CN210226355U - Manual flowerpot transplanting assembly - Google Patents

Abstract

The utility model discloses a manual flowerpot transplanting assembly, a plurality of molded bodies are arranged below an upper base plate, the molded bodies are in a columnar structure, a plurality of through holes are arranged around the molded bodies, a plurality of pot bodies are arranged on a lower base plate, the pot bodies are in a columnar cavity structure, and the molded bodies can be nested on the pot bodies; the bottom of the upper substrate is also provided with a plurality of supporting legs, the lower substrate is also provided with a plurality of positioning grooves, and the supporting legs are matched with the positioning grooves. The combined male seat and female seat is adopted, so that efficient and rapid manual transplanting operation can be realized, and the loaded pits are loose in soil, good in air permeability and water permeability and very suitable for growth of scindapsus aureus; this application still is provided with the baffler, further improves the efficiency of loading soil, cooperates sponge or expansion plate simultaneously, and the gap is littleer, and soil also is difficult for scattering on the infrabasal plate, under the effect that the group is next door, loads soil fastly, and the clean nearly no soil residue in infrabasal plate surface.

Description

Manual flowerpot transplanting assembly

Technical Field

The utility model relates to a scindapsus aureus plants the field, concretely relates to subassembly is transplanted to manual flowerpot.

Background

Scindapsus aureus, a plant of the genus eucheuma, a large evergreen vine, grows in tropical regions, grows on rocks and trunks of rainforests in a climbing mode, has strong winding performance and developed air roots, and can be planted in a water culture mode.

The mature branch has thick and strong petiole with length of 30-40 cm, slightly enlarged base, 2.5-3 cm long upper joint, slightly fat upper joint, wide ventral surface, long sheath, thin and leathery leaf, emerald green color, most irregular pure yellow patches on the common (especially leaf surface), full margin, unequal oval or egg-shaped oblong shape, short and tapered tip, deep heart-shaped base, slightly thick base and slightly raised two sides. Tropical rainforest native to the islands of the loney-gate, indonesia. Scindapsus aureus belongs to negative plants, is fond of damp-heat environment, and is forbidden to be irradiated directly by sunlight and fond of yin. Soil which is rich in humus, loose, fertile and slightly acidic is favored. The overwintering temperature should not be lower than 15 ℃.

Because the scindapsus aureus soil needs to be loose, breathable and fertile. Common garden soil, leaf mold soil, peat soil and the like can be used for planting scindapsus aureus, perlite can be added into peat soil, vermiculite can be added into garden soil, and volcanic rock can also be adopted. The soil has good air permeability, good drainage and lighter density.

When the existing scindapsus aureus is transplanted into a flowerpot, the loose soil with pits needs to be manually made in a new flowerpot one by one, and the production efficiency is low. And the pits are made in different sizes, and soil needs to be increased or reduced during transplantation, so that the scindapsus aureus in the new flowerpot is stably planted. Meanwhile, the existing transplanting basin is mainly designed into a single basin body, and the transplanting and transportation are also troublesome after the transplanting.

The market still has a semi-automatic supplementary transplantation equipment, pours new flowerpot into soil back into, and with the mould with new flowerpot soil compaction form pit one by one, this kind of mode preparation pit efficiency is very high, but this kind of soil is because compacted, and the gas permeability is relatively poor, water is difficult for permeating, and also great to the quantity of soil. The compacted soil is used for planting the scindapsus aureus, the growth of roots of the scindapsus aureus can be influenced, meanwhile, moisture is easy to accumulate at the compacted part, and further, the roots of the scindapsus aureus can be rotten. Therefore, a transplantation assembly is urgently needed to improve the production efficiency of the scindapsus aureus transplantation process.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the utility model aims at providing a subassembly is transplanted to manual flowerpot that easy operation is convenient, soil is loose, soil is difficult for scattering.

