CN115024410A

CN115024410A - Preparation method of balanced-nutrition pig feed

Info

Publication number: CN115024410A
Application number: CN202210600223.6A
Authority: CN
Inventors: 宋李玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-30
Filing date: 2022-05-30
Publication date: 2022-09-09

Abstract

The invention relates to the field of feed preparation, in particular to a preparation method of a balanced-nutrition piglet feed. The preparation method comprises the following steps: s1: taking corn flour, bean pulp, fish meal, wheat bran, shell powder and salt; s2: putting the raw materials into a mixing device, continuously cutting the raw materials, and cutting the caked parts of the raw materials into pieces; s3: continuously turning the mixing device to mix the raw materials and screen down the fine raw materials; s4: storing the material under the screen, and continuously cutting the material which is not screened under the screen. The mixing device comprises a round box, a cylinder and a grid piece, wherein the grid piece is fixed in the cylinder, and the cylinder is positioned above the round box and can be inserted into the round box. Can constantly cut the raw materials, cut up the raw materials caking department, constantly move the compounding device for intermix between the raw materials.

Description

Preparation method of balanced-nutrition pig feed

Technical Field

The invention relates to the field of feed preparation, in particular to a preparation method of a balanced-nutrition piglet feed.

Background

The piglet, also called piglet, is a piglet which is born right before, and grows fast because of the vigorous metabolism of substances, particularly the protein metabolism and the calcium and phosphorus metabolism are higher than those of an adult pig. The high requirements of the piglets on nutrients, both in quantity and quality, are particularly sensitive to an undernourished feed response, and therefore, the supply of various nutrients must be ensured for the piglets. The piglets need to be fed with balanced nutrition, the fed feed cannot cake, and the fed feed needs to be uniformly mixed, so that the normal growth of the piglets can be ensured, but the conventional feed is easy to cake and is easy to mix unevenly when being mixed.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the preparation method of the balanced-nutrition pig feed, which has the beneficial effects that the raw materials can be continuously cut, the caked part of the raw materials is cut, and the mixing device is continuously overturned, so that the raw materials are mixed with each other.

A preparation method of a balanced-nutrition piglet feed comprises the following steps:

s1: taking corn flour, bean pulp, fish meal, wheat bran, shell powder and salt;

s2: putting the raw materials into a mixing device, continuously cutting the raw materials, and cutting the caking parts of the raw materials into pieces;

s3: continuously turning the mixing device to mix the raw materials and screen down the fine raw materials;

s4: storing the material under the screen, and continuously cutting the material which is not screened under the screen.

50 parts of corn flour, 20 parts of soybean meal, 5 parts of fish meal, 15 parts of wheat bran, 0.5 part of shell powder and 0.35 part of salt are taken according to weight in the S1.

The mixing device comprises a round box, a cylinder and a grid piece, wherein the grid piece is fixed in the cylinder, and the cylinder is positioned above the round box and can be inserted into the round box.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of a method of making a nutritionally balanced piglet feed;

FIG. 2 is a first schematic structural diagram of a mixing device;

FIG. 3 is a schematic structural diagram II of a mixing device;

FIG. 4 is a third schematic structural view of a mixing device;

FIG. 5 is a first schematic structural diagram of the round box;

FIG. 6 is a second schematic structural view of the round box;

FIG. 7 is a first schematic structural view of a cylinder;

FIG. 8 is a second schematic structural view of the cylinder;

FIG. 9 is a schematic structural view III of the cylinder;

FIG. 10 is a first schematic structural view of a base;

fig. 11 is a second structural diagram of the base.

In the figure: a round case 101; a slot 102; a screen panel 103; a side shaft 104; a bump 105; a catch pin 106; a hydraulic cylinder 107; a rear seat 108;

a cylinder 201; a mesh 202; a vertical rod 203; a top beam 204; a semicircular ring 205; a protruding shaft 206; an L-shaped piece 207; a fastening screw 208; a square column 209; a spring 210; a dome 211;

an L-shaped frame 301; a friction wheel 302; a motor 303;

a base 401; a post 402; a foot bar 403; a bracket 404; a stationary shaft 405; a pad bar 406; a bent rod 407.

