CN115492277A - Greening planting wall - Google Patents

Abstract

The application discloses a greening planting wall, which belongs to the technical field of planting walls and comprises a wall body and a water storage tank fixed at the bottom of the wall body, wherein a water storage through groove is formed in the top surface of the water storage tank, and a blocking block capable of being inserted into the water storage through groove is arranged in the water storage tank; the top surface of the wall body is provided with a connecting groove communicated with the water storage tank, the top surface of the wall body is rotatably provided with a guide plate, and the bottom of the guide plate is fixedly provided with a connecting plate; the shifting chute has been seted up to the top surface of wall body, and the logical groove of intaking that communicates with the shifting chute is seted up to the inner wall of spread groove, installs the kickboard in the shifting chute, and the top surface of kickboard is installed and is promoted connecting plate pivoted promotion subassembly that makes progress. The application can reduce the invasion of the rainstorm to the plant and protect the plant.

Description

Greening planting wall

Technical Field

The application relates to the technical field of planting walls, in particular to a greening planting wall.

Background

The planting wall is a greening mode which makes full use of different standing conditions, selects climbing plants and other plants to plant and attaches or paves the climbing plants and other plants to various structures and other spatial structures. The method has the effects of reducing noise, beautifying the environment, purifying air, improving the urban environment quality, increasing the greening coverage rate and improving the urban ecological environment.

Chinese utility model patent of bulletin number CN216018012U discloses a plant species plants wall structure for afforestation, including base and backup pad, still include rainwater collection mechanism, installation mechanism, plant frame and baffle, the backup pad is installed at the top of base, and the left side of backup pad is provided with rainwater collection mechanism, and the right side surface mounting of backup pad has multiunit installation mechanism, and every group installation mechanism's inside is provided with plants the frame, and the multiunit baffle is installed to the inside equidistance of every group planting frame.

With respect to the above-described related art, the inventors consider that: when heavy rain or heavy rain occurs, plants planted on the wall are easy to bend branches and damage branches and leaves under the erosion of rainwater, soil is easy to accumulate, and roots of the plants are easy to rot.

Disclosure of Invention

In order to improve the problem that the branch is buckled easily takes place for the plant on the greening wall in torrential rain weather, this application provides a planting technique wall.

The application provides a planting technique wall adopts following technical scheme:

a greening planting wall comprises a wall body and a water storage tank fixed at the bottom of the wall body, wherein a water storage through groove is formed in the top surface of the water storage tank, and a blocking block capable of being inserted into the water storage through groove is installed in the water storage tank; the top surface of the wall body is provided with a connecting groove communicated with the water storage tank, the top surface of the wall body is rotatably provided with a guide plate, and the bottom of the guide plate is fixedly provided with a connecting plate; the shifting chute has been seted up to the top surface of wall body, the inner wall of spread groove seted up with the logical groove of intaking that the shifting chute communicates, install the kickboard in the shifting chute, the top surface of kickboard is installed and is promoted the connecting plate upwards pivoted promotes the subassembly.

Through adopting above-mentioned technical scheme, when meetting torrential rain weather, the rainwater in the water storage box holds full back, the sprue is inserted and is established in the logical inslot of retaining, the water level in the spread groove rises gradually, when rainwater in the spread groove flows into the shifting chute through the logical inslot of intaking, the kickboard rebound of shifting chute, the kickboard promotes the connecting plate through promoting the subassembly and upwards rotates, the connecting plate drives the top orientation of guide plate and keeps away from the direction rotation of kickboard, make the guide plate keep off the plant top at the wall body, thereby reduce the invasion and attack of torrential rain to the plant, the protection plant.

Preferably, the pushing assembly comprises a moving rod fixed on the top surface of the floating plate, a slot used for inserting the moving rod is formed in the bottom surface of the connecting plate, guide grooves are formed in the opposite inner sides of the slot, a moving stick is fixed at the top end of the moving rod, and the moving stick passes through the guide grooves and is connected with the connecting plate in a sliding mode along the width direction of the connecting plate.

