CN112922435B

CN112922435B - Power grid fixing base

Info

Publication number: CN112922435B
Application number: CN202110073671.0A
Authority: CN
Inventors: 王瑾
Original assignee: Guangdong Oumulong Power Engineering Co ltd; Foshan Power Supply Bureau of Guangdong Power Grid Corp
Current assignee: Guangdong Omron Power Engineering Co Ltd; Foshan Power Supply Bureau of Guangdong Power Grid Corp
Priority date: 2021-01-20
Filing date: 2021-01-20
Publication date: 2022-07-15
Anticipated expiration: 2041-01-20
Also published as: CN112922435A

Abstract

The invention provides a power grid fixing base, which structurally comprises a base, reinforcing ribs, a fixing plate, a dust remover and a connecting and fixing plate, wherein when the power grid fixing base is used, part of current of a cable flows to the surface of an electric tower of equipment and flows to the surface of the equipment through the electric tower, so that electromagnetic force can be generated on the equipment due to the action of the current, the electromagnetic force can adsorb part of metal debris in peripheral soil, the metal debris is adhered to the surface of the equipment, but when the current flows, the current can generate heat due to the action of resistance and conducts the heat through a heat transfer rod, after the heat conduction is realized, the heat can trigger a center, so that the center drives the equipment to perform high-strength vibration once, the metal debris adhered to the surface of the equipment is removed through the vibration, the increase of the surface of the equipment due to the adhesion of the metal debris is avoided, and iron rust is conducted to the surface of the equipment due to the oxidation of the metal debris so that the structural strength of the equipment is reduced .

Description

Power grid fixing base

Technical Field

The invention relates to the field of power grids, in particular to a power grid fixing base.

Background

At present of high-speed development, no matter urban development or rural development needs participation of electric energy, in order to meet the electric energy demand of high-speed development, construction of a power plant is inevitable, but after construction of the power plant is completed, the power plant can only convert energy into electric energy, but cannot transmit electric power, in order to enable the electric power to be converted in the power plant and transmitted to cities and rural areas for construction, but in the process of construction of a power grid, in order to avoid the situation that electric shock is caused to surrounding personnel or animals by contacting a high-voltage electric wire to the ground, equipment such as a power tower is usually used for supporting the high-voltage electric wire, so that electric current can be transmitted at a high place and the risk that the personnel or the animals are shocked or the electric wire is damaged is avoided, in the process of construction of power grid facilities such as the power tower, in order to stabilize the fixed position of the power tower, usually all can use the base to fix the position of electricity tower, but because of the electricity tower is directly connected with the electric wire, partial electric current will conduct to the surface of electricity tower because of being connected of electric wire and electricity tower when the inside high-tension electricity of electric wire transmits, and the base also can appear partial static because of the reason of connecting, and can lead to the base to appear partial electromagnetic force because of the existence of static, and this part electromagnetic force can adsorb the slight metal that attaches in the soil, lead to the area increase of base and the rust that slight metal can be more quick, and the slight metal of rust can conduct the iron rust to the base, cause the quick corrosion of base and the condition that structural strength reduces to appear.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a power grid fixing base which solves the problem that when power grid facilities such as an electric tower are constructed, in order to stabilize the fixed position of the electric tower, a base is usually used to fix the position of the electric tower, however, because the electric tower is directly connected with the electric wire, part of the current is conducted to the surface of the electric tower due to the connection of the electric wire and the electric tower when the high-voltage electricity in the electric wire is transmitted, the base will also generate partial static electricity due to the connection, and the existence of static electricity will cause partial electromagnetic force to the base, the electromagnetic force can absorb the tiny metal attached in the ground, so that the area of the base is increased and the tiny metal can be rusted more quickly, and the rusted fine metal can conduct the rust to the base, causing the base to be rusted quickly and the problem of reduced structural strength.

Aiming at the above purpose, the invention is realized by the following technical scheme: a power grid fixing base structurally comprises a base, reinforcing ribs, fixing plates, a scrap remover and a connecting and fixing plate, wherein the upper ends of the reinforcing ribs are welded and fixed on two sides of the lower end of the base;

the chip remover comprises a main body, a conduction mechanism and a positioning block, wherein the lower end of the main body is movably clamped at the upper end of the base, the outer wall of the conduction mechanism is fixedly embedded in the inner wall of the main body, and the rear end of the positioning block is fixed at the front end of the main body through a screw.

