CN201911093U - Water and soil separated wetting type plant cultivation flowerpot - Google Patents

Abstract

The utility model relates to a water and soil separated wetting type plant cultivation flowerpot. A small flowerpot is reversely buckled in a large flowerpot; water drainage holes of the large flowerpot are arranged on the wall of the large flowerpot and are as high as the small flowerpot; the flowerpot is lower than the large flowerpot, the opening of the small flowerpot is smaller than the bottom surface of the large flowerpot, a small gap is arranged on the edge of the small flowerpot, and holes are arranged at the bottom of the small flowerpot; a pipe which is as high as the large flowerpot is used, one end of the pipe is cut into a beveled opening to be inserted into the reversely buckled small flowerpot, and the tip of the beveled opening is in contact with the bottom surface of the large flowerpot; the soil for cultivating the plant is filled between the large flowerpot and the small flowerpot, and the plant is cultivated in the soil and then fully irrigated with root fixing water; the water is irrigated into the small flowerpot through the pipe; a water level observation scale is inserted into the water pipe; the water stored in the small flowerpot wets the soil between the large flowerpot and the small flowerpot through the small gap on the edge, and is conveyed to the upper soil according to the soil capillary filling principle, and the soil moisture is automatically adjusted to meet the growth needs of the plant. The small flowerpot is reversely buckled in the large flowerpot to separate the water from the soil, so that the water stored in the flowerpot is increased and cannot be drained off and wasted, the irrigation interval of people is prolonged each time, and the plant cannot be faded even if the plant is not watered for days.

Description

Water, soil are separated infiltration type plant cultivation flowerpot

Technical field

The utility model relates to plant cultivation vessel

Background technology

Always the flowerpot used of people cultivated plant all is in the bottom or near the water hole that begins to rehearse, bottom, have more than is needed how long just the missing of water from last infiltrating irrigation can not keep the needed soil moisture of plant growing for a long time, is unfavorable for the growth of plant; People want spended time, energy to note watering to potted plant, are difficult to get hold of the humidity of soil in the flowerpot; When particularly people went out that a few days, nobody watered, plant can be withered.

Summary of the invention

The utility model is that the back-off small flower is separated water, soil in big flowerpot, and the water yield that stores in the flowerpot is increased, and the waste of can not running off has prolonged the blanking time that people pour water at every turn, and a few days does not water, and plant can be not withered yet.

Concrete grammar is: small flower of back-off in a big flowerpot; The osculum of big flowerpot is not in the bottom, it is two height place at tub wall Senior Three branch, the small flower height is 2/3rds of a big flowerpot height, the area of small flower mouth is less than the area of big flowerpot bottom surface, the shape of small flower is consistent with big flowerpot, there are a plurality of small gap or apertures that are used for by water at the edge of small flower mouth, and the small flower bottom is useful on the hole of water flowing gas and the hole of a slotting irrigation pipe; With one with the big the same high pipe of flowerpot, be whittled into angle to one, pass the insertion hole of the small flower bottom of back-off in the big flowerpot, insert in the small flower of back-off, the angle of irrigation pipe point contacts with flowerpot bottom surface greatly; Between large and small flowerpot and fill up the soil of cultivated plant in the top of big flowerpot; Plant plant and irritate enough normal root water; Water is advanced from the irrigation pipe infiltrating irrigation in the small flower of back-off, till the osculum water outlet on the big flowerpot wall; Insert a same high water level that can fluctuate with the height of water level with irrigation pipe and observe scale in irrigation pipe, the basal area of scale is less than half of irrigation pipe basal area, is convenient to pour water; The water that stores in the back-off small flower, the small gap through small flower mouth edge passes through, and soaks into the soil between the large and small flowerpot, utilizes soil capillary premium on currency principle, moisture is transported in the soil on big flowerpot top, satisfies the plant growing needs for the root absorption of plant.The upper end that water level is observed scale drop to the mouth of pipe of pouring water flat after, give in the small flower of back-off in time and to pour water.

The utility model advantage: 1., the small flower of back-off is separated water, the soil of dress in the big flowerpot in the big flowerpot, the water yield that stores in the big flowerpot is increased,, thereby prolonged the time of at every turn pouring water with the waste of can not running off, save water, reduced the time and efforts that people manage flowerpot water; Even people go out a few days, nobody waters, and plant can be not withered because of lack of water yet.2, water in big flowerpot soil in, position down, unnecessary water is drained from the osculum on the flowerpot wall, can not steep bad plant roots.3, bottom soil is subjected to from the water infiltration of small flower breach by coming in the big flowerpot, and moisture rises to top by the capillarity of soil self, for the plant absorbing growth; It is fast that plant growing absorbs moisture, and soil capillary supplies water just fast, otherwise then slow.This has just guaranteed naturally that soil moisture is fit to the needs of plant growing, helps the growth of plant.

Description of drawings

Fig. 1 is the schematic perspective view of the big flowerpot A of the utility model.

Fig. 2 is the schematic perspective view of the utility model small flower B.

Fig. 3 is that the utility model irrigation pipe shows schematic perspective view.

Fig. 4 is the schematic perspective view of the utility model water-level observation scale.

Fig. 5 is the utility model combination schematic perspective view.

Fig. 6 is that the utility model uses schematic diagram.

Embodiment

One, referring to Fig. 1, be a flowerpot A, on the wall of flowerpot A 2/3rds eminences, bore the aperture A1 that drainage ventilation is used

Two, referring to Fig. 2, do a height and be the flowerpot B of the high shape of flowerpot A height 2/3rds basin mouth diameter consistent less than flowerpot A bottom surface diameter with flowerpot A, the hole B1 that water flowing gas uses and the hole B2 of the sub-usefulness of poling, the small gap B3 that basin mouth edge has a plurality of water flowings to use are arranged at flowerpot B bottom.

Three, referring to Fig. 3, do that the same high being used to flowerpot A is poured water and the pipe C of plug in gauge, the lower port of pipe C is whittled into angle.

Four, referring to Fig. 4, be a same high gauge F with the plastic foam rod with pipe C, the cross-sectional area of scale be less than pipe C cross-sectional area half, after scale F inserts pipe, and can fluctuate with the height of water level.

Five, referring to Fig. 5, flowerpot B is tipped upside down in the flowerpot A, there is pipe C one end of angle to pass the hole B2 of flowerpot B bottom, insert in the flowerpot B of back-off, and contact with flowerpot A bottom surface, scale F is being inserted in the irrigation pipe C; Then between flowerpot A and flowerpot B and the top of flowerpot A fill up the soil that cultivated plant uses and plant plant, irritate enough normal root water, till the aperture on the flowerpot A wall has water logging to go out.

Six, referring to Fig. 6, from the suitable for reading of pipe C water is irritated in the flowerpot B, rising along with water level in the flowerpot B, the gauge come-up, last emersion three/stopped to pour water in 2 o'clock, by the time after the capillary of plant by soil absorbed the water in the flowerpot B, the gauge upper end dropped to pipe C suitable for reading when fair, gives in the flowerpot B again and pours water.

Claims (1)

1. water, soil are separated infiltration type plant cultivation flowerpot, are characterized in: small flower of back-off in big flowerpot, and the osculum of big flowerpot is at two places of tub wall Senior Three branch; The height of back-off small flower is 2/3rds of a big flowerpot height, and the area of basin mouth is less than the area of big flowerpot bottom surface; There is the hole of water flowing, ventilation in small gap or hole that back-off small flower basin mouth edge has water flowing to use on the bottom.

Images