CN220313435U - A pelleter for domestic fungus - Google Patents

Abstract

The utility model discloses a granulating device for edible fungi, which belongs to the technical field of edible fungi processing and comprises a cutting box; the outer side wall of the cutting box is provided with a discharge chute communicated into the cutting box; a plurality of layers of supporting frames are arranged in the cutting box; a supporting plate for supporting edible fungi is rotatably connected between the opposite side walls of each supporting frame; each supporting frame is provided with an adjusting unit for adjusting the rotation angle of the supporting plate; one side of each supporting frame far away from the cutting unit is connected with the same push plate; in the method, the edible fungi which are stacked together can be dispersed by arranging the supporting frames on the plurality of layers, so that the cutting unit is easier to control during cutting, the number of flattened fungus blocks is reduced, the cutting uniformity can be improved, and the edible fungi after granulating are more uniform; as the number of the edible fungi is reduced and supported, the edible fungi are more likely to keep the original shape in the cutting process, and the generation of fragments in the cutting process can be reduced.

Description

A pelleter for domestic fungus

Technical Field

The utility model belongs to the technical field of edible fungi processing, and particularly relates to a granulating device for edible fungi.

Background

Edible fungi are a class of fungi with high nutritional value and unique flavor, such as mushrooms. They are widely distributed in nature and are widely used for food cooking and pharmaceutical applications. Edible fungi usually grow in soil or sapropel and other organic substances, and for some specific varieties, the edible fungi can be artificially cultivated in a cultivation environment, and the edible fungi are cut into grains, so that the edible fungi are a common processing mode.

CN218965545U discloses a device for granulating edible mushrooms, which comprises the steps that edible mushrooms are placed in a space formed by a horizontal plate and a longitudinal plate through a pushing plate, and then pushed to a granulating template through the pushing plate, so that the edible mushrooms are cut by a square structure, and the granulating processing of the edible mushrooms is completed; due to the limited space formed by the horizontal and longitudinal plates, when too many edible mushrooms are stacked together, the square structure may not cut all the pieces evenly, some pieces may be flattened or cut too large, and others may be cut too small, resulting in inconsistent cut pellets.

Disclosure of Invention

Accordingly, an objective of the present utility model is to provide a granulating device for edible fungi, so as to solve the technical problems set forth in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a granulating device for edible fungi, which comprises a cutting box; the outer side wall of the cutting box is provided with a discharge chute communicated into the cutting box; a plurality of layers of supporting frames are arranged in the cutting box; a supporting plate for supporting edible fungi is rotatably connected between the opposite side walls of each supporting frame; each supporting frame is provided with an adjusting unit for adjusting the rotation angle of the supporting plate; the adjusting unit can enable two adjacent layers of supporting frames to be communicated, so that edible fungi can fall onto a supporting plate at the lower layer; each supporting frame is provided with a cutting unit for cutting edible fungi; one side of each supporting frame far away from the cutting unit is connected with the same push plate; the push plate can slide towards the discharge chute.

Further, each adjusting unit includes a rotation shaft; one end of the rotating shaft penetrates through the supporting frame in a rotating way and is connected with one side, far away from the discharge chute, of the supporting plate; the other end of the rotating shaft rotates to penetrate through the cutting box and is connected with a fixing strip; a sliding block is sleeved on the fixed strip in a sliding way; one side of the sliding block, which is close to the cutting box, is connected with a clamping rod; the outer side wall of the cutting box is provided with a clamping hole for clamping the clamping rod.

Further, each cutting unit includes a rail connected between opposite side walls of the spout; one side of each transverse bar, which is close to the supporting frame, is connected with a cutting screen plate.

Further, each cutting screen plate comprises a plurality of first cutting plates and second cutting plates; the first cutting plate and the second cutting plate are mutually perpendicular and enclose into a grain cutting hole.

Further, the positions of the two adjacent rotating shafts are respectively and correspondingly arranged close to two opposite side walls in the cutting box.

Further, the device also comprises a workbench; the cutting box is arranged on the workbench; the workbench is detachably provided with a collecting box positioned below the discharging chute.

The utility model has the beneficial effects that:

in the method, the edible fungi which are stacked together can be dispersed by arranging the supporting frames on the plurality of layers, so that the cutting unit is easier to control during cutting, the number of flattened fungus blocks is reduced, the cutting uniformity can be improved, and the edible fungi after granulating are more uniform; as the number of the edible fungi is reduced and supported, the edible fungi are more likely to keep the original shape in the cutting process, and the generation of fragments in the cutting process can be reduced.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model. The objects and other advantages of the utility model may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the specification.

