CN211881550U - Scalable primula water planting device - Google Patents

Abstract

The utility model discloses a scalable primula water planting device. The device comprises a containing barrel for containing nutrient solution, wherein the containing barrel comprises a plant fixing hole disc and a detachable field planting disc for fixing a root system; the inner wall of the containing barrel is provided with a buckle, and the buckle is used for fixing a horizontally placed plant fixing hole disc; the center of the plant fixing hole plate is provided with a hole, and the detachable fixed planting plate is placed in the hole; the middle part of the containing barrel forms a telescopic barrel body through a corrugated pipe structure, so that the height of the plant fixing hole disc and the detachable fixed planting disc is adjusted. By adopting the water culture device of the utility model, the size of the plant fixing hole plate can be adjusted according to the growth condition of the primula plants, thereby ensuring that the plants can be well supported, ensuring that the plants grow and flower healthily and have beautiful plant types; in addition, the depth of the water culture device can be adjusted according to the root system development condition of the primula plant, so that the nutrient solution is saved.

Description

Scalable primula water planting device

Technical Field

The utility model relates to a plant cultivation technique especially involves the hydroponic device who is used for primula plant soilless culture.

Background

The Primula of the utility model, which refers to Primula L, is a plant, herb, perennial, rare biennial. The leaves are all basal and rosette. The base of flowers 5 is usually arranged into umbelliform inflorescences at the scape end, and the smaller number is the raceme, the spike-like inflorescences or the head-like inflorescences. The species of the Chinese medicinal herbs are about 500, and are mainly distributed in the temperate zone of the northern hemisphere and the alpine region, and only few species are distributed in the southern hemisphere. Along the two sides of Himalayas mountain to Yunnan and West Sichuan, it is the modern distribution center of this genus. I have 293 species of 21 subspecies and 18 varieties, mainly produce southwest and northwest provinces, and have only a few species distribution in other regions. The flower of the plant is gorgeous and can be cultivated for appreciation. At the beginning of the century of this century, English, American and other countries have sent many times to China to collect the plants of this genus, and the seedlings are transported back to Europe and America for cultivation, wherein many of them have been widely cultivated in gardens of Europe and America, and many beautiful gardening varieties are cultivated, and Europe primula, Erythroculter, Tibetan primula and the like are commonly used in gardens of China, and the method is widely applied to early spring flower beds and flower beds.

Hydroponics (Hydroponics) is a novel soilless culture mode of plants, also called nutrient solution culture, and is characterized in that root systems of the plants are directly soaked in nutrient solution, and the nutrient solution can replace soil and provide growth factors such as water, nutrients, oxygen and the like for the plants, so that the plants can normally grow.

The devices of the prior art for hydroponics are mainly composed of two parts, a large pot placed at the bottom for containing the nutrient solution and a perforated foam plate covered at the top for placing the seedlings. The specific operation is as follows: (1) preparing a nutrient solution: preparing nutrient solution, pouring the nutrient solution into each big basin respectively, and covering the big basins with foam plates with holes; (2) root washing: taking out seedlings growing to a proper degree (two leaves and one core generally) from the seedling raising tray one by one and cleaning roots; (3) transplanting seedlings: wrapping the cleaned seedlings with a strip-shaped small sponge and fixing the wrapped seedlings in holes of a foam plate; (4) ventilating: after all seedlings are moved to the foam board, one end of the aeration pump is placed into a large basin (below the liquid level) and the foam board is covered, and the supply of oxygen in the nutrient solution is maintained by electrifying.

The existing large-basin water culture mode has many defects due to complex operation, time and labor consumption and large consumption of nutrient solution, and the main defects are as follows: the large basin consumes much nutrient solution and distilled water, because one distilled water machine can store about 10 liters of distilled water each time, and the distilled water machine can be used continuously after a long time. Normally, one pot needs to be filled with 12 liters of nutrient solution to ensure that the root of the seedling is not below the liquid level as far as possible, and the 12 liters of nutrient solution needs to be poured into each pot again after every two or three days of water changing, so the process is high in cost and time and labor consuming, the culture process of water culture is generally carried out in an artificial climate chamber, a large pot needs to be transported to the artificial climate chamber to be cultured after the nutrient solution is filled every time, the large pot filled with the 12 liters of nutrient solution can only be transferred by a trailer, only two or three pots can be transferred at each time, the efficiency is very low, the occupied area of the large pot is large, and the requirement on space is high.

