CN113206942B

CN113206942B - Surface interference-free cleaning monitoring camera based on wind power generation

Info

Publication number: CN113206942B
Application number: CN202110480955.1A
Authority: CN
Inventors: 徐伟斌
Original assignee: Hubei Fisi Data Network Co ltd
Current assignee: Hubei Fisi Data Network Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2022-06-14
Anticipated expiration: 2041-04-30
Also published as: CN113206942A

Abstract

The invention belongs to the field of wind energy monitoring, and relates to a surface interference-free cleaning monitoring camera based on wind power generation. The rainwater collecting and storing device can collect and store rainwater, utilizes wind energy to store electricity, is clean and environment-friendly, can block water flow downwards when the monitoring surface needs to be cleaned, avoids influencing normal use of monitoring, ensures the definition of monitoring, collects the used rainwater for cooling the storage battery, is provided with the storage battery cooling device, blows out hot air in the storage battery when the monitoring surface frosts, and removes frosting to ensure the definition of monitoring.

Description

Clean surveillance camera head of surface noiseless based on wind power generation

Technical Field

The invention belongs to the field of wind energy monitoring, and particularly relates to a surface interference-free cleaning monitoring camera based on wind power generation.

Background

Present surveillance camera head is big at the during operation temperature variation, the water smoke all appears easily inside and outside the camera, lead to the camera can't shoot clear object, direct influence monitoring effect, and the long-time use of control can be infected with more dust to its clean surface, influence normal control, and to monitoring the clean in-process in surface, rivers remain and can cause serious monitoring effect to influence, can't be to wasing back normal use, need get rid of its surperficial water stain fast, simultaneously wind power generation in-process, the battery can produce a large amount of heats, influence battery life.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a surface non-interference cleaning monitoring camera based on wind power generation, which can clean a monitoring surface by utilizing rainwater and wind energy and simultaneously avoid the influence of water drops on normal monitoring work during cleaning.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a clean surveillance camera head of surface noiseless based on wind power generation, includes the casing, fixed being equipped with the open water receiving mouth that makes progress on the lateral wall on the casing, be equipped with rainwater collection device in the water receiving mouth, rainwater collection device is used for collecting the rainwater, the upper left side of casing is equipped with the cooling chamber, the cooling intracavity is equipped with the heat sink, the fixed battery that is equipped with in cooling chamber, be equipped with wind power generation set on the battery, wind power generation set is used for utilizing the wind energy right the battery provides electric power and stores, it is right to fix on the lower left lateral wall of casing to be equipped with the control cover pole, the fixed control cover that is equipped with of control cover pole downside, be equipped with cleaning device in the control cover, cleaning device is used for clean control surface.

Preferably, wind power generation set is in including rotating wind-force axle on the battery, the epaxial annular of wind-force is fixed to be equipped with six bull sticks, and every bull stick of group divide into two from top to bottom, every bull stick is kept away from wind-force axle serves and rotates to be equipped with the torsional spring axle, the torsional spring axle with be connected with the torsional spring between the bull stick lateral wall, two from top to bottom of every group bull stick the epaxial wind-force board that is fixed with of torsional spring.

When wind blows over, wind power can drive the wind power plate to rotate, and simultaneously under the effect of wind power, the torsional spring shaft can begin to rotate, so that the wind just blows the wind power plate, the rotating rod is driven to rotate, the wind power shaft rotates, and electric energy is generated for the storage battery and is stored.

Preferably, the cooling device comprises a bearing chute fixed on the left rear side wall of the cooling cavity, a temperature control bearing is arranged in the bearing chute in a vertically sliding mode, a bearing spring is connected between the lower side wall of the temperature control bearing and the lower side wall of the bearing chute, a fan shaft is arranged on the temperature control bearing in a rotating mode, and moving fans are fixedly arranged at the left end and the right end of the fan shaft.

Preferably, the rainwater collecting device comprises a filter plate fixed in the water receiving port, a one-way valve is fixedly arranged on the lower side of the water receiving port, an electromagnetic slide block is arranged on the lower side of the one-way valve in a left-right sliding mode, a water guide pipe is fixedly arranged on the lower left side wall of the water receiving port, and a pressure valve is arranged in the water guide pipe.

When raining, rainwater falls downwards through the water receiving port, impurities are filtered by the filter plate, the rainwater flows downwards through the one-way valve, and when the rainwater collecting device is needed to be used, the electromagnetic slide block is started to move leftwards, so that the rainwater is pressed into the water guide pipe and is flushed out.

