CN114698486A - Afforestation cultivation device for garden design - Google Patents

Abstract

The invention provides a greening cultivation device for garden design, which comprises a cultivation frame, wherein one side of the cultivation frame is embedded with a convex strip, the lower end inside the cultivation frame is provided with a filter screen, sponge layers are slidably penetrated through the two sides of the lower end inside the cultivation frame, a transmission mechanism capable of automatically supporting irrigation by utilizing the siphon principle is arranged inside the cultivation frame, holes with the hole diameter of 0.2-0.4cm are penetrated through the inside of the filter screen, the sponge layers are arranged in a wavy manner, the sponge layers are compressed sponges, part of clear water enters the inside of a bracket through the holes inside the rotation frame, the holes are arranged at the two ends of the rotation frame, the positions of the holes are changed along with the continuous rotation of the rotation frame, when the holes move to the lower end of the rotation frame, the holes inside the bracket are penetrated through the rotation frame, the clear water falls through the holes at the lower end of the rotation frame, the flow speed of the clear water can be reduced by utilizing the arrangement of the rotation frame and the bracket, the clear water can be prevented from irrigating green plants too fast, forming automatic continuous irrigation.

Description

Afforestation cultivation device for garden design

Technical Field

The invention relates to the technical field of landscaping, in particular to a greening cultivation device for garden design.

Background

Landscaping needs to be cultivated, a cultivation device is usually used for cultivation of landscaping, a support frame is needed for supporting green plants after transplantation of the landscaping, the green plants are prevented from toppling over after transplantation, and the technical inspiration is specific to the cultivation device;

the study of the cultivation apparatus found the following problems:

the cultivation device can only cultivate green plants, the green plants need to be supported by the support frame after being transplanted, and the green plants need to be irrigated after being cultivated, so that the cultivation device cannot support the green plants after being cultivated, and cannot automatically and continuously irrigate the green plants while supporting;

at present, CN202011319310.1 (CN) is a seedling transferring and cultivating device for landscaping in the prior art, which discloses a cultivating device, wherein the invention ensures that seedlings can be uniformly illuminated by arranging a lighting lamp and rotate at a constant speed, and the seedlings leave nutrient solution at intervals, thereby ensuring the supply of roots of the seedlings, being more beneficial to the growth of the seedlings, being convenient and practical;

the invention mainly solves the problem that the cultivation device can not automatically and continuously irrigate green plants while supporting.

Disclosure of Invention

To solve the above technical problems, the present invention provides a greening cultivation device for garden design, which solves the problems described in the background art.

The invention relates to a purpose and an effect of a greening cultivation device for garden design, which are achieved by the following specific technical means: the utility model provides a afforestation cultivation device for garden design, includes the cultivation frame, one side of cultivation frame is inlayed and is had the sand grip, the filter screen is installed to the inside lower extreme of cultivation frame, the both sides of the inside lower extreme of cultivation frame slide to run through there is the sponge layer, the inside of cultivation frame is equipped with the drive mechanism of usable siphon principle automatic stay watering.

Furthermore, the inside of filter screen runs through there is the aperture to be 0.2-0.4cm hole, and the sponge layer is wavy setting, and the sponge layer is the sponge after the compression, and the cultivation frame runs through there is the hole near the inside on sponge layer, and the hole is link up with the filter screen, and the upper and lower both ends on sponge layer and the inner wall laminating of cultivation frame.

Furthermore, drive mechanism includes telescopic link, folded sheet, slider, sleeve, outlet pipe, snap ring, pipeline, swivel mount, pivot and support.

Further, the telescopic link is installed in the inside both sides of cultivation frame, and folded sheet elasticity stretches out and draws back in the both ends of telescopic link, and the slider slides in the one end of folded sheet, and the sleeve slides nested in one side of telescopic link, and the outlet pipe runs through in one side of sleeve top, and the snap ring is inlayed in one side that the sleeve is close to the outlet pipe, and the pipeline runs through between sleeve and snap ring, and the swivel mount is rotatory in the inside of snap ring, and the pivot runs through in the centre of swivel mount, and the support swings in the lower extreme of pivot.