The whole basal growth of primula plant leaf is the rosette form, does not have obvious stem, and the root system is flourishing, and it is different from woody plant and utensil stem plant when the water planting, at the plant growth in-process, need adjust the specification of fixed orifices dish and field planting dish in good time according to its growth situation, so that can support plant growth and root system extension, and it is less at growth initial stage nutrition demand and space demand, and current hydroponics device is difficult to satisfy the demand of the different stages of primula water planting.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve at the vegetation in-process, along with the development and the extension of root system, the degree of depth of the nutrient solution of needs is more and more dark, this just makes the water planting operation must use the darker hydroponic device of the degree of depth to go on as far as possible, simultaneously in order to ensure illuminance, set up the plant in the upper end opening of hydroponic device as far as possible, will waste the technical problem of nutrient solution in a large number at vegetation's initial stage like this, a hydroponic device is proposed, can be according to the degree of depth of the root system development condition adjustment hydroponic device of plant, consequently, the nutrient solution has been practiced thrift. In order to achieve the object, the present invention adopts the following technical solutions.

A hydroponic device comprises a containing barrel for containing nutrient solution, wherein the containing barrel comprises a plant fixing hole disc and a detachable field planting disc for fixing a root system;

the inner wall of the containing barrel is provided with a buckle which is used for fixing a plant fixing hole disc which is horizontally placed;

the center of the plant fixing hole plate is provided with a hole, and the detachable fixed planting plate is placed in the hole;

the middle part of the containing barrel forms a telescopic barrel body through a corrugated pipe structure, and the height of the containing barrel, the plant fixing hole disc and the detachable fixed planting disc is adjusted from this.

Through the structure that sets up, the utility model discloses a hydroponic device can be according to the degree of depth of the root system condition of development adjustment hydroponic device of plant, has consequently practiced thrift the nutrient solution.

The device comprises a containing barrel, a corrugated pipe structure, a plant fixing hole plate, a measuring instrument probe, an oxygen inlet pipe, a measuring instrument probe and a nutrient solution, wherein two holes are formed in the opposite positions of the side wall of the containing barrel, the holes in the side wall are used for placing the oxygen inlet pipe, the measuring instrument probe and the nutrient.

Through the structure that sets up above, the utility model discloses a hydroponic device can conveniently add the nutrient solution under the condition that does not remove the plant fixed orifices dish, perhaps inserts measuring instrument probe (for example temperature sensor, humidity transducer etc.), convenient operation.

In addition, the bottom of the containing barrel is provided with a liquid discharge hole device for discharging nutrient solution.

In addition, the middle upper part of the containing barrel is provided with a low-power light supplementing lamp tube and a fixing part of the lamp tube on the plant fixing hole disc.

Through the structure that sets up, the utility model discloses a hydroponics device can promote the growth of plant for the plant supplements light.

In addition, the size of the central hole of the plant fixing hole plate is adjustable, and the size of the hole is adjustable through the following structure:

the driving part comprises two coaxial rings, the two coaxial rings are arranged along the axial direction, the outer periphery of the first coaxial ring is provided with grooves for increasing friction force and is used for an operator to hold and rotate, the outer periphery of the second coaxial ring is provided with a plurality of driving pieces in involute shapes along the radial direction, the driving pieces are provided with grooves along the axial direction, and the first coaxial ring and the second coaxial ring are fixedly connected and synchronously rotate;

the driven part is meshed with the driving part and comprises a plurality of ejector blocks which are matched with a plurality of driving parts of a second coaxial ring one by one, one end of each ejector block is cylindrical, and the cylinder of each ejector block is embedded into a groove in the axial direction of the driving part matched with the ejector block and can slide along the length direction of the groove; the other end of the ejector block is extruded by an elastic element, so that the ejector block is pressed against the driving piece; each of the plurality of top blocks is fixedly connected to an orifice block along the axial direction, and the plurality of orifice blocks are arranged in the circumferential direction to form a central hole of the plant fixing orifice disc together.

