CN214516027U - High-efficient screening installation of pig feed - Google Patents

Abstract

The utility model discloses a high-efficient screening installation of pig feed, including base, screening mechanism, supplementary screening mechanism, feed mechanism. Screening mechanism installs on the base, and screening mechanism's top is equipped with supplementary screening mechanism, and feed mechanism installs in supplementary screening mechanism's top through the guide platform, and feed mechanism is linked together with supplementary screening mechanism's inner chamber. Feed mechanism can adjust the input speed and the volume of putting in of pig feed, and supplementary screening mechanism can blow to debris collection bag with lighter debris such as dust and collect the aftertreatment, avoids lighter debris to float polluted environment at will, and screening mechanism can reach the screening of thickness to pig feed, and the screening effect is obvious. The whole process has low labor intensity of workers, convenient use and wide adaptability.

Description

High-efficient screening installation of pig feed

Technical Field

The utility model relates to a pig feed processing technology field especially relates to a high-efficient screening installation of pig feed.

Background

The pig feed is a feed for feeding domestic pigs, which is generally composed of protein feed, energy feed, coarse feed, green feed, silage, mineral feed and feed additives, the pig feed sold in the market is mainly granulated feed processed and granulated by a machine, part of the pig feed is expanded granular feed, and the pig feed can be directly used for feeding objects.

Patent number CN108176587A discloses a formula poultry feed sieving mechanism sways, and the device can conveniently clear away the impurity in the fodder, avoids influencing the fodder quality, causes the breed loss. But the light impurities screened in the screening process float at will, which pollutes the environment; in addition, the screening effect is poor, and the thickness screening of the feed cannot be carried out.

SUMMERY OF THE UTILITY MODEL

In order to solve the defect that above-mentioned prior art exists, the utility model provides a high-efficient screening installation of pig feed.

The technical scheme of the utility model is realized like this:

the efficient pig feed screening equipment comprises a base, a screening mechanism, an auxiliary screening mechanism and a feeding mechanism, and is characterized in that the screening mechanism is mounted on the base, the auxiliary screening mechanism is arranged above the screening mechanism, the feeding mechanism is mounted above the auxiliary screening mechanism through a material guide table, and the feeding mechanism is communicated with an inner cavity of the auxiliary screening mechanism;

the screening mechanism comprises a pair of supporting seats, a motor, a rotary rod and a screening box, the supporting seats are identical in structure and are respectively installed at two ends of a base, the side wall of the upper end of each supporting seat is connected with the motor, the output end of the motor is connected with the rotary rod, each supporting seat comprises a moving frame, an eccentric wheel, a sliding block and sliding rails located on two inner side walls of the corresponding supporting seat, the moving frames are movably embedded in the sliding rails, the eccentric wheels are sleeved at two ends of the rotary rod and are respectively located at the upper ends of the moving frames, the sliding blocks are located on the lower surfaces of the moving frames and are movably embedded in the sliding rails, the lower surfaces of the sliding blocks are also connected with springs, the other ends of the springs are located on the lower wall surface of the supporting seat, the side wall surfaces of the sliding blocks are connected with vibrating blocks, and the screening box is located between the vibrating blocks;

the auxiliary screening mechanism comprises a cross-shaped support frame, a sundry connecting pipe and a sundry collecting bag, wherein the right side of the support frame is fixedly connected with a dustproof net, and the middle part of one side of the support frame is connected with a rotating shaft in a penetrating way; the rotating shaft is in transmission connection with a motor through a conveyor belt assembly, the support frame is also fixedly sleeved with fan blades positioned in a dust screen, the sundry connecting pipe is embedded in a second round hole formed in the other side of the material guide platform, and the sundry collecting bag is positioned at a sundry discharging port of the sundry connecting pipe;

the feeding mechanism comprises an upper frustum, a middle guide platform and a lower frustum which are of C-shaped structures, and one side of the inner wall of the middle guide platform is connected with a flow velocity adjusting part.

The utility model discloses an among this kind of high-efficient screening installation of pig fodder, sieve material case includes feed inlet, discharge gate, first guide swash plate, coarse screening net and fine screening net, the feed inlet is located the top and the bottom of sieve material case respectively with the discharge gate, coarse screening net and fine screening net all can dismantle with sieve material incasement wall through the fixing base at both ends and be connected, first guide swash plate is located the inner wall both sides of sieve material case and is located the below of fine screening net, the discharge gate is located the below of first guide swash plate.

