CN213275634U - A air velocity transducer fixing device for flux observation tower - Google Patents

Abstract

The utility model discloses an air velocity transducer fixing device for flux observation tower, spacing coupling assembling under spacing coupling assembling and the sensor on observing tower steelframe connecting device, sensor. The utility model relates to an observation tower sensor fixed equipment technical field specifically provides one kind according to lever principle, when air velocity transducer has the displacement trend, go up the gag lever post, down the gag lever post, go up locating lever one, go up locating lever two, lower locating lever one, lower locating lever two, it assists the support one to go up the location in addition, go up the location and assist the support two, the location is assisted the support one down, the location is assisted the support two down and can be to opposite direction displacement trend, and then make the fixed more firm air velocity transducer fixing device who is used for flux observation tower.

Description

A air velocity transducer fixing device for flux observation tower

Technical Field

The utility model relates to an observation tower sensor fixed equipment technical field specifically indicates an air velocity transducer fixing device for flux observation tower.

Background

In order to ensure the safety of the observation tower structure under the action of wind load, the characteristics of a wind field must be reasonably determined, field actual measurement is currently effective and is a more means, but a wind speed sensor generally needs to be installed in the upstream direction of the incoming flow wind direction to reduce the disturbance of the observation tower to the wind field, so that the installation and fixation structure is unstable, and a good measurement effect cannot be achieved.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned current difficult problem, the utility model provides a according to lever principle, when air velocity transducer has the displacement trend, go up the spacing pole, down the spacing pole, go up the locating lever one, go up the locating lever two, down the locating lever one, down locating lever two, it is supplementary to hold in the palm one, go up the supplementary support two of location, the supplementary support one of lower location, the supplementary support two of lower location can be to opposite direction displacement trend to go up the location, and then make the fixed more firm air velocity transducer fixing device who is used for flux observation tower.

The utility model adopts the following technical scheme: the utility model relates to an air velocity transducer fixing device for flux observation tower, including observation tower steelframe connecting device, sensor upper limit coupling assembling and sensor lower limit coupling assembling, the sensor lower limit coupling assembling can be slidely located in observation tower steelframe connecting device, the sensor upper limit coupling assembling is connected and located in the sensor lower limit coupling assembling; the observation tower steel frame connecting device is arranged in a hollow cavity, one end of the observation tower steel frame connecting device is opened, the other end of the observation tower steel frame connecting device is provided with an observation tower steel frame fixing screw hole, the opening end of the observation tower steel frame connecting device is communicated downwards along the side wall and is provided with a cross-shaped adjusting chute, the sensor upper limiting connecting component comprises an upper positioning rod I, an upper positioning rod II, an upper limiting rod, an upper positioning auxiliary support I, an upper positioning auxiliary support II and a sensor upper positioning element, the upper positioning rod I and the upper positioning rod II are arranged in an L-shaped folded shape and are connected in a V-shaped manner, two ends of the upper limiting rod are respectively connected with the upper positioning rod I and the upper positioning rod II, the sensor upper positioning element is arranged in a tubular shape which is communicated up and down and can be slidably arranged in the observation tower steel frame connecting device, and the upper limiting rod penetrates through two, go up the locating lever, go up locating lever one, go up locating lever two and can slide from top to bottom and locate in adjusting the spout, go up the supplementary support of location and all be the arc slice setting with the supplementary support of last location two, go up the supplementary support of location and connect and locate on the other end of locating lever one, go up the supplementary support of location two and connect and locate on the other end of locating lever two, go up the supplementary support of location and go up the arc end of the supplementary support of location two and set up and form positioning hole one in the middle of relatively.

Further, spacing coupling assembling constitutes and connection structure the same on spacing coupling assembling and the sensor under the sensor, spacing coupling assembling includes down locating lever one, down locating lever two, lower locating lever, down the supplementary support of location one, down the supplementary support of location two and sensor down the setting element under, locating lever one is down the V-arrangement setting with lower locating lever two, lower locating lever, down locating lever one, down locating lever two can slide from top to bottom and locate in another relative regulation spout, lower locating lever and last locating lever intersect and are the cross setting, the supplementary support of location is one and is just middle formation positioning hole two with the supplementary arc end of holding in the palm two of lower location relatively.

