CN220657829U - Fodder powder process device - Google Patents

Abstract

The utility model discloses a feed pulverizing device, which comprises a workbench, wherein a supporting frame is fixedly arranged at the bottom of the workbench, universal wheels are fixedly arranged at four corners of the bottom of the supporting frame, a pulverizing box is fixedly arranged at the top of the workbench, pulverizing components are arranged in the pulverizing box, pulverizing cylinders are fixedly arranged at the top of the pulverizing box, sieve holes are uniformly distributed at the bottom of the pulverizing cylinders, and pulverizing components are arranged in the pulverizing cylinders; according to the utility model, materials are put into the crushing cylinder through the feed inlet, then the second driving motor is started to drive the driving wheel to rotate, the driving wheel drives the driven wheel to rotate through the belt, the driven wheel drives the fixed rods on the first rotating rod to rotate, the fixed rods drive the turning plate to turn the materials while rotating, and meanwhile, the turning plate performs hole dredging on the sieve holes through the through hole brushes while turning, so that the sieve holes are prevented from being blocked, and the timely discharge of the crushed materials is influenced.

Description

Fodder powder process device

Technical Field

The utility model relates to the technical field of feed processing, in particular to a feed pulverizing device.

Background

In the poultry cultivation process, the nutrients of the feed required in different growth stages are different, and in order to scientifically feed the poultry in cooperation with the poultry growth process, the poultry feed required in different growth periods of the poultry needs to be produced and prepared, so that the prepared poultry feed contains all the nutrients required by the poultry growth. The cereal raw materials are generally the main raw material sources of the poultry feed, the cereal raw materials mainly comprise corn, soybean, bran and the like, in order to prepare the poultry feed containing required nutritional ingredients, each cereal raw material is usually required to be crushed and then is prepared into powder, and then different cereal raw materials after the powder preparation are mixed again according to scientific proportions to prepare the composite poultry feed.

At present, when the existing feed pulverizing device is used for pulverizing materials, the materials are pulverized at first, a certain degree of sieve holes are blocked during pulverization, when the water content of cereal raw materials is high, the phenomenon of blocking holes is aggravated, and the timely discharge of the pulverized materials is affected.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a feed pulverizing device, which solves the problems.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a fodder powder process device, includes the workstation, workstation bottom fixed mounting has the support frame, support frame bottom four corners fixed mounting has the universal wheel, workstation top fixed mounting has the powder process case, install the powder process subassembly in the powder process case, powder process case top fixed mounting has crushing section of thick bamboo, crushing section of thick bamboo bottom evenly distributed has the sieve mesh, install the crushing subassembly of being convenient for prevent that the sieve mesh from blockking up in the crushing section of thick bamboo.

The crushing assembly comprises a first rotating rod which is rotationally connected in a crushing cylinder, two disc supports are fixedly arranged at two ends of the first rotating rod, a plurality of fixing rods are fixedly arranged between the disc supports, a plurality of connecting columns are uniformly distributed on the fixing rods, a plurality of material turning plates are fixedly arranged on the connecting columns, through hole brushes are fixedly arranged on the material turning plates, a plurality of T-shaped sliding grooves are fixedly arranged on the disc supports, T-shaped sliding blocks are fixedly connected in the T-shaped sliding grooves in a sliding manner, a second rotating rod is fixedly arranged between each two opposite T-shaped sliding blocks, a hammer block is fixedly arranged on the outer surface of each second rotating rod, a plurality of springs are fixedly arranged at the bottoms of the T-shaped sliding blocks, a connecting block is fixedly arranged at the other ends of the springs, and the other ends of the connecting blocks are fixedly arranged on the first rotating rod.

Preferably, the powder process subassembly includes the last mill of fixed mounting in the powder process incasement portion, go up mill axle center department and offered the through-hole, be located sieve mesh below fixed intercommunication in the powder process incasement portion and have the funnel, the funnel bottom just is inside the through-hole, go up the mill below and install down the mill, lower mill one side fixed mounting has the brush cleaner, fixed mounting has the toper guide block in the middle of the lower mill, toper guide block top is located the through-hole, it connects the flitch to lie in lower mill bottom fixed mounting in the powder process incasement portion, it connects the flitch top to lie in the mill periphery and has offered and connect the silo to connect the flitch top, powder process case diapire one side fixed mounting has first driving motor, first driving motor output fixed mounting has driving gear, driving gear meshing has driven gear, driven gear top runs through to connect flitch top fixed mounting in lower mill bottom through the support column.

