CN214096016U - Tower inclination monitoring device - Google Patents

Abstract

The utility model discloses a tower inclination monitoring device, which comprises a tower body, wherein a first supporting plate and a second supporting plate are horizontally arranged on the tower body; this shaft tower slope monitoring devices, through setting up infrared ray emission module and receiving module, first infrared ray receiving module cooperates with infrared ray emission module all the time, second infrared ray receiving module encircles the outside that is provided with first infrared ray receiving module, when infrared ray emission module leaves first infrared ray receiving module, it takes place the slope to explain the shaft tower, when contacting second infrared ray receiving module, it takes place very fast to explain shaft tower tilting speed, give control center with data transmission by first wireless transmission module, thereby control at any time fast, through setting up inductive probe and response module, when inductive probe and response module contact, send the signal by second wireless transmission module, through the equipment that increases the detection, improve the efficiency of monitoring.

Description

Tower inclination monitoring device

Technical Field

The utility model relates to a shaft tower technical field specifically is a shaft tower slope monitoring devices.

Background

The tower is a rod-shaped or tower-shaped structure which supports the overhead transmission line conductor and the overhead ground wire and keeps a certain distance between the overhead transmission line conductor and the overhead ground wire and the ground, the tower is made of rigid materials or reinforced concrete, the transmission line tower has an important relation to the transportation and the operation of a power system, however, a great number of uncertain factors and external interference factors exist in the tower structure, and the wind force is often caused in the time change, other geological disasters, even artificial excavation reasons, cause unstable contact between the pole tower and the ground, thereby causing the inclination of the pole tower and even the side fall, which can affect the safety and the electricity utilization problem of the surrounding residents, therefore, the pole tower needs to be processed in time when the pole tower is inclined, the existing inclination detection device needs on-site detection, the workload of workers can be increased, the measurement is not accurate, the detection times and equipment are limited, and accurate results are difficult to obtain.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a shaft tower slope monitoring devices to the weak point of prior art to solve the problem that proposes in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a tower inclination monitoring device comprises a tower body, wherein a first supporting plate and a second supporting plate are horizontally arranged on the tower body, the second supporting plate is positioned below the first supporting plate, a first protective shell is arranged at the bottom of the first supporting plate, an induction module is arranged on the inner wall of the first protective shell, the induction module surrounds the inside of the first protective shell, an induction probe is arranged inside the induction module, a second wireless transmission module is arranged between the induction module and the first protective shell, the second wireless transmission module is embedded on the inner wall of the first protective shell, a first infrared receiving module is arranged in the middle of the bottom of the second supporting plate, a second infrared receiving module is arranged at the bottom of the second supporting plate, the second infrared receiving module is annular, and the first infrared receiving module is positioned on the inner side of the second infrared receiving module, an infrared ray emitting module is arranged below the first infrared ray receiving module, and a first wireless transmission module is arranged on the infrared ray emitting module.

As the utility model discloses a preferred technical scheme, the top of second backup pad is provided with second protection casing, second protection casing welding is in the second backup pad, first protection casing is located the inboard of second protection casing.

As the utility model discloses a preferred technical scheme, first protection casing passes through bolt fixed connection in the bottom of first backup pad, there is certain clearance between first protection casing and the second protection casing, constitutes the buffering clearance.

As an optimal technical scheme of the utility model, the last support that is provided with of inductive probe connects the rope, the other end fixed connection that supports to connect the rope is in the bottom intermediate position of first backup pad.

As the utility model discloses an optimal technical scheme, the bottom of shaft tower body is provided with the shaft tower base, the bottom of shaft tower body is inlayed on the shaft tower base, infrared ray send out the module and is located the top intermediate position of shaft tower base.

As the utility model discloses an optimal technical scheme, the top of shaft tower base is provided with audible-visual annunciator, audible-visual annunciator's inside is provided with the singlechip.

