CN220415589U - Fan tower section of thick bamboo monitoring system mounting structure - Google Patents

Abstract

The application relates to the technical field of fan tower drum monitoring, in particular to a fan tower drum monitoring system installation structure, which comprises a tower drum and two attitude sensors. The top and the bottom of the inner wall of the tower cylinder are respectively provided with a base, the base is provided with a mounting groove, and the base is internally provided with a sliding groove communicated with the mounting groove. The bottoms of the two attitude sensors are respectively provided with a mounting part, the mounting part is provided with a positioning groove, the mounting part is inserted in the mounting groove in a sliding way, and the positioning groove is communicated with the sliding groove. The locating component is arranged between the mounting piece and the base and comprises a first elastic piece and a clamping block, the first elastic piece is arranged in the sliding groove, one end of the clamping block is slidably inserted in the sliding groove and connected with the first elastic piece, the other end of the clamping block is inserted in the locating groove, and the clamping block is used for limiting the mounting piece. The application has the effect of being convenient for install the sensor fast.

Description

Fan tower section of thick bamboo monitoring system mounting structure

Technical Field

The application relates to the technical field of fan tower drum monitoring, in particular to a fan tower drum monitoring system installation structure.

Background

At present, a tower barrel is used as an important part of a wind generating set and is connected between a cabin and the ground, for convenient hoisting and production efficiency improvement, the tower barrel is generally divided into a plurality of sections of conical barrels with unequal 20-30m for production respectively, each section is connected through a flange, the tower barrel supports an impeller to a certain height so that the impeller obtains higher and stable wind speed, the supporting cabin provides a working platform for installation, operation and maintenance of equipment such as a generator, and the reliability of the structure is one of necessary factors for influencing the safe and stable operation of the wind generating set. In the running process of the generator set in the wind, the tower is subjected to the comprehensive effects of various loads such as vibration, torsion, shearing and the like for a long time, so that the tower is easy to shake or incline. When the tower drum is excessively inclined, the accident of collapse of the tower drum can occur, so that great economic loss is caused, and the personal safety of unit operation and maintenance personnel is threatened.

At present, by installing attitude sensors on the top of a tower drum and a foundation of a fan and monitoring the shaking angles of the tower drum and the foundation, the rigidity condition and the stress condition of the tower drum and the foundation can be obtained.

For the related art in the above: the sensor is usually fixed by adopting a screw, the installation process is relatively complicated, and the sensor is inconvenient to install rapidly.

Disclosure of Invention

In order to be convenient for install the sensor fast, this application provides a fan tower section of thick bamboo monitoring system mounting structure.

The application provides a fan tower section of thick bamboo monitoring system mounting structure adopts following technical scheme:

the utility model provides a fan tower section of thick bamboo monitoring system mounting structure, includes tower section of thick bamboo and two attitude sensor, the top and the bottom of tower section of thick bamboo inner wall are provided with the base respectively, the mounting groove has been seted up on the base, still seted up in the base with the spout of mounting groove intercommunication, two attitude sensor's bottom is provided with the installed part respectively, the constant head tank has been seted up on the installed part, the installed part slides and inserts and establish in the mounting groove, the constant head tank with spout intercommunication, the installed part with be provided with locating component between the base, locating component includes first elastic component and fixture block, first elastic component sets up in the spout, the one end of fixture block slides and inserts and establish in the spout and with first elastic component is connected, the other end of fixture block inserts and establishes in the constant head tank, the fixture block is used for right the installed part carries out spacingly.

Through adopting above-mentioned technical scheme, when needing to install attitude sensor, insert the mounting in the mounting groove to make constant head tank and spout intercommunication, first elastic component promotes the fixture block and inserts in the constant head tank this moment, thereby is fixed mounting and base connection, and then is convenient for install attitude sensor fast.

Optionally, the fixture block is kept away from the one end of first elastic component is provided with first guide surface, first guide surface is kept away from the one end of first elastic component is fixed, the other end of first guide surface is to keeping away from the direction slope of mounting groove, the mounting is kept away from attitude sensor's one end is provided with the second guide surface, and the second guide surface is parallel with first guide surface.