Through adopting above-mentioned technical scheme, when the kickboard upwards removed under the buoyancy of rainwater, the kickboard drove the carriage release lever rebound, and the removal rod slides and promotes the connecting plate and keep away from one side of guide plate upwards rotating in the guide way to make the guide plate keep away from one side of connecting plate and rotate downwards, make the guide plate rotate to the top of plant.

Preferably, an installation cavity is formed in the wall body, an installation rod is fixed in the installation cavity, a clockwork spring is sleeved on the periphery of the installation rod, one end of the clockwork spring is fixedly connected with the outer peripheral face of the installation rod, and the other end of the clockwork spring is fixedly connected with the bottom face of the floating plate.

By adopting the technical scheme, when the floating plate moves upwards under the buoyancy action of rainwater, the floating plate drives one end of the spring, which is far away from the mounting rod, to move upwards, and the spring is in a tightened state; when the water level in the shifting chute descends, the floating plate moves downwards under the elastic action of the clockwork spring, the floating plate drives the shifting rod and the shifting rod to move downwards, and then drives the connecting plate and the guide plate to rotate, and the guide plate rotates to a vertical state, so that the guide plate resets, and when the guide plate is prevented from being located above the plant all the time, the guide plate shields the plant from light.

Preferably, the spread groove internal fixation has the filter screen, the top surface of wall body is fixed with the fixed plate, the fixed plate is close to the mounting groove has been seted up to the side of filter screen, the fixed plate passes through the mounting groove slides along self length direction and installs the installation piece, reciprocal lead screw is installed to the mounting groove internal rotation, the installation piece with reciprocal lead screw thread drive cooperation, the side of installation piece is fixed with the scraper blade, the bottom surface of scraper blade with the top surface of filter screen is laminated mutually, be provided with in the wall body and be used for the drive reciprocal lead screw pivoted drive assembly.

Through adopting above-mentioned technical scheme, reciprocal lead screw rotates, and reciprocal lead screw drives the length direction removal of installation piece along the fixed plate, and the installation piece drives the scraper blade and removes, and the scraper blade clears up the impurity on the filter screen, reduces the possibility that the filter screen was plugged up to impurity.

Preferably, a driving box is fixed on the wall body, a water pumping pipe communicated with the water storage box is fixed at the bottom of the driving box, and a water pump is fixed on the water pumping pipe; the drive assembly including rotate install in actuating lever and cover in the drive case are established and are fixed in synchronizing wheel one of actuating lever outer peripheral face, the actuating lever, the outer peripheral face of actuating lever is fixed with a plurality of helical blade, reciprocating screw's outer peripheral face cover is established and is fixed with synchronizing wheel two, the synchronizing rod is installed to the wall body internal rotation, synchronizing rod's outer peripheral face cover is established and is fixed with synchronizing wheel three and synchronizing wheel four, synchronizing wheel one with the outer periphery rich of synchronizing wheel three is equipped with hold-in range one, synchronizing wheel two with the outer periphery rich of synchronizing wheel four is equipped with hold-in range two.

Through adopting above-mentioned technical scheme, start the water pump, the rainwater in the water storage box passes through the drinking-water pipe and upwards flows, and the rainwater flows to the drive incasement, and helical blade takes place to rotate under the impact of rainwater, and helical blade drives the actuating lever and rotates, and the actuating lever drives synchronizing wheel one and rotates, and synchronizing wheel one drives the synchronizing bar through hold-in range one and synchronizing wheel three and rotates, and the synchronizing bar drives reciprocal lead screw through synchronizing wheel two and synchronizing wheel four and rotates, and reciprocal lead screw drives the scraper blade and removes.

Preferably, a flow guide block is fixed on the inner wall of the driving box rod, the flow guide block is arranged along the length direction of the driving rod, the flow guide block is positioned below the driving rod, and an inclined plane is arranged on the bottom surface of the flow guide block; the side-mounting of wall body have a plurality of with violently manage that the drinking-water pipe is linked together, violently install the shower nozzle that a plurality of interval set up on the pipe.

