CN212970922U

CN212970922U - Factory building structure is planted to mill formula

Info

Publication number: CN212970922U
Application number: CN202021764737.8U
Authority: CN
Inventors: 杨永波
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-21
Filing date: 2020-08-21
Publication date: 2021-04-16
Anticipated expiration: 2030-08-21

Abstract

The utility model discloses a factory building structure is planted to factory formula, its characterized in that plants the factory building and is multilayer formula building, arranges in a row on the floor of every layer of building to be provided with the multirow and plants the unit, and every plants the unit including arranging kind plant bed on the floor, still including setting up lighting device and the sprinkling irrigation equipment in kind plant bed top. The utility model discloses can realize factory's formula farming production, have safe harmless, production efficiency is high, occupies advantages such as soil is few.

Description

Factory building structure is planted to mill formula

Technical Field

The utility model belongs to the technical field of farming, concretely relates to factory building structure is planted to mill formula.

Background

China is a country taking rice as staple food, and rice planting occupies a very important position in traditional agriculture in China. The traditional rice planting in China takes families as a unit, rice cultivation is realized in farmlands, the mode has high labor intensity and low production efficiency, and the rice productivity is greatly influenced by weather disasters. In some farm or agricultural cooperative operation modes, a rice planting mode which concentrates a large amount of land resources and realizes mechanized production can improve labor efficiency, but is still difficult to control influences caused by factors such as weather disasters and the like.

In addition, in the agricultural production process, along with the flooding of various pesticides and hormones, the problem of grain safety is a direction of much attention of people. In rice planting, a large amount of pesticide is often used in the growth process of rice plants for the reasons of deinsectization, disease prevention and the like. Therefore, pesticide harmful substance residues are easily generated in the finally produced rice, and the eating health is influenced.

The patent of CN102498990B discloses a rice factory production process and a production workshop thereof, the utility model discloses a rice factory production process, which is to produce rice from germination to maturity, harvesting, threshing, drying and rice making in a factory controlled by human, realizes the factory production and streamline of rice production, and can solve the problems of large land occupation and low production efficiency of unit land in rice production while solving the problem that the grain safety is influenced by natural conditions. However, in the patent, each growth link of rice planting is moved and conveyed to different production workshops to realize control, so that the rice is moved to be unfavorable for the growth of the rice, and meanwhile, the method needs to occupy a large amount of planting space, wastes a large amount of land resources, and is obviously not suitable for implementation in the current social environment with large soil margin.

In conclusion, how to provide a rice and agricultural planting mode which is beneficial to control, safe, harmless, high in production efficiency and small in land occupation becomes a problem to be considered and solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: how to provide a factory type planting factory building structure which is beneficial to control, safe and harmless, high in production efficiency and small in occupied land.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a factory building structure is planted to mill formula, its characterized in that plants the factory building and is the multilayer formula building, arranges in rows on the floor of every layer of building and is provided with the multirow unit of planting, and every is planted the unit and is planted the bed including arranging the kind on the floor, still including setting up lighting device and the sprinkling irrigation equipment in kind bed top.

Like this, in this scheme, adopt multilayer formula building as planting the factory building, artifical lighting control illumination, the event overturns traditional mode that relies on the soil to cultivate, has greatly improved the space utilization efficiency in soil. Meanwhile, accurate planting management and control are facilitated to be achieved in the planting factory, and planting effects and plant quality can be better guaranteed. Realize complete nuisanceless planting, the utility model discloses especially, be fit for being used for the rice device, can obtain the rice and the rice of optimum quality.

Preferably, the whole framework of the planting factory building is of a steel frame structure, the steel frame structure is formed by connecting I-shaped steel through bolts, each floor in the steel frame structure is provided with a horizontal steel frame, and steel plates are laid on the horizontal steel frames to form floors of the building.

Therefore, the structural strength of the planting factory is reliable and stable, and the installation is facilitated. Further, the I-steel is preferably 304I-steel, which can ensure enough strength.

