CN114145215B - Rainwater collection and irrigation device capable of preventing water from freezing for municipal road greening - Google Patents

Abstract

The invention relates to a rainwater collecting and irrigating device, in particular to a waterproof and freezing rainwater collecting and irrigating device for municipal road greening. The invention provides a waterproof and frozen rainwater collecting and irrigating device for municipal road greening, which can automatically spray rainwater, automatically melt and freeze the rainwater and read the water level. A waterproof and freezing rainwater collection and irrigation device for municipal road greening, comprising: the first bracket is provided with a water storage tank; the two sides of the upper part of the water storage tank are provided with the second brackets; and a solar panel is connected between the top ends of the two second brackets and is connected with the water storage tank. According to the invention, the rainwater is sprayed on the grasslands, so that plants on the grasslands are irrigated, and the effect of irrigating the plants by the rainwater is realized.

Description

Rainwater collection and irrigation device capable of preventing water from freezing for municipal road greening

Technical Field

The invention relates to a rainwater collecting and irrigating device, in particular to a waterproof and freezing rainwater collecting and irrigating device for municipal road greening.

Background

Greening is an activity of planting plants to improve the environment, mainly refers to planting protection forests, roadside trees, crops, various plants in residential areas and parks, and the like, and comprises homeland greening, urban greening, four-side greening, road greening and the like, can improve environmental sanitation and plays a plurality of roles in maintaining ecological balance, and the greening plants also need irrigation and cultivation of water resources after being planted, but because the existing water resources are in shortage, if the water for daily life of people is used for irrigation and cultivation, the water resources are greatly consumed, and sustainable development of human society is not facilitated.

Rainwater is a very high-quality fresh water resource in nature, the rainwater is used for irrigation culture of greening plants, the use of water for daily life of people can be reduced, water resources are saved, the planted greening plants need to be watered by staff regularly to ensure healthy growth of the greening plants, the work and operation of regularly watering the greening plants are very complicated, a great deal of effort is consumed after long-term execution, the municipal engineering construction cost is increased, and a great deal of water resources are consumed when the greening plants are watered one by one, so that the modern idea of water conservation is difficult to cater to.

Therefore, the waterproof and frozen rainwater collecting and irrigating device for municipal road greening is designed to automatically spray rainwater, automatically melt frozen rainwater and read the water level degree.

Disclosure of Invention

In order to overcome the defects that the traditional rainwater collecting and irrigating device cannot automatically spray rainwater, cannot automatically melt frozen rainwater and cannot read the water level, the invention provides the waterproof frozen rainwater collecting and irrigating device for municipal road greening, which can automatically spray rainwater, automatically melt frozen rainwater and can read the water level.

The invention is realized in such a way that a rainwater collecting and irrigating device capable of preventing water from freezing for municipal road greening comprises:

the first bracket is provided with a water storage tank;

the two sides of the upper part of the water storage tank are provided with the second brackets;

the solar panel is connected between the top ends of the two second brackets and is connected with the water storage tank;

the solar panel is provided with a pipeline which is connected with the water storage tank;

the middle part inside the water storage tank is provided with a heating pipe which is connected with a pipeline;

the water outlet mechanism is arranged on the water storage tank;

the swinging mechanism is arranged in the water storage tank.

Further, the water outlet mechanism includes:

round tubes are arranged at the lower part of the water storage tank, and the number of the round tubes is six;

the six circular tubes are respectively provided with a hose;

the six hoses are respectively provided with a water outlet pipe;

sliding sleeves are arranged on two sides of the six circular tubes;

the first sliding rods are arranged on the twelve sliding sleeves in a sliding manner;

the blocking block is connected between the two first sliding rods on the same side and matched with the circular tube;

the twelve first sliding rods are respectively wound with the first springs, and two ends of each first spring are respectively connected with the sliding sleeve and the first sliding rod.

