LU508347B1 - An adjustable vine and green plant cultivation bracket and its use method - Google Patents

Abstract

The invention discloses an adjustable vine green plant cultivation bracket and its use, relating to the technical field of the vine green plant cultivation bracket, which comprises two cultivation boxes, a plurality of support rod rotary plates, the rotary plates and the rotary plates are fixedly connected with elastic ropes, and the bottom side of the cultivation box is uniformly provided with a plurality of reserved holes. The invention facilitates the flexible work of the distance between the cultivation boxes in different spaces by setting the cultivation structure, facilitates the flexible use of the cultivation boxes in different spatial positions, and facilitates the flexible transportation of the vine green plant cultivation bracket through the flexible extension and contraction of the cultivation boxes.

Description

An adjustable vine and green plant cultivation bracket and its use LUS08347 method technical fields

The present invention relates to the technical field of vine and green plant cultivation bracket, specifically an adjustable vine and green plant cultivation bracket and its use method. background technology

Cultivation stands for vine greenery are very important as they provide support for the plants and help them grow upwards as well as enhance the aesthetics. The choice of stands can be based on the growth habit of the plants, the weather resistance of the material used for the stands as well as the aesthetics needs of your indoor area or yard. At the same time,check the stability of the stands regularly to ensure healthy growth of the plants. The most important thing is that you should not use them for any other purpose than to support the growth of your plants.

Existing related technology, there are often the following shortcomings: in the traditional vine green cultivation bracket for the use of the process, vine green cultivation bracket is often placed as a fixed bracket structure, can not be flexibly adjusted according to the use of space, thus reducing the use of vine green cultivation bracket performance.

To this end, we propose an adjustable vine planting support and a method of using it. invention content

An object of the present invention is to provide an adjustable vine green plant cultivation holder and a method of using the same, in order to solve the above problems raised in the background technology.

In order to realize the above purpose, the present invention provides the following technical solution: an adjustable vine green plant cultivation bracket, including two cultivation boxes, with a number of support rods fixedly connected to the surfaces of the two said cultivation boxes, and further comprising LU508347

Cultivation structure set on the surface of said cultivation box, said cultivation structure includes a number of rotating plates installed between two struts, a number of said rotating plates are rotationally connected, the two rotating plates at the most lateral position are rotationally connected to the two struts, an elastic rope is fixedly connected between said rotating plates and rotating plates, a number of holes are uniformly opened at the bottom side of the cultivation box, a number of holes are reserved, three slide strips are fixedly connected to the inside of said cultivation box, three rows of spikes are fixedly connected to the lower surface of said slide strips, three rows of spikes are in different directions, the spikes are located at the inside of the holes, the spikes are located at the inside of the holes, the spikes are located at the inside of the holes. three sliders, the lower surface of the slider is fixedly connected with a number of spikes, three rows of spikes are not in the same direction, the spikes are located in the inner side of the holes, the inside of the cultivation box is slidingly connected with a support plate.

A shielding structure provided on the surface of said cultivation box, said shielding structure comprising two rows of barbed hooks fixedly connected to the surface of the cultivation box, the surface of the two rows of said barbed hooks being covered with a plastic film, and a number of fixing ports being uniformly fixedly connected to the inner side of said plastic film.

An adjustment structure provided inside said cultivation box, said adjustment structure comprising a draw plate slidably connected to the inside of the cultivation box, said draw plate having a number of first diamond-shaped holes uniformly opened on the surface of said draw plate, said cultivation box having a number of second diamond-shaped holes opened on the surface of said cultivation box.

The effect achieved by the above components is as follows: by setting up the cultivation structure, it facilitates the flexible adjustment of the distance between the cultivation boxes in different spaces, which facilitates the flexibility of using the cultivation boxes in different spatial locations, and by flexibly LUS08347 expanding and contracting the cultivation boxes, it facilitates the flexible transportation of the cultivation support of the vines and greenery, and by setting up the shelter structure, it facilitates the flexible channeling of the rainwater in the onset of the storm, which avoids the phenomenon of drowning of the vines and greenery inside the cultivation boxes after filling a large amount of rainwater, and to a certain extent improves the phenomenon of flooding the vines and greenery inside the cultivation boxes. It avoids the phenomenon of drowning the vine plants in the cultivation box when a large amount of rainwater is poured into the inner side of the box, and improves the survival rate of the cultivation of the vine plants to a certain extent, and it further improves the cultivation effect of the vine plants by setting up the adjusting structure, and by setting up the adjustable aperture, which facilitates the flexible irrigation of the vine plants' root and stem position according to the needs of the use, and it further enhances the cultivation effect of the vine plants by utilizing the rainwater on the inner side of the collection plate to collect the rainwater from the plant. The rainwater on the inside of the collection plate is used to irrigate the vine plants on the inside of the cultivation box, and the utilization rate of rainwater is improved.

