CN109548636B

CN109548636B - Method for filling potted plant growth balls by using growth ball filling device

Info

Publication number: CN109548636B
Application number: CN201811359250.9A
Authority: CN
Inventors: 叶雨玲
Original assignee: Suzhou Chuanglibo Technology Co Ltd
Current assignee: Suzhou chuanglibo Technology Co., Ltd
Priority date: 2016-05-30
Filing date: 2016-05-30
Publication date: 2020-11-27
Anticipated expiration: 2036-05-30
Also published as: CN106034783A; CN109548636A; CN106034783B

Abstract

The invention discloses a method for filling growth balls of potted plants by using a growth ball filling device, which comprises the following steps: 1) utilizing the first positioning round hole and the second positioning round hole to serially connect a preset number of shells to the long perfusion tube of the fixed base; 2) relatively sliding the pair of sliding clamping blocks to enable the fixed shell groove to abut against the shell on the perfusion long pipe, and sealing the shell between the sliding clamping blocks; 3) filling water-absorbing resin into the long filling pipe by using an external filling machine, and filling the water-absorbing resin into each shell from the circular filling hole of the long filling pipe; 4) and sliding the sliding clamping block again to draw out the filled shell from the long filling pipe. Because in the process of pouring, the shell is always sealed between the sliding clamping blocks, even if the size of the water-absorbent resin is smaller than the size of the ventilation water hole, the water-absorbent resin can be fully filled without leaking out, and can not be scattered in the working environment, thereby avoiding the influence on the body health caused by the suction of people.

Description

Method for filling potted plant growth balls by using growth ball filling device

The invention relates to a potted plant growth ball with the application number of 201610367842.X, a manufacturing method thereof and a divisional application of an invention patent application with the application date of 2016, 05 and 30.

Technical Field

The invention relates to a pot plant appliance, in particular to a growth ball of a pot plant and a manufacturing method thereof.

Background

With the improvement of the living standard of people, more and more people begin to plant potted flowers or plants. As is well known, many flowers or plants have high requirements on soil drainage and air permeability, and no soil improvement device specially used for potted flowers or plants exists at present.

Disclosure of Invention

The invention mainly solves the technical problems in the prior art, and provides a potted plant growth ball and a manufacturing method thereof.

The technical problem of the invention is mainly solved by the following technical scheme:

the invention discloses a method for filling growth balls of potted plants by using a growth ball filling device, which comprises the following steps:

1) utilizing the first positioning round hole and the second positioning round hole to serially connect a preset number of shells to the long perfusion tube of the fixed base;

2) relatively sliding the pair of sliding clamping blocks to enable the fixed shell groove to abut against the shell on the perfusion long pipe, and sealing the shell between the sliding clamping blocks;

3) filling water-absorbing resin into the long filling pipe by using an external filling machine, and filling the water-absorbing resin into each shell from the circular filling hole of the long filling pipe;

4) sliding the sliding clamping block again, and drawing out the filled shell from the long filling pipe;

wherein the content of the first and second substances,

the potted plant growth ball comprises a hollow shell, wherein a ventilation water hole array consisting of ventilation water holes is arranged on the surface of the shell, water-absorbent resin is filled in the shell, the water-absorbent resin is granular or powdery, the shell is spherical or regular polyhedral, the ventilation water holes at least comprise a first positioning round hole and a second positioning round hole, the central axis of the first positioning round hole, the central axis of the second positioning round hole and the geometric center of the shell are collinear, and the shell is made of argil or degradable plastics;

