CN205581135U - Wind speed and direction detection device - Google Patents

Abstract

The utility model discloses a wind speed and direction detection device, including axis of rotation, a pair of wind channel curb plate, first rotation axle sleeve, wind direction arrow point, second rotation axle sleeve, three vane connecting rods, three wind speed detect cup, orientation compass, rolling bearing, installation chassis, the accurate pole of direction indicator, unable adjustment base and a pair of curb plate connecting rod with the wind, the axis of rotation is through rotating even installation chassis with the wind, and first rotation axle sleeve, second rotation axle sleeve, orientation compass cover are in axis of rotation with the wind, and the wind channel curb plate passes through even first rotations axle sleeve of curb plate connecting rod, and the wind direction arrow point is established and is put in first axis of rotation, the vane connecting rod even the second rotate the axle sleeve and the wind speed detects the cup, the accurate pole of direction indicator is established on the installation chassis and sensing orientation compass, the installation chassis is established on unable adjustment base. The utility model discloses can be used for detecting wind direction and wind speed, testing result accuracy and precision are higher, and the power supply of accessible solar energy is energy -concerving and environment -protective.

Description

A kind of wind speed and direction detection device

Technical field

This utility model relates to a kind of detection equipment, particularly relates to a kind of wind speed and direction detection device.

Background technology

Vile weather phenomenon can affect express way driving safety, easily causes the generation of vehicle accident, and in agriculture field, engineering field, tool has a significant impact too, and therefore the detection of wind direction, wind speed etc. is an important reference index.The wind direction and wind velocity structure of the detecting device of prior art is simple, and detection degree of accuracy is low, and can only be by power supplies such as batteries, not environmentally.

Utility model content

The purpose of this utility model: offer a kind of wind speed and direction detection device, simple in construction, use, easy accessibility, low cost, widely applicable.

To achieve these goals, the technical solution of the utility model is:

A kind of wind speed and direction detection device, including rotary shaft with the wind, a pair air channel side plate, the first rotary axle box, wind direction arrow, the second rotary axle box, three vane connecting rods, three wind speed measurement cups, direction compass, rolling bearing, installation chassis, direction par, firm banking and pair of side plates connecting rod；The lower end of described rotary shaft with the wind is vertically arranged in the center of top of described installation chassis by described rolling bearing, and described rotary shaft with the wind is rotated by described rolling bearing；The first described rotary axle box is coaxially nested with the upper end in described rotary shaft with the wind, one end of a pair described air channel side plate is connected to by described pair of side plates connecting rod on a side end face of the first described rotary axle box respectively, a pair described air channel side plate is the platy structure that one end is thick, the other end is thin, and described a pair air channel side plate is vertical and arranged in parallel, between a pair described air channel side plate, form ventilating duct；Described wind direction arrow is arranged on the opposite side end face of the first described rotary axle box, and the length direction of described wind direction arrow is parallel with the length direction of described ventilating duct；The second described rotary axle box is coaxially nested with the middle part in described rotary shaft with the wind, it is positioned at the lower section of the first described rotary axle box, one end of three described vane connecting rods is respectively separated and is connected on the second described rotary axle box, the other end of three described vane connecting rods is corresponding with described three wind speed measurement cups respectively to be connected, three described wind speed measurement cups are hemisphere face structure, and the setting direction of three described wind speed measurement cups is identical；Described direction compass is co-axially located at the bottom of described rotary shaft with the wind, and with described rotary shaft synchronous axial system with the wind, described direction par is vertically arranged on described installation chassis, is positioned at the side of described direction compass, and the direction compass described in sensing；Described installation chassis is fixedly installed on described firm banking, and described firm banking is I-shaped structure, and the described built-in chargeable electric supply installation of firm banking.

Above-mentioned wind speed and direction detection device, wherein, the both sides of described installation chassis are connected by universal drive shaft respectively solar panel, and described solar panel rotates around described universal drive shaft.

Above-mentioned wind speed and direction detection device, wherein, the two bottom sides of described firm banking is respectively equipped with slot, the both sides of described solar panel folding storage to described firm banking, and is inserted in described slot.

Above-mentioned wind speed and direction detection device, wherein, the upper surface of described rolling bearing is circumferentially with angle index line, and the bottom of described rotary shaft with the wind is provided with reference mark line, the described angle index line described in the sensing of reference mark line.

