CN113625079A

CN113625079A - High-safety power grid transmission detection equipment and detection method thereof

Info

Publication number: CN113625079A
Application number: CN202110884267.1A
Authority: CN
Inventors: 刘朋
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2021-11-09

Abstract

The invention discloses high-safety power grid power transmission detection equipment and a detection method thereof, and relates to the technical field of power grids. The high-safety power grid transmission detection equipment and the detection method thereof comprise an external control mechanism for detecting a power grid, an air bag extrusion mechanism for extruding by pulling, a vibration extrusion mechanism for extruding by vibration, a magnetic rotating mechanism for rotating by contacting with magnetism and an impact ash removal mechanism for removing ash by impact, wherein a shell is arranged inside the external control mechanism. According to the high-safety power grid transmission detection equipment and the detection method thereof, due to the fact that people shake in the moving process, air flow generated inside the shell is used for cleaning and air-drying the inside of the shell, the use of the equipment is guaranteed, the safety of the equipment is high, the movable ball and the gravity ball are arranged, the vibration amplitude of the third elastic rod and the second elastic rod can be larger, and the removal of dust and water drops is enhanced.

Description

High-safety power grid transmission detection equipment and detection method thereof

Technical Field

The invention relates to the technical field of power grids, in particular to high-safety power grid transmission detection equipment and a detection method thereof.

Background

The power grid transmission detection equipment is equipment for performing test, verification, detection and acceptance on power production and power grid operation, and provides reliable guarantee for the safety and reliability of power operation; when the power transmission detection equipment is used for detecting a power grid, the portable small-sized equipment is generally adopted.

When power transmission detection equipment is used for detecting a power grid in wet weather, dust and moisture enter the equipment, and the wet dust is conductive, so that the device is easily damaged in the using process.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the power grid transmission detection equipment with high safety and the detection method thereof.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a high electric power electric wire netting transmission of electricity check out test set of security, carries out extruded gasbag extrusion mechanism, is used for vibrations to carry out extruded vibrations extrusion mechanism, is used for contacting magnetism and carries out rotatory magnetism rotary mechanism and is used for the striking deashing mechanism that carries out the deashing including being used for the electric wire netting to detect, outside control mechanism's inside is provided with the shell, outside control mechanism is provided with gasbag extrusion mechanism through the shell top that sets up, the both sides that gasbag extrusion mechanism was kept away from to the inner wall of shell are provided with vibrations extrusion mechanism, the bottom that gasbag extrusion mechanism was kept away from to the shell inner wall is provided with magnetism rotary mechanism, magnetism rotary mechanism's inside is provided with the movable rod, magnetism rotary mechanism is provided with striking deashing mechanism through the movable rod end that sets up.

Preferably, the inside of external control mechanism is provided with shell, first ash hole and second ash hole, first ash hole has been seted up to the both sides of shell, the position that the shell both sides are located between the first ash hole all is provided with the fender page or leaf, the second ash hole has been seted up to the bottom of shell.

Preferably, the inside of gasbag extrusion mechanism is including pulling ring, atress gasbag, first elastic rod and atress bag, the cavity with atress gasbag looks adaptation is seted up at the top of shell, the pulling ring joint is in the cavity of shell, the atress gasbag sets up at shell cavity inner wall and cup joints at pulling ring outer wall, the shell is kept away from the bottom of cavity and has been seted up two first ventholes, the shell inner wall is located the first elastic rod of the outer wall fixedly connected with of first venthole, the outer wall of first elastic rod is seted up slottedly, the atress bag sets up the inslot at first elastic rod.

Preferably, vibrations extrusion mechanism's inside includes second elastic rod, gravity ball, third elastic rod and movable ball, the both sides that gasbag extrusion mechanism was kept away from to the shell inner wall are seted up slottedly, third elastic rod fixed connection is at the inslot of shell, the terminal joint of third elastic rod has the movable ball, the inslot of shell just is located the inside fixedly connected with second elastic rod of third elastic rod, the terminal fixedly connected with gravity ball of second elastic rod.

