CN110839432B - Make things convenient for intelligent flowerpot that plant moved - Google Patents

Abstract

The invention relates to the technical field of potted plant planting, in particular to an intelligent flowerpot convenient for moving plants. When needs will plant the basin and take out to outdoor absorption sunshine alone, can rotate the connection pad to the one side that leaves outer basin body to plant the direct taking out of basin, can avoid the connection pad to block the plant, make and plant the basin and can't upwards take out in outer basin body, and will plant the basin and directly put back outer basin body after not absorbing the sunshine at night on, very convenient. When needs are toward the internal water storage of outer basin in addition, rotating the connection pad and will planting the basin and take out the back, can place the planting basin on the standing groove of connection pad, this mode can be more quick completion water storage to because the outer basin body is fixed in on the plane through the sucking disc, consequently plant the basin and place and can not lead to the outer basin body to empty on the connection pad, and this water storage mode still can avoid planting the basin bottom surface and be stained with wet and make dirty plane, and is very convenient.

Description

Make things convenient for intelligent flowerpot that plant moved

Technical Field

The invention relates to the technical field of potted plant planting, in particular to an intelligent flowerpot convenient for moving plants.

Background

With the improvement of living standard of people, the planting of flowers and plants becomes a leisure mode for the body building and the health maintenance of most people. Most of the planted flowers and plants are placed on planting pots for cultivation. Because people are difficult to avoid in life or need to go out for a long time because of work or private affairs, the plant of easily making the cultivation can not in time take care of, in view of this, the available humidity transducer of this flowerpot has developed a kind of flowerpot of relative intellectuality, and the usable humidity transducer of this flowerpot responds to soil moisture to convert it into the signal of telecommunication and control the water pump and carry water to the water jet equipment who plants the basin top, make water jet equipment spray water to the plant and realize the technique of watering.

However, the intelligent flowerpot in the prior art provides a water source for the water pump, and the outer pot body is either separated from the planting pot or connected with the planting pot into a whole. Wherein, the flowerpot is connected to form the integrative outer basin body and is mostly located the bottom of planting the basin. When the flowerpot needs to be removed to enable the plants to fully absorb sunlight, the flowerpot is inconvenient to be wholly removed due to the outer pot body for storing water, and the flowerpot is very inconvenient. And the top end of the plant is close to the water spraying device for spraying water at the top of the flowerpot along with the growth of the plant, so that the planting pot is not convenient to take out.

Disclosure of Invention

The invention provides an intelligent flowerpot convenient for moving plants, and aims to solve the problems that an existing automatic watering flowerpot is inconvenient to move and water storage is inconvenient.

The invention adopts the following technical scheme: the utility model provides a make things convenient for intelligent flowerpot that plant moved, including the basin body, imbed in the internal planting basin of basin and the connection pad that is located basin body top outside, basin body one side fixedly connected with branch outside, the connection pad is fixed in the top of branch, its characterized in that: the bottom of the outer pot body is fixed with a plurality of suckers, the bottom of the outer pot body is also spirally connected with a plurality of bolts, the thickness of the screw heads of the bolts is smaller than the height of the suckers after being extruded, and the bolts are spirally connected to the bottom of the outer pot body from bottom to top; a circle of flanges are integrally formed on the side wall, close to the upper end face of the bottom, below the inner part of the outer pot body, the flanges are covered with partition plates, and a gap between each partition plate and the inner wall of the outer pot body is sealed; a shaft sleeve is fixed at the top of the support rod, a rotating shaft is arranged on one side of the connecting disc and embedded in the shaft sleeve, and a clamping ring is assembled and connected to the bottom of the shaft sleeve after the rotating shaft penetrates through the shaft sleeve; the top of the connecting disc is inwards sunken to form a placing groove, and the bottom of the planting pot is embedded into the placing groove in a matching mode. The branch is connected with a first conduit, and two ends of the first conduit are respectively connected to the inside of the placing groove and the inside of the outer basin body.

As a further improvement, a heater and a temperature sensor are fixed on the bottom surface of the connecting disc, the temperature sensor senses the temperature and transmits a signal to a controller, and the controller receives the signal to control the on and off of the heater.

As a further improvement, the support rod is connected with a guide pipe, the bottom surface of the placing groove is a flat plate made of heat conducting materials, and the heater is fixed at the bottom of the flat plate.

