CN110108353B - Urban environmental noise monitoring equipment based on big data - Google Patents
Urban environmental noise monitoring equipment based on big data Download PDFInfo
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- CN110108353B CN110108353B CN201910400430.5A CN201910400430A CN110108353B CN 110108353 B CN110108353 B CN 110108353B CN 201910400430 A CN201910400430 A CN 201910400430A CN 110108353 B CN110108353 B CN 110108353B
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- radio reception
- bevel gear
- fixedly connected
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- heating fluid
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B21/00—Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01H—MEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES
- G01H17/00—Measuring mechanical vibrations or ultrasonic, sonic or infrasonic waves, not provided for in the preceding groups
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- General Physics & Mathematics (AREA)
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- General Engineering & Computer Science (AREA)
- Measurement Of Mechanical Vibrations Or Ultrasonic Waves (AREA)
Abstract
The invention provides urban environmental noise monitoring equipment based on big data, and relates to the technical field of noise monitoring. This city environmental noise monitoring facilities based on big data, the on-line screen storage device comprises a base, the top fixed mounting of base has the bracing piece, the peripheral sliding connection of bracing piece has the lantern ring, sliding connection has the solar energy electroplax between the periphery of the lantern ring and the top of base, the front end fixedly connected with control box of bracing piece, the inside sliding connection of bracing piece has the lifter, the front end fixedly connected with display screen of lifter. This urban environment noise monitoring facilities based on big data utilizes wind-force can blow in the protection casing with producing steam in the heat production pipeline for keep dry in the radio reception device, thereby improved the radio reception effect of radio reception microphone, and utilizes the design of baffle and through-hole, has avoided the rainwater to enter into the protection casing in to the damage that causes of radio reception microphone, has improved the life of radio reception device.
Description
Technical Field
The invention relates to the technical field of noise monitoring, in particular to urban environmental noise monitoring equipment based on big data.
Background
The noise is the sound of frequency, the intensity change is irregular, disorderly and disorderly, from the physiology all prevent people's normal rest, study and the sound of work to and the sound that people want to listen produces the sound of interference, and the noise is one of environmental pollution also, has certain harm to people's health, and the city mainly comes from the car in street or some mills, consequently all can install the noise monitoring devices in the mill or on the road to the production of prevention high decibel noise.
And in order to reach good radio reception effect, improve the data of noise monitoring, urban noise monitoring devices all installs outdoors spaciously, when the weather of rainfall, will influence the effect of radio reception, and cause the damage to the radio reception device easily, monitoring devices's life has been reduced, and moist environment can influence the pulse of noise, and then influence the effect of radio reception, and traditional monitoring devices are comparatively bulky, be not convenient for shift, and can't adjust the height of radio reception microphone, the practicality is poor.
Disclosure of Invention
The urban environmental noise monitoring equipment based on the big data has the advantages that hot air generated in a heat production pipeline can be blown into the protective cover by wind power, so that the interior of the radio receiving device is kept dry, the radio receiving effect of the radio receiving microphone is improved, the design of the baffle plate and the through hole is utilized, rainwater is prevented from entering the protective cover to damage the radio receiving microphone, and the service life of the radio receiving device is prolonged.
In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an urban environment noise monitoring facilities based on big data, includes base, bracing piece, lantern ring, solar energy electroplax, control box, lifter, display screen, drying device, radio reception device, universal wheel.
The drying device comprises a frame body, a propeller, a first bevel gear, a second bevel gear, a third bevel gear, fan blades, an oil pressure pump, a vent hole and a heating device.
Wherein, the heating device comprises a heat production pipeline, a heating fluid inlet, a shunting hole, a merging hole, a heating fluid outlet and a circulating pipeline.
Wherein, the radio reception device comprises a protective cover, a baffle, a through hole and a radio reception microphone.
Wherein:
the utility model discloses a solar energy drying device, including base, the top fixed mounting of base has the bracing piece, the peripheral sliding connection of bracing piece has the lantern ring, sliding connection has the solar energy electroplax between the periphery of the lantern ring and the top of base, the front end fixed connection of bracing piece has the control box, the inside sliding connection of bracing piece has the lifter, the front end fixed connection of lifter has the display screen, the top fixed mounting of lifter has drying device, the top fixedly connected with radio reception device at drying device center, the bottom fixedly connected with universal wheel of base.
