CN112675961A - Feed mill for livestock breeding industry and use method thereof - Google Patents

Abstract

The invention discloses a feed grinder for livestock breeding industry and a using method thereof, and relates to the technical field of livestock feed processing equipment. According to the invention, through the mutual matching of the grinding driving motor, the driving grinding roller, the driven grinding roller and the secondary grinding block, the device can grind the feed for multiple times, so that the feed is ground more fully, the feed grinding effect is improved, the poultry digestion is facilitated, and through the mutual matching of the feeding driving motor, the feeding belt, the material turning central shaft, the material turning plate, the drying fan and the electric heating wire, the device can dry and turn the ground powdery feed, so that the drying effect of the device is improved, the moisture in the feed is avoided, the powdery feed is prevented from mildewing and deteriorating in the storage process, and the device is more practical.

Description

Feed mill for livestock breeding industry and use method thereof

Technical Field

The invention belongs to the technical field of livestock feed processing equipment, and particularly relates to a feed mill for livestock breeding and a using method thereof.

Background

Animal husbandry refers to the process of producing animal products such as meat, eggs, milk, wool, cashmere, leather, silk and medicinal materials by adopting the physiological functions of animals such as livestock and poultry which are artificially fed and domesticated by human beings or wild animals such as deer, musk, fox, mink, otter and quail and converting pasture, feed and other plant energy into animal energy through artificial feeding and breeding, and is an extremely important link for exchanging substances between human beings and the nature. In the breed in-process to the poultry, in order to avoid poultry indigestion, utilize the fodder milling machine to grind the fodder usually, however, current device only once grinds the fodder usually for the fodder grinds inadequately abundant, has reduced fodder crocus effect, is unfavorable for the digestion of poultry, and the most unable powdery feed after grinding of current device dries, makes the fodder dry inadequately, leads to the powdery feed storage in-process to go mildy rotten easily, makes the device not practical enough.

Disclosure of Invention

The invention aims to provide a feed mill for the livestock breeding industry, which solves the existing problems: the existing device usually only grinds the feed once, so that the feed grinding is insufficient, the feed grinding effect is reduced, and the digestion of poultry is not facilitated.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a feed grinder for livestock breeding industry, which comprises a casing, wherein a grinding powder driving motor is fixed at the top of the casing, a first belt pulley is fixed at the output end of the milling powder driving motor, a milling powder triangular belt is assembled at the outer side of the first belt pulley, a second belt pulley is assembled inside the milling powder triangular belt, the first belt pulley and the second belt pulley are connected through a grinding triangular belt, one side of the second belt pulley is welded and connected with a driving straight gear, one side of the driving straight gear is welded and connected with a driving grinding roller, the shell is rotationally connected with the driving grinding roller through a ball bearing, one end of the driving straight gear is provided with a driven straight gear, one side of the driven straight gear is welded and connected with the driven grinding roller, the shell and the driven grinding roller are rotatably connected through a ball bearing, and a secondary grinding block is welded and connected to the bottom of the driving grinding roller and the bottom of the driven grinding roller in the shell;

a feeding hopper and a controller are fixed at the top of the casing and at one end of the milling powder driving motor, the controller is located at one end of the feeding hopper, the milling powder driving motor and the controller are electrically connected through a lead, and supporting legs are fixed at four end corners of the bottom of the casing;

the driving straight gear is meshed with the driven straight gear;

a plurality of grinding grains are uniformly distributed on the outer sides of the driving grinding roller, the driven grinding roller and the secondary grinding block;

the distance between the driving grinding roller and the secondary grinding block is equal to the distance between the driven grinding roller and the secondary grinding block, and the distance between the driving grinding roller and the driven grinding roller is larger than the distance between the driving grinding roller and the secondary grinding block or the distance between the driven grinding roller and the secondary grinding block;

the model of the controller is SC-200 universal;

the bottom of each supporting leg is connected with a non-slip mat in an adhering mode, and a plurality of non-slip lines are uniformly distributed on the bottom of each non-slip mat;

the top of casing and the one end of keeping away from the magazine are fixed with pay-off driving motor, just controller and pay-off driving motor pass through wire electric connection, pay-off driving motor's output is fixed with the third belt pulley, the outside of third belt pulley is equipped with the pay-off V belt, the inside of pay-off V belt is equipped with the fourth belt pulley, just third belt pulley and fourth belt pulley pass through the pay-off V belt and connect, one side welded connection of fourth belt pulley has the pay-off drive roll, the outside of pay-off drive roll is equipped with the pay-off belt, the inside of pay-off belt is equipped with pay-off driven voller and pay-off backing roll, and the pay-off backing roll is located between pay-off driven voller and the pay-off drive roll, pay-off driven voller and pay-off drive roll pass through the, The shell and the feeding driving roll are in rotational connection;