As optimization, a solar cell panel is laid on the roof of the planting factory building, the solar cell panel is connected with a storage battery in the planting factory building, and the storage battery is connected with a lighting device and a sprinkling irrigation device.

Therefore, the solar energy can be better absorbed and utilized, and the effect of saving energy is achieved. The roof and the outer wall of the planting factory building can also be made of toughened glass plates made of transparent materials, and the light transmission effect of the toughened glass plates is utilized to improve photosynthesis of internal plants, so that the growth of plants is facilitated.

As optimization, the bottom building of the planting factory building is provided with an automatic rolling door. Therefore, the door can be conveniently and automatically controlled to be opened and closed, a relative closed space is formed in the planting workshop after the door is closed, the internal temperature can be conveniently controlled, the greenhouse effect is generated, and the plant growth is facilitated.

As optimization, a ventilation system is arranged in the planting factory, the ventilation system comprises an air exchange device located at the top of the planting factory, the air exchange device is connected with a fresh air ventilation pipeline, the fresh air ventilation pipeline is connected and arranged above each seed discharging and planting unit of each layer of building, and a ventilation window is formed in the lower surface of the fresh air ventilation pipeline above the planting unit.

Like this, can plant the interior ventilation of factory building according to ventilation system control to can further rely on ventilation system to take a breath in the control factory building temperature for suitable vegetation temperature, improve vegetation effect.

Furthermore, the fresh air ventilation pipeline comprises an exhaust pipeline and an air inlet pipeline, and the exhaust pipeline and the air inlet pipeline are arranged above each seeding and planting unit in parallel.

Like this, can be better through the new trend pipeline of taking a breath, the regional taking a breath and the temperature of planting the unit top of direct control.

Further, a temperature control system is arranged in the air exchange equipment.

The temperature of air inlet can be adjusted like this, is favorable to realizing the temperature control to planting in the factory building.

Furthermore, the lower surface of the fresh air ventilation pipeline above each planting unit is correspondingly provided with a lighting device.

Therefore, the required illumination can be controlled individually and the plant growth of each planting unit can be controlled accurately and better aiming at each planting unit.

Furthermore, the planting bed comprises a rectangular planting soil frame, two long strip-shaped supporting steel frames are respectively arranged on two sides below the planting soil frame, and the length direction of each supporting steel frame is arranged on the floor along the length direction of each seed planting unit; the planting soil frame is placed on the supporting steel frame, and planting soil is filled in the planting soil frame.

The planting bed has the advantages of simple structure, convenient implementation, convenient position adjustment and the like.

Furthermore, the periphery of the planting soil frame is also provided with a maintenance grating plate which is vertically arranged upwards.

Therefore, the rice planting device can play a certain upward restraint role on rice planted on the edge side of the planting soil frame when used for planting rice, so that the rice can grow conveniently, and a space for workers to walk is reserved between two adjacent rows of planting units conveniently.

Furthermore, the maintenance grating plate is made of a transparent toughened glass plate material.

Thus, light rays can conveniently penetrate through the maintenance grating plate, and the photosynthesis of the plants planted in the soil frame is not influenced.

Furthermore, a lifting robot is further arranged on the floor of each layer of building, the width of the lifting robot is smaller than the width between two support steel frames below each seed planting unit, the height of the lifting robot is smaller than the height of the support steel frames, the lifting robot comprises a seat body positioned at the lower part, a roller walking system is arranged below the seat body and comprises rollers and a steering control mechanism connected with the rollers, the steering control mechanism is connected with a controller positioned in the seat body, a horizontal supporting plate is further arranged above the seat body, a lifting device is arranged between the supporting plate and the seat body and is connected with the controller, and the lifting device can lift the supporting plate upwards to exceed the height of the support steel frames; vacant areas for walking and transposition of the lifting robots and the lifted planting soil frames are reserved at two ends of the floor of each layer of building in the length direction of each row of supporting steel frames; the outer end of the vacant area is also provided with an elevator shaft which is vertically communicated to each layer of building, an elevator is installed in the elevator shaft, and the elevator shaft is larger than the width of the planting soil frame.