Further, the telescopic link is horizontal "T" form setting, and the telescopic link is the horizontal slip nestification with the sleeve, and the telescopic link can be injectd sleeve slip direction, and the folded sheet is wavy setting, and the folded sheet is folding flexible perpendicularly, and the slide rail has been seted up to telescopic inner wall, and the slider slides in the inside of slide rail.

Further, telescopic inside is the cavity form setting, and the sleeve is slope 15-25 settings, and the sleeve distributes in the inside both sides of cultivation frame, and telescopic inside packing has the clear water, and telescopic slope setting is convenient to save partial clear water, and the outlet pipe link up with the snap ring, and the outlet pipe is in the upper end of the inside water level line of sleeve, and then when the sleeve was static, the outlet pipe can avoid the clear water to get into the inside of snap ring.

Furthermore, the pipeline is arranged in an arc shape, the lengths of two ends of the pipeline are different, the length difference between the two ends of the pipeline is 2-4cm, one end of the pipeline, which is long, penetrates through the sleeve, and the other end of the pipeline penetrates through the clamping ring.

Further, the swivel mount is the setting of pentagram shape, and the outside of swivel mount is seted up flutedly respectively, and the recess can increase the area of contact of clear water and swivel mount, and the hole has been run through to the inside of swivel mount both ends recess simultaneously, and the hole makes things convenient for some clear water to get into the inside of swivel mount.

Further, the support swings in the inside of swivel mount, and the support is the semicircle arcuation setting, and the shape setting of support is conveniently saved the clear water, and the inside both sides of support run through there is the hole, and the hole is perpendicular crisscross with the inside hole of swivel mount and runs through.

Furthermore, drive mechanism includes mount, rotary disk, armshaft, track and sealing ring, and the mount is installed in the both sides of cultivation frame inside below, and the rotary disk swings in one side of mount, and the armshaft swings in the lower extreme of rotary disk, and the track mounting is in the inside below of mount, and the sealing ring slides in the lower extreme of armshaft.

Furthermore, the rotating disc extends to one side of the fixing frame, the rotating disc is vertically attached to the sponge layer in a sliding mode, a hole penetrates through the rotating disc, the diameter of the hole is 0.5-1cm, the hole is arranged in an inclined mode at an angle of 15-45 degrees, the shaft arm slides in the track, and the sealing ring is movably nested with the hole at the lower end of the fixing frame.

Has the advantages that:

1. the green plants are placed in the cultivation frame, the sleeve is manually horizontally slid according to the diameter of the green plants, at the moment, one side of the telescopic rod impacts clear water in the sleeve, the clear water flows upwards, part of the clear water enters the inside of the clamping ring through the water outlet pipe and falls to the upper end of the rotating frame, the rotating frame rotates through the rotating shaft, and part of the clear water falls to the root of the green plants through the holes in the clamping ring to be irrigated;

2. partial clear water enters the inside of the support through the hole in the rotating frame, the hole is positioned at two ends of the rotating frame, the position of the hole changes along with the continuous rotation of the rotating frame, when the hole moves to the lower end of the rotating frame, the hole in the inside of the support is communicated with the rotating frame, the clear water drops through the hole at the lower end of the rotating frame, the flowing speed of the clear water can be reduced by utilizing the rotating frame and the support, the clear water is prevented from irrigating green plants too fast, and automatic continuous irrigation is formed;

3. when clear water flows in the sleeve, the clear water quickly penetrates through the interior of the pipeline due to the impact of the telescopic rod, so that air in the pipeline is discharged, and clear water at the lower end of the interior of the sleeve enters the interior of the clamping ring by utilizing a siphon principle, so that the transmission mechanism can fully absorb the clear water in the sleeve by utilizing the siphon principle, and the condition that a certain amount of water is accumulated in the sleeve due to the overhigh position of the water outlet pipe is avoided;

4. the redundant water flows through the filter screen and enters the lower end of the interior of the cultivation frame and simultaneously enters the interior of the sponge layer, the sponge layer is integrally expanded and extends upwards, the sponge layer extends to one side of the rotating disc, the rotating disc and the inner wall of the cultivation frame extrude the sponge layer, and then the clear water is extruded to flow into the interior of the fixing frame through the inner hole of the rotating disc;

5. and the rotary disk is because the sponge layer upwards slides, and whole swing, when the rotary disk upwards swung, the armshaft drove the sealing ring and extends to the lower extreme of mount, and then can make things convenient for the clear water to pass through the mount and drop to the upper end of filter screen, forms recycling for this kind of drive mechanism can carry out recycle to unnecessary clear water.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of a partial structure of the cultivation shelf of the present invention.

