CN112273086A - Plant growth regulator discharge mechanism and dust suppression and green recovery device of mechanism - Google Patents

Abstract

The invention discloses a plant growth regulator discharge mechanism and a dust suppression and green recovery device thereof, comprising a storage cavity which is arranged inside a brick and used for storing a plant growth regulator, the bottom of the brick is provided with capillary holes for discharging the plant growth regulator inside the brick in an evaporation mode, when the storage cavity is filled with the plant growth regulator, the plant growth regulator slowly evaporates and permeates into the ground bottom at the bottom of the brick from the capillary hole, the device can be suitable for lifting the inclined plane, is used for planting plants, prevents water and soil loss, continuously and slowly adds plant growth regulator to the plants to promote the growth of the plants, and plant growth regulator can be added into a plurality of groups of bricks which are spliced with each other at the same time, after the addition is finished, the adjacent bricks are mutually isolated, so that the plant growth regulator in each group of bricks is ensured to be slowly evaporated into the soil layer at the bottom of the brick through the capillary.

Description

Plant growth regulator discharge mechanism and dust suppression and green recovery device of mechanism

Technical Field

The invention relates to the technical field of dust suppression and greening devices, in particular to a plant growth regulator discharging mechanism and a dust suppression and greening device of the mechanism.

Background

The dust suppression and greening device comprises bricks laid on the side faces of the lifting body, small holes for planting green plants are formed in the surfaces of the bricks and used for planting greensward and other green plants, water and soil loss is prevented, and the corresponding dust suppression and greening effect is achieved.

In the prior art, the brick for dust suppression and greening has the defects that the area covered on the surface of soil is large, the ventilation property of the roots of plants is poor, the green plants are easy to be damaged due to sultry for a long time, the brick covers the soil in a large area, the plant growth regulator is inconvenient to add, the plant growth regulator is inconvenient to enter the soil, the plant growth regulator cannot be continuously and slowly acted on the plants for growth by spraying the plant growth regulator once in the prior art, the defect exists, and the plant growth regulator is directly sprayed on the surface of the green plants and is easy to volatilize, so that the waste is caused; therefore, the plant growth regulator discharge mechanism and the dust suppression and green recovery device of the mechanism are provided to solve the problems.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a plant growth regulator discharging mechanism and a dust suppression and green recovery device of the mechanism, wherein the dust suppression and green recovery device comprises a storage cavity which is arranged in a brick and used for storing a plant growth regulator, when the storage cavity is filled with the plant growth regulator, the plant growth regulator slowly evaporates and permeates into the ground bottom at the bottom of the brick from capillary holes, and the plant growth regulator can directly permeate into the roots of plants without volatilization and waste.

In order to achieve the above object, the present invention employs a plant growth regulator discharge mechanism comprising:

the storage cavity is arranged in the brick and used for storing the plant growth regulator, the bottom of the brick is provided with capillary holes for discharging the plant growth regulator in an evaporation mode, and when the storage cavity is filled with the plant growth regulator, the plant growth regulator is slowly evaporated and permeates into the ground bottom at the bottom of the brick from the capillary holes;

the bottom of the brick is provided with an inner groove communicated with the planting hole, and when the plant is planted in the planting hole, the root of the plant is positioned in the inner groove;

the ground inserting cylinder surrounds the planting hole by a circle, the ground inserting cylinder can be inserted into the soil layer extending into the ground inserting cylinder in the inner groove, a plurality of groups of air holes for ventilating plant roots in the soil in the inner groove are formed in the surface of the ground inserting cylinder, and threaded holes for the upper end of the ground inserting cylinder to be in threaded fit connection are formed in the surfaces of the brick and the cover body.

As a further optimization of the scheme, a filter layer for preventing soil outside the brick from entering the storage cavity from the capillary hole is placed at the bottom of the storage cavity, a box body spliced below the cover body is further arranged inside the storage cavity, the bottom of the box body is pressed above the filter layer, and a leakage groove for allowing the plant growth regulator stored in the storage cavity to enter and exit is formed in the bottom of the box body.

In this embodiment, the filter layer may be a cotton filter pad, and the case may be used to collect dust, impurities, and the like in the plant growth regulator.

As a further optimization of the scheme, the bottom of the cover body is provided with an elastically deformable clamping strip, and the inner wall of the upper end of the box body is provided with a clamping block for clamping the clamping strip to complete the fixation of the box body and the cover body.

What need explain, the direct concatenation of box body is in the below of lid, conveniently demolishs and clears up the inside impurity such as dust of collecting of it, upwards moves the lid to the top that the box body breaks away from the storage chamber at vegetation's in-process, can open the box body and clear up, after the clearance again with the box body card go into the storage chamber, with the lid block in the fragment of brick top can, do not influence vegetation.

As the further optimization of above-mentioned scheme, the storage chamber is rectangle framework slot-shaped structure, and the box body matches with the shape in storage chamber, and the box body forms by the box concatenation of two sets of characters in bas-relief, forms the rectangle framework case structure of top open-ended when the box of two sets of characters in bas-relief splices each other.

Furthermore, two sets of box bodies in the shape of Chinese character ' ao ' that constitute the box body can plant the hole and open and clear up impurity such as its inside dust for some to both sides, also can clear up convenient to use at vegetation's in-process.

