CN213427240U - Energy-saving municipal afforestation frame - Google Patents

Abstract

The utility model belongs to the technical field of building engineering's technique and specifically relates to an energy-conserving formula municipal afforestation frame is related to, its technical scheme main points are: including the crossbeam, still include fixed mounting in the header tank that the crossbeam is used for collecting the rainwater, header tank fixedly connected with can with the crossbeam grafting complex inserted block, the crossbeam is provided with and supplies the inserted block to peg graft complex jack, be provided with between crossbeam and the inserted block and supply inserted block fixed mounting in the closure subassembly of crossbeam, the closure subassembly supplies the locked block to peg graft complex lockhole in the inserted block including sliding the locking piece of connection in the crossbeam and setting, be provided with in the crossbeam and supply the locked block to take out the unblock subassembly in the lockhole. This application has the technical effect who reduces staff's intensity of labour.

Description

Energy-saving municipal afforestation frame

Technical Field

The utility model belongs to the technical field of building engineering's technique and specifically relates to an energy-conserving formula municipal afforestation frame is related to.

Background

The park, ancient times, refers to the garden of an official, and modern times generally refer to public areas which are built and operated by governments and are used as natural ornamental areas and for rest and play of the public, and modern parks are popular among people due to the fact that the environment is deep, cool and free of summer heat. In the construction of parks, a large number of greening plants need to be planted to improve the ornamental value, so a large number of greening frame structures need to be used for planting the greening plants in the process of the park construction.

For example, the chinese utility model patent that bulletin number is CN207854575U at present discloses a afforestation frame structure for municipal park construction, including support, first planting frame and second planting frame, its characterized in that: the utility model discloses a flowerpot, including support, fixing base, connecting rod, block crossbeam, crossbeam top are equipped with the catch bowl, first planting frame top is equipped with fixed staple bolt, fixed staple bolt bottom welding connecting rod, the inside block plastic hose of connecting rod, plastic hose bottom block shower nozzle, connecting rod bottom welding planting groove, plant the equal welding base in groove both ends, the base top is equipped with basin cultivated in a pot, catch bowl inner wall top is equipped with the filter screen, catch bowl bottom welding pillar, just pillar bottom welding crossbeam, the inside water pump that is equipped with of catch bowl, water pump one end is equipped with the inlet tube, the water pump other end is equipped with the outlet pipe, just the inlet tube is connected with plastic hose. Set up at the water catch bowl through the top at the crossbeam to can utilize the water catch bowl to collect the rainwater and preserve in the rainy day, when needs are watered, utilize the water pump to extract the water in the catchment and water the green plant of planting on the afforestation frame, and then reach energy-conserving effect.

With respect to the related art among the above, the inventors consider that there is a defect: the pillar is through welded mode and crossbeam fixed connection, the relative both ends of crossbeam are through fixed mounting between the mode of block and the fixing base, when the water catch bowl caused the damage because of external factor, for example, take place strong collision with exterior structure, and then the staff need dismantle and change the water catch bowl, and then the staff need dismantle two fixing bases and two fixed staple bolts respectively, and dismantle and change whole crossbeam, pillar and water catch bowl together, such operating mode has increased staff's intensity of labour.

SUMMERY OF THE UTILITY MODEL

In order to reduce staff's intensity of labour, this application provides an energy-conserving formula municipal afforestation frame.

The application provides a pair of energy-conserving formula municipal afforestation frame adopts following technical scheme:

the utility model provides an energy-conserving formula municipal afforestation frame, includes crossbeam and fixed mounting in the support that the crossbeam is used for supporting beam, still include fixed mounting in the crossbeam is used for collecting the header tank of rainwater, header tank fixedly connected with can with the crossbeam complex inserted block of pegging graft, the crossbeam is provided with the confession the complex jack of pegging graft of inserted block, the crossbeam with be provided with between the inserted block and supply inserted block fixed mounting in the closure subassembly of crossbeam, the closure subassembly supplies in the inserted block including sliding the locking piece of connecting in the crossbeam and setting, the complex lockhole is pegged graft to the locking piece, be provided with the confession in the crossbeam the unlocking subassembly in the lockhole is taken out to the locking piece.

By adopting the technical scheme, when the water collecting tank needs to be installed, a worker holds and moves the insertion block, so that the insertion block is inserted into the insertion hole of the cross beam, and the insertion block drives the water collecting tank to be installed at the cross beam; the locking block is in inserted fit with the locking hole by utilizing the locking component, so that the water collecting tank is fixedly arranged at the cross beam; when the header tank damages, utilize unblock subassembly for the locking piece is taken out in the lockhole, and then grips the inserted block with the staff and takes out the inserted block in the jack, and then can dismantle the change header tank.