Preferably, said cultivation structure further comprises a fixed block fixedly connected to the side wall of the cultivation box, said fixed block has two sliding rods slidingly connected to the inside of said fixed block, the lower end of two said sliding rods is fixedly connected to a support frame, and an anti-slip mat is glued to the lower surface of said support frame.

The effect of the above components is that the support frame will drive the non-slip mat to support on the hard ground, which improves the stability of placing the cultivation box on the hard ground.

Preferably, a positioning plate is fixed to the side wall of said cultivation box, a screw is threaded inside said positioning plate, and the lower end of said screw is rotationally connected to the support frame.

The effect of the above components is that by turning the screw inside the LUS08347 positioning plate, the screw will push the support frame to move.

Preferably, there are four fixed pieces fixedly connected to the side wall of said cultivation box, there is a circular pin slidingly connected to the inside of said fixed piece, there is an auxiliary block fixedly connected to the lower end of said circular pin, there is a ball embedded in the inside of said auxiliary block, there is a driving rod threaded in the inside of said fixed piece, and there is a rotational connection between said driving rod and the inside of the auxiliary block.

The effect achieved by the above components is: when the ball is supported on the ground, the movement of the cultivation box on the ground can be realized, which further improves the performance of the vine and green plant cultivation support.

Preferably, said shielding structure further comprises four rectangular blocks fixedly connected to the side wall of the cultivation box, four said rectangular blocks in a two-by-two group, two said rectangular blocks having a connection groove fixedly connected to the side wall of said rectangular blocks, said connection groove having a floating plate slidingly connected to the inner side of said connection groove, and the upper end of the two said floating plates being fixedly connected to a fixing frame.

The effect of the above components is that the floating plate will be lifted by the buoyant force of the rainwater, thus realizing the lifting of the fixed frame, and then most of the rainwater will slide down to the ground along the sloping surface of the plastic film.

Preferably, a collection box is fixedly connected to the side wall of said cultivation box, and a connecting tube is connected between said collection box and the connecting trough.

The effect of the above components is that when a certain amount of rainwater is collected on the inside of the collection box, the rainwater will flow down the connecting pipe to the inside of the connecting tank.

Preferably, a rotating shaft is rotationally connected to the inner side of the LUS08347 collection box, and a collection plate is fixedly connected to the end side of said rotating shaft.

The effect achieved by the above components is that in the event of 5 severe stormy weather, the rainwater is quickly collected along the collection plate to the inside of the collection box.

Preferably, there is a mounting block fixedly connected to the side wall of the collection box, there is a drawbar slidingly connected to the inside of the mounting block, there is an insert block fixedly connected to the end side of the drawbar, there are a number of card slots uniformly opened on the side wall of the rotating shaft, the size of the card slots and the size of the insert block are adapted to the size of the drawbar, there are springs on the surface of the drawbar, and both ends of the springs are fixedly connected to the insert block and the mounting block, respectively.

The effect achieved by the above components is: loosening the drawbar, at this time, the insertion block will be mounted on the spring force of the block inserted into the inner side of the corresponding slot on the rotor shaft, which can realize the locking work of the collection plate after turning over.

Preferably, a mounting bracket is fixedly connected to the side wall of said cultivation box, said mounting bracket is internally threaded with a wire rod, and said wire rod is rotationally connected to the interior of the extraction plate.

The effect achieved by the above components is as follows: rotate the screw inside the mounting frame, the screw will drive the pumping plate in the interior of the cultivation box, at this time can realize the adjustment of the size of the diamond-shaped hole between the first diamond-shaped hole on the pumping plate and the second diamond-shaped hole on the cultivation box, the rainwater on the inside of the collection box can flow along with the inside of the diamond-shaped hole between the first diamond-shaped hole on the pumping plate and the second diamond-shaped hole on the cultivation box to flow into the interior of the cultivation box, which can realize the irrigation of the soil at the side of the cultivation box, and further improve the efficiency of water LUS08347 absorption at the root and stem position of vine green plants. Irrigation of the soil at the side of the cultivation box is realized, which further improves the water absorption efficiency at the root and stem position of the vine plant.