As the further optimization of above-mentioned scheme, but plant the fixed sponge circle that is equipped with elastic deformation on the inner wall in kind of a hole, plant the plant stem growth grow in kind of a hole often outwards expand sponge circle elastic deformation.

Specifically, the sponge ring can elastically deform and is suitable for thickening the stem of the plant during growth.

As a further optimization of the scheme, the bottom of the ground inserting cylinder is of a conical structure which is easy to insert into the soil layer inside the inner groove.

In this embodiment, insert the drum and conveniently demolish and clear up, and insert the drum and easily insert soil horizon, insert and be equipped with the gas pocket that the multiunit supplied the root of plant to ventilate on the drum, avoided the vexed bad phenomenon of root of plant, and through the area of ventilating that vertical direction increased root of plant, kept the lid simultaneously and covered the area on soil surface, prevent soil erosion and water loss.

The invention also discloses a dust suppression and green recovery device, which comprises the plant growth regulator discharge mechanism, and further comprises:

the second holes and the first holes are used for allowing the plant growth regulator to enter and exit the storage cavity, two groups of the second holes and two groups of the first holes are arranged on the four side surfaces of the bricks at intervals, and when the adjacent bricks are spliced with each other, the second holes and the first holes are communicated to realize the simultaneous addition of the plant growth regulator to the multiple groups of bricks;

the blocking devices are arranged on the second hole and the first hole to isolate the storage cavity from the exterior of the brick block, a first sealing plate which is still movably sealed at the opening of the second hole when receiving the pressure of the plant growth regulator in the storage cavity is arranged in the second hole, a magnetic sealing plate which is still movably sealed at the opening of the second hole when receiving the pressure of the plant growth regulator in the storage cavity is arranged in the first hole, one side of the first sealing plate is provided with a cylinder which is abutted against the magnetic sealing plate to enable the second hole and the first hole to be communicated when the second hole and the first hole are spliced with each other, when the plant growth regulator is filled into the storage cavity, the cylinder pushes against the magnetic sealing plate to open the first hole, the flowing plant growth regulator is impacted on the surface of the first sealing plate, so that the first sealing plate moves and opens the second hole, when the plant growth regulator filled in the storage cavity stands, the first sealing plate is attached to the opening of the first hole to complete the isolation of the storage cavity in the adjacent brick.

It should be noted that, this device is applicable to and promotes the inclined plane, be used for planting the plant, give the slow plant growth regulator that adds of plant when preventing soil erosion, promote vegetation, and can add the plant growth regulator to the fragment of brick of multiunit mutual concatenation simultaneously, after the interpolation finishes, mutual isolation between the adjacent fragment of brick, the plant growth regulator in having guaranteed each group of fragment of brick slowly evaporates to the soil horizon of its bottom through the capillary hole, the plant growth regulator can not concentrate in the fragment of brick of its bottom when multiunit fragment of brick concatenation and can't add the plant growth regulator for the plant of planting on the fragment of brick of top, multiunit fragment of brick concatenation can press down the dirt and regreen at dam body surface and be used for planting the plant.

As a further optimization of the above scheme, a first limiting groove recessed toward the outer edge of the second hole is formed in the inner wall of the second hole, a second sealing plate wrapped around the outer ring of the first sealing plate is movably arranged at the outer ring of the first sealing plate, the second sealing plate and the first sealing plate are mutually attached in an L-shaped structure to form a circular plate-shaped structure, a circular groove is formed in the surface of the second sealing plate, a third spring for pulling the first sealing plate is fixedly arranged at the bottom of the circular groove, a first spring for supporting the second sealing plate is fixedly arranged on the inner wall of one side, close to the interior of the storage cavity, of the first limiting groove, and a support limited on one side of the first sealing plate is fixedly arranged on the inner wall of one side, close to the interior of the storage cavity, of the first limiting groove.

Further, when the plant growth regulator is added into a plurality of groups of bricks, the pipeline connected with an external water source is connected to the opening of the second hole, the plant growth regulator entering from the second hole impacts the surface of the first sealing plate, so that the first sealing plate moves towards one side of the storage cavity and abuts against the surface of the strut, the plant growth regulator can sequentially flow into the storage cavity through the second hole and the gap between the outer ring of the first sealing plate and the first limiting groove, when the plant growth regulator is filled in the storage cavity, the plant growth regulator forming high pressure continuously adds into the storage cavity along with the plant growth regulator, the plant growth regulator can impact the surface of the first sealing plate, so that the first sealing plate is separated from the end part of the connecting pipe, and at the moment, the plant growth regulator sequentially flows through the gap between the guide plate and the magnetic sealing plate and the gap between the first sealing plate and the connecting pipe, When the plant growth regulator is added, the first sealing plate is attached and sealed at an opening at the end part of the connecting pipe through the pulling and holding action of a third spring to finish the isolation between the adjacent bricks, the positions of the first hole and the second hole outside the bricks, which are not spliced, are respectively sealed through the magnetic sealing plate and the first sealing plate, when the plant growth regulator inside the bricks impacts the surface of the first sealing plate, the first sealing plate and the second sealing plate outside the first sealing plate can be attached to the inner wall of the first limiting groove at one side far away from the storage cavity of the bricks to finish the sealing of the second hole, when the plant growth regulator inside the bricks impacts the surface of the magnetic sealing plate, the magnetic sealing plate can be attached to one side of the retaining ring to finish the sealing of the first hole, consequently, when adding the plant growth regulator to the fragment of brick, the plant growth regulator can only get into the storage chamber between the adjacent fragment of brick and can not spill, and when the concatenation of multiunit fragment of brick, when having a set of or multiunit fragment of brick to damage, can not cause spilling of plant growth regulator yet, avoids extravagant.

