 16, the second spiral stirring blades 16 are in spiral bending arrangement, the surfaces of the second spiral stirring blades 16 are all in an inclined state, the top of each second spiral stirring blade 16 is connected with a first connecting plate 22, the bottom of each second spiral stirring blade 16 is connected with a fourth connecting plate 18, and the other ends of the fourth connecting plates 18 and the first connecting plates 22 are connected to the support shaft 12;
at least three first spiral stirring blades 15 are arranged on the outer side of the second spiral stirring blade 16, the first spiral stirring blades 15 are spirally bent, the surfaces of the first spiral stirring blades 15 are in an inclined state, the spiral direction of the first spiral stirring blades 15 is opposite to that of the second spiral stirring blades 16, the inclined state is opposite to that of the first spiral stirring blades 15, the top of the second spiral stirring blades 16 is connected with a second connecting plate 14, the bottom of the second spiral stirring blades 16 is connected with a third connecting plate 17, the tail end of the third connecting plate 17 is connected to one side of a fourth connecting plate 18, and the second connecting plate 14 is connected to the tail end of the first connecting plate 22.
Wherein, be connected with at least three supporting leg 8 on the outer wall of agitator 1, the top at bottom plate 7 is connected to the bottom of supporting leg 8, fixedly connected with link 11 between two supporting legs 8, be connected with driving motor 9 through motor mounting bracket 10 on the link 11, the equal coaxial coupling in output of driving motor 9 and the bottom of back shaft 12 has belt pulley 23, be connected through the belt between the belt pulley 23, the setting of supporting leg 8 and bottom plate 7 has improved the stability that agitator 1 placed, and then guaranteed the normal clear of processing.
Wherein, all be connected with the third spiral stirring vane 21 that the slope set up downwards at the end of third connecting plate 17, the space that third spiral stirring vane 21 encloses is the toper structure, third spiral stirring vane 21 is located conical shell 13, first spiral stirring vane 15 and second spiral stirring vane 16 are located agitator 1, third spiral stirring vane 21 bottom all is connected on annular seat 20, annular seat 20 coaxial fixation is in the bottom of back shaft 12, back shaft 12 surface mounting between annular seat 20 and fourth connecting plate 18 has spiral stirring vane 19.
Wherein, the top of agitator 1 is connected with top cap 2 through the hinge rotation, and one side fixedly connected with handle 3 of hinge is kept away from at top cap 2 top, and the setting of top cap 2 can play sealed effect to the top of agitator 1, and the handle 3 that sets up simultaneously can facilitate the use to the upset of top cap 2.
Wherein, one side fixedly connected with slope passageway 6 of toper shell 13, slope passageway 6 slope sets up downwards, and the junction of slope passageway 6 and toper shell 13 is equipped with takes out board 5, takes out board 5 run through the top that sets up at slope passageway 6, takes out board 5 and is arc and hugs closely with toper shell 13 surface, is connected with handle 4 on taking out the outer wall of board 5, and the unloading of slope passageway 6 department can be controlled to taking out board 5 that sets up, and the setting of handle 4 has made things convenient for the user to take out the pulling of board 5 simultaneously.
Working principle: when the utility model is used, the first spiral stirring blade 15 and the second spiral stirring blade 16 can form an inner stirring structure and an outer stirring structure, the stirring directions of the inner stirring structure and the outer stirring structure are opposite, meanwhile, the spiral stirring blade 19 and the third spiral stirring blade 21 can sufficiently stir the materials in the conical shell 13, and the spiral stirring blade 19 can also be used for accelerating the discharge of the materials from the inclined channel 6.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.