CN218959525U - High-efficiency crusher for forage grass - Google Patents

Abstract

The utility model relates to the technical field of forage grass crushing, in particular to a forage grass high-efficiency crusher, which comprises a crushing box and a plurality of feed inlets arranged on the crushing box, wherein two speed reducing motors are fixedly connected to the crushing box, cutting blades are fixedly connected to output shafts of the two speed reducing motors, adding cavities are fixedly connected to the feed inlets, cone feeding openings are fixedly connected to outer ends of the adding cavities, hollow slots are formed in the adding cavities and the cone feeding openings, a plurality of slide column groups are uniformly and fixedly connected to the crushing box, a plurality of vertical slide plates are respectively and slidably connected to the slide column groups, and the vertical slide plates are respectively and slidably connected to the hollow slots.

Description

High-efficiency crusher for forage grass

Technical Field

The utility model relates to the technical field of forage grass crushing, in particular to a forage grass high-efficiency crusher.

Background

Forage grass is also called forage grass, and refers to plants cultivated as livestock feed, broad-sense forage grass comprises green feed and crops, the condition of forage grass is preferably that the forage grass has the characteristics of tender growth quality, high yield per unit area, strong regeneration capacity, capability of being harvested for many times in one year, good palatability for livestock, rich nutrition, proper amount of phosphorus and calcium and rich vitamins and the like, the forage grass is preferably leguminous plants, the forage grass can be used as fresh grass, hay and silage or can be directly grazed without harvesting after harvesting, grass family forage grass comprises ladder grass, fescue, six-grass, wheat, fescue, brown leaf, green grass and the like, and the forage grass is required to be crushed before being used, so the forage grass is proposed.

Disclosure of Invention

The utility model aims to provide a forage grass high-efficiency pulverizer, which has the beneficial effect that forage grass can be cut and pulverized efficiently.

The utility model provides a forage grass high efficiency grinder, includes crushing case and sets up a plurality of charge gates on smashing the case, two gear motor of fixedly connected with on smashing the case, all fixedly connected with cutting knife board on the output shaft of two gear motor.

Further, a plurality of charging ports are fixedly connected with an adding cavity.

Furthermore, the outer ends of the plurality of adding cavities are fixedly connected with cone adding ports.

Further, a plurality of adding cavities and a plurality of cone adding ports are respectively provided with a hollow notch.

Further, the pulverizer further comprises a plurality of slide column groups, a plurality of vertical slide plates and a plurality of feeding pushing plates, wherein the plurality of slide column groups are uniformly and fixedly connected to the pulverizing box, the plurality of vertical slide plates are respectively and slidably connected to the plurality of slide column groups, the plurality of vertical slide plates are respectively and slidably connected to the plurality of hollow slots, the plurality of feeding pushing plates are respectively and slidably connected to the plurality of vertical slide plates, and the plurality of feeding pushing plates are respectively and slidably connected to the plurality of adding cavities.

Further, the pulverizer further comprises a plurality of lifting screws, the lifting screws are respectively connected to the plurality of vertical sliding plates in a rotating mode, and the plurality of feeding pushing plates are respectively connected with the lifting screws in a threaded transmission mode.

Further, the pulverizer further comprises a shielding cover and an adding pipe, wherein the shielding cover is connected to the pulverizing box in a sliding mode, and the adding pipe is fixedly connected to the shielding cover.

Further, the pulverizer further comprises a dust cover which is connected to the adding pipe in a sliding mode.

Further, the pulverizer further comprises a handle, and the handle is fixedly connected to the dust cover.

Further, the pulverizer further comprises a mixing cavity, a discharging pipe and supporting legs, wherein the mixing cavity is fixedly connected to the pulverizing box, the discharging pipe is fixedly connected to the mixing cavity, and the supporting legs are fixedly connected to the mixing cavity.

Drawings

FIG. 1 is a schematic view of the overall structure of the novel fodder grass high efficiency grinder;

FIG. 2 is a schematic view of a portion of the structure of the novel high efficiency forage grinder;

FIG. 3 is a schematic cross-sectional view showing a cross-sectional structure of an embodiment of a cutting and crushing process for forage grass;

FIG. 4 is a schematic view of an embodiment of providing a placement space for forage grass;

FIG. 5 is a partial schematic view of an embodiment of providing a placement space for the forage grass;

FIG. 6 is a schematic view of an embodiment in which other auxiliary materials are added into the device;

figure 7 is a schematic view of an embodiment of a storage space provided for crushed forage and other adjuvant.