As a further improvement, a humidity sensor is arranged in the planting pot, a gap is formed between the bottom of the planting pot and the bottom surface in the outer pot body, a water pump is placed in the gap, a water ring is fixed on the bottom surface of the connecting disc, a plurality of spray heads with downward directions are distributed on the water ring, and the output end of the water pump is connected to the water ring.

As a further improvement, the support rod is connected with a guide pipe, and two ends of the guide pipe are respectively connected to the water ring and the output end of the water pump in the outer basin body.

As a further improvement, a circle of flanges are integrally formed on the lower side wall in the outer pot body, the flanges are covered with partition plates, and gaps between the partition plates and the inner wall of the outer pot body are bonded and sealed by adhesives.

As a further improvement, the bottom of the planting pot is provided with a water seepage hole which runs through, and the bottom of the planting pot is paved with a filter screen.

As a further improvement, a transparent water level observation window is arranged on one side of the outer pot body.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: when the planting pot needs to be taken out independently to absorb sunlight outdoors, the connecting disc can be rotated to one side away from the outer pot body, so that the planting pot can be taken out directly, the situation that the connecting disc blocks plants and the planting pot cannot be taken out upwards in the outer pot body is avoided, and the planting pot is directly placed back to the outer pot body after sunlight is not absorbed at night, and the planting pot is very convenient. When needs are toward the internal water storage of outer basin in addition, rotating the connection pad and will planting the basin and take out the back, can place the planting basin on the standing groove of connection pad, this mode can be more quick completion water storage, and because the outer basin body is fixed in on the plane through the sucking disc, consequently plant the basin and place and can not lead to the outer basin body to empty on the connection pad, and because the water of planting the internal storage of basin bottom long-term orientation in outer basin is in moist state, consequently will plant the mode that the basin placed on the connection pad, still can avoid planting the basin bottom surface and be stained with and dirty the plane.

Drawings

Fig. 1 is a schematic perspective view of an oblique top view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is an enlarged view of direction a in fig. 2.

Fig. 4 is a schematic perspective view of the planting pot in a tilted bottom view.

Fig. 5 is a side view of the internal structure of the present invention.

Fig. 6 is an enlarged view of the direction B in fig. 5.

Fig. 7 is an enlarged view of the direction C in fig. 5.

Fig. 8 is an enlarged view of the direction D in fig. 5.

FIG. 9 is a side view of the plant pot placed behind the connecting disc.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in attached figures 1, 2 and 5, the intelligent flowerpot convenient for moving plants comprises an outer pot body 1, a planting pot 2 embedded in the outer pot body 1 and a connecting disc 4 positioned above the outer pot body 1. Plant 2 top-down's the embedding of basin in the basin body 1 outward, and after the last lip 21 that will plant basin 2 along the outer basin body 1 blocked, there is the clearance between the bottom of planting basin 2 and the bottom surface in the basin body 1 outward, and this clearance is used for the water storage. The planting pot 2 is used for filling soil and planting plants, the bottom of the planting pot 2 is provided with a plurality of penetrating water seepage holes 22, the bottom of the planting pot 2 is paved with a layer of filter screen (not shown in the drawing), the filter screen covers the water seepage holes 22, and after the soil is filled in the planting pot 2, the filter screen is used for further preventing the soil from leaking from the water seepage holes 22 and then flowing out. A transparent water level observation window 11 is further arranged on one side of the outer pot body 1, and the observation window 11 is used for observing the water level height inside the outer pot body 1.

