CN219514703U - Flower stand device for ecologically treating hard retaining wall - Google Patents

Abstract

The utility model discloses a flower stand device for ecologically treating a hard retaining wall, which relates to the technical field of river engineering and comprises a stand body, a sliding component, a connecting component and a floating component, wherein a planting basin is arranged in the stand body; the sliding component comprises a first sliding rail, a second sliding rail and a first sliding piece which is vertical to the first sliding rail and the second sliding rail respectively; the frame body is arranged on the first sliding piece; the connecting assembly comprises a first connecting piece; the first connecting piece is provided with a first connecting hole, two ends of the first connecting piece are respectively connected with the first sliding rail and the second sliding rail, and the first connecting piece is fixed on the river levee so as to connect the first sliding rail and the second sliding rail with the river levee; the floating component is arranged at the bottom of the frame body and is used for adjusting the position of the frame body relative to the first sliding rail and the second sliding rail under the condition of water level change, so that the flowerpot and plants in the flowerpot are prevented from being submerged when river water rises in the flood season, and the plants are prevented from dying.

Description

Flower stand device for ecologically treating hard retaining wall

Technical Field

The utility model relates to the technical field of river engineering, in particular to a flower stand device for ecologically treating a hard retaining wall.

Background

In the river comprehensive treatment engineering, the river is often designed to be concrete due to factors such as land limitation, flood control standard, structural requirement, investment and the like. Although the hard retaining wall of the slurry masonry meets flood control requirements on flood control standards and meets safety requirements on structures, the retaining wall of the type is not only poor in ecological landscape effect, but also severely restricted in biological diversity. On the premise of meeting the water environment of the water safety water resource, the requirements on the water ecological water landscape are raised.

The natural characteristics of the river are often channelized in the long-term development process, and the river revetment engineering mainly considers aspects such as river scouring, water and soil conservation and the like, so that the structural form of a general revetment structure comprises a grouted stone revetment, a dry masonry block revetment, a concrete revetment, a precast concrete block revetment, a reinforced bar lattice cage revetment, a bamboo cage revetment, a wood pile revetment, a gabion mesh revetment and the like, the structural form of the revetment is single, the growth of various plants and microorganisms is unfavorable, the ecological requirements of modernization are not met, and meanwhile, the ecological functions and the landscape functions of water flow are relatively deficient.

Flower frames at two sides of the current common river levee are formed by placing flowerpots in steel frames fixed on the river levee, and when the flowerpots are positioned at the top end of the river levee, no greening effect is achieved on the upstream surface of the river levee; when the position of the flowerpot is positioned on the upstream surface of the river levee, the flowerpot and plants in the flowerpot are easily submerged when the river water rises in the flood season, so that the plants die, and the position of the flowerpot is fixed, the river levee is longer along the line, so that the subsequent maintenance of the plants in the flowerpot is inconvenient.

The foregoing is provided merely for the purpose of facilitating an understanding of the present utility model and is not intended to represent the closest prior art to the foregoing.

Disclosure of Invention

The utility model mainly aims to provide a flower stand device for ecologically treating a hard retaining wall, which is used for solving the problems that the existing river bank protection form is single, and plant and microorganism growth is not facilitated.

In order to achieve the above object, the present utility model provides a flower stand device for ecologically treating a hard retaining wall, comprising:

the planting pot is arranged in the frame body;

the sliding assembly comprises a first sliding rail, a second sliding rail and a first sliding piece, wherein the first sliding rail and the second sliding rail are arranged in parallel, and the first sliding piece is perpendicular to the first sliding rail and the second sliding rail respectively; two ends of the first sliding piece are movably arranged in the first sliding rail and the second sliding rail respectively; the frame body is arranged on the first sliding piece;

the connecting assembly comprises a first connecting piece which is perpendicular to the first sliding rail and the second sliding rail respectively; the first connecting piece is provided with a first connecting hole, two ends of the first connecting piece are respectively connected with the first sliding rail and the second sliding rail, a first fastening piece is arranged in the first connecting hole, and the first connecting piece passes through the first connecting hole through the first fastening piece to be fixed on the river levee, so that the first sliding rail and the second sliding rail are connected with the river levee;

a floatation assembly including a floatation tank that is hollow in the interior and sealed; the floating box is arranged at the bottom of the frame body and is used for adjusting the positions of the frame body relative to the first sliding rail and the second sliding rail under the condition of water level change.

Further, a first track groove and a second track groove are respectively arranged on the opposite side surfaces of the first slide rail and the second slide rail; the two ends of the first sliding piece are respectively provided with a first sliding block and a second sliding block; the first sliding block is arranged in the first track groove in a sliding manner; the second sliding block is arranged in the second track groove in a sliding way; the first sliding piece slides in the first track groove and the second track groove respectively through the first sliding block and the second sliding block, so that the first sliding piece slides on the first sliding rail and the second sliding rail.

Further, a first sliding roller and a second sliding roller are respectively arranged on the first sliding block and the second sliding block.

Further, the first sliding rail and the second sliding rail are respectively detachably provided with a first stop piece and a second stop piece, and the first stop piece and the second stop piece are used for limiting the positions of the first sliding piece on the first sliding rail and the first sliding rail.