FIG. 3 is a schematic cross-sectional view of the cultivation shelf of the present invention.

Fig. 4 is a partial structural schematic view of the telescopic frame of the present invention.

FIG. 5 is an enlarged view of the structure at A in FIG. 3 according to the present invention.

FIG. 6 is a schematic view of a rotating frame assembly according to the present invention.

FIG. 7 is an enlarged view of the structure at B in FIG. 3 according to the present invention.

In fig. 1 to 7, the correspondence between the component names and the reference numbers is:

1-cultivation frame, 101-convex strip, 102-filter screen, 103-sponge layer, 2-telescopic rod, 201-folding plate, 202-sliding block, 3-sleeve, 301-water outlet pipe, 302-snap ring, 303-pipeline, 4-rotary frame, 401-rotary shaft, 402-bracket, 5-fixed frame, 501-rotary disc, 502-shaft arm, 503-track, 504-sealing ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

As shown in figures 1 to 7:

example 1: a greening cultivation device for garden design comprises a cultivation frame 1, wherein a raised line 101 is embedded in one side of the cultivation frame 1, a filter screen 102 is installed at the lower end in the cultivation frame 1, sponge layers 103 penetrate through two sides of the lower end in the cultivation frame 1 in a sliding mode, and a transmission mechanism capable of automatically supporting irrigation by utilizing a siphon principle is arranged in the cultivation frame 1;

wherein: the cultivation frame 1 is hollow, every two cultivation frames 1 are arranged in a group, one side of each cultivation frame 1, which is close to the raised line 101, is provided with a matched groove, and the cultivation frames 1 are slidably nested through the raised lines 101 and the grooves;

the convex strips 101 are arranged in a transverse T shape, and the convex strips 101 are convenient for the cultivation frame 1 to be horizontally nested in a sliding manner;

the cultivation frame comprises a filter screen 102 and a sponge layer 103, wherein holes with the aperture of 0.2-0.4cm penetrate through the filter screen 102, the sponge layer 103 is arranged in a wavy manner, the sponge layer 103 is a compressed sponge, holes penetrate through the cultivation frame 1 close to the interior of the sponge layer 103, the holes are communicated with the filter screen 102, and the upper end and the lower end of the sponge layer 103 are attached to the inner wall of the cultivation frame 1;

green plants are placed in the cultivation frame 1 and are fixed through the transmission mechanism, in the fixing process of the transmission mechanism, partial water flow automatically waters the lower ends of the green plants, the siphonage principle is utilized to fully water the green plants, excess water flows through the filter screen 102 to enter the lower ends of the cultivation frame 1 and enter the sponge layer 103, the sponge layer 103 is integrally expanded and extends upwards, and clear water can be recovered through the transmission mechanism;

example 2: referring to fig. 3-6 in the specification, embodiment 2 is different from embodiment 1 in that the transmission mechanism includes a telescopic rod 2, a folding plate 201, a sliding block 202, a sleeve 3, a water outlet pipe 301, a clamping ring 302, a pipeline 303, a rotating frame 4, a rotating shaft 401 and a support 402, the telescopic rod 2 is installed at two sides inside the cultivation frame 1, the folding plate 201 elastically extends and retracts at two ends of the telescopic rod 2, the sliding block 202 slides at one end of the folding plate 201, the sleeve 3 slides and is nested at one side of the telescopic rod 2, the water outlet pipe 301 penetrates through one side above the sleeve 3, the clamping ring 302 is embedded at one side of the sleeve 3 close to the water outlet pipe 301, the pipeline 303 penetrates between the sleeve 3 and the clamping ring 302, the rotating frame 4 rotates inside the clamping ring 302, the rotating shaft 401 penetrates through the middle of the rotating frame 4, and the support 402 swings at the lower end of the rotating shaft 401;