Further, the swing mechanism includes:

the storage tanks are arranged on two sides of the interior of the water storage tank;

the second slide bars are arranged on two sides of the interior of the water storage tank;

the lifting block is connected between the two second sliding rods in a sliding manner and is connected with the storage tank;

the second springs are wound on the two second slide bars, and two ends of each second spring are respectively connected with the second slide bars and the lifting blocks;

the water storage tank is internally provided with six third brackets;

the six blocking blocks are respectively provided with a supporting block;

the first swing rods are rotatably arranged on the six third brackets, and are connected with the supporting blocks in a sliding manner;

torsion springs are wound on two sides of the six third brackets, and two ends of each torsion spring are respectively connected with the third brackets and the first swing rod.

As a preferred embodiment of the present invention, the shielding mechanism includes:

the sliding rails are arranged on two sides of the solar panel;

the shielding plate is connected between the two sliding rails in a sliding manner;

the number of the third springs is two;

the two sides of the top of the water storage tank are provided with the fourth brackets;

the rotating block is rotationally connected between the two fourth brackets;

the two sides of the rotating block are wound with the fourth spring, and two ends of the fourth spring are respectively connected with the fourth bracket and the rotating block;

hollow tubes are arranged on two sides of the rotating block;

the sliding blocks are arranged on the two hollow pipes in a sliding mode, and the sliding blocks are connected with the shielding plates in a rotating mode.

As a preferred embodiment of the present invention, the pulling mechanism includes:

the two sides of the blocking block on the two sides of the middle part are provided with contact blocks;

the wedge-shaped rod is arranged in the water storage tank in a sliding manner and is matched with the contact block;

the wedge-shaped rod is wound with four fifth springs, and two ends of each fifth spring are respectively connected with the water storage tank and the wedge-shaped rod;

the middle of the top of the wedge-shaped rod is provided with a third sliding rod;

the upper part of the third sliding rod is rotatably provided with a second swinging rod;

the middle part of the rotating block is provided with a connecting block which is rotationally connected with the second swing rod.

As a preferred embodiment of the present invention, the pushing mechanism includes:

the two sides of the outer wall of the water storage tank are provided with two fourth slide bars;

the middle thread at the bottom of the water storage tank is provided with a threaded rod;

the bottom end of the threaded rod is provided with a handle;

the threaded rod is provided with a threaded seat in a threaded manner;

the sliding block is connected between the two fourth sliding rods on the same side in a sliding mode, the sliding block is connected with the threaded seat, and the sliding block is matched with the water outlet pipe.

As a preferred embodiment of the present invention, the measuring mechanism includes:

the degree rod is arranged in the water storage tank in a sliding manner;

the floating block is arranged at the top end of the degree rod;

and the sixth spring is wound on the degree rod, and two ends of the sixth spring are respectively connected with the degree rod and the floating block.

As a preferable technical scheme of the invention, the hose material is rubber.

The invention provides a waterproof and freezing rainwater collecting and irrigating device for municipal road greening. The beneficial effects are as follows:

1. according to the invention, the rainwater is sprayed on the grasslands, so that plants on the grasslands are irrigated, and the effect of irrigating the plants by the rainwater is realized;

2. according to the invention, the shielding plate moves leftwards to the upper part of the solar panel, so that the shielding plate covers the solar panel, and the effect of shielding the solar panel by the shielding plate is realized;

3. according to the invention, the third spring is stretched, the shielding plate moves leftwards to the upper part of the solar panel, and the shielding plate shields the solar panel, so that the effect of automatically shielding the solar panel by the shielding plate is realized;

4. according to the invention, the sliding block is driven to move upwards through the threaded seat, and the sliding block moves upwards to be in contact fit with the water outlet pipe, so that the water outlet pipe and the hose are in an inclined state, and the water outlet pipe adjusting effect is realized.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a water outlet mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the swing mechanism of the present invention.

Fig. 5 is a schematic perspective view of a shielding mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the pulling mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the measuring mechanism of the present invention.

