CN-224212639-U - Fungus intelligent culture rack of shelter

Abstract

The utility model belongs to the technical field of culture racks, and particularly relates to an intelligent fungus culture rack of a shelter; the utility model provides a fungus intelligent culture rack for a shelter, which comprises a support main body, a movable assembly and a culture assembly, wherein the movable assembly is arranged on the support main body, the culture assembly is movably connected on the movable assembly, and a camera is further arranged at the top of the support main body.

Inventors

• ZHENG XIAOYIN
• ZHONG WEIJI
• LIU XINYA
• HE WENFANG
• QIU GUOCAI
• MA PENGFEI
• LIU GUANGLIANG
• GAO YONG
• WANG QIANPENG
• ZHANG SHAODONG

Assignees

• 广州奥雅电子有限公司

Dates

Publication Date

20260508

Application Date

20250408

Claims (10)

1. 1. The fungus intelligent culture rack of the shelter is characterized by comprising a support main body, a movable assembly and a culture assembly, wherein the movable assembly is installed on the support main body, the culture assembly is movably connected on the movable assembly, and a camera is further arranged at the top of the support main body; the movable component is used for driving the culture component to periodically move on the bracket main body.
2. 2. The intelligent fungus culture rack for a shelter of claim 1, wherein the movable assembly comprises a driving part and a driven part, the driving part comprises a driving motor and a driving wheel, the driving motor is connected with the driving wheel, the driven part comprises a transmission part and a driven wheel group, the driven wheel group comprises a driven wheel, and the driving wheel is connected with the driven wheel.
3. 3. The intelligent fungus cultivation frame for a shelter as claimed in claim 2, wherein the driven wheel group comprises an upper driven wheel group and a lower driven wheel group, and the transmission member is sequentially and alternately connected with the driven wheel of the upper driven wheel group and the driven wheel of the lower driven wheel group.
4. 4. A shelter fungus intelligent cultivation frame as claimed in claim 3, wherein the driven wheel group comprises at least two groups, and a connecting piece is connected between every two groups of driven wheel groups.
5. 5. The intelligent fungus cultivation rack for a shelter of claim 4, wherein said connecting members comprise a plurality of connecting suspension ropes and a plurality of connecting rods, said connecting rods penetrate said driven wheels in each two sets of said driven wheel sets and are mounted on said rack main body, said connecting suspension ropes are mounted between said driving members in each two sets of said driven wheel sets; the connecting rod is used for limiting the driven wheels in every two groups of the lower driven wheel groups; the connecting lifting rope is used for controlling the transmission parts in every two groups of driven wheel groups to synchronously work and providing the mounting position of the culture assembly so as to ensure that the culture assembly mounted on the connecting lifting rope synchronously moves.
6. 6. The intelligent fungus culture rack for a shelter of claim 5, wherein said culture assembly comprises a plurality of culture containers, and said culture containers are provided with limiting holes for connection with said connecting lifting ropes.
7. 7. The intelligent fungus culture rack for a shelter of claim 6, wherein a plurality of through slots are further formed in the culture container.
8. 8. The intelligent fungus culture rack for a shelter of claim 2, wherein said movable assembly further comprises a limiting wheel, said limiting wheel being used for limiting said transmission member.
9. 9. The intelligent fungus culture rack for a shelter of claim 1, wherein the bracket main body is further provided with a temperature sensor and a humidity sensor.
10. 10. The intelligent fungus culture rack for a shelter of claim 1, wherein a supporting block is further arranged at the bottom of the support main body.

Description

Fungus intelligent culture rack of shelter Technical Field The utility model belongs to the technical field of culture racks, and particularly relates to an intelligent fungus culture rack of a shelter. Background At present, a fungus culture rack in a shelter generally adopts a fixed layered structure, and large-scale production is realized through static arrangement of culture containers. In the prior art, a culture rack is generally provided with a plurality of layers of fixed supports, each layer is provided with an independent environment adjusting device and a plurality of monitoring cameras, and illumination intensity, ventilation rate and humidity parameters of each layer are adjusted in a manual or timing control mode. The structure relies on a plurality of groups of sensors and cameras to monitor the growth state of each layer of fungus, and meanwhile, a fan array or a spray pipeline is utilized to implement uniform environment regulation and control on a fixed area so as to ensure the consistency of fungus growth conditions of different layers. However, the existing fixed culture rack has the obvious defects in practical application that the micro environments of all the containers are influenced by equipment layout and air flow distribution due to the fixed space positions of the culture containers, so that the phenomenon that the growth states of fungus in the same batch are uneven due to the fact that the illumination intensity gradient difference, the oxygen exchange efficiency difference and the humidity distribution are uneven in the edge area and the center area is difficult to avoid, in addition, in order to obtain the complete growth images of the fungus in all the layers of culture containers, cameras are required to be independently arranged on each layer of rack body for image acquisition, and the purchase and maintenance cost of equipment is obviously increased. What is needed is an intelligent culture rack capable of guaranteeing balanced distribution of environmental conditions of a culture container and reducing cost of a camera. Disclosure of utility model In order to overcome the defects of the prior art, the utility model provides an intelligent fungus culture rack of a shelter, which solves the problems that the culture rack in the prior art cannot ensure dynamic balance of illumination, oxygen and humidity conditions acquired by each culture component and the cost problem caused by adopting a plurality of camera schemes. The utility model provides an intelligent fungus culture rack of a shelter, which comprises a bracket main body, a movable assembly and a culture assembly, wherein the movable assembly is arranged on the bracket main body, the culture assembly is movably connected to the movable assembly, and a camera is further arranged at the top of the bracket main body; the movable component is used for driving the culture component to periodically move on the bracket main body. In one scheme, the movable assembly comprises a driving part and a driven part, the driving part comprises a driving motor and a driving wheel, the driving motor is connected with the driving wheel, the driven part comprises a transmission part and a driven wheel group, the driven wheel group comprises a driven wheel, and the driving wheel is connected with the driven wheel. In one scheme, the driven wheel group comprises an upper driven wheel group and a lower driven wheel group, and the transmission piece is sequentially and alternately connected with the driven wheel of the upper driven wheel group and the driven wheel of the lower driven wheel group. In one scheme, the driven wheel group at least comprises two groups, and a connecting piece is connected between every two groups of driven wheel groups. In one scheme, the connecting piece comprises a plurality of connecting lifting ropes and a plurality of connecting rods, wherein the connecting rods penetrate through the driving wheels in each two groups of the lower driven wheel groups and are arranged on the bracket main body, and the connecting lifting ropes are arranged between the driving pieces in each two groups of the driven wheel groups; The connecting rod is used for limiting the driven wheels in every two groups of the lower driven wheel groups, the connecting lifting rope is used for controlling the transmission parts in every two groups of the driven wheel groups to synchronously work and providing the mounting position of the culture assembly so as to ensure that the culture assembly mounted on the connecting lifting rope synchronously moves. In one of the schemes, the culture assembly comprises a plurality of culture containers, wherein limiting holes are formed in the culture containers and are used for being connected with the connecting lifting ropes. In one of the schemes, a plurality of through grooves are also formed on the culture container. In one of the schemes, the movable assembly further comprises a limiting wheel, an