As a further optimization of the above scheme, a second limiting groove recessed toward the outer edge of the first hole is arranged at the inner wall of the first hole, a connecting pipe is movably arranged in the first hole, a sealing ring sealed between the first hole and the connecting pipe is fixedly arranged at the outer ring of the connecting pipe, a conical surface is arranged at the end part of the connecting pipe far away from the storage cavity, a movable edge movably arranged in the second limiting groove is integrally arranged at the outer ring at one end of the connecting pipe, a second spring for supporting the movable edge is fixedly welded at one side of the second limiting groove close to the storage cavity, a baffle ring and a magnetic block which are adjacently distributed are fixedly arranged in the inner wall of the connecting pipe, the magnetic block is arranged at one side far away from the baffle ring and close to the storage cavity, a magnetic sealing plate is movably arranged between the magnetic block and the baffle ring, and a guide plate for limiting the magnetic sealing plate to move along the axis of the connecting pipe is movably, the both ends of deflector are fixed respectively on the surface of magnetism piece, fender ring, repel each other between magnetic closing plate and the magnetism piece and keep away from, the lateral surface of fragment of brick is run through to one side that the holding tank was kept away from to the second spacing groove, and the opening part is sealed has the cardboard.

It should be noted that, when splicing each other between the adjacent fragment of brick, the cylinder of first closing plate tip is contradicted and is being restricted at the magnetic block surface, make the magnetic block with keep off and separate between the ring, when adding the plant growth regulator to the storage chamber, the plant growth regulator strikes and can get into the second hole through the clearance between magnetic closing plate and the connecting pipe inner wall and the clearance between magnetic closing plate and the fender ring when the magnetic closing plate surface, the cardboard passes through the fix with screw on the fragment of brick, make things convenient for the dismouting in order to realize the dismouting to the connecting pipe, and the tip of connecting pipe is equipped with the conical surface, when making things convenient for the adjacent fragment of brick to splice, the conical surface on the connecting pipe is contradicted by the fragment of brick and is dodged in the second spacing groove.

As the further optimization of above-mentioned scheme, the position that corresponds in first hole and second hole on the box body inner wall is equipped with the round hole that supplies the business turn over of vegetation regulator in the storage chamber, the inside of box body is equipped with the impact force that produces when adding vegetation regulator to the storage chamber of accessible and the removal ball that removes in the box body, removes the ball and removes the vegetation regulator mixture with higher speed when the box body is inside to be removed, and can play the clearance box body inner wall and avoid the phenomenon of dirt adhesion at the box body inner wall, the outer lane cladding of removing the ball is equipped with the spherical shell, it is fixed through the floor between spherical shell and the removal ball, the outer lane surface of spherical shell is equipped with the multiunit and supplies to add the vegetation regulator entering that gets into in the storage chamber and promotes the business turn over groove that drives the removal ball removal at the spherical shell inner wall.

Further, can add the mixing liquid of plant growth regulator and water in the storage chamber, dilute the plant growth regulator and carry out rational utilization, and the mixing liquid that gets into the storage chamber can strike on the spherical shell surface and drive the removal ball and remove when getting into out the groove, and the plant growth regulator and the water in the storage chamber are mixed with higher speed.

The invention relates to a plant growth regulator discharge mechanism and a dust suppression and green recovery device thereof, which have the following beneficial effects:

1. the invention relates to a plant growth regulator discharge mechanism and a dust suppression and greening device thereof, which comprises a storage cavity arranged in a brick and used for storing a plant growth regulator, wherein the bottom of the brick is provided with a capillary hole for discharging the plant growth regulator in the brick in an evaporation manner, when the storage cavity is filled with the plant growth regulator, the plant growth regulator slowly evaporates and permeates into the ground bottom at the bottom of the brick from the capillary hole, the device can be suitable for lifting and pulling a slope for planting plants, continuously and slowly adding the plant growth regulator to the plants while preventing water and soil loss, promoting the plant growth, simultaneously adding the plant growth regulator into a plurality of groups of bricks which are spliced with each other, after the addition is finished, the adjacent bricks are mutually isolated, ensuring that the plant growth regulator in each group of bricks is slowly evaporated into a soil layer at the bottom of the bricks through the capillary hole, the plant growth regulator cannot be concentrated into the bricks at the bottom of the bricks when the multiple groups of bricks are spliced and cannot be added to the plant planted on the bricks above, the multiple groups of bricks are spliced on the surface of the dam body and used for planting the plant, dust suppression and greening can be realized, the plant growth regulator can directly permeate into the roots of the plant, and volatilization and waste can not be caused;

