CN219305510U - Flowerpot and system based on 3D printing technology - Google Patents

Abstract

The utility model relates to the technical field of flowerpots and provides a flowerpot and a system based on a 3D printing technology, wherein the flowerpot based on the 3D printing technology comprises a plug assembly, the plug assembly comprises a plug plate, a cover body and a plurality of plug cups, a plurality of first through holes and a plurality of second through holes are formed in the plug plate, the plug plate is arranged above the plug cups, each first through hole and each second through hole is connected with one plug cup, the plug cups are used for storing nutrients, and the cover body is covered on the first through holes or the second through holes; wherein the hole tray plate, the hole tray cup and the cover body are all manufactured by a 3D printing technology. According to the flowerpot based on the 3D printing technology, a user can set a plurality of first through holes and a plurality of second through holes on the plug board according to requirements, the first through holes and/or the second through holes form a certain pattern, and then potted plants with a certain pattern are planted in the plug cups, so that diversity of potted plant pattern landscaping is improved, ornamental value is high, and user requirements are met.

Description

Flowerpot and system based on 3D printing technology

Technical Field

The utility model relates to the technical field of flowerpots, in particular to a flowerpot and a flowerpot system based on a 3D printing technology.

Background

With the rapid development of economy and the increasing of the living standard of substances of people, the demands for ornamental products are gradually increased along with the improvement of living quality, and new varieties or innovative cultivation means suitable for potted plants are cultivated, so that potted plants which can meet the demands of the masses are created, potted plants which have ornamental and unique meanings are allowed to enter into thousands of families, the consumption demands of different groups and the interests of people for the maintenance, appreciation and cultivation of potted plant families are met, the chain of the potted plant industry is prolonged, and the rapid development of the potted plant industry is promoted. Besides, the potted plant can be placed indoors and outdoors to create a fresh and natural aesthetic feeling, and meanwhile, the potted plant also has the functions of purifying air, relieving pressure and pleasure mood, and even proper potted plant varieties can be used for improving memory, helping sleep and the like.

At present, the existing flowerpots cannot meet the requirements of users on potted plant styles and patterns.

Disclosure of Invention

The utility model provides a flowerpot and a system based on a 3D printing technology, which are used for solving the problem that the flowerpot in the prior art cannot meet the demands of users on potted plant styles and patterns.

The utility model provides a flowerpot based on a 3D printing technology, which comprises the following components: the plug assembly comprises a plug plate, a cover body and a plurality of plug cups, wherein a plurality of first through holes and a plurality of second through holes are formed in the plug plate, the plug plate is arranged above the plug cups, each first through hole and each second through hole are connected with one plug cup, the plug cups are used for storing nutrients, and the cover body is covered on the first through holes or the second through holes; the plug board, the plug cup and the cover body are all manufactured by a 3D printing technology.

According to the flowerpot based on the 3D printing technology, the bottom of each cave dish cup is provided with the ventilation water leakage hole.

According to the flowerpot based on the 3D printing technology, which is provided by the utility model, the flowerpot based on the 3D printing technology further comprises a storage pot, the storage pot is provided with a cavity, and a plurality of plug cups are arranged in the cavity.

According to the flowerpot based on the 3D printing technology, a space exists between the bottom of each plug cup and the bottom of the cavity.

According to the flowerpot based on the 3D printing technology, which is provided by the utility model, the flowerpot based on the 3D printing technology further comprises a cover, and the cover is covered on the plug board.

According to the flowerpot based on the 3D printing technology, the storage pot and the cover are 3D printing pieces.

The utility model also provides a flowerpot system based on 3D printing technology, comprising the flowerpot based on 3D printing technology as claimed in any one of the above, further comprising a planter having a planter opening, the planter opening being aligned with the first through hole and/or the second through hole.

According to the flowerpot system based on the 3D printing technology, the seeder comprises a seeding box and a guide piece, the seeding opening is formed in the seeding box, the guide piece is communicated with the seeding opening, and the guide piece is used for pointing to the first through hole or the second through hole.