Preferably, the cleaning device comprises an electrically controlled curved groove fixedly arranged in the monitoring cover, the aqueduct extends into the monitoring cover to the electrically controlled curved groove, an opening is arranged at the position of the electrically controlled curved groove corresponding to the position, a curved groove slide block is arranged in the electrically controlled curved groove in an annular sliding manner, an ejector rod is fixedly arranged on the curved groove slide block, a clamping block groove is fixedly arranged on the lower side wall of the right side of the monitoring cover, a clamping block is arranged in the clamping block groove in a left-right sliding manner, a clamping block spring is connected between the clamping block and the side wall of the clamping block groove, a control block is fixedly arranged on the right side wall of the clamping block groove, the control block can control the clamping block to slide rightwards, the clamping block is used for clamping the curved groove slide block, a monitoring glass sleeve is fixedly arranged on the curved groove slide block, a gravity annular groove is fixedly arranged in the monitoring glass sleeve, an annular groove slide block is arranged on the gravity annular groove slide block, and is fixedly provided with a monitor, the storage battery is used for supplying power for the monitoring assistance.

Preferably, the fixed diversion swash plate that is equipped with on the lateral wall under the control cover, the diversion swash plate height from left to right the diversion swash plate with control glass cover surface butt, the fixed waste water collection mouth that is equipped with on the lateral wall of the left side under the casing, waste water collection mouth with diversion swash plate right side is connected, waste water collection mouth is used for waste water collection after the diversion swash plate uses, the fixed clean ring piece that is equipped with on the control cover inside wall, clean ring piece be used for right control glass cover surface cleans.

Preferably, a pneumatic cavity is fixedly arranged on the left lower side wall of the electric control bending groove, a piston is arranged in the pneumatic cavity in a vertically sliding mode, a piston spring is connected between the upper side wall of the piston and the upper side wall of the pneumatic cavity, an opening is fixedly arranged on the upper side wall of the pneumatic cavity, and the ejector rod can extend into the opening.

Preferably, the cooling intracavity is fixed and is equipped with the hydroecium, the intercommunication is equipped with the water inlet on the rear side wall of hydroecium, the water inlet with be connected with the hose between the mouthful downside is collected to the waste water, on the water inlet left side wall with be connected with the check valve hose between the lateral wall under the atmospheric pressure chamber, hydroecium front side intercommunication has the delivery port, the delivery port is connected with the sewage recovery room with the external world, the fixed compacting plate that is equipped with on the hydroecium.

Preferably, an air outlet is fixedly formed in the lower left side wall of the shell and is right opposite to the monitoring glass sleeve, and the air outlet is communicated with an opening in the right side of the cooling cavity.

When cleaning the control, through the rainwater blowout in the aqueduct, the rainwater flows to and controls on the glass cover, start the control block control fixture block and slide right in the fixture block inslot, relieve spacingly, start the curved groove slider and slide in automatically controlled curved groove, it is rotatory to drive control glass cover, it is rotatory to drive the gravity annular, make the annular slider remain at the bottom of gravity annular all the time under the action of gravity, the control remains to control the road surface below all the time and can not take place to remove, simultaneously along with the rotation of control glass cover, clean ring piece scrapes the brush cleanness to its surface, the intraductal blowout rainwater of aqueduct is blockked by the diversion swash plate and is changed the flow direction after passing control glass cover surface, make control glass cover below can not produce the water stain at all the time, guarantee to control and can not interrupt in the cleaning process to the control, and can not influenced.

The rivers of leading water swash plate of flowing through flow into in the waste water collection mouth, flow into to the hydroecium through the water inlet, when the curved groove slider removes to the leftmost end in automatically controlled curved groove, the ejector pin stretches into the atmospheric pressure intracavity, and the extrusion piston is downward for the atmospheric pressure intracavity produces high atmospheric pressure and passes through in the hydroecium, upwards extrudees the water in the hydroecium through fine and close board rapidly, cools down the cooling to the battery of the high temperature that produces because of the electricity generation.

Wind blows and moves the fan and drive the fan shaft rotatory, cool down the battery, simultaneously with blowing off hot-blast through the air outlet blow to control glass cover surface, the drop of water that will control glass cover surface condensation is dried, also can dry control glass cover surface after the cleanness, drying with higher speed, guarantee the definition of control, when the control by temperature change bearing detects outdoor high temperature, can start the control by temperature change bearing and slide downwards in the bearing spout, make the air outlet blow off cold wind, the protection control, the operational environment who provides the adaptation temperature.

