CN114435447B - Porous crushing type operation equipment for rigid-flexible energy regulation and control local stable type high-voltage power distribution cabinet - Google Patents

Abstract

The invention discloses operation equipment for a porous crushed rigid and flexible energy regulation local stable type high-voltage power distribution cabinet, which comprises a high-voltage power distribution cabinet, a local mass handle control type fluid stabilizing device, a porous material crushed energy state regulation device, a transport vehicle and a flexible porous type material state supporting device, wherein the porous material crushed energy state regulation device is arranged on two opposite side walls of the transport vehicle, the flexible porous type material state supporting device is arranged on the inner bottom wall of the transport vehicle, the local mass handle control type fluid stabilizing device is movably arranged on the side wall of the high-voltage power distribution cabinet, and the local mass handle control type fluid stabilizing device is movably arranged in the porous material crushed energy state regulation device. The invention belongs to the technical field of operation of high-voltage power distribution cabinets, and particularly relates to operation equipment for a multi-hole broken rigid-flexible energy regulation local stable high-voltage power distribution cabinet, which realizes the technical effect of fixing the high-voltage power distribution cabinet and absorbs vibration energy during jolt in the transportation process.

Description

Porous crushing type operation equipment for rigid-flexible energy regulation and control local stable type high-voltage power distribution cabinet

Technical Field

The invention belongs to the technical field of operation of high-voltage power distribution cabinets, and particularly relates to operation equipment for a multi-hole broken rigid-flexible energy regulation local stable high-voltage power distribution cabinet.

Background

The high-voltage power distribution cabinet is used for power generation, power transmission, power distribution, power conversion, power consumption, on-off, control or protection of a power system, is final equipment of the power distribution system, and is required to be applied to a transfer device for transferring the high-voltage power distribution cabinet before the high-voltage power distribution cabinet is installed or detached. Because the high-voltage power distribution cabinet body type is great, and the weight is heavy, and the focus is high, consequently in the transportation, rock easily, high-voltage power distribution cabinet internally mounted has some electronic device and electrical component moreover, and when the transportation journey jolts, the rocking that external force leads to damages interior component easily, and the internal surface of cabinet also touches the device easily and causes the damage, and the security stability is lower when leading to the transportation, stabilizes the effect relatively poor to the switch board.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the operation equipment for the porous crushed rigid-flexible energy regulation local stable high-voltage power distribution cabinet, which adopts the technical means of rigid-flexible combination by taking porous materials as a substrate, and realizes the technical effect of fixing the high-voltage power distribution cabinet under electromagnetic control by matching with the movable scrap iron in a technical mode of rigid fixing of the side wall and flexible supporting to rigid clamping of the bottom wall, and can absorb vibration energy during jolt in the transportation process, reduce damage of internal elements and give consideration to the stable transportation effect by adopting the damping technical scheme; the high-voltage power distribution cabinet has the advantages that the transfer purpose of the gravity center height of the high-voltage power distribution cabinet is achieved through the external medium by combining the local mass and the segmentation principle, the defect that the high-voltage power distribution cabinet is unstable in the transportation transfer process is easily caused due to the fact that the high-voltage power distribution cabinet is high is overcome, and meanwhile, under the action of fluid, the high-voltage power distribution cabinet is stable in technical effect through pressure intensity.

The technical scheme adopted by the invention is as follows: the invention provides operation equipment for a porous crushed rigid and flexible energy regulation local stable high-voltage power distribution cabinet, which comprises a high-voltage power distribution cabinet, a local mass handle control type fluid stabilizing device, a porous material crushed energy state regulation device, a transport vehicle and a flexible porous material crushed energy state supporting device, wherein the porous material crushed energy state regulation device is arranged on two opposite side walls of the transport vehicle, the flexible porous material crushed energy state supporting device is arranged on the inner bottom wall of the transport vehicle, the local mass handle control type fluid stabilizing device is movably arranged on the side wall of the high-voltage power distribution cabinet, and the local mass handle control type fluid stabilizing device is movably arranged in the porous material crushed energy state regulation device; the side wall of the high-voltage power distribution cabinet is protected and fixedly supported through the local mass control type fluid stabilizing device, the local mass control type fluid stabilizing device simultaneously achieves the falling of the center of gravity through an external medium, the stability of the high-voltage power distribution cabinet is facilitated, the local mass control type fluid stabilizing device is combined with the broken type energy state regulating and controlling device of the porous material, the rigid porous material is matched with scrap iron, the high-voltage power distribution cabinet is fixed through electromagnetism, and the high-voltage power distribution cabinet is fixedly supported through the flexible porous type material supporting device, and is matched with the scrap iron through the flexible porous material.