Compared with the prior art, the utility model provides a shaft tower slope monitoring devices possesses following beneficial effect:

this shaft tower slope monitoring devices, through setting up infrared ray emission module and receiving module, first infrared ray receiving module is the cooperation with infrared ray emission module all the time, second infrared ray receiving module encircles the outside that is provided with first infrared ray receiving module, when infrared ray emission module can leave first infrared ray receiving module, it takes place the slope to explain the shaft tower, when contacting second infrared ray receiving module, it is very fast to explain shaft tower tilting rate to take place, give control center with data transmission by first wireless transmission module, thereby control at any time fast, through setting up inductive probe and response module, when inductive probe and response module contact, send the signal by second wireless transmission module, through the equipment that increases the detection, improve the efficiency of monitoring.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view taken at A in FIG. 1;

fig. 3 is a bottom view of the second support plate of the present invention;

fig. 4 is an external view of the present invention.

In the figure: 1. a first support plate; 2. a second support plate; 3. a tower body; 4. an infrared emission module; 5. a tower base; 6. a first wireless transmission module; 7. an audible and visual alarm; 8. supporting the connecting rope; 9. a first protective housing; 10. a sensing module; 11. an inductive probe; 12. a first infrared receiving module; 13. a second infrared receiving module; 14. a second wireless transmission module; 15. a buffer gap; 16. a second protective housing.

Detailed Description

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. 1-4, in this embodiment: a tower inclination monitoring device comprises a tower body 3, a first supporting plate 1 and a second supporting plate 2 are horizontally arranged on the tower body 3, the second supporting plate 2 is positioned below the first supporting plate 1, a first protective shell 9 is arranged at the bottom of the first supporting plate 1, a sensing module 10 is arranged on the inner wall of the first protective shell 9, the sensing module 10 surrounds the inside of the first protective shell 9, a sensing probe 11 is arranged inside the sensing module 10, a second wireless transmission module 14 is arranged between the sensing module 10 and the first protective shell 9, the second wireless transmission module 14 is embedded on the inner wall of the first protective shell 9, a first infrared receiving module 12 is arranged at the middle position of the bottom of the second supporting plate 2, a second infrared receiving module 13 is arranged at the bottom of the second supporting plate 2, and the second infrared receiving module 13 is annular, the first infrared receiving module 12 is located inside the second infrared receiving module 13, the infrared emitting module 4 is disposed below the first infrared receiving module 12, and the first wireless transmission module 6 is disposed on the infrared emitting module 4.

In this embodiment, a second protective housing 16 is disposed on the top of the second support plate 2, the second protective housing 16 is welded to the second support plate 2, and the first protective housing 9 is located inside the second protective housing 16.

Further, first protection casing 9 passes through bolt fixed connection in the bottom of first backup pad 1, has certain clearance between first protection casing 9 and the second protection casing 16, constitutes buffering clearance 15, and the vibration that natural wind power produced to second protection casing 16 effect is alleviated the vibration through buffering clearance 15, prevents that the vibration from passing first protection casing 9 for the monitoring result takes place the error.

Specifically, be provided with the support on inductive probe 11 and connect rope 8, support the bottom intermediate position of connecting rope 8's other end fixed connection at first backup pad 1, connect rope 8 through the support and fix inductive probe 11, inductive probe 11 is in the vertical state all the time because gravity.

It is worth to say, the bottom of shaft tower body 3 is provided with shaft tower base 5, and the bottom of shaft tower body 3 is inlayed on shaft tower base 5, and infrared ray sends out module 4 and is located the top intermediate position of shaft tower base 5.

Furthermore, an audible and visual alarm 7 is arranged at the top of the tower base 5, the audible and visual alarm 7 is SF-502 in model, a single chip microcomputer is arranged inside the audible and visual alarm 7, and when the tower inclines, the single chip microcomputer starts the audible and visual alarm 7 to work through the wireless transmission module to remind residents.

