阅读说明：本技术 一种用于记录区域内风力的数据采集器 (Data acquisition unit for recording wind power in area ) 是由 杨联君 于 2020-06-22 设计创作，主要内容包括：本发明公开了一种用于记录区域内风力的数据采集器,包括采集壳体、底座和支撑体,所述底座固设在所述采集壳体右侧面上,所述支撑体固设在所述底座的顶面上,本发明能够通过风力叶来感应接收到风力,通过风力叶带动旋转轴的转动,来实现数据采集机构的运转,而数据采集机构能够采用左右齿牙啮合方式相反的棘轮组来控制两个螺杆滑块的移动,继而实现电机的运转,从而达到不管正反方向都能控制电机运转,能够间歇性传动控制升降柱升降,在下降滞留的均匀时间内,能够通过竖轴带动凸轮的转动和伸缩弹簧的弹性效果,来推动滑杆左右往返移动,则可达到在不同大小风力时,实现电子笔在采集屏顶面划动速度不同的效果,进而达到数据采集的效果。(The invention discloses a data collector for recording wind power in an area, which comprises a collecting shell, a base and a supporting body, wherein the base is fixedly arranged on the right side surface of the collecting shell, the supporting body is fixedly arranged on the top surface of the base, the invention can sense and receive the wind power through a wind power blade, the wind power blade drives a rotating shaft to rotate so as to realize the operation of a data collecting mechanism, the data collecting mechanism can control the movement of two screw rod sliding blocks by adopting ratchet sets with opposite left and right tooth meshing modes, and then realize the operation of a motor, thereby achieving the purposes of controlling the operation of the motor in both the positive and negative directions, intermittently driving and controlling the lifting column to lift, pushing a sliding rod to move left and right through the rotation of a cam driven by a vertical shaft and the elastic effect of a telescopic spring in the uniform time of the lifting retention, and realizing the wind power in different sizes, the effect that the electronic pen strokes on the top surface of the acquisition screen at different speeds is achieved, and the effect of data acquisition is further achieved.)

1. The utility model provides a data collection station for wind-force in record area, includes collection casing, base and supporter, its characterized in that: the base is fixedly arranged on the right side face of the collecting shell, the supporting body is fixedly arranged on the top face of the base, a rotating table is rotatably arranged on the top face of the base, a rotating shaft is rotatably arranged in the inner wall of the rotating table, extending parts on the left side and the right side of the rotating shaft extend out of the outside, two wind power blades which are symmetrical up and down are fixedly arranged on the periphery of the right side of the rotating shaft, a guide wing is fixedly arranged on the periphery of the left side of the rotating shaft, a collecting cavity is formed in the collecting shell, a jacket is arranged in the collecting cavity, an electronic pen is clamped in the jacket, a collecting screen is fixedly arranged on the bottom wall of the collecting cavity, the electronic pen can be in contact with the top face of the collecting screen, a data collecting mechanism which can intermittently control the electronic pen to collect wind power data in a way that the electronic pen writes wave lines into the top, a right-opening through cavity is formed in the right side of the collecting cavity, a left-opening cam cavity is formed in the supporting body, the lifting body is arranged on the inner wall of the through cavity and the inner wall of the cam cavity in a vertical sliding mode, a sliding cavity is formed in the lifting body, a sliding rod is arranged on the inner wall of the sliding cavity in a vertical sliding mode, a left extending portion of the sliding rod extends into the collecting cavity and is fixedly connected with the right side face of the clamping sleeve, a vertical shaft is rotatably arranged between the upper wall and the lower wall of the cam cavity, a cam is fixedly arranged on the periphery of the vertical shaft and can be abutted against the sliding rod, a lifting sleeve is fixedly arranged on the periphery of the lifting body, a lifting column is fixedly arranged on the bottom face of the lifting sleeve, a lifting cavity with an upward opening is formed in the base, and the periphery of the lifting column is connected with the inner wall of the; the acquisition shell is internally provided with a starting mechanism which can drive the rotating shaft to rotate through wind power to drive and control the data acquisition mechanism to start normal operation, the starting mechanism comprises two induction cavities which are arranged in the acquisition shell in a bilateral symmetry manner, the bottom wall of each induction cavity is provided with a slide block in a left-right sliding manner, the two induction cavities are mutually close to the side wall and are rotatably provided with transverse screws, transverse threaded cavities are formed in the slide blocks and are in threaded connection with the transverse screws, the threads of the two transverse screws are opposite, a reset spring is fixedly arranged between the side face of the slide block, far away from the transverse screws, and the wall in each induction cavity, the acquisition shell is internally provided with a transmission cavity, the top wall of the transmission cavity is fixedly provided with a motor, the bottom surface of the motor is in power connection with a sector gear, and the top wall of, the driven shaft is fixedly provided with a driven gear at the periphery, the driven gear can be meshed with the sector gear, the bottom surface of the driven shaft is fixedly provided with a left rotary table, a base cavity is formed in the base and communicated with the transmission cavity, a vertical screw rod is rotatably arranged on the top wall of the base cavity, a right rotary table is fixedly arranged on the bottom surface of the vertical screw rod, and a connecting rod is hinged between the right rotary table and the bottom surface of the left rotary table.