By adopting the technical scheme, when rainwater in the water storage tank flows upwards, the rainwater flows towards one side of the driving rod under the action of the guide plate, and the spiral blade is pushed by the rainwater to rotate, so that the driving rod rotates; the spray head on the transverse pipe can irrigate the plants.

Preferably, install the guide bar of two vertical settings in the water storage box, the periphery cover of guide bar is equipped with the guide block, two be fixed with the kicking block between the guide block, the top surface of kicking block with the bottom surface fixed connection of sprue.

Through adopting above-mentioned technical scheme, when the rainwater in the water storage box increases the time, the kicking block rebound under the buoyancy effect of rainwater, and under the effect of guide block and guide bar for the kicking block is followed vertical direction all the time and is removed, when the rainwater in the water storage box holds when full, and the sprue is inserted under the effect of kicking block and is established the logical inslot of retaining, makes the rainwater in the water storage box be difficult for leading to the inslot through the retaining and flow to the external world, and the water level in the spread groove rises gradually.

Preferably, the retaining is led to the inslot and is installed the filter sleeve along vertical sliding, the lateral surface of filter sleeve is fixed with the slider, the spout has been seted up to the inner wall that the retaining led to the groove, the slider passes through the spout along vertical with the water storage box slides and is connected, the bottom surface of slider is fixed with the spring, the bottom of spring with the bottom surface fixed connection of spout.

By adopting the technical scheme, the filter sleeve can filter fallen leaves and impurities on the top surface of the water storage tank, and when the rainwater is large, the filter sleeve can move upwards so that the accumulated water on the top surface of the water storage tank can flow into the water storage tank through the top of the filter sleeve; when the accumulated fallen leaves in the outer side of the filter sleeve are more, the filter sleeve can move downwards under the action of the elastic force of the spring, and the filter sleeve moves to the water storage through groove so that the fallen leaves accumulated near the filter sleeve can flow away along with accumulated water in the direction away from the filter sleeve, and rainwater can smoothly flow into the water storage tank.

Preferably, the dwang is installed to the water storage box internal rotation, the outer peripheral face cover of dwang is established and is fixed with the cam, the outer peripheral face of cam with the bottom surface looks butt of filter sleeve, be provided with in the water storage box and be used for the drive the dwang pivoted rotates the piece.

Through adopting above-mentioned technical scheme, utilize and rotate a drive dwang and rotate, the dwang drives the cam and rotates, and the cam can promote the filter sleeve rebound, and the filter sleeve moves down under the spring action of spring after removing to the highest point to make the filter sleeve along vertical reciprocating motion, the difficult emergence of filter sleeve blocks up.

Preferably, the rotating part is fixed on a first bevel gear on the outer peripheral surface of the rotating rod in a sleeved mode, a second bevel gear meshed with the first bevel gear is fixed at the top end of the guide rod, a plurality of spiral grooves are uniformly distributed on the outer peripheral surface of the guide rod along the circumferential direction of the guide rod, a guide through groove used for penetrating the guide rod is formed in the top surface of the guide block, a plurality of spiral protrusions are uniformly distributed on the inner peripheral surface of the guide through groove along the circumferential direction of the guide through groove, and the spiral protrusions are meshed with the spiral grooves.