Through the structure that sets up above, the utility model discloses a hydroponic device's operation mode does: when needs enlarge during the centre bore of plant fixed orifices dish, the user grips the outward flange of first coaxial ring and rotates, and first coaxial ring drives the coaxial ring synchronous revolution of second, and the outward flange of the coaxial ring of second has a plurality of driving pieces, the driving piece has involute structure, consequently can outwards extrude complex kicking block with it, and the kicking block then drives fixed connection's orifice piece with it in step, from this orifice piece to the direction removal of keeping away from the centre of a circle, promptly the centre bore of plant fixed orifices dish has been enlarged.

When the center hole of the plant fixing hole disc needs to be reduced, a user holds the outer edge of the first coaxial ring and rotates reversely, the first coaxial ring drives the second coaxial ring to rotate synchronously in a reverse mode, the outer edge of the second coaxial ring is provided with a plurality of driving pieces, the involute structure of the driving pieces guides the ejector blocks to approach to the direction of the circle center (the elastic elements ensure the effect of clinging), and the orifice blocks can also move towards the direction of the circle center. The central hole of the plant fixation hole disk is thus reduced.

Particularly, the driven part also comprises a guide frame which is in a ring shape coaxial with the first coaxial ring and the second coaxial ring, and the middle part of the guide frame is provided with a hole; the ring shape is a hollow structure and comprises a top layer and a bottom layer, and a plurality of radially arranged isolation ribs are arranged between the top layer and the bottom layer; the other end of each of the plurality of top blocks and the elastic member corresponding thereto are disposed between two adjacent partition ribs that guide a radial moving direction of the top block.

Drawings

Fig. 1 is a schematic view (front view) of the overall structure of a hydroponic device according to an embodiment of the present invention.

Figure 2 is according to the utility model discloses in the embodiment the principle sketch of the size adjustment of the centre bore of hydroponic device plant fixed orifices dish.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

Detailed exemplary embodiments are disclosed below. However, specific structural and functional details disclosed herein are merely for purposes of describing example embodiments.

It should be understood, however, that the invention is not to be limited to the particular exemplary embodiments disclosed, but to cover all modifications, equivalents, and alternatives falling within the scope of the present disclosure. Like reference numerals refer to like elements throughout the description of the figures.

Referring to the drawings, the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function and the achievable purpose of the present invention. Meanwhile, the position limitation terms cited in the present specification are for clarity of description only, and are not intended to limit the scope of the present invention, and the changes or adjustments of the relative relationship thereof should be considered as the scope of the present invention without substantial changes in the technical content.

It will also be understood that the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items. It will be further understood that when an element or unit is referred to as being "connected" or "coupled" to another element or unit, it can be directly connected or coupled to the other element or unit or intervening elements or units may also be present. Moreover, other words used to describe the relationship between components or elements should be understood in the same manner (e.g., "between" versus "directly between," "adjacent" versus "directly adjacent," etc.).

Fig. 1 is a schematic view (front view) of the overall structure of a hydroponic device according to an embodiment of the present invention. As shown in the figures, the embodiment of the utility model comprises a water culture device, the water culture device comprises a containing barrel 10 for containing nutrient solution, the containing barrel 10 comprises a plant fixing hole plate 101 and a detachable field planting plate 102 for fixing a root system;

wherein, the inner wall of the containing barrel 10 is provided with a buckle which is used for fixing the plant fixing hole disc 101 which is horizontally placed;

the center of the plant fixing hole plate 101 is provided with a hole, and the detachable fixed planting plate 102 is placed in the hole;

the middle part of the containing barrel 10 forms a telescopic barrel body through a corrugated pipe structure 103, and the height of the containing barrel 10, the plant fixing hole disc 101 and the detachable fixed planting disc 102 is adjusted accordingly.

