CN213274676U - Pole atress detection device - Google Patents

Abstract

The utility model provides a pole atress detection device, which comprises a foundation, the shaft tower, slope detection mechanism and first pilot lamp, slope detection mechanism is including changeing the board and setting up the push rod in the inside of basis, the metal sheet, first wiring board, second wiring board and group battery, when the shaft tower atress takes place to slope, change the board to the inside rotation of basis, and drive the push rod and rotate, the push rod can promote the metal sheet and slide along first wiring board and second wiring board, thereby the metal sheet establishes the electric connection relation with the contact of the first conductive part and the second conductive part of different positions, the electric energy of group battery can be defeated for first pilot lamp this moment, make first pilot lamp light, the size scope of the power that receives when can obtain the shaft tower slope through looking over the light of first pilot lamp of difference, thereby put in the use of new pole for this area and provide certain guide effect.

Description

Pole atress detection device

Technical Field

The utility model relates to a power equipment detects technical field, in particular to pole atress detection device.

Background

The electric pole is important equipment in the electric power system, considering cost and pole tower weight, the electric pole can not bear infinite force, under the condition of severe natural weather such as ice disaster, snow disaster, typhoon, earthquake and the like, the electric pole can vibrate, swing, break, collapse and the like, further, the electric power system fault can be caused, the production and life of the general people are influenced, huge economic loss is brought to the society, the electric pole generally inclines when stressed, the conventional electric pole generally does not have a stress detection device, and the force for inclining the electric pole can not be obtained.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a pole atress detection device can obtain the big or small scope of the power that makes the pole slope through the bright dark of pilot lamp, provides data support for the input use of the new pole in this area.

The technical scheme of the utility model is realized like this:

a pole stress detection device comprises a foundation, a pole tower, an inclination detection mechanism and a first indicator light, wherein a foundation pit is arranged on the foundation, the pole tower is arranged in the foundation pit, and the first indicator light is arranged on the pole tower; the inclination detection mechanism comprises a rotating plate, a push rod, a metal plate, a first wiring board, a second wiring board and a battery pack, wherein the push rod, the metal plate, the first wiring board, the second wiring board and the battery pack are arranged inside a foundation, the rotating plate is arranged on the side wall of the foundation and hinged to the bottom of the foundation, the push rod is connected with the side wall of the rotating plate, the metal plate is connected to one side of the push rod, the bottom of the metal plate inclines towards the direction of the push rod, the first wiring board and the second wiring board are symmetrically arranged, the metal plate is arranged between the first wiring board and the second wiring board in a sliding mode, a first conductive part and a second conductive part which are the same in number as a first indicator lamp and a battery pack are arranged on the first wiring board and the second wiring part which is symmetrical to.

Preferably, the side face of the first wiring board opposite to the side face of the second wiring board is provided with a sliding groove, the bottom of the side face of the metal plate is provided with a sliding block, and the sliding block is located in the sliding groove.

Preferably, the slider side wall is provided with a metal ejecting part, and the width of the metal ejecting part is larger than the distance between two adjacent first conductive parts.

Preferably, the bottom of the rotating plate is hinged with the bottom of the foundation pit through a hinge.

Preferably, the tower further comprises a stay wire, and the stay wire is connected with the surface of the tower and the top surface of the foundation.

Preferably, the cable pulling device further comprises a cable pulling disc, wherein the cable pulling disc is arranged inside the foundation and is connected with the cable pulling disc.

Preferably, the cable further comprises a strain gauge, a controller and a second indicator light, wherein the strain gauge is arranged on the stay wire, the second indicator light is arranged on the surface of the tower, and the controller is arranged in the foundation and is respectively and electrically connected with the second indicator light and the strain gauge.

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

the utility model provides a pole atress detection device, when the shaft tower atress takes place to incline, the shaft tower can drive and change the board and rotate, thereby the push rod promotes the metal sheet and slides, make the metal sheet bottom move between different first conductive part and the second conductive part, make first conductive part and second conductive part establish the electricity connection relation, thereby the electric energy of group battery can transmit corresponding first pilot lamp, make first pilot lamp light, can judge that the size that the pole atress was in which scope through the brightness of all first pilot lamps, judge the inclination of shaft tower promptly through first pilot lamp, and judge the size of the atress of shaft tower through inclination, thereby can provide the basis for the input use of the new pole in this area.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a first embodiment of an electric pole stress detection device according to the present invention;

fig. 2 is a schematic view of a connection structure of a metal plate, a first wiring board and a second wiring board according to a first embodiment of the electric pole stress detection device of the present invention;