Further, the device also comprises a second connecting plate; the second connecting plate is perpendicular to the first sliding rail and the second sliding rail respectively, a fourth connecting hole is formed in the second connecting plate, a second fastening piece is arranged in the fourth connecting hole, and the first sliding rail and the second sliding rail are connected with the river levee through the second fastening piece.

Further, the floatation assembly includes a floatation tank; the middle part of floating case is equipped with first installation passageway, and the inside cavity of floating case just seals, floats the bottom of case setting at the support body.

Further, a telescopic adjusting rod is arranged between the first connecting pipe and the first bearing; the two ends of the adjusting rod are respectively connected with the first connecting pipe and the first bearing, and the adjusting rod is used for adjusting the distance between the floating box and the frame body, so that the floating box is suitable for different water levels.

Further, the irrigation pipe is also included; one end of the irrigation pipe is communicated with the planting pot, the other end of the irrigation pipe penetrates through the frame body, the floating box is located outside the floating box, the joint of the irrigation pipe and the floating box is sealed, a water drawing part is arranged in the irrigation pipe, and the water drawing part is used for inputting or outputting water into the planting pot.

Further, the device also comprises a first adjusting part arranged between the second connecting plate and the first sliding rail and the second sliding rail, a second adjusting part arranged on the frame body and the first sliding piece, a pushing rod arranged between the frame body and the floating box and an elastic bending pipe arranged between the irrigation pipe and the planting basin;

the first adjusting part comprises a first adjusting column arranged on one side of the first sliding rail, a second adjusting column arranged on one side of the second sliding rail, a first fixing piece and a second fixing piece, wherein the first fixing piece and the second fixing piece are respectively arranged on the first adjusting column; the first fixing piece is connected with the first adjusting column and used for fixing the angle between the first sliding rail and the second connecting plate, and the second fixing piece is connected with the second adjusting column and used for fixing the angle between the second sliding rail and the second connecting plate;

the second adjusting part comprises a first sliding part and a second sliding part, wherein the first sliding part is arranged between the frame body and the second sliding part;

the two ends of the pushing rod are respectively connected with the frame body and the floating box in a rotating way and are provided with locking parts for fixing the positions of the pushing rod relative to the frame body and the floating box;

the irrigation pipe is parallel to the first sliding rail and arranged between the first sliding rail and the second sliding rail; the elastic bending pipe is arranged at one end of the irrigation pipe, which is connected with the planting pot, and the angle adaptation of the elastic bending pipe is changed along with the angle change between the frame body and the first sliding piece.

Further, one end of the pushing rod is inclined to the plane where the bottom of the frame body is located and is connected with the frame body.

The beneficial effects of the utility model are as follows:

the support body that sets up is used for placing the planting basin of plant, and the support body passes through first connecting piece slidable mounting in first slide rail, second slide rail, and the support body is driven along with the change on the water level to plant the basin and reciprocate in the support body under the effect of floating the subassembly to avoid flooding the plant in flowerpot and the flowerpot when rising in flood season river, cause the plant death, simultaneously, the support body slides and sets up on first slide rail, second slide rail, and the operating personnel of being convenient for reciprocates the support body on the river levee, thereby maintain the plant in the planting basin.

Drawings

FIG. 1 is a schematic view of a flower stand device for ecologically treating a hard retaining wall and a vertical river levee after installation;

FIG. 2 is a schematic view of the whole structure of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 3 is a schematic view showing a sliding assembly of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

fig. 4 is a schematic diagram of a spacing post installation structure of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

fig. 5 is a schematic diagram of a frame structure of a flower frame device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 6 is a schematic view of a sliding assembly and a connecting assembly of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

fig. 7 is a schematic view of a first sliding member of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

fig. 8 is a schematic diagram showing a connection structure between a second connection plate and a sliding component of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 9 is a schematic view of a floating assembly and a first connecting pipe of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

fig. 10 is a schematic view of a first connecting pipe structure of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 11 is a schematic view showing the connection structure of a floating assembly and a first connecting pipe of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

fig. 12 is a schematic view of a connection structure of an adjusting rod of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 13 is a schematic view of the irrigation pipe structure of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 14 is a schematic view of the structure of a hard retaining wall ecologically treated flower stand device and an inclined river bank after being installed;

FIG. 15 is a schematic view showing another overall structure of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

fig. 16 is another schematic structural view of a second connection board of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 17 is a schematic view of another construction of a first slider of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 18 is a schematic view of another structure of a frame body of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 19 is a schematic view showing the structure of a pushing rod of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

FIG. 20 is a schematic view showing the connection structure of elastic bending tubes of a flower stand device for ecologically treating a hard retaining wall according to the present utility model;

reference numerals illustrate:

