CN215560290U - Semi-closed rotary cutting device for increasing surface area of fungus microorganisms - Google Patents

Abstract

A semi-closed rotary cutting device for increasing the surface area of fungus microorganisms comprises a case, a rotating mechanism and a rotary cutting structure, wherein a rotating motor is arranged in the case and connected with a material tray on the upper portion of the case, the rotary cutting motor is located on one side of the upper portion of the case, a rotary cutter is located in the material tray, a semi-sealing cover and the material tray are matched to cover the rotary cutter, the microorganism fungi are placed into the material tray from an opening on the upper side of the material tray, and the rotary cutting motor drives the rotary cutter to synchronously rotate while the rotating motor drives the material tray to rotate so as to cut the microorganism fungi into sheets with uniform thickness. The utility model overcomes the problems that single individual fungus is not beneficial to the growth of mixed fermentation microorganisms and the fermentation rate is reduced in the original fermentation process, and has the characteristics of simple structure, enlargement of the surface area of a single individual, promotion of the growth of the microorganisms in the mixed fermentation process, improvement of the fermentation rate, and simple and convenient operation.

Description

Semi-closed rotary cutting device for increasing surface area of fungus microorganisms

Technical Field

The utility model belongs to the technical field of microbial fermentation metabolic conversion, and relates to a semi-closed rotary cutting device for increasing the surface area of a fungus microorganism.

Background

Microbial fermentation refers to a process of converting a raw material into a product required by a human being through a specific metabolic pathway by using a microorganism under an appropriate condition. The microorganism is a general term for all microorganisms which are difficult to observe by naked eyes, but some microorganisms which can be seen by naked eyes, such as fungi, including mushrooms, forest conk and the like, are also used as raw materials for fermentation in the fermentation process, and are not beneficial to the growth of the microorganisms in the mixed fermentation process due to the relative large size of a single individual, so that the fermentation rate is reduced.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a semi-closed rotary cutting device for improving the surface area of fungus microorganisms, which is simple in structure, wherein a rotary motor is arranged in a case and is connected with a material tray on the upper part of the case, the rotary cutting motor is positioned on one side of the upper part of the case, a rotary cutter is positioned in the material tray, a semi-closed cover and the material tray are matched to cover the rotary cutter, the microorganism fungi are placed into the material tray from an opening on the upper side of the material tray, the rotary motor drives the material tray to rotate, and simultaneously the rotary cutter is driven by the rotary motor to synchronously rotate to cut the microorganism fungi into sheets with uniform thickness, so that the surface area of a single individual is enlarged, the growth of the microorganisms in a mixed fermentation process is facilitated, the fermentation rate is improved, and the operation is simple and convenient.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows: a semi-closed rotary cutting device for improving the surface area of fungus microorganisms comprises a case, a rotating mechanism and a rotary cutting structure; the rotary motor of the rotary mechanism is positioned in the case and connected with the material tray on the upper part of the case, the rotary cutting motor of the rotary cutting structure is positioned on one side of the upper part of the case, the rotary cutter of the rotary cutting structure is positioned in the material tray, the half sealing cover and the material tray are matched to cover the rotary cutter, and the rotary cutter synchronously rotates when the material tray rotates.

The case comprises a case shell connected with a bottom plate, the case shell is a box body with an opening at the lower side, and heat dissipation holes are formed in each side of the box body.

The rotary mechanism comprises a conical table at the bottom of the center of the material tray, the rotary motor is connected with the conical bottom of the conical table, and the rotary cutter is positioned between the conical table and the wall of the material tray.

The semi-closed cover is of a semicircular hollow conical structure with an opening at the conical bottom, the conical bottom with the larger cross section is in contact with the material tray, and the circular rod connected with the conical top with the smaller cross section is spliced with the circular hole on the conical table.

The rotary cutting structure comprises a rotary cutter connected with the end head of an output shaft of the rotary cutting motor, the output shaft penetrates through an open slot on the side edge of the half sealing cover, the rotary cutter is of an S-shaped structure, and a cutting edge of the rotary cutter is positioned on the edge of an outer arc.