Through adopting above-mentioned technical scheme, when the installed part inserts in the mounting groove, the second guide surface is contradicted with first guide surface earlier for the fixture block can be under the effect of installed part, removes to in the spout, thereby in being convenient for insert the installation part in the mounting groove, and after positioning groove and spout intercommunication, first elastic component can promote the fixture block and insert in the positioning groove, and then is convenient for install the sensor.

Optionally, a gasket is arranged at the bottom of the mounting groove, and the gasket is filled between the inner wall of the mounting groove and the mounting piece.

Through adopting above-mentioned technical scheme, the gasket is filled between the inner wall of mounting groove and installed part for be difficult for taking place to rock after the installed part inserts in the mounting groove, thereby be favorable to improving the connection stability of installed part and base.

Optionally, the fixture block respectively with the spout with the inner wall laminating of constant head tank.

By adopting the technical scheme, the possibility of shaking after the mounting piece is inserted into the mounting groove is further reduced.

Optionally, the mounting groove with the cross section of mounting piece is circular, be provided with the third guide surface on the constant head tank inside wall, the third guide surface is close to the one end of constant head tank is around the axis of mounting piece is to keeping away from the direction slope of constant head tank, the fixture block is kept away from the one end of first elastic component is provided with the fourth guide surface, the fourth guide surface with the third guide surface is parallel.

Through adopting above-mentioned technical scheme, when needing to separate attitude sensor and base each other, rotate attitude sensor, attitude sensor drives the installed part and rotates around the axis of installed part, the installed part applys effort to the fixture block, the constant head tank plays spacing effect to the fixture block this moment for the fixture block is difficult for removing to the direction of skew constant head tank, simultaneously third guide surface and fourth guide surface interact, make the fixture block to the spout in remove, the fixture block slides into in the spout, thereby make the fixture block no longer carry out spacingly to the installed part, and then be convenient for with attitude sensor and base interconnect separation.

Optionally, the base is provided with the locating part, run through on the base and seted up logical groove, set up the spacing groove on the installed part, the spacing groove with lead to the groove intercommunication, the locating part passes lead to the groove to insert in the spacing groove, the locating part is used for limiting the installed part rotates.

Through adopting above-mentioned technical scheme, after the installed part inserts the mounting groove, the locating part can insert the spacing inslot to spacing the installed part, make the installed part be difficult for taking place to rotate in the mounting groove, thereby be favorable to reducing attitude sensor and receive external force effect to drive the installed part rotation, lead to the installed part to break away from the possibility of inslot, and then be favorable to improving the connection stability of installed part and base.

Optionally, an abutment surface is arranged in the through groove, a second elastic piece is further arranged on the base, the second elastic piece is sleeved on the limiting piece and abuts against the abutment surface, and the second elastic piece is used for driving the limiting piece to move towards the mounting groove.

Through adopting above-mentioned technical scheme, the second elastic component can drive the locating part and remove to the mounting groove for the locating part can be stabilized to insert and establish the locating groove, thereby is favorable to improving the connection stability of mounting and base.

Optionally, the one end that the locating part was kept away from the spacing groove is provided with the arch, the second elastic component is kept away from the one end of butt face is connected on the arch, the arch is kept away from the one end of second elastic component extends in the logical inslot.

Through adopting above-mentioned technical scheme, bellied setting is convenient for the second elastic component to drive the locating part to the mounting groove remove on the one hand, and on the other hand protruding extension leads to the groove, and the staff of being convenient for drives the locating part through the pulling arch to keeping away from the direction removal of mounting groove to make the locating part break away from the mounting groove, and make the second elastic component extend, thereby in the mounting groove of being convenient for inserts, and when the staff stops exerting force to the arch, the second elastic component shrink drives the locating part and inserts the spacing inslot, and then is convenient for carry out spacing to the mounting.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the mutual matching of the base, the mounting piece, the first elastic piece and the clamping block, the mounting piece can be simply and conveniently connected and fixed with the base, so that the attitude sensor can be conveniently and rapidly mounted;

2. through the mutual matching of the third guide surface and the fourth guide surface, the mounting piece can be simply and conveniently separated from the base, so that the attitude sensor is convenient to detach;

3. through the mutually supporting of locating part and second elastic component for difficult emergence rotates after the installed part inserts the mounting groove, thereby is favorable to reducing the possibility that the installed part breaks away from in the mounting groove, and then is favorable to improving the connection stability of installed part and base.

