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Flowerpot and management system thereof, and greenhouse plant management system based on big data

A management system and flowerpot technology, applied in the field of daily life, can solve problems such as overwatering or underwatering, lack of scientific basis for flower or plant care, lack of scientific guidance basis, etc., to achieve supplementary and accurate effects

Active Publication Date: 2018-12-18
滕庆阳 +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, when people plant flowers or plants at home or in greenhouses, they usually water on-site manually, which makes it difficult for people who travel frequently and greenhouse managers to take care of flowers and plants in real time, which causes business trips During the period or when the greenhouse managers are busy with other things, the problem of flowers or plants dying due to lack of water
And even for people who don’t travel frequently and greenhouse managers, there is no scientific basis for the care of flowers or plants, just by visually observing whether there is water shortage in the flowers or plants in the flower pots, it is easy to cause excessive watering or too little problem
Moreover, the existing greenhouse management system also lacks scientific guidance and cannot be scientifically managed according to the greenhouse environment and different plants.

Method used

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  • Flowerpot and management system thereof, and greenhouse plant management system based on big data
  • Flowerpot and management system thereof, and greenhouse plant management system based on big data
  • Flowerpot and management system thereof, and greenhouse plant management system based on big data

Examples

Experimental program
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Effect test

Embodiment 1

[0053] Such as Figure 1-Figure 4 As shown, a flowerpot of this embodiment includes an inner flowerpot body 2, an outer flowerpot body 1 and a chassis 3, and the outer flowerpot body 1 is sleeved outside the inner flowerpot body 2 , the bottom of the outer flowerpot body 1 is provided with a number of ventilation holes, and the outer flowerpot body 1 is placed on the chassis 3;

[0054] The inside of the outer layer flower pot body 1 is equipped with a circle of coaxially arranged and cylindrical isolation net 4, the upper end of the isolation net 4 is an open structure, and the lower end is a plugging structure; the isolation net 4 and the A space for filling the moisturizing material 8 is reserved between the outer flowerpot bodies 1, the inner flowerpot body 2 is adapted to be arranged in the isolation net 4, and the side of the inner flowerpot body 2 A number of through holes are opened on the wall to communicate the interior with the gap.

[0055] The flowerpot of this ...

Embodiment approach 2

[0059] Embodiment 2, such as Figure 4 As shown, the upper surface of the guide ring 11 in this embodiment is recessed downwards to form several grooves 14, and several grooves 14 are arranged in a ring along the guide ring, and the grooves of each groove 14 At least one diversion hole 15 is respectively opened on the bottom, and the groove bottom around the diversion hole 15 gradually decreases along the direction close to the diversion hole 15 . By arranging multiple grooves, the diversion effect is better.

[0060] The annular groove 12 and the groove 14 in the above two embodiments are all provided with grit 7, and the grit 7 fills the annular groove 12 and the groove 14, and utilizes the capillary infiltration of the grit to increase the thickness of the annular groove and the groove. The diversion effect of the groove.

[0061] In this example, if figure 1 As shown, the inner side of the bottom of the outer flower pot body 1 is provided with support ribs 16 , and the ...

Embodiment approach 1

[0070] Embodiment 1: The moisturizing material includes, in parts by weight, 30 parts of bentonite, 10 parts of magnesium phosphate cement, 1 part of degradable resin, 5 parts of modified activated carbon, 5 parts of ceramsite, and 30 parts of water. The preparation method of described moisturizing material is:

[0071] S1, weighing the raw materials in each weight part of this embodiment, first mixing magnesium phosphate cement and water to obtain a cement mixture; the particle size of the ceramsite is 0.5-1 mm, and the internal pore size is 0.1-1 μm;

[0072] S2, first adding bentonite to the cement mixture, stirring evenly to obtain the first mixture, then adding modified activated carbon and degraded resin to the first mixture, stirring uniformly to obtain the second mixture; finally adding ceramsite to the In the second mixture, a third mixture is obtained;

[0073] S3, after heating the third mixture for 30 minutes, the moisturizing material is obtained. The heating te...

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Abstract

The present invention relates to a flowerpot and a management system thereof, and a greenhouse plant management system based on big data. The flowerpot comprises an inner-layer flowerpot body, an outer-layer flowerpot body and a base plate, the outer-layer flowerpot body is internally provided with a circle of cannular separation net coaxially arranged with the outer-layer flowerpot body, and a gap used to fill moisture-retention materials is reserved between the separation net and the outer-layer flowerpot body; the flowerpot management system comprises a flowerpot, a spray device, a connection pipe, a water supply device and a control terminal. The water inlet end of the spray device is connected with the water supply device through the connection pipe, and the control terminal is connected with the water supply device, and is configured to control start and stop of the water supply device; the greenhouse plant management system based on big data comprises a flowerpot, a greenhouse body, a spray device, a humidity sensor, a fresh air system, a carbon dioxide sensor, a control terminal and a server having a cloud computing function, the spray device, the fresh air system, the humidity sensor and the carbon dioxide sensor are connected with the control terminal, and the control terminal is connected with the server.

Description

technical field [0001] The invention relates to the field of daily life, in particular to a flowerpot and its management system and a big data-based greenhouse plant management system. Background technique [0002] At present, when people plant flowers or plants at home or in greenhouses, they usually water on-site manually, which makes it difficult for people who travel frequently and greenhouse managers to take care of flowers and plants in real time, which causes business trips During the period or when the greenhouse managers are busy with other things, the flowers or plants die due to lack of water. And even for people who don’t travel frequently and greenhouse managers, there is no scientific basis for the care of flowers or plants, just by visually observing whether there is water shortage in the flowers or plants in the flower pots, it is easy to cause excessive watering or too little problem. Moreover, the existing greenhouse management system also lacks scientifi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01G9/02A01G9/14A01G9/24C04B28/34
CPCA01G9/02A01G9/14A01G9/246A01G9/247C04B28/344C04B2111/00758C04B14/104C04B2103/0045C04B18/027C04B14/022Y02A40/25
Inventor 滕庆阳刘春青张玲
Owner 滕庆阳
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