a material turning driving motor is fixed at the top of the machine shell and positioned between the grinding driving motor and the feeding driving motor, the controller is electrically connected with the material turning driving motor through a conducting wire, a fifth belt pulley is fixed at the output end of the material turning driving motor, a material turning triangular belt is assembled on the outer side of the fifth belt pulley, a sixth belt pulley is assembled inside the material turning triangular belt, the fifth belt pulley is connected with the sixth belt pulley through the material turning triangular belt, a material turning central shaft is welded to one side of the sixth belt pulley, the machine shell is rotatably connected with the material turning central shaft through a ball bearing, and a plurality of material turning plates are uniformly welded to the outer side of the material turning central shaft;

a drying cavity is formed in the shell and at one end far away from the driven grinding roller, a plurality of air inlet holes are uniformly formed in the top of the drying cavity, a plurality of drying holes are uniformly formed in the bottom of the drying cavity, a drying fan is fixed to the top of each drying hole, a plurality of electric heating wires are uniformly fixed to the inside of the drying cavity and at the top of the drying fan, and the controller and the drying fan, the controller and the electric heating wires are electrically connected through wires;

the shell and the feeding driven roller, the shell and the feeding supporting roller, and the shell and the feeding driving roller are rotationally connected through ball bearings;

and a plurality of tooth sockets are uniformly distributed on the outer side of the material turning plate.

A use method of a feed mill in the livestock breeding industry comprises the following steps:

s1: electrically connecting the device with an external power supply, and feeding the feed into the device through a feeding hopper;

s2: the grinding driving motor is started through the controller, so that the driving grinding roller and the driven grinding roller rotate, the fed feed is ground for the first time, the ground feed falls onto the top of the secondary grinding block, and the feed is ground for the second time;

s3: starting a feeding driving motor through a controller to enable a feeding belt to drive the feed on the surface of the feeding belt to move;

s4: starting a drying fan and an electric heating wire through a controller, and blowing heated airflow to the surface of a feeding belt through the operation of the drying fan so as to dry the ground feed;

s5: the controller is used for starting the material turning driving motor, so that the material turning plate turns the feed on the surface of the feeding belt, and the feed is dried more uniformly.

The invention has the following beneficial effects:

1. according to the invention, through the mutual matching of the grinding driving motor, the driving grinding roller, the driven grinding roller and the secondary grinding block, the device can grind the feed for multiple times, so that the feed is ground more fully, the effect of grinding the feed is improved, and the digestion of poultry is facilitated.

2. According to the invention, through the mutual matching of the feeding driving motor, the feeding belt, the material turning central shaft, the material turning plate, the drying fan and the electric heating wire, the device can dry and turn ground powdery feed, the drying effect of the device is improved, the feed is prevented from containing moisture, the powdery feed is prevented from going moldy and going bad in the storage process, and the device is more practical.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a rear view of the overall structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

FIG. 6 is a schematic structural diagram of a material turning central shaft and a material turning plate;

fig. 7 is a cross-sectional view of the driving abrasive roll, the driven abrasive roll, and the secondary abrasive segment.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a housing; 2. grinding and driving a motor; 3. a first pulley; 4. grinding a triangular belt; 5. a second pulley; 6. a driving spur gear; 7. an active grinding roller; 8. a driven spur gear; 9. a driven grinding roller; 10. secondary grinding block; 11. a feeding hopper; 12. a controller; 13. supporting legs; 14. a feeding driving motor; 15. a third belt pulley; 16. feeding a V-belt; 17. a fourth belt pulley; 18. a feeding belt; 19. a feeding driven roller; 20. feeding and supporting rollers; 21. a material turning driving motor; 22. a fifth belt pulley; 23. turning over a V-belt; 24. a sixth belt pulley; 25. a material turning central shaft; 26. a material turning plate; 27. drying the fan; 28. an electric heating wire; 29. and a feeding driving roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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 creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-7, the present invention is a fodder grinder for livestock breeding industry, comprising a housing 1, a grinding powder driving motor 2 fixed on the top of the housing 1, a first pulley 3 fixed on the output end of the grinding powder driving motor 2, a triangular grinding belt 4 assembled on the outer side of the first pulley 3, a second pulley 5 assembled inside the triangular grinding belt 4, and the first pulley 3 and the second pulley 5 connected through the triangular grinding belt 4, a driving spur gear 6 welded on one side of the second pulley 5, a driving grinding roller 7 welded on one side of the driving spur gear 6, and the housing 1 and the driving grinding roller 7 rotatably connected through a ball bearing, one end of the driving spur gear 6 engaged with a driven spur gear 8, one side of the driven spur gear 8 welded with a driven grinding roller 9, and the housing 1 and the driven grinding roller 9 rotatably connected through a ball bearing, the inner part of the machine shell 1 is welded and connected with a secondary grinding block 10 at the bottom of the driving grinding roller 7 and the driven grinding roller 9;