2. The data collector for recording wind power in an area according to claim 1, wherein: a gear cavity is formed in the rotating platform, the rotating shaft penetrates through the gear cavity, a transmission bevel gear is fixedly arranged on the periphery of the rotating shaft in the gear cavity, the upward extending part of the vertical shaft penetrates through the inner wall of the supporting body and extends into the gear cavity, a driven bevel gear is fixedly arranged on the top surface of the rotating shaft and is meshed with the transmission bevel gear, a belt wheel cavity is formed in the base, a driven cavity is formed in the acquisition shell and is communicated with the driven cavity, the downward extending part of the vertical shaft extends into the belt wheel cavity and is rotatably connected with the bottom wall of the belt wheel cavity, a worm is rotatably arranged between the upper wall and the lower wall of the driven cavity, belt wheels are fixedly arranged on the peripheries of the worm and the vertical shaft, belts are arranged between the belt wheels on the left side and the right side, and a transverse shaft is rotatably arranged between the left wall and the right wall of the driven, and a worm wheel is fixedly arranged on the periphery of the cross shaft and meshed with the worm.

3. A data collector for recording wind force in an area according to claim 2, wherein: two ratchet cavities which are symmetrical left and right are arranged in the acquisition shell, the ratchet cavities are respectively positioned between the two induction cavities and the driven cavity, the extension parts of the transverse shaft towards the left side and the right side extend into the ratchet wheel cavity, ratchet wheel sets are fixedly arranged on the left side surface and the right side surface of the transverse shaft, the meshing directions of teeth of the left ratchet wheel set and the right ratchet wheel set are opposite, the extension parts of the transverse screw rod towards the ratchet wheel cavity side extend into the ratchet wheel cavity, and is in power connection with the ratchet wheel group, an induction block is fixedly arranged on the top wall of the induction cavity, a contact block is fixedly arranged on the top surface of the sliding block, the contact block can be contacted with the induction block, a controller is fixedly arranged on the left wall of the transmission cavity, the controller with motor electric connection, set up the signal layer in the collection casing, the signal layer with the response piece with the equal electric connection of controller.

4. A data collector for recording wind force in an area according to claim 3, wherein: be equipped with the decurrent vertical screw thread chamber of opening in the lift post, vertical screw rod upwards extends into the lift chamber with vertical screw thread intracavity, vertical screw rod with the inner wall threaded connection in vertical screw thread chamber, the horizontal slip is equipped with fixed cover on the inner wall in slip chamber, the slide bar runs through fixed cover, just the slide bar with fixed cover fixed connection, the left surface of fixed cover with fixed mounting has expanding spring between the left wall in slip chamber, the slip chamber opening upwards sets up, the top surface of base has set firmly the restriction lever, the crooked end of restriction lever upside can insert the slip intracavity, and with fixed cover butt, right side carousel diameter is greater than the left side carousel.