A semi-closed rotary cutting device for improving the surface area of fungus microorganisms comprises a case, a rotating mechanism and a rotary cutting structure; the rotary motor of the rotary mechanism is positioned in the case and connected with the material tray on the upper part of the case, the rotary cutting motor of the rotary cutting structure is positioned on one side of the upper part of the case, the rotary cutter is positioned in the material tray, the half sealing cover and the material tray are matched to cover the rotary cutter, and the rotary cutter synchronously rotates when the material tray rotates. Simple structure, be connected through the charging tray that sets up rotating electrical machines and quick-witted case upper portion in the quick-witted case, the rotary-cut motor is located quick-witted case upper portion one side, the rotary-cut sword is located the charging tray, half closing cap covers the rotary-cut sword with the charging tray cooperation, the microorganism fungus is put into the charging tray from the opening part of charging tray upside, rotary-cut motor drive rotary-cut sword synchronous revolution when rotatory through the rotating electrical machines drive charging tray is rotatory cuts the microorganism fungus branch into the even slice of thickness, enlarge single individual surface area, be favorable to promoting mixed fermentation in-process microorganism growth, the fermentation rate is improved, easy operation is convenient.

In the preferred scheme, the machine case comprises a case shell connected with a bottom plate, the case shell is a box body with an opening at the lower side, and heat dissipation holes are formed in each side of the box body. Simple structure, during the use, the heat that the rotating electrical machines that is located the case shell produced in the course of the work is through the louvre on the case shell and the heat dissipation of external intercommunication.

In a preferred scheme, the rotating mechanism comprises a conical table at the bottom of the center of the material tray, the rotating motor is connected with the conical bottom of the conical table, and the rotary cutter is positioned between the conical table and the wall of the material tray. Simple structure, during the use, put into the charging tray with the microorganism fungus from half closing cap one side, the rotating electrical machines drive the charging tray rotatory, and the microorganism fungus that is located the charging tray when the charging tray is rotatory along with it, and meanwhile the rotary cutter is rotatory cutting microorganism fungus, and rotatory cutting is simultaneously cut, cuts microorganism fungus branch into the even slice of thickness, cuts efficiently, enlarges single microorganism fungus surface area, is favorable to promoting microorganism growth when mixing.

In the preferred scheme, the half closing cap is a semicircular hollow conical structure with an opening at the conical bottom, the conical bottom with the larger cross section is contacted with the material tray, and the circular rod connected with the conical top with the smaller cross section is spliced with the circular hole on the conical table. Simple structure cuts the in-process, and the rotary cutter is covered to half closing cap, avoids outside the garrulous end of cutting splashes the charging tray, and the charging tray uses the round bar of half closing cap as the center rotation, and half closing cap is not rotatory along with the charging tray.

In a preferred scheme, the rotary cutting structure comprises a rotary cutter connected with the end head of an output shaft of the rotary cutting motor, the output shaft penetrates through an open slot on the side edge of the half-sealing cover, the rotary cutter is of an S-shaped structure, and the cutting edge of the rotary cutter is positioned on the edge of an outer arc. The structure is simple, when the rotary cutting machine is used, the rotary cutting motor drives the rotary cutter to rotate, the cutting edge of the rotary cutter faces the cutting direction, and the output shaft of the rotary cutting motor penetrates through the open slot of the half sealing cover to be limited, so that the half sealing cover does not rotate along with the rotary cutting machine when the material tray rotates.

A semi-closed rotary cutting device for increasing the surface area of fungus microorganisms comprises a case, a rotating mechanism and a rotary cutting structure, wherein a rotating motor is arranged in the case and connected with a material tray on the upper portion of the case, the rotary cutting motor is located on one side of the upper portion of the case, a rotary cutter is located in the material tray, a semi-sealing cover and the material tray are matched to cover the rotary cutter, the microorganism fungi are placed into the material tray from an opening on the upper side of the material tray, and the rotary cutting motor drives the rotary cutter to synchronously rotate while the rotating motor drives the material tray to rotate so as to cut the microorganism fungi into sheets with uniform thickness. The utility model overcomes the problems that single individual fungus is not beneficial to the growth of mixed fermentation microorganisms and the fermentation rate is reduced in the original fermentation process, and has the characteristics of simple structure, enlargement of the surface area of a single individual, promotion of the growth of the microorganisms in the mixed fermentation process, improvement of the fermentation rate, and simple and convenient operation.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a side view of fig. 2.

Fig. 4 is a schematic top view of fig. 2.

Fig. 5 is a schematic cross-sectional view at a-a of fig. 2.

