1. The utility model provides an electric power erects and uses multi-functional detecting system which characterized in that: the device comprises a first detection device (a), a cable sag detection device (b) and a second detection device (c) which are detachably assembled together, wherein the first detection device (a) is used for detecting the inclination of the installed electric pole, the cable sag detection device (b) is used for detecting the sag degree of a certain section of cable, and the second detection device (c) is used for detecting the distance between two adjacent electric poles and is also used for detecting the installation inclination of a stay cable of a stay-stayed fixed electric pole; the second detection device (c) comprises a base (c1), and an adjusting component is arranged on the top of the base (c 1);

the adjusting assembly comprises a rotating rod (c2), a gear (c3), a torsion spring (c4), a transverse plate (c5), a clamping plate (c6), a rotating plate (c7), a level (c8), a first graduated scale (c9), a second graduated scale (c10) and an angle scale (c11), the rotating rod (c2) is arranged at the top of the base (c1), the gear (c3) is fixedly connected to the outer side of the rotating rod (c2), the torsion spring (c4) is arranged at the top of the rotating rod (c2), the transverse plate (c2) is fixedly connected to one end of the torsion spring (c2), the clamping plate (c2) is fixedly connected to the bottom of the transverse plate (c2), the rotating plate (c2) is fixedly connected to the outer side of the rotating rod (c2), the level (c2) is fixedly connected to the top of the rotating plate (c2), the first graduated scale (c2) is fixedly connected to the top of the rotating plate (c2), and the second graduated scale (c2) is connected to the front graduated scale (c2), the angle ruler (c11) is fixedly connected to the top of the rotating plate (c7), and the angle ruler (c11) is rotatably connected to the front side of the second graduated scale (c 10).

2. The multifunctional detection system for electric power erection according to claim 1, characterized in that: the top of the base (c1) is provided with a screw rod (c12), and the screw rod (c12) penetrates through the base (c1) and is in threaded connection with the base (c 1).

3. The multifunctional detection system for electric power erection according to claim 2, characterized in that: the top of the screw rod (c12) is fixedly connected with a bump, and the bottom of the screw rod (c12) is fixedly connected with a supporting block (c 13).

4. The multifunctional detection system for electric power erection according to claim 1, characterized in that: the bottom of the base (c1) is fixedly connected with a supporting plate (c14), and one side of the supporting plate (c14) is rotatably connected with a round rod (c 15).

5. The multifunctional detection system for electric power erection according to claim 4, characterized in that: the outer side of the round rod (c15) is fixedly connected with a wheel (c16), and the top of the base (c1) is fixedly connected with a vertical plate (c 17).

6. The multifunctional detection system for electric power erection according to claim 5, characterized in that: dwang (c2) run through riser (c17) and rotate with riser (c17) and be connected, dwang (c2) one end fixedly connected with handle.

7. The multifunctional detection system for electric power erection according to claim 1, characterized in that: the top of the rotating plate (c7) is fixedly connected with a supporting rod (c18), one end of the supporting rod (c18) is fixedly connected with a winding roll (c19), and a measuring tape (c20) is arranged on the outer side of the winding roll (c 19).

8. The multifunctional detection system for electric power erection according to claim 1 or 7, characterized in that: one side surface of the rotating plate (c7) is also provided with an infrared distance meter.

Background

Electric power engineering construction all need carry out corresponding installation index and detect, for example when the power transmission line erects, need be at least to the straightness that hangs down of the pole of erectting, whether the installation promptly is vertical, and whether the interval between two adjacent poles is reasonable to and whether the fixed suspension cable of pole is installed and is targetting in place and detect comprehensively. Most of the existing detection equipment are independent, if the detection equipment needs to be used for detection, the existing detection equipment needs to be carried one by one, the situation that certain detection equipment is forgotten easily occurs, the use and the management are not facilitated, at present, a special detection instrument does not exist for the measurement of the electric power erection indexes, manual calculation is basically needed after manual measurement, the efficiency is extremely low, some high-precision instruments on the market are complex in structure and extremely high in purchase cost, and the cost for purchasing such batch equipment is too high for the actual requirement that countless detection is needed every year, so that the detection equipment with strong comprehensive performance needs to be designed for detecting the parameters urgently, the structure is simple, and the use and the maintenance are convenient. For another example, the distance between two adjacent electric poles is measured, and whether the distance reaches the standard is verified; and detect the suspension cable of pole, common pole top is drawn down by a steel cable promptly to the landfill is in underground concrete, and this steel cable is exactly whether the gradient of suspension cable meets the requirements, and does not have the function that can carry out the detection with same equipment among the existing equipment.