Preferably, magnetism rotary mechanism's inside includes magnetic path, spring, air current and strikes bag and movable rod, the shell inner wall is kept away from the bottom of gasbag extrusion mechanism and is seted up the second gas outlet, the outer wall joint that the second gas outlet was kept away from to the shell inner wall has the spring, the outer wall fixedly connected with magnetic path that the second gas outlet was kept away from to the shell inner wall, the bag is strikeed to the bottom fixedly connected with air current of spring, the bottom fixedly connected with movable rod of spring, fixedly connected with cushion between the pitch of spring, the movable rod is made for elastic rubber materials.

Preferably, the inside of striking deashing mechanism includes oval piece, striking piece and presss from both sides tight gasbag, the terminal fixedly connected with striking piece of movable rod, the outer wall of striking piece has cup jointed oval piece, the outer wall of oval piece has cup jointed a plurality of and presss from both sides tight gasbag, it is provided with the elastic filament to press from both sides between tight gasbag inner wall and the oval piece.

A detection method of power grid transmission detection equipment with high safety comprises the following steps,

s1, when the ring is pulled upwards in a hand, the shell is lifted to move, people can continuously move up and down when walking, the ring is pulled to continuously extrude the stressed air bag, air flow in the stressed air bag is continuously blown out from the first air outlet and the second air outlet, dust in the shell is blown up, and the dust is blown out from the first dust outlet and the second dust outlet;

s2, when the airflow is blown out from the first air outlet, the airflow is continuously blown to the first elastic rod, and when the airflow is blown to the stress bag, the first elastic rod knocks the third elastic rod;

s3, extruding the second elastic rod by the third elastic rod, clamping the movable ball on the third elastic rod, and continuously shaking the movable ball on the third elastic rod in the shaking process of the third elastic rod to enable the third elastic rod to knock and vibrate the second elastic rod;

s4, when the second elastic rod vibrates, the shell vibrates continuously, and therefore dust and water drops on the inner wall of the shell are vibrated;

s5, when the airflow passes through the second air outlet and blows to the airflow impact bag, the spring moves downwards, so that the spring is far away from the magnetic block, when the magnetism of the spring is cut off, the spring rotates to increase the screw pitch, and the movable rod rotates along with the spring;

s6, brushing dust on the equipment element by a brush on the movable rod in the rotating process of the movable rod, wherein the elliptic block at the tail end of the movable rod is in contact with the inner wall of the shell;

s7, the cleaned dust and water drops fall into the second ash outlet and the first ash outlet to be discharged.

The invention provides a high-safety power grid transmission detection device and a detection method thereof. The method has the following beneficial effects:

1. according to the high-safety power grid transmission detection equipment and the detection method thereof, through the shaking generated in the moving process of people, the air flow generated in the shell is used for cleaning and air-drying the ash in the shell, so that the use of the equipment is ensured, and the safety of the equipment is high.

2. According to the high-safety power grid transmission detection equipment and the detection method thereof, the first elastic rod is shaken to hit the third elastic rod through the impact of airflow on the first elastic rod and the stress bag, so that the interior of the shell is continuously vibrated, and therefore the shaking-off of dust and water drops is ensured.

3. According to the high-safety power grid transmission detection equipment and the detection method thereof, the third elastic rod and the second elastic rod can be larger in vibration amplitude through the arrangement of the movable ball and the gravity ball, and the removal of dust and water drops is enhanced.

4. According to the high-safety power grid transmission detection equipment and the detection method thereof, the spring is continuously stretched and retracted to rotate under the influence of airflow, so that the movable rod rotates to clean ash, and the cleaning of dust and water drops is ensured.

5. According to the high-safety power grid transmission detection equipment and the detection method thereof, the collision block impacts the elliptical block, so that the elliptical block can be better clamped into the equipment for cleaning, and the cleaning in the gap of the equipment is ensured.