2. when the plant growth regulator is added into a plurality of groups of bricks, a pipeline connected with a water source outside is only needed to be connected to the opening of the second hole, the plant growth regulator entering from the second hole impacts the surface of the first sealing plate, so that the first sealing plate moves towards one side of the storage cavity and is abutted against the surface of the support column, the plant growth regulator can flow into the storage cavity through the second hole and a gap between the outer ring of the first sealing plate and the first limiting groove sequentially, when the plant growth regulator is filled in the storage cavity, the plant growth regulator forming high pressure is continuously added into the storage cavity along with the plant growth regulator, and impacts the surface of the first sealing plate to separate the first sealing plate from the end part of the connecting pipe, and at the moment, the plant growth regulator sequentially passes through the gap between the guide plate and the magnetic sealing plate, The gap between the first sealing plate and the connecting pipe and the gap between the first sealing plate and the inside of the first limiting groove flow into the storage cavity of the next group of bricks, the purpose of simultaneously adding the plant growth regulator to the groups of bricks is realized, after the plant growth regulator is added, the first sealing plate is attached and sealed at the opening at the end part of the connecting pipe through the pulling and holding action of a third spring to finish the isolation between the adjacent bricks, the positions of the first hole and the second hole outside the bricks, which are not spliced with the bricks, are respectively sealed through the magnetic sealing plate and the first sealing plate, when the plant growth regulator inside the bricks impacts the surface of the first sealing plate, the first sealing plate and the second sealing plate outside the first sealing plate can be attached to the inner wall of the first limiting groove, which is far away from the storage cavity, to finish the sealing of the second hole, and the plant growth regulator inside the bricks impacts the surface of the magnetic sealing plate, the utility model discloses a make the laminating of magnetic seal board and accomplish the sealed in first hole in one side of keeping off the ring, consequently, when adding the vegetation regulator to the fragment of brick, the vegetation regulator only can get into the storage chamber between the adjacent fragment of brick and can not spill, when the concatenation of multiunit fragment of brick, when having a set of or multiunit fragment of brick to damage, can not cause spilling of vegetation regulator yet, avoids extravagant.

There have been disclosed in detail certain embodiments of the invention with reference to the following description and drawings, and it is to be understood that the embodiments of the invention are not limited thereby, but are intended to cover within the spirit and scope of the appended claims, many changes, modifications, and equivalents.

Drawings

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

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a perspective cross-sectional view of the present invention;

FIG. 4 is a schematic view of the construction of the present invention as adjacent blocks are spliced together;

FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention;

FIG. 6 is an enlarged view of the structure at B in FIG. 4 according to the present invention;

FIG. 7 is an enlarged view of the structure at C of FIG. 4 according to the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 4;

fig. 9 is an enlarged view of the structure at E in fig. 5 according to the present invention.

In the figure: the brick planting device comprises bricks 1, a cover body 2, a sponge ring 3, planting holes 4, a ground inserting cylinder 5, threaded holes 6, a first hole 7, a second hole 8, an inner groove 9, air holes 10, capillary holes 11, a storage cavity 12, a box body 13, a filter layer 14, a leakage groove 15, a moving ball 16, a ball shell 17, a ribbed plate 18, an inlet and outlet groove 19, a first sealing plate 20, a first limiting groove 21, a first spring 22, a support column 23, a clamping strip 24, a clamping block 25, a connecting pipe 26, a sealing ring 27, a second spring 28, a guide plate 29, a conical surface 30, a magnetic sealing plate 31, a magnetic block 32, a second sealing plate 33, a retaining ring 34, a clamping plate 35, a moving edge 36, a second limiting groove 37, a circular groove 38, a third spring 39 and a cylinder 40.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the invention and not to limit the scope of the invention.

It should be noted that when an element is referred to as being "disposed on," or provided with "another element, it can be directly on the other element or intervening elements may also be present, when an element is referred to as being" connected, "or coupled to another element, it can be directly on the other element or intervening elements may be present, and" fixedly coupled "means that the element is fixedly coupled in many ways, which are not intended to be within the scope of the present disclosure, the terms" vertical, "" horizontal, "" left, "" right, "and the like are used herein for illustrative purposes only and are not intended to be a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items;

referring to the attached drawings 1-9 of the specification, the invention provides a technical scheme: a plant growth regulator discharge mechanism comprising:

the storage cavity 12 is arranged in the brick 1 and used for storing the plant growth regulator, the bottom of the brick 1 is provided with a capillary 11 for discharging the plant growth regulator in an evaporation mode, and when the storage cavity 12 is filled with the plant growth regulator, the plant growth regulator slowly evaporates and permeates into the ground bottom at the bottom of the brick 1 from the capillary 11;

the planting hole 4 for the plant stem to pass through, the bottom of the brick 1 is provided with an inner groove 9 communicated with the planting hole 4, when the plant is planted in the planting hole 4, the root of the plant is positioned in the inner groove 9;

the ground inserting cylinder 5 surrounds the planting hole 4 by a circle, the ground inserting cylinder 5 can be inserted into the soil layer extending into the ground inserting cylinder 5 in the inner groove 9, a plurality of groups of air holes 10 for ventilating the root of the plant in the soil in the inner groove 9 are arranged on the surface of the ground inserting cylinder 5, and the brick 1 and the surface of the cover body 2 are provided with threaded holes 6 for the upper end of the ground inserting cylinder 5 to be in threaded fit connection.

The bottom of the storage cavity 12 is provided with a filter layer 14 for preventing soil outside the brick 1 from entering the storage cavity 12 from the capillary 11, the storage cavity 12 is also internally provided with a box body 13 spliced below the cover body 2, the bottom of the box body 13 is pressed above the filter layer 14, and the bottom of the box body 13 is provided with a leakage groove 15 for the plant growth regulator stored in the storage cavity 12 to enter and exit.

