CN109883070B - Solar device - Google Patents

Abstract

The invention relates to the field of solar energy, in particular to a solar device, which can change the use angle of the solar device through a solar panel fixing device; the solar device can be cleaned through the spray head device; the flow control box body can control the water flow of the nozzle device; the water tank can filter the water used for cleaning. The solar water heater comprises a solar panel fixing device, a spray head device, a flow control box body, a communicating pipe, a water tank and a support, wherein two clamping bodies are not connected with two one-way gears at the same time, a manual rotating rod is pushed manually, and when the clamping body at the left end of the manual rotating rod is matched with the one-way gear at the left end, the clamping body at the right end of the manual rotating rod is not matched with the one-way gear at the right end; the clamping body can be conveniently connected between the manual rotating rod and the one-way gear; the plug moves downwards under the action of water pressure, and the side wall rod is separated from the closed groove under the pushing of the plug connecting rod connected between the plug and the side wall rod, so that water flows out conveniently.

Description

Solar device

Technical Field

The invention relates to the field of solar energy, in particular to a solar device.

Background

For example, patent No. cn201520028990.x relates to a solar device, which comprises an emptying device, wherein the emptying device is installed on a water tank, the water tank is provided with a water conveying pipe for conveying water, and the water conveying pipe comprises an emptying pipe, an emptying check valve, a fixing ring, a water inlet pipe, a water inlet check valve, a guide pipe and a water outlet pipe; the water inlet pipe is arranged in the inner cavity of the emptying pipe, the bottom end of the water inlet pipe penetrates through the through hole and is fixed on the fixing ring, the water inlet check valve is installed in the inner cavity of the water inlet pipe, two ends of the guide pipe are connected with the water inlet pipe and the water tank, the guide pipe and the wall of the emptying pipe are sealed, the conduction direction of the water inlet check valve is the direction from the inner cavity of the water inlet pipe to the inner cavity of the water tank, and the water outlet pipe is connected between the water tank and the water delivery pipe.

Disclosure of Invention

The invention aims to provide a solar device, which can change the use angle of the solar device through a solar panel fixing device; the solar device can be cleaned through the spray head device; the flow control box body can control the water flow of the nozzle device; the water tank can filter the water used for cleaning.

The purpose of the invention is realized by the following technical scheme:

a solar device comprises a solar panel fixing device, a spray head device, a flow control box body, a communicating pipe, a water tank and a support, wherein the solar panel fixing device comprises a bottom plate, two fixing plates, an adjusting device, an adjusting support, a manual rotating rod, a rotating rod sleeve spring, two outer end transmission bevel gears, two one-way driving gears, a one-way sliding rod, a sliding rod sleeve spring, a handle, a rotating groove, two clamping bodies, two limiting plates, a right end limiting plate, an installation groove, a first supporting rod, a second supporting rod, a third supporting rod, a fourth supporting rod, a fifth supporting rod, a sixth supporting rod, a seventh supporting rod, a first transmission straight gear, a two-way threaded rod, a first transmission bevel gear, a second transmission straight gear, a first transmission bevel gear, a second transmission bevel gear, a fourth transmission bevel gear, a fifth transmission bevel gear, a third transmission bevel gear, a seventh transmission bevel gear, an, Eleven transmission bevel teeth, four transmission rods, five transmission rods, a transverse clamping rod, a clamping rod push spring, a vertical sliding rod, a transverse sliding rod and a transverse sleeve spring, wherein a manual rotating rod is rotatably connected with an adjusting bracket, two outer end transmission bevel teeth are respectively and fixedly connected with two one-way gears, two one-way driving gears are both in clearance fit connection with the manual rotating rod, the one-way sliding rod is in sliding connection with the one-way driving gear, a sliding rod sleeve spring is sleeved and connected with the one-way sliding rod, the one-way sliding rod is in clearance fit connection with the one-way gear, a handle is fixedly connected at the left end of the manual rotating rod, a rotating rod sleeve spring is sleeved and connected at the middle end of the manual rotating rod, a rotating groove is arranged at the left end of the manual rotating rod, two clamping bodies are both fixedly connected on the manual rotating rod, two limiting plates are fixedly connected at the middle end of the manual rotating rod, a right end of the manual rotating rod is fixedly connected at, the mounting groove is arranged at the right end of the bottom plate, two of a first support rod, a second support rod, a third support rod, a fourth support rod, a fifth support rod, a sixth support rod and a seventh support rod are arranged, the first support rod, the second support rod, the third support rod, the fourth support rod, the fifth support rod, the sixth support rod and the seventh support rod are fixedly connected to the bottom plate, a first transmission straight tooth is fixedly connected with a two-way threaded rod, two ends of the two-way threaded rod are rotatably connected between the seventh support rods, a second transmission straight tooth is in meshing transmission with the first transmission straight tooth, the second transmission straight tooth is fixedly connected to a first transmission rod, a first transmission bevel tooth and a first transmission bevel tooth are fixedly connected to the first transmission rod, a first transmission bevel tooth is rotatably connected between the fifth support rods, a third transmission bevel tooth and a fourth transmission bevel tooth are fixedly connected to the second transmission rod, the second transmission bevel tooth is rotatably connected to the fourth support rod at the front end, a ninth transmission bevel tooth, a fifth transmission bevel gear and a sixth transmission bevel gear are fixedly connected with a third transmission rod, the third transmission rod is rotatably connected between a second support rod and a third support rod at the front end, a seventh transmission bevel gear and an eighth transmission bevel gear are fixedly connected with a fifth transmission rod, the fifth transmission rod is rotatably connected between a second support rod and a third support rod at the rear end, a transverse clamping rod is slidably connected with the bottom plate, a clamping rod push spring is sleeved with the transverse clamping rod, a vertical sliding rod is slidably connected with the transverse sliding rod, a transverse sleeve spring is sleeved on the transverse sliding rod, the vertical sliding rod is clamped with the transverse clamping rod, and an adjusting bracket is fixedly connected in the mounting groove;

the sprayer device comprises a sprayer connecting pipe, a Y-shaped support, a plug connecting rod, a side wall rod, a plug pushing spring, a closed groove, a sprayer sliding groove and a middle end sliding groove, wherein the sprayer connecting pipe is connected with the Y-shaped support in a sliding mode, the plug and the side wall rod are connected in a hinged mode through the plug connecting rod, the side wall rod is hinged to the side wall of the closed groove, the plug pushing spring is arranged in the sprayer sliding groove, the plug is connected with the sprayer sliding groove in a sliding mode, the lower end of the Y-shaped support is connected with the middle end sliding groove in a sliding mode, and a spring is arranged;

the flow control box body comprises a box body, an outer frame of an elastic compensation device, a tension spring, a first push spring, a pull plug, a floater, a first floater push spring, a second floater push spring, a fourth push spring, a clamping push rod, a second push spring, a driving rod, a push spring of the driving rod, a clamping rod, a first sliding cavity, a first sliding chute, a second sliding cavity, a third sliding cavity, a scale, a first sliding hole, a fourth sliding cavity, a first two communicating holes, a second two communicating holes, a communicating cavity, a fifth sliding cavity, a side wall communicating hole, a manual threaded rod, a slider at the inner end, a pull rod and a third push spring, wherein the first sliding cavity is arranged at the upper end of the box body, the first sliding groove is arranged on the side wall of the first sliding cavity, the second sliding cavity is arranged at the middle end of the upper end face of the box body, the third sliding hole is arranged at the upper end of the box body, the scale is fixedly connected with the box body, the fourth sliding cavity is arranged at the lower side of the inner end face of the box body, the communicating cavity is arranged at the lower side of the outer end of the box body, the two communicating holes II are communicated with the communicating cavity, the sliding cavity V is arranged at the lower side of the middle end of the inner end surface of the box body, the side wall communicating hole is arranged at the right end of the outer wall of the box body, the outer frame of the elastic compensation device is connected to the inner end of the sliding cavity I in a sliding way, the manual threaded rod is connected with the outer frame of the elastic compensation device in a rotating way, the inner end slider is connected with the outer frame of the elastic compensation device in a sliding way, the inner end slider is connected with the manual threaded rod through threads, the pull rod is fixedly connected with the inner end slider, the pull rod is connected with the outer frame of the elastic compensation device in a sliding way, the pull rod is connected with the sliding groove I in a sliding way, the upper end of the tension spring is fixedly connected with the pull rod, the lower end of the tension spring is fixedly connected with the pull plug, the clamping push rod is connected with the second sliding cavity in a sliding mode, the fourth pushing spring and the second pushing spring are arranged in the second sliding cavity, the clamping push rod is arranged between the fourth pushing spring and the second pushing spring, the second pushing spring is arranged at the upper end of a floater, the middle end of the driving rod is rotatably connected with the box body, the driving rod is hinged with the floater in a sliding mode, the pushing spring of the driving rod is arranged at the inner end of the driving rod, the clamping rod is connected with the third sliding cavity in a sliding mode, the third pushing spring is arranged between the clamping rod and the third sliding cavity, the lower end of the spray head connecting pipe is fixedly connected to the lower end of the box body, and;