Preferably, the conduction mechanism comprises heat transfer rods, a working device and a shell, the outer walls of the heat transfer rods are nested and fixed at two ends of the working device, the working device is completely clamped and fixed on the inner wall of the shell, the inner walls at two ends of the shell are nested and clamped on the outer walls at two ends of the heat transfer rods, and the two heat transfer rods are arranged at two ends of the working device oppositely.

Preferably, the working device comprises a vibration connecting device, an outer ring, heat absorbing rings, an oscillator and connecting ring rods, wherein the outer wall of the vibration connecting device is fixedly embedded between the connecting ring rods, the inner wall of the outer ring is in nested fit with the outer wall of the connecting ring rods, one end of each heat absorbing ring is welded and fixed at two ends of each connecting ring rod, two ends of the outer wall of the oscillator are movably matched with the inner walls of two ends of each connecting ring rod, and the two heat absorbing rings are arranged at two ends of each connecting ring rod oppositely.

Preferably, the shock connecting device comprises a connecting rod, a spring and an embedding block, wherein the outer wall of the upper end of the connecting rod is fixed at the lower end of the spring through a buckle, the outer wall of the spring is movably matched with the inner walls of two ends of the embedding block, and the inner wall of the lower end of the embedding block is nested and matched above two ends of the connecting rod.

Preferably, the oscillator comprises a clamping rod, a trigger and two clamping rings, wherein one end of the clamping rod is welded and fixed at two ends of the clamping ring, inner walls of two ends of the trigger are nested and clamped between outer walls of the clamping ring, one end of the clamping ring is movably matched with the inner wall of the connecting ring rod, and the two clamping rings are oppositely arranged at two ends of the trigger.

Preferably, the trigger comprises a box body, a connecting buckle, a center device and a limiting buckle, wherein the inner walls of two ends of the box body are movably matched between the clamping rings, one end of the connecting buckle is welded and fixed at the upper end and the lower end of the clamping rings, the inner walls of two ends of the center device are clamped and fixed at the outer walls of the limiting buckle, one end of the limiting buckle is fixedly embedded and fixed at the outer wall between the connecting buckle, and the connecting buckle is of an inverted C-shaped structure.

Preferably, the center device comprises a ring body, four impact blocks, a piston plate, filling grooves and connecting rods, wherein the outer wall of the ring body is fixedly embedded in the inner wall of the box body, the right side of each impact block is fixedly welded to the outer walls of the upper end and the lower end of the piston plate, the outer walls of the piston plates are embedded and clamped at the two ends of the inner wall of each filling groove, the filling grooves are completely fixed to the inner wall of the ring body, one ends of the connecting rods are connected to the outer walls of the two ends of the piston plate in a welding mode, the four impact blocks are arranged at the four corners of the piston plate, and the filling materials in the filling grooves are hydraulic oil.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

when the device is used, the current of the cable partially flows to the surface of an electric tower of the device and flows to the surface of the device through the electric tower, so that electromagnetic force is generated on the device due to the action of the current, the electromagnetic force can adsorb partial metal scraps in the peripheral land, and the metal scraps are adhered to the surface of the device.

Drawings

Fig. 1 is a schematic structural diagram of a power grid fixing base.

Fig. 2 is a rear view structural schematic diagram of the chip remover.

Fig. 3 is a schematic sectional structure view of the main body of the invention.

Fig. 4 is a schematic sectional structure diagram of the inventive working device.

FIG. 5 is a schematic cross-sectional view of the shock absorber of the present invention.

Fig. 6 is a schematic diagram of the oscillator of the present invention.

Fig. 7 is a schematic cross-sectional structure of the inventive trigger.

Fig. 8 is a schematic sectional structure diagram of the inventive hub.