wherein the content of the first and second substances,

the growth ball filling device comprises a fixed base and a pair of sliding clamping blocks, the fixed base comprises a fixed base plate which is horizontally arranged, the fixed base plate is provided with a long guide base plate which is horizontally arranged, two ends of the guide base plate are respectively provided with a limiting baffle which is longitudinally arranged, the center of the guide base plate is provided with a hollow filling long pipe which is longitudinally arranged, the side wall of the filling long pipe is provided with a filling round hole array which is composed of filling round holes, the sliding clamping blocks are slidably arranged on the guide base plate, the sliding clamping blocks comprise block-shaped clamping block main bodies, the inner wall of each clamping block main body is provided with a fixed shell groove array which is composed of fixed shell grooves, the shape of each fixed shell groove is adapted to the shape of the shell, and the outer wall of each clamping block main body is provided with an operating handle, the bottom of clamp splice main part be equipped with a slip recess, the width of slip recess with the width of guide base plate suit, the inner wall of clamp splice main part on be equipped with one and fill the arc groove array of constituteing by curved filling arc groove, the size of filling the arc groove with the external diameter of filling the long tube suit.

2) relatively sliding the pair of sliding clamping blocks to enable the fixed shell groove to abut against the shell on the perfusion long tube, inserting the U-shaped clamping pin into the corresponding locking round hole, and sealing the shell between the sliding clamping blocks;

4) pulling out the clamping pin from the locking round hole for unlocking, sliding the sliding clamping block again, and drawing out the filled shell from the long filling pipe;

wherein the content of the first and second substances,

the growth ball filling device comprises a fixed base and a pair of sliding clamping blocks, the fixed base comprises a fixed base plate which is horizontally arranged, the fixed base plate is provided with a long guide base plate which is horizontally arranged, two ends of the guide base plate are respectively provided with a limiting baffle which is longitudinally arranged, the center of the guide base plate is provided with a hollow filling long pipe which is longitudinally arranged, the side wall of the filling long pipe is provided with a filling round hole array which is composed of filling round holes, the sliding clamping blocks are slidably arranged on the guide base plate, the sliding clamping blocks comprise block-shaped clamping block main bodies, the inner wall of each clamping block main body is provided with a fixed shell groove array which is composed of fixed shell grooves, the shape of each fixed shell groove is adapted to the shape of the shell, and the outer wall of each clamping block main body is provided with an operating handle, the bottom of clamp splice main part be equipped with a slip recess, the width of slip recess with the width of guide base plate suit, the inner wall of clamp splice main part on be equipped with one and fill the arc groove array by the curved arc groove of filling of constituteing, the size of filling the arc groove with the external diameter of filling the long tube suit, the both sides wall of clamp splice main part on be equipped with a locking lug respectively, the locking lug on be equipped with a locking round hole respectively, the locking round hole connect fixedly through the bayonet lock of a "U" font.

The potted plant growth ball and the manufacturing method thereof have the following advantages: can complete the perfusion of a plurality of growing balls at one time, and has high efficiency. More importantly, a plurality of water-absorbent resin particles with different sizes and even powder can be poured. Because in the process of pouring, the shell is always sealed between the sliding clamping blocks, even if the size of the water-absorbent resin is smaller than the size of the ventilation water hole, the water-absorbent resin can be fully filled without leaking out, and can not be scattered in the working environment, thereby avoiding the influence on the body health caused by the suction of people.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective view of a growing ball of a potted plant of the present invention;

FIG. 2 is a cross-sectional view of the growing ball of potted plant of FIG. 1 taken along line A-A, in which the water-absorbent resin in the form of particles is seen filled in the housing;

FIG. 3 is a schematic perspective view of a growing ball of a potted plant of the present invention, in this case a second embodiment;

FIG. 4 is a schematic perspective view of a growing ball of a potted plant of the present invention, in this case a third embodiment;

FIG. 5 is a cross-sectional view of the potted plant growth ball of FIG. 4 taken along line B-B;

FIG. 6 is a schematic perspective view of the device for pouring potted plant growth balls according to the present invention;

FIG. 7 is an exploded perspective view of the potting device for growing the balls of the potted plant of FIG. 6;

FIG. 8 is a schematic perspective view of a slide clamp block of the perfusion apparatus of FIG. 7;

FIG. 9 is a schematic perspective view of the slide clamp block of the infusion device of FIG. 7, from another perspective;

FIG. 10 is an enlarged detail view of the area C of the slip clamp block of FIG. 9;

FIG. 11 is a further exploded perspective view of the infusion device of FIG. 7;

fig. 12 is an enlarged detail view of region D of the perfusion apparatus of fig. 11.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the scope of the present invention will be more clearly and clearly defined.