Therefore, the lifting robot can walk between the two supporting steel frames below each seed sowing planting unit, the planting soil frames can be lifted and taken away by the lifting device, the lifting robot can flexibly and automatically realize the moving, the position changing and the arrangement of the planting soil frames, and the planting soil frames can be moved between floors by the elevator. Therefore, automatic control can be better realized in each link of production, harvesting and the like, the participation of manpower is reduced, and the degree of industrialization and automation is greatly improved. The roller walking system, the lifting device, the elevator, the controller and other device parts are mature prior art, and are not described in detail, and the application does not contribute to the prior art in the structure of the parts, but skillfully integrates the technologies together, so that the controllability of the planting process is improved, and the industrialization and the automation of the planting are realized.

Further, sprinkling irrigation equipment includes that vertical setting is at the sprinkling irrigation standpipe of planting the plant bed top, and sprinkling irrigation standpipe lower extreme is provided with the atomizer, installs automatically controlled valve on the sprinkling irrigation standpipe, and sprinkling irrigation standpipe upper end and one are followed this seed metering of planting the plant bed place and are planted the sprinkling irrigation branch pipe that unit length direction arranged the setting and be linked together, and the sprinkling irrigation branch pipe and the sprinkling irrigation house steward intercommunication of unit top are planted to each seed metering, are connected with sprinkling irrigation container on the sprinkling irrigation house steward as the water source, are provided with booster pump and ooff valve between sprinkling irrigation container and the sprinkling.

Therefore, the spray irrigation water can be filled into the spray irrigation water container in advance for storage, and then the electric control valve is controlled to be opened at fixed time, so that the automatic control of the spray irrigation of the planting bed is realized. Can accurately control the water supply demand for planting plants, ensure the healthy growth of the plants and simultaneously achieve the effect of saving water resources.

Furthermore, a camera is arranged above the planting bed.

Therefore, the planting condition can be conveniently and remotely monitored by workers.

Furthermore, a sliding rail for mounting the camera is fixedly arranged above each seed sowing planting unit correspondingly, a camera mounting seat is matched with the sliding rail in a sliding mode, the camera is fixedly mounted on the camera mounting seat, a rack is fixedly arranged on one side of the sliding rail for mounting the camera, a camera walking motor is fixedly arranged on the camera mounting seat, a motor remote control module is further connected and mounted with the camera walking motor, a camera walking gear is mounted on an output shaft of the camera walking motor, and the camera walking gear is meshed with the rack.

Therefore, the camera walking motor can be remotely controlled to be switched on and switched off, the camera mounting seat is driven to slide and walk along the camera mounting slide rail through the meshing of the camera walking gear and the rack, and then the camera shooting monitoring of various planting bed conditions in the seed planting unit is realized.

Furthermore, still be provided with a response support arm on the camera mount pad, the camera is installed on the response support arm, still be provided with proximity switch on the sprinkling irrigation standpipe, proximity switch installs and is used for controlling the switching of automatically controlled valve in the control circuit of automatically controlled valve, the response support arm is located proximity switch response scope along the route of marcing of slide rail.

Like this, can walk through remote control commander camera walking motor control camera mount pad walking, drive response support arm and get into on the corresponding sprinkling irrigation standpipe proximity switch response scope, and then control the atomizer on this sprinkling irrigation standpipe and open, realize planting the sprinkling irrigation of bed to the below. Make the whole sprinkling irrigation process of atomizer all directly be in like this and go on under the camera control, operating personnel can be more audio-visual controls the sprinkling irrigation real-time situation of every kind of planting bed, does benefit to operating personnel remote control more and realizes sprinkling irrigation supervision.

Furthermore, a traditional Chinese medicine water container is also communicated with a sprinkling irrigation main pipe in the sprinkling irrigation device, and a booster pump and a switch valve are arranged between the traditional Chinese medicine water container and the sprinkling irrigation main pipe.