In addition, when the traditional device is generally used, because the road surface on which the electric pole is installed is not necessarily a flat road surface, when the electric pole runs into a non-flat road surface, the checking and accepting equipment often detects the stay cable of the electric pole inaccurately.

Disclosure of Invention

Technical problem to be solved

The present invention is directed to provide a multifunctional detection system for electric power erection to solve the above problems, and to solve the problem that a special multifunctional device is not available in the prior art to quickly and conveniently detect the above multiple indexes, and particularly, when the existing detection device is used on uneven roads, the existing detection device is often inaccurate in detecting the stay cable of the electric pole.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a multifunctional detection system for electric power erection comprises a first detection device, a cable sag detection device and a second detection device which are detachably assembled together, wherein the first detection device is used for detecting the inclination of an electric pole after installation, the cable sag detection device is used for detecting the sag degree of a certain section of cable, and the second detection device is used for detecting the distance between two adjacent electric poles and also used for detecting the installation inclination of a stay cable of a stay-stayed fixed electric pole; the second detection device comprises a base, and an adjusting component is arranged at the top of the base;

the adjusting part comprises a rotating rod, a gear, a torsional spring, a transverse plate, a clamping plate, a rotating plate, a level gauge, a first graduated scale, a second graduated scale and an angle scale, the rotating rod is arranged at the top of the base, the gear is fixedly connected to the outside of the rotating rod, the torsional spring is arranged at the top of the rotating rod, the transverse plate is fixedly connected to one end of the torsional spring, the clamping plate is fixedly connected to the bottom of the transverse plate, the rotating plate is fixedly connected to the outside of the rotating rod, the level gauge is fixedly connected to the top of the rotating plate, the first graduated scale is fixedly connected to the top of the rotating plate, the second graduated scale is rotatably connected to the front side of the first graduated scale, the angle scale is fixedly connected to the top of the rotating plate, and the angle scale is rotatably connected to the front side of the second graduated scale.

Preferably, the top of the base is provided with a screw rod, and the screw rod penetrates through the base and is in threaded connection with the base.

Preferably, the top of the screw rod is fixedly connected with a bump, and the bottom of the screw rod is fixedly connected with a supporting block.

Preferably, the base bottom fixedly connected with backup pad, backup pad one side is rotated and is connected with the round bar.

Preferably, the round bar outside fixedly connected with wheel, base top fixedly connected with riser.

Preferably, the dwang runs through the riser and is connected with the riser rotation, dwang one end fixedly connected with handle.

Preferably, a supporting rod is fixedly connected to the top of the rotating plate, a winding roll is fixedly connected to one end of the supporting rod, and a measuring tape is arranged on the outer side of the winding roll. And, preferably, one side surface of the rotating plate is further provided with an infrared distance meter.

The invention has the beneficial effects that: the cable sag detection device comprises a first detection device, a second detection device and a third detection device, wherein the first detection device, the second detection device and the third detection device are arranged on the same equipment in a set mode, and the first detection device, the second detection device and the third detection device are arranged on the same equipment in a set mode. Especially when detecting the space of suspension cable gradient and pole, pull diaphragm upward movement, the diaphragm rotates and drives the cardboard and take place to rotate, and the gear loses the cardboard to the spacing of gear, and the handle rotates and drives the rotor plate and rotate, and when the spirit level was in the horizontality, the rotation second scale was measured the suspension cable of pole. When the distance between the adjacent poles needs to be measured, only the tape needs to be pulled to measure at the moment, and the structure is beneficial to ensuring that the second detection device is always in a horizontal state, so that the measurement of the inclination angle of the stay cable is more accurate. Meanwhile, the lug in the invention rotates to drive the screw rod to rotate, the screw rod rotates to drive the supporting block to rotate, and further the supporting block can be supported on the ground.