1. a frame body; 101. a first chute; 102. a first frame; 103. a second frame; 104. a column; 105. a bottom plate; 106. a through hole; 107. a first fixing plate; 108. a third connection hole; 109. a second rotating plate; 110. a first hinge hole; 111. a first locking member; 112. a fourth rotating plate; 113. a second hinge hole; 114. a second locking member; 2. planting pot; 3. a sliding assembly; 301. a first slide rail; 3011. a first track groove; 302. a second slide rail; 3021. a second track groove; 303. a first slider; 3031. a first slider; 3032. a second slider; 3033. a second connection hole; 3034. a first mounting groove; 3035. a first rotating shaft; 3036. a first slide roller; 3037. a second mounting groove; 3038. a second rotating shaft; 3039. a second slide roller; 3040. a first rotating plate; 3041. a first hinge shaft; 4. a connection assembly; 401. a first connector; 402. a first connection hole; 403. a first fastener; 5. a floatation assembly; 501. a flotation tank; 502. a first mounting channel; 6. irrigation pipes; 601. a connecting ring; 602. a connecting rod; 7. limiting convex columns; 701. a first bolt; 702. a first nut; 703. a second nut; 8. a first stop member; 9. a second blocking member; 901. a second stop bolt; 10. a second connecting plate; 1001. a fourth connection hole; 1002. a second fastener; 1003. a first adjustment aperture; 1004. a second adjustment aperture; 11. a first connection pipe; 1101. a sixth rotating plate; 1102. a third hinge hole; 1103. a third locking member; 12. a first baffle; 1201. a first connection sleeve; 13. a third connecting plate; 1301. a second connecting sleeve; 1302. placing the hole; 14. a second baffle; 15. an adjusting rod; 1501. a main rod; 1502. an auxiliary rod; 1503. a first locking screw; 16. a water suction column; 17. a third baffle; 1701. a third connecting sleeve; 18. a push rod; 1801. a third rotating plate; 1802. a second hinge shaft; 1803. a fifth rotating plate; 1804. a third hinge shaft; 19. a second adjustment column; 20. a second fixing member; 21. and elastically bending the tube.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the described embodiments are merely some, but not all embodiments of the present utility model. Embodiments of the utility model and features of the embodiments may be combined with each other without conflict. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In an embodiment, referring to fig. 2, a flower stand device for ecologically treating a hard retaining wall according to the present utility model includes a stand body 1, a sliding assembly 3, a connecting assembly 4, a floating assembly 5, and an irrigation pipe 6.

Wherein, referring to fig. 2, a planting pot 2 is arranged in the frame body 1; the sliding component 3 comprises a first sliding rail 301 and a second sliding rail 302 which are arranged in parallel, and a first sliding piece 303 which is perpendicular to the first sliding rail 301 and the second sliding rail 302 respectively, wherein two ends of the first sliding piece 303 are movably arranged in the first sliding rail 301 and the second sliding rail 302 respectively, and the frame body 1 is arranged on the first sliding piece 303; the connecting assembly 4 comprises a first connecting piece 401 which is perpendicular to the first slide rail 301 and the second slide rail 302 respectively, a first connecting hole 402 is formed in the first connecting piece 401, two ends of the first connecting piece 401 are connected with the first slide rail 301 and the second slide rail 302 respectively, a first fastening piece 403 is arranged in the first connecting hole 402, and the first connecting piece 401 passes through the first connecting hole 402 through the first fastening piece 403 to be fixed on a river levee so as to connect the first slide rail 301 and the second slide rail 302 with the river levee; the floating assembly 5 comprises a floating box 501 which is hollow in the interior and is sealed, the floating box 501 is arranged at the bottom of the frame body 1, and the floating box 501 is used for adjusting the position of the frame body 1 relative to the first slide rail 301 and the second slide rail 302 under the condition of water level change; one end of the irrigation pipe 6 is communicated with the planting pot 2, the other end penetrates through the frame body 1, the floating box 501 is located outside the floating box 501, the joint of the irrigation pipe 6 and the floating box 501 is sealed, a water drawing part is arranged in the irrigation pipe 6, and the water drawing part is used for inputting or outputting water into the planting pot 2.

Further, referring to fig. 3 and 4, the bottom of the frame 1 is symmetrically provided with a limiting convex column 7, and the limiting convex column 7 is used for limiting the position of the planting pot 2 in the frame 1.

Preferably, the spacing convex columns 7 are square and are arranged at intervals to form two groups, and the planting pot 2 is placed in a space surrounded by the two groups of spacing convex columns 7.

Further, the spacing convex columns 7 are movably arranged on the frame body 1, and the spacing between the spacing convex columns 7 is adjustable.

Preferably, referring to fig. 4, the bottom of the frame body 1 is parallel and provided with first sliding grooves 101 at intervals, the limiting convex columns 7 are respectively movably arranged in the first sliding grooves 101, limiting pieces are further arranged on the limiting convex columns 7, and the limiting pieces are matched with the limiting convex columns 7 to be used for respectively fixing the limiting convex columns 7 in the first sliding grooves 101.

Preferably, referring to fig. 4, the limiting protruding column 7 may be provided as a first bolt 701, the limiting member includes a first nut 702 and a second nut 703 which are respectively in threaded connection with the first bolt 701, the first nut 702 and the first nut 702 are sequentially installed on the first bolt 701, and the first nut 702 is installed on the first bolt 701 and then cooperates with the end of the first bolt 701 to clamp the frame 1, so that the position of the first bolt 701 on the frame 1 in the first chute 101 is fixed, and the size of the space surrounded by the first bolt 701 in the first chute 101 is fixed for placing planting pots 2 with different specifications; because the first nut 702 is connected with the first bolt 701, the edge of the first nut 702 exceeds the edge of the first bolt 701, and therefore, after the space for placing the planting pot 2 is determined, the second nuts 703 are respectively connected with the first bolts 701 in the first sliding groove 101, the first nuts 702 limit the bottom position of the planting pot 2, and the second nuts 703 limit the pot body of the planting pot 2, so that the planting pot 2 is more stable in the frame body 1.