wherein: the telescopic rod 2 is transversely arranged in a T shape, the telescopic rod 2 and the sleeve 3 are horizontally nested in a sliding manner, and the telescopic rod 2 can limit the sliding direction of the sleeve 3;

the folding plate 201 and the sliding block 202 are arranged in a wavy manner, the folding plate 201 is vertically folded and stretched, the inner wall of the sleeve 3 is provided with a sliding rail, the sliding block 202 slides in the sliding rail, and the sliding of the sliding block 202 can assist the folding plate 201 to vertically extend and compress, so that the telescopic rod 2 can conveniently slide;

the interior of the sleeve 3 is hollow, the sleeve 3 is inclined at an angle of 15-25 degrees, the sleeves 3 are distributed on two sides of the interior of the cultivation frame 1, clear water is filled in the sleeves 3, and the sleeves 3 are inclined, so that part of the clear water can be stored conveniently;

the water outlet pipe 301 is communicated with the clamping ring 302, the water outlet pipe 301 is positioned at the upper end of the water level line in the sleeve 3, and therefore when the sleeve 3 is static, the water outlet pipe 301 can prevent clear water from entering the clamping ring 302;

a water outlet is formed in the lower end of the interior of the clamping ring 302, the water outlet vertically corresponds to the filter screen 102, the clamping ring 302 is arranged in a semicircular arc shape, the angle of the semicircular arc is 180 degrees, and the clamping ring 302 is convenient to limit and fix green plants;

the pipeline 303 is arranged in an arc shape, the lengths of two ends of the pipeline 303 are different, the length difference of the two ends of the pipeline 303 is 2-4cm, one long end of the pipeline 303 penetrates through the sleeve 3, and the other end of the pipeline 303 penetrates through the clamping ring 302;

when the clean water flows, due to the impact of the telescopic rod 2, the clean water quickly penetrates through the interior of the pipeline 303, so that the air in the pipeline 303 is discharged, and the clean water at the lower end of the interior of the sleeve 3 enters the interior of the snap ring 302 by utilizing the siphon principle;

the rotating frame 4 is arranged in a pentagram shape, grooves are formed in the outer side of the rotating frame 4 respectively, the grooves can increase the contact area of clean water and the rotating frame 4, and holes are formed in the grooves in the two ends of the rotating frame 4 in a penetrating mode and facilitate partial clean water to enter the rotating frame 4;

the rotating shaft 401 is sleeved in two sections, and the two sections of the rotating shaft 401 are respectively matched with the bracket 402 and the rotating frame 4;

the bracket 402 swings inside the rotating frame 4, the bracket 402 is arranged in a semicircular arc shape, the bracket 402 is arranged in the shape so as to conveniently store clear water, holes penetrate through two sides inside the bracket 402, and the holes are vertically crossed with the holes inside the rotating frame 4;

wherein: the green plants are placed in the cultivation frame 1, the sleeve 3 is manually horizontally slid according to the diameter of the green plants, at the moment, one side of the telescopic rod 2 impacts clean water in the sleeve 3, the clean water flows upwards, part of the clean water enters the clamping ring 302 through the water outlet pipe 301 and falls to the upper end of the rotating frame 4, the rotating frame 4 rotates through the rotating shaft 401, and part of the clean water falls to the root of the green plants through the holes in the clamping ring 302 for irrigation;

partial clear water enters the support 402 through the hole in the rotating frame 4, the hole is positioned at two ends of the rotating frame 4, the position of the hole changes along with the continuous rotation of the rotating frame 4, when the hole moves to the lower end of the rotating frame 4, the hole in the support 402 is communicated with the rotating frame 4, the clear water drops through the hole at the lower end of the rotating frame 4, the flowing speed of the clear water can be reduced by utilizing the rotating frame 4 and the support 402, the clear water is prevented from irrigating green plants too fast, and automatic continuous irrigation is formed;