As shown in fig. 1 and 2, the potted plant growth ball 1 comprises a hollow housing 2, a ventilation water hole array consisting of ventilation water holes 21 is formed on the surface of the housing 2, and the interior of the housing 2 is filled with water absorbent resin 3, in this case, the housing 2 is in a spherical shape. The spherical housing 2 is advantageous in that, when a plurality of growing balls are stacked in the flowerpot, an air-permeable gap can be formed between the growing balls, facilitating the growth of the root system of the flower plant.

The water absorbent resin 3 is in the form of particles or powder, and the size of the particles can be selected according to the size of the ventilation water holes 21, and the problem of the size of the particles will be explained in detail later.

As shown in fig. 3, a second embodiment of the housing is shown, in which case the housing 200 has a regular polyhedron shape. Of course, other shapes are possible.

Fig. 4 shows a third embodiment of the housing, where only six aeration holes are shown for clarity of illustration of the structure of the housing 300. The six ventilation water holes at least comprise a first positioning round hole 301 and a second positioning round hole 302, and the central axis of the first positioning round hole 301, the central axis of the second positioning round hole 302 and the geometric center of the shell 2 are collinear. The housing of such a structure is required for the convenience of pouring the water-absorbent resin particles or powder into the housing.

In addition, the shell is made of pottery clay or degradable plastics. Of course, the pottery clay has high hardness, low cost and no environmental pollution, and is an ideal shell material.

When in use, a user puts the growing ball into water or plant nutrient solution, so that the water-absorbing resin 3 in the growing ball fully absorbs water. After fully absorbing water, stacking and putting into the flowerpot. Since the water-absorbent resin 3 in the growing ball can retain a large amount of water, the water supply of the plant can be maintained even if the owner forgets to water the plant, and the plant does not dry up. In addition, the adjacent growing balls provide ventilation space for the root systems of the plants, and the shell is high in hardness and not easy to deform, so that even if soil in the flowerpot is extruded, the large ventilation space can be kept. In addition, during the growth process of the plants, the root systems can enter the growth ball through the ventilation water holes 21 to absorb water and nutrients, and the growth of the root systems is promoted.

The pouring device for the potted plant growth ball is described below.

As shown in fig. 6 to 12, the potting plant growth ball filling device comprises a fixed base 4 and a pair of sliding clamping blocks 5, the fixed base 4 comprises a horizontally arranged fixed base plate 41, the fixed base plate 41 is provided with an elongated horizontally arranged guide base plate 42, two ends of the guide base plate 42 are respectively provided with a longitudinally arranged limit baffle 43, the center of the guide base plate 42 is provided with a longitudinally arranged hollow filling long tube 44, the side wall of the filling long tube 44 is provided with a filling round hole array composed of filling round holes 441, the sliding clamping blocks 5 are slidably arranged on the guide base plate 42, the sliding clamping blocks 5 comprise block-shaped clamping block main bodies 51, the inner wall of the clamping block main bodies 51 is provided with a fixed shell groove array composed of fixed shell grooves 52, and the shape of the fixed shell grooves 52 is adapted to the shape of the shell 2. For example, the fixing case groove 52 shown in fig. 8 is formed in a hemispherical shape, and the hemispherical fixing case groove 52 is used for pouring the spherical case. If the shell is in other shapes, corresponding fixed shell slots are needed.

An operating handle 53 is provided on the outer wall of the clamp block main body 51, and a user can hold the operating handle 53 to freely slide the sliding clamp block 5. The bottom of the clamp block main body 51 is provided with a sliding groove 55, the width of the sliding groove 55 is adapted to the width of the guide substrate 42, the inner wall of the clamp block main body 51 is provided with a perfusion arc groove array formed by an arc perfusion arc groove 54, and the size of the perfusion arc groove 54 is adapted to the outer diameter of the perfusion long tube 44. As shown in FIG. 6, when the sliding clamping blocks 5 are combined, the long filling pipe 44 is just clamped between the arc pouring grooves 54 to form a flow passage for the filling air flow, and the extended long filling pipe 44 is connected with a discharge pipe opening of an external pneumatic filling machine. Of course, other filling sources may be used as long as the water absorbent resin is poured into the long pouring tube 44.