A method of using an adjustable vine green cultivation stand, comprising the steps of.

S1: Unfold the two cultivation boxes and place soil on the inner side of the cultivation box, which not only increases the weight of the cultivation box, improves the stability of placing the vine green plant cultivation support, but also facilitates the planting of vine green plants;

S2: The protruding spike can realize the placement of the cultivation box on the muddy ground, and the protruding support frame can realize the placement of the cultivation box on the hard ground;

S3: Rainwater will fall on the inner side of the collection box, and the rainwater on the inner side of the connection slot can realize the lifting of the floating plate and the fixed frame, which facilitates the lifting of the plastic film;

S4: Rainwater collected on the inside of the collection box can irrigate the roots of vines and green plants on the side of the cultivation box.

Compared to the prior art, the beneficial effects of the present invention are. 1. By setting up the cultivation structure, the present invention facilitates the flexible adjustment of the distance between the cultivation boxes in different spaces, facilitates the flexibility of the use of the cultivation boxes in different spatial locations, and facilitates the flexible transportation of the vine plant cultivation support through the flexible expansion and contraction of the cultivation boxes. 2. The present invention through the setting of the shelter structure, convenient in the storm when the rainwater flexible channeling work, to avoid the cultivation box into a large number of rainwater, easy to lead to the cultivation box inside the vine green plants drowned by rainwater phenomenon,

to a certain extent, to improve the survival rate of the cultivation of the vine LU508347 green plants. 3. The present invention facilitates the flexible irrigation of the root and stem position of the vine greenery according to the use demand by setting up an adjustable structure, further improves the cultivation effect of the vine greenery, and improves the utilization of rainwater by utilizing rainwater from the inner side of the collection plate to irrigate the vine greenery on the inner side of the cultivation box.

The accompanying illustration

Figure 1 shows a schematic diagram of the overall structure of the present invention; the

Figure 2 shows a schematic diagram of the structure at the cultivation box in the present invention; the

FIG. 3 shows a schematic diagram of the dissected structure of FIG. 2 of the present invention; the

FIG. 4 shows a schematic diagram of the partial structure of FIG. 2 of the present invention; the

FIG. 5 shows a schematic diagram of the partial structure of FIG. 3 of the present invention; the

Figure 6 is an enlarged view of Ain Figure 1 of the present invention;

Figure 7 is an enlarged view at B of Figure 4 in the present invention;

Figure 8 shows a schematic view of the structure at the screw in the present invention; the

Figure 9 is an enlarged view at C of Figure 5 in the present invention.

In the figure:1,Cultivation box;2,Support rod;3,Cultivation structure; 301,Support plate;302,Support frame; 303, Anti-slip mat; 304,Fixed block;305,Slide bar;306,Ball;307,Driving rod;308,Slip bar;309,Pre-drilled hole;310,Spike;311,Elastic rope;312, Turning plate;313,Positioning plate;314,Screw;315 , circular pin; 316, fixing piece; 317, auxiliary block; 4, masking structure; 401, plastic film; 402, collection plate; 403, collection box;

404, fixing port; 405, support frame; 406, floating plate; 407, connecting groove: LU508347 408, rectangular block; 409, connecting tube; 410, rotating shaft; 411, mounting block; 412, drawbar; 413, spring; 414, inserting block; 414, spring 414, insert block; 415, slot; 416, barbed hook; 5, adjusting structure; 51, mounting bracket; 52, silk rod; 53, draw plate; 54, first diamond-shaped hole; 55, second diamond-shaped hole.

Specific implementations

The following will be combined with the accompanying drawings in the embodiments of the present invention, the technical solutions in the embodiments of the present invention are clearly and completely described, obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by the ordinary technical personnel in the field without making creative labor under the premise, are within the scope of protection of the present invention.