Therefore, the traditional Chinese medicine water can be regularly sprayed on the plants during the growth period of the plants, so that the traditional Chinese medicines are better utilized to realize insect expelling and prevention, protect the plants and control insect pests. The Chinese medicinal liquid is prepared by squeezing Chinese medicinal herbs with anthelmintic effect such as flos Chrysanthemi Indici, folium Artemisiae Argyi, herba Artemisiae Annuae, Coptidis rhizoma, herba Leonuri, and fructus Perillae, and adding water. Thus, the sprayed liquid medicine and the traditional Chinese medicine components in the soil act together, the effects of preventing, controlling and treating insects of the traditional Chinese medicine can be enhanced, and the plants can be ensured to grow normally and healthily. Meanwhile, pesticides are not needed, and pure green pollution-free planting and cultivation are realized.

Furthermore, an organic fertilizer water container is also communicated with a sprinkling irrigation main pipe in the sprinkling device, and a booster pump and a switch valve are arranged between the organic fertilizer water container and the sprinkling irrigation main pipe; the organic fertilizer feed water is obtained by treating the excrement of the organically-raised cattle and sheep.

Therefore, the organic fertilizer is regularly applied by water, the soil fertility is supplemented, and the nutrition required by the normal growth of plants is ensured. Meanwhile, the organic fertilizer water can ensure green and harmless performance, and the rice quality is improved. In addition, when the method is implemented, the dry cattle and sheep manure in the planting soil formula is obtained by dehydrating the manure of organically raised cattle and sheep.

In addition, in the concrete implementation, the plant factory is preferably considered to construct a factory building under the premise of several requirements. 1. The water quality needs no environmental pollution, and the local conditions are long-flowing brook water and big river water are the best choice. The annual average temperature requirement is best at 18-22 ℃, the best rare of people and places can ensure advocate traffic. 2. Soil can be suitable for planting rice, and yellow sandy soil is the best standard for planting rice. 3. The land of the plain for building the factory building, the transportation of the square-to-building factory building, 6-8 meters of transportation road, and the condition that the big grid can be built on the grass and hillside for planting and breeding can be used for renting. The rice planting factory building is constructed by quickly connecting and assembling steel structure bolts, and can be disassembled, transported to other places, assembled and assembled. The factory control is that the 5G network controls all intelligent energy equipment. The equipment has intelligent high-rise goods elevator for up-and-down transmission and balance car short-distance transmission. The indoor fresh air control equipment, the temperature control equipment, the real monitoring equipment and the automatic water spraying function are arranged. The machine room can observe data all around, and the machine room is provided with sowing equipment, a harvester and a dryer.

To sum up, the utility model discloses can realize factory's formula farming production, have safe harmless, production efficiency is high, occupies advantages such as the soil is few.

Drawings

Fig. 1 is the utility model discloses well plant building structure sketch map.

Fig. 2 is a schematic view showing an internal structure of the automatic rolling door of fig. 1 with the external wall panel and the automatic rolling door removed.

Fig. 3 is an enlarged schematic structural view of a single planting unit in fig. 2.

Fig. 4 is an enlarged schematic view of the stand-alone irrigation stack and camera portion of fig. 3.

Fig. 5 is a schematic perspective view of fig. 4.

FIG. 6 is a schematic view showing that the overall framework is a steel frame structure in a plant.

FIG. 7 is a schematic view of a single floor and a steel frame structure supported thereon in a plant.

Fig. 8 is a schematic three-dimensional structure diagram of a single planting soil frame and a lower lifting robot in a planting factory.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

In the specific implementation: as shown in fig. 1-8.

A factory type planting factory building structure is shown in figures 1-3, a planting factory building 1 is a multi-layer building, a plurality of rows of planting units are arranged on the floor of each layer of building in rows, each planting unit comprises a planting bed 2 arranged on the floor, and a lighting device 3 and a sprinkling irrigation device are arranged above the planting bed 2. When the device is used, taking rice planting as an example, after rice breeding and sprouting, the rice is planted in the planting bed 2, the lighting device is controlled to light at regular time, the sprinkling irrigation device is controlled to spray water and fertilize at regular time, and the rice is harvested until the rice plants are mature.