Two side walls of the clamp block main body 51 are respectively provided with a locking projection 56, the locking projections 56 are respectively provided with a locking round hole 561, and the locking round holes 561 are fixedly connected through a U-shaped bayonet 6. Thus, the sliding of the sliding clamping block 5 can be prevented, and the working safety is improved. Of course, other locking means may be employed, such as snap-in, magnetic, electromagnetic, etc. In addition, it is possible that no locking structure is required if the perfusion air pressure is low.

The following introduces a specific potting plant growth ball perfusion method, which comprises the following steps:

1. a preset number of shells 300 are strung into the long pouring tube 44 of the fixed base 4 by using the first positioning round hole 301 and the second positioning round hole 302, and fig. 11 shows an embodiment of strung 6 growing balls;

2. the user holds the operating handle 53 and slides the pair of sliding clamping blocks 5 relatively, so that the fixed casing groove 52 is pressed against the casing 300 on the perfusion long tube 44, and the U-shaped bayonet 6 is inserted into the corresponding locking round hole 561, and at the same time, the casing 300 is sealed between the sliding clamping blocks 5;

3. the water-absorbent resin 3 is filled into the filling long tube 44 by using an external filling machine, and the water-absorbent resin 3 is filled into each shell 300 from the filling circular hole 441 of the filling long tube 44;

4. the U-shaped bayonet 6 is pulled out of the locking round hole 561 and unlocked, and then the sliding clamping block 5 is slid again, and the filled shell 300 is pulled out from the long filling pipe 44.

Throughout the filling process, the third embodiment of the housing described above is used. When a worker runs a ball, the first positioning round hole 301 and the second positioning round hole 302 can be used for fixing the shell to the long pouring pipe 44. Of course, all the ventilation holes on the shell can be arranged in the same way, so that the ball stringing operation can be completed without distinguishing the positioning round holes by workers and stringing the positioning round holes into any ventilation holes at random.

The pouring method has the advantages that the pouring of a plurality of growing balls can be completed at one time, and the efficiency is high. More importantly, a plurality of water-absorbent resin particles with different sizes and even powder can be poured. Because in the process of pouring, the shell is always sealed between the sliding clamping blocks 5, even if the size of the water-absorbent resin is smaller than that of the ventilation water hole, the water-absorbent resin can be fully filled without leaking out and scattering to the working environment, and the influence on the body health caused by the suction of people is avoided.

Without being limited thereto, any changes or substitutions that are not thought of through the inventive work should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. A method for filling growth balls of potted plants by using a growth ball filling device comprises the following steps:

1) the shell bodies (2,200 and 300) with preset number are connected to the perfusion long pipe (44) of the fixed base (4) in series by utilizing the first positioning round hole (301) and the second positioning round hole (302);

2) relatively sliding a pair of sliding clamping blocks (5) to enable the fixed shell groove (52) to abut against the shell (2,200, 300) on the pouring long pipe (44), and sealing the shell (2,200, 300) between the sliding clamping blocks (5);

3) filling the water-absorbing resin (3) into the filling long pipe (44) by using an external filling machine, and filling the water-absorbing resin (3) into the shells (2,200 and 300) from the filling round hole (441) of the filling long pipe (44);