Preferably, a containing groove for containing the locking block is formed in the cross beam, a notch of the containing groove is communicated with the jack, the locking assembly further comprises a spring fixedly connected between the locking block and the containing groove and used for sliding the locking block, and when the spring is in a natural state, the locking block is inserted into the locking hole.

Through adopting above-mentioned technical scheme, when the inserted block is pegged graft in the jack, the spring is in compression state, and then the locking piece supports tightly in the inserted block, is linked together until lockhole and locking piece, and then the spring resets, and the spring promotes the locking piece simultaneously for the locking piece is pegged graft in the lockhole, makes inserted block fixed mounting in crossbeam department, and then header tank fixed mounting in crossbeam department.

Preferably, one side of the locking block facing the inserting block is obliquely arranged.

Through adopting above-mentioned technical scheme, when the inserted block is pegged graft in the jack, inserted block and locking piece looks butt utilize the slope setting of locking piece, and then inserted block continues to insert in the jack, and the locking piece slides and compression spring to the inside of storage tank, is linked together between locking piece and the lockhole.

Preferably, the locking assembly further comprises a guide rod fixedly connected in the accommodating groove and inserted in the spring.

By adopting the technical scheme, when the locking block is tightly abutted against the inserting block, the locking block compresses the spring, and the spring is compressed along the length direction of the guide rod by utilizing the guide rod; when the locking piece is linked together with the lockhole, the spring resets along the length direction of the guide rod, and then the direction is realized to the deformation direction of spring, and then the direction is realized to the slip direction of locking piece.

Preferably, the locking assembly further comprises a limiting block fixedly connected to the locking block and a supporting block fixedly connected to the cross beam and capable of being abutted against the limiting block, and the supporting block is located at the notch of the accommodating groove.

Through adopting above-mentioned technical scheme, when the spring resets, the spring promotes the locking piece and slides and insert in the keyhole, until stopper and support piece looks butt, and then the locking piece stops sliding, and then has reduced the locking piece and has disengaged the condition emergence of storage tank because of sliding excessively and leading to the locking piece.

Preferably, the unlocking assembly comprises an unlocking rod fixedly connected to the limiting block and a long waist-shaped hole formed in the cross beam and communicated with the containing groove and the outer portion of the cross beam respectively, and the unlocking rod penetrates through the long waist-shaped hole and extends to the outer portion of the cross beam.

Through adopting above-mentioned technical scheme, when the header tank is dismantled to needs, the cooperation of pegging graft between locking piece and the lockhole, the staff stir the unblock pole along the length direction in long waist shape hole, and then the unblock pole slides along the length direction in long waist shape hole, and then the unblock pole drives the stopper and slides, and then the stopper drives the locking piece and slides for the locking piece is taken out in the lockhole, and then the staff can directly take out the inserted block from the department jack, and then can dismantle the header tank get off.

Preferably, the number of the locking assemblies and the number of the unlocking assemblies are two, the two groups of locking assemblies are respectively positioned on two opposite sides of the insertion block, and the two groups of unlocking assemblies are respectively positioned on two opposite sides of the insertion hole.

Through adopting above-mentioned technical scheme, utilize two sets of closure subassemblies, and then improve the stability of header tank fixed mounting in crossbeam department.

Preferably, the rainwater collecting and planting device further comprises a planting frame which is arranged on the cross beam and used for planting plants and a water conveying mechanism which is used for conveying rainwater to the planting frame, wherein the water conveying mechanism comprises a longitudinal water conveying pipe which penetrates through the insertion block and is respectively communicated with the interior of the water collecting tank and the interior of the cross beam, a transverse water conveying pipe which is arranged in the cross beam and is communicated with the interior of the planting frame, and a through pipe which is arranged in the cross beam and is respectively in splicing fit with the longitudinal water conveying pipe and the transverse water conveying pipe; the longitudinal water pipe is fixedly connected with the insert block.

By adopting the technical scheme, when the insert block is pulled away from the cross beam, a worker utilizes the unlocking assembly to pull the insert block away from the cross beam, and meanwhile, the insert block drives the longitudinal water conveying pipe to be pulled away from the through pipe, so that the longitudinal water conveying pipe is detached from the through pipe; when the inserted block and the water collecting tank are required to be installed at the position of the cross beam, the inserted block is inserted into the cross beam by a worker, meanwhile, the longitudinal water inlet pipe is inserted into the through pipe, and then the transverse water pipe and the longitudinal water pipe are installed and communicated.