Preferably, the length of the bristles of the through-hole brush may extend into the mesh.

Preferably, the plurality of hammer blocks are in a sector shape, and crushing teeth are uniformly distributed on the arc edges of the hammer blocks.

Preferably, the material turning plates are obliquely arranged in an arc shape, and the T-shaped sliding grooves on the two disc supports are oppositely arranged.

Preferably, the outer surface of the hammer block is attached to the inner wall of the crushing cylinder, and the top of the crushing cylinder is fixedly communicated with a feed inlet.

Preferably, a material receiving box is fixedly arranged on one side of the bottom wall of the powder making box, a fan is arranged on one side of the material receiving box, an air outlet end of the fan is connected into the material receiving box, the top of the material receiving box is communicated with the bottom of the material receiving groove through a material conveying pipe, a material discharging pipe is fixedly communicated with the other side of the material receiving box, and the other end of the material discharging pipe penetrates through one side of the powder making box.

Preferably, one side of the bottom of the support frame is fixedly provided with a second driving motor through a support plate, the output end of the second driving motor is fixedly provided with a driving wheel, the first rotating rod penetrates through a bearing to one side of the crushing cylinder and is fixedly provided with a driven wheel, and the driving wheel is in transmission connection with the driven wheel through a belt.

Advantageous effects

The utility model provides a feed pulverizing device. Compared with the prior art, the method has the following beneficial effects:

(1) According to the utility model, materials are put into the crushing cylinder through the feed inlet, then the second driving motor is started to drive the driving wheel to rotate, the driving wheel drives the driven wheel to rotate through the belt, the driven wheel drives the fixed rods on the first rotating rod to rotate, the fixed rods drive the turning plate to turn the materials while rotating, and meanwhile, the turning plate performs hole dredging on the sieve holes through the through hole brushes while turning, so that the sieve holes are prevented from being blocked, and the timely discharge of the crushed materials is influenced.

(2) According to the utility model, the first rotating rods drive the plurality of second rotating rods to rotate, the plurality of second rotating rods drive the hammer blocks to rotate while rotating, and the hammer blocks on the second rotating rods reciprocate in the T-shaped sliding grooves under the action of the elasticity of the springs, so that the hammer blocks crush materials, meanwhile, the crushed materials can be subjected to powder processing through the mutual matching of the upper grinding disc and the lower grinding disc, and meanwhile, the fan is started to discharge the materials after powder processing, so that the practicability is strong.

Drawings

FIG. 1 is a perspective view of the external structure of the present utility model;

FIG. 2 is a front view of the internal structure of the present utility model;

FIG. 3 is a schematic view of a shredder assembly of the present utility model;

FIG. 4 is a schematic view of the milling assembly of the present utility model;

fig. 5 is a schematic view of a screen mesh of the present utility model.

In the figure 1, a workbench; 2. a support frame; 3. a universal wheel; 4. a pulverizing box; 5. a crushing cylinder; 6. a sieve pore; 7. a feed inlet; 8. a material receiving box; 9. a blower; 10. a discharge pipe; 11. a second driving motor; 12. a driving wheel; 13. driven wheel; 100. a pulverizing assembly; 101. an upper millstone; 102. a funnel; 103. a lower grinding disc; 104. a conical flow guiding block; 105. a receiving plate; 106. a first driving motor; 107. a drive gear; 108. a driven gear; 200. a crushing assembly; 201. a first rotating lever; 202. a disc support; 203. a fixed rod; 204. a connecting column; 205. a turning plate; 206. a through hole brush; 207. a T-shaped chute; 208. a T-shaped slider; 209. a second rotating lever; 210. a hammer block; 211. a spring; 212. and (5) connecting a block.

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.