Detailed Description

s1: taking corn flour, bean pulp, fish meal, wheat bran, shell powder and salt;

s4: storing the material under the screen, and continuously chopping the material which is not screened under the screen.

The S1 comprises 50 parts of corn flour, 20 parts of soybean meal, 5 parts of fish meal, 15 parts of wheat bran, 0.5 part of shell powder and 0.35 part of salt by weight.

The testa Tritici can be replaced by testa oryzae.

As shown in fig. 5-9, this example can achieve the effect of preventing the raw material from agglomerating by tangentially cutting the raw material through the mesh member 202.

Because the mixing device comprises the round box 101, the cylinder 201 and the grid part 202, the grid part 202 is welded in the cylinder 201, the cylinder 201 and the grid part 202 are arranged above the round box 101 and can be inserted into the round box 101, and then the raw materials are poured into the round box 101, so that the raw materials can be mixed in the round box 101, and the grid part 202 can be inserted into the round box 101, and then the raw materials are prevented from caking through the grid part 202 in a tangential direction, and the cylinder 201 can rotate by taking the axis of the cylinder 201 as the axis, so that the position of the grid part 202 is adjusted, so that the grid part 202 is tangential to the raw materials in the round box 101 at different positions, and the raw materials at some positions are prevented from being cut.

As shown in fig. 5 to 6, this example can achieve the effect that fine material in the cylindrical case 101 is sifted.

Because the compounding device still includes sieve 103, sieve 103 passes through the downside of screw circle box 101, and fine and smooth raw materials can be sifted down in circle box 101, and sieve 103 can be changed into different screens among the prior art by oneself as required.

As shown in fig. 7 to 9, this example can achieve the effect of facilitating the control of the up-and-down movement and rotation of the cylinder 201.

Because the compounding device still includes montant 203 and back timber 204, both ends all have welded montant 203 about the drum 201 upside, and back timber 204 passes through the screw connection between the upper end of two montants 203, and then is convenient for control reciprocating and the rotation of drum 201 through back timber 204 and two montants 203.

As shown in fig. 7 to 9, this example can achieve the effect of mixing the raw materials in the round case 101 by shaking.

Because the compounding device still includes the dome 211, the dome 211 clearance fit is inserted on two montants 203, and the dome 211 can reciprocate along two montants 203, and then after the drum 201 inserted the circle box 101, the dome 211 can cover the upside at the circle box 101, can cover the circle box 101 through the dome 211, then drive circle box 101 constantly wave, and then wave and mix the raw materials in the circle box 101.

As shown in fig. 7 to 9, this example can achieve the effect of causing the round lid 211 to be pressed against the upper side of the round box 101 by the elastic force of the pressing spring 210.

Because the mixing device also comprises an L-shaped part 207, a fastening screw 208, a square column 209 and a spring 210, the L-shaped part 207 is welded in the middle of the top beam 204, the square column 209 is inserted in the front of the L-shaped part 207 in a vertical clearance fit manner, the spring 210 is welded at the lower end of the square column 209, the lower end of the spring 210 is welded on the upper side of the round cover 211, the fastening screw 208 is in threaded connection with the front side of the L-shaped part 207, and the fastening screw 208 is pressed on the square column 209. And then when the square column 209 moves upwards, the round cover 211 can be pulled upwards through the spring 210 to move upwards for opening, after the cylinder 201 is inserted into the round box 101, the spring 210 can be moved downwards through the square column 209 to press, and then the elastic force of the spring 210 is transmitted to the round cover 211, so that the round cover 211 is pressed on the upper side of the round box 101 through the elastic force of the spring 210, and at the same time, when the cylinder 201 and the grid member 202 move upwards and downwards in the round box 101, the round cover 211 can still be pressed on the upper side of the round box 101 through the elastic force of the spring 210.

As shown in fig. 5 to 9, this example can realize the effect that the cylinder 201 and the mesh 202 can be rotated on the L-shaped frame 301 by the protruding shaft 206 about the axis of the protruding shaft 206.