The utility model discloses an among this kind of high-efficient screening installation of pig fodder, supplementary screening mechanism is linked together through the feed inlet of second guide swash plate with the sieve workbin.

The utility model discloses an among this kind of high-efficient screening installation of pig feed, the storage case has on the base, the storage case is located the upper and lower below of discharge gate.

The utility model discloses an among this kind of high-efficient screening installation of pig feed, the opening has been seted up to wall before the sieve workbin, the opening part inlays and is equipped with the chamber door.

Implement the utility model discloses a high-efficient screening installation of this kind of pig feed has following beneficial effect: this high-efficient screening installation of pig feed design benefit. Through setting up the velocity of flow regulation portion among the feed mechanism for be favorable to adjusting the pig feed speed and the pig feed input volume of putting into. Meanwhile, the feed for the pigs is in a dispersed state in four places when falling. In addition, by setting the auxiliary screening mechanism, light impurities such as dust and the like contained in the pig feed can be blown to the impurity collecting bag for collecting and post-processing, so that the light impurities are prevented from floating randomly to pollute the environment, and the quality and effect of subsequent screening of the pig feed are effectively improved.

Can make the sieve workbin carry out quick vibrations from top to bottom through the cooperation of motor, rotary rod and eccentric wheel and spring in the screening mechanism, coarse screen in the sieve workbin and fine screen net can separate pig feed coarse grain fine screening, and the pig feed after rethread storage case will filter is collected, has improved the screening effect of pig feed once more. The whole process has the advantages of low labor intensity of workers, convenient use, obvious screening effect and wide adaptability.

Drawings

FIG. 1 is a schematic structural view of the high-efficiency pig feed screening device of the utility model;

FIG. 2 is a schematic view of a portion of the structure of FIG. 1;

FIG. 3 is a schematic view of the construction of the sieve box of FIG. 1;

FIG. 4 is a schematic view of the supporting seat shown in FIG. 1;

fig. 5 is a schematic structural view of the feeding mechanism in fig. 1.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 5, the utility model discloses a high-efficient screening installation of pig feed, including base 1, screening mechanism, supplementary screening mechanism 2, feed mechanism 3. Screening mechanism installs on base 1, and screening mechanism's top is equipped with supplementary screening mechanism 2, and feed mechanism 3 installs in the top of supplementary screening mechanism 2 through guide table 4, and feed mechanism 3 is linked together with the inner chamber of supplementary screening mechanism 2. Wherein the material guiding platform 4 and the feeding mechanism 3 are fixedly connected with an integrated structure through a fastening bolt 5. When the staff throws into the pig feed from feed mechanism 3, the pig feed can drop to supplementary screening mechanism 2 from feed mechanism 3, drops again and screens the pig feed in screening mechanism.

The feeding mechanism 3 comprises an upper conical table 31, a middle guide table 32 with a C-shaped structure and a lower conical table 33, wherein one side of the inner wall of the middle guide table 32 is connected with a flow velocity adjusting part 34. The flow rate adjusting part includes an adjusting screw 340, a push plate 341, a swash plate 342, a balance plate 343, and a limit pipe 344. One end of the adjusting screw 340 extends into the middle guide table 32 and is fixedly connected with the push plate 341, the top of the push plate 341 is fixedly connected with an inclined plate 342, the top of the inclined plate 342 is fixedly connected with a balance plate 343, the limiting pipe 344 is embedded in a round hole formed in the side surface of the middle guide table 32, the limiting pipe 344 is movably connected with the balance plate 343, and the limiting pipe 344 is located above the adjusting screw 340. Through the setting of the flow velocity adjusting part 34, the adjusting screw 340 is manually rotated, and the spiral thrust generated by the adjusting screw 340 during rotation pushes the push plate 341 to change the displacement, so as to change the distance between the push plate 341 and the inner wall of the middle guide table 32, thereby adjusting the speed of the pig feed falling into the auxiliary screening mechanism 2 from the upper cone table 31 and the feeding amount of the pig feed, and enabling the pig feed to be in a dispersed state in four places during falling.

