Method for planting sedum lineare for roof landscaping
A technology of roof greening and planting methods, applied in botany equipment and methods, applications, plant cultivation, etc., can solve problems such as untimely watering, achieve the effect of improving uniformity, saving labor costs, timely and lasting watering
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 Present embodiment one has also designed a kind of planting tray 1 in order to realize the planting of S. japonica, as figure 2As shown, the overall shape of the planting tray 1 is cube-shaped, and the inner wall of the planting tray 1 is provided with a water storage chamber 2 for storing clear water. The shape of the planting tray 1 is the same, the width of the cultivating tray 8 is less than the width of the planting tray 1, the length of the cultivating tray 8 is less than the length of the planting tray 1, and the side wall of the cultivating tray 8 is threaded with a plurality of holes corresponding to the through holes. Conduit 4, conduit 4 runs through the side wall of cultivating dish 8, and the bottom plate of cultivating dish 8 is net-shaped, so that drain away excess moisture.
 Sage grass planting methods for roof greening, such as figure 1 Shown: Include the following steps:
 S1, mother bed cultivation, lay grass-proof cloth in the prese...
 The difference with Embodiment 1 is that, if image 3 As shown, the aqueduct 10 is in the shape of a cross, and the bottom of the support plate is clamped to the soft aqueduct 12 by a clamp, and the bottom of the cultivation tray 8 and the planting tray 1 is provided with a concave hole with a diameter greater than the diameter of the aqueduct 12, and one end of the aqueduct 12 is formed. The bell mouth 11, the bell mouth 11 is stuck on the water guide groove 10, and the diameter of the water guide pipe 12 gradually increases with the bell mouth 11 as the starting point.
 In S3, the aqueduct 10 is set in a cross shape, and the soft aqueduct 12 is clamped at the bottom of the support plate, and one end of the aqueduct 12 is set so that it can be clipped to the bell mouth 11 on the aqueduct 10, so that the bell mouth 11 Connect to the inclined downward notch of the aqueduct 10, snap the other end of the aqueduct 12 into the soil of the cultivation tray 8 from the ...
 The difference with Embodiment 2 is that, if Figure 4 As shown, the other end of the water guide pipe 12 is connected to the upper branch pipe, and a water guide pipe 12 can also be set separately to connect the branch pipe, so that the branch pipe can be imported into the water storage tank, and the water storage tank is installed on the wall under the roof by screws. The upper thread is connected to the outlet pipe, and a plurality of sub-water pipes are integrally formed at the end of the outlet pipe. The diameter of the sub-water pipes is smaller than the outlet pipe; a humidity sensor is inserted into the soil of the cultivation tray 8 to detect the humidity value, and the humidity sensor can use the existing pin-type soil moisture Connect the humidity sensor signal to the controller. The controller can use STC15W4K series single-chip microcomputer. Set the water pump on the sub-water pipe. The water pump can use the existing TL-C01-C12-2008 small water pump. When...
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