Because the mixing device further comprises a convex shaft 206, an L-shaped frame 301, a hydraulic cylinder 107 and a rear seat 108, the convex shaft 206 is welded on the upper portion of the L-shaped member 207, the convex shaft 206 is rotatably connected on the upper portion of the L-shaped frame 301 through a bearing seat, the rear seat 108 is welded on the rear side of the round box 101, the L-shaped frame 301 is vertically inserted on the rear seat 108 in a clearance fit manner, the hydraulic cylinder 107 is connected on the rear seat 108 through a flange, the upper portion of the hydraulic cylinder 107 is connected on the upper portion of the L-shaped frame 301 through a flange, and the L-shaped frame 301 can be controlled to vertically slide on the rear seat 108 through the expansion and contraction of the hydraulic cylinder 107, so that the convex shaft 206, the L-shaped member 207, the cylinder 201, the grid members 202, the vertical rods 203 and the top beams 204 are driven to vertically move, and the cylinder 201 and the grid members 202 can rotate on the L-shaped frame 301 through the convex shaft 206 by taking the axis of the convex shaft 206 as a shaft.

As shown in fig. 7 to 9, this example can achieve the effect that the driving cylinder 201 and the mesh member 202 are rotated on the L-shaped frame 301 about the axis of the protruding shaft 206.

Because the mixing device still includes semicircle ring 205, friction pulley 302 and motor 303, semicircle ring 205 welds the upside at top beam 204, there is motor 303 upper portion of L shape frame 301 through bolted connection, be connected with friction pulley 302 on the output shaft of motor 303, friction pulley 302 and semicircle ring 205 friction drive, and then drive friction pulley 302 through motor 303 and rotate, and then drive semicircle ring 205 and use the axis of protruding axle 206 as the rotation of axle, finally drive drum 201 and net 202 and use the axis of protruding axle 206 as the rotation of axle on L shape frame 301.

The mixing device further comprises side shafts 104, convex blocks 105, stop pins 106, a base 401, foot rods 403, a support 404, a fixed shaft 405, cushion rods 406 and bent rods 407, the support 404 is welded on the upper side of the base 401, the fixed shaft 405 is inserted into the upper portion of the support 404 in a clearance fit mode, the left end and the right end of the fixed shaft 405 are respectively welded in the middle portions of the two bent rods 407, the foot rods 403 are welded between the lower ends of the two bent rods 407, the cushion rods 406 are welded on the upper portion of the support 404, the cushion rods 406 are located on the lower sides of the two bent rods 407, the left side and the right side of the round box 101 are respectively connected with the convex blocks 105 through screws, the outer sides of the two convex blocks 105 are respectively in threaded connection with the side shafts 104, the two side shafts 104 are respectively inserted into the upper portions of the two bent rods 407 in a clearance fit mode, the upper portion of each convex block 105 is fixedly connected with the two stop pins 106, and the two stop pins 106 on the same convex block 105 are respectively located on the front side and the back side above the corresponding side shaft 104.

As shown in fig. 2-11, this example can achieve the effect of causing the materials to mix in a pitch manner.

The foot can be used for pedaling the foot lever 403 downwards to move, at this time, the two bent levers 407 rotate on the support 404 through the fixed shaft 405, at this time, the rear ends of the two bent levers 407 lift upwards to further drive the round box 101 to lift upwards, and the round box 101 can also rotate back and forth between the rear ends of the two bent levers 407 through the two side shafts 104 on the round box 101, so that the front and back swing of the round box 101 is realized, the two bent levers 407 lift up to drive the round box 101 to lift integrally, so that the round box 101 is tossed, so that the raw materials in the round box 101 are tossed continuously, so that the raw materials are mixed in a way of tossing, and the raw materials can be sieved through the sieve plate 103, and the two stop pins 106 play a limiting role, so that the round box 101 is prevented from rotating back and forth through the two side shafts 104 between the rear ends of the two bent levers 407 by an overlarge angle.