Please refer to Figs. 1-9, the present invention provides a technical solution: an adjustable vine green plant cultivation bracket and its method of use, including two cultivation boxes 1, two cultivation boxes 1 are fixedly connected to the surface of a number of support rods 2, also includes: set in the cultivation box 1 surface of the cultivation structure 3, cultivation structure 3 includes installed in the two support rods 2 between a number of rotating plate 312, a number of rotating plate 312 are Rotary connection, the most lateral position of the two rotary plate 312 and the two support rods 2 rotary connection, rotary plate 312 and rotary plate 312 fixed connection between the elastic rope 311, cultivation box 1 bottom side uniformly opened a number of pre-drilled holes 309, cultivation box 1 inside sliding connection with three sliding bar 308, slide 308 of the lower surface of the bar is fixedly connected with a number of spikes 310, the three rows of spikes 310 are not the same direction, the three columns of spikes 310 are not the same, and the three columns of spikes 310 are not the same direction, and the three columns of spikes 310 are fixedly connected with the two supporting rods 2 rotary LUS08347 connection. The three rows of spikes 310 are not the same direction, the spikes 310 is located in the inner side of the hole 309, the inner side of the cultivation box 1 sliding connected to the support plate 301; set in the cultivation box 1 surface of the shielding structure 4, shielding structure 4 includes two rows of barbed hooks 416 fixedly connected to the surface of the cultivation box 1, the surface of the two rows of barbed hooks 416 over the surface of the plastic film 401, the inside of the plastic film 401 uniformly connected to a number of fixed mouth 404 The adjusting structure 5 is set inside the cultivation box 1, the adjusting structure 5 includes the draw plate 53 slidingly connected to the inner side of the cultivation box 1, the surface of the draw plate 53 is uniformly opened with a number of first diamond-shaped holes 54, and a number of second diamond-shaped holes 55 are opened on the surface of the cultivation box 1. The above components achieve the following effects: through the setting of the cultivation structure 3, it is convenient to flexibly adjust the distance between the cultivation boxes 1 in different spaces.

By setting up the cultivation structure 3, it is convenient to adjust the distance between the cultivation boxes 1 in different spaces, which facilitates the flexibility of the use of the cultivation box 1 in different spatial locations, and through the flexible expansion and contraction of the cultivation box 1, it is convenient for the flexible transportation of the vine and green cultivation bracket, and by setting up the sheltering structure 4, it is convenient for the flexible channeling of rainwater in the onset of the storm, which avoids the phenomenon that after filling a large amount of rainwater into the inner side of the cultivation box 1, which easily results in the vine and green cultivation in the inner side of the cultivation box 1 drowning in the rain, and to a certain extent, improves the efficiency and effectiveness of the above mentioned components. Phenomenon, to a certain extent, to improve the survival rate of the cultivation of vines and plants, through the setting of the adjustment structure 5, through the setting of adjustable holes, according to the use of demand for the flexible irrigation of vines and plants rhizome position, further LUS08347 improve the cultivation effect of vines and plants, the use of rainwater on the inside of the collection plate 402 on the cultivation of the cultivation of vines and plants on the inside of the box 1 to irrigate the rain water to improve the utilization of rain water.

The specific settings and functions of the cultivation structure 3, the shelter structure 4 and the adjustment structure 5 thereof are specified below.

As shown in FIGS. 1-FIGS. 6 and 8, the cultivation structure 3 also includes a fixed block 304 fixedly connected to the side wall of the cultivation box 1, two sliding bars 305 slidingly connected to the inside of the fixed block 304, two slide bars 305 fixedly connected to the lower end of the support frame 302, and an anti-slip mat 303 glued to the lower surface of the support frame 302. the support frame 302 drives the anti-slip mat 303 to support the hard ground, which improves the stability of the placement of the cultivation box 1 on the hard ground. The support frame 302 will drive the non-slip mat 303 to support on the hard ground, improving the stability of the hard ground on the cultivation box 1 placement.

A positioning plate 313 is fixed to the side wall of the cultivation box 1, and a screw 314 is threaded inside the positioning plate 313, and the lower end of the screw 314 is rotationally connected to the support frame 302. Turning the screw 314 inside the positioning plate 313, the screw 314 will push the support frame 302 to move. The side wall of the cultivation box 1 is fixedly connected with four fixing pieces 316, the inner part of the fixing pieces 316 is slidingly connected with circular pins 315, the lower end of the circular pins 315 is fixedly connected with auxiliary blocks 317, the inner part of the auxiliary blocks 317 is embedded with ball 306, the inner part of the fixing pieces 316 is screwed with a driving rod 307, and the driving rod 307 is rotationally connected with the inner part of the auxiliary blocks 317. When the ball 306 is supported on the ground, the movement of the cultivation box 1 on the ground can be realized, which further improves the performance of the vine and green plant cultivation bracket. LUS08347