Drawings

Fig. 1 is a schematic overall structure of a fan tower monitoring system mounting structure according to an embodiment of the present application.

Fig. 2 is a cross-sectional view of the structure of fig. 1 taken along line A-A.

Fig. 3 is a schematic structural view of an attitude sensor, a mounting member and a positioning assembly according to an embodiment of the present application.

Reference numerals illustrate:

1. a tower; 11. a base; 111. a mounting groove; 112. a chute; 13. a gasket; 114. a through groove; 1141. an abutment surface; 115. a limiting piece; 1151. a protrusion; 116. a second elastic member; 2. an attitude sensor; 21. a mounting member; 211. a positioning groove; 212. a second guide surface; 213. a third guide surface; 214. a limit groove; 3. a positioning assembly; 31. a first elastic member; 32. a clamping block; 321. a first guide surface; 322. and a fourth guide surface.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a fan tower section of thick bamboo monitoring system mounting structure.

Referring to fig. 1 and 2, the fan tower monitoring system mounting structure includes a tower 1 and two attitude sensors 2. Wherein, the top and the bottom of tower section of thick bamboo 1 inner wall are fixedly connected with base 11 respectively, have seted up mounting groove 111 on the base 11, and the bottom of two attitude sensor 2 is fixedly connected with installed part 21 respectively, and installed part 21 slides and inserts to establish in mounting groove 111, is provided with locating component 3 between installed part 21 and the base 11, and locating component 3 is used for fixing installed part 21 in mounting groove 111 to be convenient for install attitude sensor 2 fast.

Referring to fig. 2, a chute 112 communicating with the installation groove 111 is formed on the base 11, and the opening direction of the chute 112 is perpendicular to the opening direction of the installation groove 111. In this embodiment, two sliding grooves 112 are provided, and the two sliding grooves 112 are symmetrically disposed on the base 11.

The mounting member 21 is provided with positioning grooves 211, and the number of the positioning grooves 211 is equal to that of the sliding grooves 112. When the mount 21 is inserted into the mount groove 111, the positioning groove 211 communicates with the slide groove 112.

The number of positioning assemblies 3 is also equal to the number of runners 112. The positioning assembly 3 includes a first elastic member 31 and a clamping block 32. The first elastic member 31 is disposed in the sliding groove 112, one end of the clamping block 32 is slidably inserted into the sliding groove 112 and is attached to an inner wall of the sliding groove 112, and one end of the clamping block 32 inserted into the sliding groove 112 is fixedly connected with the first elastic member 31. The first elastic member 31 is a spring in this embodiment, so as to facilitate pushing the latch 32 to move.

When the mounting member 21 is inserted into the mounting groove 111 and the positioning groove 211 is communicated with the chute 112, the clamping block 32 can be inserted into the positioning groove 211 under the action of the first elastic member 31, so that the mounting member 21 is limited in the mounting groove 111, and the posture sensor 2 is further conveniently fixed on the base 11.

After the fixture block 32 is inserted into the positioning groove 211, the fixture block 32 can be attached to the inner wall of the positioning groove 211, so that the possibility of shaking after the mounting piece 21 is inserted into the mounting groove 111 is reduced, and the mounting stability of the attitude sensor 2 is improved.

Referring to fig. 2 and 3, one end of the clip 32 away from the first elastic member 31 is provided with a first guide surface 321, the first guide surface 321 is located at one side of the clip 32 away from the bottom of the mounting groove 111, and one end of the first guide surface 321 away from the first elastic member 31 is fixed, and the other end of the first guide surface 321 is inclined in a direction away from the mounting groove 111.

The end of the mounting member 21 remote from the attitude sensor 2 is provided with a second guide surface 212. When the mounting member 21 is inserted into the mounting groove 111, the second guide surface 212 is parallel to the first guide surface 321. And during insertion of the mounting member 21 into the mounting slot 111, the second guide surface 212 is first contacted with the first guide surface 321, so that the second guide surface 212 interacts with the first guide surface 321 to push the latch 32 into the slide slot 112, thereby facilitating complete insertion of the mounting member 21 into the mounting slot 111.