In the figure: the machine box 1, the bottom plate 11, the box shell 12, the rotating mechanism 2, the tray 21, the conical table 22, the rotating motor 23, the half-sealing cover 24, the round rod 25, the rotary cutting structure 3, the rotary cutting motor 31 and the rotary cutting knife 32.

Detailed Description

As shown in fig. 1 to 5, a semi-closed rotary cutting device for increasing the surface area of fungal microorganisms comprises a case 1, a rotating mechanism 2 and a rotary cutting structure 3; the rotating motor 23 of the rotating mechanism 2 is positioned in the case 1 and connected with the tray 21 on the upper part of the case 1, the rotary cutting motor 31 of the rotary cutting structure 3 is positioned on one side of the upper part of the case 1, the rotary cutter 32 is positioned in the tray 21, the half-sealing cover 24 is matched with the tray 21 to cover the rotary cutter 32, and the rotary cutter 32 synchronously rotates when the tray 21 rotates. Simple structure, through set up rotating electrical machines 23 and be connected with the charging tray 21 on quick-witted case 1 upper portion in quick-witted case 1, rotary-cut motor 31 is located quick-witted case 1 upper portion one side, rotary-cut sword 32 is located the charging tray 21, half closing cap 24 covers rotary-cut sword 32 with the cooperation of charging tray 21, the microorganism fungus is put into the charging tray 21 from the upside opening part of charging tray 21, rotary-cut motor 31 drives rotary-cut sword 32 synchronous revolution when rotatory motor 23 drive charging tray 21 is rotatory and cuts the microorganism fungus into the even slice of thickness, enlarge the surface area of single individual, be favorable to promoting microorganism growth in the mixed fermentation process, improve the fermentation rate, easy operation is convenient.

In a preferred scheme, the chassis 1 includes a box casing 12 connected to a bottom plate 11, the box casing 12 is a box body with an opening at a lower side, and heat dissipation holes are formed in each side of the box body. Simple structure, during the use, the heat that the rotating electrical machines 23 that is located in case shell 12 produced in the course of the work is through the louvre on case shell 12 and the external intercommunication heat dissipation.

In a preferred scheme, the rotating mechanism 2 comprises a conical table 22 at the bottom of the center of the tray 21, a rotating motor 23 is connected with the conical bottom of the conical table 22, and a rotary cutter 32 is positioned between the conical table 22 and the tray wall of the tray 21. Simple structure, during the use, put into the charging tray 21 with the microorganism fungus from half closing cap 24 one side, rotating electrical machines 23 drive charging tray 21 is rotatory, and the microorganism fungus that is located charging tray 21 when charging tray 21 is rotatory rotates along with it, and rotary cutter 32 rotates cutting microorganism fungus simultaneously, and rotatory cutting is in the limit, cuts microorganism fungus branch into the even slice of thickness, cuts efficiently, enlarges single microorganism fungus surface area, is favorable to promoting microorganism growth when mixing.

Preferably, the output end of the rotating motor 23 is provided with a rectangular column which is inserted into a rectangular hole at the bottom of the conical table 22, so that the installation and the disassembly are convenient.

In a preferred scheme, the half-sealing cover 24 is of a semicircular hollow conical structure with an opening at the conical bottom, the conical bottom with a larger section is in contact with the material tray 21, and the circular rod 25 connected with the conical top with a smaller section is inserted into the circular hole on the conical table 22. Simple structure, at the in-process of cutting, half closing cap 24 covers rotary cutter 32, and outside the garrulous end of avoiding cutting splashes out of charging tray 21, the charging tray 21 used half closing cap 24's round bar 25 as the center rotation, and half closing cap 24 is not rotatory along with charging tray 21.

In a preferred scheme, the rotary cutting structure 3 includes a rotary cutter 32 connected to an end of an output shaft of the rotary cutting motor 31, the output shaft passes through an open slot at the side edge of the half sealing cover 24, the rotary cutter 32 is of an S-shaped structure, and a cutting edge of the rotary cutter is located at an outer arc edge. Simple structure, during the use, rotary-cut motor 31 drive rotary-cut sword 32 is rotatory, and the blade of rotary-cut sword 32 is towards the cutting direction, and rotary-cut motor 31 output shaft passes half closing cap 24's open slot spacing for half closing cap 24 is not rotatory along with it when charging tray 21 is rotatory.