4) sliding the clamping block (5) again, and extracting the filled shell (2,200, 300) from the long filling pipe (44);

wherein the content of the first and second substances,

the potted plant growth ball (1) comprises a hollow shell (2,200, 300), wherein a ventilation water hole array consisting of ventilation water holes (21) is arranged on the surface of the shell (2,200, 300), water-absorbent resin (3) is filled in the shell (2,200, 300), the water-absorbent resin (3) is granular or powdery, the shell (2,200, 300) is spherical or regular polyhedral, the ventilation water holes (21) at least comprise a first positioning round hole (301) and a second positioning round hole (302), the central axis of the first positioning round hole (301), the central axis of the second positioning round hole (302) and the geometric center of the shell (2,200, 300) are collinear, and the shell (2,200, 300) is made of pottery clay or degradable plastics;

wherein the content of the first and second substances,

the growth ball filling device comprises a fixed base (4) and a pair of sliding clamping blocks (5), wherein the fixed base (4) comprises a fixed base plate (41) which is horizontally arranged, a long guide base plate (42) which is horizontally arranged is arranged on the fixed base plate (41), two ends of the guide base plate (42) are respectively provided with a limit baffle (43) which is longitudinally arranged, the center of the guide base plate (42) is provided with a hollow filling long pipe (44) which is longitudinally arranged, the side wall of the filling long pipe (44) is provided with a filling round hole array which is composed of filling round holes (441), the sliding clamping blocks (5) can be slidably arranged on the guide base plate (42), the sliding clamping blocks (5) comprise block-shaped clamping block main bodies (51), the inner wall of the clamping block main bodies (51) is provided with a fixed shell groove array which is composed of fixed shell grooves (52), the shape of the fixed shell groove (52) is matched with that of the shell (2,200, 300), an operating handle (53) is arranged on the outer wall of the clamp block main body (51), a sliding groove (55) is arranged at the bottom of the clamp block main body (51), the width of the sliding groove (55) is matched with that of the guide substrate (42), a perfusion arc groove array consisting of arc perfusion arc grooves (54) is arranged on the inner wall of the clamp block main body (51), and the size of the perfusion arc grooves (54) is matched with the outer diameter of the perfusion long pipe (44).

2. A method for filling growth balls of potted plants by using a growth ball filling device comprises the following steps:

2) relatively sliding a pair of sliding clamping blocks (5) to enable the fixed shell groove (52) to abut against the shell (2,200, 300) on the perfusion long pipe (44), inserting a U-shaped clamping pin (6) into the corresponding locking round hole (561), and sealing the shell (2,200, 300) between the sliding clamping blocks (5);

4) the clamping pin (6) is pulled out from the locking round hole (561) to be unlocked, the sliding clamping block (5) is slid again, and the filled shell (2,200, 300) is pulled out from the filling long pipe (44);

wherein the content of the first and second substances,

the growth ball filling device comprises a fixed base (4) and a pair of sliding clamping blocks (5), wherein the fixed base (4) comprises a fixed base plate (41) which is horizontally arranged, a long guide base plate (42) which is horizontally arranged is arranged on the fixed base plate (41), two ends of the guide base plate (42) are respectively provided with a limit baffle (43) which is longitudinally arranged, the center of the guide base plate (42) is provided with a hollow filling long pipe (44) which is longitudinally arranged, the side wall of the filling long pipe (44) is provided with a filling round hole array which is composed of filling round holes (441), the sliding clamping blocks (5) can be slidably arranged on the guide base plate (42), the sliding clamping blocks (5) comprise block-shaped clamping block main bodies (51), the inner wall of the clamping block main bodies (51) is provided with a fixed shell groove array which is composed of fixed shell grooves (52), the shape of the fixed shell groove (52) is matched with the shape of the shell (2,200, 300), the outer wall of the clamp block main body (51) is provided with an operating handle (53), the bottom of the clamp block main body (51) is provided with a sliding groove (55), the width of the sliding groove (55) is adapted to the width of the guide substrate (42), the inner wall of the clamp block main body (51) is provided with a perfusion arc groove array consisting of arc perfusion arc grooves (54), the size of the pouring arc groove (54) is adapted to the outer diameter of the pouring long pipe (44), two side walls of the clamping block main body (51) are respectively provided with a locking lug (56), the locking convex blocks (56) are respectively provided with a locking round hole (561), and the locking round holes (561) are connected and fixed through a U-shaped bayonet (6).