Drawings

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

FIG. 2 is an overall view of the first detecting unit according to the present invention;

FIG. 3 is a front view of a first sensing device of the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 3;

FIG. 5 is an enlarged view of the portion B of FIG. 3;

FIG. 6 is a schematic view of a riser of the first sensing device;

fig. 7 is an overall configuration view of the cable sag detecting device of the present invention;

FIG. 8 is an overall cross-sectional view of the cable sag detection apparatus;

fig. 9 is a schematic structural view of a driving pulley and a driven pulley of the cable sag detecting device;

FIG. 10 is a schematic view of the drive rod and bearing configuration of the cable sag detection device;

fig. 11 is a sectional view of a micro motor and a first threaded rod of the cable sag detecting device;

FIG. 12 is an overall configuration view of a second detecting unit according to the present invention;

FIG. 13 is an enlarged view of the portion A of FIG. 12;

FIG. 14 is a schematic structural view of a gear of the second detecting device;

fig. 15 is a schematic structural diagram of the first scale of the second detection device.

In the figure: a. a first detection device; b. a cable sag detection device; c. a second detection device; a1, a box body; a2, push buttons; a3, a battery; a4, positive and negative motor; a5, a collar; a6, transmission gear; a7, driven gear; a8, a rotating shaft; a9, protective shell; a10, alarm; a11, measuring rope; a12, connecting rod; a13, a roller; a14, card slot; a15, stop button; a16, threaded rod; a17, weighting ring; a18, briquetting; a19, side groove; a20, horizontal axis; a21, alarm button; a22, vertical plate; a23, electromagnet; a24, fixing blocks; b1, a first box body; b2, a second box body; b3, a spring; b4, a transmission rod; b5, a bearing; b6, driven wheel; b7, a first threaded rod; b8, a base; b9, a driving wheel; b10, a first bevel gear; b11, a second bevel gear; b12, a second threaded rod; b13, a micro motor; b14, a first fixing plate; b15, screws; b16, a support plate; b17, a first groove; b18, a deflector rod; b19, a limiting rod; b20, a chute; b21, a baffle; b22, reverse switch; b23, a through hole; b24, altitude measurement instrument; b25, a second fixing plate; b26, a handle; b27, a second groove; b28, round hole; b29, cavity. c1, base; c2, rotating rod; c3, gear; c4, torsion spring; c5, a transverse plate; c6, snap gauge; c7, a rotating plate; c8, a level; c9, a first scale; c10, a second graduated scale; c11, angle ruler; c12, a screw rod; c13, a support block; c14, support plate; c15, round bar; c16, wheels; c17, vertical plate; c18, struts; c19, a winding roll; c20, tape measure.

Detailed Description

One embodiment of the present invention provides a multifunctional detection system for electric power erection, as shown in fig. 1, the multifunctional detection system mainly includes a first detection device a, a cable sag detection device b and a second detection device c, which are detachably assembled together, wherein the first detection device a is used for detecting an inclination of an installed electric pole, the cable sag detection device b is used for detecting a sag degree of a certain section of cable, and the second detection device c is used for detecting a distance between two adjacent electric poles and also is used for detecting an installation inclination of a stay cable of a stay-fixed electric pole. Specifically, the detailed structure of the first detecting device a in this embodiment is as shown in fig. 2 to 6, and includes a box a1, a button a2, a battery a3, and a forward-reverse motor a4, where the button a2 is disposed on one side of the box a1, the battery a3 is fixedly connected inside the box a1, the forward-reverse motor a4 is fixedly connected to the bottom of the inner cavity of the box a1, the battery a3 is disposed around the inside of the box a1, the button a2 is electrically connected with the forward-reverse motor a4, and a detecting mechanism is disposed at the bottom of the box a 1.