Detailed Description

As shown in fig. 1-3:

the utility model provides a forage grass high efficiency grinder, includes crushing case 101, a plurality of charge door 102, two gear motor 103 and two cutting knife boards 104, is provided with a plurality of charge door 102 on the crushing case 101, and two gear motor 103 all pass through flange board fixed connection on crushing case 101, and two cutting knife boards 104 pass through welded fastening respectively on the output shaft of two gear motor 103.

Further, the crushing of forage grass is completed in the crushing box 101, the forage grass is added into the crushing box 101 through the plurality of feed inlets 102, the two speed reducing motors 103 can drive the two cutting blades 104 to rotate, the cutting of the forage grass is realized after the two cutting blades 104 rotate, a plurality of bundles of forage grass enters the crushing box 101 through the plurality of feed inlets 102, and at the moment, the two speed reducing motors 103 are started to drive the two cutting blades 104 to rotate, so that the efficient cutting and crushing of the plurality of bundles of forage grass are completed.

As shown in fig. 1, 2 and 4:

the pulverizer further comprises a plurality of adding cavities 201, and the adding cavities 201 are fixedly connected in the feeding ports 102 through welding respectively.

Further, a plurality of bundles of forage grass can be respectively added into the plurality of adding cavities 201, and finally the plurality of bundles of forage grass can be respectively fed into the plurality of feed inlets 102, so that the plurality of bundles of forage grass can be added into the crushing box 101, and the efficient cutting and crushing treatment of the plurality of bundles of forage grass can be completed in the crushing box 101.

As shown in fig. 1, 2 and 4:

the pulverizer further comprises a plurality of cone openings 301, and the cone openings 301 are fixedly connected to the outer ends of the plurality of adding cavities 201 through welding respectively.

Further, the plurality of cone-shaped openings 301 facilitate the addition of multiple bundles of forage grass into the plurality of adding chambers 201.

As shown in fig. 1, 2 and 4:

the shredder also includes a plurality of hollow slots 401, the plurality of hollow slots 401 being disposed on the plurality of adding chambers 201 and the plurality of cone openings 301, respectively.

Further, after the plurality of empty slots 401 are formed, a plurality of bundles of forage grass in the plurality of adding cavities 201 can be conveniently pushed to move, so that the plurality of adding cavities 201 are ensured to have no forage grass residues at last, and the waste of the forage grass is avoided.

As shown in fig. 1, 2, 4 and 5:

the pulverizer further comprises a plurality of slide column groups 501, a plurality of vertical sliding plates 502 and a plurality of feeding pushing plates 503, wherein the plurality of slide column groups 501 are uniformly and fixedly connected to the pulverizing box 101 through welding, the plurality of vertical sliding plates 502 are respectively connected to the plurality of slide column groups 501 through round holes in a sliding mode, the plurality of vertical sliding plates 502 are respectively connected to the plurality of hollow slots 401 through square holes in a sliding mode, the plurality of feeding pushing plates 503 are respectively connected to the plurality of vertical sliding plates 502 through straight cavities in a sliding mode, and the plurality of feeding pushing plates 503 are respectively connected to the plurality of adding cavities 201 in a sliding mode.

Further, the plurality of slide column groups 501 can provide sliding space for the plurality of vertical slide plates 502, and the plurality of vertical slide plates 502 can provide sliding space for the plurality of feeding push plates 503, when a plurality of bundles of forage grass are respectively added into the plurality of adding cavities 201, the plurality of vertical slide plates 502 slide to drive the plurality of feeding push plates 503 to move into the plurality of adding cavities 201, and the forage grass in the plurality of adding cavities 201 is driven to be extruded, so that the plurality of bundles of forage grass can be ensured to slowly enter the crushing box 101 and contact with the two rotating cutting blades 104, and the efficient cutting crushing treatment of the plurality of bundles of forage grass is completed.

As shown in fig. 1, 2, 4 and 5:

the pulverizer further comprises a plurality of lifting screws 601, the lifting screws 601 are respectively connected to the vertical sliding plates 502 in a rotating mode through bearing holes, and the feeding push plates 503 are respectively connected with the lifting screws 601 in a threaded transmission mode.