When needing to be described, the placing space of planting basin 2 at the position where first bolt 701, first nut 702 and second nut 703 are matched is the preferred mode, the connection is convenient, other modes such as placing foam plates or plastic plates in frame 1, which are convenient to cut, and the space between planting basin 2 and the inner wall of frame 1 is filled with the foam plates or plastic plates, so that the position of planting basin 2 can be limited.

Further, referring to fig. 5, the frame body 1 includes a rectangular first frame 102 and a second frame 103 formed by welding steel pipes end to end, the first frame 102 and the second frame 103 are arranged at intervals and in parallel, four corners of the first frame 102 and the second frame 103 are respectively provided with a stand column 104 connected with the first frame 102 and the second frame 103, the second frame 103 is provided with a bottom plate 105, and the bottom plate 105 is provided with a through hole 106.

Preferably, the first chute 101 is provided on the bottom plate 105.

Further, referring to fig. 6, the opposite sides of the first sliding rail 301 and the second sliding rail 302 are respectively provided with a first track groove 3011 and a second track groove 3021, two ends of the first sliding member 303 are respectively provided with a first sliding block 3031 and a second sliding block 3032, the first sliding block 3031 is slidably arranged in the first track groove 3011, the second sliding block 3032 is slidably arranged in the second track groove 3021, and the first sliding member 303 slides in the first track groove 3011 and the second track groove 3021 through the first sliding block 3031 and the second sliding block 3032 respectively, so as to realize sliding on the first sliding rail 301 and the second sliding rail 302.

Preferably, referring to fig. 7, the first slider 303 is symmetrically provided with a second connection hole 3033, a first fixing plate 107 is provided on a side of the frame body 1 facing the first slider 303, a third connection hole 108 corresponding to the second connection hole 3033 is provided on the first fixing plate 107, and the frame body 1 is fixed on the first slider 303 by connecting a bolt through the second connection hole 3033 and the third connection hole 108 with a nut and slides up and down between the first slide rail 301 and the second slide rail 302 along with the first slider 303; the first fixing plate 107 may be connected to the first frame 102 and the second frame 103 on the frame body 1 by welding or bolting, preferably by welding.

Further, referring to fig. 7, in order to reduce friction force of the first and second sliding blocks 3031 and 3032 when sliding in the first and second rail grooves 3011 and 3021, the sliding apparatus further includes first and second sliding rollers 3036 and 3039 provided on the first and second sliding blocks 3031 and 3032, respectively.

Preferably, referring to fig. 7, first mounting grooves 3034 are symmetrically formed on the side walls of the first sliding block 3031 opposite to the first track groove 3011, a first rotating shaft 3035 is arranged in the first mounting grooves 3034, and a first sliding roller 3036 is mounted on the first rotating shaft 3035 and the outer wall is in contact fit with the inner wall of the first track groove 3011; a second mounting groove 3037 is symmetrically arranged on the side wall of the second sliding block 3032 opposite to the second track groove 3021, a second rotating shaft 3038 is arranged in the second mounting groove 3037, a second sliding roller 3039 is arranged on the second rotating shaft 3038, and the outer wall of the second sliding roller 3039 is in contact fit with the inner wall of the second track groove 3021; when the first slider 303 moves on the first slide rail 301 and the second slide rail 302, the first sliding roller 3036 and the second sliding roller 3039 reduce friction between the first slider 303 and the first slide rail 301 and the second slide rail 302 during the movement of the first slider 303, so that the movement of the first slider 303 is facilitated.

Further, referring to fig. 6 and 8, the first slide rail 301 and the second slide rail 302 are detachably provided with a first stop member 8 and a second stop member 9, respectively, and the first stop member 8 and the second stop member 9 are used for limiting the positions of the first slide member 303 on the first slide rail 301 and the first slide rail 301.

Preferably, referring to fig. 6, the first blocking member 8 and the second blocking member 9 are both in a U-shaped structure, a first blocking hole is formed in a side wall opposite to one surface of the first blocking member 8, a second blocking hole is formed in a side wall opposite to one surface of the second blocking member 9, a first blocking bolt is arranged in the first blocking hole, a second blocking bolt 901 is arranged in the second blocking hole, the first blocking member 8 and the second blocking member 9 are respectively clamped on the first sliding rail 301 and the second sliding rail 302, the first blocking bolt passes through the first blocking hole and is in abutting joint with the outer wall of the first sliding rail 301 to connect the first blocking member 8 to the first sliding rail 301, the second blocking bolt 901 passes through the second blocking hole and is in abutting joint with the outer wall of the second sliding rail 302 to connect the second blocking member 9 to the second sliding rail 302, and the first sliding position capable of moving downwards in the first sliding rail 301 and the second sliding rail 302 is limited by the first blocking member 8 and the second blocking member 9, and the distance capable of moving downwards in the first sliding rail 301 and the second sliding rail 302 is limited.

Further, referring to fig. 6, the first connector 401 includes a first connecting plate with two ends respectively connected to the first slide rail 301 and the second slide rail 302, and the first connecting hole 402 is disposed on the connecting plate.