fig. 3 is a circuit diagram of the first indicator light of the first embodiment of the electric pole stress detection device of the present invention;

fig. 4 is a schematic structural diagram of a second embodiment of the electric pole stress detection device of the present invention;

in the figure, 1 is a base, 2 is a tower, 3 is a first indicator light, 4 is a foundation pit, 5 is a rotating plate, 6 is a push rod, 7 is a metal plate, 8 is a first wiring board, 9 is a second wiring board, 10 is a battery pack, 11 is a first conductive part, 12 is a second conductive part, 13 is a chute, 14 is a slider, 15 is a metal ejecting part, 16 is a pull wire, 17 is a pull wire disc, 18 is a strain gauge, 19 is a controller, and 20 is a second indicator light.

Detailed Description

In order to better understand the technical content of the present invention, a specific embodiment is provided below, and the present invention is further described with reference to the accompanying drawings.

Referring to fig. 1 to 3, the utility model provides an electric pole stress detection device, including basis 1, shaft tower 2, slope detection mechanism and first pilot lamp 3, be provided with foundation pit 4 on the basis 1, shaft tower 2 sets up in foundation pit 4, first pilot lamp 3 sets up on shaft tower 2; the inclination detection mechanism comprises a rotating plate 5, a push rod 6, a metal plate 7, a first wiring board 8, a second wiring board 9 and a battery pack 10, wherein the push rod 6, the metal plate 7, the first wiring board 8, the second wiring board 9 and the battery pack 10 are arranged in the foundation pit 1, the rotating plate 5 is arranged on the side wall of the foundation pit 4, and is hinged with the bottom of the foundation pit 4, the push rod 6 is connected with the side wall of the rotating plate 5, the metal plate 7 is connected with one side of the push rod 6, the bottom of the push rod inclines towards the push rod 6, the first wiring board 8 and the second wiring board 9 are symmetrically arranged, the metal plate 7 is arranged between a first wiring board 8 and a second wiring board 9 in a sliding mode, first conductive parts 11 and second conductive parts 12 which are the same in number as the first indicator lamps 3 are arranged on the first wiring board 8 and the second wiring board 9 respectively, and one first conductive part 11 is electrically connected with one first indicator lamp 3, the battery pack 10 and the second conductive part 12 which is symmetrical to the first conductive part 11 in sequence.

The utility model provides a pole atress detection device, 2 lower extremes of shaft tower set up inside foundation ditch 4, in the input use of shaft tower 2, can receive the effect of multiple external force and take place the slope, and learn the size that makes the pole take place the power of slope and can play certain guide effect to the input use of the new pole in this area, therefore this embodiment has set up slope detection mechanism, the big or small scope of the power that receives when being used for detecting the pole slope, thereby can know the size of the power that makes the pole slope that produces when wind-force or other calamity in this area, input use for the new pole provides certain guide effect.

When the tower 2 is stressed to incline, the tower 2 can drive the rotating plate 5 to rotate towards the inside of the foundation 1, so as to drive the push rod 6 at the back of the rotating plate 5 to move, the push rod 6 pushes the metal plate 7 to move towards the direction away from the foundation pit 4 in the moving process, because the bottom of the metal plate 7 inclines towards the push rod 6, in the rotating process of the rotating plate 5, the push rod 6 can push the metal plate 7 to move, the bottom of the metal plate 7 is respectively contacted with the opposite side surfaces of the first wiring board 8 and the second wiring board 9, when the metal plate 7 slides, the metal plate can be contacted with the first conductive part 11 on the first wiring board 8 and the second conductive part 12 on the second wiring board 9, so that the first conductive part 11 and the second conductive part 12 are electrically connected, the electric energy of the battery pack 10 can be transmitted to the first indicator lamp 3, so that the first indicator lamp 3 is lighted up, and the first conductive part 11 of the embodiment, Second conductive part 12 and first pilot lamp 3 are provided with a plurality of groups, and metal sheet 7 moves different position department and can make different first pilot lamp 3 light, and every first pilot lamp 3 corresponds the different inclination of shaft tower 2, corresponds the size of the different power that shaft tower 2 received promptly, and after shaft tower 2 took place to incline, the size of the power that receives when shaft tower 2 inclines can be judged through the light and dark of first pilot lamp 3.

Preferably, sliding grooves 13 are formed in opposite side surfaces of the first wiring board 8 and the second wiring board 9, a sliding block 14 is arranged at the bottom of the side surface of the metal plate 7, the sliding block 14 is located in the sliding groove 13, a metal ejecting part 15 is arranged on a side wall of the sliding block 14, and the width of the metal ejecting part 15 is larger than the distance between two adjacent first conductive parts 11.