The screening mechanism comprises a pair of supporting seats 01 with the same structure, a motor 02, a rotating rod 03, a vibrating block 04 and a screening box 05. The supporting seat 01 is respectively installed at two ends of the base 1, a connecting plate is arranged on the side wall of the upper end of the supporting seat 01, a motor 02 is installed on the connecting plate, and the output end of the motor 02 is connected with a rotating rod 03. All including removing frame 011 in the supporting seat 01, eccentric wheel 012, slider 013 and the slide rail 014 that is located two inside walls of supporting seat 01, remove the equal activity of frame 011 and inlay and adorn in slide rail 014, eccentric wheel 012 all establishes at the both ends of rotary rod 03 and is located the upper end that removes frame 011 respectively, slider 013 all is located the lower surface and the activity that remove frame 011 and inlays and adorn in slide rail 014, slider 013's lower surface all is connected with spring 015, the other end of spring 015 is located the lower wall of supporting seat 01, slider 013's side wall all is connected with vibrating mass 04, sieve workbin 05 is located between the vibrating mass 04. When starter motor 02, motor 02 drives rotary rod 03 and rotates, and rotary rod 03 drives eccentric wheel 012 and rotates, because the eccentric action of eccentric wheel 012, it is when rotating, and the top moves removal frame 011 from top to bottom, and removal frame 011 can drive slider 013 and carry out the up-and-down motion, and elasticity concertina movement can be carried out to spring 015, and sieve workbin 05 can shake from top to bottom through slider 013's up-and-down motion and spring 013's elasticity to reach the purpose of sieve workbin 05 vibration.

A branch pipe 6 is embedded in a first round hole formed in one side of the material guide table 4, and an auxiliary screening mechanism 2 is fixedly connected to the inner pipe wall of the branch pipe 6. The auxiliary screening mechanism 2 comprises a cross-shaped support frame 21, an impurity connecting pipe 22 and an impurity collecting bag 23, a dust screen 24 is fixedly connected to the right side of the support frame 21, and fan blades 25 fixedly sleeved with the support frame are arranged in the dust screen 24. The middle part of one side of support frame 21 runs through and is connected with pivot 26, and pivot 26 passes through conveyer belt subassembly 27 and is connected with motor 02 transmission. The sundries connecting pipe 22 is embedded in a second round hole formed in the other side of the material guide table 4, the sundries collecting bag 23 is located at the sundries discharging port of the sundries connecting pipe 22, and the sundries connecting pipe 22 and the branch pipe 6 are located on the same horizontal line. Through the settlement of supplementary screening mechanism 2, flabellum 25 high-speed rotatory production syntropy continuous wind in the time of starter motor 02 function receives the blowing of lasting syntropy wind at the in-process of pig feed scattering whereabouts everywhere, blows the light debris that contain in the pig feed to debris connecting pipe 22 and collect the aftertreatment through debris collection bag 23 like dust, avoids light debris to float at will the polluted environment, has effectively improved the quality and the effect of the follow-up screening of pig feed.

Wherein, the screening box 05 comprises a feeding hole 050, a discharging hole 051, a first material guide sloping plate 052, a coarse screening net 053 and a fine screening net 054. The feeding hole 050 and the discharging hole 051 are respectively communicated with the top and the bottom of the screening box 05, the coarse screening net 053 and the fine screening net 054 are both in mesh shapes, the mesh aperture of the coarse screening net 053 is larger than that of the fine screening net 054, and the coarse screening net 053 is positioned at the upper end of the fine screening net 054. Coarse screening net 053 and fine screening net 054 are all connected with sieve material incasement wall can be dismantled through the fixing base 055 at both ends, wherein fixing base 055 position concave structure. The first material guide sloping plate 052 is positioned on two sides of the inner wall of the screening box 05 and below the fine screening net 054, and the discharge hole 051 is positioned below the first material guide sloping plate 052. An opening is arranged on the front wall surface of the screening box 05, and a box door 056 is embedded at the opening. The base 1 is provided with a storage box 7, and the storage box 7 is positioned above and below the discharge hole 051. The lower end of the auxiliary screening mechanism 2 is provided with a second material guide inclined plate 8, and the second material guide inclined plate 8 is communicated with a feeding hole 050 of the screening box 05. The pig feed which is not winnowed in the auxiliary screening mechanism 2 falls into the vibrating screening box 05 along the second guide inclined plate 8, the pig feed passes through the coarse screening net 053 and the fine screening net 054 under vibration, the pig feed can respectively stop on the coarse screening net 053 and the fine screening net 054 according to the sizes of different particles, and the pig feed with the smallest particles enters the storage box 7 through the discharge hole 051 along the first guide inclined plate 052. When the pig feed carried on the surfaces of the coarse screening net 053 and the fine screening net 054 is too much, the pig feed is stopped to be poured, the motor 02 is closed, the box door 056 is opened, the coarse screening net 053 and the fine screening net 054 are taken out, the pig feed above the coarse screening net 053 and the fine screening net 054 is stored, the pig feed is inserted into the fixing seat 055 again, the box door 056 is closed, and the screening is continued.