As shown in fig. 1, 5 to 8, a plurality of suckers 13 are fixed at the bottom of the outer pot body 1, and a plurality of bolts 14 are further screwed on the bottom of the outer pot body 1, in order to prevent water in the outer pot body 1 from seeping out from the threaded holes connected with the bolts 14, a circle of flanges 15 are further integrally formed on the lower side wall in the outer pot body 1, a partition plate 16 is covered on the flanges 15, and a gap between the partition plate 16 and the inner wall of the outer pot body 1 is sealed by an adhesive (such as glass cement) in an adhering manner, so that water is prevented from seeping out to the bottom end face of the bolt 14 for connecting the outer pot body. In addition, the bolts 14 are all spirally connected to the bottom of the outer pot body 1 from bottom to top, and the thickness of the heads 141 of the bolts 14 is smaller than the height of the suckers 13 after being extruded. When the outer pot body 1 is placed on a plane (such as a table top), water is stored in the outer pot body 1, the outer pot body 1 is pressed down by gravity formed by the weight of the outer pot body 1 and the weight of the water in the outer pot body 1, so that air between each sucking disc 13 and the plane is squeezed out, the sucking discs 13 are adsorbed and fixed on the plane, and the outer pot body 1 is fixed on the plane; or the outer pot body 1 can be directly pressed down to extrude the air in each sucker 13 and the plane, and the suckers 13 and the outer pot body 1 can be fixed on the plane, so that the outer pot body 1 can be effectively fixed on the plane by the two modes, and the flowerpot is prevented from falling. When the outer pot body 1 needs to be moved, the sucker 13 is used for absorbing the outer pot body 1 on the plane, so that the outer pot body 1 cannot be directly held up conveniently, a wrench can be used for penetrating into the bottom of the outer pot body 1 under the condition, the bolt 14 is screwed out downwards, the bolt 14 moves downwards to enable the screw head 141 to be jacked up to the plane, the outer pot body 1 is jacked up, the sucker 13 is separated from the plane, and the outer pot body 1 can be easily held up.

As shown in fig. 1 to 3 and fig. 5 and 7, a support rod 3 is fixedly connected to one side of the outer tub body 1, the top of the support rod 3 is connected to the connection plate 4, and the support rod 3 is a curved arc-shaped structure, specifically, an arc-shaped structure protruding outward from the outer tub body 1. The upper end and the lower end of the supporting rod 3 are connected with the outer pot body 1 and the connecting disc 4 through screws in a locking mode, or the outer pot body 1 and the supporting rod 3 can be designed into a die-casting integrated structure during production for improving the stability of the supporting rod 3. The top of the support rod 3 is fixed with a shaft sleeve 32, one side of the connecting disc 4 is provided with a rotating shaft 43, and the support rod 3, the shaft sleeve 32, the connecting disc 4 and the rotating shaft 43 can be integrally formed by injection molding. During assembly, the rotating shaft 43 is embedded in the shaft sleeve 32, and after the rotating shaft 43 passes through the shaft sleeve 32, a snap ring 33 is assembled and connected to the bottom of the shaft sleeve 32, the snap ring 33 is a snap spring accessory for limiting axial movement in mechanical assembly, so that the connecting disc 4 is positioned on the strut 3 and can only rotate relative to the shaft sleeve 32 of the strut 3 through the structure limited by the snap ring 33.

As shown in fig. 2 and 5, the connecting disc 4 corresponds to the upper part of the planting pot 2, a water ring 53 is fixed on the bottom surface of the connecting disc 4, the water ring 53 is a stainless steel circular tube with a closed loop structure, and a plurality of downward nozzles 54 are fixedly connected on the bottom surface of the water ring 53. A water pump 51 is arranged on the partition plate in the outer basin body 1, the output end of the water pump 51 is connected with a conduit 52, and the other end of the conduit 52, opposite to the water pump, is connected to the water ring 53. As shown in figure 6, the side surface of the upper part 1 of the outer pot body is provided with a threading hole 12, and the conduit 55 and the power line of the water pump 51 can penetrate through the threading hole 12 to be respectively connected with the power supply and the water ring 53. Water in the outer pot body 1 is upwards pumped into the water ring 53 through the water pump 51, so that water is downwards sprayed to plants cultivated in the planting pots 2 through the spray heads 54 on the water ring 53, watering by utilizing the water in the outer pot body 1 can be realized, and the water falls back into the outer pot body 1 after watering, so that the water can be repeatedly utilized.

As shown in fig. 3, a humidity sensor (not shown) is further disposed in the planting pot 2, the humidity sensor is inserted into soil filled in the planting pot 2, and the humidity sensor and the water pump 51 are both electrically connected to a controller, the controller is a circuit board including a single chip, and the controller can be embedded in the supporting rod 3. Preferably, branch 3 is equipped with inside sunken appearance line groove 31 along its length direction, pipe 52 can be accomodate to appearance line groove 31 in to improve the holistic aesthetic measure of flowerpot, and pipe 52 reserves one section length in the upper end of appearance line groove, when avoiding connection pad 4 to rotate, because of pipe 52 length is not enough and restrict connection pad 4 turned angle. Furthermore, the line accommodating groove 31 can be matched with a sealing cover which can be buckled and connected, and after the guide pipe 52 is accommodated in the line accommodating groove 31, the line accommodating groove 31 is sealed by the cover, so that the circuit can be prevented from being polluted by dust, and the integral neatness of the flowerpot is improved.

