CN213792117U - Secondary circulation reducing mechanism for feed processing - Google Patents

Abstract

A feed processing secondary circulation crushing device relates to the technical field of feed processing, a support leg is fixed at the bottom of a box body, a feed inlet is connected at the top of the box body in a penetrating way, a discharge outlet is arranged at the bottom of the box body, two motors are fixed on the box body, the two motors are positioned at the left side and the right side of the feed inlet, after the output end of the motor passes through a through hole on the box body, a rotating rod is fixed by a coupler, a crushing blade is fixed on the rotating rod, a sleeve is fixed in a cavity in the box body by the connecting rod, the output shaft of the motor is fixed with a rotating rod II by the coupler, the rotating rod II is arranged in the sleeve in a penetrating way, a helical blade is fixed on the rotating rod II positioned at the bottom of the helical blade, a sieve plate is fixed on the rotating rod II, the sieve plate is arranged in a laminating way with the inner wall of the box body, sieve holes are arranged on the sieve plate, the design is reasonable, the feed processing without manually putting the feed which is not completely crushed, the feed is automatically and circularly crushed, and the crushing effect is ensured.

Description

Secondary circulation reducing mechanism for feed processing

Technical Field

The utility model relates to a feed processing technology field, concretely relates to secondary cycle reducing mechanism for feed processing.

Background

The crushing of the feed raw materials is an important link of feed processing, the total surface area of the feed can be increased through the crushing, the solubility of feed nutrients in animal digestive juice is increased, the digestibility of animals is improved, meanwhile, the crushing granularity of the feed has a vital influence on the subsequent processing of the feed, and the smaller the crushing granularity is, the more the digestion and absorption of the animals are facilitated. Present feed processing reducing mechanism carries out crushing work to the fodder, because inside crushing roller can not contact with the fodder is comprehensive completely, leads to partial fodder not smashed, can't collect not smashing complete fodder, then need relapse to carry out the secondary crushing processing to all fodder that have smashed, still needs personnel to drop into the pan feeding mouth again with the fodder in addition, wastes time and energy, needs urgent need to improve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a reasonable in design's secondary cycle reducing mechanism for feed processing, need not the manual work and will not smash complete fodder and drop into the pan feeding mouth again, the fodder is smashed to automatic cycle, has guaranteed kibbling effect.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the automatic feeding device comprises a box body, support legs, a feeding opening and an injection opening, wherein the support legs are fixed at the bottom of the box body, the feeding opening is connected to the top of the box body in a penetrating manner, and the injection opening is connected to the feeding opening in a penetrating manner; the novel feeding device also comprises a first motor, a first rotating rod, a crushing blade, a first connecting rod, a sleeve, a second connecting rod, a second motor, a second rotating rod, a helical blade, a sieve plate and a discharge port, wherein the bottom of the box body is provided with the discharge port, the box body is fixedly provided with the two first motors, the two first motors are positioned at the left side and the right side of the feed port, the output end of the first motor penetrates through a through hole on the box body and is fixedly provided with the first rotating rod, the first rotating rod is fixedly provided with the crushing blade, the inner cavity of the box body is fixedly provided with the sleeve by the first connecting rod, the inner cavity of the box body is fixedly provided with the second connecting rod, the second motor is fixedly provided on the second connecting rod, the second connecting rod is positioned below the sleeve, the output shaft of the second motor is fixedly provided with the second rotating rod by the coupler, the second rotating rod penetrates through the sleeve, the helical blade is fixedly provided on the second rotating rod, the sieve plate is fixedly provided on the second rotating rod positioned at the bottom of the helical blade, the sieve plate is attached to the inner wall of the box body, and sieve holes are formed in the sieve plate.

Furthermore, a nameplate is fixed at the front end of the box body.

Furthermore, the bottom of each support leg is fixed with a shock absorption foot pad.

Furthermore, a third motor is fixed behind the feeding port, an output shaft of the third motor is fixed with the driving wheel shaft through a coupler, a first bearing is embedded and fixed in a through hole formed in the front end of the feeding port, the other end of the driving wheel shaft is inserted in the first bearing, a crushing gear is sleeved on the driving wheel shaft, two second bearings which correspond to each other from front to back are fixed in through holes formed in the front end and the rear end of the feeding port, the second bearing is located on the left side of the first bearing, two ends of the driven wheel shaft are respectively inserted in the two second bearings, the driving wheel shaft and the driven wheel shaft are both sleeved with the crushing gear, and the two crushing gears are meshed with each other.