In order to realize the technical purpose, the utility model discloses a scheme is: a manual flowerpot transplanting assembly comprises a male seat for soil shaping and a female seat for soil containing;

the male seat comprises an upper substrate, a plurality of molded bodies are arranged below the upper substrate, the molded bodies are of columnar structures, a plurality of through holes are arranged around the molded bodies,

the female seat comprises a lower base plate, a plurality of pot bodies are arranged on the lower base plate, the pot bodies are of cylindrical cavity structures, and the pot bodies can be nested on the pot bodies;

the bottom of the upper substrate is also provided with a plurality of supporting legs, the lower substrate is also provided with a plurality of positioning grooves, and the supporting legs are matched with the positioning grooves;

male seat can the embedded installation on female seat, the biggest diameter that the body embedding basin body part is less than the biggest diameter of the basin body, and loose soil passes through the through-hole and falls into the soil structure that the basin body is easily transplanted to have the pit.

Preferably, the through hole is of a circular ring-shaped structure, the molded body is the middle of the through hole, and the panel of the upper substrate is fixedly connected with the molded body through the connecting ribs.

Preferably, the outer side of the molded body is also provided with a blocking wall for blocking soil from scattering, and the maximum diameter of the blocking wall is larger than or equal to the maximum diameter of the through hole;

the barrier wall is also provided with a retractable barrier sheet.

Preferably, the periphery of the upper substrate is provided with an upper side wall for enhancing the strength of the male seat, and the periphery of the lower substrate is provided with a lower side wall for enhancing the strength of the female seat.

Preferably, a partition board for blocking soil from scattering is further arranged between the male seat and the female seat, and corresponding holes are formed in the partition board and correspond to the body of the male seat and the supporting legs.

Preferably, the female seat is further provided with a positioning convex column, the partition board is provided with a positioning hole, and the positioning convex column corresponds to the positioning hole.

Preferably, the bottoms of the pot bodies on the female seat are communicated through branch pipes, and the branch pipes can enable water in each pot body to be uniformly distributed.

Preferably, the basin body and the type are inverted cone structures, and the upper part of the basin body is provided with a gentle slope structure for guiding soil to fall down.

Preferably, the blocking wall is of a funnel-shaped structure with a wide upper part and a narrow lower part, the maximum diameter of the through hole is larger than the maximum diameter of the upper part of the pot body, and the minimum diameter of the blocking wall is smaller than or equal to the maximum diameter of the upper part of the pot body.

Preferably, the lower part of the barrier wall is further provided with elastic rubber, sponge or a telescopic plate.

The beneficial effects of the utility model are that the combination of the male seat and the female seat is adopted, the high-efficiency and quick manual transplanting operation can be realized, the loaded pits have loose soil, good air permeability and good water permeability, and the utility model is very suitable for the growth of scindapsus aureus; the soil loading device is also provided with the blocking wall, so that the soil loading efficiency is further improved, and meanwhile, the sponge or the expansion plate is matched, so that gaps are smaller, the soil is not easy to scatter on the lower substrate, the soil loading speed is high under the action of the group partition wall, and the surface of the lower substrate is clean and almost free of soil residue; the horn-shaped group partition walls are matched with the larger through holes, so that the soil loading efficiency is further improved, meanwhile, the larger through holes are easier to load soil and are not easy to spill on the upper substrate, and the production efficiency is further improved; the baffle is also arranged, so that the scattering of soil on the lower substrate can be reduced.

Drawings

FIG. 1 is a schematic view of the assembled structure of the present invention;

fig. 2 is a schematic structural view of the male seat of the present invention;

FIG. 3 is a schematic structural view of the female seat of the present invention;

FIG. 4 is a schematic view of a partial structure of the bottom surface of the female seat of the present invention;

FIG. 5 is a schematic structural view of the partition plate of the present invention;

fig. 6 is a partial cross-sectional view of a first embodiment of a male housing of the present invention;

fig. 7 is a partial cross-sectional view of a second embodiment of a male housing according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-7, the embodiment of the present invention is a manual flowerpot transplanting assembly, which comprises a male seat 1 for soil shaping and a female seat 2 for soil containing; the public seat not only provides the function of the design of soil, still provides the function of loading soil through the through-hole.