Further, the lifting screws 601 are rotated to drive the feeding pushing plates 503 to lift, so that the height of the feeding pushing plates 503 is changed, when multiple bundles of forage grass are required to be added into the adding cavities 201, the feeding pushing plates 503 are required to be at the highest point, the cone adding openings 301 are exposed, the multiple bundles of forage grass are conveniently added into the cone adding openings 301, the lifting screws 601 are rotated, the feeding pushing plates 503 are required to be at the lowest point, and the feeding pushing plates 503 are slidably connected into the adding cavities 201 to complete pushing treatment of the multiple bundles of forage grass.

As shown in fig. 1 and 6:

the pulverizer further comprises a shielding cover 701 and an adding pipe 702, wherein the shielding cover 701 is connected to the pulverizing box 101 in a sliding mode through a straight cavity, and the adding pipe 702 is fixedly connected to the shielding cover 701 through welding.

Further, the shielding cover 701 can be used for sealing the opening above the crushing box 101, sundries are prevented from entering the crushing box 101, other auxiliary materials can be added into the crushing box 101 through the adding pipe 702, and the other auxiliary materials are mixed with crushed forage grass to complete preparation of the forage.

As shown in fig. 1 and 6:

the shredder also includes a dust cap 801, the dust cap 801 being slidably coupled to the addition tube 702.

Further, the dust cap 801 can seal the opening above the addition pipe 702, and the placed sundries can be introduced into the pulverizing box 101 through the addition pipe 702.

As shown in fig. 1 and 6:

the shredder also includes a handle 802. The handle 802 is fixedly attached to the dust cap 801 by welding.

Further, the handle 802 is arranged, so that the dust cover 801 is conveniently driven to lift, and the dust cover 801 is taken off from the adding pipe 702.

As shown in fig. 1 and 7:

the pulverizer further comprises a mixing cavity 901, a discharge pipe 902 and supporting legs 903, wherein the mixing cavity 901 is fixedly connected to the pulverizing box 101 through welding, the discharge pipe 902 is fixedly connected to the mixing cavity 901 through welding, and the supporting legs 903 are fixedly connected to the mixing cavity 901 through welding.

Further, the crushed forage grass and other auxiliary materials are mixed in the mixing cavity 901, and finally discharged through the discharge pipe 902, a valve is arranged on the discharge pipe 902 to control whether the discharge pipe 902 is provided with the discharge of the forage, and the supporting legs 903 play a role in supporting and fixing, so that the device is stably placed on the ground.

Claims (10)

1. Forage grass high efficiency grinder, its characterized in that: including smashing case (101) and setting up a plurality of charge door (102) on smashing case (101), two gear motor (103) of fixedly connected with on smashing case (101), all fixedly connected with cutting knife board (104) on the output shaft of two gear motor (103).

2. The fodder grass high efficiency shredder of claim 1 wherein: and a plurality of charging ports (102) are fixedly connected with an adding cavity (201).

3. The fodder grass high efficiency shredder of claim 2 wherein: the outer ends of the plurality of adding cavities (201) are fixedly connected with cone adding ports (301).

4. A fodder grass high efficiency shredder as claimed in claim 3 wherein: hollow slots (401) are formed in the adding cavities (201) and the cone adding ports (301).

5. The fodder grass high efficiency grinder of claim 4 wherein: the crushing box (101) is fixedly connected with a plurality of slide column groups (501), each slide column group (501) is provided with a vertical slide plate (502) in a sliding mode, each vertical slide plate (502) is connected in a plurality of hollow slots (401) in a sliding mode, each vertical slide plate (502) is provided with a feeding push plate (503) in a sliding mode, and each feeding push plate (503) is connected in a plurality of adding cavities (201) in a sliding mode.

6. The fodder grass high efficiency shredder of claim 5 wherein: and a plurality of vertical sliding plates (502) are respectively and rotatably connected with lifting screws (601), and the lifting screws (601) are respectively connected with a plurality of feeding pushing plates (503) through screw threads.

7. The fodder grass high efficiency shredder of claim 1 wherein: the smashing box (101) is connected with a shielding cover (701) in a sliding mode, and an adding pipe (702) is fixedly connected to the shielding cover (701).

8. The fodder grass high efficiency shredder of claim 7 wherein: and the adding pipe (702) is connected with a dust cover (801) in a sliding manner.

9. The fodder grass high efficiency grinder of claim 8 wherein: the dust cover (801) is fixedly connected with a handle (802).

10. The fodder grass high efficiency shredder of claim 1 wherein: the crushing box (101) is fixedly connected with a mixing cavity (901), the mixing cavity (901) is fixedly connected with a discharge pipe (902), and the mixing cavity (901) is fixedly connected with supporting legs (903).

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