Specifically, in the sliding process of the metal plate 7, the sliding block 14 arranged at the bottom of the side wall of the metal plate 7 can slide along the sliding groove 13, so that the contact between the metal plate 7 and the first conductive part 11 and the second conductive part 12 is ensured, the arranged metal ejecting part 15 can abut against the inside of the sliding groove 13 in an elastic manner, so that the stability of electrical connection is ensured, and the width of the metal ejecting part 15 is increased, so that the situation that the metal ejecting part 15 is not in contact with any one of the first conductive parts 11 does not occur in the sliding process of the metal plate 7, and when the metal ejecting part 15 is in contact with the two first conductive parts 11, the two first indicator lamps 3 can be turned on, namely, the force applied when the electric pole inclines is between the forces corresponding to the two first indicator lamps 3.

Preferably, the bottom of the rotating plate 5 is hinged with the bottom of the foundation pit 4 through a hinge (not shown in the figure).

The hinge joint of the rotating plate 5 and the foundation pit 4 can be realized through a hinge.

Preferably, the tower structure further comprises a stay wire 16, the stay wire 16 is connected with the surface of the tower 2 and the top surface of the foundation 1, the stay wire coil 17 is arranged inside the foundation 1, and the stay wire 16 is connected with the stay wire coil 17.

The arranged stay wires 16 can improve the wind resistance and the thrust resistance of the tower 2.

Referring to the second embodiment shown in fig. 4, the device further includes a strain gauge 18, a controller 19 and a second indicator light 20, wherein the strain gauge 18 is disposed on the stay 16, the second indicator light 20 is disposed on the surface of the tower 2, and the controller 19 is disposed inside the foundation 1 and electrically connected to the second indicator light 20 and the strain gauge 18, respectively.

This embodiment has still provided the pulling force that 16 receive of acting as go-between when shaft tower 2 atress to detect, and when shaft tower 2 atress, the degree of tension of 16 that acts as go-between is obtained through the deformation of foil gage 18, receives the data that foil gage 18 transmitted simultaneously through controller 19 to the corresponding second pilot lamp 20 of control lights after handling, judges the size of the power that shaft tower 2 received through the brightness of different second pilot lamps 20.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The electric pole stress detection device is characterized by comprising a foundation, a pole tower, an inclination detection mechanism and a first indicator light, wherein a foundation pit is arranged on the foundation, the pole tower is arranged in the foundation pit, and the first indicator light is arranged on the pole tower; the inclination detection mechanism comprises a rotating plate, a push rod, a metal plate, a first wiring board, a second wiring board and a battery pack, wherein the push rod, the metal plate, the first wiring board, the second wiring board and the battery pack are arranged inside a foundation, the rotating plate is arranged on the side wall of the foundation and hinged to the bottom of the foundation, the push rod is connected with the side wall of the rotating plate, the metal plate is connected to one side of the push rod, the bottom of the metal plate inclines towards the direction of the push rod, the first wiring board and the second wiring board are symmetrically arranged, the metal plate is arranged between the first wiring board and the second wiring board in a sliding mode, a first conductive part and a second conductive part which are the same in number as a first indicator lamp and a battery pack are arranged on the first wiring board and the second wiring part which is symmetrical to.

2. The pole stress detection device as recited in claim 1, wherein the first wiring board and the second wiring board are provided with sliding grooves on opposite sides thereof, and the metal plate is provided with sliding blocks at bottom portions of the sides thereof, the sliding blocks being located in the sliding grooves.

3. The electric pole stress detection device as recited in claim 2, wherein the side wall of the slider is provided with a metal spring-out portion, and the width of the metal spring-out portion is larger than the distance between two adjacent first conductive portions.

4. The pole force detection device as recited in claim 1, wherein the bottom of the rotating plate is hinged to the bottom of the foundation pit by a hinge.

5. The pole force detection device as recited in claim 1, further comprising a stay wire, wherein the stay wire is connected to the surface of the pole and the top surface of the foundation.

6. The electric pole stress detection device as recited in claim 5, further comprising a guy wire disc, wherein the guy wire disc is arranged inside the foundation, and the guy wire is connected with the guy wire disc.

7. The pole stress detection device of claim 5, further comprising a strain gauge, a controller and a second indicator light, wherein the strain gauge is arranged on the stay wire, the second indicator light is arranged on the surface of the pole tower, and the controller is arranged inside the foundation and is electrically connected with the second indicator light and the strain gauge respectively.

Images