Above-mentioned wind speed and direction detection device, wherein, the second described rotary axle box includes the rotation internal axle sleeve being coaxially socketed and rotates outer shaft, and the described outer shaft that rotates relatively rotates with described rotation internal axle sleeve.

This utility model can be used for detecting wind direction and wind speed, and testing result accuracy and precision are higher, can be by solar powered, energy-conserving and environment-protective.

Accompanying drawing explanation

Fig. 1 is the front view of a kind of wind speed and direction of this utility model detection device.

Fig. 2 is the installation top view of a pair air channel side plate of a kind of wind speed and direction of this utility model detection device.

Fig. 3 is the installation top view of three wind speed measurement cups of a kind of wind speed and direction of this utility model detection device.

Fig. 4 is the structural representation of the rolling bearing of a kind of wind speed and direction of this utility model detection device.

Detailed description of the invention

Embodiment of the present utility model is further illustrated below in conjunction with accompanying drawing.

Refer to shown in accompanying drawing 1 to accompanying drawing 3, a kind of wind speed and direction detection device, including rotary shaft 1 with the wind, a pair air channel side plate the 2, first rotary axle box 3, wind direction arrow the 4, second rotary axle box 6, three wind speed measurement cups 7 of 5, three vane connecting rods, direction compass 8, rolling bearing 9, installation chassis 10, direction par 11, firm banking 12 and pair of side plates connecting rod 13；The lower end of described rotary shaft with the wind 1 is vertically arranged in the center of top of described installation chassis 10 by described rolling bearing 9, and described rotary shaft with the wind 1 is rotated by described rolling bearing 9；The first described rotary axle box 3 is coaxially nested with in the upper end of described rotary shaft with the wind 1, one end of a pair described air channel side plate 2 is connected to by described pair of side plates connecting rod 13 on a side end face of the first described rotary axle box 3 respectively, described a pair air channel side plate 2 is the platy structure that one end is thick, the other end is thin, and described a pair air channel side plate 2 is vertical and arranged in parallel, between a pair described air channel side plate 2, form ventilating duct；Described wind direction arrow 4 is arranged on the opposite side end face of the first described rotary axle box 3, and the length direction of described wind direction arrow 4 is parallel with the length direction of described ventilating duct；The second described rotary axle box 5 is coaxially nested with at the middle part of described rotary shaft with the wind 1, it is positioned at the lower section of the first described rotary axle box 3, one end of three described vane connecting rods 6 is respectively separated and is connected on the second described rotary axle box 5, the other end of three described vane connecting rods 6 is corresponding with described three wind speed measurement cups 7 respectively to be connected, described three wind speed measurement cups 7 are hemisphere face structure, and the setting direction of three described wind speed measurement cups 7 is identical；Described direction compass 8 is co-axially located at the bottom of described rotary shaft with the wind 1, and with described rotary shaft with the wind 1 synchronous axial system, described direction par 11 is vertically arranged on described installation chassis 10, is positioned at the side of described direction compass 8, and the direction compass 8 described in sensing；Described installation chassis 10 is fixedly installed on described firm banking 12, the built-in chargeable electric supply installation of firm banking 12 that described firm banking 12 is in I-shaped structure and described.

The both sides of described installation chassis 10 are connected by universal drive shaft 14 respectively solar panel 15, described solar panel 15 rotates around described universal drive shaft 14, the solar energy that can make full use of outdoor is the charging of chargeable electric supply installation, reduce energy consumption, the direction of solar panel 15 is adjustable so that it is towards the direction of sunlight.

The two bottom sides of described firm banking 12 is respectively equipped with slot 16, the both sides of described solar panel 15 folding storage to described firm banking 12, and is inserted in described slot 16, can be used for receiving solar panel, it is simple to use in the rainy day.

Refer to shown in accompanying drawing 4, it is circumferentially with angle index line 17 on the upper surface of described rolling bearing 9, the bottom of described rotary shaft with the wind 1 is provided with reference mark line 18, and described reference mark line 18 points to described angle index line 17, can be used for checking the concrete angle that rotary shaft 1 rotates with the wind.

The second described rotary axle box 5 includes the rotation internal axle sleeve 51 being coaxially socketed and rotates outer shaft 52, the described outer shaft 52 that rotates relatively rotates with described rotation internal axle sleeve 51, the rotation making three wind speed measurement cups 7 and rotary shaft 1 with the wind is separate, it is to avoid the detection of wind speed affects the detection of wind direction.