The detection mechanism comprises a lantern ring a5, a fixing block a24 is fixedly connected to the bottom of a box body a1, the bottom of the fixing block a24 extends into the lantern ring a5, the fixing block a24 is made of elastic materials, a lantern ring a5 is arranged at the bottom of the box body a1, the top and the bottom of the lantern ring a5 are both fixedly connected with a weight increasing ring a17, a plurality of side grooves a19 are formed in the outer side of the lantern ring a5, and an electromagnet a23 is arranged on one side of the inner portion of the side groove a 19. The electromagnet a23 is electrically connected with the button a2, the electromagnet a23 is fixedly connected with the lantern ring a5, the top of the electromagnet a23 is provided with a transverse shaft a20, a transverse shaft a20 is rotatably connected with the lantern ring a5 through a bearing, the outer side of the transverse shaft a20 is rotatably connected with a vertical plate a22, and one side of the vertical plate a22 is fixedly connected with a plurality of limiting columns. One side of each limiting column is in contact with the electromagnet a23, the cross sections of the limiting columns are semicircular, the bottom of the vertical plate a22 is rotatably connected with a connecting rod a12, the bottom of the outer side of the connecting rod a12 is rotatably connected with a pressing block a18 through a bearing, the cross section of the pressing block a18 is semicircular, and the vertical plate a22 is arranged inside the electromagnet a23 and attracted with the electromagnet a 23. The bottom of the vertical plate a22 is provided with a pressing block a18, one side of the top of the inner cavity of the side groove a19 is provided with an alarm button a21, the alarm button a21 is fixedly connected with a lantern ring a5, the alarm button a21 is electrically connected with an alarm a10, the alarm a10 is fixedly connected with the rear side of the box body a1, and the alarm a10 is electrically connected with a battery a 3.

Specifically, the lantern ring a5 provided with the weight increasing ring a17 at the top and the bottom is sleeved on the outer side of the electric pole to be measured, the button a2 is pressed to enable the electromagnet a23 arranged inside the side groove a19 arranged on one side of the lantern ring a5 to stop working, and the top of the vertical plate a22 arranged inside the electromagnet a23 is rotatably connected to the outer side of the transverse shaft a20 arranged inside the side groove a19, so that the lantern ring a5 and the weight increasing ring a17 are always perpendicular to the ground under the influence of gravity after the vertical plate a22 is not fixed when moving along the electric pole. The alarm button a21 that takes place the slope that vertically riser a22 and side channel a19 inside set up collides when the pole gradient reaches the certain degree, reaches the purpose that makes the siren a10 work with alarm button a21 electric connection and send out the police dispatch newspaper, is favorable to the gradient of quick detection pole, inspects the pole fast simply, has the advantage with low costs work efficiency height, reduces staff's work load.

Referring to fig. 2-5 again, a transmission gear a6 is fixedly connected to the top of the outer side of the output shaft of the forward and reverse motor a4, two sides of the transmission gear a6 are respectively engaged with a driven gear a7, two driven gears a7 are respectively and fixedly connected to a rotating shaft a8, two rotating shafts a8 are respectively arranged on two sides of the interior of the box a1, and two ends of the rotating shaft a8 are rotatably connected to the box a1 through bearings. Two equal fixedly connected with line wheels in pivot a8 outside bottom, two line wheel inside equal fixedly connected with measure rope a11, two measure the rope a11 outside and all mesh and have gyro wheel a13, two equal fixed connection of gyro wheel a13 are inside box a1, two measure the rope a11 other ends and all run through box a1, two measure the equal fixedly connected with threaded rod a16 of rope a11 one end, two thread grooves have been seted up at a weight ring a17 top, two threaded rod a16 all mesh with the thread groove. The tops of the two threaded rods a16 are provided with clamping grooves a14, the two clamping grooves a14 are arranged at the bottom of the box body a1, the tops of the two threaded rods a16 are matched with the clamping grooves a14, a stop button a15 is arranged inside one clamping groove a14, the stop button a15 is fixedly connected with the box body a1, and the stop button a15 is electrically connected with the positive and negative motor a 4. Threaded rod a16 cross sectional shape sets up to the T shape, and two line wheel outsides all overlap and are equipped with protective housing a9, and protective housing a9 cross sectional shape sets up to the L shape, and protective housing a9 and box a1 fixed connection, protective housing a9 one side have seted up the wire casing, measure rope a11 one end and run through the wire casing.