Like this, in this scheme, adopt multilayer formula building as planting the factory building, artifical lighting control illumination, the event overturns traditional mode that relies on the soil to cultivate, has greatly improved the space utilization efficiency in soil. Meanwhile, accurate planting management and control are facilitated to be achieved in the planting factory, and planting effect and rice plant quality can be better guaranteed. Realizes complete pollution-free planting, and obtains agricultural products with optimal quality, such as rice and rice.

Referring to fig. 6, the overall framework of the plant 1 is a steel frame structure, the steel frame structure is formed by connecting i-beams 4 through bolts, each floor of the steel frame structure is provided with a horizontal steel frame 5, and steel plates are laid on the horizontal steel frames 5 to form a floor 6 of the floor.

Wherein, referring to fig. 1, a solar cell panel 7 is laid on the roof of the planting factory, the solar cell panel 7 is connected with a storage battery in the planting factory, and the storage battery is connected with a lighting device, a sprinkling irrigation device and each electric device.

Wherein, referring to fig. 1, the bottom building of the planting factory building is provided with an automatic rolling door 8. Therefore, the door can be conveniently and automatically controlled to be opened and closed, a relative closed space is formed in the planting workshop after the door is closed, the internal temperature can be conveniently controlled, the greenhouse effect is generated, and the plant growth is facilitated.

2-3, the ventilation system is arranged in the planting factory and comprises an air exchange device 9 positioned at the top of the planting factory, the air exchange device 9 is connected with a fresh air ventilation pipeline 10, the fresh air ventilation pipeline 10 is connected and arranged above each seed sowing and planting unit of each layer of building, and a ventilation window is arranged on the lower surface of the fresh air ventilation pipeline above the planting units.

Wherein, the fresh air ventilation pipeline 10 comprises an exhaust pipeline and an air inlet pipeline, and the exhaust pipeline and the air inlet pipeline are arranged above each seeding and planting unit in parallel.

Wherein a temperature control system (not shown) is arranged in the air exchange device.

Wherein, the lower surface of the fresh air ventilation pipeline 10 above each planting unit is correspondingly provided with the lighting device 3 with reference to fig. 3.

Referring to fig. 7-8, the planting bed 2 comprises a rectangular planting soil frame 11, two long strip-shaped supporting steel frames 12 are respectively arranged on two sides below the planting soil frame, and the length direction of each supporting steel frame 12 is arranged on the floor 6 along the length direction of each seeding unit; the planting soil frame 11 is placed on the supporting steel frame 12, and planting soil is filled in the planting soil frame 11.

Wherein, the periphery of the planting soil frame 11 is also provided with a maintenance grating plate 13 which is vertically arranged upwards.

Wherein, the maintenance grating plate 13 is made of transparent toughened glass plate material.

Referring to fig. 8, a lifting robot 14 is further arranged on the floor of each floor of the building, the width of the lifting robot is smaller than the width between two support steel frames below each seed planting unit, the height of the lifting robot 14 is smaller than the height of the support steel frames, the lifting robot comprises a base body 15 located at the lower part, a roller walking system (not shown in the figure) is arranged below the base body 15, the roller walking system comprises rollers and a steering control mechanism connected with the rollers, the steering control mechanism is connected with a controller (not shown in the figure) located in the base body, a horizontal supporting plate 16 is further arranged above the base body 15, a lifting device (not shown in the figure) is arranged between the supporting plate 16 and the base body 15, the lifting device is connected with the controller, and the lifting device can lift the supporting plate upwards to exceed the height of the support steel frames; vacant areas for walking and transposition of the lifting robots and the lifted planting soil frames are reserved at two ends of the floor 6 of each layer of building in the length direction of each row of supporting steel frames; the outer end of the vacant area is also provided with an elevator shaft (not shown in the figure) which is vertically communicated to each layer of building, an elevator is arranged in the elevator shaft, and the elevator shaft is larger than the width of the planting soil frame.