According to the flowerpot system based on the 3D printing technology, the sowing box comprises an upper bin tray and a lower bin tray, wherein the side wall of the upper bin tray is provided with a first opening, the side wall of the lower bin tray is provided with a second opening, and the second opening is communicated with the guide piece; the upper bin plate is arranged opposite to the lower bin plate, the outer wall surface of the upper bin plate is attached to the inner wall surface of the lower bin plate to form a cavity, and the upper bin plate can rotate in the lower bin plate to change the contact ratio of the first opening and the second opening.

According to the flowerpot system based on the 3D printing technology, the seeder is a 3D printing piece.

According to the flowerpot and the system based on the 3D printing technology, the first through holes and the second through holes are formed in the tray plate; and a hole tray cup is communicated below each first through hole and below each second through hole, the first through holes or the second through holes are covered by the cover body, different plants are sown to the corresponding hole tray cups through the first through holes and the second through holes, and then a potted plant with patterns is formed. According to the flowerpot based on the 3D printing technology, a user can set a plurality of first through holes and a plurality of second through holes on the plug board according to requirements, the first through holes and/or the second through holes form a certain pattern, and then potted plants with a certain pattern are planted in the plug cups, so that diversity of potted plant pattern landscaping is improved, ornamental value is high, and user requirements are met.

Drawings

In order to more clearly illustrate the utility model or the technical solutions of the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of a tray assembly provided by the present utility model disposed in a storage tub;

FIG. 2 is a schematic diagram of the structure of the tray plate provided by the utility model;

FIG. 3 is a schematic view of the structure of the planter provided by the present utility model;

reference numerals:

1: a plug plate; 11: a first through hole; 12: a second through hole; 2: a plug cup; 3: a storage tub; 4: a sowing box; 41: a loading tray; 411: a first opening; 42: a lower bin plate; 421: a second opening; 5: a guide.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The flowerpot and the system based on the 3D printing technology provided by the utility model are described below with reference to fig. 1 to 3.

The utility model provides a flowerpot manufactured based on a 3D printing technology, which comprises: the plug assembly comprises a plug plate 1, a cover body and a plurality of plug cups 2, wherein a plurality of first through holes 11 and a plurality of second through holes 12 are formed in the plug plate 1, the plug plate 1 is arranged above the plug cups 2, each first through hole 11 and each second through hole 12 are connected with one plug cup 2, the plug cups 2 are used for storing nutrients, and the cover body is covered on the first through holes 11 or the second through holes 12; wherein, the tray plate 1, the tray cup 2 and the cover body are all manufactured by 3D printing technology.

The plug assembly comprises a plug board 1, referring to fig. 2, a plurality of first through holes 11 and a plurality of second through holes 12 are arranged on the plug board 1, and the plurality of first through holes 11 and/or the plurality of second through holes 12 form a certain pattern.

The plug assembly also comprises a plurality of plug cups 2, the plug cups 2 comprise a first plug cup and a second plug cup, the first plug cup and the second plug cup are used for storing soil and nutrient substances (such as chemical fertilizers) required by plants to be planted, providing necessary living conditions for the plants to be planted and ensuring the independent growth of the plants; the number of the first plug cups is the same as that of the first through holes 11, the number of the second plug cups is the same as that of the second through holes 12, a first plug cup is communicated below each first through hole 11, a second plug cup is communicated below each second through hole 12, and a user can seed the corresponding plug cup 2 through the first through holes 11 and/or the second through holes 12.

Further, the plug assembly provided by the utility model further comprises a cover body, wherein the cover body is used for covering the plurality of first through holes 11 or the plurality of second through holes 12, covering the plurality of second through holes 12, and sowing first plants into the corresponding first plug cups through the plurality of first through holes 11, namely the first plants in the plurality of first plug cups can form a first pattern; after the seeding is accomplished, cover a plurality of first through-holes 11, sow the second kind of plant in to the second cave dish cup that corresponds through the second through-hole 12, the second kind of plant in a plurality of second cave dish cups promptly can form the second kind pattern, and then satisfy the demand that the user made a scene to the pattern cultivated in a pot, and the quantity and the position of accessible adjustment first through-hole 11 and second through-hole 12 realize the pattern cultivated in a pot's that the pattern is various, effectively solved traditional cultivated in a pot pattern monotone, tedious and lack the problem of originality.