Through adopting above-mentioned technical scheme, when the kicking block moved up under the buoyancy of rainwater, the kicking block drove the guide block rebound, and the guide block passes through heliciform arch and heliciform recess intermeshing to drive the guide bar and rotate, the guide bar drives two rotations of bevel gear, and two rotations of bevel gear drive bevel gear, bevel gear drive dwang rotation, the dwang drives the cam rotation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when rainstorm weather is met, after rainwater in the water storage tank is fully stored, the blocking block is inserted into the water storage through groove, the water level in the connecting groove gradually rises, when the rainwater in the connecting groove flows into the moving groove through the water inlet through groove, the floating plate in the moving groove moves upwards, the floating plate pushes the connecting plate to rotate upwards through the pushing assembly, the connecting plate drives the top of the guide plate to rotate towards the direction far away from the floating plate, so that the guide plate is blocked above the plants on the wall body, the invasion of the rainstorm to the plants is reduced, and the plants are protected;

2. when the floating plate moves upwards under the buoyancy action of rainwater, the floating plate drives the moving rod to move upwards, the moving stick slides in the guide groove and pushes one side of the connecting plate, which is far away from the guide plate, to rotate upwards, so that one side of the guide plate, which is far away from the connecting plate, rotates downwards, and the guide plate rotates to the position above the plants;

3. utilize the rotation piece drive dwang to rotate, the dwang drives the cam and rotates, and the cam can promote the filter sleeve rebound, and the filter sleeve moves down under the spring action of spring after removing to the highest point to make the filter sleeve along vertical reciprocating motion, the difficult emergence of filter sleeve blocks up.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a cross-sectional view of a wall, a fixing plate and a baffle in an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a driving box and a reciprocating screw rod in the embodiment of the present application.

Fig. 4 is a cross-sectional view of a reservoir in an embodiment of the present application.

Fig. 5 is an enlarged schematic view at a in fig. 4.

Reference numerals are as follows: 1. a wall body; 11. planting a plate; 12. planting grooves; 13. a water pumping pipe; 14. a water pump; 15. a transverse tube; 16. a spray head; 17. a water storage tank; 2. filtering with a screen; 21. connecting grooves; 22. a fixing plate; 23. mounting grooves; 24. mounting blocks; 25. a squeegee; 26. a reciprocating screw; 27. a second synchronizing wheel; 3. a drive rod; 31. a drive box; 32. a helical blade; 33. a flow guide block; 34. a bevel; 35. a first synchronizing wheel; 4. a synchronization lever; 41. a third synchronizing wheel; 42. a fourth synchronizing wheel; 43. a first synchronous belt; 44. a synchronous belt II; 5. a baffle; 51. a connecting plate; 52. a moving groove; 53. a water inlet through groove; 54. a slot; 55. a guide groove; 6. a floating plate; 61. a travel bar; 62. moving the stick; 63. installing a stick; 64. a clockwork spring; 65. a mounting cavity; 7. a filter sleeve; 71. a water storage through groove; 72. a slider; 73. a chute; 74. a spring; 75. rotating the rod; 76. a cam; 77. a rotation chamber; 78. blocking; 8. floating blocks; 81. a guide block; 82. a guide through groove; 83. a guide bar; 84. a first bevel gear; 85. a second bevel gear; 86. a helical groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses planting technique wall. Referring to fig. 1, the greening planting wall comprises a wall body 1 and a water storage tank 17 fixed on the bottom surface of the wall body 1, a plurality of planting plates 11 arranged at equal intervals are fixed on the side surfaces of the wall body 1, and planting grooves 12 used for placing soil and plants are formed in the top surfaces of the planting plates 11. A water pumping pipe 13 which is vertically arranged is fixed on the top surface of the water storage tank 17, and a water pump 14 is arranged on the water pumping pipe 13. A plurality of transverse pipes 15 communicated with the water pumping pipes 13 are arranged on the side surface of the wall body 1 close to the planting plates 11, the transverse pipes 15 correspond to the planting plates 11 one by one, and the transverse pipes 15 are positioned above the corresponding planting plates 11. A plurality of nozzles 16 arranged at intervals are fixed on the transverse pipe 15, and the nozzles 16 can irrigate plants below the transverse pipe 15.