As shown in Figure 1 - Figure 5 and Figure 7 and Figure 9, the shielding structure 4 also includes four rectangular blocks 408 fixedly connected to the side wall of the cultivation box 1, four rectangular blocks 408 two by two, two rectangular blocks 408 sidewalls fixedly connected to the connection groove 407, the connection groove 407 sliding connection with the inner side of the pontoon 406, two pontoon 406 fixedly connected to the upper end of the fixed frame 405. pontoon 406 will be lifted by the rain buoyancy, which can realize the fixed frame 405 jacking work, at this time most of the rainwater will slide down the plastic membrane 401 slant to the ground. The floating plate 406 will be lifted by the buoyancy of rainwater, which can realize the lifting of the fixed frame 405, when most of the rainwater will slide down to the ground along the sloping surface of the plastic film 401. The side wall of the cultivation box 1 is fixedly connected to the collection box 403, and there is a connecting pipe 409 between the collection box 403 and the connecting groove 407. when the rainwater in the collection box 403 is collected to a certain amount, the rainwater will flow into the inner side of the connecting groove 407 along with the connecting pipe 409.

The inner side of the collection box 403 is rotationally connected to a spindle 410, and the end side of the spindle 410 is fixedly connected to a collection plate 402; when there is a severe storm, the rainwater will be quickly collected to the inner side of the collection box 403 along with the collection plate 402. A mounting block 411 is fixedly connected to the side wall of the collection box 403, a drawbar 412 is slidably connected to the interior of the mounting block 411, an insert block 414 is fixedly connected to the end side of the drawbar 412, a number of card slots 415 are uniformly opened on the side wall of the rotating shaft 410, the size of the card slots 415 and the size of the insert block 414 are adapted to each other, and a spring 413 is attached to the surface of the drawbar 412, and both ends of the spring 413 are connected to the insert block 414 and the mounting block 414 respectively. The two ends of the spring 413 are fixedly connected to the insert block 414 and the mounting LUS08347 block 411 respectively. Loosen the drawbar 412, at this time the plug 414 will be mounted on the block 411 spring force 413 inserted into the rotary shaft 410 corresponding to the inner side of the slot 415, can be realized on the overturning of the collection plate 402 of the locking work.

As shown in FIGS. 1-FIG. 5, a mounting bracket 51 is fixedly connected to the side wall of the cultivation box 1, and a screw 52 is threaded inside the mounting bracket 51, and the screw 52 is rotationally connected to the inside of the extraction plate 53. Turning the mounting frame 51 inside the screw 52, screw 52 will drive the pumping plate 53 in the cultivation box 1 internal pumping, at this time can be realized on the pumping plate 53 on the first rhombus hole 54 and cultivation box 1 on the second rhombus hole 55 between the formation of the rhombus hole size of the adjustment work, the collection of the box 403 inside the rain can be along the pumping plate 53 on the first rhombus hole 54 and cultivation box 1 on the formation of the rhombus between the second rhombus hole 55 The rainwater on the inside of the collection box 403 can flow into the inside of the cultivation box 1 along the inside of the diamond-shaped holes formed between the first diamond-shaped holes 54 on the draw plate 53 and the second diamond-shaped holes 55 on the cultivation box 1, so that the irrigation of the soil on the inside of the cultivation box 1 can be realized, and the water absorption efficiency of the root and stem position of the vine and green plants can be further improved.

A method of using an adjustable vine green cultivation stand, comprising the steps of.

S1: Spread two cultivation boxes 1 and place soil on the inner side of cultivation box 1, which not only increases the counterweight of cultivation box 1, improves the stability of placing vines and green plants cultivation support, but also facilitates the planting of vines and green plants;

S2: The sticking out of spike 310 can realize the placement of cultivation box 1 on muddy soil, and the sticking out of support frame 302 can realize the placement of cultivation box 1 on hard ground: LUS08347

S3: Rainwater will fall on the inner side of the collection box 403.

Rainwater on the inner side of the connection slot 407 can realize the lifting of the floating plate 406 and the fixed frame 405, which facilitates the lifting of the plastic film 401;

S4: Rainwater collected at the inner side of the collection box 403 can irrigate the roots of vines and green plants at the side of the cultivation box 1.