Through the structure that sets up, the utility model discloses a hydroponic device can be according to the degree of depth of the root system condition of development adjustment hydroponic device of plant, has consequently practiced thrift the nutrient solution.

In a specific embodiment of the present invention, two holes 104 are provided at the relative position of the sidewall of the container 10, the holes 104 on the sidewall are used for placing oxygen inlet tubes, measuring instrument probes and nutrient solution, and the height of the holes 104 is located below the plant fixing hole plate 101 and above the corrugated tube structure 103.

Through the structure that sets up above, the utility model discloses a hydroponic device can conveniently add the nutrient solution under the condition that does not remove plant fixed orifices dish 101, perhaps inserts measuring instrument probe (for example temperature sensor, humidity transducer etc.), convenient operation.

In addition, in a specific embodiment of the present invention, the bottom of the container 10 is provided with a liquid outlet device for discharging the nutrient solution.

In addition, in an embodiment of the present invention, the upper middle portion of the containing barrel 10 is provided with a small power light-filling lamp tube 106 and a fixing member of the lamp tube on the plant fixing hole tray 101.

Through the structure that sets up, the utility model discloses a hydroponics device can promote the growth of plant for the plant supplements light.

Figure 2 is according to the utility model discloses in the embodiment the principle sketch of the size adjustment of the centre bore of hydroponic device plant fixed orifices dish. As shown in fig. 2, in a specific embodiment of the present invention, the size of the central hole of the plant fixing hole plate 101 is adjustable, and the hole size is adjustable through the following structure:

the driving part comprises two coaxial rings which are arranged along the axial direction, the outer periphery of a first coaxial ring (not shown) is provided with grooves for increasing friction force and used for an operator to hold and rotate, the outer periphery of a second coaxial ring 202 is provided with a plurality of driving pieces 2021 with involute shapes in the radial direction, the driving pieces 2021 are provided with grooves along the axial direction, and the first coaxial ring 202 and the second coaxial ring 202 are fixedly connected and rotate synchronously;

the driven part is meshed with the driving part and comprises a plurality of top blocks 3011 which are matched with a plurality of driving pieces 2021 of a second coaxial ring one by one, one end of each top block 3011 is cylindrical, and the cylindrical shape of each top block 3011 is embedded into a groove in the axial direction of the driving piece 2021 matched with the cylindrical shape and can slide along the length direction of the groove; the other end of the top block 3011 is pressed by an elastic element 3012, so that the top block 3011 is pressed against the driving element 2021; each of the plurality of top blocks 3011 is fixedly connected to an orifice block along an axial direction, and the plurality of orifice blocks are arranged in a circumferential direction to form a central hole of the plant fixing orifice disc.

Through the structure that sets up above, the utility model discloses a hydroponic device's operation mode does: when the centre bore of plant fixed orifices dish 101 needs to expand, the user holds the outward flange of first coaxial ring and rotates, and first coaxial ring drives second coaxial ring 202 synchronous revolution, and the outward flange of second coaxial ring 202 has a plurality of driving pieces 2021, driving piece 2021 has involute structure, consequently can outwards extrude ejector block 3011 with it complex, and ejector block 3011 then drives fixed connection's mouth of a hole piece with it in step, from this mouth of a hole piece to the direction of keeping away from the centre of a circle removal, promptly the centre bore of plant fixed orifices dish 101 has been expanded.

When the center hole of the plant fixing hole disc 101 needs to be narrowed, a user holds the outer edge of the first coaxial ring and rotates reversely, the first coaxial ring reversely drives the second coaxial ring 202 to rotate synchronously, the outer edge of the second coaxial ring 202 is provided with a plurality of driving pieces 2021, the involute structure of the driving pieces 2021 guides the jacking block 3011 to approach to the center of the circle (the elastic element 3012 ensures the close-fitting effect of the jacking block 3011), and the orifice block also moves towards the center of the circle. The center hole of the plant fixing hole plate 101 is thus reduced.