5. The data collector for recording wind power in an area according to claim 4, wherein: the top wall of the collection cavity is fixedly provided with a butt joint block, the butt joint block is positioned on the rear side of the sliding rod, and the bottom side inclined plane of the butt joint block is abutted to the jacket.

6. The data collector for recording wind power in an area according to claim 5, wherein: fixed mounting has the treater on the left wall in collection chamber, the treater with gather screen electric connection, be equipped with the forward display chamber of opening in the collection casing, fixed mounting has the display screen in the inner wall in display chamber, the display screen with treater electric connection.

Technical Field

The invention relates to the technical field related to data service, in particular to a data acquisition unit for recording wind power in an area.

Background

At present, the requirement that artifical data collection has not reached information accuracy and high efficiency far away, generally all can adopt the mode that mechanical device and data processing apparatus combine to carry out data acquisition and processing, can promote the high efficiency of data, permanence and accuracy, in the region that needs to monitor wind-force such as seaside, need regular carry out data acquisition to local wind-force, whether monitoring wind-force can normally be gone out the sea, general wind-force data collector, through the pressure control system that blows, measure instantaneous wind-force through pressure, and wind-force is big or small usually, if only gather the instantaneous wind-force of specific time point, that just reaches the effect of monitoring, in order to can collecting regional time quantum, the data that wind-force changes, it can the data collector to need to design a section to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide a data acquisition device for recording wind power in an area, which is used for overcoming the defects in the prior art.

According to the embodiment of the invention, the data collector for recording the wind power in the area comprises a collecting shell, a base and a supporting body, wherein the base is fixedly arranged on the right side surface of the collecting shell, the supporting body is fixedly arranged on the top surface of the base, a rotating table is rotatably arranged on the top surface of the base, a rotating shaft is rotatably arranged in the inner wall of the rotating table, extending parts of the left side and the right side of the rotating shaft extend out of the outside, two wind power blades which are symmetrical up and down are fixedly arranged on the outer periphery of the right side of the rotating shaft, a guide wing is fixedly arranged on the outer periphery of the left side of the rotating shaft, a collecting cavity is formed in the collecting shell, a jacket is arranged in the collecting cavity, an electronic pen is arranged in the jacket, a collecting screen is fixedly arranged on the bottom wall of the collecting cavity, the electronic pen can be in contact with the top surface of the collecting screen, and a mode that the electronic pen The data acquisition mechanism comprises a lifting body, a through cavity with a right opening is formed in the right side of the acquisition cavity, a cam cavity with a left opening is formed in the support body, the lifting body is arranged on the inner wall of the through cavity and the inner wall of the cam cavity in a vertical sliding mode, a sliding cavity is formed in the lifting body, a sliding rod is arranged on the inner wall of the sliding cavity in a left-right sliding mode, the leftward extending part of the sliding rod extends into the acquisition cavity and is fixedly connected with the right side face of the clamping sleeve, a vertical shaft is arranged between the upper wall and the lower wall of the cam cavity in a rotating mode, a cam is fixedly arranged on the periphery of the vertical shaft and can be abutted against the sliding rod, a lifting sleeve is fixedly arranged on the periphery of the lifting body, a lifting column is fixedly arranged on the bottom face of the lifting sleeve, a lifting cavity with an upward opening is formed in the base, and the periphery of the lifting column is connected with the inner, the acquisition shell is internally provided with a starting mechanism which can drive the rotating shaft to rotate through wind power to drive and control the data acquisition mechanism to start normal operation, the starting mechanism comprises two induction cavities which are arranged in the acquisition shell in a bilateral symmetry manner, the bottom wall of each induction cavity is provided with a slide block in a left-right sliding manner, the two induction cavities are mutually close to the side wall and are rotatably provided with transverse screws, transverse threaded cavities are formed in the slide blocks and are in threaded connection with the transverse screws, the threads of the two transverse screws are opposite, a reset spring is fixedly arranged between the side face of the slide block, far away from the transverse screws, and the wall in each induction cavity, the acquisition shell is internally provided with a transmission cavity, the top wall of the transmission cavity is fixedly provided with a motor, the bottom surface of the motor is in power connection with a sector gear, and the top wall of, the driven shaft is fixedly provided with a driven gear at the periphery, the driven gear can be meshed with the sector gear, the bottom surface of the driven shaft is fixedly provided with a left rotary table, a base cavity is formed in the base and communicated with the transmission cavity, a vertical screw rod is rotatably arranged on the top wall of the base cavity, a right rotary table is fixedly arranged on the bottom surface of the vertical screw rod, and a connecting rod is hinged between the right rotary table and the bottom surface of the left rotary table.