When the flowerpot works, the humidity sensor sends the detected humidity of the soil in the planting pot 2 to the controller, when the humidity is lower than the lower limit value, the controller controls the water pump 51 to work, the guide pipe 52 guides the water in the outer pot body 1 into the water ring 53, and the water is enabled to be irrigated to the plants and the soil on the planting pot 2 through the spray head 54 on the water ring 53; and when the humidity sensor detects that the humidity of the soil is higher than the upper limit value, the controller controls the water pump 51 to stop working, and root rot of plants in the planting pot 2 caused by overhigh humidity of the soil is avoided. When people have no time to take the plants on the planting pot, the intelligent automatic watering mode can lead the maintained plants to be cared in time, and is greatly convenient for people to take care of the plants. Furthermore, each electric appliance of the invention can be electrically connected to a power line and connected to the mains supply through the power line to realize work.

The top surface of the connecting disc 4 is sunken inwards to form a placing groove 41, and the bottom of the planting pot 2 can be embedded into the placing groove 41 in a matching mode. Preferably, the placing groove 41 can be further connected with an end cover 45 in a buckling manner, and the end cover 45 can be always buckled on the notch of the placing groove 41 under the condition that the planting pot 2 is not placed.

After the plant in planting basin 2 grows to being close to connection pad 4 bottom surface, when needs will plant basin 2 and take out alone to outdoor absorption sunshine, can rotate connection pad 4 to the one side that leaves the outer basin body as shown in figure 9 to will plant the direct taking out of basin 2, can avoid connection pad 4 to block the plant, make and plant basin 1 can't upwards take out in outer basin body 1. In addition, when water needs to be stored in the outer pot body 1, the water can be directly slowly watered to the soil of the planting pot 2, so that the water slowly flows into the outer pot body 1 through the soil and the water seepage holes 22 at the bottom of the planting pot 2. Or can be rotating connection pad 4 and will plant the basin 2 and take out the back, can place planting basin 2 on the standing groove 41 of connection pad 4, this mode can be more quick completion water storage, and because outer basin body 1 is fixed in on the plane through sucking disc 13, consequently plant basin 2 and place and can not lead to outer basin body 1 to empty on connection pad 4, and because plant 2 bottom surfaces of basin and face towards the water of storing in outer basin body 1 for a long time, be in moist state, consequently will plant the mode that basin 2 placed on connection pad 4, still can avoid planting 2 bottom surfaces of basin and wet and make dirty plane. In addition, because the supporting rod 3 is a curved structure fixed on the outer pot body 1, after the connecting disc 4 rotates to leave the outer pot body, the structure of the supporting rod 3 can prevent the connecting disc 4 from bending outwards due to the gravity of the planting pot 2.

As shown in fig. 5 and 9, the bottom plane of the connecting plate 4 (i.e. the bottom surface of the placing groove 41) is a flat plate 44 of heat conducting material, specifically, a stainless steel plate, and the fixing manner of the connecting plate is the same as that of the partition 16. A heater 45 and a temperature sensor are fixed on the bottom surface of the connecting disc 4, the heater 45 can be an electric heating sheet in the prior art, the temperature sensor senses the ambient temperature of the plant and transmits a signal to a controller, and the controller receives the signal to control the on-off of the heater 45. Make the plant be in comparatively suitable temperature through this mode, avoid leading to the plant to freeze because of the temperature is low to when having ponding in standing groove 41, for avoiding breeding the bacterium, accessible controller control heater 45's heating process the dull and stereotyped temperature transmission to standing groove 41 in, thereby evaporate the water of standing groove 41. In addition, the water ring 33 is similarly connected to the bottom surface of the plate 44, and the water ring 33 may be fixed to the bottom of the plate 44 by a pipe clamp welded to the bottom 44 of the plate, so that the temperature generated by the heater can be transferred to the water ring 33 by the heat conduction of the plate 44, thereby increasing the temperature of the water in the water ring 333 to a certain extent and maintaining the water for irrigation at a suitable temperature.

