A desert automatic water intake seedling shed

A seedling shed, automatic technology, applied in water supply installations, drinking water installations, wind turbines that store electricity, etc., can solve the problems of large evaporation loss, water loss along the way, and high equipment cost, and achieve high water intake rate, wide promotion, low cost effect

Active Publication Date: 2021-03-30
SHENZHEN KANGNA ENVIRONMENT PROTECTION CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The construction and maintenance costs of the existing above-mentioned water intake methods are particularly expensive, and the loss of water along the way is huge, and the evaporation loss is huge; and it can only be used along the canal
[0004] There is also a device that uses solar energy to generate water for the cooling and condensation of semiconductor refrigeration chips. Since solar energy can only generate electricity during the day, the efficiency of the power supply to semiconductor refrigeration chips is too low.
There is also a method of using a diesel engine to generate power to supply water to the condenser, which costs more and is about the same as the cost of transporting water by helicopter
The equipment is expensive, and a small equipment costs more than 10,000 yuan

Method used

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  • A desert automatic water intake seedling shed
  • A desert automatic water intake seedling shed
  • A desert automatic water intake seedling shed

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Such as Figure 1-5 As shown, the present embodiment provides a desert automatic water intake and seedling shed, including a photovoltaic power generation panel 2 on the roof, and several air intake shed columns 12 and exhaust shed columns 5 as pillars, surrounded by plastic transparent cloth 7.

[0032] The gas in the desert is input into the air intake shed column 12 through the electric blower 1 . The electric blower 1 is connected to the air intake shed column 12, and the upper end of the connection is provided with a first quicksand opening 103, and the first quicksand opening 103 is annular. When the gas enters the electric blower 1, under the centrifugal action of the electric blower 1, the large particles of dust will flow out from the first quicksand port 103 to prevent the blockage of the pipeline, and the small particles of dust will enter the air intake through the first sand prevention filter 101 The shed post 12 finally falls into the sand leakage pipe 10...

Embodiment 2

[0041] This embodiment is an improvement made on the basis of Embodiment 1. The improvement is that: the fan blades of the electric fan 1 and the unpowered wind cap 3 are all made of plastic, and metal wires are placed in the plastic blades. Metal wire coil. When the metal wire coil is energized, the wind blows the impeller to rotate (the electric fan is energized to rotate), the magnetic field generated by the metal wire coil in the fan blade and the fixed coil set on the anti-sand filter generate cutting magnetic force line movement, and the fixed coil generates electricity input to in the storage battery.

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PUM

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Abstract

The invention discloses a desert automatic water-taking seedling raising shed, which relates to the technical field of air water-taking devices, and includes a seedling raising shed body, a power generation device, a storage battery, a refrigeration sheet and a water storage tank; the seedling raising shed body includes a shed roof and several shed column groups, several Each shed column group is evenly distributed under the roof to support the roof; each shed column group includes air intake shed columns and exhaust shed columns, and the bottom of the air intake shed column is connected to the exhaust shed by connecting pipes. The bottom of the column is connected, and the connecting pipe is located underground and communicated with the water storage tank; the top of the air intake shed column is provided with an air inlet, and the top of the exhaust shed column is provided with an exhaust port; the exhaust shed column and the air intake shed column A refrigerating sheet is installed on the inner surface, and a water tank is arranged under the cold end of the refrigerating sheet, and the water trough is connected to the water storage tank; both the refrigerating sheet and the power generation device are connected to the storage battery. The invention is cheap and efficient, suitable for laying in large areas in deserts, taking water to raise seedlings and preventing sand, and widely popularized.

Description

technical field [0001] The invention relates to the technical field of air water-taking devices, in particular to an automatic water-taking seedling raising shed for deserts. Background technique [0002] The basic method of sand prevention and control is to plant trees; to plant trees, there must be water, and the problem of water must be solved. [0003] At present, people adopt building canals to divert water; for example, the completed Fenling water diversion canal has a length of 30.08 kilometers and a cost of 40 million yuan, which is only the initial cost. This project was carried out near the water source (Yellow River). The construction cost and maintenance cost of the existing above-mentioned water intake method are particularly expensive, and the loss of water along the way and the evaporation loss are huge; and it can only be used along the water channel. [0004] There is also a device for taking water by solar power generation for the refrigeration and conden...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E03B3/28E02D5/80F03D9/11H02S10/12H02S40/38
CPCE02D5/80E03B3/28F03D9/007F03D9/11H02S10/12H02S40/38Y02B10/10Y02B10/30Y02E10/50Y02E10/72Y02E70/30Y02A40/25
Inventor 程齐
Owner SHENZHEN KANGNA ENVIRONMENT PROTECTION CO LTD
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