In the figure: the device comprises a base-1, a reinforcing rib-2, a fixing plate-3, a chip remover-4, a connecting plate-5, a main body-41, a conducting mechanism-42, a positioning block-43, a heat transfer rod-a 1, a working device-a 2, a shell-a 3, a shock absorber-b 1, an outer ring-b 2, a heat absorption ring-b 3, an oscillator-b 4, a connecting ring rod-b 5, a connecting rod-c 1, a spring-c 2, an embedding block-c 3, a clamping rod-d 1, a trigger-d 2, a clamping ring-d 3, a box body-e 1, a connecting buckle-e 2, a center device-e 3, a limiting buckle-e 4, a ring body-f 1, an impact block-f 2, a piston plate-f 3, a filling groove-f 4 and a connecting rod-f 5.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Example 1

As shown in the accompanying drawings 1 to 5, the invention provides a power grid fixing base which structurally comprises a base 1, reinforcing ribs 2, fixing plates 3, a scrap removing device 4 and a connecting and fixing plate 5, wherein the upper ends of the reinforcing ribs 2 are welded and fixed on two sides of the lower end of the base 1, the lower ends of the fixing plates 3 are fixed at two ends above the base 1 through screws, outer walls of two ends of the scrap removing device 4 are fixed between the fixing plates 3 in a buckling mode, and one end of the connecting and fixing plate 5 is fixed on outer walls of two ends of the scrap removing device 4 through buckling and clamping;

the scrap remover 4 comprises a main body 41, a conduction mechanism 42 and a positioning block 43, wherein the lower end of the main body 41 is movably clamped at the upper end of the base 1, the outer wall of the conduction mechanism 42 is fixedly embedded in the inner wall of the main body 41, and the rear end of the positioning block 43 is fixed at the front end of the main body 41 through a screw.

The conduction mechanism 42 is composed of a heat transfer rod a1, a working device a2 and a shell a3, the outer wall of the heat transfer rod a1 is fixed at two ends of the working device a2 in a nested manner, the working device a2 is completely fixed at the inner wall of the shell a3 in a clamped manner, the inner walls of two ends of the shell a3 are fixed at two ends of the heat transfer rod a1 in a nested and clamped manner, the two heat transfer rods a1 are arranged at two ends of the working device a2 in an opposite manner, and the heat transfer rods a1 arranged at the two ends can uniformly transfer heat generated by the flow of the device current to the working device a 2.

The working device a2 comprises a vibration connecting device b1, an outer ring b2, a heat absorbing ring b3, an oscillator b4 and a connecting rod b5, the outer wall of the vibration connecting device b1 is fixedly embedded between the connecting rods b5, the inner wall of the outer ring b2 is in nested fit with the outer wall of the connecting rod b5, one end of the heat absorbing ring b3 is fixedly welded at the two ends of the connecting rod b5, the two ends of the outer wall of the oscillator b4 are movably fitted with the inner walls of the two ends of the connecting rod b5, two heat absorbing rings b3 are arranged at the two ends of the connecting rod b5, and heat can be uniformly transmitted to the oscillator b4 through the heat absorbing rings b3 arranged at the two ends of the connecting rod b5 and uniformly heated at the two ends of the oscillator b 4.

The shock connecting device b1 comprises a connecting rod c1, a spring c2 and an embedded block c3, the outer wall of the upper end of the connecting rod c1 is fixed at the lower end of the spring c2 through a buckle, the outer wall of the spring c2 is movably matched with the inner walls of the two ends of the embedded block c3, and the inner wall of the lower end of the embedded block c3 is in embedded fit above the two ends of the connecting rod c 1.

The following examples are set forth: after the cable is assembled and fixed on the upper end of the electric tower and the electric tower is fixed on the upper end of the fixing plate 3, the bottom of the electric tower is fixed on the upper end of the fixing plate 3 through the fixing material pair such as a screw, the electric tower is fixed on the upper end of the fixing plate 3, after the assembly and the fixation of the electric tower are completed, the current of the cable can be partially conducted to the electric tower and conducted to the scrap remover 4 through the electric tower through the electric power of the cable, but because the electric tower is made of steel, the heat can be generated due to the resistance effect inside the material when the current flows to the electric tower, the fixing plate 3 is heated, after the fixing plate 3 is heated, the heat of the fixing plate 3 can be guided to the heat transfer rod a1 through the heat transfer rod a1 arranged in the conduction mechanism 42 and conducted to the working device a2 through the heat transfer rod a1, the whole working device a2 is heated, after the working device a2 is heated, the heat of the working device a2 can directly act on the outer ring 2, the heat absorption ring b3 is affected by heat energy to generate an expansion phenomenon, the connecting rod b5 is pushed through the expanded volume of the heat absorption ring b3, the connecting rod b5 is clamped inwards, the oscillator b4 and the shock absorber b1 are driven through the clamping of the connecting rod b5, after the shock absorber b1 is pulled by the movement of the connecting rod b5, the embedded block c3 is opened by force, the connecting rod c1 is enabled to press the spring c2 and push the connecting rod c1 to move outwards through the energy generated by the contraction of the spring c2, and the embedded block c3 is enabled to collide to generate small amplitude vibration so as to remove fine metal on the surface of the device, which is affected by electromagnetic force.