According to the flowerpot based on the 3D printing technology, the first through holes and the second through holes are formed in the tray plate; and a hole tray cup is communicated below each first through hole and below each second through hole, the first through holes or the second through holes are covered by the cover body, different plants are sown to the corresponding hole tray cups through the first through holes and the second through holes, and then a potted plant with patterns is formed. According to the flowerpot based on the 3D printing technology, a user can set a plurality of first through holes and a plurality of second through holes on the plug board according to requirements, the first through holes and/or the second through holes form a certain pattern, and then potted plants with a certain pattern are planted in the plug cups, so that diversity of potted plant pattern landscaping is improved, ornamental value is high, and user requirements are met.

Referring to fig. 2, the plurality of second through holes 12 in the present embodiment form a "king" shape, and the user sows seeds different from those in the plurality of first plug cups into the second plug cups through the plurality of second through holes 12, thereby forming a "king" shape potted plant.

In the present embodiment, the number, positions and sizes of the plurality of first through holes 11 and/or the plurality of second through holes 12 are not particularly limited, and are set according to actual needs.

The dimensions of the first through hole 11 and the second through hole 12 are the same in one embodiment, and the dimensions of the first through hole 11 and the second through hole 12 are different in another embodiment.

The covering body in this embodiment may be a film.

On the basis of the embodiment, further, the bottom of each plug cup 2 is provided with a ventilation water leakage hole.

Specifically, the height of each plug cup 2 is 20cm, and nutrient substances such as soil, such as nutrient soil, vermiculite and the like are stored in the plug cups 2, so that the normal growth of plants is ensured. Furthermore, the user can water into the plug cup 2, and the bottom of each plug cup 2 is provided with a plurality of ventilation water leakage holes, so that ventilation and water leakage of plants in the plug cup 2 are facilitated, and the influence of hypoxia or excessive water on plant growth is prevented.

In one embodiment, the bottom of each plug cup 2 is provided with a plurality of ventilation water leakage holes, and the diameter of each ventilation water leakage hole is 2-4mm.

In the present embodiment, the number and the size of the ventilation water leakage holes are not particularly limited, and may be set according to the size and the actual situation of the plug cup 2.

Further, based on the above embodiment, the flowerpot based on the 3D printing technology further includes a storage pot 3, the storage pot 3 has a cavity, and the plurality of plug cups 2 are all disposed in the cavity.

Flowerpot based on 3D printing technique includes cave dish subassembly and stores basin 3, and wherein cave dish subassembly includes cave dish board 1 and a plurality of cave dish cup 2, stores basin 3 and has the cavity, and in a plurality of cave dish cups 2 all located the cavity, cave dish board 1 was located on storing basin 3, and every first through-hole 11 and every second through-hole 12 on the cave dish board 1 all communicate with a cave dish cup 2 in the cavity, as shown in fig. 1.

According to the utility model, the plurality of plug cups 2 are arranged in the cavity, so that the loss of temperature and water is avoided, and the temperature and humidity of plants planted in the plug cups 2 are ensured.

On the basis of the embodiment, a space exists between the bottom of each plug cup 2 and the bottom of the cavity, which is helpful for ventilation and water leakage of plants in the plug cups 2.

In one embodiment, the bottom of the cavity is provided with a drain hole, which facilitates draining of water in the storage basin 3 and facilitates ventilation of plants in the tray cup 2.

Further, the flowerpot based on the 3D printing technology further comprises a cover, and the cover is arranged on the tray plate 1.

This implementation provides a flowerpot based on 3D printing technique includes cave dish board 1, a plurality of cave dish cup 2, stores basin 3 and lid, and in the cavity of storing basin 3 was located to a plurality of cave dish cup 2, cave dish board 1 was located to the lid, and the lid can cover cave dish board 1 and store basin 3 promptly, guarantees its cleanliness, avoids polluting before not using, influences the growth of later stage plant.

On the basis of the above embodiment, both the reservoir 3 and the lid are 3D printed pieces.

