CN217634776U - Wind speed measuring and controlling device for wind speed measurement and calculation - Google Patents

Abstract

The utility model discloses a wind speed measurement and control device is calculated to wind speed, including supporting a section of thick bamboo, the anemoscope body is installed on the top of a support section of thick bamboo, the bottom of anemoscope body is equipped with the sleeve, the sleeve cup joints mutually with the outside of a support section of thick bamboo, the rotary groove has been seted up to the lateral wall of anemoscope body, and the anemoscope body passes through the connecting block and is connected with sleeve integrated into one piece, the inside rotation of rotary groove is connected with the carousel, the lateral wall fixedly connected with bull stick of carousel, the inside threaded connection of carousel has the carriage release lever, the bottom fixedly connected with taper post of carriage release lever, the lateral wall of taper post is equipped with the anchor clamps that are used for with the inner wall centre gripping of a support section of thick bamboo, through changing traditional threaded fastener's mounting means to just can realize the installation and the process of demolising of three-cup anemometers through rotating the bull stick, it is more convenient to make the installation demolish.

Description

Wind speed measuring and controlling device for wind speed measurement and calculation

Technical Field

The utility model relates to an anemograph technical field specifically is a wind speed is calculated and is surveyed and control device.

Background

At present, the most widely used wind speed measuring instrument is a three-cup anemometer, wherein the cup is a main measuring element, is divided into two types of hemispherical cups and conical cups, is mainly a device for monitoring wind speed, and is often installed at a higher position on the ground, such as a pole on the top of a building or a telegraph pole, or a street lamp pole, so that when the three-cup anemometer is installed and disassembled, the working environment is often required to be carried out at high altitude, and the following problems exist;

the existing three-cup type anemoscope is usually installed at the top end of a pole through a mounting mode of a threaded fastener, when the three-cup type anemoscope needs to be installed or dismantled, a technician needs to install and dismantle the threaded fastener at high altitude through a wrench, and the three-cup type anemoscope can be installed or dismantled.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wind speed is calculated and is surveyed device, through the mounting means with traditional threaded fastener change for just can realize the installation to three cup anemometers and demolish the process through rotating the bull stick, it is more convenient to make the installation demolish to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a wind speed measuring and controlling device comprises a supporting cylinder, wherein a wind speed sensor body is mounted at the top end of the supporting cylinder, a sleeve is arranged at the bottom of the wind speed sensor body, the sleeve is sleeved with the outer side of the supporting cylinder, a rotary groove is formed in the side wall of the wind speed sensor body, the wind speed sensor body is integrally connected with the sleeve through a connecting block, a rotary table is rotatably connected inside the rotary groove, a rotary rod is fixedly connected to the side wall of the rotary table, a moving rod is connected to the inner portion of the rotary table through threads, a conical column is fixedly connected to the bottom end of the moving rod, and a clamp used for clamping the inner wall of the supporting cylinder is arranged on the side wall of the conical column;

the fixture comprises moving blocks, clamping blocks and annular grooves, the annular grooves are formed in the moving blocks, the conical columns are connected with the inner portions of the annular grooves in a sliding mode, the moving blocks are provided with two groups, the clamping blocks are welded on the outer side walls of the two groups of moving blocks, and the clamping blocks are in contact with the inner wall of the supporting cylinder.

Preferably, the wind speed sensor body is provided with a limiting groove in the inside respectively, the limiting groove is connected with a limiting disc in a rotating mode in the inside, and the limiting disc is integrally formed with the top end and the bottom end of the rotating disc respectively.

Preferably, an inner thread groove is formed in the rotary disc, and the side wall of the inner thread groove is in threaded connection with the side wall of the moving rod.

Preferably, the bottom side wall of the moving rod is hexagonal, a limiting block is fixedly mounted inside the sleeve through a screw, and the bottom side wall of the moving rod is connected with the inner wall of the limiting block in a sliding mode.

Preferably, the bottom end of the conical column is fixedly connected with a limiting ring for preventing the clamp from falling off.

Preferably, the side walls of the two groups of moving blocks are respectively and fixedly connected with two ends of the spring.