Referring to fig. 2, the top surface of the wall 1 is provided with a connecting groove 21 communicated with the water storage tank 17, a filter screen 2 is fixed in the connecting groove 21, and the top surface of the filter screen 2 is coplanar with the top surface of the wall 1. The top surface of the wall body 1 is fixed with a fixing plate 22, and the fixing plate 22 is positioned on one side of the filter screen 2 far away from the planting plate 11. The side of the fixing plate 22 close to the filter screen 2 is provided with a mounting groove 23, and the fixing plate 22 is slidably mounted with a mounting block 24 along the length direction thereof through the mounting groove 23. The mounting groove 23 is rotatably provided with a reciprocating screw rod 26, and the mounting block 24 is in threaded transmission fit with the reciprocating screw rod 26. The side face of the mounting block 24 close to the filter screen 2 is fixed with a scraper 25, and the bottom face of the scraper 25 is attached to the top face of the filter screen 2.

Referring to fig. 1 and 3, a driving box 31 communicated with the pumping pipe 13 is fixed on the wall 1, a driving rod 3 horizontally arranged is rotatably installed in the driving box 31, and a plurality of helical blades 32 are fixed on the outer circumferential surface of the driving rod 3. A deflector 33 is fixed on the inner wall of the driving box 31, and the deflector 33 is positioned below the driving rod 3. The guide block 33 is disposed along the length direction of the driving rod 3, and the bottom surface of the guide block 33 is provided with an inclined surface 34.

Rainwater in the water storage tank 17 flows upwards under the action of the water pump 14, and after the rainwater enters the driving tank 31, the rainwater flows to one side of the driving rod 3 under the guiding action of the flow guide block 33, and the rainwater impacts the helical blade 32, so that the helical blade 32 is pushed to rotate, and the helical blade 32 drives the driving rod 3 to rotate.

Referring to fig. 1 and 3, a first synchronizing wheel 35 is fixedly sleeved on the outer circumferential surface of the driving rod 3, and a second synchronizing wheel 27 is fixedly sleeved on the outer circumferential surface of the reciprocating screw 26. A cavity is arranged in the wall body 1, and a synchronizing rod 4 is rotatably arranged in the cavity. A third synchronizing wheel 41 and a fourth synchronizing wheel 42 are fixedly sleeved on the outer peripheral surface of the synchronizing rod 4, a first synchronous belt 43 is wound around the first synchronizing wheel 35 and the third synchronizing wheel 41, and a second synchronous belt 44 is wound around the second synchronizing wheel 27 and the fourth synchronizing wheel 42.

The actuating lever 3 drives a synchronizing wheel 35 and rotates, a synchronizing wheel 35 drives a synchronizing wheel three 41 through a synchronous belt 43 and rotates, a synchronizing wheel three 41 drives a synchronizing wheel four 42 through a synchronizing rod 4 and rotates, a synchronizing wheel four 42 drives a synchronizing wheel two 27 through a synchronous belt two 44 and rotates, thereby drive the reciprocating lead screw 26 to rotate, the reciprocating lead screw 26 drives the scraper blade 25 to move along the length direction of the filter screen 2, thereby the impurity on the top surface of the filter screen 2 is cleared, and the possibility that the filter screen 2 is blocked is reduced.

Referring to fig. 1 and 2, a guide plate 5 is rotatably mounted on the top surface of the wall 1, a connecting plate 51 is fixed on the side surface of the guide plate 5 close to the filter screen 2, and an included angle between the side surface of the connecting plate 51 close to the wall 1 and the side surface of the guide plate 5 close to the filter screen 2 is not greater than 90 degrees. The top surface of the wall 1 is provided with a moving groove 52, and the inner wall of the connecting groove 21 is provided with a water inlet through groove 53 communicated with the moving groove 52. The wall body 1 is provided with a floating plate 6 through a moving groove 52 in a vertical sliding manner, and two vertically arranged moving rods 61 are fixed on the top surface of the floating plate 6. The bottom surface of the connecting plate 51 is provided with a slot 54 for inserting the moving rod 61, the opposite inner sides of the slot 54 are provided with guide grooves 55, the top end of the moving rod 61 is fixed with a horizontally arranged moving stick 62, and the moving stick 62 is connected with the connecting plate 51 in a sliding manner along the width direction of the connecting plate 51 through the guide grooves 55.