After the structure is adopted, the beneficial effects of the utility model are that: the utility model provides a secondary circulation reducing mechanism for feed processing, reasonable in design need not the manual work and will not smash complete fodder and drop into the pan feeding mouth again, and kibbling effect has been guaranteed to automatic cycle crushing fodder.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of fig. 1.

Fig. 3 is a top view of fig. 1.

Fig. 4 is a sectional view taken along line a-a in fig. 2.

Description of reference numerals:

the grinding device comprises a box body 1, support legs 2, a feeding port 3, an injection port 4, a first motor 5, a first rotating rod 6, a grinding blade 7, a first connecting rod 8, a sleeve 9, a second connecting rod 10, a second motor 11, a second rotating rod 12, a spiral blade 13, a sieve plate 14, a sieve hole 15, a discharging port 16, a nameplate 17, a shock absorption foot pad 18, a third motor 19, a driving wheel shaft 20, a first bearing 21, a grinding gear 22, a driven wheel shaft 23 and a second bearing 24.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 4, the following technical solutions are adopted in the present embodiment: the device comprises a box body 1, support legs 2, a feeding port 3 and a pouring port 4, wherein a nameplate 17 is fixedly welded at the front end of the box body 1, the support legs 2 are fixedly welded at the bottom of the box body 1, a cushioning foot pad 18 is fixedly riveted at the bottom of the support legs 2, a feeding port 3 is connected at the top of the box body 1 in a penetrating way, the pouring port 4 is connected on the feeding port 3 in a penetrating way, a third motor 19 is fixedly riveted at the rear part of the feeding port 3, an output shaft of the third motor 19 is fixed with a driving wheel shaft 20 by a coupler, a first bearing 21 is embedded and fixed in a through hole formed at the front end of the feeding port 3, the other end of the driving wheel shaft 20 is inserted in the first bearing 21, two second bearings 24 which correspond to each other in the front and the rear are embedded and fixed in through holes formed at the front and rear ends of the feeding port 3, the second bearings 24 are positioned at the left sides of the first bearings 21, two ends of a driven wheel shaft 23 are respectively inserted in the two second bearings 24, crushing gears 22 are respectively sleeved on the driving wheel shaft 20 and the driven wheel shaft 23, the two crushing gears 22 are meshed with each other; the device also comprises a first motor 5, a first rotating rod 6, a crushing blade 7, a first connecting rod 8, a sleeve 9, a second connecting rod 10, a second motor 11, a second rotating rod 12, a helical blade 13, a sieve plate 14 and a discharge port 16, wherein the bottom of the box body 1 is provided with the discharge port 16, the box body 1 is fixedly riveted with the two first motors 5, the first motors 5 are positioned at the left side and the right side of the feeding port 3, the output ends of the two first motors 5 penetrate through a through hole on the box body 1 and are fixedly provided with the first rotating rod 6 by using a coupler, the first rotating rod 6 is fixedly welded with the crushing blade 7, the inner cavity of the box body 1 is fixedly welded with the sleeve 9 by using the first connecting rod 8, the inner cavity of the box body 1 is fixedly welded with the second connecting rod 10, the second motor 11 is fixedly riveted on the second connecting rod 10, the second connecting rod 10 is positioned below the sleeve 9, the output shaft of the second motor 11 is fixedly welded with the second rotating rod 12 by using the coupler, the second rotating rod 12 is arranged in the sleeve 9 in a penetrating way, be fixed with helical blade 13 on the bull stick No. two 12, be located the cover and establish on the bull stick No. two 12 of helical blade 13 bottom and be fixed with sieve 14, sieve 14 and 1 inner wall laminating setting of box, sieve 15 has been seted up on the sieve 14.