6. According to the high-safety power grid transmission detection equipment and the detection method thereof, the clamping air bag contracts and extends back and forth, so that dust can be scraped and clamped, and the dust is ensured to be cleaned.

Drawings

FIG. 1 is a schematic axial side perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the portion B of FIG. 2 according to the present invention;

FIG. 5 is an enlarged view of the portion C of FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of the portion D of FIG. 5 according to the present invention.

In the figure: 1. an external control mechanism; 11. a housing; 12. a first ash outlet; 13. a second ash outlet; 2. an air bag extrusion mechanism; 21. pulling the ring; 22. a stressed air bag; 23. a first elastic rod; 24. a stress bag; 3. vibrating the extrusion mechanism; 31. a second elastic rod; 32. a gravity ball; 33. a third elastic rod; 34. a movable ball; 4. a magnetic rotation mechanism; 41. a magnetic block; 42. a spring; 43. an air blast impact pocket; 44. a movable rod; 5. an impact ash removal mechanism; 51. an elliptical block; 52. an impact block; 53. the air bag is clamped.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-6, the present invention provides a technical solution: a high-safety power grid transmission detection device comprises an external control mechanism 1 for detecting a power grid, an air bag extrusion mechanism 2 for pulling and extruding, a striking deashing mechanism 5 that is used for vibrations to carry out extruded vibrations extrusion mechanism 3, a magnetism rotary mechanism 4 that is used for contacting magnetism and rotates and is used for the striking to carry out the deashing, external control mechanism 1's inside is provided with shell 11, external control mechanism 1 is provided with gasbag extrusion mechanism 2 through the shell 11 top that sets up, the both sides that gasbag extrusion mechanism 2 was kept away from to the inner wall of shell 11 are provided with vibrations extrusion mechanism 3, the bottom that gasbag extrusion mechanism 2 was kept away from to shell 11 inner wall is provided with magnetism rotary mechanism 4, the inside of magnetism rotary mechanism 4 is provided with movable rod 44, magnetism rotary mechanism 4 is provided with striking deashing mechanism 5 through the movable rod 44 end that sets up.

In this embodiment, the existing equipment is used to detect the power grid through the housing 11.

Specifically, the inside of external control mechanism 1 is provided with shell 11, first ash hole 12 and second ash hole 13, and first ash hole 12 has been seted up to the both sides of shell 11, and the position that the shell 11 both sides are located between first ash hole 12 all is provided with the fender page or leaf, and second ash hole 13 has been seted up to the bottom of shell 11.

In this embodiment, the first dust outlet 12 has a blocking sheet on a side surface thereof, which can block a part of dust from entering.

Specifically, gasbag extrusion mechanism 2's inside is including pulling the ring 21, atress gasbag 22, first elastic rod 23 and atress bag 24, the cavity with atress gasbag 22 looks adaptation is seted up at shell 11's top, pull ring 21 joint is in shell 11's cavity, atress gasbag 22 sets up at shell 11 cavity inner wall and cup joints at pulling ring 21 outer wall, shell 11 keeps away from the bottom of cavity and has seted up two first ventholes, shell 11 inner wall is located the first elastic rod 23 of the outer wall fixedly connected with of first venthole, the outer wall of first elastic rod 23 is seted up slottedly, atress bag 24 sets up the inslot at first elastic rod 23.

In this embodiment, the force receiving bag 24 is an elastic bag, and can be used for air storage.

Specifically, vibrations extrusion mechanism 3's inside includes second elastic rod 31, gravity ball 32, third elastic rod 33 and movable ball 34, the both sides that gasbag extrusion mechanism 2 was kept away from to the shell 11 inner wall are seted up slottedly, third elastic rod 33 fixed connection is in the inslot of shell 11, the terminal joint of third elastic rod 33 has movable ball 34, the inslot of shell 11 and the inside fixedly connected with second elastic rod 31 that is located third elastic rod 33, the terminal fixedly connected with gravity ball 32 of second elastic rod 31.