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

1. the insertion block is inserted into the insertion hole of the cross beam by holding and moving the insertion block by a worker, and then the insertion block drives the water collecting tank to be installed at the cross beam; the locking block is in inserted fit with the locking hole by utilizing the locking component, so that the water collecting tank is fixedly arranged at the cross beam; when the water collecting tank is damaged, the unlocking assembly is utilized to enable the locking block to be pulled out of the locking hole, so that a worker can hold the inserting block and pull the inserting block out of the inserting hole, and the water collecting tank can be detachably replaced;

2. the spring is in a compressed state and abuts against the inserting block until the lock hole is communicated with the lock block, and then the spring resets, and meanwhile, the spring pushes the lock block to enable the lock block to be inserted into the lock hole, so that the inserting block is fixedly installed at the cross beam, and the water collecting tank is fixedly installed at the cross beam;

3. the unlocking rod is stirred along the length direction of the long waist-shaped hole by a worker, then the unlocking rod slides along the length direction of the long waist-shaped hole, then the unlocking rod drives the locking block to be pulled away from the locking hole, and then the worker can directly pull the insertion block away from the insertion hole, and then the water collecting tank can be detached.

Drawings

FIG. 1 is a schematic view of the overall structure of an energy-saving municipal greening frame in the embodiment;

FIG. 2 is a partial sectional view showing the structure of the water pumping mechanism, the water delivery mechanism and the water spray mechanism in the present embodiment;

FIG. 3 is a partial sectional view of the water pumping mechanism in the present embodiment;

FIG. 4 is a partial sectional view of the structure of the water delivery mechanism and the water spray mechanism in the present embodiment;

fig. 5 is an enlarged view at a in fig. 3.

In the figure, 1, a bracket; 2. a cross beam; 21. a jack; 22. a containing groove; 3. planting frames; 31. a first planting frame; 32. a second planting frame; 33. a connecting rod; 34. planting boxes; 4. a water collection tank; 41. an opening; 42. filtering with a screen; 43. inserting a block; 5. a water pumping mechanism; 51. a water pump; 52. a water inlet pipe; 53. a water outlet pipe; 6. a water delivery mechanism; 61. a longitudinal water delivery pipe; 62. pipe passing; 621. a first through hole; 622. a second through hole; 63. a transverse water conveying pipe; 7. a water spraying mechanism; 71. a water spray pipe; 72. a spray head; 8. a locking assembly; 81. a lock hole; 82. a locking block; 83. a spring; 84. a guide bar; 85. a limiting block; 86. a resisting block; 9. an unlocking assembly; 91. a long waist-shaped hole; 92. and an unlocking rod.

Detailed Description

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

The embodiment of the application discloses energy-conserving formula municipal afforestation frame. Referring to fig. 1 and 2, an energy-saving municipal afforestation frame comprises a cross beam 2 arranged along the horizontal direction, a bracket 1 fixedly installed at opposite ends of the cross beam 2 along the vertical direction and used for supporting the cross beam 2, a planting frame 3 fixedly installed at the cross beam 2 along the vertical direction and used for planting plants, and a water collecting tank 4 fixedly installed at the side wall of the cross beam 2 along the vertical direction and used for collecting rainwater. The planting frame 3 includes a connecting rod 33 and two planting boxes 34 welded to the side walls of the connecting rod 33 in the horizontal direction for planting plants. One end of the link 33 is fixedly mounted to the cross member 2, and the other end of the link 33 extends in a direction away from the cross member 2 in the vertical direction. Preferably, in the present embodiment, the number of the planting frames 3 is two, the two planting frames 3 are a first planting frame 31 and a second planting frame 32, the first planting frame 31 and the second planting frame 32 are located at two opposite ends of the side wall of the cross beam 2, respectively, and the water collecting tank 4 is located between the first planting frame 31 and the second planting frame 32. The header tank 4 is the setting of cuboid, is the cavity setting in the header tank 4. The top of header tank 4 is provided with opening 41 for collecting the rainwater, and header tank 4 has welded along the horizontal direction has the filter screen 42 that is used for filtering rainwater impurity, and filter screen 42 is located opening 41 department. The bottom of header tank 4 has along vertical direction welding has inserted block 43, and the one end of inserted block 43 welds in the bottom other end of header tank 4 pegs graft in crossbeam 2. The side wall of the cross beam 2 is provided with an insertion hole 21 for the insertion and matching of the insertion block 43 along the vertical direction. When the water collecting tank 4 needs to be arranged on the cross beam 2, the staff inserts the inserting block 43 into the inserting hole 21; when the water collecting tank 4 needs to be disassembled, the worker pulls the insertion block 43 out of the insertion hole 21.