The working principle of the specific embodiment is as follows: pour the fodder into by sprue 4, start No. three motor 19, drive wheel axle 20 anticlockwise rotation, thereby it is rotatory to drive crushing gear 22, the fodder enters into in the box 1 after rolling through crushing gear 22 earlier, start No. one motor 5 and No. two motor 11, No. one motor 5 drives bull stick 6 rotatory, crushing blade 7 is rotatory smash the fodder, the fodder falls on sieve 14, the fodder that satisfies particle size discharges from discharge gate 16 through sieve mesh 15, do not satisfy particle size's granule, roll the central point that falls sieve 14 and put, No. two motor 11 drive No. two bull sticks 12 rotatory, helical blade 13 rotates thereupon, it rises to sleeve pipe 9 top and drops to both sides to drive the fodder that does not satisfy particle size, through crushing processing of crushing blade 7 again.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the bottom of the support leg 2 is fixedly riveted with a shock absorption foot pad 18, so that the shock generated to the ground when the device works is reduced;

2. the two crushing gears 22 are mutually meshed, so that the feed is preferentially crushed, the workload of the crushing blades 7 is reduced, and the processing efficiency is improved;

3. a sieve plate 14 is sleeved and fixed on a second rotating rod 12 positioned at the bottom of the spiral blade 13, so that the feed with insufficient granularity can be conveniently screened out;

4. the second rotating rod 12 is fixed with a helical blade 13, and feeds without the standard of granularity which does not reach are subjected to secondary circulation crushing.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (4)

1. A secondary circulation crushing device for feed processing comprises a box body (1), support legs (2), a feeding opening (3) and an injection opening (4), wherein the support legs (2) are fixed at the bottom of the box body (1), the feeding opening (3) is connected to the top of the box body (1) in a penetrating manner, and the injection opening (4) is connected to the feeding opening (3) in a penetrating manner; the method is characterized in that: the novel feeding device also comprises a first motor (5), a first rotating rod (6), a crushing blade (7), a first connecting rod (8), a sleeve (9), a second connecting rod (10), a second motor (11), a second rotating rod (12), helical blades (13), a sieve plate (14) and a discharge hole (16), wherein the discharge hole (16) is formed in the bottom of the box body (1), the two first motors (5) are fixed on the box body (1), the two first motors (5) are positioned on the left side and the right side of the feeding hole (3), the first rotating rod (6) is fixed by a coupler after an output shaft of the first motor (5) penetrates through a through hole in the box body (1), the crushing blade (7) is fixed on the first rotating rod (6), the sleeve (9) is fixed in the inner cavity of the box body (1) by the first connecting rod (8), the second connecting rod (10) is fixed in the inner cavity of the box body (1), and the second motor (11) is fixed on the second connecting rod (10), no. two connecting rods (10) are located sleeve pipe (9) below, the output shaft of No. two motor (11) utilizes the shaft coupling to fix with bull stick (12) No. two, bull stick (12) are worn to establish in sleeve pipe (9), be fixed with helical blade (13) on No. two bull stick (12), be fixed with sieve (14) on being located No. two bull stick (12) of helical blade (13) bottom, sieve (14) set up with the laminating of box (1) inner wall, sieve mesh (15) have been seted up on sieve (14).

2. The secondary circulation reducing mechanism for feed processing of claim 1, characterized in that: the front end of the box body (1) is fixed with a nameplate (17).

3. The secondary circulation reducing mechanism for feed processing of claim 1, characterized in that: the bottom of the support leg (2) is fixed with a shock absorption foot pad (18).

4. The secondary circulation reducing mechanism for feed processing of claim 1, characterized in that: the rear of pan feeding mouth (3) be fixed with No. three motor (19), the output shaft of No. three motor (19) utilizes the shaft coupling to be fixed with driving wheel axle (20), the through-hole that pan feeding mouth (3) front end was seted up is embedded to be established and is fixed with bearing (21), the other end of driving wheel axle (20) is inserted and is established in bearing (21), the through-hole internal fixation that both ends were seted up around pan feeding mouth (3) is fixed with two No. two bearings (24) that correspond around, No. two bearing (24) are located the left side of bearing (21), the both ends of driven wheel axle (23) are inserted respectively and are established in two No. two bearings (24), all the cover is equipped with on driving wheel axle (20) and driven wheel axle (23) and smashes gear (22), two smash gear (22) intermeshing.

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