the communicating pipe comprises a communicating pipe body, a first pushing rack rod, middle-end rotating teeth, a transmission rack rod, a pusher, an inner-end pushing spring, a middle-end hinged rod, an inner-end sliding cavity and a communicating pipe, wherein the middle-end hinged rod is fixedly connected to the inner end of the communicating pipe body, the inner-end sliding cavity is arranged at the inner end of the communicating pipe body, the communicating pipe is fixedly connected to the right end of the communicating pipe body, the first pushing rack rod is in sliding hinge connection with the middle-end hinged rod, the middle-end rotating teeth are in rotating connection with the middle-end hinged rod, the first pushing rack rod is in meshing transmission with the middle-end rotating teeth, the right end of the transmission rack rod is in sliding connection with the inner-end sliding cavity, the pusher is in sliding connection with the inner end of the communicating pipe body, the inner-end pushing spring is in sliding connection between the transmission rack rod and the pusher, the first pushing rack rod is in hinge connection, and the communicating pipe body is communicated with the side wall communicating hole;

the water tank comprises a water tank body, a closed push rod, a filtering outer frame, a first accommodating outer frame, a second accommodating outer frame, a middle-end communicating pipe, a first communicating cavity, a tank threaded rod, an upper-side closed rod, an upper-side sliding groove, a lower-side communicating pipe, a side wall scale, a buoy sliding rod, a hinged support, a hinged pushing spring, a rotating tooth and a hinged terminal, wherein the upper-side sliding groove is arranged at the middle end of the upper end of the water tank body, the lower-side communicating pipe is arranged at the lower end of the water tank body, the side wall scale is fixedly connected with the water tank body, the buoy is in sliding connection with the buoy sliding rod, the buoy sliding rod is fixedly connected with the water tank body, the hinged support is in sliding connection with the water tank body, the hinged pushing spring is in sleeve connection with the hinged support, the hinged pushing spring is fixedly connected, the closed push rod is in clearance fit connection with the rotating teeth, the filtering outer frame is fixedly connected with the water tank body, the accommodating outer frame I is in sliding connection with the water tank body, the accommodating outer frame II is in sliding connection with the water tank body, the middle-end communicating pipe is fixedly connected between the accommodating outer frame I and the accommodating outer frame II, the communicating cavity I is arranged at the inner end of the middle-end communicating pipe, the communicating cavity I is communicated between the accommodating outer frame I and the accommodating outer frame II, the upper end of a box threaded rod is rotatably connected with the water tank body, the lower end of the box threaded rod is rotatably connected with the filtering outer frame, the box threaded rod is in threaded connection with the accommodating outer frame I and the accommodating outer frame II, the communicating;

the support comprises a support body, a first push rod hinge rod, a second push rod, a first push rod push spring, a third push rod, a second push rod push spring, a pulling rod slide rod, a pulling rod push spring, a first side wall support rod, a second side wall support rod, two rotating hinge rods, a hinge slide rod, a first hinge push spring, a hinge slider, a hinge connection slider, a land wheel hinge rod, a land wheel push spring, three anti-slip rods, an anti-slip rod connecting rod, an anti-slip rod push spring, three rectangular chutes, a threaded rod, a first inner end slider, a first inner end slide rod and a first inner end hinge slider, wherein the first push rod is in sliding connection with the support body, the first push rod hinge rod is in hinged connection with the first push rod, the hinge rod is in hinged connection with; the first inner end slider is connected with the inner end sliding rod in a sliding manner, the inner end sliding rod is fixedly connected with the bracket body, the second push rod is connected with the bracket body in a sliding manner, the first push rod push spring is arranged between the second push rod and the bracket body, the third push rod is connected with the bracket body in a sliding manner, the second push rod push spring is arranged between the third push rod and the bracket body, the pulling rod is hinged with the bracket body in a sliding manner, the pulling rod push spring is sleeved with the pulling rod sliding rod, the first side wall support rod and the second side wall support rod are respectively hinged with the bracket body, the second side wall support rod is hinged with the pulling rod, the first side wall support rod is hinged with the rotary hinge rod, the hinged slide rod is fixedly connected with the rotary hinge rod, the first hinged push spring is sleeved with the hinged slide rod, the hinged slider is connected with the hinged slide rod in a sliding manner, the hinged connection slider is respectively hinged with the two rotary, the ground wheel push spring is arranged at the inner end of the ground wheel hinge rod, the ground wheel is rotatably connected with the inner hinged slider, the three rectangular sliding grooves are uniformly formed in the ground wheel, the three anti-slip rods are respectively in sliding connection with the three rectangular sliding grooves, the anti-slip rod connecting rod is connected between the two anti-slip rods, the anti-slip rod push spring is arranged at the inner end of the anti-slip rod connecting rod, the bottom plate is fixedly connected with the first push rod, the box body is fixedly connected with the second push rod, and the water tank body is fixedly connected with the third push rod.

As a further optimization of the technical solution, the two clamping bodies and the two one-way gears are not simultaneously connected.

As a further optimization of the technical scheme, according to the solar device, the bidirectional threaded rod is provided with the thread lines with opposite rotation directions.

As a further optimization of the technical scheme, in the solar device, a push spring is arranged in the middle-end sliding groove.

The solar device has the beneficial effects that:

according to the solar device, the two clamping bodies are not connected with the two one-way gears at the same time, the manual rotating rod is pushed manually, and when the clamping body at the left end of the manual rotating rod is matched with the one-way gear at the left end, the clamping body at the right end of the manual rotating rod is not matched with the one-way gear at the right end; the clamping body can be conveniently connected between the manual rotating rod and the one-way gear; the plug moves downwards under the action of water pressure, and the side wall rod is separated from the closed groove under the pushing action of the plug connecting rod connected between the plug and the side wall rod, so that water flows out conveniently; and manually rotating the manual threaded rod, and connecting the manual threaded rod with the inner end slider through threads to ensure that the inner end slider slides in the first sliding cavity and change the use position of the inner end slider in the first sliding cavity.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of a solar power device according to the present invention;

FIG. 2 is a schematic view of a solar panel fastening device according to the present invention;

FIG. 3 is a schematic structural view of a solar panel fastening device according to the present invention;

FIG. 4 is a third schematic structural view of a solar panel fastening device of the present invention;

FIG. 5 is a fourth schematic structural view of a solar panel securing apparatus according to the present invention;

FIG. 6 is a fifth schematic view of the solar panel fastening apparatus of the present invention;

FIG. 7 is a sixth schematic view of the solar panel securing apparatus of the present invention;

FIG. 8 is a seventh structural view of the solar panel securing apparatus of the present invention;

FIG. 9 is a first schematic structural view of a showerhead assembly of the present invention;

FIG. 10 is a second schematic structural view of a showerhead assembly of the present invention;

FIG. 11 is a third schematic structural view of a showerhead assembly of the present invention;

FIG. 12 is a fourth schematic structural view of a showerhead assembly of the present invention;

FIG. 13 is a first schematic structural view of a flow control box of the present invention;

FIG. 14 is a second schematic structural view of a flow control box of the present invention;

FIG. 15 is a third schematic structural view of a flow control housing of the present invention;

FIG. 16 is a fourth schematic structural view of the flow control housing of the present invention;

FIG. 17 is a first schematic view of a communication tube according to the present invention;

FIG. 18 is a second schematic view of the communication tube structure of the present invention;

FIG. 19 is a first schematic view of the water tank of the present invention;

FIG. 20 is a schematic view of the structure of the water tank of the present invention;

FIG. 21 is a schematic view of the structure of the water tank of the present invention;

FIG. 22 is a first schematic view of the stent structure of the present invention;

FIG. 23 is a second schematic structural view of the stent of the present invention;

FIG. 24 is a cross-sectional view of the stent A-A of the present invention;

FIG. 25 is a third schematic structural view of the stent of the present invention;

FIG. 26 is a fourth schematic structural view of the stent of the present invention;

fig. 27 is a fifth structural view of the stent of the present invention.