Working Principle: When you need to cultivate vines and plants, according to the space of the use of the site to the distance between the two cultivation box 1 to move flexibly, rotating installed in the rows between the two poles 2 rotating plate 312 not only restricts the direction of movement of the two cultivation box 1, but also convenient for the cultivation of the vines and plants after the suspension of the work, through the installation of elastic rope 311, to avoid a single position between the rotating plate 312 by gravity serious collapse phenomenon, when you need to place the cultivation box 1 in the soil ground, the soil is added to the inner side of the cultivation box 1, the soil is added to the soil, the soil will collapse. 312 by gravity to avoid the phenomenon of serious collapse, when the need to place the soil ground on the cultivation box 1 work, the soil will be added to the cultivation box 1 inside, the soil will be squeezed on the support plate 301, the support plate 301 by the gravity of the soil to promote the slider 308 to move, the spikes on the slider 308 through the reserved holes 309 can be inserted into the inner surface of the soil by setting the spikes 310 toward the different direction, the spikes 309 can be inserted into the inner surface of the soil by setting the spikes 310 toward the different direction of the spikes 310, the spikes 310 are not in the same direction as the spikes 310. Toward different spikes 310, improve the stability of the cultivation box 1 placed in the soil ground for use, to avoid the cultivation box 1 easily skewed dumping or moving phenomenon, when the need for indoor hard ground to place the cultivation box 1, you can rotate the positioning plate 313 inside the screw 314, the screw 314 will push the support frame 302 to move, at this time, the support frame 302 will drive the non-slip LUS08347 pad 303 to support the hard ground, and then the support frame 302 will drive the anti-slip pad 303 to move. Support on the hard ground, improve the stability of the hard ground on the cultivation box 1 placement, turn the fixed piece 316 inside the drive lever 307, can realize the drive work of the auxiliary block 317, when the ball 306 support on the ground, can realize the movement of the ground on the cultivation box 1, and further improve the use of the performance of the vine and green cultivation bracket, through the setting of the cultivation structure 3, convenient for the cultivation of plants in different spaces, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3, the cultivation structure 3 By setting up the cultivation structure 3, it facilitates the flexible adjustment of the distance between the cultivation boxes 1 in different spaces, which facilitates the flexibility of using the cultivation boxes 1 in different spatial locations, and through the flexible extension and contraction of the cultivation boxes 1, it facilitates the flexible transportation of the vine and green cultivation bracket.

Pump the pump rod 412 inside the mounting block 411, when the plug 414 from the inner side of the slot 415, can be in the collection box 403 of the inner side of the flexible rotation of the collection plate 402, will collect the plate 402 flipped to the appropriate position, release the pump rod 412, at this time the plug 414 by the mounting block 411 spring 413 elastic force inserted into the rotary axle 410 corresponds to the inner side of the card slot 415, can realize the collection plate 402 after flipping the locking work, the plastic film 401 sets the two rows of barbs 416 surface, when there are severe storms, the rain will be along the surface of the barb 416, the rainwater will be the same. The locking work of the collection plate 402 after turning over, after the plastic film 401 is set on the surface of the two rows of barbed hooks 416, when there is a severe storm, the rainwater will be collected quickly along the collection plate LUS08347 402 to the inside of the collection box 403, when the rainwater is collected to a certain amount in the inside of the collection box 403, the rainwater will be flowed into the inner side of the connection slot 407 along with the connection tube 409, at this time the floating plate 406 will be lifted up by the buoyancy of the rainwater, then the floating plate 406 will be lifted up by the spring 413 on the mounting block 411. When the rainwater is collected to a certain amount, the rainwater will flow down the connecting pipe 409 into the inner side of the connecting tank 407, at this time, the floating plate 406 will be lifted by the buoyant force of the rainwater to realize the jacking up of the fixing frame 405, at this time, most of the rainwater will slide down to the ground along with the slanting surface of the plastic film 401 to avoid the large amount of rainwater piling up in the inner side of the cultivation box 1, which leads to the phenomenon of the drowning of the vines and greens, and it facilitates the normal cultivation of the vines and greens through the setting of the fixing port 404, when there is no rainwater on the inner side of the connecting tank 407, the plastic film 401 will collapse into the soil. When there is no rainwater on the inner side of the connecting groove 407, the plastic film 401 will collapse on the surface of the soil, and in the process of instilling rainwater, the rainwater will also flow down along the fixing port 404 and fall down in the position around the vines and plants, and it is convenient to dismantle and install the plastic film 401 flexibly by setting the plastic film 401 as a structure that utilizes the barbed hooks 416, and it is convenient to channel the rainwater flexibly in the time of storms by setting the shielding structure 4, and it is avoided to plant a large quantity of rainwater in the inner side of the cultivation box 1, and it is easy to plant a large number of plants on the inner side of the cultivation box 1.

After filling a large amount of rainwater on the inside of the cultivation box 1, it is easy to lead to the phenomenon of drowning of the vine plants on the inside of the cultivation box 1 by rainwater, and to a certain extent, it improves the survival rate of the cultivation of the vine plants.