Example 2

As shown in figures 6 to 8: the oscillator b4 comprises a clamping rod d1, a trigger d2 and a clamping ring d3, one end of the clamping rod d1 is fixed at two ends of a clamping ring d3 in a welding mode, inner walls of two ends of the trigger d2 are nested and clamped between outer walls of the clamping ring d3, one end of the clamping ring d3 is movably matched with the inner wall of the connecting ring rod b5, the two clamping rings d3 are arranged at two ends of the trigger d2 in an opposite mode, the clamping rings d3 at the two ends can move synchronously after being heated and pushed, and the phenomenon that the stress of the centralizer e3 is uneven is avoided.

The trigger d2 comprises a box body e1, a connecting buckle e2, a center device e3 and a limiting buckle e4, inner walls of two ends of the box body e1 are movably matched between the clamping rings d3, one end of the connecting buckle e2 is fixedly welded to the upper end and the lower end of the clamping ring d3, inner walls of two ends of the center device e3 are fixedly clamped to the outer wall of the limiting buckle e4, one end of the limiting buckle e4 is fixedly embedded to the outer wall between the connecting buckles e2, the structure of the connecting buckle e2 is of an inverted C-shaped structure, and the center device e3 can have a partial movable range after being connected through the C-shaped structure.

Wherein the centralizer e3 consists of a ring body f1, an impact block f2, a piston plate f3, a filling groove f4 and a connecting rod f5, the outer wall of the ring body f1 is fixedly embedded in the inner wall of the box body e1, the right side of the impact block f2 is welded and fixed on the outer walls of the upper end and the lower end of the piston plate f3, the outer wall of the piston plate f3 is nested and clamped at two ends of the inner wall of the filling groove f4, the filling groove f4 is completely fixed on the inner wall of the ring body f1, one end of the connecting rod f5 is connected to the outer walls of the two ends of the piston plate f3 in a welding manner, four impact blocks f2 are arranged, the impact blocks f2 arranged at the four corners can enable the impact blocks f2 to uniformly impact the inner wall of the ring body f1 after the piston plate f3 moves, the four corners are arranged at the four corners of the piston plate f3, the material of the filling material in the filling groove f4 is hydraulic oil, and the hydraulic oil can expand and reset due to the energy generated after being extruded.

The following examples are set forth: after the device is subjected to primary vibration, structural position change caused by heating of the device pushes the clamping rod d1, the clamping rod d1 moves and pushes the clamping ring d3, the clamping ring d3 clamps the trigger d2 and triggers the trigger d2, the connecting buckle e2 moves inwards and pushes the center e3, after the center e3 is subjected to clamping force, the connecting rod f5 arranged on the center e3 moves inwards and pushes the piston plate f3 through the movement of the connecting rod f5, the relative distance of the piston plate f3 is changed, the piston plate f3 presses hydraulic oil existing between the piston plates f3 through the force change, the hydraulic oil is pressed and compressed, the hydraulic oil in the compression condition gradually accumulates energy in the hydraulic oil due to the pressing compression and compression of the material, and when the energy is accumulated to a certain threshold value, the hydraulic oil is expanded due to high-strength energy, the piston plate f3 is pushed to move towards two ends rapidly by the expansion of hydraulic oil, the impact block f2 is pushed by the movement of the piston plate f3, the impact block f2 impacts the inner wall of the ring body f1 rapidly and the ring body f1 vibrates at a high intensity, metal debris adsorbed by electromagnetic force on the surface of the equipment is further removed by the high intensity vibration, and the surface of the equipment is not adhered with the metal debris.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A power grid fixing base structurally comprises a base (1), reinforcing ribs (2), fixing plates (3), a scrap remover (4) and a connecting and fixing plate (5), wherein the upper ends of the reinforcing ribs (2) are welded and fixed on two sides of the lower end of the base (1), the lower end of the fixing plate (3) is fixed on two ends above the base (1) through screws, outer walls of two ends of the scrap remover (4) are fixed between the fixing plates (3) in a buckling mode, and one end of the connecting and fixing plate (5) is fixed on outer walls of two ends of the scrap remover (4) through buckling and clamping;