And when the mounting piece 21 is completely inserted into the mounting groove 111, the positioning groove 211 is communicated with the sliding groove 112, and the first elastic piece 31 can push the clamping block 32 to be inserted into the positioning groove 211, so that the limit of the mounting piece 21 is completed.

Referring to fig. 2 and 3, the cross sections of the mounting groove 111 and the mounting member 21 in this embodiment are circular, so that the mounting member 21 can rotate in the mounting groove 111. And when the mounting member 21 is inserted into the mounting groove 111, the mounting member 21 can be fitted with the inner wall of the mounting groove 111, thereby being beneficial to reducing the possibility of shaking of the mounting member 21 in the mounting groove 111.

The positioning groove 211 is provided with a third guide surface 213 on the inner side wall, and one end of the third guide surface 213 close to the positioning groove 211 is inclined in a direction away from the positioning groove 211 around the axis of the mounting member 21.

The end of the latch 32 away from the first elastic member 31 is provided with a fourth guide surface 322. When the mounting member 21 is inserted into the mounting groove 111, the third guide surface 213 is parallel to the fourth guide surface 322. And when the clamping block 32 is inserted into the positioning groove 211, the third guiding surface 213 is attached to the fourth guiding surface 322.

When it is desired to remove the mounting member 21 from the mounting slot 111, the mounting member 21 is rotated about its own axis such that the third guide surface 213 and the fourth guide surface 322 interact to apply a force to the latch 32 to urge the latch 32 out of the detent 211 and into the chute 112. At this time, the clip 32 no longer limits the mounting member 21, so that the mounting member 21 is conveniently taken out of the mounting groove 111, and the attitude sensor 2 is conveniently taken down from the base 11.

The bottom of the mounting groove 111 in this embodiment is fixedly connected with a spacer 13, and the spacer 13 is adapted to the shape design of the mounting member 21. When the mounting member 21 is completely inserted into the mounting groove 111, the spacer 13 is filled between the mounting member 21 and the mounting groove 111 to support the mounting member 21, thereby being beneficial to reducing the possibility of shaking after the mounting member 21 is inserted into the mounting groove 111 and further being beneficial to improving the connection stability of the mounting member 21 and the base 11.

Referring to fig. 2, the base 11 is provided with a through groove 114, the opening direction of the through groove 114 is perpendicular to the mounting groove 111, and the through groove 114 communicates with the mounting groove 111. The mounting member 21 is provided with a limit groove 214, and when the mounting member 21 is inserted into the mounting groove 111, the limit groove 214 is communicated with the through groove 114.

Be provided with the locating part 115 on the base 11, the locating part 115 slides and inserts to establish in logical inslot 114, and when spacing groove 214 and logical inslot 114 intercommunication, the one end of locating part 115 passes logical inslot 114 and inserts in the spacing groove 214 to make the locating part 115 can carry out spacingly to mounting 21, so that mounting 21 is difficult for taking place to rotate in mounting groove 111, and then is favorable to improving the connection stability of mounting 21 and base 11.

The base 11 is further provided with a second elastic member 116, and the second elastic member 116 in this embodiment is a spring. One end of the limiting piece 115 far away from the mounting groove 111 is fixedly connected with a boss 1151, an abutting surface 1141 is arranged in the through groove 114, the second elastic piece 116 is arranged in the through groove 114 and sleeved on the limiting piece 115, one end of the second elastic piece 116 is fixedly connected with the boss 1151, and the other end of the second elastic piece 116 is fixedly connected with the abutting surface 1141, so that the second elastic piece 116 can push the limiting piece 115, and one end of the limiting piece 115 far away from the boss 1151 can be inserted into the mounting groove 111.

The protrusion 1151 in this embodiment extends out of the through groove 114 away from the end of the second elastic member 116, so that when the mounting member 21 is inserted into the mounting groove 111, a worker can pull the limiting member 115 to move away from the mounting groove 111 through the protrusion 1151, so that the limiting member 115 is separated from the mounting groove 111, and the mounting member 21 is conveniently inserted into the mounting groove 111.