Embodiment one:

referring to fig. 1-5, a fodder pulverizing device, including workstation 1, workstation 1 bottom fixed mounting has support frame 2, and support frame 2 bottom four corners fixed mounting has universal wheel 3, and universal wheel 3 is convenient for remove this device, and workstation 1 top fixed mounting has powder process case 4, installs powder process subassembly 100 in the powder process case 4, and powder process case 4 top fixed mounting has crushing section of thick bamboo 5, and crushing section of thick bamboo 5 bottom evenly distributed has sieve mesh 6, installs the crushing subassembly 200 that is convenient for prevent crushing section of thick bamboo 5 jam in the crushing section of thick bamboo 5.

The crushing assembly 200 comprises a first rotating rod 201 which is rotatably connected in a crushing cylinder 5, disc supports 202 are fixedly arranged at two ends of the first rotating rod 201, a plurality of fixing rods 203 are fixedly arranged between the two disc supports 202, connecting columns 204 are uniformly distributed on the plurality of fixing rods 203, a material turning plate 205 is fixedly arranged on the plurality of connecting columns 204, the material turning plate 205 can better carry out material pocket throwing, a hammer block 210 is convenient for crushing the thrown material, through hole brushes 206 are fixedly arranged on the plurality of material turning plates 205, the through hole brushes 206 can sweep the blocked material in the crushing cylinder 5, T-shaped sliding grooves 207 are fixedly arranged on the two disc supports 202, T-shaped sliding blocks 208 are fixedly connected in the plurality of T-shaped sliding grooves 207, the same second rotating rod 209 is fixedly arranged between every two oppositely arranged T-shaped sliding blocks 208, the outer surface of each second rotating rod 209 is fixedly provided with a hammer block 210, the bottoms of the T-shaped sliding blocks 208 are fixedly provided with springs 211, the other ends of the springs 211 are fixedly provided with connecting blocks 212, the other ends of the connecting blocks 212 are fixedly provided with first rotating rods 201, the crushing assemblies 200 can effectively crush materials and prevent the inside of the sieve holes 6 from being blocked, when the materials are crushed and the inside of the sieve holes 6 is required to be blocked, the second driving motor 11 is started to drive the driving wheels 12 to rotate, the driving wheels 12 drive the driven wheels 13 to rotate through the belts, the driven wheels 13 drive the first rotating rods 201 to rotate, then the materials are thrown into the crushing cylinders 5 through the feed inlets 7, the first rotating rods 201 drive the second rotating rods 209 to rotate while rotating, the second rotating rods 209 drive the hammer blocks 210 to rotate while rotating, the hammer block 210 on the second rotating rod 209 reciprocates in the T-shaped chute 207 under the action of the elastic force of the spring 211, so that the hammer block 210 breaks up materials, the first rotating rod 201 drives the plurality of fixing rods 203 to rotate while rotating, the plurality of fixing rods 203 drive the turning plate 205 to turn the materials, and meanwhile, the turning plate 205 performs hole dredging on the sieve holes 6 through the through hole brushes 206 while turning, so that the blocking of the sieve holes 6 is avoided.

Embodiment two:

referring to fig. 1-5, the present embodiment provides a technical solution based on the first embodiment: the powder making assembly 100 comprises an upper millstone 101 fixedly arranged in a powder making box 4, a through hole is formed in the axis of the upper millstone 101, a funnel 102 is fixedly communicated below a pulverizing cylinder 5 in the powder making box 4, the bottom of the funnel 102 is right opposite to the inside of the through hole, a lower millstone 103 is arranged below the upper millstone 101, a cleaning brush is fixedly arranged on one side of the lower millstone 103, the bottom of the cleaning brush is attached to the bottom of a receiving groove, a conical flow guide block 104 is fixedly arranged in the middle of the lower millstone 103, the conical flow guide block 104 can more quickly collect materials flowing down from the funnel 102 between the lower millstone 101 and the upper millstone 103, so that faster processing is performed, the top of the conical flow guide block 104 is positioned in the through hole, a receiving plate 105 is fixedly arranged at the bottom of the lower millstone 103 in the powder making box 4, the top of the receiving plate 105 is positioned at the periphery of the upper millstone 101, a receiving groove is fixedly arranged on one side of the bottom wall of the powder making box 4, the input end of the first driving motor 106 is connected with a power supply through an external cable, the output end of the first driving motor 106 is fixedly provided with a driving gear 107, the driving gear 107 is meshed with a driven gear 108, the top of the driven gear 108 penetrates through a supporting column to the top of a receiving plate 105 and is fixedly arranged at the bottom of a lower grinding disc 103, the crushed materials can be effectively crushed through the arranged powder preparation assembly 100, when the crushed materials need to be crushed, the crushed materials fall into a through hole in an upper grinding disc 101 through a hopper 102, then the first driving motor 106 is started to drive the driving gear 107 to rotate, the driving gear 107 drives the driven gear 108 to rotate, the driven gear 108 drives the lower grinding disc 103 to rotate, the lower grinding disc 103 drives the materials to be rubbed with the upper grinding disc 101 to form powder in the rotating process, the material powder falls into a receiving groove, meanwhile, the lower grinding disc 103 drives the cleaning brush to sweep powder to the conveying pipe and fall into the material receiving box 8 in the rotating process.