In the figure: a solar panel securing device 1; a bottom plate 1-1; a fixing plate 1-2; adjusting devices 1-3; adjusting the support 1-4; 1-5 of a manual rotating rod; 1-6 parts of a rotating rod sleeve spring; the outer end drives the bevel gear 1-7; 1-8 parts of a one-way gear; one-way driving gears 1-9; 1-10 of a one-way sliding rod; a slide bar is sleeved with a spring 1-11; 1-12 of a handle; 1-13 of a rotary groove; card body 1-14; 1-15 parts of a limiting plate; a right limiting plate 1-16; mounting grooves 1-17; 1-18 of a strut I; 1-19 parts of a second strut; 1-20 parts of a support rod III; 1-21 parts of strut IV; five support rods 1-22; six support rods 1-23; 1-24 parts of strut seven; 1-25 of a transmission straight tooth I; 1-26 of a bidirectional threaded rod; 1-27 parts of a first transmission bevel gear; 1-28 of a transmission straight tooth II; a first transmission rod 1-29; 1-30 parts of transmission bevel gear III; a second transmission rod 1-31; four transmission bevel teeth 1-32; five transmission bevel teeth 1 to 33; a third transmission rod 1-34; six transmission bevel teeth 1-35; seven transmission bevel teeth 1-36; eight 1-37 of transmission bevel gear; nine 1-38 of transmission bevel teeth; ten 1-39 parts of transmission bevel gear; eleven transmission bevel teeth 1-40; a transmission rod IV 1-41; a transmission rod V1-42; transverse clamping rods 1-43; a clamping rod push spring 1-44; 1-45 parts of a vertical sliding rod; transverse sliding rods 1-46; transverse wrap springs 1-47; a nozzle device 2; 2-1 of a nozzle connecting pipe; 2-2 of a Y-shaped bracket; 2-3 of a plug; 2-4 of a plug connecting rod; 2-5 of side wall rods; plug push spring 2-6; closed grooves 2-7; 2-8 parts of a spray nozzle chute; 2-9 of a middle-end chute; a flow control box body 3; 3-1 of a box body; an elastic compensation device outer frame 3-2; 3-3 of a tension spring; 3-4 parts of a first push spring; 3-5 of a plug; 3-6 of a floater; 3-7 parts of a floater push spring; 3-8 parts of a floater push spring II; push spring four 3-9; clamping a push rod 3-10; 3-11 parts of a second push spring; a drive rod 3-12; a driving rod pushes a spring 3-13; 3-14 parts of a clamping rod; 3-15 parts of a sliding cavity I; 3-16 of the first chute; 3-17 parts of a sliding cavity II; 3-18 parts of a sliding cavity; 3-19 of a scale; 3-20 parts of a first sliding hole; sliding chamber four 3-21; a communication hole I3-22; communicating holes II 3-23; 3-24 of a communication cavity; 3-25 parts of a sliding cavity; sidewall communication holes 3 to 26; 3-27 parts of a manual threaded rod; inner end sliders 3-28; 3-29 of a pull rod; 3-30 of a push spring III; a communicating pipe 4; a communicating pipe body 4-1; pushing the rack rod I4-2; 4-3 of middle rotating teeth; 4-4 of a transmission rack rod; 4-5 of clippers; 4-6 of inner end push spring; a middle-end hinge rod 4-7; 4-8 inner end sliding cavities; 4-9 of a communicating pipeline; a water tank 5; a water tank body 5-1; closing the push rod 5-2; 5-3 of a filtering outer frame; accommodating the outer frame I5-4; a second accommodating frame 5-5; 5-6 middle end communicating pipes; the communication cavity I is 5-7; 5-8 parts of a box body threaded rod; 5-9 parts of upper side closing rod; 5-10 parts of upper side chutes; the lower communicating pipe 5-11; 5-12 of a side wall scale; 5-13 of buoys; 5-14 parts of buoy slide bar; 5-15 parts of hinged support; hinged push springs 5-16; 5-17 of rotating teeth; hinge terminals 5-18; a bracket 6; a stent body 6-1; a first push rod 6-2; a push rod hinge rod 6-3; 6-4 parts of a second push rod; the push rod pushes a spring I6-5; 6-6 parts of a third push rod; a push rod pushes a second spring 6-7; pulling a rod 6-8; pulling a rod slide bar 6-9; pulling a rod and pushing a spring 6-10; 6-11 of a side wall strut; 6-12 of a side wall strut II; rotating the hinge rods 6-13; hinged sliding bars 6-14; 6-15 parts of a hinged push spring; 6-16 of hinged slider; the sliding pieces 6-17 are hinged; 6-18 of land wheel; ground wheel hinge rods 6-19; 6-20 parts of land wheel push spring; 6-21 of an anti-skid rod; anti-skid rod connecting rods 6-23; anti-skid rod push springs 6-24; 6-25 of a rectangular chute; 6-26 parts of threaded rod; inner end sliders I6-27; 6-28 slide bars at the inner ends; the inner end is hinged with a slider 6-29.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 27, and a solar device includes a solar panel fixing device 1, a nozzle device 2, a flow control box 3, a communicating pipe 4, a water tank 5 and a support 6, where the solar panel fixing device 1 includes a bottom plate 1-1, two fixing plates 1-2, an adjusting device 1-3, an adjusting support 1-4, a manual rotating rod 1-5, a rotating rod sleeve spring 1-6, two outer end transmission conical teeth 1-7, two one-way gears 1-8, two one-way driving gears 1-9, one-way sliding rods 1-10, a sliding rod sleeve spring 1-11, a handle 1-12, a rotating groove 1-13, two clamping bodies 1-14, two limiting plates 1-15, right end limiting plates 1-16, mounting grooves 1-17, one support rod 1-18, a first limiting plate 1-18, a second limiting plate 1-16, 1-19 parts of a second support rod, 1-20 parts of a third support rod, 1-21 parts of a fourth support rod, 1-22 parts of a fifth support rod, 1-23 parts of a sixth support rod, 1-24 parts of a seventh support rod, 1-25 parts of a first transmission straight tooth, 1-26 parts of a bidirectional threaded rod, 1-27 parts of a first transmission bevel gear, 1-28 parts of a second transmission straight tooth, 1-29 parts of a first transmission rod, 1-30 parts of a third transmission bevel gear, 1-31 parts of a second transmission rod, 1-32 parts of a fourth transmission bevel gear, 1-33 parts of a fifth transmission bevel gear, 1-34 parts of a third transmission rod, 1-35 parts of a sixth transmission bevel gear, 1-36 parts of a seventh transmission bevel gear, eight 1-37 parts of a transmission bevel gear, nine 1-38 parts of a ninth transmission bevel gear, ten 1-39 parts of a transmission bevel gear, eleven 1-, A clamping rod push spring 1-44, a vertical sliding rod 1-45, a transverse sliding rod 1-46 and a transverse sleeve spring 1-47, wherein a manual rotating rod 1-5 is rotatably connected with an adjusting bracket 1-4, two outer end transmission bevel gears 1-7 are respectively and fixedly connected with two one-way gears 1-8, two one-way driving gears 1-9 are respectively and clearance-fittingly connected with the manual rotating rod 1-5, one-way sliding rods 1-10 are slidably connected with the one-way driving gears 1-9, a sliding rod sleeve spring 1-11 is sleeved and connected with the one-way sliding rod 1-10, the one-way sliding rods 1-10 are clearance-fittingly connected with the one-way gears 1-8, a handle 1-12 is fixedly connected with the left end of the manual rotating rod 1-5, a rotating rod sleeve spring 1-6 is sleeved at the middle end of the manual rotating rod 1-5, a rotating groove 1-13 is arranged at the left end of, two clamp bodies 1-14 are fixedly connected to a manual rotating rod 1-5, two limit plates 1-15 are fixedly connected to the middle end of the manual rotating rod 1-5, a right limit plate 1-16 is fixedly connected to the right end of the manual rotating rod 1-5, the manual rotating rod 1-5 is connected with a one-way gear 1-8 through the clamp bodies 1-14, a rotating rod sleeve spring 1-6 is arranged between the two limit plates 1-15, an installation groove 1-17 is arranged at the right end of a bottom plate 1-1, a support rod I1-18, a support rod II 1-19, a support rod III 1-20, a support rod IV 1-21, a support rod V1-22, a support rod VI 1-23 and a support rod VII 1-24 are respectively provided with two, and the support rod I1-18, the support rod II 1-19, the support rod III 1-20, Four support rods 1-21, five support rods 1-22, six support rods 1-23 and seven support rods 1-24 are all fixedly connected to a bottom plate 1-1, a first transmission straight tooth 1-25 is fixedly connected with a two-way threaded rod 1-26, two ends of the two-way threaded rod 1-26 are rotatably connected between the two support rods seven 1-24, a second transmission straight tooth 1-28 is in meshing transmission with the first transmission straight tooth 1-25, the second transmission straight tooth 1-28 is fixedly connected to a first transmission rod 1-29, a first transmission bevel tooth 1-27 and a first transmission bevel tooth 1-40 are both fixedly connected with a first transmission rod 1-29, the first transmission rod 1-29 is rotatably connected between the two support rods five 1-22, a third transmission bevel tooth 1-30 and a fourth transmission bevel tooth 1-32 are fixedly connected with a second transmission rod 1-31, a transmission rod II 1-31 is rotatably connected with a support rod IV 1-21 and a support rod I1-18 at the front end, a transmission bevel gear nine 1-38 and a transmission bevel gear ten 1-39 are fixedly connected with a transmission rod IV 1-41, a transmission rod IV 1-41 is rotatably connected between a support rod IV 1-21 and a support rod I1-18 at the rear end, a transmission bevel gear V1-33 and a transmission bevel gear VI 1-35 are fixedly connected with a transmission rod III 1-34, a transmission rod III 1-34 is rotatably connected between a support rod II 1-19 and a support rod III 1-20 at the front end, a transmission bevel gear seven 1-36 and a transmission bevel gear eight 1-37 are fixedly connected with a transmission rod V1-42, a transmission rod V1-42 is rotatably connected between a support rod II 1-19 and a support rod III 1-20 at the rear end, a transverse clamping rod 1-43 is slidably connected with a bottom plate 1-1, the clamp rod push springs 1-44 are sleeved with the transverse clamp rods 1-43, the vertical sliding rods 1-45 are slidably connected with the transverse sliding rods 1-46, the transverse sleeve springs 1-47 are sleeved on the transverse sliding rods 1-46, the vertical sliding rods 1-45 are clamped with the transverse clamp rods 1-43, and the adjusting supports 1-4 are fixedly connected in the mounting grooves 1-17;