In this embodiment, the third elastic rod 33 is connected to the movable ball 34 in a snap-fit manner, and can swing back and forth.

Specifically, magnetism rotary mechanism 4's inside includes magnetic path 41, spring 42, air current strikes bag 43 and movable rod 44, the second gas outlet has been seted up to the bottom that gasbag extrusion mechanism 2 was kept away from to 11 inner walls of shell, the outer wall joint that the second gas outlet was kept away from to 11 inner walls of shell has spring 42, the outer wall fixedly connected with magnetic path 41 of second gas outlet is kept away from to 11 inner walls of shell, spring 42's bottom fixedly connected with air current strikes bag 43, spring 42's bottom fixedly connected with movable rod 44, fixedly connected with cushion between spring 42's the pitch.

In this embodiment, the upper and lower spacers between the springs 42 may be locked to each other.

Specifically, the inside of the striking ash removal mechanism 5 comprises an elliptical block 51, a striking block 52 and a clamping air bag 53, the tail end of the movable rod 44 is fixedly connected with the striking block 52, the elliptical block 51 is sleeved on the outer wall of the striking block 52, the clamping air bags 53 are sleeved on the outer wall of the elliptical block 51, and an elastic wire is arranged between the inner wall of the clamping air bag 53 and the elliptical block 51.

In this embodiment, the movable rod 44 is made of elastic rubber material, and does not damage the housing 11.

s1, when the movable ring 21 is pulled upwards in a hand, the shell 11 is lifted to move, people can continuously move up and down when walking, the movable ring 21 continuously extrudes the stressed air bag 22, airflow in the stressed air bag 22 is continuously blown out from the first air outlet and the second air outlet, dust in the shell 11 is blown up, and the dust is blown out from the first dust outlet 12 and the second dust outlet 13;

s2, when the airflow is blown out from the first air outlet, the airflow is continuously blown to the first elastic rod 23, and when the airflow is blown to the stress bag 24, the first elastic rod 23 knocks the third elastic rod 33; s3, the third elastic rod 33 extrudes the second elastic rod 31, the movable ball 34 is clamped on the third elastic rod 33, and the movable ball 34 continuously shakes on the third elastic rod 33 in the shaking process of the third elastic rod 33, so that the third elastic rod 33 knocks and vibrates the second elastic rod 31;

s4, when the second elastic rod 31 vibrates, the shell 11 is continuously vibrated, and dust and water drops on the inner wall of the shell 11 are vibrated;

s5, when the airflow passes through the second air outlet and blows to the airflow impact bag 43, the spring 42 moves downwards, so that the spring 42 is far away from the magnetic block 41, when the magnetism of the spring 42 is cut off, the spring 42 rotates to increase the screw pitch, and the movable rod 44 rotates along with the spring 42;

s6, during the rotation process of the movable rod 44, the brush on the movable rod 44 brushes the ash of the equipment element, and the oval block 51 at the tail end of the movable rod 44 is contacted with the inner wall of the shell 11;

s7, the cleaned dust and water drops fall into the second ash outlet 13 and the first ash outlet 12 to be discharged.