a plurality of grinding grains are uniformly distributed on the outer sides of the driving grinding roller 7, the driven grinding roller 9 and the secondary grinding block 10;

here, the interval between the driving grinding roller 7 and the secondary grinding stone 10 is equal to the interval between the driven grinding roller 9 and the secondary grinding stone 10, and the interval between the driving grinding roller 7 and the driven grinding roller 9 is larger than the interval between the driving grinding roller 7 and the secondary grinding stone 10 or the interval between the driven grinding roller 9 and the secondary grinding stone 10;

a feeding hopper 11 and a controller 12 are fixed at the top of the machine shell 1 and at one end of the milling powder driving motor 2, the controller 12 is located at one end of the feeding hopper 11, the milling powder driving motor 2 is electrically connected with the controller 12 through a lead, and supporting legs 13 are fixed at four end corners of the bottom of the machine shell 1;

here, the controller 12 is of the SC-200 universal type;

the bottoms of the supporting legs 13 are bonded with anti-slip mats, and a plurality of anti-slip lines are uniformly distributed at the bottoms of the anti-slip mats;

a feeding driving motor 14 is fixed at one end of the top of the machine shell 1 far away from the feeding hopper 11, the controller 12 is electrically connected with the feeding driving motor 14 through a conducting wire, a third belt pulley 15 is fixed at the output end of the feeding driving motor 14, a feeding triangular belt 16 is assembled at the outer side of the third belt pulley 15, a fourth belt pulley 17 is assembled inside the feeding triangular belt 16, the third belt pulley 15 is connected with the fourth belt pulley 17 through the feeding triangular belt 16, a feeding driving roller 29 is welded at one side of the fourth belt pulley 17, a feeding belt 18 is assembled at the outer side of the feeding driving roller 29, a feeding driven roller 19 and a feeding supporting roller 20 are assembled inside the feeding belt 18, the feeding supporting roller 20 is positioned between the feeding driven roller 19 and the feeding driving roller 29, the feeding driven roller 19 is connected with the feeding driving roller 29 through the feeding belt 18, the machine shell 1 is connected with the feeding driven roller 19, the, The machine shell 1 and the feeding driving roll 29 are rotationally connected through a ball bearing;

a material turning driving motor 21 is fixed at the top of the machine shell 1 and positioned between the grinding driving motor 2 and the feeding driving motor 14, the controller 12 is electrically connected with the material turning driving motor 21 through a conducting wire, a fifth belt pulley 22 is fixed at the output end of the material turning driving motor 21, a material turning triangular belt 23 is assembled on the outer side of the fifth belt pulley 22, a sixth belt pulley 24 is assembled inside the material turning triangular belt 23, the fifth belt pulley 22 is connected with the sixth belt pulley 24 through the material turning triangular belt 23, a material turning central shaft 25 is welded on one side of the sixth belt pulley 24, the machine shell 1 is rotatably connected with the material turning central shaft 25 through a ball bearing, and a plurality of material turning plates 26 are uniformly welded and connected on the outer side of the material turning central shaft 25;

here, a plurality of tooth sockets are uniformly distributed on the outer side of the material turning plate 26, so that the feed is convenient to turn, and the feed is dried more uniformly;

the inside of casing 1 and the one end of keeping away from driven grinding roller 9 have seted up the stoving chamber, a plurality of inlet ports have been seted up to the top equipartition in stoving chamber, a plurality of stoving holes have been seted up to the bottom equipartition in stoving chamber, the top in stoving hole all is fixed with drying fan 27, the inside in stoving chamber and the top equipartition that is located drying fan 27 are fixed with a plurality of electric heating wire 28, and all through wire electric connection between controller 12 and drying fan 27, controller 12 and the electric heating wire 28.