the two clamping bodies 1-14 are not connected with the two one-way gears 1-8 at the same time, the manual rotating rod 1-5 is pushed manually, and when the clamping body 1-14 at the left end of the manual rotating rod 1-5 is matched with the one-way gear 1-8 at the left end, the clamping body 1-14 at the right end of the manual rotating rod 1-5 is not matched with the one-way gear 1-8 at the right end; the clamp bodies 1-14 can be conveniently connected between the manual rotating rods 1-5 and the one-way gears 1-8;

the spray head device 2 comprises a spray head connecting pipe 2-1, a Y-shaped support 2-2, a plug 2-3, a plug connecting rod 2-4, a side wall rod 2-5, a plug push spring 2-6, a closed groove 2-7, a spray head sliding groove 2-8 and a middle end sliding groove 2-9, the spray head connecting pipe 2-1 is connected with the Y-shaped support 2-2 in a sliding mode, the plug 2-3 is connected with the side wall rod 2-5 in a hinged mode through the plug connecting rod 2-4, the side wall rod 2-5 is connected with the side wall of the closed groove 2-7 in a hinged mode, the plug push spring 2-6 is arranged in the spray head sliding groove 2-8, the plug 2-3 is connected with the spray head sliding groove 2-8 in a sliding mode, the lower end of the Y-shaped support 2-2 is connected with the middle end sliding groove 2-9 in a sliding mode, and a spring is arranged between the lower end of the Y-shaped support 2-2;

the plug 2-3 moves downwards under the action of water pressure, and the side wall rod 2-5 is separated from the closed groove 2-7 under the pushing action of a plug connecting rod 2-4 connected between the plug 2-3 and the side wall rod 2-5, so that water flow is facilitated;

the flow control box body 3 comprises a box body 3-1, an elastic compensation device outer frame 3-2, a tension spring 3-3, a push spring I3-4, a pull plug 3-5, a floater 3-6, a floater push spring I3-7, a floater push spring II 3-8, a push spring IV 3-9, a clamping push rod 3-10, a push spring II 3-11, a driving rod 3-12, a driving rod push spring 3-13, a clamping rod 3-14, a sliding cavity I3-15, a sliding groove I3-16, a sliding cavity II 3-17, a sliding cavity III 3-18, a scale 3-19, a sliding hole I3-20, a sliding cavity IV 3-21, two communicating holes I3-22, two communicating holes II 3-23, a communicating cavity 3-24, a sliding cavity V3-25, a side wall 3-26, a connecting hole II 3-23, a communicating cavity V3-21, a, A manual threaded rod 3-27, an inner end slider 3-28, a pull rod 3-29 and a push spring three 3-30, wherein a first sliding cavity 3-15 is arranged at the upper end of a box body 3-1, a first sliding chute 3-16 is arranged on the side wall of the first sliding cavity 3-15, a second sliding cavity 3-17 is arranged at the middle end of the upper end surface of the box body 3-1, a third sliding cavity 3-18 is arranged at the upper end of the second sliding cavity 3-17, a first sliding hole 3-20 is arranged at the upper end of the box body 3-1, a scale 3-19 is fixedly connected with the box body 3-1, a fourth sliding cavity 3-21 is arranged at the lower side of the inner end surface of the box body 3-1, a first two communicating holes 3-22 are arranged at the upper end of the inner wall of a fourth sliding cavity 3-21, a second two communicating holes 3-23 are arranged at the lower end of the inner wall of the fourth sliding cavity 3-21, a third, two communication holes II 3-23 are communicated with communication cavities 3-24, a sliding cavity V3-25 is arranged at the lower side of the middle end of the inner end surface of the box body 3-1, a side wall communication hole 3-26 is arranged at the right end of the outer wall of the box body 3-1, an elastic compensation device outer frame 3-2 is connected at the inner end of the sliding cavity I3-15 in a sliding way, a manual threaded rod 3-27 is connected with the elastic compensation device outer frame 3-2 in a rotating way, an inner end slider 3-28 is connected with the elastic compensation device outer frame 3-2 in a sliding way, an inner end slider 3-28 is connected with the manual threaded rod 3-27 in a sliding way, a pull rod 3-29 is fixedly connected with the inner end slider 3-28, a pull rod 3-29 is connected with the elastic compensation device outer frame 3-2 in a sliding way, and a, the upper end of a tension spring 3-3 is fixedly connected with a pull rod 3-29, the lower end of the tension spring 3-3 is fixedly connected with a pull plug 3-5, the pull plug 3-5 is slidably connected with a sliding cavity IV 3-21, the lower end of a floater 3-6 is slidably connected with a sliding cavity V3-25, a floater push spring I3-7 and a floater push spring II 3-8 are both arranged in the sliding cavity V3-25, the floater 3-6 is arranged between the floater push spring I3-7 and the floater push spring II 3-8, a clamping push rod 3-10 is slidably connected with the sliding cavity II 3-17, the push spring IV 3-9 and the push spring II 3-11 are both arranged in the sliding cavity II 3-17, the clamping push rod 3-10 is arranged between the push spring IV 3-9 and the push spring II 3-11, the push spring II 3-11 is arranged at the upper end of the floater 3-6, the middle end of a driving rod 3-12 is rotatably connected with a box body 3-1, the driving rod 3-12 is in sliding hinge connection with a floater 3-6, a driving rod push spring 3-13 is arranged at the inner end of the driving rod 3-12, a clamping rod 3-14 is in sliding connection with a sliding cavity III 3-18, a push spring III 3-30 is arranged between the clamping rod 3-14 and the sliding cavity III 3-18, the lower end of a spray head connecting pipe 2-1 is fixedly connected with the lower end of the box body 3-1, and the spray head connecting pipe 2-1 is communicated with a communicating cavity 3-24;