According to the utility model, the first through holes 11 and the second through holes 12 are designed on the plug board 1 through a 3D printing technology to form different patterns (such as fonts), so that diversity of potted pattern landscaping requirements is met, and the problems of monotonous, tedious and lack of originality of the traditional potted pattern are effectively solved; the design of the plug cup 2 is not only beneficial to full and proper watering, but also can avoid water loss and save water resources, and can also keep the independent growth of plants so as to achieve the standard of pattern requirements and be beneficial to ornamental.

The plug board 1, the plug cup 2, the storage basin 3 and the cover are made of PVC (polyvinyl chloride) or acrylic and the like by using a 3D printing technology.

The utility model also provides a flowerpot system based on the 3D printing technology, comprising the flowerpot based on the 3D printing technology in any embodiment, and further comprising a seeder, wherein the seeder is provided with a seeding opening, and the seeding opening is aligned with the first through hole 11 and/or the second through hole 12.

The flowerpot system based on the 3D printing technology comprises a flowerpot based on the 3D printing technology and a matched seeder, wherein the seeder is used for seeding devices in the plug cups 2, a user can align a seeding opening with the first through holes 11 or the second through holes 12 according to the needs, the seeder is started, and seeds in the seeder enter the corresponding plug cups 2 through the first through holes 11 or enter the corresponding plug cups 2 through the second through holes 12.

Further, on the basis of the above-described embodiment, the seeder comprises a seeding tank 4 and a guiding member 5, a seeding opening is provided on the seeding tank 4, the guiding member 5 communicates with the seeding opening, and the guiding member 5 is used for pointing to the first through hole 11 or the second through hole 12.

The seeder provided in this embodiment includes a seeding tank 4, the seeding tank 4 is provided with a seeding port, the guide 5 has an inlet and an outlet, the inlet of the guide 5 is communicated with the seeding port, the outlet of the guide 5 is used for aligning with the first through hole 11 or the second through hole 12, and seeds in the seeding tank 4 are played out through the seeding port, the inlet of the guide 5, and the outlet of the guide 5.

In the use process, the outlet of the guide piece 5 is aligned with the first through hole 11 or the second through hole 12, and seeds in the sowing box 4 enter the corresponding plug cup 2 through the sowing hole, the outlet of the guide piece 5, the first through hole 11 or the second through hole 12, so that the planting is finished.

In the embodiment, the guide piece 5 is communicated with the sowing box 4 through the sowing opening, so that the auxiliary sowing and guiding functions can be achieved, and seeds in the sowing box 4 can accurately enter the corresponding plug cup 2.

Further, the planter can adjust the speed and size of the seed outflow.

Referring to fig. 3, the sowing box 4 includes an upper tray 41 and a lower tray 42, the sidewall of the upper tray 41 having a first opening 411, the sidewall of the lower tray 42 having a second opening 421, the second opening 421 communicating with the guide 5; the upper tray 41 is disposed opposite to the lower tray 42, the outer wall surface of the upper tray 41 is bonded to the inner wall surface of the lower tray 42 to form a cavity, and the upper tray 41 can rotate in the lower tray 42 to change the contact ratio between the first opening 411 and the second opening 421.

The storehouse dish is used for storing the seed, and seeding case 4 includes last storehouse dish 41 and lower storehouse dish 42, and the lateral wall of going up the storehouse dish 41 has first opening 411, and the lateral wall of lower storehouse dish 42 has second opening 421, and the external diameter size of going up the storehouse dish 41 is less than the internal diameter size of lower storehouse dish 42, goes up the storehouse dish 41 and sets up relatively with lower storehouse dish 42, and wherein go up the storehouse dish 41 and inlay in lower storehouse dish 42, and go up the laminating of the outer wall of storehouse dish 41 and the inner wall of lower storehouse dish 42, forms to have certain cavity for the seed is stored.

Further, the upper tray 41 can rotate relative to the lower tray 42, and the relative positions of the first opening 411 and the second opening 421 can be changed during the rotation process, that is, the contact ratio of the first opening 411 and the second opening 421 is adjusted, and the speed of the seeds in the cavity entering the guide member 5 is adjusted.