Furthermore, in the embodiment, the box body a1 is fixed at the outer side of the electric pole to be measured through the fixed block a24 fixedly connected with the bottom of the box body a1, the button a2 is pressed to enable the outer side of the output shaft of the forward and reverse motor a4 to be fixedly connected with the transmission gear a6 to rotate to drive the meshed driven gear a7 to rotate, the rotating shaft a8 rotates to release the measuring rope a11, and the threaded rod a16 fixedly connected with the bottom of one end of the measuring rope a11 is meshed with the threaded groove formed in the top of the weight increasing ring a 17. Therefore, when the lantern ring a5 moves, the measuring rope a11 is pulled to be unfolded through the weight increasing ring a17, the purpose of quickly measuring the length of the electric pole above the ground is achieved, the button a2 is pressed again, the forward and reverse motor a4 drives the transmission gear a6 to rotate reversely, and the stop button a15 arranged inside the clamping groove a14 arranged at the bottom of the box body a1 and arranged at the top of the threaded rod a16 is electrically connected with the forward and reverse motor a 4. Therefore, after the measuring rope a11 is retracted to a certain degree, the threaded rod a16 enters the clamping groove a14 and presses the stop button a15 to stop the forward and reverse motor a4, so that the purpose of stopping the forward and reverse motor a4 in time is achieved, the operation flow is reduced, the work efficiency of workers is improved, and the workload of the workers is reduced.

As one of specific implementation structures, the cable sag detecting device b in this embodiment has a structure as shown in fig. 7 to 11, and includes a first box b1 and a second box b2, and a first transmission assembly and a second transmission assembly are respectively disposed in the first box b1 and the second box b 2. The first transmission assembly comprises a spring b3, the top of the spring b3 is fixedly connected with the top of the inner wall of a first box b1, the bottom of the spring b3 is fixedly connected with a transmission rod b4, two ends of the transmission rod b4 are rotatably connected with bearings b5, the outer side of the bearing b5 is fixedly connected with a driven wheel b6, and the driven wheels b6 are located at two ends of the transmission rod b 4.

During actual manufacturing, the second transmission assembly comprises a first threaded rod b7, the two ends of the first threaded rod b7 are connected with a base b8 in a rotating mode, the inner wall of the base b8 is fixedly connected with the inner wall of the second box b2, the first threaded rod b7 penetrates through a driving wheel b9, a second groove b27 is formed in the outer side of the driving wheel b9, and the cross section of the second groove b27 is arc-shaped. The inner wall of the driving wheel b9 is provided with a round hole b28, the number of the round holes b28 is multiple, the driving wheel b9 is fixedly connected with a first threaded rod b7, the outer side of the first threaded rod b7 is fixedly connected with a first bevel gear b10, one side of the first bevel gear b10 is engaged with a second bevel gear b11, the second bevel gear b11 is in threaded connection with a second threaded rod b12, and the second threaded rod b12 penetrates through and extends to the outer side of the second box b 2. One end fixedly connected with micro motor b13 of second threaded rod b12, the one end of micro motor b13 is provided with reversal switch b21, micro motor b 13's both sides all fixedly connected with first fixed plate b14, the top of first fixed plate b14 is fixed with screw b15, the bottom fixedly connected with backup pad b16 of screw b15, backup pad b16 runs through and extends to inside the second box b2, backup pad b16 and second box b2 fixed connection.