The implementation principle of the fan tower section of thick bamboo monitoring system mounting structure of this application embodiment is: when the attitude sensor 2 needs to be mounted on the base 11, the limiting piece 115 is pulled by the protrusion 1151 to be separated from the mounting groove 111, and then the mounting piece 21 is inserted into the mounting groove 111, so that the second guide surface 212 contacts with the first guide surface 321 to apply force to the clamping block 32, thereby compressing the first elastic piece 31, and the clamping block 32 moves into the sliding groove 112, so that the mounting piece 21 is inserted into the bottom of the mounting groove 111 through the sliding groove 112.

At this time, the first elastic member 31 pushes the latch 32 to insert into the positioning groove 211, and the second guiding surface 212 abuts against the spacer 13. And then the bulge 1151 is loosened, so that the second elastic piece 116 pushes the limiting piece 115 to be inserted into the limiting groove 214, thereby limiting the mounting piece 21 and further completing the mounting of the attitude sensor 2.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a fan tower section of thick bamboo monitoring system mounting structure, includes tower section of thick bamboo (1) and two attitude sensor (2), its characterized in that: the utility model provides a tower section of thick bamboo (1) inner wall's top and bottom are provided with base (11) respectively, install groove (111) have been seted up on base (11), still seted up in base (11) with spout (112) of install groove (111) intercommunication, two the bottom of gesture sensor (2) is provided with installed part (21) respectively, locating slot (211) have been seted up on install part (21), install part (21) slip and insert and establish in install groove (111), locating slot (211) with spout (112) intercommunication, install part (21) with be provided with locating component (3) between base (11), locating component (3) include first elastic component (31) and fixture block (32), first elastic component (31) set up in spout (112), the one end of fixture block (32) slip insert and establish in spout (112) and with first elastic component (31) are connected, the other end of fixture block (32) inserts and establishes in locating slot (21) are used for installing fixture block (32).

2. The blower tower monitoring system mounting structure of claim 1, wherein: one end of the clamping block (32) far away from the first elastic piece (31) is provided with a first guide surface (321), one end of the first guide surface (321) far away from the first elastic piece (31) is fixed, the other end of the first guide surface (321) is inclined towards a direction away from the mounting groove (111), and one end of the mounting piece (21) away from the attitude sensor (2) is provided with a second guide surface (212), and the second guide surface (212) is parallel to the first guide surface (321).

3. The blower tower monitoring system mounting structure of claim 2, wherein: the bottom of the mounting groove (111) is provided with a gasket (13), and the gasket (13) is filled between the inner wall of the mounting groove (111) and the mounting piece (21).

4. The blower tower monitoring system mounting structure of claim 1, wherein: the clamping blocks (32) are respectively attached to the inner walls of the sliding grooves (112) and the positioning grooves (211).

5. The blower tower monitoring system mounting structure of claim 1, wherein: the mounting groove (111) with the transversal of mounting piece (21) is circular, be provided with third guide surface (213) on constant head tank (211) inside wall, third guide surface (213) are close to one end of constant head tank (211) is around the axis of mounting piece (21) is to keeping away from the direction slope of constant head tank (211), fixture block (32) are kept away from one end of first elastic component (31) is provided with fourth guide surface (322), fourth guide surface (322) with third guide surface (213) are parallel.

6. The blower tower monitoring system mounting structure of claim 5, wherein: be provided with locating part (115) on base (11), run through on base (11) and seted up logical groove (114), set up spacing groove (214) on installed part (21), spacing groove (214) with logical groove (114) intercommunication, locating part (115) pass logical groove (114) inserts in spacing groove (214), locating part (115) are used for the restriction installed part (21) rotate.

7. The blower tower monitoring system mounting structure of claim 6, wherein: an abutting surface (1141) is arranged in the through groove (114), a second elastic piece (116) is further arranged on the base (11), the second elastic piece (116) is sleeved on the limiting piece (115) and abuts against the abutting surface (1141), and the second elastic piece (116) is used for driving the limiting piece (115) to move towards the inside of the mounting groove (111).

8. The blower tower monitoring system mounting structure of claim 7, wherein: one end of the limiting piece (115) far away from the limiting groove (214) is provided with a protrusion (1151), one end of the second elastic piece (116) far away from the abutting surface (1141) is connected to the protrusion (1151), and one end of the protrusion (1151) far away from the second elastic piece (116) extends out of the through groove (114).