When the semi-closed rotary cutting device for improving the surface area of the fungus microorganisms is installed and used, the rotary motor 23 is arranged in the case 1 and connected with the material tray 21 on the upper portion of the case 1, the rotary cutting motor 31 is located on one side of the upper portion of the case 1, the rotary cutter 32 is located in the material tray 21, the semi-sealing cover 24 and the material tray 21 are matched to cover the rotary cutter 32, the microorganism fungi are placed into the material tray 21 from an opening on the upper side of the material tray 21, the rotary motor 23 drives the material tray 21 to rotate, the rotary cutter 32 is driven by the rotary motor 31 to synchronously rotate at the same time, the microorganism fungi are cut into sheets with uniform thickness, the surface area of a single individual is enlarged, the growth of the microorganisms in the mixed fermentation process is facilitated, the fermentation rate is improved, and the operation is simple and convenient.

When the heat dissipation device is used, heat generated by the rotating motor 23 in the case shell 12 in the working process is communicated with the outside through the heat dissipation holes in the case shell 12 to dissipate heat.

When the cutting device is used, microbial fungi are placed into the material disc 21 from one side of the half-sealing cover 24, the rotating motor 23 drives the material disc 21 to rotate, the microbial fungi in the material disc 21 rotate along with the material disc 21 when the material disc 21 rotates, meanwhile, the rotary cutter 32 rotates to cut the microbial fungi, the microbial fungi are cut while rotating, the microbial fungi are cut into sheets with uniform thickness, the cutting efficiency is high, the surface area of a single microbial fungus is enlarged, and the growth of microorganisms during mixing is facilitated.

In the cutting process, the rotary cutter 32 is covered by the half-sealing cover 24, the cut scraps are prevented from splashing out of the material tray 21, the material tray 21 rotates by taking the circular rod 25 of the half-sealing cover 24 as the center, and the half-sealing cover 24 does not rotate along with the material tray 21.

When the rotary cutting machine is used, the rotary cutting motor 31 drives the rotary cutting knife 32 to rotate, the cutting edge of the rotary cutting knife 32 faces the cutting direction, and the output shaft of the rotary cutting motor 31 penetrates through the open slot of the half sealing cover 24 for limiting, so that the half sealing cover 24 does not rotate along with the half sealing cover when the material tray 21 rotates.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the utility model.

Claims (5)

1. The utility model provides an improve semi-closed rotary-cut device of fungus microorganism surface area, characterized by: the rotary cutting machine comprises a machine case (1), a rotating mechanism (2) and a rotary cutting structure (3); the rotary motor (23) of the rotary mechanism (2) is positioned in the case (1) and connected with the material tray (21) on the upper part of the case (1), the rotary cutting motor (31) of the rotary cutting structure (3) is positioned on one side of the upper part of the case (1), the rotary cutter (32) of the rotary cutting structure is positioned in the material tray (21), the half sealing cover (24) and the material tray (21) are matched to cover the rotary cutter (32), and the rotary cutter (32) synchronously rotates when the material tray (21) rotates.

2. The semi-enclosed rotational atherectomy device of claim 1, wherein: the case (1) comprises a case shell (12) connected with a bottom plate (11), wherein the case shell (12) is a case body with an opening at the lower side, and heat dissipation holes are formed in each side of the case body.

3. The semi-enclosed rotational atherectomy device of claim 1, wherein: the rotating mechanism (2) comprises a conical table (22) at the bottom of the center of the material tray (21), a rotating motor (23) is connected with the conical bottom of the conical table (22), and a rotary cutter (32) is positioned between the conical table (22) and the tray wall of the material tray (21).

4. The semi-enclosed rotational atherectomy device of claim 1, wherein: the semi-closed cover (24) is of a semicircular hollow conical structure with an opening at the conical bottom, the conical bottom with a larger section is in contact with the material tray (21), and the circular rod (25) connected with the conical top with a smaller section is inserted into the circular hole on the conical table (22).

5. The semi-enclosed rotational atherectomy device of claim 1, wherein: the rotary cutting structure (3) comprises a rotary cutting knife (32) connected with the end head of an output shaft of the rotary cutting motor (31), the output shaft penetrates through an open slot on the side edge of the half sealing cover (24), the rotary cutting knife (32) is of an S-shaped structure, and the cutting edge of the rotary cutting knife is positioned on the edge of an outer arc.

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