In particular, in an embodiment of the present invention, the driven part further includes a guiding frame, the guiding frame is a ring shape coaxial with the first coaxial ring and the second coaxial ring 202, and the middle part of the guiding frame has a hole; the ring shape is a hollow structure and comprises a top layer and a bottom layer, and a plurality of radially arranged isolation ribs are arranged between the top layer and the bottom layer; the other end of each of the plurality of top blocks 3011 and the elastic element 3012 corresponding thereto are disposed between two adjacent partition ribs that guide a radial moving direction of the top block 3011.

Therefore, with the above arrangement, it can be ensured that the other end of each of the plurality of top blocks 3011 and the elastic element 3012 corresponding thereto are arranged between two adjacent barrier ribs without deviating from a predetermined movement trajectory and causing an error.

While the foregoing description shows and describes several preferred embodiments of the invention, it is to be understood, as noted above, that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive or to exclude other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (6)

1. A scalable primula sikkmensis water culture device comprises a containing barrel for containing nutrient solution, wherein the containing barrel comprises a plant fixing hole disc and a detachable field planting disc for fixing a root system; it is characterized in that the preparation method is characterized in that,

the inner wall of the containing barrel is provided with a buckle which is used for fixing a horizontally placed plant fixing hole disc;

the center of the plant fixing hole plate is provided with a hole, and the detachable fixed planting plate is placed in the hole;

the middle part of the containing barrel forms a telescopic barrel body through a corrugated pipe structure, and the height of the containing barrel, the plant fixing hole disc and the detachable fixed planting disc is adjusted from this.

2. The scalable primula sikkimensis water culture device according to claim 1, wherein two holes are provided at opposite positions of the sidewall of the holding barrel, the holes are used for placing oxygen inlet pipes, measuring instrument probes and nutrient solution, and the height of the holes is below the plant fixing hole plate and above the corrugated pipe structure.

3. The scalable primula water culture device according to claim 1, wherein a drain hole means is provided at the bottom of the holding barrel for draining the nutrient solution.

4. The retractable primula sikkmensis hook hydroponic device as claimed in claim 1, wherein a low-power light supplement lamp tube and a lamp tube fixing member are arranged on the plant fixing hole plate at the middle upper part of the holding barrel.

5. The scalable primula hydroponics device of claim 1, wherein the central hole of the plant fixation hole disc is adjustable in size, the hole adjustable in size being achieved by:

the driving part comprises two coaxial rings, the two coaxial rings are arranged along the axial direction, the outer periphery of the first coaxial ring is provided with grooves for increasing friction force and is used for an operator to hold and rotate, the outer periphery of the second coaxial ring is provided with a plurality of driving pieces in involute shapes along the radial direction, the driving pieces are provided with grooves along the axial direction, and the first coaxial ring and the second coaxial ring are fixedly connected and synchronously rotate;

the driven part is meshed with the driving part and comprises a plurality of ejector blocks which are matched with a plurality of driving parts of a second coaxial ring one by one, one end of each ejector block is cylindrical, and the cylinder of each ejector block is embedded into a groove in the axial direction of the driving part matched with the ejector block and can slide along the length direction of the groove; the other end of the ejector block is extruded by an elastic element, so that the ejector block is pressed against the driving piece; each of the plurality of top blocks is fixedly connected to an orifice block along the axial direction, and the plurality of orifice blocks are arranged in the circumferential direction to form a central hole of the plant fixing orifice disc together.

6. The scalable primula hydroponics device of claim 5, wherein the driven portion further comprises a guide frame, the guide frame is a ring shape coaxial with the first and second coaxial rings, and has a hole in the middle; the ring shape is a hollow structure and comprises a top layer and a bottom layer, and a plurality of radially arranged isolation ribs are arranged between the top layer and the bottom layer; the other end of each of the plurality of top blocks and the elastic member corresponding thereto are disposed between two adjacent partition ribs that guide a radial moving direction of the top block.

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