when clear water flows inside the sleeve 3, due to the impact of the telescopic rod 2, the clear water quickly penetrates through the inside of the pipeline 303, so that air inside the pipeline 303 is discharged, and by utilizing the siphon principle, clear water at the lower end inside the sleeve 3 enters the inside of the snap ring 302, so that the transmission mechanism can fully absorb the clear water inside the sleeve 3 by utilizing the siphon principle, and the condition that a certain amount of water is accumulated inside the sleeve 3 due to the overhigh position of the water outlet pipe 301 is avoided;

example 3: as can be seen from fig. 2 and 7 in the specification, embodiment 3 is different from embodiments 1 and 2 in that the transmission mechanism includes a fixed frame 5, a rotating disc 501, a shaft arm 502, a rail 503 and a sealing ring 504, the fixed frame 5 is installed at two sides of the lower part inside the cultivation shelf 1, the rotating disc 501 swings at one side of the fixed frame 5, the shaft arm 502 swings at the lower end of the rotating disc 501, the rail 503 is installed at the lower part inside the fixed frame 5, and the sealing ring 504 slides at the lower end of the shaft arm 502;

wherein: the lower end of the fixing frame 5 is provided with a hole which is vertically and correspondingly arranged with the filter screen 102;

the rotating disc 501 extends to one side of the fixed frame 5, the rotating disc 501 is vertically attached to the sponge layer 103 in a sliding mode, holes penetrate through the rotating disc 501, the diameter of each hole is 0.5-1cm, and the holes are arranged in an inclined mode at an angle of 15-45 degrees;

the shaft arm 502, the shaft arm 502 slides in the orbit 503, the seal ring 504 is nested with the cavity activity of the lower end of the fixed mount 5;

wherein: the surplus water flows through the lower end of the interior of the cultivation frame 1 through the filter screen 102 and enters the interior of the sponge layer 103, the sponge layer 103 expands integrally and extends upwards, the sponge layer 103 extends to one side of the rotating disc 501, the rotating disc 501 and the inner wall of the cultivation frame 1 extrude the sponge layer 103, and then the clear water is extruded to flow into the interior of the fixing frame 5 through the inner hole of the rotating disc 501;

and the rotary disk 501 is wholly swung because the sponge layer 103 slides upwards, and when the rotary disk 501 swings upwards, the shaft arm 502 drives the sealing ring 504 to extend to the lower end of the fixing frame 5, so that the clean water can fall to the upper end of the filter screen 102 through the fixing frame 5, and the clean water can be recycled, so that the transmission mechanism can recycle the redundant clean water.

Claims (10)

1. The utility model provides a afforestation cultivation device for garden design which characterized in that: comprises that

The cultivation device comprises a cultivation frame (1), wherein a convex strip (101) is embedded in one side of the cultivation frame (1), a filter screen (102) is installed at the lower end in the cultivation frame (1), sponge layers (103) penetrate through two sides of the lower end in the cultivation frame (1) in a sliding mode, and a transmission mechanism capable of automatically supporting irrigation by utilizing a siphon principle is arranged in the cultivation frame (1);

the cultivation frames (1) are arranged in a hollow shape, every two cultivation frames (1) are arranged in a group, one side of each cultivation frame (1) close to the raised line (101) is provided with a matched groove, and the cultivation frames (1) are nested in a sliding mode through the raised lines (101) and the grooves;

the convex strips (101), the convex strips (101) are arranged in a transverse T shape, and the convex strips (101) are convenient for the cultivation frame (1) to be horizontally nested in a sliding manner;

filter screen (102) and sponge layer (103), the inside of filter screen (102) is run through and is had the aperture to be 0.2-0.4cm hole, sponge layer (103) are wavy setting, sponge layer (103) are the sponge after the compression, and cultivation frame (1) is close to the inside of sponge layer (103) and runs through and has the hole, and the hole is link up with filter screen (102), the upper and lower both ends of sponge layer (103) and the inner wall laminating of cultivation frame (1).