Referring to fig. 1 and 2, the municipal afforestation shelf further comprises a water pumping mechanism 5 arranged in the water collection tank 4 for pumping out rainwater in the water collection tank 4, water spraying mechanisms 7 respectively arranged at the two planting shelves 3 for spraying rainwater to plants, and a water delivery mechanism 6 arranged in the cross beam 2 and the insert block 43 for delivering rainwater to the water spraying mechanisms 7. The water pumping mechanism 5, the water delivery mechanism 6 and the water spraying mechanism 7 are communicated in sequence along the rainwater delivery direction. When the plants need to be watered, the water pump mechanism 5 is used for pumping water in the water collecting tank 4 to the water delivery mechanism 6, the water delivery mechanism 6 is used for delivering rainwater to the water spraying mechanism 7, and then the water spraying mechanism 7 is used for spraying the rainwater to be poured on the plants planted in the planting box 34.

Referring to fig. 2 and 3, in detail, the water pumping mechanism 5 includes a water pump 51 fixed to the inside of the water collecting tank 4 by welding for pumping water, a water inlet pipe 52 fixedly installed at the water inlet end of the water pump 51 for supplying water to the water pump 51, and a water outlet pipe 53 fixedly installed at the water outlet end of the water pump 51 for supplying water to the water pump 51 for pumping out rainwater. The water inlet pipe 52 and the water pump 51 are both positioned at the bottom of the water collecting tank 4. One end of the water outlet pipe 53 is fixedly arranged on the water pump 51, and the other end of the water outlet pipe penetrates through two opposite sides of the bottom of the water collecting tank 4 and is communicated with the water delivery mechanism 6.

Referring to fig. 2 and 4, specifically, the water delivery mechanism 6 includes a longitudinal water delivery pipe 61 penetrating through two opposite sides of the insertion block 43 along the vertical direction, a transverse water delivery pipe 63 disposed in the cross beam 2 along the horizontal direction, and a through pipe 62 fixedly installed in the cross beam 2 and respectively communicated with the transverse water delivery pipe 63 and the longitudinal water delivery pipe 61. One end of the longitudinal water pipe 61 is in insertion fit with and communicated with one end of the water outlet pipe 53 far away from the water pump 51, and the other end of the longitudinal water pipe 61 extends and protrudes out of the insertion block 43. Preferably, in this embodiment, the number of the horizontal water pipes 63 is two, wherein two opposite ends of one horizontal water pipe 63 are respectively communicated with the water spraying mechanism 7 of the first planting frame 31 and the longitudinal water pipe 61, and two opposite ends of the other horizontal water pipe 63 are respectively communicated with the water spraying mechanism 7 of the second planting frame 32 and the longitudinal water pipe 61. Preferably, in this embodiment, the through pipe 62 may be provided as a tee pipe 62, two first through holes 621 which are communicated with each other are provided at two opposite ends of the tee pipe 62 in the horizontal direction, and one second through hole 622 which is communicated with the two first through holes 621 is provided in the vertical direction. One ends of the two transverse water pipes 63 departing from the planting rack 3 are respectively inserted into the two first through holes 621 of the three-way pipe 62 and communicated with the three-way pipe 62.

When the insert block 43 is inserted into the insertion hole 21, one end of the longitudinal water pipe 61, which is away from the water collection tank 4, is inserted into the second through hole 622 of the three-way pipe 62 and communicated with the second through hole 622, so that the longitudinal water pipe 61 is communicated with the two transverse water pipes 63; when the insert 43 is drawn out of the jack 21, the insert 43 drives the longitudinal water pipe 61 to be drawn out of the tee 62.

When rainwater needs to be conveyed to the water spraying mechanism 7, a worker inserts the insertion block 43 into the insertion hole 21, then the longitudinal water conveying pipe 61 is inserted into the second through hole 622 of the three-way pipe 62, and then the longitudinal water conveying pipe 61, the transverse water conveying pipe 63 and the three-way pipe 62 are communicated with each other; by using the water pumping mechanism 5, the water outlet pipe 53 discharges rainwater to the transverse water pipe 63, and the rainwater flows through the longitudinal water pipe 61, the three-way pipe 62 and the transverse water pipe 63 in sequence, and then flows to the water spraying mechanism 7.