Drawings

In order to make the objects, technical solutions and advantageous effects of the present utility model more clear, the present utility model provides the following drawings for description:

FIG. 1 is a three-dimensional view of a pelletizing apparatus of the present utility model;

FIG. 2 is a three-dimensional view of the structure within the cutting box of the present utility model;

fig. 3 is an enlarged view of a portion of fig. 2 a in accordance with the present utility model.

The figures are marked as follows: the cutting box 1, the supporting frame 2, the supporting plate 3, the rotating shaft 4, the fixing strip 5, the sliding block 6, the clamping rod 7, the transverse strip 8, the first cutting plate 9, the second cutting plate 10, the workbench 11, the pushing strip 12, the vertical plate 13, the electric telescopic rod 14, the sliding strip 15 and the collecting box 16.

Detailed Description

As shown in fig. 1 to 3, the present utility model provides a granulating apparatus for edible fungi, comprising a cutting box 1; the upper end of the cutting box 1 is provided with an opening; the right side wall of the cutting box 1 is provided with a discharge chute communicated into the cutting box 1; a plurality of layers of horizontally arranged supporting frames 2 are arranged in the cutting box 1; the cross section of the supporting frame 2 is U-shaped; a supporting plate 3 for supporting edible fungi is rotatably connected between the opposite side walls of each supporting frame 2; each supporting frame 2 is provided with an adjusting unit for adjusting the rotation angle of the supporting plate 3; the adjusting unit can be communicated between two adjacent layers of supporting frames 2, so that edible fungi can fall onto the supporting plate 3 at the lower layer; a cutting unit for cutting edible fungi is arranged on each supporting frame 2; one side of each supporting frame 2 far away from the cutting unit is connected with a pushing plate which is vertically arranged in the same way; the push plate can slide towards the discharge chute.

The principle and beneficial effect of the technical scheme are that:

the edible fungi to be cut are poured onto the supporting plate 3 from the opening, then the supporting plate 3 is rotated by a preset angle through the adjusting unit, the edible fungi slide onto the supporting plate 3 at the lower layer from the supporting plate 3, then the rotating angle of the supporting plate 3 is adjusted through the corresponding adjusting unit, the edible fungi slide onto the supporting plate 3 at the lower layer again, and then the edible fungi stacked on the supporting plate 3 at the uppermost layer are uniformly dispersed, after that, the supporting plate 3 is adjusted to a horizontal state through the adjusting unit, then the supporting frame 2 is driven to move towards the discharging groove through the pushing plate, and the edible fungi are pushed to the cutting unit, so that the cutting unit cuts the edible fungi on the corresponding supporting plate 3.

In the method, the edible mushrooms which are stacked together can be dispersed by arranging the plurality of layers of the supporting frames 2, so that the cutting unit is easier to control during cutting, the number of flattened fungus blocks is reduced, the cutting uniformity can be improved, and the edible mushrooms after being cut into particles are more uniform; as the number of the edible fungi is reduced and supported, the edible fungi are more likely to keep the original shape in the cutting process, and the generation of fragments in the cutting process can be reduced.

In this embodiment, as shown in fig. 2 and 3, each adjusting unit includes a rotating shaft 4; one end of the rotating shaft 4 rotates to penetrate through the supporting frame 2 and is connected with one side of the supporting plate 3 away from the discharge chute; the other end of the rotating shaft 4 rotates to penetrate through the push plate and the cutting box 1 and is connected with a fixing strip 5; a sliding block 6 is sleeved on each fixing strip 5 in a sliding way; one side of the sliding block 6, which is close to the cutting box 1, is connected with a clamping rod 7; the side wall of the cutting box 1, which is away from the discharge chute, is provided with a clamping hole for clamping the clamping rod 7.

The principle and beneficial effect of the technical scheme are that:

when the angle of the support plate 3 needs to be adjusted, the sliding block 6 drives the clamping rod 7 to be separated from the clamping hole, so that the rotation restriction on the support plate 3 is relieved, and the support plate 3 connected with the rotating shaft 4 can be driven to rotate by rotating the fixing strip 5, so that redundant edible fungi can reach the next layer of support plate 3; after edible fungi are dispersed, the supporting plate 3 is rotated to a horizontal state, the sliding slide block 6 is used for enabling the clamping rod 7 to be clamped into the clamping hole, fixing the position of the supporting plate 3 is kept, the situation that the supporting plate 3 rotates to be clamped on the cutting unit when the supporting plate drives the supporting frame 2 to move is avoided, and stability and safety of the cutting process are guaranteed.

In this embodiment, as shown in fig. 2, each cutting unit comprises a bar 8 connected between opposite vertical side walls of the spout; the lower side wall of each transverse bar 8 is connected with a cutting screen plate; between two adjacent cutting units, the upper side wall of the supporting frame 2 is contacted with the cutting screen plate, and the lower side wall is contacted with the upper side wall of the transverse bar 8.