manually rotating the manual threaded rod 3-27, and enabling the inner end slider 3-28 to slide in the sliding cavity I3-15 through threaded connection of the manual threaded rod 3-27 and the inner end slider 3-28, so as to change the use position of the inner end slider 3-28 in the sliding cavity I3-15;

the communicating pipe 4 comprises a communicating pipe body 4-1, a first pushing rack rod 4-2, a middle rotating tooth 4-3, a transmission rack rod 4-4, a pusher 4-5, an inner end pushing spring 4-6, a middle end hinged rod 4-7, an inner end sliding chamber 4-8 and a communicating pipe 4-9, wherein the middle end hinged rod 4-7 is fixedly connected to the inner end of the communicating pipe body 4-1, the inner end sliding chamber 4-8 is arranged at the inner end of the communicating pipe body 4-1, the communicating pipe 4-9 is fixedly connected to the right end of the communicating pipe body 4-1, the first pushing rack rod 4-2 is slidably hinged with the middle end hinged rod 4-7, the middle end rotating tooth 4-3 is rotatably connected with the middle end hinged rod 4-7, and the first pushing rack rod 4-2 is meshed with the middle end rotating tooth 4-3 for transmission, a transmission rack rod 4-4 is hinged with a middle-end hinge rod 4-7 in a sliding manner, the transmission rack rod 4-4 is in meshing transmission with a middle-end rotating tooth 4-3, the right end of the transmission rack rod 4-4 is connected with an inner end sliding cavity 4-8 in a sliding manner, a pusher 4-5 is connected at the inner end of a communicating pipe body 4-1 in a sliding manner, an inner end push spring 4-6 is connected between the transmission rack rod 4-4 and the pusher 4-5 in a sliding manner, a push rack rod 4-2 is hinged with a driving rod 3-12, the communicating pipe body 4-1 is fixedly connected with a box body 3-1, and the communicating pipe body 4-1 is communicated with a side wall communicating hole 3-26;

the water tank 5 comprises a water tank body 5-1, a closed push rod 5-2, a filtering outer frame 5-3, a containing outer frame I5-4, a containing outer frame II 5-5, a middle end communicating pipe 5-6, a communicating cavity I5-7, a tank threaded rod 5-8, an upper side closing rod 5-9, an upper side sliding groove 5-10, a lower side communicating pipe 5-11, a side wall scale 5-12, a buoy 5-13, a buoy sliding rod 5-14, a hinged support 5-15, a hinged push spring 5-16, a rotating tooth 5-17 and a hinged terminal 5-18, wherein the upper side sliding groove 5-10 is arranged at the middle end of the upper end of the water tank body 5-1, the lower side communicating pipe 5-11 is arranged at the lower end of the water tank body 5-1, and the side wall scale 5-12 is fixedly connected with the, the buoy 5-13 is connected with the buoy slide bar 5-14 in a sliding way, the buoy slide bar 5-14 is fixedly connected with the water tank body 5-1, the hinged support 5-15 is connected with the water tank body 5-1 in a sliding way, the hinged push spring 5-16 is connected with the hinged support 5-15 in a sleeved way, the hinged push spring 5-16 is fixedly connected between the hinged support 5-15 and the water tank body 5-1, the hinged terminal 5-18 is fixedly connected with the hinged support 5-15, the rotary tooth 5-17 is rotationally connected with the hinged terminal 5-18, the closing push rod 5-2 is connected with the upper side sliding groove 5-10 in a sliding way, the closing push rod 5-2 is connected with the rotary tooth 5-17 in a clearance fit way, the filtering outer frame 5-3 is fixedly connected with the water tank body 5-1, and the accommodating outer frame I5-4 is connected, the accommodating outer frame II 5-5 is connected with the water tank body 5-1 in a sliding mode, the middle-end communicating pipe 5-6 is fixedly connected between the accommodating outer frame I5-4 and the accommodating outer frame II 5-5, the communicating cavity I5-7 is arranged at the inner end of the middle-end communicating pipe 5-6, the communicating cavity I5-7 is communicated between the accommodating outer frame I5-4 and the accommodating outer frame II 5-5, the upper end of a box threaded rod 5-8 is rotatably connected with the water tank body 5-1, the lower end of the box threaded rod 5-8 is rotatably connected with the filtering outer frame 5-3, the box threaded rod 5-8 is in threaded connection with the accommodating outer frame I5-4 and the accommodating outer frame II 5-5, the communicating pipe 4-9 is fixedly connected with the water tank body 5-1, and the communicating pipe 4-9 is communicated with;

the support 6 comprises a support body 6-1, a push rod I6-2, a push rod hinge rod 6-3, a push rod II 6-4, a push rod push spring I6-5, a push rod III 6-6, a push rod push spring II 6-7, a pulling rod 6-8, a pulling rod slide rod 6-9, a pulling rod push spring 6-10, a side wall support rod I6-11, a side wall support rod II 6-12, two rotating hinge rods 6-13, a hinge slide rod 6-14, a hinge push spring I6-15, a hinge slider 6-16, a hinge connecting slider 6-17, a land wheel 6-18, a land wheel hinge rod 6-19, a land wheel push spring 6-20, three anti-skid rods 6-21, an anti-skid rod connecting rod 6-23, an anti-skid rod push spring 6-24, three rectangular chutes 6-25, a sliding groove 6-25, The support comprises a threaded rod 6-26, an inner end slider I6-27, an inner end sliding rod 6-28 and an inner end hinged slider 6-29, wherein a push rod I6-2 is connected with a support body 6-1 in a sliding mode, a push rod hinged rod 6-3 is connected with the push rod I6-2 in a hinged mode, a push rod hinged rod 6-3 is connected with the threaded rod 6-26 in a hinged mode, and the threaded rod 6-26 is connected with the inner end slider I6-27 through threads; an inner end slider I6-27 is connected with an inner end sliding rod 6-28 in a sliding way, the inner end sliding rod 6-28 is fixedly connected with a bracket body 6-1, a push rod II 6-4 is connected with the bracket body 6-1 in a sliding way, a push rod push spring I6-5 is arranged between the push rod II 6-4 and the bracket body 6-1, a push rod III 6-6 is connected with the bracket body 6-1 in a sliding way, a push rod push spring II 6-7 is arranged between the push rod III 6-6 and the bracket body 6-1, a pulling rod 6-8 is hinged with the bracket body 6-1 in a sliding way, a pulling rod push spring 6-10 is sleeved with a pulling rod sliding rod 6-9, a side wall strut I6-11 and a side wall strut II 6-12 are respectively hinged with the bracket body 6-1, a side wall strut II 6-12 is hinged with the pulling rod, the side wall strut I6-11 is hinged with a rotary hinged rod 6-13, a hinged slide rod 6-14 is fixedly connected with the rotary hinged rod 6-13, a hinged push spring I6-15 is sleeved with the hinged slide rod 6-14, a hinged slider 6-16 is slidably connected with the hinged slide rod 6-14, a hinged connecting slider 6-17 is respectively hinged with two rotary hinged rods 6-13, the lower end of a pulling rod 6-8 is hinged with the hinged connecting slider 6-17, a ground wheel hinged rod 6-19 is fixedly connected with the hinged slider 6-16, a ground wheel push spring 6-20 is arranged at the inner end of the ground wheel hinged rod 6-19, a ground wheel 6-18 is rotatably connected with the hinged slider 6-29 at the inner end, three rectangular chutes 6-25 are uniformly arranged on the ground wheel 6-18, the three anti-skid rods 6-21 are respectively connected with the three rectangular sliding grooves 6-25 in a sliding mode, the anti-skid rod connecting rods 6-23 are connected between the two anti-skid rods 6-21, the anti-skid rod push springs 6-24 are arranged at the inner ends of the anti-skid rod connecting rods 6-23, the bottom plate 1-1 is fixedly connected with the push rod one 6-2, the box body 3-1 is fixedly connected with the push rod two 6-4, and the water tank body 5-1 is fixedly connected with the push rod three 6-6.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 27, and the present embodiment further describes the first embodiment in that the two card bodies 1 to 14 are not connected to the two one-way gears 1 to 8 at the same time.