Further, the porous material crushed energy state regulating device comprises a porous material crushed energy receiving piece and a porous material crushed energy state regulating piece, the porous material crushed energy receiving piece is arranged on two opposite side walls of the transport vehicle, the porous material crushed energy state regulating piece is arranged in the porous material crushed energy receiving piece, a regulating type through hole and a magnetic control cavity are arranged on the porous material crushed energy receiving piece, the magnetic control cavity is arranged close to the regulating type through hole, the regulating type through hole is obliquely arranged in the porous material crushed energy receiving piece, the porous material crushed energy state regulating piece is arranged in the magnetic control cavity, the porous material crushed energy state regulating piece is arranged close to the regulating type through hole, the local mass is used for penetrating the control type fluid stabilizing device into the regulating type through hole, and the local mass is used for fixing the control type fluid stabilizing device through the porous material crushed energy state regulating piece; the device is characterized in that a first coil and a first iron core are arranged in the porous material crushed energy state control piece, the first iron core is arranged in the magnetic control cavity, the first coil is sleeved on the outer side of the first iron core, a magnetic field is generated after the first coil is electrified, and the magnetic field adsorbs and fixes the local mass control type fluid stabilizing device.

The flexible porous object bearing device comprises a flexible porous object bearing piece and a porous object bearing bottom wall, the porous object bearing bottom wall is arranged on the inner bottom wall of the transport trolley, the flexible porous object bearing piece is arranged on the porous object bearing bottom wall, a porous object bearing cavity is arranged in the porous object bearing bottom wall, a coil second and an iron core second are arranged in the porous object bearing cavity, the coil second is sleeved on the outer side of the iron core second, scrap iron is arranged in the flexible porous object bearing piece, meanwhile, the flexible porous object bearing piece is made of rubber, the flexible porous object bearing piece is flexible, the flexible porous object bearing piece is internally filled with flowable scrap iron, deformation occurs under the action of the dead weight of the high-voltage power distribution cabinet, the flexible porous object bearing piece is embedded with the high-voltage power distribution cabinet, a magnetic field is generated after the coil second is electrified, the scrap iron filled in the flexible porous object bearing piece is adsorbed, the magnetic force effect is fixed, and meanwhile, the flexible porous object bearing piece can absorb the scrap iron in the transport cabinet and the high-voltage power distribution cabinet.

Preferably, the local mass is to controlling the formula fluid securing device and is including side local mass to controlling formula fluid securing component, porous garrulous formula state regulation and control atress subassembly, local mass are to controlling formula fluid securing coupling assembling and actuating assembly, side local mass is to controlling formula fluid securing coupling assembling through bolt and local mass to controlling formula fluid securing coupling assembling, porous garrulous formula state regulation and control atress subassembly is located on side local mass is controlling formula fluid securing assembly lateral wall, porous garrulous formula state regulation and control atress subassembly slope setting, porous garrulous formula state regulation and control atress subassembly inclination is the same with regulation and control formula through-hole inclination, porous garrulous formula state regulation and control atress subassembly activity is located in the regulation and control formula through-hole, porous garrulous formula state regulation and control atress subassembly in the regulation and control formula through-hole adsorbs fixedly after the coil is on, actuating assembly locates in the side local mass is controlling formula fluid securing assembly, and local mass is controlling formula fluid securing coupling assembling and is located on the high-voltage distribution outer lateral wall, fixes the high-voltage distribution cabinet through the air current of outside input, and actuating assembly's setting is convenient for drive displacement.