Preferably, the top of framework both sides is rotated and is connected with the screw, the bottom fixed mounting of screw has first bevel gear, the left and right sides of first bevel gear has second bevel gear and third bevel gear respectively to mesh, the left end fixedly connected with flabellum of second bevel gear, the right-hand member fixedly connected with oil hydraulic pump of third bevel gear, the ventilation hole has been seted up to the both sides of framework, the right-hand member fixedly connected with heating device of oil hydraulic pump drives the screw rotation through wind-force to utilize the meshing of gear to drive the synchronous rotation of second bevel gear and third bevel gear, second bevel gear drives the flabellum rotation, and third bevel gear drives the oil hydraulic pump and operates.
Preferably, a heat production pipeline penetrates through the inside of the frame body, a heat production fluid inlet is formed in the top of the heat production pipeline, a shunting hole is formed in the periphery of the bottom of the heat production fluid inlet, a merging hole is formed below the shunting hole in the heat production pipeline, a heat production fluid outlet is formed in the bottom of the heat production pipeline, a circulating pipeline is fixedly connected between the heat production fluid inlet and the heat production fluid outlet, and heat production fluid can enter from the heat production fluid inlet under the action of an oil pressure pump and flows into the circulating pipeline from the heat production fluid outlet after passing through the shunting hole and the merging hole, so that the heat production fluid circularly flows and heat is generated in the heat production pipeline.
Preferably, the peripheral fixed mounting of protection casing has the baffle, the through-hole has been seted up between the peripheral baffle of protection casing, the inside fixedly connected with radio reception microphone of protection casing, through the design of baffle and through-hole, can avoid the rainwater to enter into in the protection casing.
The invention provides urban environmental noise monitoring equipment based on big data. The method has the following beneficial effects:
1. this urban environment noise monitoring facilities based on big data, through drying device's design, it is rotatory to utilize wind energy to drive the flabellum to drive the oil hydraulic pump and make the heating fluid in heating device flow in heat production pipeline and circulating pipeline, make the heating fluid produce the heat in heat production pipeline, blow in the protection casing through the steam that the flabellum will produce, make and keep dry in the radio reception device, thereby improved the radio reception effect of radio reception microphone.
2. This urban environment noise monitoring facilities based on big data, the design through the universal wheel can be convenient for monitoring devices's transfer and transport, and through the design of baffle and through-hole in the radio reception device, when rainwater weather, when guaranteeing the normal radio reception of radio reception microphone, avoided the rainwater to enter into the protection casing in to the damage that causes of radio reception microphone, improved the life of radio reception device.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the structure of the drying apparatus according to the present invention;
FIG. 3 is a schematic view of the structure of FIG. 2 at A-A in accordance with the present invention;
FIG. 4 is a cross-sectional view of the sound-receiving device of the present invention.
In the figure: the solar energy heating device comprises a base 1, a support rod 2, a lantern ring 3, a solar panel 4, a control box 5, a lifting rod 6, a display screen 7, a drying device 8, a frame 81, a propeller 82, a first bevel gear 83, a second bevel gear 84, a third bevel gear 85, fan blades 86, an oil pressure pump 87, a vent hole 88, a heating device 89, a heat generating pipeline 89a, a heating fluid inlet 89b, a shunting hole 89c, a confluence hole 89d, a heating fluid outlet 89e, a circulating pipeline 89f, a sound receiving device 9, a protective cover 91, a baffle 92, a through hole 93, a sound receiving microphone 94 and a universal wheel 10.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The embodiment of the urban environmental noise monitoring equipment based on the big data is as follows:
referring to fig. 1-4, an urban environmental noise monitoring device based on big data includes a base 1, a support rod 2, a lantern ring 3, a solar panel 4, a control box 5, a lifting rod 6, a display screen 7, a drying device 8, a radio device 9, and a universal wheel 10.
The drying device 8 includes a frame 81, a propeller 82, a first bevel gear 83, a second bevel gear 84, a third bevel gear 85, a fan blade 86, a hydraulic pump 87, a vent hole 88, and a heating device 89.
The heating device 89 includes a heat-generating pipe 89a, a heating fluid inlet 89b, a branch hole 89c, a merging hole 89d, a heating fluid outlet 89e, and a circulation pipe 89 f.
Wherein, the sound receiving device 9 comprises a protective cover 91, a baffle 92, a through hole 93 and a sound receiving microphone 94.