The male seat 1 comprises an upper substrate 101, a plurality of molded bodies 102 are arranged below the upper substrate 101, the molded bodies 102 are of a columnar structure, a plurality of through holes 103 are arranged around the molded bodies,

the female seat 2 comprises a lower base plate 201, a plurality of pot bodies 202 are arranged on the lower base plate 201, the pot bodies 202 are of cylindrical cavity structures, and the body 102 can be nested on the pot bodies 202;

the bottom of the upper substrate 101 is further provided with a plurality of supporting legs 104, the lower substrate 201 is further provided with a plurality of positioning grooves 203, and the supporting legs 104 are matched with the positioning grooves 203;

the male seat 1 can be embedded on the female seat 2, the maximum diameter of the body embedded into the pot body part is smaller than that of the pot body, and loose soil falls into the pot body 202 through the through hole 103 to form a soil structure with a pit and easy transplantation.

In order to facilitate loading of soil, the through hole 103 is of an annular structure, the molded body 102 is a middle part of the through hole, and the panel of the upper substrate 101 is fixedly connected with the molded body 102 through a connecting rib 105. The annular through-hole can be soil-loaded except for the connecting rib portion.

In order to effectively guide soil to effectively and quickly enter the basin body, a blocking wall 106 for blocking the soil from scattering is further arranged on the outer side of the molded body 102, the blocking wall 106 is of a hollow cylindrical structure, and the diameter of the blocking wall 106 is larger than or equal to that of the through hole 103. Because in order to make the soil structure of taking the pit, the model has occupied the space in middle part, and the area of through-hole just is dwindled, and soil leaks on the upper substrate of female seat from the side easily, and the baffling wall can effectively guide soil to get into the basin body, still is difficult for scattering on the upper substrate, and the soil process of packing into is more high-efficient.

In order to increase the structural strength of the male seat and the female seat, an upper side wall 108 for enhancing the strength of the male seat is arranged on the periphery of the upper substrate 101, and a lower side wall 204 for enhancing the strength of the female seat is arranged on the periphery of the lower substrate 201.

In order to further reduce the soil scattering on the lower base plate of the female seat, a partition plate 3 for blocking the soil scattering is further arranged between the male seat 1 and the female seat 2, and corresponding holes 301 are arranged on the partition plate 3 corresponding to the molded body 102 and the supporting legs 104 of the male seat 1.

Preferably, the female seat 2 is further provided with a positioning convex column 205, the partition plate 3 is provided with a positioning hole 302, and the positioning convex column 205 corresponds to the positioning hole 302.

In order to ensure that the scindapsus aureus in the female seat grows more stably, the bottoms of the pot bodies 202 on the female seat 2 are communicated through the branch pipes 206, and the branch pipes 206 can ensure that water in each pot body 202 is uniformly distributed. The branch pipes can prevent the excessive or insufficient water in the single pot body, and the scindapsus aureus can grow better and faster.

In order to effectively guide soil into the basin body, the basin body 202 and the molded body 102 are both of inverted cone structures, and the upper part of the basin body 202 is also provided with a gentle slope structure for guiding soil to fall down.

In order to improve the soil loading efficiency, as shown in fig. 7, the baffle wall 106 is in a funnel-shaped structure with a wide top and a narrow bottom, the maximum diameter of the through hole 103 is larger than the maximum diameter of the upper part of the pot body 202, and the minimum diameter of the baffle wall 106 is smaller than or equal to the maximum diameter of the upper part of the pot body 202. Because if the area of through-hole is less, the efficiency of packing into soil will reduce, designs the baffling wall that leaks hopper-shaped, can increase the area of through-hole, increases efficiency by a wide margin. Meanwhile, the upper part of the molded body can be made into a conical structure, a reinforcing rib structure is added, the area of the through hole can be further enlarged, the soil is filled more conveniently, and the filling efficiency is greatly improved.

In order to effectively guide soil into the basin body, the lower part of the barrier wall 106 is also provided with elastic rubber, sponge 109 or a telescopic plate 107. Rubber, sponge or expansion plate can effectively reduce the gap between group next door and the infrabasal plate, reduces soil and spills over from the gap.

When the multifunctional green bonnie pot is used, the male seat is placed on the female seat in an embedded mode, soil which is moist, loose and suitable for green bonnies is poured into the through holes one by one through the funnel or the small shovel, the soil smoothly flows into the pot body along the body and the group partition walls, a pit-shaped soil structure is slowly gathered in the pot body, the female seat is shaken for a plurality of times to enable the soil in the pot body to be distributed uniformly, and partial soil can be supplemented again according to conditions to enable the soil in the pot body to reach an appointed position; then the male seat is taken out, a plurality of soil structures with pits suitable for transplanting the scindapsus aureus are obtained, and then the scindapsus aureus in the small pot is transplanted into a new pot body one by one.