Further, the local mass control type fluid stable connection component comprises a local mass control type fluid stable connection component, a stable plug-in component and a fluid filling stable piece, wherein the fluid filling stable piece is arranged on the side wall of the local mass control type fluid stable connection component, a local mass control groove is formed in the upper wall of the local mass control type fluid stable connection component, the local mass control type fluid stable connection component is provided with a hollow cavity with an opening in the upper wall, the stable plug-in component is movably arranged in the local mass control groove, after the local mass control type fluid stable connection component is assembled on the side wall of the high-voltage power distribution cabinet, the local mass control groove can be filled with quicksand and other substances, the quicksand is arranged on the inner bottom wall of the local mass control groove under the action of gravity, so that the overall center is reduced, the stability of the high-voltage power distribution cabinet is facilitated, after the local mass control type fluid stable connection component reaches the destination, the jacks are formed in the local mass control type fluid stable connection component, and the jacks are arranged in a symmetrical axis manner, and the local mass control type fluid stable connection component is convenient to connect the local mass control type fluid stable connection component with the jacks.

As a further preferred aspect of the present invention, the side-type local-mass-controlled fluid stabilizing assembly includes a side-type stabilizing insert, a side-type connecting piece, a side-type local-mass-controlled fluid stabilizing member and a side-type fluid filling stabilizing member, the side-type fluid filling stabilizing member is disposed on a side wall of the side-type local-mass-controlled fluid stabilizing member, a side-type local-mass-controlled groove is disposed on an upper wall of the side-type local-mass-controlled fluid stabilizing member, such that the side-type local-mass-controlled fluid stabilizing member is disposed in a hollow cavity with an opening in an upper wall, the side-type stabilizing insert is movably disposed in the side-type local-mass-controlled groove, and when the side-type local-mass-controlled fluid stabilizing member is assembled on a side wall of the high-voltage distribution cabinet, the side-type local-mass-controlled groove can be filled with quicksand or other substances, the sand flow is arranged at the inner bottom wall of the side type local mass handle control groove under the action of gravity, so that the overall center is lowered, the stability of the high-voltage power distribution cabinet is facilitated, after the sand flow reaches a destination, the sand flow can be discharged from the side type local mass handle control type fluid stabilizing piece, a plugboard is arranged on the side type local mass handle control type fluid stabilizing piece, the plugboard is symmetrically arranged by taking the central line of the side type local mass handle control type fluid stabilizing piece as a symmetrical axis, the plugboard is movably arranged in the plugboard, after the plugboard is arranged in the plugboard, a bolt penetrates through the local mass handle control type fluid stabilizing connecting piece and the plugboard, the connection of the local mass handle control type fluid stabilizing piece and the side type local mass handle control type fluid stabilizing piece is realized, the side type connecting piece is arranged on the other side wall of the side type local mass handle control type fluid stabilizing piece, and the driving component is arranged in the side type connecting piece.

As a further preferred aspect of the present invention, the porous crushed state regulation stress component includes a porous crushed state regulation stress component and a flexible grid blocking component, the flexible grid blocking component is disposed in the porous crushed state regulation stress component, the porous crushed state regulation stress component is filled with scrap iron, the flexible grid blocking component partitions the porous crushed state regulation stress component, and is convenient for regulating the circulation condition of the scrap iron in the partition in cooperation with electromagnetic effect, the porous crushed state regulation stress component is movably disposed in the regulation type through hole, the porous crushed state regulation stress component is attached to the first coil, meanwhile, the porous crushed state regulation stress component adopts metal materials, such as aluminum, magnesium, etc., and is internally filled with flowable scrap iron, because the porous crushed state regulation stress component is obliquely disposed, when the porous crushed state regulation stress component is inserted into the regulation type through hole, the porous crushed state regulation stress component gathers at the position of the flexible grid blocking component under the action of gravity, after the first coil is electrified, a magnetic field is generated, the scrap iron is adsorbed to the scrap iron in the flexible grid blocking component, and the inside the porous crushed state regulation stress component is fixed together with the porous crushed state stress component, so as to realize the fixation of the porous crushed state regulation stress component in the regulation type through hole, and the high-voltage distribution protection is realized, and the high-voltage distribution is carried out in the regulation and the power distribution, and the vibration is protected.