The technical scheme is that a gear cavity is formed in the rotary table, the rotary shaft penetrates through the gear cavity, a transmission bevel gear is fixedly arranged on the periphery of the rotary shaft in the gear cavity, the upward extending part of the vertical shaft penetrates through the inner wall of the support body and extends into the gear cavity, a driven bevel gear is fixedly arranged on the top surface of the rotary shaft and is meshed with the transmission bevel gear, a belt wheel cavity is formed in the base, a driven cavity is formed in the acquisition shell and is communicated with the driven cavity, the downward extending part of the vertical shaft extends into the belt wheel cavity and is rotatably connected with the bottom wall of the belt wheel cavity, a worm is rotatably arranged between the upper wall and the lower wall of the driven cavity, belt wheels are fixedly arranged on the peripheries of the worm and the vertical shaft, a belt is arranged between the belt wheels on the left side and the right side in a transmission connection mode, and a transverse shaft is rotatably arranged between the left wall and the, and a worm wheel is fixedly arranged on the periphery of the cross shaft and meshed with the worm.

In a further technical scheme, two ratchet cavities which are symmetrical left and right are arranged in the acquisition shell, the ratchet cavities are respectively positioned between the two induction cavities and the driven cavity, the extension parts of the transverse shaft towards the left side and the right side extend into the ratchet wheel cavity, ratchet wheel sets are fixedly arranged on the left side surface and the right side surface of the transverse shaft, the meshing directions of teeth of the left ratchet wheel set and the right ratchet wheel set are opposite, the extension parts of the transverse screw rod towards the ratchet wheel cavity side extend into the ratchet wheel cavity, and is in power connection with the ratchet wheel group, an induction block is fixedly arranged on the top wall of the induction cavity, a contact block is fixedly arranged on the top surface of the sliding block, the contact block can be contacted with the induction block, a controller is fixedly arranged on the left wall of the transmission cavity, the controller with motor electric connection, set up the signal layer in the collection casing, the signal layer with the response piece with the equal electric connection of controller.

Further technical scheme, be equipped with the vertical screw thread chamber of opening decurrent in the lift post, vertical screw rod makes progress the extending part and stretches into lift chamber with vertical screw thread intracavity, vertical screw rod with the inner wall threaded connection in vertical screw thread chamber, the horizontal slip is equipped with fixed cover on the inner wall in slip chamber, the slide bar runs through fixed cover, just the slide bar with fixed cover fixed connection, the left surface of fixed cover with fixed mounting has expanding spring between the left wall in slip chamber, the slip chamber opening upwards sets up, the top surface of base has set firmly the restriction lever, the crooked end of restriction lever upside can insert the slip intracavity, and with fixed cover butt, right side carousel diameter is greater than the left side carousel.

According to the technical scheme, a butt joint block is fixedly arranged on the top wall of the collection cavity and located on the rear side of the sliding rod, and the inclined surface of the bottom side of the butt joint block is abutted to the jacket.

Further technical scheme, fixed mounting has the treater on the left wall in collection chamber, the treater with gather screen electric connection, be equipped with the forward display chamber of opening in the collection casing, fixed mounting has the display screen in the inner wall in display chamber, the display screen with treater electric connection.