Preferably, referring to fig. 6, the first fastening member 403 may be configured as a first fastening bolt, and the first connecting plate may be connected with the first sliding rail 301 and the second sliding rail 302 by welding to form an "H" structure; when the first slide rail 301 and the second slide rail 302 are connected with the river dike, holes are drilled in the river dike in advance, expansion screw sleeves are embedded in the holes, and then the first fastening bolts penetrate through the first connecting holes 402 to be connected with the holes in the river dike, so that the first slide rail 301 and the second slide rail 302 are fixed on the upstream surface of the river dike.

Further, referring to fig. 8, when the first slide rail 301 and the second slide rail 302 are connected with the river dike, in order to avoid damaging the upstream surface of the river dike, a second connecting plate 10 is arranged between the ends of the first slide rail 301 and the second slide rail 302 far away from the water surface, the second connecting plate 10 is respectively perpendicular to the first slide rail 301 and the second slide rail 302, a fourth connecting hole 1001 is arranged on the second connecting plate 10, a second fastening piece 1002 is arranged in the fourth connecting hole 1001, and the first slide rail 301 and the second slide rail 302 are connected with the river dike through the second fastening piece 1002; when the first slide rail 301 and the second slide rail 302 are connected with the river dike through the second connecting plate 10, the connection position on the upstream surface of the river dike when the first connecting plate is connected with the river dike can be transferred to the end surface parallel to the water surface of the river dike (namely the end surface parallel to the ground of the river dike), so that the upstream surface of the river dike is prevented from being damaged when the first slide rail 301 and the second slide rail 302 are connected with the river dike, and meanwhile, holes connected with the second connecting plate 10 on the river dike are positioned on the end surface parallel to the ground, so that punching operation and operation when the first connecting plate is connected with the river dike are facilitated.

Preferably, the ends of the first slide rail 301 and the second slide rail 302 connected with the second connecting plate 10 may be connected by welding, and the second fastening member 1002 may be provided as a second fastening bolt, and connected with the hole on the end surface parallel to the ground of the river levee by the second fastening bolt, so that the first slide rail 301 and the second slide rail 302 are mounted on the river levee.

For example, when the first slide rail 301 and the second slide rail 302 are mounted on the river levee, the first connecting plate is welded with the first slide rail 301 and the second slide rail 302 in advance, the first connecting plate is used for connecting the first slide rail 301 and the second slide rail 302, so that the H-shaped structure formed by the first slide rail 301, the second slide rail 302 and the first connecting plate is stable, the second connecting plate is welded with the first slide rail 301 and the second slide rail 302 respectively, the first slide rail 301 and the second slide rail 302 slide down along the upstream surface of the river levee, the second connecting plate 10 is vertically lapped on the parallel end surface of the river levee and the ground, and the holes formed on the parallel end surface of the river levee and the ground are connected by using the second fastening bolts, so that the operation is more convenient.

Further, referring to fig. 9, the floating assembly 5 includes a floating box 501, a first installation channel 502 is provided in the middle of the floating box 501, the floating box 501 is hollow and sealed, and the floating box 501 is disposed at the bottom of the frame 1.

Preferably, referring to fig. 10, a first connecting pipe 11 is disposed in the first mounting channel 502, one end of the first connecting pipe 11 is connected with the bottom plate 105 of the frame body 1, the other end is detachably provided with a first baffle 12, and the floating box 501 is connected with the frame body 1 under the action of the first baffle 12.

Preferably, referring to fig. 11, a third connecting plate 13 is provided at one end of the first connecting pipe 11 connected to the frame 1, the third connecting plate 13 may be connected to the frame 1 by using a bolt, and a placing hole 1302 is provided on the third connecting plate 13; the first baffle 12 is provided with a first connecting sleeve 1201, and the first connecting sleeve 1201 is in threaded connection with the first connecting pipe 11.

Further, referring to fig. 12, the floating box 501 is cylindrical and is rotatably connected with the frame body 1, the floating box 501 rotates under the impact of water flow, and impurities on the water surface are reduced from being blocked at the floating box 501.

Preferably, referring to fig. 9-11, a second baffle 14 is arranged on the outer wall of the first connecting pipe 11 far away from the first baffle 12, the second baffle 14 cooperates with the first baffle 12 to clamp the floating box 501 on the first connecting pipe 11, a second connecting sleeve 1301 is arranged on one end of the third connecting plate 13 facing the floating box 501, a first bearing (not shown in the drawing) is arranged in the second connecting sleeve 1301, and one end of the first connecting pipe 11 far away from the first baffle 12 is connected with the first bearing.

Further, referring to fig. 12, a telescopic adjusting rod 15 is disposed between the first connecting pipe 11 and the first bearing, two ends of the adjusting rod 15 are respectively connected with the first connecting pipe 11 and the first bearing, and the adjusting rod 15 is used for adjusting the distance between the floating box 501 and the frame body 1, so as to adapt to different water levels.

Preferably, the adjusting lever 15 includes a main lever 1501 having a first cavity therein, a sub lever 1502 slidably disposed in the first cavity, and a first locking screw 1503 post disposed on an outer wall of the main lever 1501 for abutting against the sub lever 1502, and the position of the sub lever 1502 is restricted by adjusting the position of the sub lever 1502 in the main lever 1501 and abutting against the sub lever 1502 using the first locking screw 1503 post, thereby adjusting the distance between the floating tank 501 and the frame 1 to adapt to different water levels.