Example two:

on the basis of the first embodiment, the application method of the feed mill for the livestock breeding industry is disclosed, and the application method comprises the following steps:

the first step is as follows: electrically connecting the device with an external power supply, and feeding the feed into the device through a feeding hopper 11;

the second step is that: start crocus driving motor 2 through controller 12, make crocus driving motor 2's output rotate, fixed connection through crocus driving motor 2 and first belt pulley 3, make crocus driving motor 2 drive first belt pulley 3 and rotate, because first belt pulley 3 and second belt pulley 5 are connected through crocus triangle belt 4, make first belt pulley 3 drive second belt pulley 5 and rotate, through the welded connection of second belt pulley 5 and driving spur gear 6, make second belt pulley 5 drive driving spur gear 6 and rotate, through the welded connection of driving spur gear 6 and driving grinding roller 7, make driving spur gear 6 drive driving grinding roller 7 and rotate, through the meshing connection of driving spur gear 6 and driven spur gear 8, make driving spur gear 6 drive driven spur gear 8 and rotate, through the welded connection of driven spur gear 8 and driven grinding roller 9, the driven spur gear 8 drives the driven grinding roller 9 to rotate, the driving grinding roller 7 and the driven grinding roller 9 grind the fed feed for the first time through the matching of the driving grinding roller 7 and the driven grinding roller 9, the ground feed falls on the top of the secondary grinding block 10, the feed is ground for the second time through the matching of the driving grinding roller 7 and the secondary grinding block 10 and the matching of the driven grinding roller 9 and the secondary grinding block 10, and the ground feed falls on the top of the feeding belt 18;

the third step: the feeding driving motor 14 is started through the controller 12, so that the output end of the feeding driving motor 14 rotates, the feeding driving motor 14 drives the third belt pulley 15 to rotate through the fixed connection between the feeding driving motor 14 and the third belt pulley 15, the third belt pulley 15 drives the fourth belt pulley 17 to rotate because the third belt pulley 15 and the fourth belt pulley 17 are connected through the feeding triangular belt 16, the fourth belt pulley 17 drives the feeding driving roller 29 to rotate through the welded connection between the fourth belt pulley 17 and the feeding driving roller 29, and the feeding driven roller 19 and the feeding driving roller 29 are connected through the feeding belt 18, so that the feeding driving roller 29 drives the feeding belt 18 and the feeding driven roller 19 to rotate, and further the feeding belt 18 drives the feed on the surface of the feeding driven roller to move;

the fourth step: the drying fan 27 and the electric heating wire 28 are started through the controller 12, so that the electric heating wire 28 releases heat to heat surrounding air, heated air flow is blown to the surface of the feeding belt 18 through the operation of the drying fan 27, the ground feed is dried, and the feed is prevented from being moist and mildewed;

the fifth step: start stirring driving motor 21 through controller 12, make the output of stirring driving motor 21 rotate, fixed connection through stirring driving motor 21 and fifth belt pulley 22, make stirring driving motor 21 drive fifth belt pulley 22 and rotate, because fifth belt pulley 22 and sixth belt pulley 24 pass through the triangular belt 23 connection of stirring, make fifth belt pulley 22 drive sixth belt pulley 24 and rotate, through the welded connection of sixth belt pulley 24 and stirring center pin 25, make sixth belt pulley 24 drive stirring center pin 25 and rotate, through the welded connection of stirring center pin 25 and stirring board 26, make stirring center pin 25 drive stirring board 26 and rotate, and then make stirring board 26 stir the fodder on feeding belt 18 surface, make the fodder dry more evenly, promote the stoving effect.

Claims (2)

1. The utility model provides a livestock breeding industry fodder milling machine, includes casing (1), its characterized in that, the top of casing (1) is fixed with crocus driving motor (2), the output of crocus driving motor (2) is fixed with first belt pulley (3), the outside of first belt pulley (3) is equipped with crocus V belt (4), the inside of crocus V belt (4) is equipped with second belt pulley (5), just first belt pulley (3) and second belt pulley (5) are connected through crocus V belt (4), one side welded connection of second belt pulley (5) has driving spur gear (6), one side welded connection of driving spur gear (6) has driving grinding roller (7), just casing (1) and driving grinding roller (7) rotate through ball bearing and connect, the one end of driving spur gear (6) is equipped with driven spur gear (8), one side of the driven straight gear (8) is connected with a driven grinding roller (9) in a welding mode, the machine shell (1) is rotatably connected with the driven grinding roller (9) through a ball bearing, and a secondary grinding block (10) is connected to the inner portion of the machine shell (1) and the bottoms of the driving grinding roller (7) and the driven grinding roller (9) in a welding mode;

a feeding hopper (11) and a controller (12) are fixed at the top of the machine shell (1) and at one end of the milling powder driving motor (2), the controller (12) is located at one end of the feeding hopper (11), the milling powder driving motor (2) is electrically connected with the controller (12) through a lead, and supporting legs (13) are fixed at four end corners of the bottom of the machine shell (1);