The invention has the beneficial effects that: according to the invention, wind power can be received by the wind power blade in a sensing manner, the wind power blade drives the rotation shaft to rotate, so that the operation of the data acquisition mechanism is realized, the data acquisition mechanism can control the movement of the two screw sliders by adopting the ratchet wheel sets with opposite left and right tooth meshing manners, and then the operation of the motor is realized, so that the motor can be controlled to operate no matter in the positive and negative directions, the lifting column can be intermittently driven to lift, the sliding rod can be pushed to move back and forth left and right by driving the rotation of the cam and the elastic effect of the telescopic spring through the vertical shaft within the uniform time of the retention of the lifting column, the effect of different sliding speeds of the electronic pen on the top surface of the acquisition screen can be realized when wind power with different sizes is adopted, and the.

Drawings

FIG. 1 is a schematic view of the overall internal structure of the present invention;

FIG. 2 is a partial cross-sectional view taken in the direction A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged schematic view of the invention at B of FIG. 1;

FIG. 4 is a partial cross-sectional view taken in the direction of C-C of FIG. 3 in accordance with the present invention;

fig. 5 is an enlarged view of the internal structure of the left sensing chamber 64 of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-5, a data collector for recording wind power in an area according to an embodiment of the present invention includes a collecting casing 13, a base 58 and a support 29, the base 58 is fixed on a right side surface of the collecting casing 13, the support 29 is fixed on a top surface of the base 58, a rotating table 24 is rotatably disposed on the top surface of the base 58, a rotating shaft 22 is rotatably disposed in an inner wall of the rotating table 24, extending portions of left and right sides of the rotating shaft 22 extend out of the outside, two wind power blades 28 are fixed on a right outer periphery of the rotating shaft 22, a guide wing 23 is fixed on a left outer periphery of the rotating shaft 22, a collecting cavity 16 is formed in the collecting casing 13, a jacket 17 is disposed in the collecting cavity 16, an electronic pen 18 is clamped in the jacket 17, a collecting screen 15 is fixed on a bottom wall of the collecting cavity 16, and the electronic pen 18 can contact with a top surface of the collecting screen 15, a data acquisition mechanism 101 capable of intermittently controlling the electronic pen 18 to write wave lines on the top surface of the acquisition screen 15 to acquire wind power data is arranged between the acquisition shell 13 and the support 29, the data acquisition mechanism 101 comprises a lifting body 31, a through cavity 21 with a right opening is formed on the right side of the acquisition cavity 16, a cam cavity 32 with a left opening is formed in the support 29, the lifting body 31 is arranged on the inner wall of the through cavity 21 and the inner wall of the cam cavity 32 in a vertical sliding mode, a sliding cavity 63 is formed in the lifting body 31, a sliding rod 20 is arranged on the inner wall of the sliding cavity 63 in a left-right sliding mode, the leftward extending part of the sliding rod 20 extends into the acquisition cavity 16 and is fixedly connected with the right side surface of the jacket 17, a vertical shaft 30 is arranged between the upper wall and the lower wall of the cam cavity 32 in a rotating mode, and a cam 33 is fixedly arranged on the periphery of the vertical shaft 30, the cam 33 can be abutted against the slide rod 20, a lifting sleeve 62 is fixedly arranged on the periphery of the lifting body 31, a lifting column 34 is fixedly arranged on the bottom surface of the lifting sleeve 62, a lifting cavity 37 with an upward opening is arranged in the base 58, the periphery of the lifting column 34 is vertically and slidably connected with the inner wall of the lifting cavity 37, a starting mechanism 102 capable of driving the rotating shaft 22 to rotate through wind power to drive and control the data acquisition mechanism 101 to start normal operation is arranged in the acquisition shell 13, the starting mechanism 102 comprises two induction cavities 64 which are symmetrically arranged in the acquisition shell 13 in a left-right mode, a sliding block 68 is arranged on the bottom wall of each induction cavity 64 in a left-right sliding mode, a transverse screw rod 70 is arranged on the mutually adjacent side walls of the two induction cavities 64 in a rotating mode, a transverse thread cavity 69 is arranged in the sliding block 68, and the transverse thread cavity 69 is in threaded connection with the transverse screw, the threads of the two transverse screws 70 are opposite, a return spring 66 is fixedly arranged between the side surface of the slide block 68 far away from the transverse screws 70 and the inner wall of the induction cavity 64, a transmission cavity 49 is arranged in the acquisition shell 13, a motor 48 is fixedly arranged on the top wall of the transmission cavity 49, the bottom surface of the motor 48 is provided with a sector gear 47 in a power connection mode, the top wall of the transmission cavity 49 is provided with a driven shaft 45 in a rotating mode, a driven gear 46 is fixedly arranged on the periphery of the driven shaft 45, the driven gear 46 can be meshed with the sector gear 47, the bottom surface of the driven shaft 45 is fixedly provided with a left rotary table 44, a base cavity 42 is arranged in the base 58, the base cavity 42 is communicated with the transmission cavity 49, the top wall of the base cavity 42 is rotatably provided with a vertical screw 36, the bottom surface of the vertical screw 36 is fixedly provided with a right rotary table 41, and a connecting rod 43 is hinged between the bottom surfaces of the right rotary table 41 and the left rotary table 44.