The marks of the components in the drawings are as follows: 1. the first bracket, 2, the water storage tank, 3, the second bracket, 4, the solar panel, 5, the pipeline, 6, the heating pipe, 7, the water outlet mechanism, 71, the circular pipe, 72, the hose, 73, the water outlet pipe, 74, the sliding sleeve, 75, the blocking block, 76, the first sliding rod, 77, the first spring, 8, the swinging mechanism, 81, the storage tank, 82, the second sliding rod, 83, the second spring, 84, the lifting block, 85, the third bracket, 86, the supporting block, 87, the first swinging rod, 88, the torsion spring, 9, the shielding mechanism, 91, the sliding rail, 92, the third spring, 93, the shielding plate, 94, the fourth bracket, 95, the rotating block, 96, the fourth spring, 97, the hollow pipe, 98, the sliding block, 10, the pulling mechanism, 101, the contact block, 102, the wedge-shaped rod, 103, the fifth spring, 104, the third sliding rod, 105, the second swinging mechanism, 106, the connecting block, 11, the pushing mechanism, 111, the fourth sliding rod, 112, 113, the handle, 114, the screw seat, 115, the sliding block, the 12, the measuring mechanism, the sixth spring, the sliding rod, 122, the degree of the degree.

Detailed Description

The present invention 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 invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the utility model provides a watering device is collected with rainwater that can freeze waterproof to municipal road afforestation, including first support 1, storage water tank 2, second support 3, solar panel 4, pipeline 5, heating pipe 6, go out water mechanism 7 and swing mechanism 8, be equipped with storage water tank 2 on the first support 1, both sides all are equipped with second support 3 around storage water tank 2 upper portion, be connected with solar panel 4 between two second support 3 tops, solar panel 4 is connected with storage water tank 2, be equipped with pipeline 5 on the solar panel 4, pipeline 5 is connected with storage water tank 2, be equipped with heating pipe 6 in the middle of the storage water tank 2 is inside, heating pipe 6 is connected with pipeline 5, be equipped with out water mechanism 7 on the storage water tank 2, storage water tank 2 is inside to be equipped with swing mechanism 8.

The water outlet mechanism 7 comprises round tubes 71, flexible tubes 72, water outlet tubes 73, sliding sleeves 74, blocking blocks 75, first sliding rods 76 and first springs 77, the round tubes 71 are arranged at the lower portion of the water storage tank 2, the number of the round tubes 71 is six, the flexible tubes 72 are arranged on the six round tubes 71, the water outlet tubes 73 are arranged on the six flexible tubes 72, the sliding sleeves 74 are arranged on the left side and the right side of the six round tubes 71, the first sliding rods 76 are arranged on the twelve sliding sleeves 74 in a sliding mode, the blocking blocks 75 are connected between the two first sliding rods 76 on the same side, the blocking blocks 75 are matched with the round tubes 71, the first springs 77 are wound on the twelve first sliding rods 76, and two ends of each first spring 77 are connected with the corresponding sliding sleeves 74 and the corresponding first sliding rods 76.

The swing mechanism 8 comprises a storage tank 81, second slide bars 82, second springs 83, lifting blocks 84, third supports 85, supporting blocks 86, first swing rods 87 and torsion springs 88, wherein the storage tank 81 is arranged on the front side and the rear side of the interior of the water storage tank 2, the second slide bars 82 are arranged on the left side and the right side of the interior of the water storage tank 2, the lifting blocks 84 are connected with the storage tank 81 in a sliding mode between the two second slide bars 82, the second springs 83 are wound on the two second slide bars 82, two ends of each second spring 83 are connected with the second slide bars 82 and the lifting blocks 84 respectively, the third supports 85 are arranged in the interior of the water storage tank 2, the number of the third supports 85 is six, the supporting blocks 86 are arranged on the six blocking blocks 75, the first swing rods 87 are arranged on the six third supports 85 in a rotating mode, the first swing rods 87 are connected with the supporting blocks 86 in a sliding mode, the torsion springs 88 are wound on the left side and the right side of the six third supports 85, and two ends of each torsion spring 88 are connected with the third supports 85 and the first swing rods 87 respectively.