Wherein, refer to fig. 3-5, sprinkling irrigation equipment includes vertical setting at the vertical sprinkling irrigation standpipe 17 of planting the bed top, sprinkling irrigation standpipe 17 lower extreme is provided with atomizer 18, install automatically controlled valve 19 on the sprinkling irrigation standpipe 17, sprinkling irrigation standpipe 17 upper end and one are along this seed metering of planting the bed place and plant the sprinkling irrigation branch pipe 20 that the unit length direction arranged and set up and be linked together, each seed metering plants sprinkling irrigation branch pipe 20 and the sprinkling irrigation house steward (not shown in the figure) intercommunication of unit top, be connected with sprinkling irrigation container (not shown in the figure) on the sprinkling irrigation house steward and regard as the water source, be provided with booster pump and ooff valve (not shown in the figure) between sprinkling irrigation container and the sprinkling irrigation.

Wherein, a camera 21 is arranged above the planting bed.

The device comprises a unit for arranging seed, a sliding rail 22 for installing a camera is correspondingly and fixedly arranged above each seed planting unit, a camera installing seat 23 is matched with the sliding rail 22 for installing the camera in a sliding mode, the camera 21 is installed and fixed on the camera installing seat 23, a rack 24 is fixedly arranged on one side of the sliding rail 22 for installing the camera, a camera walking motor 25 is fixedly arranged on the camera installing seat, the camera walking motor 25 is further connected with a motor remote control module, a camera walking gear 26 is installed on an output shaft of the camera walking motor, and the camera walking gear 26 is meshed with the rack 24.

The sprinkler irrigation vertical pipe is further provided with a proximity switch 28, the proximity switch is installed in a control circuit of the electric control valve and used for controlling the opening and closing of the electric control valve, and the sensing support arm 27 is located in a sensing range of the proximity switch 28 along a traveling path of the sliding rail.

Wherein, a traditional Chinese medicine water container (not shown in the figure) is also arranged on the sprinkling irrigation main pipe in the sprinkling device, and a booster pump and a switch valve are arranged between the traditional Chinese medicine water container and the sprinkling irrigation main pipe.

Wherein, an organic fertilizer water container (not shown in the figure) is also communicated with the sprinkling irrigation main pipe in the sprinkling device, and a booster pump and a switch valve are arranged between the organic fertilizer water container and the sprinkling irrigation main pipe; the organic fertilizer feed water is obtained by treating the excrement of the organically-raised cattle and sheep.

Claims

1. The utility model provides a factory building structure is planted to mill formula, its characterized in that plants the factory building and is the multilayer formula building, arranges in rows on the floor of every layer of building and is provided with the multirow unit of planting, and every is planted the unit and is planted the bed including arranging the kind on the floor, still including setting up lighting device and the sprinkling irrigation equipment in kind bed top.

2. The factory building structure according to claim 1, wherein the overall framework of the factory building is a steel frame structure, the steel frame structure is formed by connecting I-shaped steel through bolts, each floor of the steel frame structure is provided with a horizontal steel frame, and steel plates are laid on the horizontal steel frames to form floors of the floor.

3. The factory building structure of claim 1, wherein a solar panel is laid on the roof of the factory building, the solar panel is connected with a storage battery in the factory building, and the storage battery is connected with the lighting device and the sprinkling irrigation device;

the bottom building of the planting factory building is provided with an automatic rolling door.

4. The factory-like planting factory building structure of claim 1, wherein a ventilation system is arranged in the planting factory building, the ventilation system comprises an air exchange device located at the top of the planting factory building, the air exchange device is connected with a fresh air ventilation pipeline, the fresh air ventilation pipeline is connected and arranged above each seed planting unit of each layer of building, and a ventilation window is arranged on the lower surface of the fresh air ventilation pipeline above the planting units.