The third concrete implementation mode:

in the following, the present embodiment will be described with reference to fig. 1 to 27, and the present embodiment will further describe the first embodiment, in which the bidirectional threaded rod 1 to 26 is provided with threads having opposite rotation directions.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 27, and the present embodiment will further describe the first embodiment, in which a push spring is provided in the middle end chute 2 to 9.

The invention relates to a solar device, which has the working principle that:

when in use, the solar device is fixed on the fixed plate 1-2, the manual rotating rod 1-5 is manually pushed to the right side, the clamp body 1-14 at the left end on the manual rotating rod 1-5 is separated from the one-way gear 1-8 at the left end, the clamp body 1-14 at the right side of the manual rotating rod 1-5 is superposed with the one-way gear 1-8 at the right side, the handle 1-12 is manually rotated, the handle 1-12 drives the manual rotating rod 1-5 to rotate, the one-way gear 1-8 superposed with the clamp body 1-14 is driven to rotate by the clamp body 1-14 on the manual rotating rod 1-5, the one-way gear 1-8 rotates to drive the outer end transmission bevel gear 1-7 to rotate, the transmission bevel gear eight 1-37 is driven to rotate by the meshing of the outer end transmission bevel gear 1-7 and the transmission bevel gear seven 1-36, the transmission bevel gears 1 to 39 are driven to rotate through the meshing transmission of the transmission bevel gears eight 1 to 37 and the transmission bevel gears nine 1 to 38, the transmission straight gears 1 to 29 are driven to rotate through the meshing transmission of the transmission bevel gears 1 to 39 and the transmission bevel gears eleven 1 to 40, meanwhile, the transmission straight gears 1 to 28 are driven to rotate, the bidirectional threaded rods 1 to 26 are driven to rotate through the meshing of the transmission straight gears 1 to 28 and the transmission straight gears 1 to 25, and the solar devices on the two fixing plates 1 to 2 are close to each other through the threaded connection between the double-thread threads on the bidirectional threaded rods 1 to 26 and the fixing plates 1 to 2; manually pulling the transverse clamping rods 1-43 to the front ends to enable the transverse clamping rods 1-43 to be separated from the vertical sliding rods 1-45; under the push of the transverse casing spring 1-47, the vertical sliding rod 1-45 slides to the left side along the transverse sliding rod 1-46, so that the clamp body 1-14 at the left end on the manual rotating rod 1-5 is superposed with the one-way gear 1-8 at the left end, the clamp body 1-14 at the right side of the manual rotating rod 1-5 is separated from the one-way gear 1-8 at the right side, the handle 1-12 is rotated manually, the handle 1-12 drives the manual rotating rod 1-5 to rotate, the one-way gear 1-8 superposed with the clamp body 1-14 is driven to rotate by the clamp body 1-14 on the manual rotating rod 1-5, the one-way gear 1-8 rotates to drive the outer end transmission conical teeth 1-7 to rotate, and the outer end transmission conical teeth 1-7 at the left end are meshed with the transmission conical teeth six 1-35 for transmission, drives the transmission bevel gear five 1-33 to rotate, drives the transmission bevel gear three 1-30 to rotate through the meshing transmission of the transmission bevel gear five 1-33 and the transmission bevel gear four 1-32, the transmission bevel gear 1-29 is driven to rotate by the meshing transmission of the transmission bevel gear three 1-30 and the transmission bevel gear 1-27, simultaneously drives the transmission straight teeth II 1-28 to rotate, drives the bidirectional threaded rod 1-26 to rotate through the meshing of the transmission straight teeth II 1-28 and the transmission straight teeth I1-25, the solar devices on the two fixing plates 1-2 are far away from each other through the threaded connection between the double-thread threads on the two-way threaded rods 1-26 and the fixing plates 1-2, thereby realizing the adjustment of the use angle of the solar device fixedly connected on the fixing plate 1-2; manually pulling the closing push rod 5-2 to the left side, adding water into the water tank body 5-1, filtering the water by the middle end communicating pipe 5-6 after the water flows through the first accommodating frame 5-4 and the second accommodating frame 5-5 in the filtering frame 5-3; the buoyancy of the buoy 5-13 caused by the water added into the water tank body 5-1 enables the buoy 5-13 to slide upwards along the buoy slide bar 5-14, and the volume of the water added into the water tank body 5-1 can be displayed on the side wall scale 5-12 by aligning the buoy 5-13 with the side wall scale 5-12; water flows into a communication pipeline 4-9 through a lower communication pipe 5-11, the pusher 4-5 slides towards the left side through the action of water flow on the pusher 4-5, so that water flow flows into a box body 3-1 through a side wall communication hole 3-26, the floater 3-6 vertically moves upwards through the buoyancy action of the water flowing into the box body 3-1 on the floater 3-6, the clamping push rod 3-10 slides towards the right side along a sliding cavity three 3-18 by compressing a push spring two 3-11 and pushing the clamping push rod 3-10 to move upwards through the push spring two 3-11, so that the clamping push rod 3-10 is separated from an elastic compensation device outer frame 3-2, and the elastic compensation device outer frame 3-2 moves downwards along a sliding cavity one 3-15 under the action of the tension of the push spring one 3-4, the pull plug 3-5 moves downwards along the sliding cavity IV 3-21, so that the communication hole I3-22 is communicated with the communication hole II 3-23, water in the box body 3-1 flows into the communication cavity 3-24 through the communication hole I3-22 and the communication hole II 3-23 and flows into the spray head connecting pipe 2-1 through the communication cavity 3-24, the plug 2-3 moves downwards under the action of water pressure, and the side wall rod 2-5 is separated from the closed groove 2-7 under the pushing action of the plug connecting rod 2-4 connected between the plug 2-3 and the side wall rod 2-5, so that the water flow is facilitated; the dirt on the solar device fixed on the fixing plate 1-2 is impacted by the falling water flow, and the cleaning is finished.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a solar device, includes solar panel solid fixed device (1), shower nozzle device (2), flow control box (3), communicating pipe (4), water tank (5) and support (6), its characterized in that: the solar panel fixing device (1) comprises a bottom plate (1-1), two fixing plates (1-2), an adjusting device (1-3), an adjusting support (1-4), a manual rotating rod (1-5), a rotating rod sleeve spring (1-6), two outer end transmission bevel gears (1-7), two one-way gears (1-8), two one-way driving gears (1-9), one-way sliding rods (1-10), a sliding rod sleeve spring (1-11), a handle (1-12), a rotating groove (1-13), two clamping bodies (1-14), two limiting plates (1-15), right end limiting plates (1-16), mounting grooves (1-17), a first support rod (1-18), a second support rod (1-19), a third support rod (1-20), Four (1-21) support rods, five (1-22) support rods, six (1-23) support rods, seven (1-24) support rods, one (1-25) transmission straight teeth, one (1-26) bidirectional threaded rods, one (1-27) transmission bevel teeth, two (1-28) transmission straight teeth, one (1-29) transmission rods, three (1-30) transmission bevel teeth, two (1-31) transmission rods, four (1-32) transmission bevel teeth, five (1-33) transmission bevel teeth, three (1-34) transmission rods, six (1-35) transmission bevel teeth, seven (1-36) transmission bevel teeth, eight (1-37) transmission bevel teeth, nine (1-38) transmission bevel teeth, ten (1-39) transmission bevel teeth, eleven (1-40) transmission bevel teeth, four (1-41) transmission rods, six (1-29) transmission bevel teeth, six (1-31) transmission bevel teeth, six, A fifth transmission rod (1-42), a transverse clamping rod (1-43), a clamping rod push spring (1-44), a vertical sliding rod (1-45), a transverse sliding rod (1-46) and a transverse sleeve spring (1-47), wherein a manual rotating rod (1-5) is rotatably connected with an adjusting bracket (1-4), two outer end transmission bevel gears (1-7) are respectively fixedly connected with two one-way gears (1-8), two one-way driving gears (1-9) are both in clearance fit connection with the manual rotating rod (1-5), one-way sliding rods (1-10) are in sliding connection with the one-way driving gears (1-9), a sliding rod sleeve spring (1-11) is in sleeve connection with the one-way sliding rods (1-10), and the one-way sliding rods (1-10) are in clearance fit connection with the one-way gears (1-8), the handle (1-12) is fixedly connected with the left end of the manual rotating rod (1-5), the rotating rod sleeve spring (1-6) is sleeved at the middle end of the manual rotating rod (1-5), the rotating groove (1-13) is arranged at the left end of the manual rotating rod (1-5), two clamping bodies (1-14) are fixedly connected with the manual rotating rod (1-5), two limiting plates (1-15) are fixedly connected with the middle end of the manual rotating rod (1-5), a right limiting plate (1-16) is fixedly connected with the right end of the manual rotating rod (1-5), the manual rotating rod (1-5) is connected with a one-way gear (1-8) through the clamping bodies (1-14), the rotating rod sleeve spring (1-6) is arranged between the two limiting plates (1-15), a mounting groove (1-17) is arranged at the right end of the bottom plate (1-1), two of the first support rod (1-18), the second support rod (1-19), the third support rod (1-20), the fourth support rod (1-21), the fifth support rod (1-22), the sixth support rod (1-23) and the seventh support rod (1-24) are respectively arranged, the first support rod (1-18), the second support rod (1-19), the third support rod (1-20), the fourth support rod (1-21), the fifth support rod (1-22), the sixth support rod (1-23) and the seventh support rod (1-24) are fixedly connected on the bottom plate (1-1), the first transmission straight tooth (1-25) is fixedly connected with the two-way threaded rod (1-26), two ends of the two-way threaded rod (1-26) are rotatably connected between the two seventh support rods (1-24), and the second transmission straight tooth (1-28) is meshed with the first transmission straight tooth (1-25) for transmission, the transmission straight teeth two (1-28) are fixedly connected on the transmission rod one (1-29), the transmission bevel teeth one (1-27) and the transmission bevel teeth eleven (1-40) are fixedly connected with the transmission rod one (1-29), the transmission rod one (1-29) is rotatably connected between the two support rods five (1-22), the transmission bevel teeth three (1-30) and the transmission bevel teeth four (1-32) are fixedly connected with the transmission rod two (1-31), the transmission rod two (1-31) is rotatably connected with the front support rods four (1-21) and the support rods one (1-18), the transmission bevel teeth nine (1-38) and the transmission bevel teeth ten (1-39) are fixedly connected with the transmission rod four (1-41), the transmission rod four (1-41) is rotatably connected between the rear support rods four (1-21) and the support rods one (1-18), a transmission bevel gear five (1-33) and a transmission bevel gear six (1-35) are fixedly connected with a transmission rod three (1-34), the transmission rod three (1-34) is rotatably connected between a support rod two (1-19) and a support rod three (1-20) at the front end, a transmission bevel gear seven (1-36) and a transmission bevel gear eight (1-37) are fixedly connected with a transmission rod five (1-42), the transmission rod five (1-42) is rotatably connected between a support rod two (1-19) and a support rod three (1-20) at the rear end, a transverse clamping rod (1-43) is slidably connected with a bottom plate (1-1), a clamping rod push spring (1-44) is sleeved with the transverse clamping rod (1-43), a vertical sliding rod (1-45) is slidably connected with a transverse sliding rod (1-46), a transverse sleeve spring (1-47) is sleeved on the transverse sliding rod (1-46), the vertical sliding rods (1-45) are clamped with the transverse clamping rods (1-43), and the adjusting brackets (1-4) are fixedly connected in the mounting grooves (1-17);