Compared with the prior art, the beneficial effects of the utility model are that:

the sleeve capable of being sleeved on the top end of the supporting cylinder is arranged at the bottom of the wind speed sensor body, the rotating disc is connected in the internal rotation of the wind speed sensor body, only the rotating rod needs to be rotated, the rotating disc can be rotated in the internal portion of the wind speed sensor body, the moving rod in the internal portion of the rotating disc can drive the conical column to move up and down, in the moving process of the conical column, the clamp can be extruded, the clamping blocks on the moving block of the clamp can be abutted to the inner wall of the supporting cylinder, meanwhile, the sleeve can be sleeved on the outer side of the supporting cylinder, the existing installation mode of a screw fastener can be replaced, in the dismounting process, the rotating rod only needs to be rotated in the direction, the wind speed sensor body can be dismounted from the supporting cylinder, the process does not need extra dismounting tools, such as a wrench, in the high-altitude operation process, convenience can be brought, and meanwhile, the safety of operators can be guaranteed.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

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

fig. 2 is a schematic view of the internal structure of the wind speed sensor body and the sleeve according to the present invention;

fig. 3 is a schematic view of the internal structure of the turntable of the present invention;

fig. 4 is a schematic perspective view of the clamp of the present invention.

In the figure: 1. a support cylinder; 2. a solar panel; 3. a support frame; 4. a hose clamp; 5. a sleeve; 6. a turntable; 7. a rotating rod; 8. a wind speed sensor body; 9. rotating the groove; 10. connecting blocks; 11. a limiting groove; 12. a limiting disc; 13. a travel bar; 14. a limiting block; 15. a tapered post; 16. a limiting ring; 17. a clamp; 18. a spring; 19. an internal thread groove; 20. a clamping block; 21. an annular groove; 22. a moving mass is moved.

Detailed Description

The same reference numbers in different drawings identify the same or similar elements; it should be further understood that terms such as "first," "second," "third," "upper," "lower," "front," "rear," "inner," "outer," "end," "portion," "section," "width," "thickness," "zone," and the like, may be used solely for convenience in reference to the figures and to aid in describing the invention, and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides an embodiment: a wind speed measuring and controlling device comprises a supporting cylinder 1, wherein a wind speed sensor body 8 is installed at the top end of the supporting cylinder 1, the wind speed sensor body 8 is installed on the supporting cylinder 1, the supporting cylinder 1 can be a telegraph pole or a street lamp pole and can measure and process wind speed, a sleeve 5 is arranged at the bottom of the wind speed sensor body 8, the sleeve 5 is sleeved with the outer side of the supporting cylinder 1, a rotary groove 9 is formed in the side wall of the wind speed sensor body 8, the wind speed sensor body 8 is connected with the sleeve 5 in an integrated forming mode through a connecting block 10, a rotary table 6 is rotatably connected inside the rotary groove 9, a rotary rod 7 is fixedly connected to the side wall of the rotary table 6, a moving rod 13 is connected to the inner thread of the rotary table 6, a conical column 15 is fixedly connected to the bottom end of the moving rod 13, and a clamp 17 used for clamping with the inner wall of the supporting cylinder 1 is arranged on the side wall of the conical column 15;

the fixture 17 comprises a moving block 22, clamping blocks 20 and an annular groove 21, the annular groove 21 is formed in the moving block 22, the conical columns 15 are connected with the annular groove 21 in a sliding mode, the moving block 22 is provided with two sets, the clamping blocks 20 are welded on the outer side walls of the two sets of moving blocks 22, and the clamping blocks 20 are abutted to the inner wall of the supporting cylinder 1.

The bottom side wall of the moving rod 13 is hexagonal, a limiting block 14 is fixedly mounted inside the sleeve 5 through a screw, and the bottom side wall of the moving rod 13 is connected with the inner wall of the limiting block 14 in a sliding mode.

When the wind speed sensor is used, the sleeve 5 below the wind speed sensor body 8 is sleeved on the outer wall of the top end of the supporting cylinder 1, meanwhile, the clamp 17 can be inserted into the supporting cylinder 1, when the wind speed sensor body 8 needs to be disassembled or assembled, the rotating rod 7 is rotated by hand, the rotating disc 6 can rotate inside the wind speed sensor body 8, the moving rod 13 and the rotating disc 6 are in a threaded connection mode, meanwhile, the moving rod 13 and the limiting block 14 are in a sliding connection mode, the moving rod 13 can move up and down inside the sleeve 5 when the rotating disc 6 rotates forwards or backwards, when the moving rod 13 moves downwards, the tapered column 15 can move downwards, according to the special structure that the diameter of the side wall of the tapered column 15 increases from bottom to top, when the tapered column 15 slides downwards in the annular groove 21, the moving block 22 can be pushed to move towards two sides, the clamping blocks 20 outside the moving block 22 can abut against the inner wall of the supporting cylinder 1, therefore, the wind speed sensor body 8 can be installed on the top end of the supporting cylinder 1, when the wind speed sensor body needs to be disassembled, and the rotating disc 1 can be disassembled, and the rotating disc 6 can be disassembled.