Further, a water drawing hole is arranged at the bottom of the planting pot 2.

Further, referring to fig. 12, one end of the irrigation pipe 6 is detachably connected through the water drawing hole at the bottom of the planting pot 2, and the other end sequentially passes through the through hole 106 on the frame body 1, the inside of the adjusting rod 15, and the inside of the first connecting pipe 11 and is located outside the floating box 501.

Preferably, the irrigation pipe 6 is coaxially arranged with the through hole 106, the adjusting rod 15 and the first connecting pipe 11 on the frame body 1, the outer wall of the irrigation pipe 6 is spaced from the inner wall of the through hole 106, the inner wall of the adjusting rod 15 and the inner wall of the first connecting pipe 11, and the irrigation pipe 6 is not blocked in the rotating process of the floating box 501; the irrigation pipe 6 is equipped with the third baffle 17 with drawing the detachable one end that the water hole is connected, is equipped with third adapter sleeve 1701 on the third baffle 17, thereby is connected irrigation pipe 6 and planting basin 2 through third adapter sleeve 1701 and irrigation pipe 6, and third adapter sleeve 1701 can adopt joint or threaded connection's mode to be connected with irrigation pipe 6.

Further, referring to fig. 13, the water drawing portion is a sponge water drawing column 16 provided in the irrigation pipe 6, and both ends of the water drawing column 16 are flush with both ends of the irrigation pipe 6.

In this embodiment, referring to fig. 1, when the present device is installed on a river levee with its plane perpendicular to the horizontal plane, after the first connection plate and the second connection plate 10 are connected to the first slide rail 301 and the second slide rail 302, respectively, the first slider 303 is installed on the first slide rail 301 and the first slide rail 301 through the first slider 3031 and the second slider 3032, the first stop bolt and the second stop bolt 901 are used to connect the first stop member 8 and the second stop member 9 to the first slide rail 301 and the second slide rail 302, respectively, so as to limit the lowest position of the first slider 303 moving up and down on the first slide rail 301 and the second slide rail 302 (that is, after the frame 1 is connected to the first connection member 401, one end of the irrigation pipe 6 located outside the floating box 501 can be contacted with the water surface), the frame 1 is connected to the first slider, and the size of the space synthesized by the first bolt 701 in the first slide rail 101 is adjusted according to the size of the planting pot 2, so as to place planting pots 2 with different specifications; the floating box 501 and the irrigation pipe 6 are connected with the frame body 1.

Drilling holes are formed in the end faces parallel to the ground of the river levee in advance, the frame body 1 slides down the first sliding rail 301 and the second sliding rail 302 along the upstream face of the river levee, the second connecting plate 10 is perpendicular to the upstream face of the river levee and is overlapped on the end faces parallel to the ground of the river levee, expansion screw sleeves are arranged in the holes drilled in the river levee, the second fastening bolts penetrate through the fourth connecting holes 1001 in the second connecting plate 10 to be connected with the expansion screw sleeves, therefore the first sliding rail 301 and the second sliding rail 302 are fixed on the river levee, finally, the planting pot 2 is placed in a space surrounded by the first bolts 701 in the frame body 1, the flower frame is installed, after plants are planted in the planting pot 2, rainwater collected in the planting pot 2 can be discharged into the river course through the water drawing columns 16 in the irrigation pipe 6, and when the water in the river course is less, the water in the planting pot 2 can be led into the planting pot 2 through the water drawing columns 16 for plant growth.

In an embodiment, referring to fig. 14, for the inclined river levee, in order to ensure that the frame 1 and the planting pot 2 placed in the frame 1 are vertical, the connection mode between the corresponding frame 1 and the sliding component 3 needs to be changed, and the flower stand device for ecologically treating the seed hard retaining wall according to the present utility model further comprises a first adjusting portion, a second adjusting portion, a pushing rod 18 and an elastic bending tube 21.

Wherein, referring to fig. 15, the first adjusting part comprises a first adjusting column arranged at one side of the first sliding rail 301, a second adjusting column 19 arranged at one side of the second sliding rail 302, a first fixing piece arranged on the first adjusting column, and a second fixing piece 20 arranged on the second adjusting column 19, wherein the first fixing piece is connected with the first adjusting column for fixing the angle between the first sliding rail 301 and the second connecting plate 10, and the second fixing piece 20 is connected with the second adjusting column 19 for fixing the angle between the second sliding rail 302 and the second connecting plate 10; the second adjusting part is arranged between the frame body 1 and the first sliding part 303 and is used for adjusting the angle between the frame body 1 and the first sliding part 303; both ends of the push rod 18 are respectively connected with the frame body 1 and the floating box 501 in a rotating way and are provided with locking parts for fixing the positions of the push rod 18 relative to the frame body 1 and the floating box 501; the irrigation pipe 6 is arranged between the first slide rail 301 and the second slide rail 302 in parallel with the first slide rail 301; the elastic bending tube 21 is provided at an end of the irrigation tube 6 connected to the planting pot 2, and the elastic bending tube 21 changes its own angle adaptation as the angle between the frame body 1 and the first slider 303 changes.