In addition, in one embodiment, a gear cavity 25 is formed in the rotating platform 24, the rotating shaft 22 penetrates through the gear cavity 25, a transmission bevel gear 27 is fixedly arranged on the periphery of the rotating shaft 22 in the gear cavity 25, an upward extending portion of the vertical shaft 30 penetrates through the inner wall of the supporting body 29 and extends into the gear cavity 25, a driven bevel gear 26 is fixedly arranged on the top surface of the vertical shaft, the driven bevel gear 26 is engaged with the transmission bevel gear 27, a pulley cavity 38 is formed in the base 58, a driven cavity 53 is formed in the collecting shell 13, the pulley cavity 38 is communicated with the driven cavity 53, a downward extending portion of the vertical shaft 30 extends into the pulley cavity 38 and is rotatably connected with the bottom wall of the pulley cavity 38, a worm 51 is rotatably arranged between the upper wall and the lower wall of the driven cavity 53, and a pulley 39 is fixedly arranged on the peripheries of the worm 51 and the vertical shaft 30, the belt wheels 39 on the left and right sides are connected and provided with a belt 40, the left and right walls of the driven cavity 53 are rotatably provided with a transverse shaft 54, the periphery of the transverse shaft 54 is fixedly provided with a worm wheel 52, the worm wheel 52 is meshed with the worm 51, when the outside blows, the wind power can drive the wind power blade 28 to rotate, then the rotating shaft 22 can drive the vertical shaft 30 to rotate, so that the worm 51 can be driven to rotate through the belt 40, the transverse shaft 54 can rotate, the wind power guiding effect can be achieved through the guiding wings 23, and the reset can be achieved through the reset spring 66.

In addition, in one embodiment, two ratchet cavities 56 are formed in the collection housing 13, the ratchet cavities 56 are respectively located between the two sensing cavities 64 and the driven cavity 53, the lateral shaft 54 extends into the ratchet cavities 56 towards the left and right sides, ratchet sets 55 are fixedly mounted on the left and right sides of the lateral shaft 54, the meshing directions of the teeth of the left and right ratchet sets 55 are opposite, the lateral screw 70 extends into the ratchet cavities 56 towards the lateral direction of the ratchet cavities 56 and is in power connection with the ratchet sets 55, a sensing block 65 is fixedly mounted on the top wall of the sensing cavity 64, a contact block 67 is fixedly mounted on the top surface of the sliding block 68, the contact block 67 can contact with the sensing block 65, a controller 50 is fixedly mounted on the left wall of the transmission cavity 49, the controller 50 is electrically connected with the motor 48, a signal layer 57 is formed in the collection housing 13, the signal layer 57 is electrically connected to both the sensing block 65 and the controller 50, and when the wind blows the wind blade 28 and the rotating shaft 22 to rotate forward, the transverse shaft 54 is rotated forward, so that the transverse shaft 54 drives the left transverse screw 70 to rotate, and further the left transverse screw 70 drives the slider 68 to move leftward, so that the left contact block 67 is in contact with the left sensing block 65, and when the transverse shaft is rotated backward, the right contact block 67 is in contact with the right sensing block 65, and when the contact block 67 is in contact with the sensing block 65, the signal layer 57 is used to operate the controller 50, and further the controller 50 is used to control the motor 48 to start and operate.