The solar energy plate is characterized by further comprising a shielding mechanism 9, wherein the shielding mechanism 9 comprises slide rails 91, third springs 92, shielding plates 93, fourth supports 94, rotating blocks 95, fourth springs 96, hollow pipes 97 and sliding blocks 98, the front side and the rear side of the solar energy plate 4 are respectively provided with the slide rails 91, the shielding plates 93 are connected between the two slide rails 91 in a sliding mode, the third springs 92 are connected between the shielding plates 93 and the slide rails 91, the number of the third springs 92 is two, the front side and the rear side of the top of the water storage tank 2 are respectively provided with the fourth supports 94, rotating blocks 95 are respectively connected between the two fourth supports 94 in a rotating mode, the front side and the rear side of each rotating block 95 are respectively connected with the fourth supports 94 and the rotating blocks 95, the front side and the rear side of each rotating block 95 are respectively provided with the hollow pipes 97, the two hollow pipes 97 are respectively provided with the sliding blocks 98 in a sliding mode, and the sliding blocks 98 are respectively connected with the shielding plates 93 in a rotating mode.

The water storage tank is characterized by further comprising a pulling mechanism 10, wherein the pulling mechanism 10 comprises a contact block 101, a wedge-shaped rod 102, fifth springs 103, a third sliding rod 104, a second swinging rod 105 and a connecting block 106, the left side and the right side of the blocking block 75 at the front side and the rear side of the middle are respectively provided with the contact block 101, the wedge-shaped rod 102 is arranged in the water storage tank 2 in a sliding mode, the wedge-shaped rod 102 is matched with the contact block 101, four fifth springs 103 are wound on the wedge-shaped rod 102, two ends of each fifth spring 103 are respectively connected with the water storage tank 2 and the wedge-shaped rod 102, the middle of the top of each wedge-shaped rod 102 is provided with the third sliding rod 104, the upper part of the third sliding rod 104 is rotatably provided with the second swinging rod 105, the middle of the rotating block 95 is provided with the connecting block 106, and the connecting block 106 is rotatably connected with the second swinging rod 105.

The water storage tank is characterized by further comprising a pushing mechanism 11, wherein the pushing mechanism 11 comprises a fourth slide bar 111, a threaded rod 112, a handle 113, a thread seat 114 and a sliding block 115, two fourth slide bars 111 are respectively arranged on the front side and the rear side of the outer wall of the water storage tank 2, the threaded rod 112 is arranged in the middle of the bottom of the water storage tank 2 in a threaded mode, the handle 113 is arranged at the bottom end of the threaded rod 112, the thread seat 114 is arranged on the threaded rod 112 in a threaded mode, the sliding block 115 is connected between the two fourth slide bars 111 on the same side in a sliding mode, the sliding block 115 is connected with the thread seat 114, and the sliding block 115 is matched with the water outlet pipe 73.

The measuring mechanism 12 comprises a degree rod 121, a floating block 122 and a sixth spring 123, wherein the degree rod 121 is arranged on the right side of the inside of the water storage tank 2 in a sliding mode, the floating block 122 is arranged at the top end of the degree rod 121, the sixth spring 123 is wound on the degree rod 121, and two ends of the sixth spring 123 are respectively connected with the degree rod 121 and the floating block 122.

The working principle of the waterproof freezing rainwater collecting and irrigating device for municipal road greening is that when people want to collect and irrigate rainwater, firstly, when frozen rainwater exists in the water storage tank 2, the solar panel 4 absorbs sunlight through irradiation of the sunlight, light energy absorbed by the solar panel 4 is transmitted into the heating pipe 6 through the pipeline 5, the heating pipe 6 generates heat, the frozen rainwater is melted by the heat emitted by the heating pipe 6, in the process that the heating pipe 6 heats the frozen rainwater, the heat emitted by the heating pipe 6 drives the swinging mechanism 8 to operate, the swinging mechanism 8 moves upwards to be separated from the water outlet mechanism 7, the rainwater in the water storage tank 2 is sprayed out through the water outlet mechanism 7 and is irrigated on plants on the grasslands, after the solar panel 4 stops absorbing the sunlight, the heating pipe 6 stops emitting heat, the swinging mechanism 8 moves downwards to the original position, and the swinging mechanism 8 stops the water outlet mechanism 7, so that the rainwater cannot be sprayed out through the water outlet mechanism 7.