Turning the screw 52 inside the mounting frame 51, the screw 52 will drive LUS08347 the draw plate 53 in the interior of the cultivation box 1 for pumping, at this time can be realized on the draw plate 53 on the first rnombic holes 54 and the cultivation box 1 on the second rhombic holes 55 to form the size of the rhombic holes of the work of adjusting the rainwater on the inside of the collection box 403 can be along with the first rhombic holes on the draw plate 53 on the first rhombic holes 54 and cultivation box 1 on the second rhombic holes 55 to form the inner side of the hole flow into the cultivation box 1, can realize the irrigation of the soil on the inner side of the position, further improving the water absorption efficiency of the root and stem position of vines and greenery, further increasing the water absorption efficiency of the root and stem position of the vine and greenery. The inner side of the hole flows into the inner side of the cultivation box 1, which can realize the irrigation of the soil on the inner side of the cultivation box 1, further improving the water absorption efficiency of the rhizome position of the vines and plants, thus further improving the cultivation effect of the vines and plants, and through the setting of the adjusting structure 5 and the setting of the adjustable aperture, it facilitates the flexible irrigation work of the rhizome position of the vines and plants according to the demand of the use and further improves the cultivation effect of the vines and plants. The cultivation effect of the vine plants is further improved by utilizing the rainwater on the inside of the collection plate 402 to irrigate the vine plants on the inside of the cultivation box 1, and the utilization rate of the rainwater is improved.

It is to be noted that, for the purposes of this paper, relational terms such as first and second are used only to distinguish one entity or operation from another, and do not necessarily require or imply the existence of any such actual relationship or sequence between those entities or operations.

Moreover, the terms "including", "comprising" or any other variant thereof are intended to cover non-exclusive inclusion, so that a process, method, article or apparatus comprising a set of elements includes not only those elements, but also other elements not expressly listed. (b) elements that are not explicitly LUS08347 listed, or elements that are inherent to such process, method, article or equipment.

Although embodiments of the present invention have been shown and described, it will be appreciated by those of ordinary skill in the art that a variety of changes, modifications, substitutions, and variations may be made to these embodiments without departing from the principles and spirit of the present invention, and that the scope of the present invention is limited by the appended claims and their equivalents.

Claims (10)

Claims LU508347

1. À kind of adjustable vine green plant cultivation support, characterized in that it includes two cultivation boxes (1), the surface of the two said cultivation boxes (1) are fixedly connected with a number of support rods (2), and also includes Cultivation structure (3) provided on the surface of said cultivation box (1), said cultivation structure (3) comprising a number of rotating plates (312) mounted between two stanchions (2), a number of said rotating plates (312) are rotationally connected, two rotating plates (312) at the most lateral position are rotationally connected to the two stanchions (2), a number of fixed connections are provided between said rotating plates (312) and said rotating plates (312). The bottom side of said cultivation box (1) is uniformly opened with a number of holes (309), the inner side of said cultivation box (1) is slidingly connected with three sliders (308), the lower surface of said sliders (308) is fixedly connected with a number of spikes (310), the direction of the three rows of said spikes (310) are not the same, and said spikes (310) are located in the inner side of the holes (309), the inner side of the holes (309) is fixedly connected with a number of spikes (310), the inner side of the holes (309) are located in the inner side of the holes (309). 309), a support plate (301) slidingly connected to the inner side of said cultivation box (1). Sheltering structure (4) provided on the surface of said cultivation box (1), said sheltering structure (4) comprising two rows of barbed hooks (416) fixedly connected to the surface of the cultivation box (1), the surface of the two rows of said barbed hooks (416) being covered with a plastic film (401), said plastic film (401) having a number of fixed ports (404) fixedly connected uniformly to the inner side of said plastic film (401). Adjustment structure (5) provided inside said cultivation box (1), said adjustment structure (5) comprising a draw plate (53) slidably connected to the inside of the cultivation box (1), said draw plate (53) having a number of first diamond shaped holes (54) uniformly open on the surface of said draw plate

(53) and a number of second diamond shaped holes (55) open on the surface LUS08347 of said cultivation box (1).

2. An adjustable vine green plant cultivation support and its method of use according to claim 1, characterized in that: said cultivation structure (3) further comprises a fixing block (304) fixedly connected to the side wall of the cultivation box (1), said fixing block (304) has two sliding rods (305) slidingly connected to the inside of said fixing block (304), and the lower end of said two said sliding rods (305) is fixedly connected to a support frame (302), said support frame (302) is fixedly connected to the lower surface of said sliding rod (302), and said support frame (302) is fixedly connected to the lower surface of said sliding rod (302), and said support frame (302) is fixedly connected to the lower surface of said sliding rod (302). The lower surface of said support frame (302) is glued with an anti-slip mat (303).