In heavy rain weather, the water level in the connecting groove 21 rises, rainwater accessible logical groove 53 entering shifting chute 52 of intaking in the connecting groove 21, kickboard 6 in the shifting chute 52 rebound under the buoyancy effect of rainwater, kickboard 6 drives carriage release lever 61 and removes rod 62 rebound, and then promote connecting plate 51 upwards to rotate, connecting plate 51 drives guide plate 5 and rotates, guide plate 5 rotates to the top of planting board 11, thereby shelter from the plant of planting in the groove 12, reduce the erosion of heavy rain to the plant.

Referring to fig. 1 and 2, a mounting cavity 65 is formed in the wall 1, and a horizontally arranged mounting stick 63 is fixed in the mounting cavity 65. The outer periphery of the mounting stick 63 is sleeved with a clockwork spring 64, one end of the clockwork spring 64 is fixedly connected with the outer periphery of the mounting stick 63, and the other end of the clockwork spring 64 is fixedly connected with the bottom surface of the floating plate 6.

When the floating plate 6 moves upwards under the buoyancy action of rainwater, the floating plate 6 drives one end of the spring 64 far away from the mounting stick 63 to move upwards, and the spring 64 is in a tightened state; when the water level in the moving reservoir 52 drops, the floating plate 6 moves downward by the elastic force of the clockwork spring 64, thereby restoring the baffle plate 5.

Referring to fig. 4 and 5, a water storage through groove 71 is formed in the top surface of the water storage tank 17, and the top surface of the water storage tank 17 is inclined toward one side of the water storage through groove 71, so that rainwater on the top surface of the water storage tank 17 flows into the water storage through groove 71. The water storage tank 17 is provided with the filter sleeve 7 through the water storage through groove 71 in a sliding manner along the vertical direction, the two sides of the filter sleeve 7 are respectively fixed with a sliding block 72, the relative inner side of the water storage through groove 71 is provided with a sliding groove 73, and the sliding block 72 is connected with the water storage tank 17 through the sliding groove 73 in a sliding manner along the vertical direction. A spring 74 is fixed on the bottom surface of the sliding block 72, and the bottom end of the spring 74 is fixedly connected with the bottom surface of the sliding chute 73. A rotating cavity 77 is arranged in the water storage tank 17, a rotating rod 75 is rotatably arranged in the rotating cavity 77, a cam 76 is fixedly sleeved on the outer peripheral surface of the rotating rod 75, and the outer peripheral surface of the cam 76 is abutted against the bottom surface of the filter sleeve 7.

Rainwater on the top surface of the water storage tank 17 flows into the water storage tank 17 through the water storage through groove 71, the rainwater drives fallen leaves and impurities to flow to the filter sleeve 7, the cam 76 rotates to push the filter sleeve 7 to move upwards, and the filter sleeve 7 can move downwards under the action of the elastic force of the spring 74, so that the filter sleeve 7 moves vertically in a reciprocating mode, and the possibility that the fallen leaves and the impurities are accumulated near the filter sleeve 7 and block the filter sleeve 7 is reduced.

Referring to fig. 4 and 5, the water storage tank 17 is provided with a floating block 8, and a block 78 which can be inserted into the water storage through groove 71 is fixed on the top surface of the floating block 8. Guide blocks 81 are fixed on two sides of the floating block 8, two vertically arranged guide rods 83 are rotatably mounted in the water storage tank 17, and a guide through groove 82 used for penetrating the guide rods 83 is formed in the top surface of each guide block 81. The outer peripheral surface of guide bar 83 has a plurality of heliciform recess 86 along self circumference equipartition, and the top surface of guide block 81 is offered and is used for wearing to establish guide bar 83's direction logical groove 82, and the inner peripheral surface of direction logical groove 82 has a plurality of heliciform arch along self circumference equipartition, and the heliciform arch corresponds with heliciform recess 86 one-to-one, and heliciform arch and corresponding heliciform recess 86 intermeshing. A first bevel gear 84 is fixedly sleeved on the outer peripheral surface of the rotating rod 75, and a second bevel gear 85 meshed with the first bevel gear 84 is fixedly arranged at the top end of the guide rod 83.