After the heating pipe 6 heats the frozen rainwater, a user pulls the blocking block 75 inwards, the blocking block 75 drives the first sliding rod 76 to move inwards, the first spring 77 is compressed, after the blocking block 75 moves inwards to be separated from a circular pipe 71 channel, the rainwater in the water storage tank 2 flows into the hose 72 through the circular pipe 71, the rainwater flows into the water outlet pipe 73 through the hose 72 and is sprayed out through the water outlet pipe 73, the rainwater is sprayed on the grassland, so that the plants on the grassland are irrigated, the effect of irrigating the plants is achieved, after the plant irrigating is finished, the user releases the blocking block 75, the first spring 77 is reset, the blocking block 75 and the first sliding rod 76 are driven to move outwards and back to contact with the circular pipe 71, the blocking block 75 blocks the circular pipe 71, and the rainwater cannot flow out through the circular pipe 71.

After the inert gas is injected into the storage tank 81 by a user, after the heating pipe 6 emits heat, the heat stimulates the inert gas, so that the inert gas becomes active, thereby driving the storage tank 81 to extend upwards, the storage tank 81 drives the lifting block 84 to move upwards, the second spring 83 is compressed, the lifting block 84 moves upwards to be in contact with the first swinging rod 87, thereby driving the first swinging rod 87 to swing, the torsion spring 88 is torsionally deformed, the first swinging rod 87 drives the supporting block 86 to move inwards, the supporting block 86 drives the blocking block 75 and the first sliding rod 76 to move inwards, the first spring 77 is compressed, the blocking block 75 opens the circular pipe 71 channel, rainwater flows out through the circular pipe 71 channel, the effect that the supporting block 86 assists the blocking block 75 to open the circular pipe 71 channel is achieved, after the heat gradually disappears, the inert gas becomes calm, the storage tank 81 is shortened downwards, the second spring 83 drives the lifting block 84 to move downwards, the second spring 83 is reset, the lifting block 84 moves downwards to be separated from the first swinging rod 87, the torsion spring 88 is reset, thereby driving the first swinging rod 87 to swing in reverse direction, the first spring 77 is reset, the first spring 77 is driven to move inwards, the blocking block 77 is driven to reset, the blocking block 75 is driven to move outwards, the circular pipe 75 is reset to the circular pipe 75 is closed, and the circular pipe 75 is closed outwards, and the blocking 75 is closed to be in place and the position is closed to be closed to the outside.

In order to prevent the solar panel 4 from being drenched by rainwater, a user rotates the rotating block 95, the fourth spring 96 is deformed in a torsion mode, the rotating block 95 drives the hollow tube 97 to rotate, the hollow tube 97 drives the sliding block 98 to rotate, the sliding block 98 drives the shielding plate 93 to move leftwards, the third spring 92 is stretched, the shielding plate 93 moves leftwards to the upper side of the solar panel 4, the shielding plate 93 covers the solar panel 4, the effect that the shielding plate 93 shields the solar panel 4 is achieved, when the solar panel 4 wants to absorb sunlight, the user loosens the rotating block 95, the fourth spring 96 resets, the rotating block 95, the hollow tube 97 and the sliding block 98 are driven to rotate reversely, the sliding block 98 drives the shielding plate 93 to move rightwards, and the third spring 92 resets.

When the blocking block 75 moves inwards, the blocking block 75 drives the contact block 101 to move inwards, the contact block 101 moves inwards to be in contact with the wedge-shaped rod 102, so that the wedge-shaped rod 102 is driven to move downwards, the fifth spring 103 is stretched, the wedge-shaped rod 102 drives the third sliding rod 104 to move downwards, the third sliding rod 104 drives the second swing rod 105 to swing downwards, the second swing rod 105 drives the connecting block 106 to rotate, the connecting block 106 drives the rotating block 95 to rotate, the fourth spring 96 is in torsion deformation, the rotating block 95 drives the hollow tube 97 and the sliding block 98 to rotate, the sliding block 98 drives the shielding plate 93 to move leftwards, the third spring 92 is stretched, the shielding plate 93 moves leftwards to the upper side of the solar panel 4, the shielding plate 93 shields the solar panel 4 automatically, when the blocking block 75 moves outwards and away from the wedge-shaped rod 102, the fifth spring 103 resets, the wedge-shaped rod 102 and the third sliding rod 104 are driven to move upwards, the third sliding rod 104 drives the second swing rod 105 to swing upwards, the fourth spring 96 resets, the sliding rod 98 and the sliding block 98 is driven to rotate rightwards, and the sliding rod 98 resets, and the sliding block 98 returns to the sliding rod 98 is driven to rotate reversely, and the sliding block 98 moves rightwards.