Preferably, a driving cavity is arranged in the side connecting piece, and the driving assembly is arranged in the driving cavity.

As a further preferred aspect of the present invention, the driving assembly includes a hydraulic rod, a supporting member and a driving roller, the hydraulic rod is disposed on an upper wall in the driving cavity, the supporting member is disposed on a movable end of the hydraulic rod, the driving roller is movably disposed on the supporting member, after the side-type local mass handle control fluid stabilizing member and the local mass handle control fluid stabilizing connector are assembled on the high-voltage power distribution cabinet, the hydraulic rod is controlled to work, the hydraulic rod pushes the supporting member and the driving roller to extend out of the driving cavity, if the purpose of automatic driving is achieved, the outside of the driving roller can be externally connected with a motor for driving, or under the condition that no motor is provided, the high-voltage power distribution cabinet can be driven by the external driving force under the driving of the driving roller.

Further, a sliding groove is formed in the transport trolley, the driving roller is movably arranged in the sliding groove, and the sliding groove limits the driving roller.

The beneficial effects obtained by the invention by adopting the structure are as follows:

(1) The setting of flexible porous object state bearing spare to the rubber porous material adopts flexible technical means as the basement, under the effect of high-voltage distribution cabinet's dead weight, laminates the high-voltage distribution cabinet bottom through flexible deformation after, takes shape under the magnetic force effect for flexible porous object state bearing spare realizes rigid transformation from the flexibility, realizes fixing and accepting high-voltage distribution cabinet lower extreme.

(2) Meanwhile, the flexible porous type object state supporting piece is internally provided with a plurality of holes, vibration and sound energy can be absorbed in the transportation process, and the high-voltage power distribution cabinet is protected.

(3) The porous broken state regulation and control stress piece adopts a rigid technical means by taking a metal material as a substrate, takes flowing scrap iron as a medium, and realizes the technical effect of fixing the high-voltage power distribution cabinet under the control of electromagnetism by adopting a side wall rigid fixing technical mode.

(4) Meanwhile, the porous broken state regulation and control stress piece can absorb vibration and sound energy again in the transportation process, the high-voltage power distribution cabinet is protected, the damage of internal elements is reduced, and the stable transportation effect is achieved by the aid of the shock-absorbing technical scheme.

(5) The local mass principle is creatively provided, different fluids and media are filled in the side local mass handle control type fluid stabilizing component and the local mass handle control type fluid stabilizing connecting component, so that the transfer of weight and the gravity center of an object is realized, and the defect that high, heavy and large objects are easy to cause instability in the transportation and transfer process is overcome.

(6) Meanwhile, the principle of division is integrated, the fixed supporting device is divided into a side type local mass handle control type fluid stabilizing component and a local mass handle control type fluid stabilizing connecting component, and the fixation of the high-voltage power distribution cabinet is realized in a combined mode.

(7) The side type local mass handle control type fluid stabilizing component and the local mass handle control type fluid stabilizing connecting component are filled with fluid, and are connected with the high-voltage power distribution cabinet by taking atmospheric pressure as bearing force.

(8) The driving roller is movably arranged in the sliding groove, and the sliding groove is convenient for limiting the driving roller.