the driving straight gear (6) is meshed with the driven straight gear (8);

a plurality of grinding grains are uniformly distributed on the outer sides of the driving grinding roller (7), the driven grinding roller (9) and the secondary grinding block (10);

the distance between the driving grinding roller (7) and the secondary grinding block (10) is equal to the distance between the driven grinding roller (9) and the secondary grinding block (10), and the distance between the driving grinding roller (7) and the driven grinding roller (9) is larger than the distance between the driving grinding roller (7) and the secondary grinding block (10) or the distance between the driven grinding roller (9) and the secondary grinding block (10);

the type of the controller (12) is SC-200 universal type;

the bottoms of the supporting legs (13) are connected with anti-skid pads in an adhering mode, and a plurality of anti-skid grains are uniformly distributed at the bottoms of the anti-skid pads;

a feeding driving motor (14) is fixed at the top of the machine shell (1) and at one end far away from the feeding hopper (11), the controller (12) is electrically connected with the feeding driving motor (14) through a lead, a third belt pulley (15) is fixed at the output end of the feeding driving motor (14), a feeding triangular belt (16) is assembled at the outer side of the third belt pulley (15), a fourth belt pulley (17) is assembled inside the feeding triangular belt (16), the third belt pulley (15) is connected with the fourth belt pulley (17) through the feeding triangular belt (16), a feeding driving roller (29) is welded at one side of the fourth belt pulley (17), a feeding belt (18) is assembled at the outer side of the feeding driving roller (29), and a feeding driven roller (19) and a feeding supporting roller (20) are assembled inside the feeding belt (18), the feeding support roller (20) is positioned between the feeding driven roller (19) and the feeding drive roller (29), the feeding driven roller (19) is connected with the feeding drive roller (29) through a feeding belt (18), and the machine shell (1) is in rotary connection with the feeding driven roller (19), the machine shell (1) is in rotary connection with the feeding support roller (20), and the machine shell (1) is in rotary connection with the feeding drive roller (29);

a stirring drive motor (21) is fixed on the top of the casing (1) and positioned between the milling drive motor (2) and the feeding drive motor (14), the controller (12) is electrically connected with the stirring driving motor (21) through a lead, a fifth belt pulley (22) is fixed at the output end of the stirring driving motor (21), a material turning triangular belt (23) is assembled on the outer side of the fifth belt pulley (22), a sixth belt pulley (24) is assembled inside the material turning triangular belt (23), and the fifth belt pulley (22) and the sixth belt pulley (24) are connected through a material turning triangular belt (23), one side of the sixth belt pulley (24) is welded and connected with a material turning central shaft (25), and the machine shell (1) is rotationally connected with the material turning central shaft (25) through a ball bearing, a plurality of material turning plates (26) are uniformly welded and connected to the outer side of the material turning central shaft (25);

a drying cavity is formed in one end, far away from the driven grinding roller (9), of the interior of the machine shell (1), a plurality of air inlet holes are uniformly formed in the top of the drying cavity, a plurality of drying holes are uniformly formed in the bottom of the drying cavity, a drying fan (27) is fixed to the top of each drying hole, a plurality of electric heating wires (28) are uniformly fixed to the top, located on the drying fan (27), of the interior of the drying cavity, and the controller (12) and the drying fan (27), and the controller (12) and the electric heating wires (28) are electrically connected through wires;

the machine shell (1) is rotationally connected with the feeding driven roller (19), the machine shell (1) is rotationally connected with the feeding supporting roller (20), and the machine shell (1) is rotationally connected with the feeding driving roller (29) through ball bearings;

a plurality of tooth sockets are uniformly distributed on the outer side of the material turning plate (26).

2. A method of using a livestock breeding feed mill for a livestock breeding feed mill according to claim 1, characterized by the steps of:

s1: the device is electrically connected with an external power supply, and feed is put into the device through a feeding hopper (11);

s2: the grinding driving motor (2) is started through the controller (12), so that the driving grinding roller (7) and the driven grinding roller (9) rotate, the fed feed is ground for the first time, the ground feed falls on the top of the secondary grinding block (10), and the feed is ground for the second time;

s3: the feeding driving motor (14) is started through the controller (12), so that the feeding belt (18) drives the feed on the surface to move;

s4: the drying fan (27) and the electric heating wire (28) are started through the controller (12), and the heated airflow is blown to the surface of the feeding belt (18) through the operation of the drying fan (27), so that the ground feed is dried;

s5: the controller (12) is used for starting the material turning driving motor (21) to turn the feed on the surface of the feeding belt (18) by the material turning plate (26), so that the feed is dried more uniformly.

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