The brush hair length of through-hole brush 206 can stretch to sieve mesh 6, a plurality of hammer block 210 is fan-shaped, evenly distributed has crushing tooth on the circular arc edge of hammer block 210, turn over flitch 205 and be the slope setting of arc form, T type spout 207 on two disc supports 202 is relative setting, hammer block 210 surface is laminated with crushing section of thick bamboo 5 inner wall mutually, crushing section of thick bamboo 5 top fixed intercommunication has feed inlet 7, powder process case 4 diapire one side fixed mounting has a material receiving case 8, material receiving case 8 installs fan 9 in one side, fan 9 input connects the power through external cable, fan 9 air-out end is inside material receiving case 8, material receiving case 8 top is linked together in material receiving groove bottom through the conveying pipeline, material receiving case 8 opposite side fixed intercommunication has discharging pipe 10, the discharging pipe 10 other end runs through powder process case 4 one side, support frame 2 bottom one side is through backup pad fixed mounting has second driving motor 11, second driving motor 11 input is through external cable connection power, second driving motor 11 output fixed mounting has drive wheel 12, first dwang 201 runs through the bearing to crushing section of thick bamboo 5 one side fixed mounting, from driving wheel 13, pass through belt conveying connection between drive wheel 12 and the driving wheel 13.

And all that is not described in detail in this specification is well known to those skilled in the art.

When the device works, firstly, the device is connected with an external power supply, then materials are put into the crushing cylinder 5 through the feed inlet 7, then the second driving motor 11 is started to drive the driving wheel 12 to rotate, the driving wheel 12 drives the driven wheel 13 to rotate through a belt, the driven wheel 13 drives the first rotating rod 201 to rotate, then the materials are put into the crushing cylinder 5 through the feed inlet 7, the first rotating rod 201 drives the plurality of second rotating rods 209 to rotate while rotating, the plurality of second rotating rods 209 drive the hammer blocks 210 to rotate while rotating, the hammer blocks 210 on the second rotating rods 209 do reciprocating motion in the T-shaped sliding grooves 207 under the elastic action of the springs 211, so that the hammer blocks 210 crush the materials, the first rotating rod 201 drives the plurality of fixing rods 203 to rotate while rotating, the fixed rods 203 drive the turning plate 205 to turn the materials, meanwhile, the turning plate 205 turns and simultaneously performs hole dredging on the sieve holes 6 through the through hole brushes 206, the sieve holes 6 are prevented from being blocked, the crushed materials fall into the through holes in the upper grinding disc 101 through the hopper 102 through the crushing cylinder 5, then the first driving motor 106 is started to drive the driving gear 107 to rotate, the driving gear 107 drives the driven gear 108 to rotate, the driven gear 108 drives the lower grinding disc 103 to rotate, the lower grinding disc 103 drives the materials to rub with the upper grinding disc 101 into powder in the rotating process, the material powder falls into the material receiving groove, meanwhile, the lower grinding disc 103 drives the cleaning brush to sweep the powder into the material conveying pipe to fall into the material receiving box 8 in the rotating process, and then the fan 9 is started to blow the powdery materials out through the material discharging pipe 10 to be collected.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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.