2. A greening cultivation device for garden design according to claim 1, characterized in that: the transmission mechanism comprises a telescopic rod (2), a folding plate (201), a sliding block (202), a sleeve (3), a water outlet pipe (301), a clamping ring (302), a pipeline (303), a rotating frame (4), a rotating shaft (401) and a bracket (402), the inside both sides in cultivation frame (1) are installed in telescopic link (2), folded sheet (201) elasticity stretches out and draws back in the both ends of telescopic link (2), slider (202) slide in the one end of folded sheet (201), sleeve (3) slide nested in one side of telescopic link (2), outlet pipe (301) run through in one side of sleeve (3) top, snap ring (302) are inlayed in one side that sleeve (3) are close to outlet pipe (301), pipeline (303) run through between sleeve (3) and snap ring (302), swivel mount (4) are rotatory in the inside of snap ring (302), pivot (401) run through in the centre of swivel mount (4), support (402) swing in the lower extreme of pivot (401).

3. A greening cultivation device for garden design according to claim 2, characterized in that: the telescopic rod (2) is arranged in a transverse T shape, the telescopic rod (2) and the sleeve (3) are horizontally nested in a sliding mode, and the telescopic rod (2) can limit the sliding direction of the sleeve (3);

folded sheet (201) and slider (202), folded sheet (201) are wavy setting, and folded sheet (201) are folding flexible perpendicularly, and the slide rail has been seted up to the inner wall of sleeve (3), and slider (202) slide in the inside of slide rail.

4. A greening cultivation device for garden design according to claim 2, characterized in that: the interior of the sleeve (3) is arranged in a hollow shape, the sleeve (3) is inclined by 15-25 degrees, the sleeve (3) is distributed on two sides of the interior of the cultivation frame (1), and clear water is filled in the sleeve (3).

5. A greening cultivation device for garden design according to claim 2, characterized in that: the water outlet pipe (301) is communicated with the clamping ring (302), and the water outlet pipe (301) is positioned at the upper end of a water level line in the sleeve (3);

the water outlet is formed in the lower end of the inner portion of the clamping ring (302), the water outlet vertically corresponds to the filter screen (102), the clamping ring (302) is arranged in a semicircular arc shape, and the semicircular arc angle is 180 degrees.

6. A greening cultivation device for garden design according to claim 2, characterized in that: pipeline (303) are the arc setting, and pipeline (303) both ends length is different, and pipeline (303) both ends length differs 2-4cm, and the inside in sleeve (3) is run through to the long one end of pipeline (303), and the other end of pipeline (303) runs through in the inside of snap ring (302).

7. A greening cultivation device for garden design according to claim 2, characterized in that: the rotating frame (4) is arranged in a pentagram shape, grooves are formed in the outer side of the rotating frame (4) respectively, the grooves can increase the contact area of clean water and the rotating frame (4), and holes penetrate through the grooves in the two ends of the rotating frame (4).

8. A greening cultivation device for garden design according to claim 2, characterized in that: the support (402) swings in the rotating frame (4), the support (402) is arranged in a semicircular arc shape, clear water is conveniently stored due to the arrangement of the support (402), and holes penetrate through two sides of the interior of the support (402).

9. The greening cultivation device for garden design according to claim 1, wherein: the transmission mechanism comprises a fixed frame (5), a rotating disc (501), an axial arm (502), a track (503) and a sealing ring (504), the fixed frame (5) is installed on two sides of the lower portion inside the cultivation frame (1), the rotating disc (501) swings on one side of the fixed frame (5), the axial arm (502) swings on the lower end of the rotating disc (501), the track (503) is installed below the inside of the fixed frame (5), and the sealing ring (504) slides on the lower end of the axial arm (502).

10. A greening cultivation device for garden design according to claim 9, characterized in that: the rotating disc (501) extends to one side of the fixed frame (5), the rotating disc (501) is vertically attached to the sponge layer (103) in a sliding mode, holes penetrate through the rotating disc (501), the diameter of each hole is 0.5-1cm, and the holes are arranged in an inclined mode at an angle of 15-45 degrees;

the shaft arm (502), shaft arm (502) slide in the inside of track (503), and sealing ring (504) and mount (5) lower extreme hole activity nestification.

Images