the scrap remover (4) consists of a main body (41), a conduction mechanism (42) and a positioning block (43), the lower end of the main body (41) is movably clamped at the upper end of the base (1), the outer wall of the conduction mechanism (42) is fixedly embedded in the inner wall of the main body (41), and the rear end of the positioning block (43) is fixed at the front end of the main body (41) through a screw;

the conduction mechanism (42) consists of a heat transfer rod (a 1), a working device (a 2) and a shell (a 3), wherein the outer wall of the heat transfer rod (a 1) is fixed at two ends of the working device (a 2) in a nested manner, the working device (a 2) is completely clamped and fixed on the inner wall of the shell (a 3), the inner walls of two ends of the shell (a 3) are clamped and fixed on the outer walls of two ends of the heat transfer rod (a 1) in a nested manner, the two heat transfer rods (a 1) are arranged at two ends of the working device (a 2) in a shared manner, and the heat transfer rods (a 1) arranged at the two ends can uniformly conduct heat generated by the flowing of equipment current to the working device (a 2);

the working device (a 2) consists of a vibration connecting device (b 1), an outer ring (b 2), a heat absorbing ring (b 3), an oscillator (b 4) and a connecting rod (b 5), wherein the outer wall of the vibration connecting device (b 1) is fixedly embedded between the connecting rods (b 5), the inner wall of the outer ring (b 2) is in nested fit with the outer wall of the connecting rod (b 5), one end of the heat absorbing ring (b 3) is fixedly welded at two ends of the connecting rod (b 5), two ends of the outer wall of the oscillator (b 4) are movably matched with the inner walls of two ends of the connecting rod (b 5), two heat absorbing rings (b 3) are arranged at two ends of the connecting rod (b 5) oppositely, and heat can be uniformly transmitted to the oscillator (b 4) through the heat absorbing rings (b 3) arranged at the two ends, so that the two ends of the oscillator (b 4) are uniformly heated;

the shock connecting device (b 1) comprises a connecting rod (c 1), a spring (c 2) and an embedded block (c 3), the outer wall of the upper end of the connecting rod (c 1) is fixed at the lower end of the spring (c 2) through a buckle, the outer wall of the spring (c 2) is movably matched with the inner walls of the two ends of the embedded block (c 3), and the inner wall of the lower end of the embedded block (c 3) is nested and matched above the two ends of the connecting rod (c 1);

the oscillator (b 4) comprises a clamping rod (d 1), a trigger (d 2) and a clamping ring (d 3), one end of the clamping rod (d 1) is fixedly welded to two ends of the clamping ring (d 3), inner walls of two ends of the trigger (d 2) are nested and clamped between outer walls of the clamping ring (d 3), one end of the clamping ring (d 3) is movably matched with the inner wall of the connecting ring rod (b 5), the two clamping rings (d 3) are arranged at two ends of the trigger (d 2) in an opposite mode, the clamping rings (d 3) at the two ends can move synchronously after being heated and pushed, and the phenomenon that the stress of the centralizer (e 3) is uneven is avoided;

the trigger (d 2) is composed of a box body (e 1), a connecting buckle (e 2), a center device (e 3) and a limiting buckle (e 4), the inner walls of the two ends of the box body (e 1) are movably matched between the clamping rings (d 3), one end of the connecting buckle (e 2) is fixedly welded to the upper end and the lower end of the clamping ring (d 3), the inner walls of the two ends of the center device (e 3) are fixedly clamped to the outer wall of the limiting buckle (e 4), one end of the limiting buckle (e 4) is fixedly embedded to the outer wall between the connecting buckles (e 2), the connecting buckle (e 2) is of an inverted C-shaped structure, and the center device (e 3) can have a partial movable range after being connected through the C-shaped structure;