Furthermore, the upper positioning auxiliary support I and the upper positioning auxiliary support II can be inserted into the lower positioning part of the sensor, and the lower positioning auxiliary support I and the lower positioning auxiliary support II can be inserted into the upper positioning part of the sensor.

Furthermore, the positioning through hole II, the sensor upper positioning piece, the positioning through hole I and the sensor lower positioning piece are sequentially arranged in the observation tower steel frame connecting device from top to bottom.

Furthermore, two sides of the upper limiting rod are respectively provided with a first limiting sleeve, the upper limiting rod is connected with the first upper positioning rod and the second upper positioning rod in a sleeved mode through the first limiting sleeve, two sides of the lower limiting rod are respectively provided with a second limiting sleeve, and the lower limiting rod is connected with the first lower positioning rod and the second lower positioning rod in a sleeved mode through the second limiting sleeve.

Furthermore, an observation tower steel frame connecting hole is formed in the side end of the observation tower steel frame connecting device.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the utility model provides an air velocity transducer fixing device for flux observation tower, put air velocity transducer into sensor upper setting element, and then go up the spacer rod and run through and insert air velocity transducer and sensor upper setting element, and then go up the spacer rod and upper positioning rod cover grafting link to each other through spacer sleeve one with upper positioning rod one and upper positioning rod two, make upper positioning auxiliary holder one and upper positioning auxiliary holder two just hold air velocity transducer, then put the other end of air velocity transducer into sensor lower setting element, and then go up the spacer rod and run through and insert air velocity transducer and sensor lower setting element, at this moment make lower positioning rod one and lower positioning rod two run through the spacer sleeve two of lower positioning rod both ends and realize the connection, and make lower positioning auxiliary holder one, lower positioning auxiliary holder two hold air velocity transducer just, at this moment put the whole of connection into observation tower steelframe connecting device, will observe the steelframe connecting hole of steelframe of tower and screw up observation steelframe fixing screw, due to the lever principle, when the wind speed sensor has a displacement trend, the upper positioning rod, the lower positioning rod, the first upper positioning rod, the second upper positioning rod, the first lower positioning rod and the second lower positioning rod have a displacement trend in opposite directions, and the upper positioning auxiliary support I, the upper positioning auxiliary support II, the lower positioning auxiliary support I and the lower positioning auxiliary support II further have a displacement trend in opposite directions, so that the fixation is firmer.

Drawings

Fig. 1 is a schematic view of the overall structure of an apparatus for fixing an air velocity sensor for a flux observation tower according to the present invention;

fig. 2 is an internal structure diagram of an apparatus for fixing an anemometer for a flux observation tower according to the present invention.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Wherein, 1, survey tower steelframe connecting device, 2, spacing coupling assembling on the sensor, 3, spacing coupling assembling under the sensor, 4, survey the fixed screw of tower steelframe, 5, adjust the spout, 6, go up locating lever one, 7, go up locating lever two, 8, go up the locating lever, 9, go up the supplementary first of holding in the palm of location, 10, go up the supplementary second of holding in the palm of location, 11, the last setting element of sensor, 12, positioning hole one, 13, lower locating lever one, 14, lower locating lever two, 15, the lower locating lever, 16, the supplementary first of holding in the palm of lower location, 17, the supplementary second of holding in the palm of lower location, 18, setting element under the sensor, 19, positioning hole two, 20, spacing cover one, 21, spacing cover two, 22, survey tower steelframe.

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 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.