In this embodiment, a groove b26 is formed, a cable passes through the groove b26, the first box b1 and the second box b2 are jointed, a spring b3 is installed on the top of a driven wheel b6, the driven wheel b6 applies pressure to the cable, the cable is fixed in the groove b26 of the driving wheel b9, a round hole b28 is formed in the inner wall of the driving wheel b9, friction between the driving wheel b9 and the cable is increased, a micro motor b13 is started to drive the second threaded rod 84b 53 to rotate, the second threaded rod b11 is further driven to rotate, the first threaded rod b7 is meshed with the second threaded gear b10 and the second threaded gear b11 to realize linkage, the second threaded gear b11 rotates to drive the first bevel gear b11 to rotate, the driving wheel b11 is further driven to rotate, and the driving wheel b11 is fixedly connected with the first threaded rod b11, so that the driving wheel b11 rotates along with the first threaded rod b11, and the driven wheel b11 are jointed, therefore follow driving wheel b9 from driving wheel b6 and rotate, consequently realize that first box b1 and second box b2 move on the cable and drive height above sea level measuring apparatu b23 and remove, the realization is measured the sag of cable, micro motor b 13's one end is provided with reversal switch b21, when removing the cable end, reversal switch b21 touches the electricity tower, trigger micro motor b13 and reverse, first box b1 and second box b2 realize the original way and return, this design can realize carrying out the sag to the cable of building and measure, convenient and fast uses, and the practicality is higher.

The embodiment further includes that first grooves b17 are formed in both sides of the top of the first box b1, shift levers b18 are arranged in the first grooves b17, the shift levers b18 penetrate and extend into the first box b1, limiting rods b19 are fixedly connected to both sides of the front and rear of the shift levers b18, one end of each limiting rod b19 is slidably connected to a sliding chute 20, the sliding chutes 20 are respectively formed in both sides of the front and rear of the inner wall of the first box b1, a baffle b21 is fixedly connected to the bottom of the shift lever b18, a baffle b21 penetrates and extends to the outer side of the second box b2, through holes b23 are formed in both sides of the second box b2, the cross-sectional shape of the through hole b23 is square, cavities b29 are formed in the inner walls of both sides of the second box b2, and light materials of the first box b1 and the second box b2 are made of aluminum materials.

Referring to fig. 8 and 9 again, in the embodiment, the shift lever b18 penetrates and extends into the first box b1, the sliding grooves b20 are formed in the front side and the rear side of the inner wall of the first box b1, the shift lever b18 is slidably connected with the sliding groove b20 through the limiting rod b19, the baffle b21 is fixedly connected to the bottom of the shift lever b18, the shift lever b18 is shifted to move in the groove b17 through shifting, the shift lever b18 is shifted to drive the baffle b21 to move due to the limiting effect of the sliding groove b20, and the baffle b21 penetrates through the through hole b23, so that the first box b1 and the second box b2 are fixed in an involutive manner.

When the device is used, firstly, the shifting lever b18 is in sliding connection with the sliding chute b20 through the limiting rod b19, the baffle b21 is fixedly connected to the bottom of the shifting lever b18, the shifting lever b18 is shifted in the groove b17, the shifting lever b18 is shifted to drive the baffle b21 to move due to the limiting effect of the sliding chute b20, the baffle b21 further penetrates through the through hole b23, so that the first box b1 and the second box b2 are fixed in an involutive mode, the device is simple in design and operation, convenient to install and high in practicability, the spring b3 is installed at the top of the driven wheel b6, the driven wheel b6 applies pressure to the cable, the cable is fixed in the groove b26 of the driving wheel b9 at the moment, the micro motor b13 is started at the moment to drive the second gear b12 to rotate, the second bevel gear b11 is further driven to rotate, the first threaded rod b7 is meshed with the first bevel gear b10 and the second bevel gear b11 to realize linkage, and the first bevel gear b11 rotates to drive the second bevel gear 10, further drive first threaded rod b7 and rotate, because of action wheel b9 and first threaded rod b7 fixed connection again, action wheel b9 follows first threaded rod b7 and rotates, because of from driven wheel b6 and action wheel b9 laminating each other, consequently follow driving wheel b6 and follow action wheel b9 and rotate, consequently realize that first box b1 and second box b2 move on the cable and drive altitude measurement appearance b23 and move, realize measuring the sag of cable, the one end of micro motor b13 is provided with reverse switch b21, when moving to the cable end, reverse switch b21 touches the electricity tower, trigger micro motor b13 and carry out the reversal, first box b1 and second box b2 realize the original way and return, this design can realize carrying out the sag measurement to the cable of building, use convenient and fast, and high practicality.