Drawings

Fig. 1 is a schematic structural diagram of an operation device for a porous crushed rigid-flexible energy regulation local stable high-voltage power distribution cabinet;

fig. 2 is a schematic structural diagram of a porous material crushed energy state regulating device of the porous crushed energy regulating local stable high-voltage power distribution cabinet operation equipment, which is provided by the invention;

fig. 3 is an isometric view of a flexible porous state supporting device of the operation equipment for the porous crushed type rigid-flexible energy regulation local stable high-voltage power distribution cabinet provided by the invention;

fig. 4 is a cross-sectional view of a transport cart of the operation device for the porous crushed rigid-flexible energy regulation local stable high-voltage power distribution cabinet, provided by the invention;

fig. 5 is a schematic structural diagram of a local mass handle control type fluid stabilizing device of an operation device for a porous crushed rigid-flexible energy control local stabilizing type high-voltage power distribution cabinet provided by the invention;

FIG. 6 is an isometric view of a localized mass-controlled fluid stabilizing device of the porous crushed-type locally-stabilized high-voltage power distribution cabinet operating apparatus provided by the present invention;

fig. 7 is a schematic structural diagram of a local mass handle control type fluid stable connection assembly of the porous crushed rigid-flexible energy regulation local stable type high-voltage power distribution cabinet operation equipment provided by the invention;

fig. 8 is a schematic diagram of a local structure of a local mass handle control type fluid stable connection component of the operation device for the porous crushed rigid-flexible energy regulation local stable high-voltage power distribution cabinet provided by the invention;

fig. 9 is a schematic structural diagram of a side-type local mass handle control type fluid stabilizing component of the porous crushed rigid-flexible energy regulation local stabilizing type high-voltage power distribution cabinet operation equipment provided by the invention;

fig. 10 is a cross-sectional view of a porous crushed state regulation stress assembly of the porous crushed type rigid-flexible energy regulation local stable type operation equipment for a high-voltage power distribution cabinet;

fig. 11 is a cross-sectional view of a side-type partial mass handle control type fluid stabilizing assembly of the porous crushed type rigid-flexible energy regulation partial-stabilizing type high-voltage power distribution cabinet operation equipment provided by the invention.

Wherein, 1, a high-voltage power distribution cabinet, 2, a local mass handle control type fluid stabilizing device, 3, a porous material crushed energy state regulating and controlling device, 4, a transportation mobile vehicle, 5, a flexible porous material crushed energy state supporting device, 6, a porous material crushed energy receiving piece, 7, a porous material crushed energy state regulating and controlling piece, 8, a regulating and controlling through hole, 9, a magnetic control cavity, 10, a first coil, 11, a first iron core, 13, a flexible porous material state supporting piece, 14, a porous material state supporting bottom wall, 15, a porous material state supporting cavity, 16, a second coil, 17, a second iron core, 18, a side type local mass handle control type fluid stabilizing component, 19 and a porous crushed state regulating and controlling stress component, 20, a local mass handle-control type fluid stable connecting component, 21, a driving component, 22, a local mass handle-control type fluid stable connecting component, 23, a stable plug-in component, 24, a fluid filling stabilizing component, 25, a local mass handle-control groove, 26, a jack, 27, a side-type stable plug-in component, 28 and a side-type connecting component, 29, side type partial mass handle control type fluid stabilizing pieces, 30, side type fluid filling stabilizing pieces, 31, side type partial mass handle control grooves, 32, plugboards, 33, porous broken type state regulation and control stressed pieces, 34, flexible grid blocking pieces, 35, driving cavities, 36, hydraulic rods, 37, supporting pieces, 38, driving rollers, 39, sliding grooves, 40 and scrap iron.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1 and 2, the operation device for the porous crushed rigid-flexible energy regulation local stable high-voltage power distribution cabinet provided by the invention comprises a high-voltage power distribution cabinet 1, a local mass handle-control type fluid stabilizing device 2, a porous material crushed energy state regulation device 3, a transport vehicle 4 and a flexible porous material crushed energy state supporting device 5, wherein the porous material crushed energy state regulation device 3 is arranged on two opposite side walls of the transport vehicle 4, the flexible porous material crushed energy state supporting device 5 is arranged on the inner bottom wall of the transport vehicle 4, the local mass handle-control type fluid stabilizing device 2 is movably arranged on the side wall of the high-voltage power distribution cabinet 1, and the local mass handle-control type fluid stabilizing device 2 is movably arranged in the porous material crushed energy state regulation device 3; the side wall of the high-voltage power distribution cabinet 1 is protected and fixedly supported through the local mass control type fluid stabilizing device 2, the local mass control type fluid stabilizing device 2 simultaneously realizes the falling of the gravity center through an external medium, the stability of the high-voltage power distribution cabinet 1 is facilitated, the local mass control type fluid stabilizing device 2 is combined with the porous material crushed energy state regulating and controlling device 3, the rigid porous material is matched with the scrap iron 40, the high-voltage power distribution cabinet 1 is fixed through electromagnetism, and the high-voltage power distribution cabinet 1 is matched with the scrap iron 40 through the flexible porous material, so that the fixation and the bearing are realized.