Referring to fig. 2 and 4, in particular, the water spraying mechanism 7 includes a water spraying pipe 71 installed in the link 33 in a vertical direction and a spray head 72 installed at a side wall of the link 33 for spraying water to the plants. One end of the water spray pipe 71 is welded and fixed with and communicated with the transverse water pipe 63, and the other end of the water spray pipe 71 is communicated with the spray head 72. The spray head 72 is positioned above the planting box 34. When the rainwater flows to the water spraying mechanism 7, the rainwater flows to the water spraying pipe 71 through the horizontal water conveying pipe 63 until the rainwater flows to the spray head 72, and then the spray head 72 is used for spraying water to irrigate the plants planted in the planting box 34.

Referring to fig. 3 and 5, the insertion block 43 is rectangular, two opposite side surfaces of the insertion block 43 in the horizontal direction are both inclined from one end close to the water collecting tank 4 to one end close to the beam 2, and the insertion block 43 is matched with the insertion hole 21. An accommodating groove 22 is arranged in the beam 2 along the horizontal direction, and the notch of the accommodating groove 22 is communicated with the jack 21. A locking assembly 8 for fixedly mounting the inserting block 43 in the cross beam 2 is arranged between the inserting block 43 and the cross beam 2, and specifically, the locking assembly 8 comprises a locking block 82 connected in the accommodating groove 22 in a sliding manner along the horizontal direction, a locking hole 81 arranged in the inserting block 43 along the horizontal direction for the locking block 82 to be in an insertion fit, a spring 83 fixedly connected between the locking block 82 and the bottom of the accommodating groove 22 along the horizontal direction for the locking block 82 to be in a sliding connection, and a guide rod 84 accommodated in the insertion fit with the spring 83. The locking hole 81 is located in a side face of any one of the insert blocks 43 that is obliquely arranged. One end of the locking piece 82 faces the bottom of the receiving groove 22, and the other end thereof can movably penetrate through the notch of the receiving groove 22. The side of the locking piece 82 away from the bottom of the accommodating groove 22 is inclined. One end of the spring 83 is welded to the bottom of the receiving groove 22, and the other end is welded to the end of the locking piece 82 facing the bottom of the receiving groove 22. One end of the guide rod 84 is welded to the bottom of the receiving groove 22, the other end is in plug fit with the spring 83 along the horizontal direction, and a sliding gap exists between the guide rod 84 and the locking block 82.

Referring to fig. 3 and 5, specifically, the locking assembly 8 further includes a limiting block 85 welded to one side of the locking block 82 facing the bottom of the accommodating groove 22 along the vertical direction, and a supporting block 86 welded to the inside of the cross beam 2 along the vertical direction and capable of supporting against the limiting block 85, where the supporting block 86 is located at the notch of the accommodating groove 22.

When the water collecting tank 4 is required to be fixedly arranged on the cross beam 2, a worker inserts the inserting block 43 into the inserting hole 21, one side of the inserting block 43 which is arranged in an inclined mode abuts against the locking block 82, the locking block 82 slides towards the inner direction of the accommodating groove 22, the locking block 82 compresses the spring 83, the spring 83 deforms along the length direction of the guide rod 84, and the locking block 82 abuts against the inserting block 43; the inserting block 43 is inserted continuously until the locking block 82 is communicated with the locking hole 81, the spring 83 is reset, the spring 83 pushes the locking block 82 along the length direction of the guide rod 84, and the locking block 82 is in insertion fit with the locking hole 81 until the limiting block 85 is abutted against the abutting block 86.

Referring to fig. 3 and 5, an unlocking assembly 9 for detaching the insertion block 43 from the cross beam 2 is arranged in the cross beam 2, and the specific unlocking assembly 9 includes an unlocking rod 92 welded to the limiting block 85 in the vertical direction and penetrating through the cross beam 2, and a long kidney-shaped hole 91 arranged in the cross beam 2 in the vertical direction and allowing the unlocking rod 92 to penetrate through. The long waist-shaped hole 91 is positioned at one side of the cross beam 2 close to the water collecting tank 4 and communicated with the accommodating groove 22, and one end of the unlocking rod 92 is welded on the side wall of the limiting block 85; the other end of the oblong hole 91 extends to the outside of the cross member 2. When the lock block 82 is in plugging fit with the lock hole 81, the lock release lever 92 is located at one end of the elongated kidney-shaped hole 91 close to the insertion hole 21. Preferably, in the present embodiment, the number of the unlocking assemblies 9 and the number of the locking assemblies 8 can be two, the two locking assemblies 8 are respectively located at two side surfaces of the insert block 43, which are obliquely arranged, and the two unlocking assemblies 9 are both located in the cross beam 2.