the centralizer (e 3) is composed of a ring body (f 1), impact blocks (f 2), a piston plate (f 3), a filling groove (f 4) and a connecting rod (f 5), wherein the outer wall of the ring body (f 1) is fixedly embedded in the inner wall of a box body (e 1), the right side of the impact block (f 2) is fixedly welded to the outer walls of the upper end and the lower end of the piston plate (f 3), the outer wall of the piston plate (f 3) is embedded and clamped at the two ends of the inner wall of the filling groove (f 4), the filling groove (f 4) is completely fixed to the inner wall of the ring body (f 1), one end of the connecting rod (f 5) is connected to the outer wall of the two ends of the piston plate (f 3) in a welding manner, the impact blocks (f 2) are totally provided with four corners, the impact blocks (f 2) arranged at the four corners can enable the impact blocks (f 2) to uniformly impact the inner wall of the ring body (f 1) after the piston plate (f 3) moves, the four corners are arranged at the four corners of the piston plate (f 3), and the filling groove (f 4) is made of hydraulic oil, due to the characteristic that the hydraulic oil can generate energy after being extruded, the energy of the hydraulic oil after being extruded can enable the hydraulic oil to be expanded and reset;

after the cable is assembled and fixed at the upper end of the electric tower and the electric tower is fixed at the upper end of the fixing plate (3), the bottom of the electric tower can be fixed at the upper end of the fixing plate (3) through screws, the electric tower is fixed at the upper end of the fixing plate (3), after the assembly and the fixation of the electric tower are completed, the current of the cable can be partially conducted to the electric tower and conducted to the scrap remover (4) through the electric tower through the electrification of the cable, but because the electric tower is made of steel, the heat can be generated in the electric tower due to the resistance effect in the material when the current flows to the electric tower, the fixing plate (3) generates heat, after the fixing plate (3) generates heat, the heat of the fixing plate (3) can guide the heat to the heat transfer rod (a 1) through the heat transfer rod (a 1) arranged in the conduction mechanism (42) and is conducted to the working device (a 2) through the heat transfer rod (a 1), and the working device (a 2) is heated integrally, after the working device (a 2) is heated, the heat energy of the working device (a 2) directly acts on the outer ring (b 2), so that the heat absorption ring (b 3) is influenced by the heat energy to generate an expansion phenomenon, the connecting ring rod (b 5) is pushed by the expanded volume of the heat absorption ring (b 3), the connecting ring rod (b 5) is clamped inwards, the oscillator (b 4) and the shock absorber (b 1) are driven by the clamping of the connecting ring rod (b 5), and after the shock absorber (b 1) is driven by the movement of the connecting ring rod (b 5), the embedded block (c 3) is opened by force, so that the connecting rod (c 1) extrudes the spring (c 2) and pushes the connecting rod (c 1) to move outwards by the energy generated by the contraction of the spring (c 2), and the embedded block (c 3) is enabled to impact small-amplitude vibration to remove the tiny metal surface influenced by the electromagnetic force;

after the equipment is subjected to primary vibration, the structural position change caused by the heating of the equipment pushes a clamping rod (d 1), the clamping rod (d 1) moves and pushes a clamping ring (d 3), the clamping ring (d 3) clamps a trigger (d 2) and triggers a trigger (d 2), a connecting buckle (e 2) moves inwards and pushes a center (e 3), after the center (e 3) is subjected to the clamping force, a connecting rod (f 5) arranged on the center (e 3) moves inwards and pushes a piston plate (f 3) through the movement of the connecting rod (f 5), the relative distance of the piston plate (f 3) is changed, the piston plate (f 3) extrudes hydraulic oil existing between the piston plates (f 3) through the force change, the hydraulic oil is extruded and compressed, and the energy of the internal material of the hydraulic oil in the compression condition is gradually accumulated due to the compression of the hydraulic oil in the compression condition, when energy is accumulated to a certain threshold value, hydraulic oil can be expanded due to high-intensity energy, the piston plate (f 3) is pushed to move towards two ends rapidly through the expansion of the hydraulic oil, the impact block (f 2) is pushed through the movement of the piston plate (f 3), the impact block (f 2) is enabled to impact the inner wall of the ring body (f 1) rapidly, the ring body (f 1) is enabled to vibrate at a high intensity, metal debris adsorbed by electromagnetic force on the surface of equipment is further removed through the high-intensity vibration, and the metal debris is prevented from being adhered to the surface of the equipment.