When the water level in the water storage tank 17 rises, the floating block 8 moves upwards, the floating block 8 drives the guide block 81 to move upwards, the guide block 81 is meshed with the spiral protrusion through the spiral groove 86, so that the guide rod 83 rotates, the guide rod 83 drives the first bevel gear 84 to rotate, the first bevel gear 84 drives the second bevel gear 85 to rotate, and the second bevel gear 85 drives the cam 76 to rotate through the rotating rod 75, so that the filter sleeve 7 vertically reciprocates.

The implementation principle of the planting technique wall of the embodiment of the application is as follows: in rainstorm weather, the water level in the water storage tank 17 rises continuously, the floating block 8 moves upwards under the buoyancy action of rainwater, the floating block 8 drives the blocking block 78 to move upwards, and when the water storage tank 17 is full of rainwater, the blocking block 78 is inserted into the water storage through groove 71; the water level in the connecting groove 21 continues to rise, and the rainwater in the connecting groove 21 enters the movable groove 52 through the water inlet through groove 53, and the floating plate 6 moves upwards under the buoyancy action of the rainwater, and the floating plate 6 pushes the connecting plate 51 to rotate through the moving rod 61 and the moving stick 62, and the connecting plate 51 drives the guide plate 5 to rotate, so that the guide plate 5 rotates to the top of the plant, thereby blocking the erosion of the rainwater to the plant.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a planting technique wall which characterized in that: the water storage device comprises a wall body (1) and a water storage tank (17) fixed at the bottom of the wall body (1), wherein a water storage through groove (71) is formed in the top surface of the water storage tank (17), and a blocking block (78) capable of being inserted into the water storage through groove (71) is installed in the water storage tank (17); the top surface of the wall body (1) is provided with a connecting groove (21) communicated with the water storage tank (17), the top surface of the wall body (1) is rotatably provided with a guide plate (5), and the bottom of the guide plate (5) is fixedly provided with a connecting plate (51); a movable groove (52) is formed in the top surface of the wall body (1), a water inlet through groove (53) communicated with the movable groove (52) is formed in the inner wall of the connecting groove (21), a floating plate (6) is installed in the movable groove (52), and a pushing component capable of pushing the connecting plate (51) to rotate upwards is installed on the top surface of the floating plate (6).

2. A planting technique wall as claimed in claim 1, wherein: the push assembly is including being fixed in carriage release lever (61) of kickboard (6) top surface, the bottom surface of connecting plate (51) is seted up and is used for inserting and establish slot (54) of carriage release lever (61), guide way (55) have all been seted up to the relative inboard of slot (54), the top of carriage release lever (61) is fixed with removal rod (62), remove rod (62) and pass through guide way (55) are followed the width direction of connecting plate (51) with connecting plate (51) are slided and are connected.

3. A planting wall as claimed in claim 1, wherein: be provided with installation cavity (65) in wall body (1), installation cavity (65) internal fixation has installation rod (63), the periphery cover of installation rod (63) is equipped with clockwork spring (64), the one end of clockwork spring (64) with the outer peripheral face fixed connection of installation rod (63), the other end of clockwork spring (64) with the bottom surface fixed connection of kickboard (6).