The mixing device further comprises slots 102 and inserting columns 402, wherein the inserting column 402 is inserted into one bent rod 407, the slot 102 is formed in the front side of the round box 101, and the inserting column 402 can be inserted into the slot 102 to fix the relative positions of the round box 101 and the two bent rods 407.

As shown in fig. 2 to 11, this example can achieve the effect of fixing the relative positions of the round case 101 and the two curved bars 407.

When the relative position between the round box 101 and the two bent rods 407 needs to be fixed, the insert posts 402 are inserted into the slots 102.

Claims

1. A preparation method of balanced-nutrition pig feed is characterized by comprising the following steps:

s1: taking corn flour, bean pulp, fish meal, wheat bran, shell powder and salt;

2. The method for preparing a nutritionally balanced piglet feed according to claim 1, which comprises the following steps: the S1 comprises 50 parts of corn flour, 20 parts of soybean meal, 5 parts of fish meal, 15 parts of wheat bran, 0.5 part of shell powder and 0.35 part of salt by weight.

3. The method for preparing a nutritionally balanced piglet feed according to claim 1, wherein: the testa Tritici can be replaced by testa oryzae.

4. The method for preparing a nutritionally balanced piglet feed according to claim 1, which comprises the following steps: the mixing device comprises a round box (101), a cylinder (201) and a grid piece (202), wherein the grid piece (202) is fixed in the cylinder (201), and the cylinder (201) is located above the round box (101) and can be inserted into the round box (101).

5. The method for preparing a nutritionally balanced piglet feed according to claim 4, which comprises the following steps: the mixing device further comprises a sieve plate (103), and the sieve plate (103) is arranged on the lower side of the round box (101).

6. The method for preparing a nutritionally balanced piglet feed according to claim 5, wherein: the mixing device further comprises a vertical rod (203) and a top beam (204), the left end and the right end of the upper side of the cylinder (201) are fixedly connected with the vertical rod (203), and the top beam (204) is fixedly connected between the upper ends of the two vertical rods (203).

7. The method for preparing a nutritionally balanced piglet feed according to claim 6, wherein: the mixing device further comprises a round cover (211), and the round cover (211) is connected to the two vertical rods (203) in a sliding mode.

8. The method for preparing a nutritionally balanced piglet feed according to claim 7, wherein: the compounding device still includes L shape piece (207), fastening screw (208), square column (209) and spring (210), the middle part fixedly connected with L shape piece (207) of back timber (204), the vertical sliding connection of square column (209) is in the front portion of L shape piece (207), the lower extreme fixedly connected with spring (210) of square column (209), the lower extreme fixed connection of spring (210) is in the upside of dome (211), fastening screw (208) threaded connection is in the front side of L shape piece (207), fastening screw (208) are pressed on square column (209).

9. The method of claim 8 for preparing a nutritionally balanced piglet feed, wherein the method comprises the steps of: the mixing device further comprises a protruding shaft (206), an L-shaped frame (301), a hydraulic cylinder (107) and a rear seat (108), the protruding shaft (206) is fixedly connected to the upper portion of the L-shaped member (207), the protruding shaft (206) is rotatably connected to the upper portion of the L-shaped frame (301) through a bearing seat, the rear side of the round box (101) is fixedly connected with the rear seat (108), the L-shaped frame (301) is vertically connected to the rear seat (108) in a sliding mode, the hydraulic cylinder (107) is fixedly connected to the rear seat (108), and the upper portion of the hydraulic cylinder (107) is fixedly connected to the upper portion of the L-shaped frame (301).

10. The method for preparing a nutritionally balanced piglet feed according to claim 9, wherein: the mixing device further comprises a semicircular ring (205), a friction wheel (302) and a motor (303), the semicircular ring (205) is fixedly connected to the upper side of the top beam (204), the motor (303) is fixedly connected to the upper portion of the L-shaped frame (301), the friction wheel (302) is fixedly connected to an output shaft of the motor (303), and the friction wheel (302) and the semicircular ring (205) are in friction transmission.