The utility model discloses an upper cone 31, well guide table 32, lower cone 33, the velocity of flow regulation portion 34 that set up for adjustable pig feed falls into the speed and the pig feed input volume of supplementary screening mechanism 2 from upper cone 31. Meanwhile, the pig feed is in a dispersed state in four places when falling, lighter impurities such as dust and the like contained in the pig feed are blown to the impurity collecting bag 23 for collecting and post-processing through the setting of the auxiliary screening mechanism 2, the phenomenon that the lighter impurities float randomly to pollute the environment is avoided, and the quality and the effect of subsequent screening of the pig feed are effectively improved. In addition, the screening box 05 can vibrate up and down rapidly through the matching of the motor 02, the rotary rod 03, the eccentric wheel 012 and the spring 015 in the screening mechanism, and the coarse screening net 053 and the fine screening net 054 in the screening box 05 can thoroughly screen and separate the pig feed with different sizes, so that the screening effect of the pig feed is improved again. The whole process has the advantages of low labor intensity of workers, low cost, convenient use and obvious screening effect.

The above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The efficient pig feed screening equipment comprises a base, a screening mechanism, an auxiliary screening mechanism and a feeding mechanism, and is characterized in that the screening mechanism is mounted on the base, the auxiliary screening mechanism is arranged above the screening mechanism, the feeding mechanism is mounted above the auxiliary screening mechanism through a material guide table, and the feeding mechanism is communicated with an inner cavity of the auxiliary screening mechanism; the screening mechanism comprises a pair of supporting seats, a motor, a rotary rod and a screening box, the supporting seats are identical in structure and are respectively installed at two ends of a base, the side wall of the upper end of each supporting seat is connected with the motor, the output end of the motor is connected with the rotary rod, each supporting seat comprises a moving frame, an eccentric wheel, a sliding block and sliding rails located on two inner side walls of the corresponding supporting seat, the moving frames are movably embedded in the sliding rails, the eccentric wheels are sleeved at two ends of the rotary rod and are respectively located at the upper ends of the moving frames, the sliding blocks are located on the lower surfaces of the moving frames and are movably embedded in the sliding rails, the lower surfaces of the sliding blocks are also connected with springs, the other ends of the springs are located on the lower wall surface of the supporting seat, the side wall surfaces of the sliding blocks are connected with vibrating blocks, and the screening box is located between the vibrating blocks;

the auxiliary screening mechanism comprises a cross-shaped support frame, a sundry connecting pipe and a sundry collecting bag, wherein a dust screen is fixedly connected to the right side of the support frame, fan blades are arranged in the dust screen, and a rotating shaft penetrates through the middle of one side of the support frame; the rotating shaft is in transmission connection with the motor through the conveyor belt assembly, the sundry connecting pipe is embedded in a second round hole formed in the other side of the material guide platform, and the sundry collecting bag is located at a sundry discharging port of the sundry connecting pipe;

the feeding mechanism comprises an upper frustum, a middle guide platform and a lower frustum which are of C-shaped structures, and one side of the inner wall of the middle guide platform is connected with a flow velocity adjusting part.

2. The efficient pig feed screening device according to claim 1, wherein the screening box comprises a feed inlet, a discharge outlet, a first guide inclined plate, a coarse screening net and a fine screening net, the feed inlet and the discharge outlet are respectively located at the top and the bottom of the screening box, the coarse screening net and the fine screening net are detachably connected with the inner wall of the screening box through fixing seats at two ends, the first guide inclined plates are located on two sides of the inner wall of the screening box and below the fine screening net, and the discharge outlet is located below the first guide inclined plates.

3. The pig feed high-efficiency screening device according to claim 1, wherein the auxiliary screening mechanism is communicated with the feed inlet of the screening box through a second material guide inclined plate.

4. The efficient pig feed screening device according to claim 1, wherein the base is provided with a storage box which is positioned above and below the discharge port.

5. The efficient pig feed screening device according to claim 1, wherein an opening is formed in the front wall surface of the screening box, and a box door is embedded in the opening.

Images