the sprayer device (2) comprises a sprayer connecting pipe (2-1), a Y-shaped support (2-2), a plug (2-3), a plug connecting rod (2-4), a side wall rod (2-5), a plug push spring (2-6), a closed groove (2-7), a sprayer sliding groove (2-8) and a middle end sliding groove (2-9), the sprayer connecting pipe (2-1) is connected with the Y-shaped support (2-2) in a sliding mode, the plug (2-3) and the side wall rod (2-5) are connected in a hinged mode through the plug connecting rod (2-4), the side wall rod (2-5) is hinged to the side wall of the closed groove (2-7), the plug push spring (2-6) is arranged in the sprayer sliding groove (2-8), and the plug (2-3) is connected with the sprayer sliding groove (2-8) in a sliding mode, the lower end of the Y-shaped support (2-2) is connected with the middle sliding chute (2-9) in a sliding way, and a spring is arranged between the lower end of the Y-shaped support (2-2) and the middle sliding chute (2-9);

the flow control box body (3) comprises a box body (3-1), an elastic compensation device outer frame (3-2), a tension spring (3-3), a first push spring (3-4), a pull plug (3-5), a floater (3-6), a first floater push spring (3-7), a second floater push spring (3-8), a fourth push spring (3-9), a clamping push rod (3-10), a second push spring (3-11), a driving rod (3-12), a driving rod push spring (3-13), a clamping rod (3-14), a first sliding cavity (3-15), a first sliding groove (3-16), a second sliding cavity (3-17), a third sliding cavity (3-18), a first sliding hole (3-19), a first sliding hole (3-20), a fourth sliding cavity (3-21), a first two communicating hole (3-22), a scale, Two communicating holes II (3-23), communicating cavities (3-24), a sliding cavity V (3-25), side wall communicating holes (3-26), a manual threaded rod (3-27), inner end sliders (3-28), a pull rod (3-29) and a push spring III (3-30), wherein the sliding cavity I (3-15) is arranged at the upper end of the box body (3-1), the sliding chute I (3-16) is arranged on the side wall of the sliding cavity I (3-15), the sliding cavity II (3-17) is arranged at the middle end of the upper end face of the box body (3-1), the sliding cavity III (3-18) is arranged at the upper end of the sliding cavity II (3-17), the sliding hole I (3-20) is arranged at the upper end of the box body (3-1), a scale (3-19) is fixedly connected with the box body (3-1), and the sliding cavity IV (3-21) is arranged at the lower side of the inner end face of the box body (3-1), the two communication holes I (3-22) are arranged at the upper end of the inner wall of the sliding cavity I (3-21), the two communication holes II (3-23) are arranged at the lower end of the inner wall of the sliding cavity I (3-21), the communication cavity I (3-24) is arranged at the lower side of the outer end of the box body (3-1), the two communication holes II (3-23) are communicated with the communication cavities I (3-24), the sliding cavity II (3-25) is arranged at the lower side of the middle end of the inner end surface of the box body (3-1), the side wall communication holes (3-26) are arranged at the right end of the outer wall of the box body (3-1), the elastic compensation device outer frame (3-2) is connected with the inner end of the sliding cavity I (3-15) in a sliding mode, the manual threaded rod (3-27) is connected with the elastic compensation device outer frame (3-2) in a rotating mode, the inner end sliding block (, the inner end sliders (3-28) are connected with the manual threaded rods (3-27) through threads, the pull rods (3-29) are fixedly connected with the inner end sliders (3-28), the pull rods (3-29) are slidably connected with the elastic compensation device outer frame (3-2), the pull rods (3-29) are slidably connected with the sliding chutes (3-16), the upper ends of the tension springs (3-3) are fixedly connected with the pull rods (3-29), the lower ends of the tension springs (3-3) are fixedly connected with the pull plugs (3-5), the pull plugs (3-5) are slidably connected with the sliding cavity IV (3-21), the lower ends of the floaters (3-6) are slidably connected with the sliding cavity IV (3-25), and the floater push spring I (3-7) and the floater push spring II (3-8) are both arranged in the sliding cavity IV (3-25), the floater (3-6) is arranged between the floater push spring I (3-7) and the floater push spring II (3-8), the clamping push rod (3-10) is connected with the sliding cavity II (3-17) in a sliding way, the push spring IV (3-9) and the push spring II (3-11) are both arranged in the sliding cavity II (3-17), the clamping push rod (3-10) is arranged between the push spring IV (3-9) and the push spring II (3-11), the push spring II (3-11) is arranged at the upper end of the floater (3-6), the middle end of the drive rod (3-12) is rotatably connected with the box body (3-1), the drive rod (3-12) is hinged with the floater (3-6) in a sliding way, the drive rod push spring (3-13) is arranged at the inner end of the drive rod (3-12), and the clamping rod (3-14) is connected with the sliding cavity III (3-18) in a sliding way, a third push spring (3-30) is arranged between the clamping rod (3-14) and the third sliding cavity (3-18), the lower end of the spray head connecting pipe (2-1) is fixedly connected with the lower end of the box body (3-1), and the spray head connecting pipe (2-1) is communicated with the communicating cavity (3-24);