In this embodiment, the filter layer 14 may be a cotton filter pad, etc., and the box body 13 is used to collect dust, impurities, etc. in the plant growth regulator.

The bottom of lid 2 is equipped with elastically deformable's card strip 24, is equipped with on the upper end inner wall of box body 13 and supplies card strip 24 block to accomplish box body 13 and lid 2 fixed fixture block 25.

It should be noted that, box body 13 directly splices in the below of lid 2, conveniently demolishs and clears up impurity such as the dust of its inside collection, upwards moves lid 2 to box body 13 and breaks away from the top of storage chamber 12 at vegetation's in-process, can open box body 13 and clear up, after the clearance again with box body 13 card go into storage chamber 12 in, with lid 2 block in fragment of brick 1 top can, do not influence vegetation.

Storage chamber 12 is rectangle framework slot-shaped structure, and box body 13 matches with storage chamber 12's shape, and box body 13 is formed by the box concatenation of two sets of characters in bas-relief, constitutes top open-ended rectangle framework case structure when the box of two sets of characters in bas-relief splices each other.

Furthermore, two groups of box bodies in the shape of Chinese character 'ao' which form the box body 13 can plant the seed holes 4 to open towards two sides for points so as to clean impurities such as dust in the box bodies, and can also clean in the process of plant growth, so that the use is convenient.

The sponge ring 3 which can be elastically deformed is fixedly arranged on the inner wall of the planting hole 4, and the growth of the stem of the plant in the planting hole 4 is enlarged to expand the sponge ring 3 to be elastically deformed.

Specifically, the sponge ring 3 can elastically deform and is suitable for thickening the stem of the plant when the plant grows.

The bottom of the ground insertion cylinder 5 is of a tapered structure for easy insertion into the soil layer inside the inner groove 9.

In this embodiment, insert the drum 5 and conveniently demolish and clear up, and insert the drum 5 and easily insert in the soil horizon, insert and be equipped with the gas pocket 10 that the multiunit supplied the root of plant to ventilate on the drum 5, avoided the vexed bad phenomenon of root of plant, and through the area of ventilating that vertical direction increases root of plant, kept the area that lid 2 covered on the soil surface simultaneously, prevent soil erosion and water loss.

The invention also discloses a dust suppression and green recovery device, which comprises any one of the plant growth regulator discharge mechanisms, and further comprises:

the second holes 8 and the first holes 7 are used for allowing the plant growth regulator to enter and exit the storage cavity 12, two groups of the second holes 8 and two groups of the first holes 7 are respectively arranged and are distributed on the four side surfaces of the bricks 1 at intervals, and when the adjacent bricks 1 are spliced with each other, the second holes 8 and the first holes 7 are communicated to realize the simultaneous addition of the plant growth regulator to a plurality of groups of bricks 1;

a plugging device, which is arranged on the second hole 8 and the first hole 7 to isolate the storage cavity 12 from the outside of the brick 1, a first sealing plate 20 which is still movably sealed at the opening of the second hole 8 when receiving the pressure of the plant growth regulator in the storage cavity 12 is arranged in the second hole 8, a magnetic sealing plate 31 which is still movably sealed at the opening of the second hole 8 when receiving the pressure of the plant growth regulator in the storage cavity 12 is arranged in the first hole 7, one side of the first sealing plate 20 is provided with a cylinder 40 which is abutted against the magnetic sealing plate 31 to enable the second hole 8 and the first hole 7 to be mutually spliced and communicated, when the plant growth regulator is filled in the storage cavity 12, the cylinder 40 is abutted against the magnetic sealing plate 31 to open the first hole 7, the flowing plant growth regulator impacts on the surface of the first sealing plate 20 to enable the first sealing plate 20 to move and open the second hole 8, when the plant growth regulator in the storage cavity 12 is standing, the first sealing plate 20 is fitted to the opening of the first hole 7 to complete the isolation of the storage cavities 12 in adjacent blocks 1.

It should be noted that, this device can be applicable to and promote the inclined plane, a plant for planting, give the slow plant growth regulator that adds of plant when preventing soil erosion, promote vegetation, and can add the plant growth regulator to the mutually spliced fragment of brick 1 of multiunit simultaneously, after adding, after finishing, mutual isolation between the adjacent fragment of brick 1, guaranteed that the plant growth regulator in each group of fragment of brick 1 slowly evaporates to the soil horizon of its bottom through capillary 11, the plant growth regulator can not concentrate in the fragment of brick 1 of its bottom when splicing of multiunit fragment of brick 1 and can't add the plant growth regulator for the plant of planting on the fragment of brick 1 of top, multiunit fragment of brick 1 splices on dam body surface and is used for planting the plant and can press down the dust and regreen.

The inner wall of the second hole 8 is provided with a first limiting groove 21 which is sunken towards the outer edge of the second hole 8, the outer ring of the first sealing plate 20 is movably provided with a second sealing plate 33 which is wrapped on the outer ring of the first sealing plate, the second sealing plate 33 and the first sealing plate 20 are mutually attached in an L-shaped structure to form a circular plate-shaped structure, the surface of the second sealing plate 33 is provided with a circular groove 38, the bottom of the circular groove 38 is fixedly provided with a third spring 39 which is used for pulling the first sealing plate 20, the inner wall of one side of the first limiting groove 21, which is close to the inside of the storage cavity 12, is fixedly provided with a first spring 22 which supports the second sealing plate 33, and the inner wall of one side of the first limiting groove 21, which is close to the inside of the storage cavity 12, is fixedly.