The combined male seat and female seat is adopted, so that efficient and rapid manual transplanting operation can be realized, and the loaded pits are loose in soil, good in air permeability and water permeability and very suitable for growth of scindapsus aureus; the soil loading device is also provided with the blocking wall, so that the soil loading efficiency is further improved, and meanwhile, the sponge or the expansion plate is matched, so that gaps are smaller, the soil is not easy to scatter on the lower substrate, the soil loading speed is high under the action of the group partition wall, and the surface of the lower substrate is clean and almost free of soil residue; the horn-shaped group partition walls are matched with the larger through holes, so that the soil loading efficiency is further improved, meanwhile, the larger through holes are easier to load soil and are not easy to spill on the upper substrate, and the production efficiency is further improved; the baffle is also arranged, so that the scattering of soil on the lower substrate can be reduced.

The above, only do the preferred embodiment of the present invention, not used to limit the present invention, all the technical matters of the present invention should be included in the protection scope of the present invention for any slight modification, equivalent replacement and improvement of the above embodiments.

Claims (10)

1. The utility model provides a subassembly is transplanted to manual flowerpot which characterized in that: the transplanting assembly comprises a male seat for soil shaping and a female seat for soil containing;

the male seat comprises an upper substrate, a plurality of molded bodies are arranged below the upper substrate, the molded bodies are of columnar structures, a plurality of through holes are arranged around the molded bodies,

the female seat comprises a lower base plate, a plurality of pot bodies are arranged on the lower base plate, the pot bodies are of cylindrical cavity structures, and the pot bodies can be nested on the pot bodies;

the bottom of the upper substrate is also provided with a plurality of supporting legs, the lower substrate is also provided with a plurality of positioning grooves, and the supporting legs are matched with the positioning grooves;

male seat can the embedded installation on female seat, the biggest diameter that the body embedding basin body part is less than the biggest diameter of the basin body, and loose soil passes through the through-hole and falls into the soil structure that the basin body is easily transplanted to have the pit.

2. The manual pot transfer assembly of claim 1, wherein: the through-hole is the ring form structure, the type is through-hole middle part, the panel of upper substrate passes through splice bar and type fixed connection.

3. The manual pot transfer assembly of claim 1, wherein: the outer side of the molded body is also provided with a blocking wall for blocking soil from scattering, and the maximum diameter of the blocking wall is larger than or equal to that of the through hole.

4. The manual pot transfer assembly of claim 1, wherein: the periphery of the upper substrate is provided with an upper side wall for enhancing the strength of the male seat, and the periphery of the lower substrate is provided with a lower side wall for enhancing the strength of the female seat.

5. The manual pot transfer assembly of claim 1, wherein: still be provided with the baffle that blocks soil scattering between public seat and the female seat, correspond with the type and the supporting legs of public seat on the baffle and be provided with corresponding trompil.

6. The manual pot transfer assembly of claim 5, wherein: the female seat is also provided with a positioning convex column, the partition board is provided with a positioning hole, and the positioning convex column corresponds to the positioning hole.

7. The manual pot transfer assembly of claim 1, wherein: the bottoms of the pot bodies on the female seat are communicated through the branch pipes, and the branch pipes can enable water in each pot body to be uniformly distributed.

8. The manual pot transfer assembly of claim 1, wherein: the basin body and the type are the back taper structure, basin body upper portion is for still being provided with the gentle slope structure that the guide soil fell.

9. The manual pot transfer assembly of claim 3, wherein: the baffle wall is a funnel-shaped structure with a wide upper part and a narrow lower part, the maximum diameter of the through hole is larger than the maximum diameter of the upper part of the pot body, and the minimum diameter of the baffle wall is smaller than or equal to the maximum diameter of the upper part of the pot body.

10. The manual pot transfer assembly of claim 3, wherein: elastic rubber, sponge or a telescopic plate is further arranged at the lower part of the barrier wall.

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