Wherein:
the solar energy electric heating cabinet is characterized in that a supporting rod 2 is fixedly installed at the top end of a base 1, a lantern ring 3 is connected to the periphery of the supporting rod 2 in a sliding mode, a solar electric plate 4 is connected between the periphery of the lantern ring 3 and the top of the base 1 in a sliding mode, a control box 5 is connected to the front end of the supporting rod 2 in a fixed mode, a lifting rod 6 is connected to the inside of the supporting rod 2 in a sliding mode, a display screen 7 is connected to the front end of the lifting rod 6 in a sliding mode, a drying device 8 is fixedly installed at the top end of the lifting rod 6, propellers 82 are rotatably connected to the tops of the two sides of a frame body 81, first bevel gears 83 are fixedly installed at the bottom ends of the propellers 82, second bevel gears 84 and third bevel gears 85 are respectively meshed to the left side and the right side of the first bevel gears 83, fan blades 86, the propeller 82 is driven to rotate by wind power, the second bevel gear 84 and the third bevel gear 85 are driven to synchronously rotate by meshing of gears, the second bevel gear 84 drives the fan blades 86 to rotate, the third bevel gear 85 drives the oil hydraulic pump 87 to operate, a heat generating pipeline 89a penetrates through the frame 81, a heating fluid inlet 89b is formed in the top of the heat generating pipeline 89a, a shunting hole 89c is formed in the periphery of the bottom of the heating fluid inlet 89b, a closing hole 89d is formed below the shunting hole 89c in the heat generating pipeline 89a, a heating fluid outlet 89e is formed in the bottom of the heat generating pipeline 89a, a circulating pipeline 89f is fixedly connected between the heating fluid inlet 89b and the heating fluid outlet 89e, and the heating fluid can enter from the heating fluid inlet 89b under the action of the oil hydraulic pump 87 and flows into the circulating pipeline 89f from the heating fluid outlet 89e after passing through the shunting hole 89c and the converging hole 89d, thereby realize the circulation flow of heating fluid to produce the heat in heat production pipeline 89a, through drying device 8's design, utilize wind energy can drive flabellum 86 rotatory, and drive oil hydraulic pump 87 and make the heating fluid in heating device 89 flow in heat production pipeline 89a and circulating line 89f, make the heating fluid produce the heat in heat production pipeline 89a, blow into protection casing 91 through the steam that flabellum 86 will produce in, make and keep dry in the radio reception device 9, thereby improved the radio reception effect of radio reception microphone 94.
The top fixedly connected with radio reception device 9 at drying device 8 center, the peripheral fixed mounting of protection casing 91 has baffle 92, through-hole 93 has been seted up between the peripheral baffle 92 of protection casing 91, the inside fixedly connected with radio reception microphone 94 of protection casing 91, through the design of baffle 92 and through-hole 93, can avoid the rainwater to enter into in the protection casing 91, the bottom fixedly connected with universal wheel 10 of base 1, the design through universal wheel 10 can be convenient for monitoring devices's transfer and transport, and through the design of baffle 92 and through-hole 93 in the radio reception device 9, when rainwater weather, when guaranteeing the normal radio reception of radio reception microphone 94, avoided the rainwater to enter into the protection casing 91 in to the damage of radio reception microphone 94, radio reception device 9's life has been improved.