As far as its working principle is concerned, in use, namely: by shifting the shifting lever b18 to move in the groove b17, and due to the limiting effect of the sliding groove b20, the shifting lever b18 moves to drive the baffle b21 to move, and further the baffle b21 passes through the through hole b23, so as to realize the involution and fixation of the first box b1 and the second box b2, at this time, the micro motor b13 is started to drive the second threaded rod b12 to rotate, and further drive the second conical gear b11 to rotate, the first threaded rod b7 is engaged with the second conical gear b7 to realize linkage, the second conical gear b7 rotates to drive the first conical gear b7 to rotate, and further drive the first threaded rod b7 to rotate, and because the driving wheel b7 is fixedly connected with the first threaded rod b7, the driving wheel b7 rotates along with the first conical gear b7, and because the driving wheel b7 and the second threaded rod b7 are mutually attached, so that the first driving wheel b7 and the second box b7 move on the altitude measuring instrument to drive the driven wheel 7 to move on the altitude cable box 7. The realization is measured the sag of cable, and micro motor b 13's one end is provided with reversal switch b21, and when moving the cable end, reversal switch b21 touches the electricity tower, triggers micro motor b13 and reverses, and first box b1 and second box b2 realize that the original way returns.

Referring to fig. 12-15, the second detecting device c of the foregoing embodiment mainly includes a base c1, and an adjusting component is disposed on the top of the base c 1. The structure is as follows: the adjusting assembly comprises a rotating rod c2, a gear c3, a torsion spring c4, a transverse plate c5, a clamping plate c6, a rotating plate c7, a level c8, a first graduated scale c9, a second graduated scale c10 and an angle scale c11, the rotating rod c2 is arranged at the top of the base c1, and the gear c3 is fixedly connected to the outer side of the rotating rod c 2. The torsion spring c4 is arranged at the top of the rotating rod c2, the transverse plate c5 is fixedly connected to one end of the torsion spring c4, the snap plate c6 is fixedly connected to the bottom of the transverse plate c5, the rotating plate c7 is fixedly connected to the outer side of the rotating rod c2, the level c8 is fixedly connected to the top of the rotating plate c7, the first graduated scale c9 is fixedly connected to the top of the rotating plate c7, and the second graduated scale c10 is rotatably connected to the front side of the first graduated scale c 9. An angle ruler c11 is fixedly connected to the top of a rotating plate c7, an angle ruler c11 is rotatably connected to the front side of a second graduated scale c10, a rotating rod c2 penetrates through a vertical plate c17 and is rotatably connected with a vertical plate c17, one end of a rotating rod c2 is fixedly connected with a handle, a supporting rod c18 is fixedly connected to the top of the rotating plate c7, one end of the supporting rod c18 is fixedly connected with a winding roll c19, and a measuring tape c20 is arranged on the outer side of the winding roll c 19.