After cleaning is completed, the curved groove sliding block is started to move and reset in the electric control curved groove, the curved groove sliding block is clamped by the clamping block, and the monitoring glass sleeve cannot move.

Compared with the prior art, the surface interference-free cleaning monitoring camera based on wind power generation has the following advantages:

1. the rainwater flow sprayed out of the water guide pipe passes through the surface of the monitoring glass sleeve and then is blocked by the water guide sloping plate to change the flow direction, so that water stain cannot be generated below the monitoring glass sleeve at all times, the monitoring is guaranteed not to be interrupted in the cleaning process of the monitoring, and the monitoring cannot be influenced.

2. The water in the water chamber is rapidly extruded upwards through the compact plate, and the high-temperature storage battery generated by power generation is cooled.

3. The drop of water that will monitor glass cover surface condensation is dried, also can dry the control glass cover surface after the cleanness, and the definition of control is guaranteed to drying with higher speed, when the control by temperature change bearing detected outdoor high temperature, can start the control by temperature change bearing and slide downwards in the bearing spout for the air outlet blows off cold wind, and the protection monitoring provides the operational environment who adapts to the temperature.

Drawings

Fig. 1 is a schematic structural diagram of a surface interference-free cleaning monitoring camera based on wind power generation.

Fig. 2 is a sectional view taken along a line a-a in fig. 1.

Fig. 3 is a sectional view taken along line B-B in fig. 1.

Fig. 4 is a sectional view taken along line C-C of fig. 1.

Fig. 5 is an enlarged view of the structure at D in fig. 1.

Fig. 6 is an enlarged view of the structure at E in fig. 1.

In the figure, 10, the housing; 11. a wind plate; 12. a torsion spring shaft; 13. a rotating rod; 14. a torsion spring; 15. a wind axis; 16. a movable fan; 17. a fan shaft; 18. a piston spring; 19. a temperature controlled bearing; 20. a bearing spring; 21. a bearing runner; 22. a cooling cavity; 23. monitoring the hood pole; 24. a monitoring shield; 25. a water diversion sloping plate; 26. cleaning the ring block; 27. monitoring the glass sleeve; 28. a gravity ring groove; 29. a ring groove sliding block; 30. monitoring; 32. an air outlet; 33. a waste water collection port; 34. a water conduit; 35. an electromagnetic slider; 36. a one-way valve; 37. filtering the plate; 38. a water receiving port; 39. a dense plate; 40. a battery; 41. a water chamber; 42. a water inlet; 43. a water outlet; 44. electrically controlling the curved slot; 45. a piston; 46. a pneumatic chamber; 47. a block slot; 48. a fixture block spring; 49. a clamping block; 50. a control block; 52. a curved slot slider; 53. and a push rod.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a surface non-interference cleaning monitoring camera based on wind power generation, including a housing 10, an upward open water receiving port 38 is fixedly arranged on the upper side wall of the housing 10, a rainwater collecting device is arranged in the water receiving port 38 and used for collecting rainwater, a cooling cavity 22 is arranged on the upper left side of the housing 10, a cooling device is arranged in the cooling cavity 22, a storage battery 40 is fixedly arranged in the cooling cavity 22, a wind power generation device is arranged on the storage battery 40 and used for providing electric power for the storage battery 40 by using wind energy and storing the electric power, a monitoring hood rod 23 is fixedly arranged on the lower left side wall of the housing 10, a monitoring hood 24 is fixedly arranged on the lower side of the monitoring hood rod 23, a cleaning device is arranged in the monitoring hood 24, and the cleaning device is used for cleaning a monitoring surface.

As shown in fig. 1 and 2, the wind power generation device includes a wind shaft 15 rotatably disposed on the battery 40, six sets of rotating rods 13 are annularly and fixedly disposed on the wind shaft 15, each set of rotating rods 13 is divided into an upper rotating rod and a lower rotating rod, each rotating rod 13 is rotatably disposed at the end far away from the wind shaft 15 and is provided with a torsion spring shaft 12, a torsion spring 14 is connected between the torsion spring shaft 12 and the side wall of the rotating rod 13, and wind plates 11 are fixedly disposed on the upper torsion spring shaft 12 and the lower torsion spring shaft 12 of each set of rotating rods 13.