As shown in fig. 1-2, the utility model relates to an air velocity transducer fixing device for flux observation tower, including observation tower steel frame connecting device 1, sensor upper limit coupling assembling 2 and sensor lower limit coupling assembling 3, the sensor lower limit coupling assembling 3 is slidably arranged in the observation tower steel frame connecting device 1, the sensor upper limit coupling assembling 2 is arranged in the sensor lower limit coupling assembling 3; the observation tower steel frame connecting device 1 is arranged in a hollow cavity, one end of the observation tower steel frame connecting device 1 is open, the other end of the observation tower steel frame connecting device 1 is provided with an observation tower steel frame fixing screw hole 4, the open end of the observation tower steel frame connecting device 1 is communicated downwards along the side wall and is provided with a cross-shaped adjusting chute 5, the sensor upper limiting connecting component 2 comprises an upper positioning rod I6, an upper positioning rod II 7, an upper limiting rod 8, an upper positioning auxiliary support I9, an upper positioning auxiliary support II 10 and a sensor upper positioning component 11, the upper positioning rod I6 and the upper positioning rod II 7 are arranged in an L-folded shape, the upper positioning rod I6 is connected with the upper positioning rod II 7 in a V-shaped manner, two ends of the upper positioning rod 8 are respectively connected with the upper positioning rod I6 and the upper positioning rod II 7, the sensor upper positioning component 11 is arranged in a vertically through tubular shape and can be, go up the setting of stopper rod 8 through the relative both sides wall of setting element 11 on the sensor, go up stopper rod 8, go up locating lever one 6, go up locating lever two 7 and can slide from top to bottom and locate in adjusting spout 5, it all is the arc slice setting to go up the supplementary support of location one 9 and go up the supplementary support of location two 10, go up the supplementary support of location one 9 and connect and locate on the other end of locating lever one 6, go up the supplementary support of location two 10 and connect and locate on the other end of going up locating lever two 7, go up the supplementary arc end that holds in the palm one 9 of location and go up the supplementary support of location two 10 and set up relatively and middle formation positioning hole one 12.

The sensor lower limiting connecting assembly 3 and the sensor upper limiting connecting assembly 2 are the same in composition and connecting structure, the sensor lower limiting connecting assembly 3 comprises a lower positioning rod I13, a lower positioning rod II 14, a lower limiting rod 15, a lower positioning auxiliary support I16, a lower positioning auxiliary support II 17 and a sensor lower positioning piece 18, the lower positioning rod I13 and the lower positioning rod II 14 are arranged in an inverted V shape, the lower limiting rod 15, the lower positioning rod I13 and the lower positioning rod II 14 can be arranged in another opposite adjusting sliding groove 5 in a vertically sliding mode, the lower limiting rod 15 and the upper limiting rod 8 are arranged in a cross shape in a crossed mode, the arc-shaped ends of the lower positioning auxiliary support I16 and the lower positioning auxiliary support II 17 are arranged oppositely, and a positioning through hole II 19 is formed in the middle of the lower positioning auxiliary support I; the upper positioning auxiliary support I9 and the upper positioning auxiliary support II 10 can be inserted into a sensor lower positioning piece 18, and the lower positioning auxiliary support I16 and the lower positioning auxiliary support II 17 can be inserted into a sensor upper positioning piece 11; the second positioning through hole 19, the upper sensor positioning piece 11, the first positioning through hole 12 and the lower sensor positioning piece 18 are sequentially arranged in the observation tower steel frame connecting device 1 from top to bottom; two sides of the upper limiting rod 8 are respectively provided with a first limiting sleeve 20, the upper limiting rod 8 is connected with a first upper positioning rod 6 and a second upper positioning rod 7 in a sleeved mode through the first limiting sleeve 20, two sides of the lower limiting rod 15 are respectively provided with a second limiting sleeve 21, and the lower limiting rod 15 is connected with a first lower positioning rod 13 and a second lower positioning rod 14 in a sleeved mode through the second limiting sleeve 21; and an observation tower steel frame connecting hole 22 is formed in the side end of the observation tower steel frame connecting device 1.

When the device is used specifically, the wind speed sensor is placed into the upper sensor positioning piece 11, the upper limiting rod 8 penetrates through the upper wind speed sensor and the upper sensor positioning piece 11, the upper limiting rod 8 is connected with the upper positioning rod I6 and the upper positioning rod II 7 in a sleeved mode through the limiting sleeve I20, the upper positioning auxiliary support I9 and the upper positioning auxiliary support II 10 just support the wind speed sensor, the other end of the wind speed sensor is placed into the lower sensor positioning piece 18, the lower limiting rod 15 penetrates through the lower wind speed sensor and the lower sensor positioning piece 18, the lower positioning rod I13 and the lower positioning rod II 14 penetrate through the limiting sleeve II 21 at two ends of the lower limiting rod 15 to be connected, the lower positioning auxiliary support I16 and the lower positioning auxiliary support II 17 just support the wind speed sensor, the connected whole is placed into the observation tower steel frame connecting device 1, the observation tower steel frame connecting device 1 penetrates through the observation tower steel frame through the observation tower connecting hole 22 and is screwed tightly to fix the observation tower steel frame The fixed screw is characterized in that due to the lever principle, when the wind speed sensor has a displacement trend, the upper limiting rod 8, the lower limiting rod 15, the first upper positioning rod 6, the second upper positioning rod 7, the first lower positioning rod 13, the second lower positioning rod 14, the first upper positioning auxiliary support 9, the second upper positioning auxiliary support 10, the first lower positioning auxiliary support 16 and the second lower positioning auxiliary support 17 have a displacement trend in opposite directions, and therefore fixing is firmer.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (6)