In order to enable rainwater to be sprayed farther, a user rotates the handle 113, the handle 113 drives the threaded rod 112 to rotate, the threaded rod 112 drives the threaded seat 114 to move upwards, the threaded seat 114 drives the sliding block 115 to move upwards, the sliding block 115 moves upwards to be in contact with the water outlet pipe 73, so that the water outlet pipe 73 and the hose 72 are in an inclined state, the water outlet pipe 73 adjusting effect is achieved, when the user wants to adjust the water outlet pipe 73 to be restored to the original position, the user reversely rotates the handle 113, the handle 113 drives the threaded rod 112 to reversely rotate, the threaded rod 112 drives the threaded seat 114 to move downwards, the threaded seat 114 drives the sliding block 115 to move downwards, and the sliding block 115 moves downwards to be separated from the water outlet pipe 73, so that the water outlet pipe 73 and the hose 72 are restored to the original position.

When the rainwater in the water storage tank 2 increases, the rainwater drives the floating block 122 to move upwards, the floating block 122 drives the degree rod 121 to move upwards, the sixth spring 123 is stretched, a user can read the water level of the rainwater according to the number on the degree rod 121, the water level effect of the rainwater is achieved, when the rainwater in the water storage tank 2 decreases, the rainwater breaks away from the floating block 122, the sixth spring 123 resets, and accordingly the degree rod 121 and the floating block 122 are driven to move downwards to the original position.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. Waterproof and freezing rainwater collecting and irrigating device for municipal road greening is characterized by comprising: the water storage device comprises a first bracket (1), wherein a water storage tank (2) is arranged on the first bracket (1);

the two sides of the upper part of the water storage tank (2) are provided with the second brackets (3);

the solar panel (4) is connected between the top ends of the two second brackets (3), and the solar panel (4) is connected with the water storage tank (2);

the solar panel (4) is provided with a pipeline (5), and the pipeline (5) is connected with the water storage tank (2);

the heating pipe (6) is arranged in the middle of the interior of the water storage tank (2), and the heating pipe (6) is connected with the pipeline (5);

a water outlet mechanism (7), wherein the water storage tank (2) is provided with the water outlet mechanism (7);

the swinging mechanism (8) is arranged in the water storage tank (2), and the swinging mechanism (8) is arranged in the water storage tank;

the water outlet mechanism (7) comprises:

the lower part of the water storage tank (2) is provided with round pipes (71), and the number of the round pipes (71) is six;

the hose (72) is arranged on the six circular tubes (71);

the six hoses (72) are respectively provided with a water outlet pipe (73);

sliding sleeves (74), and sliding sleeves (74) are arranged on two sides of the six circular tubes (71);

the first sliding rods (76) are arranged on the twelve sliding sleeves (74) in a sliding mode;

the blocking blocks (75) are connected between the two first sliding rods (76) on the same side, and the blocking blocks (75) are matched with the circular tubes (71);

the first springs (77) are wound on the twelve first sliding rods (76), and two ends of each first spring (77) are respectively connected with the sliding sleeve (74) and the first sliding rod (76);

the swing mechanism (8) includes:

the storage tanks (81) are arranged on two sides of the interior of the water storage tank (2);

the second sliding rod (82) is arranged at two sides of the interior of the water storage tank (2);

the lifting block (84) is connected between the two second sliding rods (82) in a sliding manner, the lifting block (84) is connected with the storage tank (81);

the second springs (83) are wound on the two second sliding rods (82), and two ends of each second spring (83) are respectively connected with the second sliding rod (82) and the lifting block (84);