When wind blows, the wind force can drive the wind force plate 11 to rotate, and meanwhile, under the action of the wind force, the torsion spring shaft 12 can start to rotate, so that the wind blows the wind force plate 11, the rotating rod 13 is driven to rotate, the wind force shaft 15 rotates, and electric energy is generated for the storage battery 40 and is stored.

As shown in fig. 1 and fig. 3, the cooling device includes a bearing sliding groove 21 fixed on the left rear side wall of the cooling cavity 22, a temperature control bearing 19 is slidably disposed in the bearing sliding groove 21 up and down, a bearing spring 20 is connected between the lower side wall of the temperature control bearing 19 and the lower side wall of the bearing sliding groove 21, a fan shaft 17 is rotatably disposed on the temperature control bearing 19, and a movable fan 16 is fixedly disposed at each of the left end and the right end of the fan shaft 17.

As shown in fig. 1, the rainwater collecting device includes a filter plate 37 fixed in a water receiving port 38, a check valve 36 is fixed on the lower side of the water receiving port 38, an electromagnetic slider 35 is arranged on the lower side of the check valve 36 in a left-right sliding manner, a water guiding pipe 34 is fixed on the lower left side wall of the water receiving port 38, and a pressure valve is arranged in the water guiding pipe 34.

When raining, rainwater falls down through the water receiving port 38, sundries are filtered by the filter plate 37, the rainwater goes down through the one-way valve 36, and when the rainwater is needed, the electromagnetic slide block 35 is started to move leftwards, so that the rainwater is pressed into the water guide pipe 34 to be flushed out.

As shown in fig. 1 and fig. 6, the cleaning device includes an electrically controlled curved groove 44 fixedly disposed in the monitoring cover 24, the water conduit 34 extends into the monitoring cover 24 to the electrically controlled curved groove 44, an opening is disposed at the position of the electrically controlled curved groove 44 corresponding to the position, a curved groove slide block 52 is disposed in the electrically controlled curved groove 44 in an annular sliding manner, a push rod 53 is fixedly disposed on the curved groove slide block 52, a block groove 47 is fixedly disposed on a lower side wall of a right side of the monitoring cover 24, a block 49 is disposed in the block groove 47 in a left-right sliding manner, a block spring 48 is connected between the block 49 and a side wall of the block groove 47, a control block 50 is fixedly disposed on a right side wall of the block groove 47, the block 50 can control the block 49 to slide rightwards, the block 49 is used for blocking the curved groove slide block 52, a monitoring glass sleeve 27 is fixedly disposed on the curved groove slide block 52, a gravity ring groove 28 is fixedly disposed in the monitoring glass sleeve 27, a ring groove slide block 29 is slidably disposed on the gravity ring groove 28, a monitoring 30 is fixedly disposed on the ring slide block 29, the battery 40 is used to assist in supplying power to the monitor 30.

As shown in fig. 1 and 3, the lower side wall of the monitoring cover 24 is fixedly provided with a water diversion inclined plate 25, the water diversion inclined plate 25 is higher on the left side and lower on the right side and is abutted to the surface of the monitoring glass sleeve 27, the lower left side wall of the shell 10 is fixedly provided with a wastewater collection port 33, the wastewater collection port 33 is connected with the right side of the water diversion inclined plate 25, the wastewater collection port 33 is used for collecting wastewater after the water diversion inclined plate 25 is used, the inner side wall of the monitoring cover 24 is fixedly provided with a cleaning ring block 26, and the cleaning ring block 26 is used for cleaning the surface of the monitoring glass sleeve 27.

As shown in fig. 1 and 5, a pneumatic chamber 46 is fixedly arranged on the lower left side wall of the electrically controlled curved slot 44, a piston 45 is slidably arranged in the pneumatic chamber 46 up and down, a piston spring 18 is connected between the upper side wall of the piston 45 and the upper side wall of the pneumatic chamber 46, an opening is fixedly arranged on the upper side wall of the pneumatic chamber 46, and the push rod 53 can extend into the opening.

As shown in fig. 1 and 4, a water chamber 41 is fixedly arranged in the cooling cavity 22, a water inlet 42 is communicated with the rear side wall of the water chamber 41, a hose is connected between the water inlet 42 and the lower side of the wastewater collection port 33, a check valve hose is connected between the left side wall of the water inlet 42 and the lower side wall of the air pressure cavity 46, a water outlet 43 is communicated with the front side of the water chamber 41, the water outlet 43 is connected with a wastewater recovery chamber, and a dense plate 39 is fixedly arranged on the water chamber 41.