Further, when the plant growth regulator is added to the plurality of groups of bricks 1, only a pipeline externally connected with a water source is connected to the opening of the second hole 8, the plant growth regulator entering from the second hole 8 impacts the surface of the first sealing plate 20, so that the first sealing plate 20 moves towards one side of the storage cavity 12 and abuts against the surface of the pillar 23, the plant growth regulator can flow into the storage cavity 12 through the second hole 8, the gap between the outer ring of the first sealing plate 20 and the first limiting groove 21 in sequence, when the storage cavity 12 is full of the plant growth regulator, the plant growth regulator forming high pressure continuously adds to the interior of the storage cavity 12 along with the plant growth regulator, the plant growth regulator impacts the surface of the first sealing plate 20, so that the first sealing plate 20 is separated from the end of the connecting pipe 26, and at this time, the plant growth regulator can continuously add the plant growth regulator through the gap between the guide plate 29 and the magnetic sealing plate 31 in sequence, The gap between the first sealing plate 20 and the connecting pipe 26 and the gap between the first sealing plate 20 and the inside of the first limiting groove 21 flow into the storage cavity 12 of the next group of bricks 1, so that the purpose of simultaneously adding the plant growth regulator to the plurality of groups of bricks 1 is realized, after the plant growth regulator is added, the first sealing plate 20 is attached and sealed at the opening at the end part of the connecting pipe 26 through the pulling and holding action of the third spring 39, the isolation between the adjacent bricks 1 is completed, the positions of the first hole 7 and the second hole 8 outside the bricks 1, which are not spliced with the bricks 1, are respectively sealed through the magnetic sealing plate 31 and the first sealing plate 20, when the plant growth regulator inside the bricks 1 impacts the surface of the first sealing plate 20, the first sealing plate 20 and the second sealing plate 33 outside the first sealing plate 20 are attached in the inner wall of the first limiting groove 21, which is far away from the storage cavity 12, so as to complete the sealing of the second, when the inside plant growth regulator of fragment of brick 1 strikes on magnetic seal plate 31 surface, can make magnetic seal plate 31 laminate and accomplish the sealed of first hole 7 in the one side that keeps off ring 34, consequently, when adding the plant growth regulator to fragment of brick 1, the plant growth regulator can only get into the storage chamber 12 between the adjacent fragment of brick 1 and can not spill, when the concatenation of multiunit fragment of brick 1, when having a set of or multiunit fragment of brick 1 to damage, also can not cause spilling of plant growth regulator, avoid extravagant.

A second limiting groove 37 which is sunken towards the outer edge of the first hole 7 is arranged on the inner wall of the first hole 7, a connecting pipe 26 is movably arranged in the first hole 7, a sealing ring 27 which is sealed between the first hole 7 and the connecting pipe 26 is fixedly arranged on the outer ring of the connecting pipe 26, a conical surface 30 is arranged at the end part of the connecting pipe 26 far away from the storage cavity 12, a movable edge 36 which is movably arranged in the second limiting groove 37 is integrally arranged on the outer ring of one end of the connecting pipe 26, a second spring 28 which supports the movable edge 36 is fixedly welded on one side of the second limiting groove 37 close to the storage cavity 12, a baffle ring 34 and a magnetic block 32 which are adjacently distributed are fixedly arranged in the inner wall of the connecting pipe 26, the magnetic block 32 is arranged on one side far away from the baffle ring 34 and close to the storage cavity 12, a magnetic sealing plate 31 is movably arranged between the magnetic block 32 and the baffle ring 34, a guide plate 29 which limits the magnetic sealing plate, the two ends of the guide plate 29 are respectively fixed on the surfaces of the magnetic block 32 and the baffle ring 34, the magnetic sealing plate 31 and the magnetic block 32 are repelled and away from each other, one side of the second limiting groove 37, which is away from the storage groove 12, penetrates through the outer side surface of the brick 1, and the opening is sealed with the clamping plate 35.

It should be noted that, when the adjacent bricks 1 are spliced with each other, the cylinder 40 at the end of the first sealing plate 20 abuts against and is limited on the surface of the magnetic block 32, so that the magnetic block 32 and the baffle ring 34 are separated from each other, when a plant growth regulator is added into the storage cavity 12, the plant growth regulator can enter the second hole 8 through the gap between the magnetic sealing plate 31 and the inner wall of the connecting pipe 26 and the gap between the magnetic sealing plate 31 and the baffle ring 34 when impacting on the surface of the magnetic sealing plate 31, the clamping plate 35 is fixed on the bricks 1 by screws, so as to facilitate the assembly and disassembly of the connecting pipe 26, and the end of the connecting pipe 26 is provided with a conical surface 30, so that when the adjacent bricks 1 are spliced, the conical surface 30 on the connecting pipe 26 is abutted by the bricks 1 and retracted into the second limiting groove 37 for avoiding.