the water storage tank (2) is internally provided with the third brackets (85), and the number of the third brackets (85) is six;

the six blocking blocks (75) are respectively provided with a supporting block (86);

the first swing rods (87) are rotatably arranged on the six third brackets (85), and the first swing rods (87) are slidably connected with the supporting blocks (86);

the torsion springs (88) are wound on two sides of the six third brackets (85), and two ends of each torsion spring (88) are respectively connected with the third brackets (85) and the first swing rod (87);

still including shielding mechanism (9), shielding mechanism (9) include:

the sliding rails (91) are arranged on two sides of the solar panel (4);

the shielding plate (93) is connected between the two sliding rails (91) in a sliding manner, and the shielding plate (93) is connected between the two sliding rails;

the third springs (92), the third springs (92) are connected between the shielding plate (93) and the sliding rail (91), and the number of the third springs (92) is two;

the fourth brackets (94) are arranged on two sides of the top of the water storage tank (2);

the rotating block (95) is rotatably connected between the two fourth brackets (94), and the rotating block (95) is rotatably connected between the two fourth brackets;

the two sides of the rotating block (95) are wound with the fourth spring (96), and two ends of the fourth spring (96) are respectively connected with the fourth bracket (94) and the rotating block (95);

a hollow pipe (97), the two sides of the rotating block (95) are provided with hollow pipes (97);

the sliding blocks (98) are arranged on the two hollow pipes (97) in a sliding mode, and the sliding blocks (98) are connected with the shielding plate (93) in a rotating mode;

the utility model also comprises a pulling mechanism (10), wherein the pulling mechanism (10) comprises:

the two sides of the blocking block (75) at the two sides of the middle part are provided with the contact blocks (101);

the wedge-shaped rod (102) is arranged in the water storage tank (2) in a sliding mode, the wedge-shaped rod (102) is matched with the contact block (101);

the wedge-shaped rod (102) is wound with four fifth springs (103), and two ends of each fifth spring (103) are respectively connected with the water storage tank (2) and the wedge-shaped rod (102);

the third sliding rod (104) is arranged in the middle of the top of the wedge-shaped rod (102);

the second swing rod (105) is rotatably arranged at the upper part of the third slide bar (104);

the connecting block (106) is arranged in the middle of the rotating block (95), and the connecting block (106) is rotationally connected with the second swing rod (105);

after the inert gas is injected into the storage tank (81), when the heating pipe (6) emits heat, the heat stimulates the inert gas, so that the inert gas becomes active, the storage tank (81) is driven to extend upwards, and the storage tank (81) drives the lifting block (84) to move upwards.

2. A rainwater collection and watering device capable of preventing water freezing for municipal road greening according to claim 1, further comprising a pushing mechanism (11), wherein the pushing mechanism (11) comprises:

the two sides of the outer wall of the water storage tank (2) are provided with two fourth slide bars (111);

the middle thread at the bottom of the water storage tank (2) is provided with a threaded rod (112);

a handle (113), wherein the bottom end of the threaded rod (112) is provided with the handle (113);

a thread seat (114), wherein the thread seat (114) is arranged on the threaded rod (112) in a threaded manner;

the sliding block (115) is connected between the two fourth sliding rods (111) on the same side in a sliding mode, the sliding block (115) is connected with the threaded seat (114), and the sliding block (115) is matched with the water outlet pipe (73).

3. A water-resistant, freeze-able rainwater collection watering device for municipal road greening according to claim 2, further comprising a measuring means (12), the measuring means (12) comprising:

the degree rod (121) is arranged in the water storage tank (2) in a sliding manner, and the degree rod (121) is arranged in the water storage tank;

a floating block (122), wherein the top end of the degree rod (121) is provided with the floating block (122);

and the sixth spring (123) is wound on the degree rod (121), and two ends of the sixth spring (123) are respectively connected with the degree rod (121) and the floating block (122).

4. A rainwater collecting and irrigating device capable of preventing water freezing for municipal road greening according to claim 1, wherein the hose (72) is made of rubber.