As shown in fig. 1, an air outlet 32 is fixedly disposed on the lower left side wall of the casing 10, the air outlet 32 faces the monitoring glass sleeve 27, and the air outlet 32 is communicated with an opening on the right side of the cooling cavity 22.

When the monitoring is cleaned, the rainwater in the water guide pipe 34 is sprayed out, the rainwater flows onto the monitoring glass sleeve 27, the starting control block 50 controls the fixture block 49 to slide rightwards in the fixture block groove 47 to remove the limit, the starting curved groove slide block 52 slides in the electric control curved groove 44 to drive the monitoring glass sleeve 27 to rotate and drive the gravity ring groove 28 to rotate, so that the ring groove slide block 29 is always kept at the lowest end of the gravity ring groove 28 under the action of gravity, the monitoring 30 is always kept to monitor the road surface below and cannot move, meanwhile, as the monitoring glass sleeve 27 rotates, the cleaning ring block 26 scrapes and brushes the surface of the monitoring glass sleeve, rainwater sprayed from the water guide pipe 34 flows through the surface of the monitoring glass sleeve 27 and then is blocked by the water guide sloping plate 25 to change the flow direction, so that no water stain is generated below the monitoring glass sleeve 27 at all, and the monitoring is ensured not to be interrupted and not to be influenced in the cleaning process of the monitoring.

The water flow flowing through the water diversion sloping plate 25 flows into the waste water collecting port 33 and flows into the water chamber 41 through the water inlet 42, when the curved groove slide block 52 moves to the leftmost end in the electric control curved groove 44, the ejector rod 53 extends into the air pressure chamber 46, the extrusion piston 45 is downward, so that high air pressure generated in the air pressure chamber 46 passes through the water chamber 41, the water in the water chamber 41 is rapidly extruded upwards through the compact plate 39, and the storage battery 40 with high temperature generated due to power generation is cooled.

Wind blows and moves 16 drive fan shaft 17 rotatoryly, cool down battery 40, simultaneously with blowing off hot-blast through air outlet 32 blow to control glass cover 27 surface, the drop of water that will control glass cover 27 surface condensation dries, also can dry control glass cover 27 surface after the cleanness, drying with higher speed, guarantee the definition of control, when control by temperature change bearing 19 detects outdoor temperature too high, can start control by temperature change bearing 19 and slide down in bearing spout 21, make air outlet 32 blow off cold wind, the protection control, the operational environment who provides adaptation temperature.

After cleaning is finished, the curved slot sliding block 52 is started to move and reset in the electric control curved slot 44, the curved slot sliding block 52 is clamped by the clamping block 49, and the monitoring glass sleeve 27 is guaranteed not to move.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A surface interference-free cleaning monitoring camera based on wind power generation comprises a shell (10) and is characterized in that a water receiving opening (38) which is opened upwards is fixedly formed in the upper side wall of the shell (10), a rainwater collecting device is arranged in the water receiving opening (38) and used for collecting rainwater and comprises a filter plate (37) fixed in the water receiving opening (38), a one-way valve (36) is fixedly arranged on the lower side of the water receiving opening (38), an electromagnetic slide block (35) is arranged on the lower side of the one-way valve (36) in a left-right sliding mode, a water guide pipe (34) is fixedly arranged on the lower left side wall of the water receiving opening (38), a pressure valve is arranged in the water guide pipe (34), a cooling cavity (22) is formed in the upper left side of the shell (10), a cooling device is arranged in the cooling cavity (22), a storage battery (40) is fixedly arranged in the cooling cavity (22), the wind power generation device is arranged on the storage battery (40) and used for utilizing wind energy to supply power to the storage battery (40) and store the power, a monitoring cover rod (23) is fixedly arranged on the left lower side wall of the shell (10), a monitoring cover (24) is fixedly arranged on the lower side of the monitoring cover rod (23), a cleaning device is arranged in the monitoring cover (24) and used for cleaning a monitoring surface, the cleaning device comprises an electric control bent groove (44) fixedly arranged in the monitoring cover (24), the water guide pipe (34) extends into the monitoring cover (24) to the electric control bent groove (44), an opening is formed in the position of the electric control bent groove (44) corresponding to the position, a bent groove sliding block (52) is arranged in the electric control bent groove (44) in an annular sliding manner, a push rod (53) is fixedly arranged on the bent groove sliding block (52), and a clamping block groove (47) is fixedly arranged on the right lower side wall of the monitoring cover (24), the utility model discloses a solar water diversion instrument, including draw water sloping plate (25), draw water sloping plate (25) and control glass cover (27) auxiliary power supply, draw water sloping plate (25) high right side low draw water sloping plate (25) with be equipped with fixture block (49) between fixture block groove (47) the lateral wall, fixed control block (50) that are equipped with on fixture block groove (47) the lateral wall, control block (50) can control fixture block (49) slides right, fixture block (49) are used for blocking bend groove slider (52), bend groove slider (52) are gone up to fix and are equipped with control glass cover (27), control glass cover (27) internal fixation is equipped with gravity annular (28), it is equipped with annular slider (29) to slide on gravity annular slider (28), fixed control (30) that are equipped with on annular slider (29), battery (40) are used for and give control (30) auxiliary power supply, fixed water diversion sloping plate (25) that are equipped with on the lateral wall under control cover (24), draw water sloping plate (25) high right side low draw water sloping plate (25) a left side water sloping plate (25) with control glass cover (27) table (27) The face butt, fixed waste water collection mouth (33) that is equipped with on the left side wall under casing (10), waste water collection mouth (33) with diversion swash plate (25) right side is connected, waste water collection mouth (33) are used for diversion swash plate (25) use back waste water collection, fixed clean ring piece (26) that is equipped with on control cover (24) inside wall, clean ring piece (26) be used for right control glass cover (27) surface is cleaned.