When in use, the monitoring device is moved to a designated working area through the universal wheel 10 at the bottom end of the base 1, solar energy can be converted into electric energy by the solar panel 4 and stored for the monitoring device to use, after the monitoring device is opened, the sound receiving microphone 94 can receive surrounding noise, and the decibel value of the noise is displayed through the display screen 7 at the front end, so that real-time monitoring of the noise is realized, and in windy weather, the propeller 82 can be rotated by wind power, the second bevel gear 84 and the third bevel gear 85 can also be synchronously rotated through the meshing of the first bevel gear 83 at the bottom end of the propeller 82 with the second bevel gear 84 and the third bevel gear 85, so that the second bevel gear 84 can drive the fan blades 86 to rotate, and the third bevel gear 85 can drive the oil pressure pump 87 to operate, so that the heating fluid circularly flows in the heat generating pipeline 89a and the circulating pipeline 89f, make thereby the continuous confluence of heating fluid in heat production pipeline 89a and the wind current make heat production pipeline 89a produce certain heat, and the rotation through flabellum 86 can blow into protection casing 91 with the hot-blast that heat production pipeline 89a produced, thereby the drying in the radio reception device 9 has been guaranteed, the radio reception effect of radio reception device 9 has been improved, and when rainfall weather, through baffle 92 and through-hole 93's effect, when guaranteeing the normal radio reception of radio reception microphone 94, avoided the rainwater to enter into the damage to radio reception microphone 94 in the protection casing 91, the life of radio reception device 9 has been improved.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (2)
1. The utility model provides a city environmental noise monitoring facilities based on big data, includes base (1), its characterized in that: the solar energy water heater is characterized in that a supporting rod (2) is fixedly installed at the top end of the base (1), a sleeve ring (3) is connected to the periphery of the supporting rod (2) in a sliding mode, a solar panel (4) is connected between the periphery of the sleeve ring (3) and the top of the base (1) in a sliding mode, a control box (5) is fixedly connected to the front end of the supporting rod (2), a lifting rod (6) is connected to the inside of the supporting rod (2) in a sliding mode, a display screen (7) is fixedly connected to the front end of the lifting rod (6), a drying device (8) is fixedly installed at the top end of the lifting rod (6), a radio device (9) is fixedly connected to the top end of the center of the drying device (8); the drying device (8) comprises a frame body (81), a propeller (82), a first bevel gear (83), a second bevel gear (84), a third bevel gear (85), fan blades (86), an oil pressure pump (87), a vent hole (88) and a heating device (89), the tops of two sides of the frame body (81) are rotatably connected with propellers (82), the bottom ends of the propellers (82) are fixedly provided with first bevel gears (83), the left side and the right side of the first bevel gear (83) are respectively engaged with a second bevel gear (84) and a third bevel gear (85), the left end of the second bevel gear (84) is fixedly connected with a fan blade (86), the right end of the third bevel gear (85) is fixedly connected with an oil pressure pump (87), vent holes (88) are formed in two sides of the frame body (81), and a heating device (89) is fixedly connected to the right end of the oil pressure pump (87); heating device (89) including heat production pipeline (89 a), heating fluid entry (89 b), reposition of redundant personnel hole (89 c), confluence hole (89 d), heating fluid export (89 e), circulating line (89 f), the inside of framework (81) is run through heat production pipeline (89 a), heating fluid entry (89 b) have been seted up at the top of heat production pipeline (89 a), reposition of redundant personnel hole (89 c) have been seted up to the periphery of heating fluid entry (89 b) bottom, confluence hole (89 d) have been seted up to the below of heat production pipeline (89 a) inside reposition of redundant personnel hole (89 c), heating fluid export (89 e) have been seted up to the bottom of heat production pipeline (89 a), fixedly connected with circulating line (89 f) between heating fluid entry (89 b) and the heating fluid export (89 e).
2. The big data-based urban environmental noise monitoring device according to claim 1, wherein: the radio reception device (9) is including protection casing (91), baffle (92), through-hole (93), radio reception microphone (94), the peripheral fixed mounting of protection casing (91) has baffle (92), through-hole (93) have been seted up between protection casing (91) peripheral baffle (92), the inside fixedly connected with radio reception microphone (94) of protection casing (91).
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CN201910400430.5A CN110108353B (en) | 2019-05-15 | 2019-05-15 | Urban environmental noise monitoring equipment based on big data |
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CN201910400430.5A CN110108353B (en) | 2019-05-15 | 2019-05-15 | Urban environmental noise monitoring equipment based on big data |
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CN110108353B true CN110108353B (en) | 2021-05-25 |
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CN110940413A (en) * | 2019-11-14 | 2020-03-31 | 耿世超 | Noise monitoring device for urban traffic intellectualization |
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CN103148571A (en) * | 2013-03-19 | 2013-06-12 | 广东吉荣空调有限公司 | Wind energy heating unit and operation method thereof |
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Effective date of registration: 20210303 Address after: Room 1-102, No.36, Qianfo Shanxi Road, Lixia District, Jinan City, Shandong Province, 250013 Applicant after: Shandong bianjian Technology Group Co.,Ltd. Address before: No. 260, group 5, Gaizhuang, Liangzhai Town, Feng County, Xuzhou City, Jiangsu Province, 221741 Applicant before: Zhang Ling |
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