As a technical optimization scheme of the utility model, spacing groove 11 has been seted up respectively to the inside of air velocity transducer body 8, and the inside rotation of spacing groove 11 is connected with spacing dish 12, spacing dish 12 respectively with the top and the bottom integrated into one piece of carousel 6, make carousel 6 can rotate in the inside of air velocity transducer body 8, and can not reciprocate in the inside of air velocity transducer body 8.

As a technical optimization scheme of the utility model, threaded groove 19 has been seted up to the inside of carousel 6, and threaded groove 19's lateral wall and carriage release lever 13's lateral wall threaded connection make 6 corotation reversal's of carousel rotation in-process, can make carriage release lever 13 reciprocate.

As a technical optimization scheme of the utility model, the bottom fixedly connected with of toper post 15 prevents the spacing ring 16 that anchor clamps 17 drop, the lateral wall of two sets of movable blocks 22 respectively with the both ends fixed connection of spring 18, pass through spring 18 fixed connection with two movable blocks 22, according to the characteristic that spring 18 can take place elastic deformation, when toper post 15 removes the extrusion state from ring channel 21, movable block 22 can remove in opposite directions, simultaneously through the effect of spacing ring 16, when can making sleeve 5 take off from supporting barrel 1, movable block 22 can not drop from toper post 15 and advance the inside of supporting barrel 1.

As a technical optimization scheme, as shown in fig. 1, the lateral wall of a support section of thick bamboo 1 can also be through one end installation of larynx hoop 4 and support frame 3, thereby install support frame 3 on the lateral wall of a support section of thick bamboo 1, then at the other end installation solar panel 2 of support frame 3, and back-mounted wind speed collection device on solar panel, and through installing LOLRA antenna on wind speed collection device, on can will gathering wind speed data transmission to receiving equipment, solar panel 2 is the power supply of ternary lithium cell, can supply power to wind speed collection device and wind speed sensor body 8 and handle.

Wherein, wind speed collection system's serial ports communication has 3 ways, 1 way and the communication of 4G wireless mobile communication module, 1 way loRa and the communication of distant place wind speed measuring device, 1 way RS485 and other equipment communications on the spot, through a plurality of wind speed measuring device of loRa wireless communication management, for the data of system provided wind speed to report an emergency and ask for help or increased vigilance and protection output according to judging the logic.

1. A control unit of the wind speed measuring device receives Lora wireless data (a wind speed maximum value, a wind speed minimum value and a wind speed average value in a current period) of a wind speed sensor unit in real time for one time of 5 minutes, and when the control unit or a wind speed monitoring unit is restarted, communication is normal and data are received immediately.

2. And the maximum value of the wind speed, the minimum value of the wind speed and the average value of the wind speed in the current period are sent to a cloud monitoring platform through a 4G network in a fixed period mode.

3. The control unit is internally provided with an out-of-limit wind speed value 1, when the maximum wind speed value exceeds the wind speed limit value 1, alarm information is triggered and sent to the cloud monitoring platform, and at the moment, the wind speed information is transmitted in real time.

4. A wind speed out-of-limit value 2 is arranged in a control unit, when the real-time wind speed exceeds the wind speed limit value 2 in 10 sampling periods, alarm information is triggered and sent to a cloud monitoring platform, meanwhile, an SMS short message is triggered and sent to a mobile phone of an administrator, the wind speed out-of-limit alarm is prompted, and whether a relay output is linked to be closed or not is requested (so that an FTU on-column switch controller is linked, and an on-column switch is tripped).

5. And when the wind speed average value exceeds the wind speed limit value 2 and the administrator SMS (short message service) is received for positive confirmation, the output of the relay is closed, otherwise, when the wind speed average value falls below the wind speed limit value 2, the logic judgment of closing the output of the electric gun is cancelled. And returning to a stable monitoring state.

6. And when the wind speed exceeds the wind speed limit value 1, sending a short message to a mobile phone of an administrator, if the short message is not confirmed by the administrator after 15 minutes, re-sending the prompt of the wind speed out-of-limit alarm, and if the short message is not confirmed by the administrator after 15 minutes, canceling the prompt and canceling the out-of-limit alarm.