The implementation principle of the energy-saving municipal afforestation frame of the embodiment of the application is as follows:

when needing to dismantle inserted block 43 and header tank 4, the staff grips inserted block 43, stir unblock pole 92 along the length direction of long waist shape hole 91 simultaneously, and then unblock pole 92 drives stopper 85 syntropy and slides, and then stopper 85 drives locking piece 82 syntropy and slides for locking piece 82 takes out from in lockhole 81, and then the staff can take out inserted block 43 from in jack 21, and then can change header tank 4.

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 (8)

1. The utility model provides an energy-conserving formula municipal afforestation frame, includes crossbeam (2), its characterized in that: still including fixed mounting in crossbeam (2) is used for collecting header tank (4) of rainwater, header tank (4) fixedly connected with can with crossbeam (2) grafting complex inserted block (43), crossbeam (2) are provided with the confession inserted block (43) grafting complex jack (21), crossbeam (2) with be provided with between inserted block (43) and supply inserted block (43) fixed mounting in locking subassembly (8) of crossbeam (2), locking subassembly (8) including sliding to be connected in locking piece (82) in crossbeam (2) and set up and supply in inserted block (43) locking piece (82) grafting complex lockhole (81), be provided with the confession in crossbeam (2) locking piece (82) are taken out from unblock subassembly (9) in lockhole (81).

2. The energy-saving municipal greening frame of claim 1, wherein: the locking assembly is characterized in that a containing groove (22) for containing a locking block (82) is formed in the cross beam (2), a notch of the containing groove (22) is communicated with the insertion hole (21), the locking assembly (8) further comprises a spring (83) fixedly connected between the locking block (82) and the containing groove (22) and used for sliding the locking block (82), and when the spring (83) is in a natural state, the locking block (82) penetrates through the notch and is inserted into the locking hole (81).

3. The energy-saving municipal greening frame of claim 2, wherein: the locking block (82) is obliquely arranged towards one side of the inserting block (43).

4. The energy-saving municipal greening frame of claim 2, wherein: the locking assembly (8) further comprises a guide rod (84) which is fixedly connected in the accommodating groove (22) and is inserted in the spring (83).

5. The energy-saving municipal greening frame of claim 2, wherein: the locking assembly (8) further comprises a limiting block (85) fixedly connected to the locking block (82) and a butting block (86) fixedly connected to the cross beam (2) and capable of butting against the limiting block (85), and the butting block (86) is located at the notch of the accommodating groove (22).

6. The energy-saving municipal greening frame of claim 5, wherein: unblock subassembly (9) are including fixed connection in unblock pole (92) of stopper (85) and set up long waist shape hole (91) that are linked together in crossbeam (2) and respectively with storage tank (22) and crossbeam (2) outside, unblock pole (92) run through long waist shape hole (91) and extend to the outside of crossbeam (2).

7. The energy-saving municipal greening frame of claim 1, wherein: the number of the locking assemblies (8) and the number of the unlocking assemblies (9) are two, the two groups of locking assemblies (8) are respectively positioned at two opposite sides of the insertion block (43), and the two groups of unlocking assemblies (9) are respectively positioned at two opposite sides of the insertion hole (21).

8. The energy-saving municipal greening frame of claim 1, wherein: the rainwater-conveying device is characterized by further comprising a planting frame (3) mounted on the cross beam (2) for planting plants and a rainwater conveying mechanism (6) used for conveying rainwater to the planting frame (3), wherein the rainwater conveying mechanism (6) comprises a longitudinal water conveying pipe (61) penetrating through the insert block (43) and respectively communicated with the inside of the water collecting tank (4) and the inside of the cross beam (2), a transverse water conveying pipe (63) arranged in the cross beam (2) and communicated with the planting frame (3), and a through pipe (62) arranged in the cross beam (2) and respectively in plug-in fit with the longitudinal water conveying pipe (61) and the transverse water conveying pipe (63).

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