During use, this utility model is fixed on by firm banking 12 place of spaciousness, wind blows a pair air channel side plate 2 and is passed to the first rotary axle box 3 and drives rotary shaft 1 with the wind to rotate, until a pair air channel side plate 2 is consistent with wind direction, now wind direction arrow 4 is wind direction, can check concrete direction on direction compass 8, the orientation that direction par 11 points to is wind direction simultaneously；Three wind speed measurement cups 7 are rotated by the second rotary axle box 5 under wind, and the size of wind speed determines the rotating speed of three wind speed measurement cups 7.

In description of the present utility model, it will be appreciated that, term " lower end ", " vertically ", " top ", " central ", " coaxially ", " upper end ", on " ", " one end ", " other end ", " side ", " vertically ", " opposite side ", " length ", " middle part ", " lower section ", " bottom ", " interior ", " both sides ", " bottom ", " upper end ", " outward ", orientation or the position relationship of the instruction such as " circumferential " are based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature.

In this utility model, unless otherwise clearly defined and limited, term " is installed ", " setting ", " connection ", " fixing ", the term such as " being nested with " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or integral；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be connection or the interaction relationship of two elements of two element internals, unless otherwise clear and definite restriction.For the ordinary skill in the art, above-mentioned term concrete meaning in this utility model can be understood as the case may be.

In sum, this utility model can be used for detecting wind direction and wind speed, and testing result accuracy and precision are higher, can be by solar powered, energy-conserving and environment-protective.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure transformation utilizing this utility model description to be made; or directly or indirectly use the technical field being attached to other Related products, the most in like manner it is included in scope of patent protection of the present utility model.

Claims (5)

1. wind speed and direction detection device, it is characterised in that: include with the wind rotary shaft, a pair air channel side plate, First rotary axle box, wind direction arrow, the second rotary axle box, three vane connecting rods, three wind speed measurement Cup, direction compass, rolling bearing, installation chassis, direction par, firm banking and pair of side plates Connecting rod；The lower end of described rotary shaft with the wind is vertically arranged in described peace by described rolling bearing The center of top of cartridge chassis, described rotary shaft with the wind is rotated by described rolling bearing；Described First rotary axle box is coaxially nested with the upper end in described rotary shaft with the wind, a pair described air channel side plate One end be connected to the side of the first described rotary axle box respectively by described pair of side plates connecting rod On end face, a pair described air channel side plate is the platy structure that one end is thick, the other end is thin, and described A pair air channel side plate is vertical and arranged in parallel, is formed and ventilate between a pair described air channel side plate Road；Described wind direction arrow is arranged on the opposite side end face of the first described rotary axle box, described The length direction of wind direction arrow is parallel with the length direction of described ventilating duct；The second described rotary shaft Set is coaxially nested with at the middle part of described rotary shaft with the wind, is positioned under the first described rotary axle box Side, one end of three described vane connecting rods is respectively separated and is connected on the second described rotary axle box, The other end of three described vane connecting rods is corresponding with described three wind speed measurement cups respectively to be connected, institute Three the wind speed measurement cups stated are hemisphere face structure, and the setting direction of three described wind speed measurement cups Identical；Described direction compass is co-axially located at the bottom of described rotary shaft with the wind, and with described Rotary shaft synchronous axial system with the wind, described direction par is vertically arranged on described installation chassis, It is positioned at the side of described direction compass, and the direction compass described in sensing；Described installation chassis is solid Surely being arranged on described firm banking, described firm banking is I-shaped structure, and described The built-in chargeable electric supply installation of firm banking.

Wind speed and direction the most according to claim 1 detection device, it is characterised in that: at the bottom of described installation The both sides of dish are connected by universal drive shaft respectively solar panel, and described solar panel is around institute The universal drive shaft stated rotates.

Wind speed and direction the most according to claim 2 detection device, it is characterised in that: the described fixing end The two bottom sides of seat is respectively equipped with slot, and described solar panel folding storage is fixed to described The both sides of base, and be inserted in described slot.

Wind speed and direction the most according to claim 1 detection device, it is characterised in that: described rotary shaft Being circumferentially with angle index line on the upper surface held, the bottom of described rotary shaft with the wind is provided with reference to carving Degree line, the described angle index line described in the sensing of reference mark line.

Wind speed and direction the most according to claim 1 detection device, it is characterised in that: described second turn Moving axis set includes the rotation internal axle sleeve being coaxially socketed and rotates outer shaft, described rotation outer shaft and institute The rotation internal axle sleeve stated relatively rotates.