4. A planting wall as claimed in claim 1, wherein: spread groove (21) internal fixation has filter screen (2), the top surface of wall body (1) is fixed with fixed plate (22), fixed plate (22) are close to mounting groove (23) have been seted up to the side of filter screen (2), fixed plate (22) pass through mounting groove (23) are slided along self length direction and are installed installation piece (24), reciprocal lead screw (26) are installed to mounting groove (23) internal rotation, installation piece (24) with reciprocal lead screw (26) screw-thread drive cooperation, the side of installation piece (24) is fixed with scraper blade (25), the bottom surface of scraper blade (25) with the top surface of filter screen (2) is laminated mutually, be provided with in wall body (1) and be used for the drive reciprocal lead screw (26) pivoted drive assembly.

5. A planting wall as claimed in claim 4, wherein: a driving box (31) is fixed on the wall body (1), a water pumping pipe (13) communicated with the water storage tank (17) is fixed at the bottom of the driving box (31), and a water pump (14) is fixed on the water pumping pipe (13); drive assembly including rotate install in actuating lever (3) in drive case (31) and cover are established and are fixed in synchronizing wheel (35) of actuating lever (3) outer peripheral face, actuating lever (3), the outer peripheral face of actuating lever (3) is fixed with a plurality of helical blade (32), the outer peripheral face cover of reciprocal lead screw (26) is established and is fixed with synchronizing wheel two (27), synchronizing rod (4) are installed to wall body (1) internal rotation, the outer peripheral face cover of synchronizing rod (4) is established and is fixed with synchronizing wheel three (41) and synchronizing wheel four (42), synchronizing wheel one (35) with the periphery of synchronizing wheel three (41) is coiled and is equipped with hold-in range one (43), synchronizing wheel two (27) with the periphery of synchronizing wheel four (42) is coiled and is equipped with hold-in range two (44).

6. A planting technique wall as claimed in claim 5, wherein: a flow guide block (33) is fixed on the inner wall of the rod of the driving box (31), the flow guide block (33) is arranged along the length direction of the driving rod (3), the flow guide block (33) is positioned below the driving rod (3), and an inclined plane (34) is arranged on the bottom surface of the flow guide block (33); the side-mounting of wall body (1) have a plurality of with violently pipe (15) that drinking-water pipe (13) are linked together, violently install shower nozzle (16) that a plurality of interval set up on pipe (15).

7. A planting wall as claimed in claim 1, wherein: install guide bar (83) of two vertical settings in water storage box (17), the periphery cover of guide bar (83) is equipped with guide block (81), two be fixed with floating block (8) between guide block (81), the top surface of floating block (8) with the bottom surface fixed connection of sprue (78).

8. A planting wall as claimed in claim 7, wherein: the retaining is led to and is installed filter sleeve (7) along vertical sliding in groove (71), the lateral surface of filtering sleeve (7) is fixed with slider (72), the retaining is led to the inner wall of groove (71) and has been seted up spout (73), slider (72) are passed through spout (73) along vertical with water storage box (17) slide and connect, the bottom surface of slider (72) is fixed with spring (74), the bottom of spring (74) with the bottom surface fixed connection of spout (73).

9. A planting technique wall as claimed in claim 8, wherein: dwang (75) are installed to water storage box (17) internal rotation, the outer peripheral face cover of dwang (75) is established and is fixed with cam (76), the outer peripheral face of cam (76) with the bottom surface looks butt of filter sleeve (7), be provided with in water storage box (17) and be used for the drive dwang (75) pivoted rotates the piece.

10. A planting wall as claimed in claim 9, wherein: the rotating piece is fixed on a bevel gear I (84) on the outer peripheral surface of the rotating rod (75) in a sleeved mode, a bevel gear II (85) meshed with the bevel gear I (84) is fixed to the top end of the guide rod (83), a plurality of spiral grooves (86) are evenly distributed on the outer peripheral surface of the guide rod (83) along the circumferential direction of the guide rod, a guide through groove (82) used for penetrating the guide rod (83) is formed in the top surface of the guide block (81), a plurality of spiral protrusions are evenly distributed on the inner peripheral surface of the guide through groove (82) along the circumferential direction of the guide rod, and the spiral protrusions are meshed with the spiral grooves (86).

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