CN-224205846-U - Improved post-fungus mushroom inoculation device

Abstract

The utility model discloses an improved fungus mushroom inoculation device, which comprises a feeding hopper for placing fungus strains, wherein a conveying device is arranged on the feeding hopper, the conveying device comprises a rotating shaft penetrating through the feeding hopper, the rotating shaft can rotate on the feeding hopper, a spiral plate is arranged on the rotating shaft, the spiral plate extends out from the feeding hopper along with the rotating shaft, and a scraping plate is arranged on the rotating shaft at the inner position of the feeding hopper. The utility model can reduce the residual of the strain, ensures that the strain injected into the inoculation container is more sufficient, is beneficial to the growth of the later inoculation container, greatly improves the production efficiency of planting, and can more meet the production requirements of modern users.

Inventors

• LU XINGZHONG

Assignees

• 卢兴中

Dates

Publication Date

20260508

Application Date

20250609

Claims (10)

1. 1. The utility model provides an after improvement fungus mushroom inoculation device, includes and is used for placing the income hopper (1) of bacterial, be provided with conveyor (2) on going into hopper (1), wherein conveyor (2) are including running through and pass into pivot (21) of hopper (1), pivot (21) are in can rotate on going into hopper (1), be provided with screw plate (22) on pivot (21), screw plate (22) follow pivot (21) follow go into hopper (1) and extend away be provided with scraper blade (23) on pivot (21) of hopper (1) inside position.
2. 2. The improved fungus mushroom inoculation device according to claim 1, wherein the lower part of the feeding hopper (1) is in a concave arc shape, and the scraping plate (23) is tangent with the inner wall of the concave arc-shaped feeding hopper (1) when rotating.
3. 3. An improved mushroom inoculation apparatus according to claim 1 or claim 2, wherein the scraper (23) is arcuate or bar-shaped.
4. 4. The improved fungus inoculation device according to claim 1 or 2, wherein the rotating shaft (21) is provided with at least one fixing seat (211), and the scraping plate (23) is in locking connection with the fixing seat (211) through a locking piece (231).
5. 5. The improved mushroom inoculation apparatus according to claim 4, wherein the fixing base (211) is welded on the rotating shaft (21).
6. 6. An improved mushroom inoculation apparatus according to claim 4, wherein said retaining member (231) is a screw or bolt or screw.
7. 7. The improved mushroom inoculation apparatus according to claim 4, wherein two fixing bases (211) are adopted, and each fixing base (211) corresponds to one locking piece (231).
8. 8. The improved post-fungus inoculation device according to claim 1 or 2 or 5 or 6 or 7, wherein a front mounting cylinder (212) and a rear mounting cylinder (213) are arranged at the position of the feeding hopper (1) at the position of the rotating shaft (21), the front mounting cylinder (212) and the rear mounting cylinder (213) are integrally formed with the feeding hopper (1), one end of the rotating shaft (21) with the spiral plate (22) is positioned in the front mounting cylinder (212), the other end of the rotating shaft (21) extends out from the rear mounting cylinder (213), and a bearing (214) is arranged on the rotating shaft (21) in the rear mounting cylinder (213).
9. 9. The improved fungus inoculation device according to claim 1 or 2 or 5 or 6 or 7, wherein one end of the rotating shaft (21) extends out from the feeding hopper (1) and is provided with a connecting part (24), and the connecting part (24) and the rotating shaft (21) are integrally formed.
10. 10. The improved mushroom inoculation apparatus according to claim 1 or 2 or 5 or 6 or 7, wherein a handle (3) is provided at the open end of the hopper (1).

Description

Improved post-fungus mushroom inoculation device Technical Field The utility model relates to the technical field of fungus mushroom planting, in particular to an improved fungus mushroom inoculation device. Background It is well known that mushrooms contain very rich amino acids, vitamins and other nutrient substances, so that the mushrooms are delicious in taste and very rich in nutrition, and are increasingly favored by people, so that the requirements of the mushrooms are increased, and the technology of artificial inoculation and cultivation is developed. In general, inoculation of mushrooms is performed manually in an inoculation box, strains are manually injected into an inoculation container through an inoculation gun in a sterile environment, and finally the inoculation container is sealed, however, the efficiency of manual operation is low. The inventor of the present application has now found that, in the process of practical use, there is a space between the spiral plate and the feeding hopper, so that a lot of residual strains always exist in the feeding hopper, which not only causes waste of the residual strains, but also causes the strains injected into the inoculation container to sometimes fail to meet the acceptable standards, which also causes the growth of the inoculation container in the later period to be not very good, affects the growth of the mushrooms in the inoculation container, and thus, the improvement is necessary according to the situation. Disclosure of utility model First, the technical problems to be solved Aiming at the defects in the prior art, the utility model provides an improved post-fungus mushroom inoculation device which can reduce the residual of strains, so that the strains injected into an inoculation container are more sufficient, the growth of the post-inoculation container is facilitated, the production efficiency of planting is greatly improved, and the production requirements of modern users can be met. (II) technical proposal to be adopted In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: The utility model provides an after improvement fungus mushroom inoculation device, is including being used for placing the hopper of entering of bacterial, be provided with conveyor on entering the hopper, conveyor is including running through and crossing go into the pivot of hopper, the pivot is in can rotate on entering the hopper, be provided with the spiral plate in the pivot, the spiral plate follows the pivot is followed go out in the hopper extension go into the inside position of hopper be provided with the scraper blade in the pivot. Preferably, the lower part of the feeding hopper is in a concave arc shape, and the scraping plate is tangent with the inner wall of the feeding hopper in the concave arc shape when rotating. Preferably, the scraping plate is arc-shaped or bar-shaped. Preferably, at least one fixing seat is arranged on the rotating shaft, and the scraping plate is in locking connection with the fixing seat through a locking piece. Preferably, the locking member is a screw or bolt or screw. Preferably, two fixing seats are adopted, and each fixing seat corresponds to one locking piece. Preferably, a front mounting cylinder and a rear mounting cylinder are arranged at the feeding hopper at the rotating shaft position, the front mounting cylinder and the rear mounting cylinder are integrally formed with the feeding hopper, one end of the rotating shaft with the spiral plate is positioned in the front mounting cylinder, the other end of the rotating shaft extends out from the rear mounting cylinder, and a bearing is arranged on the rotating shaft in the rear mounting cylinder. Preferably, one end of the rotating shaft extends out from the feeding hopper to be provided with a connecting part, and the connecting part and the rotating shaft are integrally formed. Preferably, a handle is arranged at the opening end of the feeding hopper. (III) technical effects to be achieved Compared with the prior art, the utility model has the beneficial effects that: Firstly, the scraping plate is arranged on the rotating shaft at the inner position of the feeding hopper, and the scraping plate can reduce the residual of strains, so that the strains injected into the inoculation container are more sufficient, the growth of the later inoculation container is facilitated, the production efficiency of planting is greatly improved, and the production requirements of modern users can be met. Secondly, the lower part of the feeding hopper is in a concave arc shape, the scraping plate is tangent to the inner wall of the concave arc-shaped feeding hopper when rotating, and the arrangement is more beneficial to turning up and out strains in the feeding hopper when the scraping plate rotates, so that the strains can be better transmitted. Thirdly, the scraping plate is arc-shaped or bar-shaped, has various types, can be wide