When the device is used, before or after the device is used for detection, the device is lifted to move, when the pull ring 21 is lifted by hand, the shell 11 is lifted to move, a person can continuously move up and down when walking, the pull ring 21 continuously extrudes the stressed air bag 22, so that air flow in the stressed air bag 22 is continuously blown out from the first air outlet and the second air outlet, dust in the shell 11 is blown up, the dust is blown out from the first dust outlet 12 and the second dust outlet 13, in the process of up-and-down shaking of the person walking, the stressed air bag 22 is pushed by an elastic spring in the stressed air bag 22, the stressed air bag 22 is reset, when the air flow is blown out from the first air outlet, the air flow is continuously blown to the first elastic rod 23, when the air flow is blown to the stressed bag 24, the stressed bag 24 has a wind-in effect, so that the first elastic rod 23 can elastically descend, and when the air flow is interrupted, the third elastic rod 33 is knocked by the first elastic rod 23, the third elastic rod 33 is made to extrude the second elastic rod 31, the movable ball 34 is clamped on the third elastic rod 33, in the process of shaking the third elastic rod 33, the movable ball 34 is constantly shaken on the third elastic rod 33, so that the third elastic rod 33 knocks and vibrates the second elastic rod 31, when the second elastic rod 31 is shaken, the gravity ball 32 at the bottom of the second elastic rod 31 can increase the shaking amplitude of the second elastic rod 31, so that the shell 11 is constantly shaken, dust and water drops on the inner wall of the shell 11 are shaken off, when airflow passes through the airflow from the second air outlet, the airflow blows towards the airflow impact bag 43, the cushion block on the spring 42 blows the airflow with the maximum strength towards the airflow impact bag 43, so that the spring 42 moves downwards, so that the spring 42 is far away from the magnetic block 41, when the magnetism is disconnected, the spring 42 rotates to increase the thread pitch, the movable rod 44 rotates along with the spring 42, when the second air outlet does not blow out air flow any more, the spring 42 is attracted by the magnetism of the magnetic block 41 and can be continuously close to the magnetic block 41, the magnetic block 41 can be continuously and spirally contracted after contacting with the magnetism, the movable rod 44 brushes dust on equipment elements by a brush on the movable rod 44 in the rotating process, the oval block 51 at the tail end of the movable rod 44 is contacted with the inner wall of the shell 11, when the impact block 52 impacts the clamping air bag 53, the clamping air bag 53 is opened, when the impact block 52 leaves, the clamping air bag 53 is clamped and contracted under the elasticity of the elastic wire, so that dust and water drops on the inner wall of the shell 11 are scraped, and the cleaned dust and water drops fall into the second dust outlet 13 and the first dust outlet 12 to be discharged.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a high electric power electric wire netting transmission of electricity check out test set of security, includes that the external control mechanism (1) that is used for the electric wire netting to detect, is used for the pulling to carry out extruded gasbag extrusion mechanism (2), is used for vibrations to carry out extruded vibrations extrusion mechanism (3), is used for contacting magnetism and carries out magnetic rotation mechanism (4) that rotate and is used for the striking deashing mechanism (5) that the deashing was carried out in the striking, its characterized in that: the inside of external control mechanism (1) is provided with shell (11), external control mechanism (1) is provided with gasbag extrusion mechanism (2) through shell (11) top that sets up, the both sides that gasbag extrusion mechanism (2) were kept away from to the inner wall of shell (11) are provided with vibrations extrusion mechanism (3), the bottom that gasbag extrusion mechanism (2) were kept away from to shell (11) inner wall is provided with magnetism rotary mechanism (4), the inside of magnetism rotary mechanism (4) is provided with movable rod (44), magnetism rotary mechanism (4) are provided with striking deashing mechanism (5) through movable rod (44) end that sets up.

2. The high-safety power grid transmission detection device as claimed in claim 1, wherein: the inside of external control mechanism (1) is provided with shell (11), first ash hole (12) and second ash hole (13), first ash hole (12) have been seted up to the both sides of shell (11), the position that shell (11) both sides are located between first ash hole (12) all is provided with the fender page or leaf, second ash hole (13) have been seted up to the bottom of shell (11).

3. The high-safety power grid transmission detection device as claimed in claim 1, wherein: the inside of gasbag extrusion mechanism (2) is including pulling ring (21), atress gasbag (22), first elastic rod (23) and atress bag (24), the cavity with atress gasbag (22) looks adaptation is seted up at the top of shell (11), pull ring (21) joint is in the cavity of shell (11), atress gasbag (22) set up at shell (11) cavity inner wall and cup joint at pulling ring (21) outer wall, shell (11) are kept away from the bottom of cavity and have been seted up two first ventholes, shell (11) inner wall is located first elastic rod (23) of the outer wall fixedly connected with of first venthole, the outer wall of first elastic rod (23) is seted up slottedly, atress bag (24) set up the inslot at first elastic rod (23).