5. The factory-like planting factory building structure of claim 4, wherein the fresh air ventilating duct comprises an exhaust duct and an intake duct, and an exhaust duct and an intake duct are arranged above each planting unit in parallel; a temperature control system is arranged in the air exchange equipment.

6. The factory building structure of claim 4, wherein a lighting device is correspondingly installed on the lower surface of the fresh air ventilating duct above each planting unit.

7. The factory-like planting factory building structure of claim 1, wherein said planting bed comprises a rectangular planting soil frame, two elongated support steel frames are respectively arranged on two sides below the planting soil frame, and the length direction of the support steel frames is arranged on the floor along the length direction of each planting unit; the planting soil frame is placed on the supporting steel frame, and planting soil is filled in the planting soil frame.

8. The factory building structure of claim 7, wherein said planting soil frame further has a maintenance grid plate disposed vertically upward around said planting soil frame; the maintenance grating plate is made of transparent toughened glass plate materials.

9. The factory building structure according to claim 7, wherein a lifting robot is further arranged on the floor of each floor, the width of the lifting robot is smaller than the width between two supporting steel frames below each planting unit, the height of the lifting robot is smaller than the height of the supporting steel frames, the lifting robot comprises a seat body located at the lower part, a roller walking system is arranged below the seat body, the roller walking system comprises rollers and a steering control mechanism connected with the rollers, the steering control mechanism is connected with a controller located in the seat body, a horizontal supporting plate is further arranged above the seat body, a lifting device is arranged between the supporting plate and the seat body, the lifting device is connected with the controller, and the lifting device can lift the supporting plate upwards to exceed the height of the supporting steel frames; vacant areas for walking and transposition of the lifting robots and the lifted planting soil frames are reserved at two ends of the floor of each layer of building in the length direction of each row of supporting steel frames; the outer end of the vacant area is also provided with an elevator shaft which is vertically communicated to each layer of building, an elevator is installed in the elevator shaft, and the elevator shaft is larger than the width of the planting soil frame.

10. The factory-like planting factory building structure of claim 7, wherein the sprinkling irrigation device comprises a sprinkling irrigation vertical pipe vertically arranged above the planting bed, the lower end of the sprinkling irrigation vertical pipe is provided with an atomizing nozzle, an electric control valve is arranged on the sprinkling irrigation vertical pipe, the upper end of the sprinkling irrigation vertical pipe is communicated with a sprinkling irrigation branch pipe arranged along the length direction of the planting unit where the planting bed is located, the sprinkling irrigation branch pipe above each planting unit is communicated with a sprinkling main pipe, the sprinkling main pipe is connected with a sprinkling water container as a water source, and a booster pump and a switch valve are arranged between the sprinkling water container and the sprinkling main pipe;

a camera is also arranged above the planting bed;

a sliding rail for mounting a camera is correspondingly and fixedly arranged above each seed sowing and planting unit, a camera mounting seat is matched on the sliding rail for mounting the camera in a sliding way, the camera is fixedly mounted on the camera mounting seat, a rack is also fixedly arranged on one side of the sliding rail for mounting the camera, a camera walking motor is also fixedly arranged on the camera mounting seat, the camera walking motor is also connected with a motor remote control module, a camera walking gear is mounted on an output shaft of the camera walking motor, and the camera walking gear is meshed with the rack;

the sprinkler irrigation vertical pipe is also provided with a proximity switch, the proximity switch is arranged in a control circuit of the electric control valve and used for controlling the opening and closing of the electric control valve, and the induction support arm is positioned in the induction range of the proximity switch along the advancing path of the slide rail;

a traditional Chinese medicine water container is also communicated with a sprinkling irrigation main pipe in the sprinkling device, and a booster pump and a switch valve are arranged between the traditional Chinese medicine water container and the sprinkling irrigation main pipe;

an organic fertilizer water container is also communicated with a sprinkling main pipe in the sprinkling device, and a booster pump and a switch valve are arranged between the organic fertilizer water container and the sprinkling main pipe.