Further, referring to fig. 16, a first adjusting hole 1003 is formed on a side, close to the first sliding rail 301, of the second connecting plate 10, a second adjusting hole 1004 is formed on a side, close to the second sliding rail 302, of the second connecting plate 10, external threads are formed on outer walls of the first adjusting column and the second adjusting column 19, the first fixing piece and the second fixing piece 20 are nuts respectively matched with the first adjusting column and the second adjusting column 19, the first adjusting column passes through the first adjusting hole 1003 and the second adjusting hole 1004 respectively to be connected with the nuts, and therefore the first sliding rail 301 and the second sliding rail 302 are connected with the second connecting plate 10, and in the connecting process, the nuts are used for fixing after the angle adjustment of the second connecting plate 10 relative to the first sliding rail 301 and the second sliding rail 302 is completed.

Further, the second adjusting portion includes a first rotating plate 3040 disposed on the first slider 303, and a second rotating plate 109 disposed on the frame 1, the first rotating plate 3040 is provided with a first hinge shaft 3041, the second rotating plate 109 is provided with a first hinge hole 110, the first hinge shaft 3041 is disposed in the first hinge hole 110 to support the first rotating plate 3040 to rotate relative to the second rotating plate 109, the second rotating plate 109 is provided with a first locking member 111 penetrating the first hinge hole 110, and the first locking member 111 abuts against the first hinge shaft 3041 to brake the first hinge shaft 3041, so that the position of the frame 1 relative to the first slider 303 is fixed.

Further, referring to fig. 15, one end of the push rod 18 is connected to the frame 1 at an inclination to a plane where the bottom of the frame 1 is located.

Preferably, referring to fig. 18 and 19, one end of the push rod 18 away from the frame 1 is inclined towards the direction of the plane where the first slide rail 301 and the second slide rail 302 are located, one end of the push rod 18 connected with the frame 1 is provided with a third rotating plate 1801, the third rotating plate 1801 is provided with a second hinge shaft 1802, the bottom of the frame 1, which is close to the push rod 18, is provided with a fourth rotating plate 112, the fourth rotating plate 112 is provided with a second hinge hole 113, the second hinge shaft 1802 is rotatably arranged in the second hinge hole 113 to support the third rotating plate 1801 to rotate relative to the fourth rotating plate 112, the fourth rotating plate 112 is provided with a second locking member 114 penetrating through the second hinge hole 113, and the second locking member 114 is abutted with the second hinge shaft 1802 to brake the second hinge shaft 1802, so that the position of the frame 1 relative to the push rod 18 is fixed; the outer wall of the irrigation pipe 6, which is close to the frame body 1, is provided with a connecting ring 601, the connecting ring 601 is provided with a connecting rod 602, and one end of the connecting rod 602, which is far away from the connecting ring 601, is connected with the frame body 1; the end of the push rod 18 connected with the floating box 501 is provided with a fifth rotating plate 1803, the fifth rotating plate 1803 is provided with a third hinge shaft 1804, the first connecting pipe 11 is provided with a sixth rotating plate 1101, the sixth rotating plate 1101 is provided with a third hinge hole 1102, the third hinge shaft 1804 is rotatably arranged in the third hinge hole 1102 to support the fifth rotating plate 1803 to rotate relative to the sixth rotating plate 1101, the sixth rotating plate 1101 is provided with a third locking piece 1103 penetrating through the third hinge hole 1102, and the third locking piece 1103 is abutted with the third hinge shaft 1804 to brake the third hinge shaft 1804, so that the position of the floating box 501 relative to the push rod 18 is fixed.

Preferably, the first locking member 111, the second locking member 114, and the third locking member 1103 may be respectively screwed to the rotating plate and the fourth rotating plate 112 by using a bolt structure, and the first locking member 111 and the second locking member 114 are abutted with the first hinge shaft 3041 and the second hinge shaft 1802 by rotating the first locking member 111 and the second locking member 114.

Further, referring to fig. 20, the elastic bending tube 21 is a bellows made of rubber.

In this embodiment, when the first slide rail 301 and the second slide rail 302 are connected to the river dike, the second connecting plate 10 is first connected to the hole drilled on the end surface of the river dike, the first slide rail 301 and the second slide rail 302 are placed on the river dike, the first slide rail 301 and the second slide rail 302 are connected to the second connecting plate 10, the angle between the frame 1 and the first slide rail 301 and the second slide rail 302 is adjusted by the rotating part, so that the frame 1 is parallel to the horizontal plane, the planting pot 2 is kept horizontal after the planting pot 2 is placed in the frame 1, and the bending angle of the elastic bending tube 21 is changed along with the angle in the process of adjusting the angle between the frame 1 and the first slide rail 301 and the second slide rail 302; finally, the pushing rod 18 is respectively connected with the frame body 1 and the first connecting pipe 11, when the water level rises, the floating box 501 moves upwards along with the pushing of the first connecting pipe 602, the acting force of the floating box 501 moving upwards is decomposed into forces, and the acting force is decomposed into a acting force facing the pushing rod 18 so that the pushing rod 18 moves, thereby driving the frame body 1 to move in the first sliding rail 301 and the second sliding rail 302.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (10)