The principle and beneficial effect of the technical scheme are that:

when the pushing plate drives the supporting frame 2 to move, the edible fungi can pass through the space between the cutting screen plate and the transverse strips 8, so that the edible fungi on the supporting plate 3 are gradually pushed to the cutting screen plate by the pushing plate, and the grain cutting is completed.

In this embodiment, as shown in fig. 2, each cutting screen comprises a plurality of first vertical cutting plates 9 and a plurality of second horizontal cutting plates 10; the first cutting plate 9 and the second cutting plate 10 are perpendicular to each other and enclose a dicing hole.

The principle and beneficial effect of the technical scheme are that:

the edible fungi pushed by the push plate are cut by the first cutting plate 9 and the second cutting plate, and form fungus blocks after passing through the grain cutting holes.

In this embodiment, as shown in fig. 2, the positions of two adjacent rotating shafts 4 are respectively disposed near two opposite vertical side walls in the cutting box 1.

The principle and beneficial effect of the technical scheme are that:

the advantage of setting like this is that when rotating backup pad 3, can let edible fungus even behind backup pad 3, again slide to next backup pad 3 for edible fungus after the dispersion can be even be located in backup pad 3.

In this embodiment, as shown in fig. 1, the device further includes a workbench 11; the cutting box 1 is mounted on the workbench 11 through bolts; the side wall of the cutting box 1, which is away from the discharge chute, is provided with a square hole; a pushing strip 12 connected with the pushing plate is arranged in the square hole in a sliding manner; the workbench 11 is connected with a vertical plate 13 through bolts; the electric telescopic rod 14 is arranged on the vertical side wall of the vertical plate 13; one end of the push bar 12, which is away from the cutting box 1, is connected with the telescopic end of the electric telescopic rod 14; the vertical side wall of the workbench 11 is provided with a T-shaped chute; a sliding bar 15 is connected in a sliding way in the T-shaped sliding groove; the outer side wall of the slide bar 15 is connected with a collecting box 16 which is positioned obliquely below the discharge chute.

The principle and beneficial effect of the technical scheme are that:

when the edible fungi are required to be cut, the pushing bar 12 is driven to move by the electric telescopic rod 14, so that the pushing plate is driven to move; the collection box 16 is provided to collect the bacterial pieces falling from the dicing holes after dicing.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the utility model, and that, although the utility model has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the utility model as defined by the appended claims.

Claims (6)

1. A grain device cuts for domestic fungus, its characterized in that: comprises a cutting box; the outer side wall of the cutting box is provided with a discharge chute communicated into the cutting box; a plurality of layers of supporting frames are arranged in the cutting box; a supporting plate for supporting edible fungi is rotatably connected between the opposite side walls of each supporting frame; each supporting frame is provided with an adjusting unit for adjusting the rotation angle of the supporting plate; the adjusting unit can enable two adjacent layers of supporting frames to be communicated, so that edible fungi can fall onto a supporting plate at the lower layer; each supporting frame is provided with a cutting unit for cutting edible fungi; one side of each supporting frame far away from the cutting unit is connected with the same push plate; the push plate can slide towards the discharge chute.

2. The apparatus for granulating as recited in claim 1, wherein: each adjusting unit comprises a rotating shaft; one end of the rotating shaft penetrates through the supporting frame in a rotating way and is connected with one side, far away from the discharge chute, of the supporting plate; the other end of the rotating shaft rotates to penetrate through the cutting box and is connected with a fixing strip; a sliding block is sleeved on the fixed strip in a sliding way; one side of the sliding block, which is close to the cutting box, is connected with a clamping rod; the outer side wall of the cutting box is provided with a clamping hole for clamping the clamping rod.

3. The apparatus for granulating as recited in claim 1, wherein: each cutting unit comprises a cross bar connected between the opposite side walls of the discharge chute; one side of each transverse bar, which is close to the supporting frame, is connected with a cutting screen plate.

4. A pelleting device for edible mushrooms according to claim 3, wherein: each cutting screen plate comprises a plurality of first cutting plates and second cutting plates; the first cutting plate and the second cutting plate are mutually perpendicular and enclose into a grain cutting hole.

5. A pelleting device for edible mushrooms according to claim 2, wherein: the positions of the two adjacent rotating shafts are respectively and correspondingly arranged close to two opposite side walls in the cutting box.

6. The apparatus for granulating as recited in claim 1, wherein: the device also comprises a workbench; the cutting box is arranged on the workbench; the workbench is detachably provided with a collecting box positioned below the discharging chute.