In addition, as a preferable application mode of the present invention, the present invention may further include a light intensity detector disposed on the bottom surface of the land 4 and an ultraviolet lamp disposed at a high position in the middle of the bottom of the land 4. Light intensity detector and temperature sensor and ultraviolet lamp all are connected to above-mentioned controller electrically, and above-mentioned controller can set up to be connected to APP terminal through WIFI or wireless network, and this APP terminal can be equipment such as smart mobile phone and panel computer.

The light intensity detector is used for detecting the illumination intensity around the plant in real time, a user acquires the illumination intensity of the plant growing environment through APP terminal collection, and when the illumination intensity is detected to be higher than 130lx, the illumination intensity of the environment where the plant is located is sufficient; on the contrary, when the detected illumination intensity is lower than 130lx, it indicates that the ambient illumination of the plant is insufficient, and at this moment, the user can set the brightness of the ultraviolet lamp through the APP terminal to simulate the sunlight, so as to provide sufficient light to promote the photosynthesis of the plant.

The controller can also be internally provided with a memory for storing the cultivated plant species, the growing environment and the growing data thereof, and the content stored by the memory can also upload the plant growing data to a cloud server through an APP to be integrated into big data. Later stage user accessible APP obtains the illumination that various types of plants are suitable for growing, data such as humidity and temperature to carry out relevant threshold's settlement according to these data, thereby be convenient for better carry out the maintenance to the plant.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (8)

1. The utility model provides a make things convenient for intelligent flowerpot that plant moved, including the basin body, imbed in the internal planting basin of basin and the connection pad that is located basin body top outside, basin body one side fixedly connected with branch outside, the connection pad is fixed in the top of branch, its characterized in that: the bottom of the outer pot body is fixed with a plurality of suckers, the bottom of the outer pot body is also spirally connected with a plurality of bolts, the thickness of the screw heads of the bolts is smaller than the height of the suckers after being extruded, and the bolts are spirally connected to the bottom of the outer pot body from bottom to top; a circle of flanges are integrally formed on the side wall, close to the upper end face of the bottom, below the inner part of the outer pot body, the flanges are covered with partition plates, and a gap between each partition plate and the inner wall of the outer pot body is sealed; a shaft sleeve is fixed at the top of the support rod, a rotating shaft is arranged on one side of the connecting disc and embedded in the shaft sleeve, and a clamping ring is assembled and connected to the bottom of the shaft sleeve after the rotating shaft penetrates through the shaft sleeve; the top surface of the connecting disc is inwards sunken to form a placing groove, and the bottom of the planting pot is embedded into the placing groove in a matching manner; the branch is connected with a first conduit, and two ends of the first conduit are respectively connected to the inside of the placing groove and the inside of the outer basin body.

2. The intelligent flowerpot convenient for moving plants according to claim 1, wherein the flowerpot comprises: the bottom surface of the connecting disc is fixedly provided with a heater and a temperature sensor, the temperature sensor senses the temperature and transmits a signal to the controller, and the controller receives the signal to control the on-off of the heater.

3. The intelligent flowerpot convenient for moving plants as claimed in claim 2, wherein: the bottom surface of the placing groove is a flat plate made of heat conducting materials, and the heater lamp is fixed at the bottom of the flat plate.

4. The intelligent flowerpot convenient for moving plants according to claim 1, wherein the flowerpot comprises: the planting pot is internally provided with a humidity sensor, a gap is formed between the bottom of the planting pot and the bottom surface in the outer pot body, a water pump is placed in the gap, the bottom surface of the connecting disc is fixed with a water ring, a plurality of spray heads with downward directions are distributed on the water ring, and the output end of the water pump is connected to the water ring.

5. The intelligent flowerpot convenient for moving plants as claimed in claim 4, wherein the flowerpot comprises: the support rod is connected with a guide pipe, and two ends of the guide pipe are respectively connected to the water ring and the output end of the water pump in the outer basin body.

6. The intelligent flowerpot convenient for moving plants according to claim 5, wherein the flowerpot comprises: the side surface above the outer pot body is provided with a pipe penetrating hole, and the conduit penetrates into the outer pot body through the pipe penetrating hole.

7. The intelligent flowerpot convenient for moving plants according to claim 1, wherein the flowerpot comprises: the bottom of planting the basin is equipped with the infiltration hole that runs through, and plants the pelvic floor portion bedding and have the filter screen.

8. The intelligent flowerpot convenient for moving plants according to claim 1, wherein the flowerpot comprises: one side of the outer pot body is also provided with a transparent water level observation window.

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