When the pole is received, if ground is in the state of inclined plane, pulling diaphragm c5 upward movement this moment, because diaphragm c5 fixed connection is in torsional spring c4 one end, and then diaphragm c5 takes place to rotate, because cardboard c6 fixed connection is in diaphragm c5 bottom, and then diaphragm c5 rotates and drives cardboard c6 and take place to rotate, gear c3 loses cardboard c6 spacing to gear c3 this moment, and then can hold the handle this moment. Rotate the handle, the handle rotates and drives dwang c2 and rotate, because dwang c7 fixed connection is in the dwang c2 outside, and then dwang c2 rotates and drives dwang c7 and rotate, level c8 can be observed this moment, when level c8 is in the horizontality, loosen diaphragm c5 this moment, diaphragm c5 receives the effect of torsional spring c 4's power, and then make cardboard c6 block on gear c3, carry out a spacingly to gear c 3. At this moment, rotate second scale c10 and measure the suspension cable of pole, when the distance between the adjacent pole of needs measurement, only need this moment pulling tape measure c20 measure can, this structure is of value to the acceptance device who ensures the pole and is in the horizontality all the time, to the inclination measurement's of suspension cable more accurate. Preferably, an infrared distance meter is arranged on one side surface of the rotating plate c7, a second detection device c is placed at one of the electric poles during operation, the infrared distance meter faces the other electric pole to perform precise measurement, and the detection is convenient and reliable.

Referring to fig. 12 again, a lead screw c12 is disposed at the top of the base c1, the lead screw c12 penetrates through the base c1 and is in threaded connection with the base c1, a bump is fixedly connected to the top of the lead screw c12, a supporting block c13 is fixedly connected to the bottom of the lead screw c12, a supporting plate c14 is fixedly connected to the bottom of the base c1, a round bar c15 is rotatably connected to one side of the supporting plate c14, a wheel c16 is fixedly connected to the outer side of the round bar c15 so as to move, and a vertical plate c17 is fixedly connected to the top of the base c 1.

When the sag of the cable needs to be measured, the cable sag detection device c is firstly pushed to an acceptance point, namely the first detection device a and the second detection device b are also pushed to the vicinity of a detected cable section along the belt, after the cable sag detection device reaches the detection point, the lug is rotated, the lug is fixedly connected to the top of the screw rod c12, the screw rod c12 is driven to rotate by the rotation of the lug, the support block c13 is fixedly connected to the bottom of the screw rod c12, the screw rod c12 rotates to drive the support block c13 to rotate, and the support block c13 can be supported on the ground. At the moment, the pole is checked and tested, if the ground is in a state of an inclined plane, the transverse plate c5 is pulled to move upwards, because the transverse plate c5 is fixedly connected to one end of a torsion spring c4, and then the transverse plate c5 rotates, because the clamping plate c6 is fixedly connected to the bottom end of the transverse plate c5, and then the transverse plate c5 rotates to drive the clamping plate c6 to rotate, at the moment, the gear c3 loses the limit of the clamping plate c6 to the gear c3, and then the handle can be held at the moment, the handle rotates to drive the rotating rod c2 to rotate, because the rotating plate c7 is fixedly connected to the outer side of the rotating rod c2, and then the rotating rod c2 rotates to drive the rotating plate c7 to rotate, at the level gauge c8 can be observed, when the level gauge c8 is in a horizontal state, at the transverse plate c5 is loosened, the transverse plate c5 is acted by the force of the torsion spring c4, and then the clamping plate c6 is clamped on the gear c3, and at the gear c3 is limited, at the inclined pull gauge for measuring the inclined pole of the inclined cable of the second graduated scale 10, when the distance between the adjacent electric poles needs to be measured, the measuring tape c20 is pulled to measure the distance.

The first detecting device a, the cable sag detecting device b and the second detecting device c of the present embodiment may be respectively disposed at two sides of the second detecting device c when being assembled, as shown in fig. 1 and combined with fig. 12, a mounting plate may be detachably connected at two sides of the base c1, the two mounting plates are respectively provided with a circular mounting cavity and a rectangular stepped groove having a rectangular counterbore for correspondingly mounting the first detecting device a and the cable sag detecting device b, when the multifunctional detecting system for electric power erection is pushed to a designated position by the wheel c16 of the second detecting device c, the multifunctional detecting system for electric power erection can be directly taken out for field use, and is very convenient.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.