4. The high-safety power grid transmission detection device as claimed in claim 1, wherein: the inside of vibrations extrusion mechanism (3) includes second elastic rod (31), gravity ball (32), third elastic rod (33) and activity ball (34), the both sides that gasbag extrusion mechanism (2) were kept away from to shell (11) inner wall are seted up slottedly, third elastic rod (33) fixed connection is at the inslot of shell (11), the terminal joint of third elastic rod (33) has activity ball (34), the inslot of shell (11) and the inside fixedly connected with second elastic rod (31) that is located third elastic rod (33), the terminal fixedly connected with gravity ball (32) of second elastic rod (31).

5. The high-safety power grid transmission detection device as claimed in claim 1, wherein: the utility model discloses a magnetic rotating mechanism, including magnetism rotary mechanism (4) inside magnetic path (41), spring (42), air current impact bag (43) and movable rod (44), the second gas outlet has been seted up to the bottom that gasbag extrusion mechanism (2) was kept away from to shell (11) inner wall, the outer wall joint that the second gas outlet was kept away from to shell (11) inner wall has spring (42), the outer wall fixedly connected with magnetic path (41) of second gas outlet are kept away from to shell (11) inner wall, bag (43) are strikeed to the bottom fixedly connected with air current of spring (42), the bottom fixedly connected with movable rod (44) of spring (42), fixedly connected with cushion between the pitch of spring (42).

6. The high-safety power grid transmission detection device as claimed in claim 1, wherein: the inside of striking deashing mechanism (5) includes oval piece (51), striking piece (52) and presss from both sides tight gasbag (53), the terminal fixedly connected with striking piece (52) of movable rod (44), the outer wall of striking piece (52) has cup jointed oval piece (51), the outer wall of oval piece (51) has cup jointed a plurality of and presss from both sides tight gasbag (53), it is provided with the elastic filament to press from both sides between tight gasbag (53) inner wall and oval piece (51).

7. A detection method of high-safety power grid transmission detection equipment is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

s1, when the ring (21) is pulled upwards in a hand, the shell (11) is lifted to move, people can continuously move up and down when walking, the ring (21) is pulled to continuously extrude the stressed air bag (22), air flow in the stressed air bag (22) is continuously blown out from the first air outlet and the second air outlet, dust in the shell (11) is blown up, and the dust is blown out from the first dust outlet (12) and the second dust outlet (13);

s2, when the airflow is blown out from the first air outlet, the airflow is continuously blown to the first elastic rod (23), and when the airflow is blown to the stress bag (24), the first elastic rod (23) knocks the third elastic rod (33);

s3, the third elastic rod (33) extrudes the second elastic rod (31), the movable ball (34) is clamped on the third elastic rod (33), and the movable ball (34) continuously shakes on the third elastic rod (33) in the shaking process of the third elastic rod (33), so that the third elastic rod (33) knocks and vibrates the second elastic rod (31);

s4, when the second elastic rod (31) vibrates, the shell (11) is continuously vibrated, and dust and water drops on the inner wall of the shell (11) are vibrated;

s5, when the airflow passes through the second air outlet and blows to the airflow impact bag (43), the spring (42) moves downwards, so that the spring (42) is far away from the magnetic block (41), when the magnetism of the spring (42) is cut off, the spring rotates to increase the screw pitch, and the movable rod (44) rotates along with the spring (42);

s6, brushing the ash on the equipment element by a brush on the movable rod (44) in the rotating process of the movable rod (44), wherein an elliptic block (51) at the tail end of the movable rod (44) is contacted with the inner wall of the shell (11);

s7, the cleaned dust and water drops fall into the second ash outlet (13) and the first ash outlet (12) to be discharged.