the communicating pipe (4) comprises a communicating pipe body (4-1), a first pushing rack rod (4-2), middle-end rotating teeth (4-3), a transmission rack rod (4-4), a pusher (4-5), an inner-end pushing spring (4-6), a middle-end hinged rod (4-7), an inner-end sliding cavity (4-8) and a communicating pipe (4-9), wherein the middle-end hinged rod (4-7) is fixedly connected to the inner end of the communicating pipe body (4-1), the inner-end sliding cavity (4-8) is arranged at the inner end of the communicating pipe body (4-1), the communicating pipe (4-9) is fixedly connected to the right end of the communicating pipe body (4-1), the first pushing rack rod (4-2) is slidably hinged with the middle-end hinged rod (4-7), the middle-end rotating teeth (4-3) are rotatably connected with the middle-end hinged rod (4-7), the pushing rack rod I (4-2) is in meshing transmission with the middle-end rotating teeth (4-3), the transmission rack rod (4-4) is in sliding hinge with the middle-end hinge rod (4-7), the transmission rack rod (4-4) is in meshing transmission with the middle-end rotating teeth (4-3), the right end of the transmission rack rod (4-4) is in sliding connection with the inner end sliding cavity (4-8), the pusher (4-5) is in sliding connection with the inner end of the communicating pipe body (4-1), the inner end pushing spring (4-6) is in sliding connection between the transmission rack rod (4-4) and the pusher (4-5), the pushing rack rod I (4-2) is in hinged connection with the driving rod (3-12), the communicating pipe body (4-1) is fixedly connected with the box body (3-1), and the communicating pipe body (4-1) is communicated with the side wall communicating hole (3-26);

the water tank (5) comprises a water tank body (5-1), a closed push rod (5-2), a filtering outer frame (5-3), a containing outer frame I (5-4), a containing outer frame II (5-5), a middle end communicating pipe (5-6), a communicating cavity I (5-7), a tank body threaded rod (5-8), an upper side closing rod (5-9), an upper side sliding groove (5-10), a lower side communicating pipe (5-11), a side wall scale (5-12), a buoy (5-13), a buoy sliding rod (5-14), a hinged support (5-15), a hinged push spring (5-16), a rotating tooth (5-17) and a hinged terminal (5-18), wherein the upper side sliding groove (5-10) is arranged at the middle end of the upper end of the water tank body (5-1), the lower side communicating pipe (5-11) is arranged at the lower end of the water tank body (5-1), the side wall scale (5-12) is fixedly connected with the water tank body (5-1), the buoy (5-13) is slidably connected with the buoy sliding rod (5-14), the buoy sliding rod (5-14) is fixedly connected with the water tank body (5-1), the hinged support (5-15) is slidably connected with the water tank body (5-1), the hinged push spring (5-16) is connected with the hinged support (5-15) in a sleeved mode, the hinged push spring (5-16) is fixedly connected between the hinged support (5-15) and the water tank body (5-1), the hinged terminal (5-18) is fixedly connected with the hinged support (5-15), and the rotary tooth (5-17) is rotatably connected with the hinged terminal (5-18), a closed push rod (5-2) is connected with an upper side sliding groove (5-10) in a sliding manner, the closed push rod (5-2) is connected with a rotating tooth (5-17) in a clearance fit manner, a filtering outer frame (5-3) is fixedly connected with a water tank body (5-1), a containing outer frame I (5-4) is connected with the water tank body (5-1) in a sliding manner, a containing outer frame II (5-5) is connected with the water tank body (5-1) in a sliding manner, a middle end communicating pipe (5-6) is fixedly connected between the containing outer frame I (5-4) and the containing outer frame II (5-5), a communicating cavity I (5-7) is arranged at the inner end of the middle end communicating pipe (5-6), the communicating cavity I (5-7) is communicated between the containing outer frame I (5-4) and the containing outer frame II (5-5, the upper end of a box body threaded rod (5-8) is rotatably connected with a water tank body (5-1), the lower end of the box body threaded rod (5-8) is rotatably connected with a filtering outer frame (5-3), the box body threaded rod (5-8) is in threaded connection with a containing outer frame I (5-4) and a containing outer frame II (5-5), a communicating pipeline (4-9) is fixedly connected with the water tank body (5-1), and the communicating pipeline (4-9) is communicated with a lower communicating pipe (5-11);

the support (6) comprises a support body (6-1), a first push rod (6-2), a hinge rod (6-3), a second push rod (6-4), a first push rod push spring (6-5), a third push rod (6-6), a second push rod push spring (6-7), a pulling rod (6-8), a sliding rod (6-9), a pulling rod push spring (6-10), a first side wall supporting rod (6-11), a second side wall supporting rod (6-12), two rotating hinge rods (6-13), a hinge sliding rod (6-14), a first hinge push spring (6-15), a hinge slider (6-16), a hinge connecting slider (6-17), a land wheel (6-18), a land wheel hinge rod (6-19), a land wheel push spring (6-20), The anti-skid device comprises three anti-skid rods (6-21), anti-skid rod connecting rods (6-23), anti-skid rod push springs (6-24), three rectangular sliding grooves (6-25), threaded rods (6-26), inner end slider I (6-27), inner end sliding rods (6-28) and inner end hinged sliders (6-29), wherein the first push rod (6-2) is connected with a support body (6-1) in a sliding mode, the push rod hinged rods (6-3) are connected with the first push rod (6-2) in a hinged mode, the push rod hinged rods (6-3) are connected with the threaded rods (6-26) in a hinged mode, and the threaded rods (6-26) are connected with the inner end slider I (6-27) through threads; an inner end slider I (6-27) is connected with an inner end slider (6-28) in a sliding manner, the inner end slider (6-28) is fixedly connected with a bracket body (6-1), a push rod II (6-4) is connected with the bracket body (6-1) in a sliding manner, a push rod push spring I (6-5) is arranged between the push rod II (6-4) and the bracket body (6-1), a push rod III (6-6) is connected with the bracket body (6-1) in a sliding manner, a push rod push spring II (6-7) is arranged between the push rod III (6-6) and the bracket body (6-1), a pull rod (6-8) is hinged with the bracket body (6-1) in a sliding manner, a pull rod push spring (6-10) is sleeved with a pull slider (6-9), a side wall strut I (6-11) and a side wall strut II (6-12) are respectively hinged with the bracket body (6-1) The side wall strut II (6-12) is hinged with the pulling rod (6-8) in a sliding manner, the side wall strut I (6-11) is hinged with the rotating hinged rod (6-13), the hinged sliding rod (6-14) is fixedly connected with the rotating hinged rod (6-13), the hinged push spring I (6-15) is sleeved with the hinged sliding rod (6-14), the hinged slider (6-16) is connected with the hinged sliding rod (6-14) in a sliding manner, the hinged connecting sliders (6-17) are respectively hinged with the two rotating hinged rods (6-13), the lower end of the pulling rod (6-8) is hinged with the hinged connecting sliders (6-17), the ground wheel hinged rods (6-19) are fixedly connected with the hinged sliders (6-16), the ground wheel push spring (6-20) is arranged at the inner ends of the ground wheel hinged rods (6-19), the ground wheels (6-18) are rotatably connected with inner end hinged sliders (6-29), three rectangular sliding grooves (6-25) are uniformly arranged on the ground wheels (6-18), three anti-slip rods (6-21) are respectively in sliding connection with the three rectangular sliding grooves (6-25), an anti-slip rod connecting rod (6-23) is connected between the two anti-slip rods (6-21), an anti-slip rod push spring (6-24) is arranged at the inner end of the anti-slip rod connecting rod (6-23), the bottom plate (1-1) is fixedly connected with the push rod I (6-2), the box body (3-1) is fixedly connected with the push rod II (6-4), and the water tank body (5-1) is fixedly connected with the push rod III (6-6).

2. A solar installation according to claim 1, characterized in that: the two clamping bodies (1-14) are not connected with the two one-way gears (1-8) at the same time.

3. A solar installation according to claim 1, characterized in that: the bidirectional threaded rods (1-26) are provided with thread lines with opposite rotation directions.

4. A solar installation according to claim 1, characterized in that: a push spring is arranged in the middle sliding groove (2-9).

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