1. A wind speed sensor fixing device for a flux observation tower is characterized in that: the device comprises an observation tower steel frame connecting device, a sensor upper limiting connecting assembly and a sensor lower limiting connecting assembly, wherein the sensor lower limiting connecting assembly is slidably arranged in the observation tower steel frame connecting device, and the sensor upper limiting connecting assembly is arranged in the sensor lower limiting connecting assembly; the observation tower steel frame connecting device is arranged in a hollow cavity, one end of the observation tower steel frame connecting device is opened, the other end of the observation tower steel frame connecting device is provided with an observation tower steel frame fixing screw hole, the opening end of the observation tower steel frame connecting device is communicated downwards along the side wall and is provided with a cross-shaped adjusting chute, the sensor upper limiting connecting component comprises an upper positioning rod I, an upper positioning rod II, an upper limiting rod, an upper positioning auxiliary support I, an upper positioning auxiliary support II and a sensor upper positioning element, the upper positioning rod I and the upper positioning rod II are arranged in an L-shaped folded shape and are connected in a V-shaped manner, two ends of the upper limiting rod are respectively connected with the upper positioning rod I and the upper positioning rod II, the sensor upper positioning element is arranged in a tubular shape which is communicated up and down and can be slidably arranged in the observation tower steel frame connecting device, and the upper limiting rod penetrates through two, go up the locating lever, go up locating lever one, go up locating lever two and can slide from top to bottom and locate in adjusting the spout, go up the supplementary support of location and all be the arc slice setting with the supplementary support of last location two, go up the supplementary support of location and connect and locate on the other end of locating lever one, go up the supplementary support of location two and connect and locate on the other end of locating lever two, go up the supplementary support of location and go up the arc end of the supplementary support of location two and set up and form positioning hole one in the middle of relatively.

2. A wind speed sensor fixture for a flux observation tower according to claim 1, wherein: spacing coupling assembling constitutes and connection structure the same on spacing coupling assembling and the sensor under the sensor, spacing coupling assembling includes down locating lever one, lower locating lever two, lower locating lever, lower location is supplementary holds in the palm one, lower location is supplementary holds in the palm two and sensor lower setting element, locating lever one is down the V-arrangement setting with lower locating lever two, lower locating lever one, lower locating lever two can slide from top to bottom and locate in another relative regulation spout, lower locating lever and last locating lever intersect and are the cross setting, the supplementary arc end of holding in the palm two of first and lower location of lower location sets up and middle formation positioning hole two relatively down in the lower location.

3. A wind speed sensor fixture for a flux observation tower according to claim 2, wherein: the upper positioning auxiliary support I and the upper positioning auxiliary support II can be inserted into the sensor lower positioning piece, and the lower positioning auxiliary support I and the lower positioning auxiliary support II can be inserted into the sensor upper positioning piece.

4. A wind speed sensor fixture for a flux observation tower according to claim 3, wherein: and the positioning through hole II, the sensor upper positioning piece, the positioning through hole I and the sensor lower positioning piece are sequentially arranged in the observation tower steel frame connecting device from top to bottom.

5. A wind speed sensor fixture for a flux observation tower according to claim 2, wherein: the upper limiting rod is connected with the upper positioning rod I and the upper positioning rod II in a sleeved mode through the limiting sleeve I, the lower limiting rod is connected with the lower positioning rod I and the lower positioning rod II in a sleeved mode through the limiting sleeve II, and the lower limiting rod is connected with the lower positioning rod I and the lower positioning rod II in a sleeved mode through the limiting sleeve II.

6. A wind speed sensor fixture for a flux observation tower according to claim 1, wherein: and an observation tower steel frame connecting hole is formed in the side end of the observation tower steel frame connecting device.

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