The second opening 421 communicates with the guide 5, and in the case that the first opening 411 and the second opening 421 are completely overlapped, the first opening 411 and the second opening 421 form a sowing port, and at this time, seeds in the sowing box 4 enter the corresponding tray cup 2 through the guide 5 at the fastest speed; in the case where the first opening 411 and the second opening 421 do not overlap at all, the sowing port of the sowing case 4 is closed at this time, that is, the sowing case 4 is disconnected from the guide 5, and sowing is stopped.

Further, a dial gauge (e.g. 6 or 8 scales) is provided on the top surface or the side wall of the upper tray 41, different scales show that the overlap ratio of the first opening 411 and the second opening 421 is different, and the relative position of the first opening 411 and the second opening 421 is adjusted according to the dial gauge on the upper tray 41 to adjust the sowing speed of the sowing box 4.

The flowerpot system based on the 3D printing technology provided by the utility model rotates the upper bin disc 41 to enable the first opening 411 and the second opening 421 to be completely misaligned, namely the sowing port is closed, under the condition of not being used. When in use, the cover is opened, the plug board 1 is taken out, the prepared soil, fertilizer and other nutrient substances are added into the plug cup 2, the plug cup 2 is slightly compacted, and a small amount of water is added into the plug cup 2 to provide growth conditions for plants; the plug board 1 is placed on the plug cup 2, and the first through holes 11 and the second through holes 12 are respectively in one-to-one correspondence with the plug cup 2.

Covering the first through hole 11 by using a covering body, rotating the upper bin tray 41, adjusting the coincidence ratio of the first opening 411 and the second opening 421, and selecting a proper speed to sow in the plug cup 2 corresponding to the second through hole 12; then covering the second through holes 12, selecting proper speed to sow in the plug cup 2 corresponding to the first through holes 11, and further finishing potting with the required pattern. The non-pattern part can be sown firstly and then the pattern part can be sown later when in actual sowing.

The seeder provided by the utility model is a 3D printing piece.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. Flowerpot based on 3D printing technique, characterized by comprising: the plug assembly comprises a plug plate, a cover body and a plurality of plug cups, wherein a plurality of first through holes and a plurality of second through holes are formed in the plug plate, the plug plate is arranged above the plug cups, each first through hole and each second through hole are connected with one plug cup, the plug cups are used for storing nutrients, and the cover body is covered on the first through holes or the second through holes; the plug board, the plug cup and the cover body are all manufactured by a 3D printing technology.

2. The flowerpot based on the 3D printing technology according to claim 1, wherein the bottom of each plug cup is provided with a ventilation water leakage hole.

3. The 3D printing technology based flowerpot of claim 1, further comprising a storage pot having a cavity, wherein a plurality of the plug cups are all disposed in the cavity.

4. A 3D printing technology based flowerpot according to claim 3 wherein there is a spacing between the bottom of each tray cup and the bottom of the cavity.

5. The 3D printing technology based flowerpot according to claim 3, further comprising a cover, wherein the cover covers the tray plate.

6. The 3D printing technology based flowerpot of claim 5 wherein the storage pot and the cover are 3D printed pieces.

7. A 3D printing technology based flowerpot system comprising the 3D printing technology based flowerpot as claimed in any one of claims 1 to 6, further comprising a planter having a planter opening aligned with the first through hole and/or the second through hole.

8. The 3D printing technology based flowerpot system according to claim 7, wherein the planter comprises a planter box and a guide, the planter opening is provided on the planter box, the guide is in communication with the planter opening, and the guide is configured to be directed to the first through hole or the second through hole.

9. The 3D printing technology based flowerpot system according to claim 8, wherein the sowing box includes an upper bin tray and a lower bin tray, a sidewall of the upper bin tray having a first opening, a sidewall of the lower bin tray having a second opening, the second opening being in communication with the guide;

the upper bin plate is arranged opposite to the lower bin plate, the outer wall surface of the upper bin plate is attached to the inner wall surface of the lower bin plate to form a cavity, and the upper bin plate can rotate in the lower bin plate to change the contact ratio of the first opening and the second opening.

10. The 3D printing technology based flowerpot system according to claim 7, wherein the planter is a 3D printed piece.

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