Claims (8)

1. Feed pulverizing device, including workstation (1), its characterized in that: the novel grinding machine comprises a workbench (1), wherein a supporting frame (2) is fixedly arranged at the bottom of the workbench (1), universal wheels (3) are fixedly arranged at four corners of the bottom of the supporting frame (2), a powder making box (4) is fixedly arranged at the top of the workbench (1), a powder making assembly (100) is arranged in the powder making box (4), a grinding cylinder (5) is fixedly arranged at the top of the powder making box (4), sieve holes (6) are uniformly distributed at the bottom of the grinding cylinder (5), and a grinding assembly (200) which is convenient for preventing the sieve holes (6) from being blocked is arranged in the grinding cylinder (5);

crushing subassembly (200) are including rotating first dwang (201) of connection in crushing section of thick bamboo (5), equal fixed mounting in first dwang (201) both ends have disc support (202), two fixed mounting has a plurality of dead lever (203) between disc support (202), a plurality of evenly distributed has spliced pole (204) on dead lever (203), a plurality of equal fixed mounting has stirring board (205) on spliced pole (204), a plurality of equal fixed mounting has through-hole brush (206) on stirring board (205), two fixed mounting has a plurality of T type spout (207) on disc support (202), a plurality of equal sliding connection has T type slider (208) in T type spout (207), every two relative settings equal fixed mounting has same second dwang (209) between T type slider (208), every second dwang (209) surface equal fixed mounting has hammer block (210), a plurality of T type slider (208) bottom fixed mounting has spring (211), a plurality of other end (212) are fixed mounting has on connecting block (212) another end (212).

2. A feed milling apparatus as claimed in claim 1, wherein: the utility model provides a powder process subassembly (100) is including fixed mounting in the inside last mill (101) of powder process case (4), go up mill (101) axle center department and seted up the through-hole, be located sieve mesh (6) below fixed intercommunication in powder process case (4) and have funnel (102), funnel (102) bottom just is inside the through-hole, go up mill (101) below and install down mill (103), lower mill (103) one side fixed mounting has the brush cleaner, fixed mounting has toper guide block (104) in the middle of lower mill (103), toper guide block (104) top is located the through-hole, be located mill (103) bottom fixed mounting in powder process case (4) and connect flitch (105), connect flitch (105) top to be located the peripheral fixed silo that has seted up of mill (101), first driving motor (106) output fixed mounting has driving gear (107) in bottom wall one side of mill (4), driving gear (107) meshing has driven gear (108), driven gear (108) are passed through to mill (103) top fixed mounting to bottom of support column (105) bottom.

3. A feed milling apparatus as claimed in claim 1, wherein: the bristle length of the through-hole brush (206) can extend into the sieve holes (6).

4. A feed milling apparatus as claimed in claim 1, wherein: the hammer blocks (210) are fan-shaped, and crushing teeth are uniformly distributed on the arc edges of the hammer blocks (210).

5. A feed milling apparatus as claimed in claim 1, wherein: the material turning plates (205) are obliquely arranged in an arc shape, and T-shaped sliding grooves (207) on the two disc supports (202) are oppositely arranged.

6. A feed milling apparatus as claimed in claim 1, wherein: the outer surface of the hammer block (210) is attached to the inner wall of the crushing cylinder (5), and the top of the crushing cylinder (5) is fixedly communicated with a feed inlet (7).

7. A feed milling apparatus as claimed in claim 1, wherein: the utility model discloses a powder process, including powder process case (4), material receiving case (8) diapire one side fixed mounting, material receiving case (8) one side is installed fan (9), fan (9) air-out end material receiving case (8) are inside, material receiving case (8) top is through conveying pipeline intercommunication in material receiving groove bottom, material receiving case (8) opposite side fixed intercommunication has discharging pipe (10), the discharging pipe (10) other end runs through powder process case (4) one side.

8. A feed milling apparatus as claimed in claim 1, wherein: the grinding machine is characterized in that a second driving motor (11) is fixedly arranged on one side of the bottom of the supporting frame (2) through a supporting plate, a driving wheel (12) is fixedly arranged at the output end of the second driving motor (11), a first rotating rod (201) penetrates through a bearing to one side of the grinding cylinder (5) and is fixedly provided with a driven wheel (13), and the driving wheel (12) is connected with the driven wheel (13) through belt transmission.