The utility model discloses a theory of operation and use flow: the transmitting end of the infrared wireless transmitting module 4 always faces the first infrared receiving module 12, the infrared transmitting module 4 is matched with the first infrared receiving module 12, so that the state of the tower is monitored at any time, the first wireless output module 6 transmits data information to the control center, when the transmitting end of the infrared transmitting module 4 does not sense the first infrared receiving module 12, the tower body 3 is inclined, if the infrared transmitting module 4 senses the second infrared receiving module 13, namely, the inclination speed of the tower body 3 is higher, at the moment, the audible and visual alarm 7 needs to be started to work, residents nearby need to be warned, through the arrangement of the inductive probe 11 and the inductive module 10, the inductive probe 11 is fixed on the first supporting plate 1 through the supporting connecting rope 8, if the tower body 3 is inclined, the inductive probe 11 can continue to be vertical due to gravity, and the inductive module 10 can be contacted with the inductive probe 11 when the tower body is inclined, second wireless transmission module 14 on response module 10 can give control center with data transmission after the contact, thereby reach the monitoring effect, first protection casing 9 supports protection response module 10 and inductive probe 11, second protection casing 16 cover is in the outside of first protection casing 9, the existence in buffering clearance 15, when making wind-force blow on second protection casing 16, the impact force of emergence can be alleviated in buffering clearance 15, thereby prevent the vibration effect of external wind-force to first protection casing 9, prevent that wind-force vibration makes inductive probe 11 and inductive module 10 contact, thereby cause the error of monitoring, through setting up two monitoring devices, make the result of monitoring more accurate.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a shaft tower slope monitoring devices which characterized in that: comprises a tower body (3), a first supporting plate (1) and a second supporting plate (2) are horizontally arranged on the tower body (3), the second supporting plate (2) is positioned below the first supporting plate (1), a first protective shell (9) is arranged at the bottom of the first supporting plate (1), an induction module (10) is arranged on the inner wall of the first protective shell (9), the induction module (10) surrounds the inside of the first protective shell (9), an induction probe (11) is arranged inside the induction module (10), a second wireless transmission module (14) is arranged between the induction module (10) and the first protective shell (9), the second wireless transmission module (14) is embedded on the inner wall of the first protective shell (9), a first infrared receiving module (12) is arranged in the middle position of the bottom of the second supporting plate (2), the bottom of second backup pad (2) is provided with second infrared ray receiving module (13), second infrared ray receiving module (13) are cyclic annular, first infrared ray receiving module (12) are located the inboard of second infrared ray receiving module (13), the below of first infrared ray receiving module (12) is provided with infrared ray and sends module (4), be provided with first wireless transmission module (6) on infrared ray sends module (4).

2. The tower inclination monitoring device of claim 1, wherein: the top of second backup pad (2) is provided with second protection casing (16), second protection casing (16) welding is on second backup pad (2), first protection casing (9) are located the inboard of second protection casing (16).

3. The tower inclination monitoring device of claim 1, wherein: first protection casing (9) pass through bolt fixed connection in the bottom of first backup pad (1), there is certain clearance between first protection casing (9) and second protection casing (16), constitutes buffer gap (15).

4. The tower inclination monitoring device of claim 1, wherein: the induction probe (11) is provided with a support connecting rope (8), and the other end of the support connecting rope (8) is fixedly connected to the middle position of the bottom of the first supporting plate (1).

5. The tower inclination monitoring device of claim 1, wherein: the tower is characterized in that a tower base (5) is arranged at the bottom of the tower body (3), the bottom of the tower body (3) is inlaid on the tower base (5), and the infrared emission module (4) is located in the middle of the top of the tower base (5).

6. The tower inclination monitoring device of claim 5, wherein: the tower is characterized in that an audible and visual alarm (7) is arranged at the top of the tower base (5), and a single chip microcomputer is arranged inside the audible and visual alarm (7).

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