The inner wall of the box body 13 is provided with round holes for the plant growth regulator in the storage cavity 12 to pass in and out corresponding to the positions of the first hole 7 and the second hole 8, the inside of the box body 13 is provided with a movable ball 16 which can move in the box body 13 by impact force generated when the plant growth regulator is added into the storage cavity 12, the movable ball 16 moves in the box body 13 to accelerate the mixing of the plant growth regulator, the inner wall of the box body 13 can be cleaned to avoid dirt adhering to the inner wall of the box body 13, the outer ring of the movable ball 16 is coated with a ball shell 17, the ball shell 17 and the movable ball 16 are fixed through a ribbed plate 18, and the outer ring surface of the ball shell 17 is provided with a plurality of groups of in-out grooves 19 for the plant growth regulator added into the storage cavity 12 to enter and push the inner wall of the ball shell 17 to drive the movable.

Furthermore, the mixed liquid of the plant growth regulator and water can be added into the storage cavity 12 to dilute the plant growth regulator for reasonable utilization, and the mixed liquid entering the storage cavity 12 can impact the surface of the spherical shell 17 to drive the movable ball 16 to move when entering the inlet and outlet groove 19, so that the mixing of the plant growth regulator and water in the storage cavity 12 is accelerated.

The plant growth regulator discharge mechanism and the dust suppression and green recovery device of the mechanism provided by the embodiment have the following working processes:

the bricks 1 are laid on the lifting side face or other positions needing dust suppression and green restoration, a plurality of groups of bricks 1 are spliced on the surface of the dam body and used for planting plants, the dust suppression and green restoration can be realized, and green plants are planted in the planting holes 4.

When the plant growth regulator is added into a plurality of groups of bricks 1, a pipeline connected with a water source outside is connected to the opening of the second hole 8, the plant growth regulator entering from the second hole 8 impacts the surface of the first sealing plate 20, so that the first sealing plate 20 moves towards one side of the storage cavity 12 and is abutted against the surface of the strut 23, the plant growth regulator can sequentially flow into the storage cavity 12 through the second hole 8, a gap between the outer ring of the first sealing plate 20 and the first limiting groove 21, when the plant growth regulator is filled in the storage cavity 12, the plant growth regulator forming high pressure is continuously added into the storage cavity 12 along with the plant growth regulator, and the plant growth regulator can impact the surface of the first sealing plate 20 to separate the first sealing plate 20 from the end part of the connecting pipe 26, and at the moment, the plant growth regulator sequentially flows through the gap between the guide plate 29 and the magnetic sealing plate 31, The gap between the first sealing plate 20 and the connecting pipe 26 and the gap between the first sealing plate 20 and the inside of the first limiting groove 21 flow into the storage cavity 12 of the next group of bricks 1, so that the purpose of simultaneously adding the plant growth regulator to the plurality of groups of bricks 1 is realized, after the plant growth regulator is added, the first sealing plate 20 is attached and sealed at the opening at the end part of the connecting pipe 26 through the pulling and holding action of the third spring 39, the isolation between the adjacent bricks 1 is completed, the positions of the first hole 7 and the second hole 8 outside the bricks 1, which are not spliced with the bricks 1, are respectively sealed through the magnetic sealing plate 31 and the first sealing plate 20, when the plant growth regulator inside the bricks 1 impacts the surface of the first sealing plate 20, the first sealing plate 20 and the second sealing plate 33 outside the first sealing plate 20 are attached in the inner wall of the first limiting groove 21, which is far away from the storage cavity 12, so as to complete the sealing of the second, when the inside plant growth regulator of fragment of brick 1 strikes on magnetic seal plate 31 surface, can make magnetic seal plate 31 laminate and accomplish the sealed of first hole 7 in the one side that keeps off ring 34, consequently, when adding the plant growth regulator to fragment of brick 1, the plant growth regulator can only get into the storage chamber 12 between the adjacent fragment of brick 1 and can not spill, when the concatenation of multiunit fragment of brick 1, when having a set of or multiunit fragment of brick 1 to damage, also can not cause spilling of plant growth regulator, avoid extravagant.

It should be understood that the present invention is not limited to the particular embodiments described herein, but is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A plant growth regulator discharge mechanism, comprising:

the storage cavity is arranged in the brick and used for storing the plant growth regulator, the bottom of the brick is provided with capillary holes for discharging the plant growth regulator in an evaporation mode, and when the storage cavity is filled with the plant growth regulator, the plant growth regulator is slowly evaporated and permeates into the ground bottom at the bottom of the brick from the capillary holes;

the bottom of the brick is provided with an inner groove communicated with the planting hole, and when the plant is planted in the planting hole, the root of the plant is positioned in the inner groove;

the ground inserting cylinder surrounds the planting hole by a circle, the ground inserting cylinder can be inserted into the soil layer extending into the ground inserting cylinder in the inner groove, a plurality of groups of air holes for ventilating plant roots in the soil in the inner groove are formed in the surface of the ground inserting cylinder, and threaded holes for the upper end of the ground inserting cylinder to be in threaded fit connection are formed in the surfaces of the brick and the cover body.

2. The plant growth regulator dispensing mechanism of claim 1, wherein: the inside filter layer of storage chamber is placed to the bottom in storage chamber and prevents the outside soil of fragment of brick from getting into in the capillary, storage chamber is inside still to be equipped with the box body of concatenation in the lid below, the bottom pressfitting of box body is in the top of filter layer, and the bottom of box body is equipped with the small opening that supplies the plant growth regulator business turn over of storage in the storage chamber.