In addition, in one embodiment, a vertical threaded cavity 35 with a downward opening is formed in the lifting column 34, an upward extending portion of the vertical screw 36 extends into the lifting cavity 37 and the vertical threaded cavity 35, the vertical screw 36 is in threaded connection with an inner wall of the vertical threaded cavity 35, a fixing sleeve 60 is arranged on an inner wall of the sliding cavity 63 in a left-right sliding manner, the slide rod 20 penetrates through the fixing sleeve 60, the slide rod 20 is fixedly connected with the fixing sleeve 60, a telescopic spring 59 is fixedly arranged between a left side surface of the fixing sleeve 60 and a left wall of the sliding cavity 63, an opening of the sliding cavity 63 is arranged upward, a limiting rod 61 is fixedly arranged on a top surface of the base 58, an upper bent end of the limiting rod 61 can be inserted into the sliding cavity 63 and abutted against the fixing sleeve 60, the diameter of the right-side rotary disc 41 is larger than that of the left-side rotary disc 44, when the limiting rod 61 is inserted into the sliding cavity 63, the fixed sleeve 60 and the sliding rod 20 can be limited from moving, when the motor 48 operates, the sector gear 47 can intermittently drive the driven gear 46 to rotate, when the driven gear 46 rotates, the driven shaft 45 can drive the left rotary table 44 to rotate, and further the connecting rod 43 can drive the right rotary table 41 to rotate back and forth, so that the vertical screw 36 can drive the lifting column 34 to lift, when the sector gear 47 rotates for a circle, the lifting column 34 can be firstly moved downwards into the lifting cavity 37, so that the lifting sleeve 62 can drive the lifting body 31 to move downwards, and then the limiting rod 61 can leave the sliding cavity 63, at this time, through the elastic action of the expansion spring 59, the sliding rod 20 can be ejected rightwards into the cam cavity 32 and abutted against the cam 33, through the rotation of the vertical shaft 30, the slide bar 20 can be moved back and forth left and right, when the wind force is larger, the higher the rotation speed of the cam 33 is, the higher the left and right movement speed of the jacket 17 can be driven by the slide bar 20, the faster the electronic pen 18 can be scratched on the top surface of the acquisition screen 15, otherwise, the slower the electronic pen is, the wave lines formed by the scratching speed can achieve the effect of acquiring the wind force data, and the measurement effect in a uniform time period can be achieved through the back and forth rotation of the right turntable 41.

In addition, in one embodiment, an abutting block 19 is fixedly arranged on the top wall of the collection cavity 16, the abutting block 19 is located at the rear side of the sliding rod 20, the bottom inclined surface of the abutting block 19 abuts against the jacket 17, when the jacket 17 is lifted and reset due to no wind, the jacket 17 can be moved leftwards, and therefore the limiting rod 61 can be reinserted into the sliding cavity 63 to limit the movement of the fixing sleeve 60.

In addition, in an embodiment, a processor 14 is fixedly installed on the left wall of the collection cavity 16, the processor 14 is electrically connected to the collection screen 15, a display cavity 12 with a forward opening is arranged in the collection shell 13, a display screen 11 is fixedly installed in the inner wall of the display cavity 12, the display screen 11 is electrically connected to the processor 14, when the electronic pen 18 moves the collection screen 15, the processor 14 can record and process data, and the processed data is displayed through the display screen 11, so that outside personnel can observe the data.