During normal operation processing, a real-time wind speed value is collected every 30 seconds, a wind speed maximum value, a wind speed minimum value and a wind speed average value are counted every 300 seconds (5 minutes), the wind speed maximum value, the wind speed minimum value and the wind speed average value in a modification period are uploaded to a control unit fixedly for 300 seconds (5 minutes), wind speed data are immediately uploaded when the control unit or a wind speed monitoring unit is restarted, the collected wind speed real-time value at each time is compared with the previous wind speed value, and when the wind speed real-time value exceeds 0.8m/s, the wind speed maximum value, the wind speed minimum value and the wind speed average value in the current period are immediately uploaded to the control unit.

The wind speed collecting device, the LOLRA antenna, the solar panel 2 and the wind speed sensor body 8 are well known in the art, and the wind speed collecting device, the LOLRA antenna and the solar panel are mainly used for protecting mechanical devices, so the detailed explanation of the control mode and the circuit connection is omitted.

When the USB-RS495 converter is used, 1, a mobile phone, a portable computer and the USB-RS495 converter are prepared. 2. The related terminal connection is connected according to 4.2.2, 3, the power supply is turned on, and the running light of the device is on. 4. The handset sends short message to the telephone number of the wind speed monitoring device to test the device (such as sending state, returning wind speed and battery). 5. And sending a short message to the telephone number of the wind speed monitoring device by using the mobile phone to set the remote address ID of the device, and setting the number, the password and the like of the mobile phone of the administrator. 6. And the mobile phone sends a short message to the telephone number of the wind speed monitoring device to set a network port and an IP of the remote server. 7. And sending short messages to the telephone number of the wind speed monitoring device by the mobile phone to test and read the wind speed data. (for example, sending "read _ state" to return the measured data of wind speed and battery of each wind speed measuring device).

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 (6)

1. The utility model provides a wind speed measurement and control device is calculated to wind speed, includes a supporting cylinder (1), its characterized in that: the wind speed sensor comprises a supporting cylinder (1), and is characterized in that a wind speed sensor body (8) is installed at the top end of the supporting cylinder (1), a sleeve (5) is arranged at the bottom of the wind speed sensor body (8), the sleeve (5) is sleeved with the outer side of the supporting cylinder (1), a rotary groove (9) is formed in the side wall of the wind speed sensor body (8), the wind speed sensor body (8) is connected with the sleeve (5) in an integrated forming mode through a connecting block (10), a rotary disc (6) is rotatably connected inside the rotary groove (9), a rotary rod (7) is fixedly connected to the side wall of the rotary disc (6), a moving rod (13) is in threaded connection with the inside of the rotary disc (6), a conical column (15) is fixedly connected to the bottom end of the moving rod (13), and a clamp (17) used for clamping with the inner wall of the supporting cylinder (1) is arranged on the side wall of the conical column (15);

the fixture (17) comprises a moving block (22), clamping blocks (20) and an annular groove (21), the annular groove (21) is formed in the moving block (22), the conical columns (15) are connected with the annular groove (21) in a sliding mode, the moving block (22) is provided with two groups, the clamping blocks (20) are welded on the side walls of the outer sides of the two groups of moving blocks (22), and the clamping blocks (20) are abutted to the inner wall of the supporting cylinder (1).

2. The wind speed measurement and control device according to claim 1, wherein: limiting grooves (11) are respectively formed in the wind speed sensor body (8), limiting discs (12) are rotatably connected to the limiting grooves (11), and the limiting discs (12) are integrally formed with the top end and the bottom end of the rotary disc (6) respectively.

3. The wind speed measurement and control device according to claim 1, wherein: an inner thread groove (19) is formed in the rotary disc (6), and the side wall of the inner thread groove (19) is in threaded connection with the side wall of the moving rod (13).

4. The wind speed measurement and control device according to claim 1, wherein: the bottom side wall of the moving rod (13) is hexagonal, a limiting block (14) is fixedly mounted inside the sleeve (5) through screws, and the bottom side wall of the moving rod (13) is connected with the inner wall of the limiting block (14) in a sliding mode.

5. The wind speed measurement and control device according to claim 1, wherein: the bottom end of the conical column (15) is fixedly connected with a limiting ring (16) for preventing the clamp (17) from falling off.

6. The wind speed measurement and control device according to claim 1, wherein: the side walls of the two groups of moving blocks (22) are respectively fixedly connected with the two ends of the spring (18).

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