3. The plant growth regulator dispensing mechanism of claim 2, wherein: the bottom of lid is equipped with elastically deformable's card strip, be equipped with on the upper end inner wall of box body and supply card strip block to accomplish the fixed fixture block of box body and lid.

4. A plant growth regulator discharge mechanism according to claim 3, wherein: the storage chamber is rectangle framework slot-shaped structure, and the box body matches with the shape in storage chamber, and the box body is formed by the box concatenation of two sets of characters cut in bas-relief, constitutes top open-ended rectangle framework case structure when the box of two sets of characters cut in bas-relief splices each other.

5. The plant growth regulator dispensing mechanism of claim 4, wherein: plant the fixed sponge circle that is equipped with elastically deformable on the inner wall in kind of a hole, plant the plant stem growth grow in kind of a hole and outwards expand sponge circle elastic deformation often.

6. The plant growth regulator dispensing mechanism of claim 5, wherein: the bottom of the ground inserting cylinder is of a conical structure which is easy to insert into the soil layer in the inner groove.

7. A dust suppression and green recovery device is characterized in that: comprising the plant growth regulator discharge mechanism of any one of claims 1 to 6, further comprising:

the second holes and the first holes are used for allowing the plant growth regulator to enter and exit the storage cavity, two groups of the second holes and two groups of the first holes are arranged on the four side surfaces of the bricks at intervals, and when the adjacent bricks are spliced with each other, the second holes and the first holes are communicated to realize the simultaneous addition of the plant growth regulator to the multiple groups of bricks;

the blocking devices are arranged on the second hole and the first hole to isolate the storage cavity from the exterior of the brick block, a first sealing plate which is still movably sealed at the opening of the second hole when receiving the pressure of the plant growth regulator in the storage cavity is arranged in the second hole, a magnetic sealing plate which is still movably sealed at the opening of the second hole when receiving the pressure of the plant growth regulator in the storage cavity is arranged in the first hole, one side of the first sealing plate is provided with a cylinder which is abutted against the magnetic sealing plate to enable the second hole and the first hole to be communicated when the second hole and the first hole are spliced with each other, when the plant growth regulator is filled into the storage cavity, the cylinder pushes against the magnetic sealing plate to open the first hole, the flowing plant growth regulator is impacted on the surface of the first sealing plate, so that the first sealing plate moves and opens the second hole, when the plant growth regulator filled in the storage cavity stands, the first sealing plate is attached to the opening of the first hole to complete the isolation of the storage cavity in the adjacent brick.

8. A dust suppressing and greening apparatus as claimed in claim 7, wherein: the inner wall department in second hole is equipped with the sunken first spacing groove of department to second hole outer fringe, the activity of outer lane department of first closing plate is provided with the second closing plate of cladding in its outer lane, it laminates each other and forms a disc structure to be L font structure between second closing plate and the first closing plate, second closing plate surface is equipped with the circular slot, and the fixed third spring that holds first closing plate that is equipped with in bottom of circular slot draws, fixed being equipped with the first spring that supports the second closing plate on the one side inner wall that first spacing groove is close to the storage intracavity portion, still fixed being equipped with the pillar of restriction in first closing plate one side on the one side inner wall that first spacing groove is close to the storage intracavity portion.

9. A dust suppressing and greening apparatus as claimed in claim 8, wherein: the inner wall of the first hole is provided with a second limiting groove sunken towards the outer edge of the first hole, a connecting pipe is movably arranged in the first hole, a sealing ring sealed between the first hole and the connecting pipe is fixedly arranged at the outer ring of the connecting pipe, a conical surface is arranged at the end part, far away from the storage cavity, of the connecting pipe, a movable edge movably arranged in the second limiting groove is integrally arranged at the outer ring of one end of the connecting pipe, a second spring for supporting the movable edge is fixedly welded at one side, close to the storage cavity, of the second limiting groove, a baffle ring and a magnetic block which are distributed adjacently are fixedly arranged in the inner wall of the connecting pipe, the magnetic block is arranged at one side, far away from the baffle ring and close to the storage cavity, a magnetic sealing plate is movably arranged between the magnetic block and the baffle ring, a guide plate for limiting the magnetic sealing plate to move along the axis of the connecting pipe is movably attached to the outer ring of the, Keep off the surface of ring, repel each other between magnetic seal board and the magnetic block and keep away from, the lateral surface of fragment of brick is run through to the one side that the holding tank was kept away from to the second spacing groove, and the opening part is sealed has the cardboard.

10. A dust suppressing and greening apparatus as claimed in claim 9, wherein: the position that corresponds in first hole and second hole on the box body inner wall is equipped with the round hole that supplies vegetation regulator business turn over in the storage chamber, the inside of box body is equipped with the impact force that the accessible produced when adding vegetation regulator in to the storage chamber and the removal ball that removes in the box body, removes the ball and removes the vegetation regulator mixture with higher speed often at the inside removal of box body, and can play clearance box body inner wall and avoid the phenomenon of dirt adhesion at the box body inner wall, the outer lane cladding of removing the ball is equipped with the spherical shell, it is fixed through the floor between spherical shell and the removal ball, the outer lane surface of spherical shell is equipped with the vegetation regulator entering that the multiunit supplied to add to get into in the storage chamber and promotes the groove of advancing of moving the removal of ball at the spherical shell inner wall drive.

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