2. The surface non-interference cleaning monitoring camera based on wind power generation as claimed in claim 1, characterized in that: wind power generation set is in including rotating wind shaft (15) on battery (40), annular fixed six bull sticks (13) of being equipped with on wind shaft (15), two about every bull stick (13) divide into, keep away from every bull stick (13) wind shaft (15) serve the rotation and are equipped with torsional spring axle (12), torsional spring axle (12) with be connected with torsional spring (14) between bull stick (13) lateral wall, two about every bull stick (13) be fixed on torsional spring axle (12) and be equipped with wind plate (11).

3. The surface non-interference cleaning monitoring camera based on wind power generation as claimed in claim 2, characterized in that: the cooling device comprises a bearing sliding groove (21) fixed on the left rear side wall of the cooling cavity (22), a temperature control bearing (19) is arranged in the bearing sliding groove (21) in a sliding mode, a bearing spring (20) is connected between the lower side wall of the bearing sliding groove (21) and the lower side wall of the temperature control bearing (19), a fan shaft (17) is arranged on the temperature control bearing (19) in a rotating mode, and moving fans (16) are fixedly arranged at the left end and the right end of the fan shaft (17).

4. The surface non-interference cleaning monitoring camera based on wind power generation as claimed in claim 3, characterized in that: the electronic control bending groove is characterized in that a pneumatic cavity (46) is fixedly arranged on the left lower side wall of the electronic control bending groove (44), a piston (45) is arranged in the pneumatic cavity (46) in a vertically sliding mode, a piston spring (18) is connected between the upper side wall of the piston (45) and the upper side wall of the pneumatic cavity (46), an opening is fixedly arranged on the upper side wall of the pneumatic cavity (46), and the ejector rod (53) can extend into the opening.

5. The surface non-interference cleaning monitoring camera based on wind power generation as claimed in claim 4, wherein: the utility model discloses a solar water heater, including cooling chamber (22), intercommunication on the back lateral wall of hydroecium (41) are equipped with hydroecium (41), cooling chamber (22) internal fixation is equipped with hydroecium (41), the intercommunication is equipped with water inlet (42) on the back lateral wall of hydroecium (41), water inlet (42) with be connected with the hose between mouthful (33) downside is collected to waste water, on the water inlet (42) left side wall with be connected with the check valve hose between the lateral wall under atmospheric pressure chamber (46), hydroecium (41) front side intercommunication has delivery port (43), delivery port (43) are connected with the sewage recovery room with the external world, fixed compacting plate (39) that is equipped with on hydroecium (41).

6. The surface non-interference cleaning monitoring camera based on wind power generation as claimed in claim 5, wherein: an air outlet (32) is fixedly arranged on the lower left side wall of the shell (10), the air outlet (32) is right opposite to the monitoring glass sleeve (27), and the air outlet (32) is communicated with an opening on the right side of the cooling cavity (22).