3. An adjustable vine green plant cultivation support and its method of use according to claim 2, characterized in that: a positioning plate (313) is fixed on the side wall of said cultivation box (1), a screw (314) is threaded inside said positioning plate (313), and the lower end of said screw (314) is rotationally connected to a support frame (302).

4. An adjustable vine green plant cultivation support and its method of use according to claim 1, characterized in that: four fixing pieces (316) are fixedly connected to the side wall of said cultivation box (1), a circular pin (315) is slidably connected to the inside of said fixing piece (316), an auxiliary block (317) is fixedly connected to the lower end of said circular pin (315), a roller ball (306) is embedded in the inside of said auxiliary block (317), a driving rod (307) is threaded in the inside of said driving rod (316), and a driving rod (307) is threaded in the inside of said driving rod (316), and a driving rod (306) is threaded in the inside of said driving rod (306), and a driving rod (306) is embedded in the inside of the driving rod (306). ball (306) embedded in the interior of said auxiliary block (317), said driving rod (307) threaded in the interior of said fixing piece (316), said driving rod (307) rotationally connected to the interior of the auxiliary block (317). LUS08347

5. An adjustable vine green plant cultivation support and a method of use thereof according to claim 1, characterized in that: said shielding structure (4) further comprises four rectangular blocks (408) fixedly connected to a side wall of the cultivation box (1), four said rectangular blocks (408) in a group of two, two said rectangular blocks (408) with a connection groove (407) fixedly connected to the side wall of said rectangular blocks (408), said connection groove (407) slidingly connected to a floating plate (406) on the inner side, two said floating plates (406) fixedly connected to a fixed frame (405) at the upper end of the floating plate (406), and a fixed frame (405) at the upper end of the floating plate (406), and a fixed frame (405) at the upper end of the fixed plate (406). The inner side of said connecting groove (407) is slidingly connected with a floating plate (406), and the upper end of two said floating plates (406) is fixedly connected with a fixed frame (405).

6. An adjustable vine green plant cultivation support and a method of use thereof according to claim 5, characterized in that: a collection box (403) is fixedly connected to the side wall of said cultivation box (1), and a connection pipe (409) is connected between said collection box (403) and a connection slot (407).

7. An adjustable vine green plant cultivation holder and a method of using the same according to claim 6, characterized in that: the inner side of the collection box (403) is rotationally connected with a rotary shaft (410), and the end side of said rotary shaft (410) is fixedly connected with a collection plate (402).

8. An adjustable vine green plant cultivation support and its use method according to claim 7, characterized in that: the side wall of said collection box (403) is fixedly connected with a mounting block (411), the interior of said mounting block (411) is slidably connected with a drawbar (412), the end side of said drawbar (412) is fixedly connected with an insert (414), the side wall of said rotating shaft (410) is evenly There are a number of slots (415) in the side wall of the shaft (410), the size of the slots (415) and the size of the insert (414) LUS08347 are compatible, the surface of the drawbar (412) is covered with a spring (413), the two ends of the spring (413) are fixedly connected with the insert (414) and the mounting block (411) respectively.

9. An adjustable vine green plant cultivation bracket and its method of use according to claim 1, characterized in that: a mounting bracket (51) is fixedly connected to the side wall of said cultivation box (1), a wire rod (52) is threadedly connected to the interior of said mounting bracket (51), and said wire rod (52) is rotationally connected to the interior of the draw plate (53).

10. A method of using an adjustable vine green plant cultivation stand according to any one of claims 1-9, characterized in that it comprises the steps of. S1: Spread the two cultivation boxes (1) and place soil on the inside of the cultivation box (1), which not only increases the counterweight of the cultivation box (1), improves the stability of placing the vine green plant cultivation support, but also facilitates the planting of vine green plants; S2: The sticking out of the spike (310) can realize the placement of the cultivation box (1) on the muddy ground, and the sticking out of the support frame (302) can realize the placement of the cultivation box (1) on the hard ground; S3: Rainwater will fall on the inner side of the collection box (403), and the rainwater on the inner side of the connection slot (407) can realize the lifting of the floating plate (406) and the fixed frame (405), which facilitates the lifting of the plastic film (401); S4: Rainwater collected on the inside of the collection box (403) can also irrigate the roots of vines and green plants on the side of the cultivation box (1).