1. The utility model provides a flower stand device of stereoplasm barricade ecologization treatment which characterized in that: comprising the following steps:

the planting pot is arranged in the frame body;

the sliding assembly comprises a first sliding rail, a second sliding rail and a first sliding piece, wherein the first sliding rail and the second sliding rail are arranged in parallel, and the first sliding piece is perpendicular to the first sliding rail and the second sliding rail respectively; two ends of the first sliding piece are movably arranged in the first sliding rail and the second sliding rail respectively; the frame body is arranged on the first sliding piece;

the connecting assembly comprises a first connecting piece which is perpendicular to the first sliding rail and the second sliding rail respectively; the first connecting piece is provided with a first connecting hole, two ends of the first connecting piece are respectively connected with the first sliding rail and the second sliding rail, a first fastening piece is arranged in the first connecting hole, and the first connecting piece passes through the first connecting hole through the first fastening piece to be fixed on the river levee, so that the first sliding rail and the second sliding rail are connected with the river levee;

a floatation assembly including a floatation tank that is hollow in the interior and sealed; the floating box is arranged at the bottom of the frame body and is used for adjusting the positions of the frame body relative to the first sliding rail and the second sliding rail under the condition of water level change.

2. The flower stand device for ecologically treating a hard retaining wall according to claim 1, wherein: the opposite side surfaces of the first sliding rail and the second sliding rail are respectively provided with a first track groove and a second track groove; the two ends of the first sliding piece are respectively provided with a first sliding block and a second sliding block; the first sliding block is arranged in the first track groove in a sliding manner; the second sliding block is arranged in the second track groove in a sliding way; the first sliding piece slides in the first track groove and the second track groove respectively through the first sliding block and the second sliding block, so that the first sliding piece slides on the first sliding rail and the second sliding rail.

3. The flower stand device for ecologically treating a hard retaining wall according to claim 2, wherein: the first sliding block and the second sliding block are respectively provided with a first sliding roller and a second sliding roller.

4. A flower stand device for ecologically treating a hard retaining wall according to claim 3, wherein: the first sliding rail and the second sliding rail are respectively detachably provided with a first stop piece and a second stop piece, and the first stop piece and the second stop piece are used for limiting the positions of the first sliding piece on the first sliding rail and the first sliding rail.

5. The flower stand device for ecologically treating a hard retaining wall according to claim 1, wherein: the device also comprises a second connecting plate; the second connecting plate is perpendicular to the first sliding rail and the second sliding rail respectively, a fourth connecting hole is formed in the second connecting plate, a second fastening piece is arranged in the fourth connecting hole, and the first sliding rail and the second sliding rail are connected with the river levee through the second fastening piece.

6. The flower stand device for ecologically treating a hard retaining wall according to claim 1, wherein: the floating assembly comprises a floating box; the middle part of the floating box is provided with a first installation channel, the inside of the floating box is hollow and sealed, and the floating box is arranged at the bottom of the frame body; a first connecting pipe is arranged in the first installation channel.

7. The flower stand device for ecologically treating a hard retaining wall according to claim 6, wherein: a telescopic adjusting rod is arranged between the first connecting pipe and the first bearing; the two ends of the adjusting rod are respectively connected with the first connecting pipe and the first bearing, and the adjusting rod is used for adjusting the distance between the floating box and the frame body, so that the floating box is suitable for different water levels.

8. The flower stand device for ecologically treating a hard retaining wall according to claim 7, wherein: also comprises an irrigation pipe; one end of the irrigation pipe is communicated with the planting pot, the other end of the irrigation pipe penetrates through the frame body, the floating box is located outside the floating box, the joint of the irrigation pipe and the floating box is sealed, a water drawing part is arranged in the irrigation pipe, and the water drawing part is used for inputting or outputting water into the planting pot.

9. The flower stand device for ecologically treating a hard retaining wall according to claim 8, wherein: the device also comprises a first adjusting part arranged between the second connecting plate and the first sliding rail and the second sliding rail, a second adjusting part arranged on the frame body and the first sliding piece, a pushing rod arranged between the frame body and the floating box and an elastic bending pipe arranged between the irrigation pipe and the planting basin;

the first adjusting part comprises a first adjusting column arranged on the second connecting plate and close to one side of the first sliding rail, a second adjusting column arranged on the second connecting plate and close to one side of the second sliding rail, a first fixing piece and a second fixing piece, wherein the first fixing piece and the second fixing piece are respectively arranged on the first adjusting column; the first fixing piece is connected with the first adjusting column and used for fixing the angle between the first sliding rail and the second connecting plate, and the second fixing piece is connected with the second adjusting column and used for fixing the angle between the second sliding rail and the second connecting plate;

the second adjusting part comprises a first sliding part and a second sliding part, wherein the first sliding part is arranged between the frame body and the second sliding part;

the two ends of the pushing rod are respectively connected with the frame body and the floating box in a rotating way and are provided with locking parts for fixing the positions of the pushing rod relative to the frame body and the floating box;

the irrigation pipe is parallel to the first sliding rail and arranged between the first sliding rail and the second sliding rail; the elastic bending pipe is arranged at one end of the irrigation pipe, which is connected with the planting pot, and the angle adaptation of the elastic bending pipe is changed along with the angle change between the frame body and the first sliding piece.

10. The flower stand device for ecologically treating a hard retaining wall according to claim 9, wherein: one end of the pushing rod is inclined to the plane where the bottom of the frame body is located and is connected with the frame body.