In the initial state, the jacket 17, the electronic pen 18, the slide rod 20, the lifting column 34 and the lifting body 31 are in the lifted state, the limiting rod 61 is inserted into the sliding cavity 63, the sensing block 65 is separated from the contact block 67, and the sliding block 68 is positioned on the side of the transverse screw 70.

When the wind-driven type wind-driven generator is used, when the external wind starts, the wind force can drive the wind-driven blade 28 to rotate, then the rotating shaft 22 can drive the vertical shaft 30 to rotate, so that the worm 51 can be driven to rotate by the belt 40, further the transverse shaft 54 can be driven to rotate, the wind-driven guiding effect can be achieved by the guiding wings 23, the return spring 66 can be used for returning, when the wind blows the wind-driven blade 28 and the rotating shaft 22 to rotate forwards, the transverse shaft 54 can be driven to rotate the transverse shaft 70, further the transverse shaft 70 can be driven to move the sliding block 68 leftwards, the left contact block 67 can be in contact with the left sensing block 65, when the wind blows the wind to rotate forwards, the right contact block 67 can be in contact with the right sensing block 65, when the contact block 67 is in contact with the sensing block 65, the controller 50 can be operated by the signal layer 57, further the controller 50 can be used for controlling the motor 48 to be started to, the fixed sleeve 60 and the sliding rod 20 can be limited to move, when the motor 48 runs, the sector gear 47 can intermittently drive the driven gear 46 to rotate, when the driven gear 46 rotates, the driven shaft 45 can drive the left rotary disc 44 to rotate, further the connecting rod 43 can drive the right rotary disc 41 to rotate back and forth, the vertical screw 36 can drive the lifting column 34 to lift, when the sector gear 47 rotates for a circle, the lifting column 34 can move downwards into the lifting cavity 37, the lifting sleeve 62 can drive the lifting body 31 to move downwards, the limiting rod 61 can leave the sliding cavity 63, at the moment, the sliding rod 20 can be ejected rightwards into the cam cavity 32 and abutted against the cam 33 through the elastic action of the telescopic spring 59, the sliding rod 20 can move back and forth left through the rotation of the vertical shaft 30, when the larger the wind force is, the higher the rotation speed of the cam 33 is, at the moment, the higher the left and right movement speed of the jacket 17 can be driven by the sliding rod 20, then, the electronic pen 18 can be faster to slide on the top surface of the acquisition screen 15, otherwise, the electronic pen 18 is slower, the wave lines formed by the speed achieved by the sliding can achieve the effect of acquiring the wind power data, the measurement effect in a uniform time period can be achieved through the back-and-forth rotation of the right-side rotating disc 41, when the jacket 17 rises and resets due to the absence of wind from the outside, the jacket 17 can be moved leftwards, so that the limiting rod 61 can be inserted into the sliding cavity 63 again to limit the movement of the fixing sleeve 60, when the electronic pen 18 slides on the acquisition screen 15, the processor 14 can record and process the data, and the data is displayed through the display screen 11, so that the outside personnel can observe the data.

The invention has the beneficial effects that: according to the invention, wind power can be received by the wind power blade in a sensing manner, the wind power blade drives the rotation shaft to rotate, so that the operation of the data acquisition mechanism is realized, the data acquisition mechanism can control the movement of the two screw sliders by adopting the ratchet wheel sets with opposite left and right tooth meshing manners, and then the operation of the motor is realized, so that the motor can be controlled to operate no matter in the positive and negative directions, the lifting column can be intermittently driven to lift, the sliding rod can be pushed to move back and forth left and right by driving the rotation of the cam and the elastic effect of the telescopic spring through the vertical shaft within the uniform time of the retention of the lifting column, the effect of different sliding speeds of the electronic pen on the top surface of the acquisition screen can be realized when wind power with different sizes is adopted, and the.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.