As shown in fig. 2, 3 and 4, the porous material crushed energy state regulating device 3 comprises a porous material crushed energy receiving piece 6 and a porous material crushed energy state regulating piece 7, the porous material crushed energy receiving piece 6 is arranged on two opposite side walls of the transport vehicle 4, the porous material crushed energy state regulating piece 7 is arranged in the porous material crushed energy receiving piece 6, a regulating through hole 8 and a magnetic control cavity 9 are arranged on the porous material crushed energy receiving piece 6, the magnetic control cavity 9 is arranged close to the regulating through hole 8, the regulating through hole 8 is obliquely arranged in the porous material crushed energy receiving piece 6, the porous material crushed energy state regulating piece 7 is arranged in the magnetic control cavity 9, the porous material crushed energy state regulating piece 7 is arranged close to the regulating through hole 8, the local mass is used for penetrating the controlled fluid stabilizing device 2 into the regulating through hole 8, and the local mass is used for fixing the controlled fluid stabilizing device 2 through the porous material crushed energy state regulating piece 7; the porous material crushed energy state control 7 is internally provided with a first coil 10 and a first iron core 11, the first iron core 11 is arranged in the magnetic control cavity 9, the first coil 10 is sleeved on the outer side of the first iron core 11, a magnetic field is generated after the first coil 10 is electrified, and the magnetic field adsorbs and fixes the local mass control type fluid stabilizing device 2; the flexible porous object state supporting device 5 comprises a flexible porous object state supporting piece 13 and a porous object state supporting bottom wall 14, the porous object state supporting bottom wall 14 is arranged on the inner bottom wall of the transport trolley 4, the flexible porous object state supporting piece 13 is arranged on the porous object state supporting bottom wall 14, a porous object state supporting cavity 15 is arranged in the porous object state supporting bottom wall 14, a coil II 16 and an iron core II 17 are arranged in the porous object state supporting cavity 15, the coil II 16 is sleeved on the outer side of the iron core II 17, scrap iron 40 is arranged in the flexible porous object state supporting piece 13, meanwhile, the flexible porous object state supporting piece 13 is made of rubber, the flexible porous object state supporting piece 13 is internally filled with the flowable scrap iron 40, deformation occurs under the action of dead weight of the high-voltage power distribution cabinet 1, the flexible porous object state supporting piece 13 is embedded in the high-voltage power distribution cabinet 1, a magnetic field is generated after the coil II 16 is electrified, the coil II adsorbs the filled 40 in the flexible porous object state supporting piece 13, the 40 is fixed under the action of magnetic force, and meanwhile, the flexible porous object supporting piece 13 can absorb the scrap iron 1 in the high-voltage distribution cabinet 1 in the vibration protection process.

As shown in fig. 1, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10 and fig. 11, the local mass controlled fluid stabilizing device 2 comprises a side local mass controlled fluid stabilizing component 18, a porous crushed state regulating and controlling stressed component 19, a local mass controlled fluid stabilizing connecting component 20 and a driving component 21, the side local mass controlled fluid stabilizing component 18 is connected with the local mass controlled fluid stabilizing connecting component 20 through bolts, the porous crushed state regulating and controlling stressed component 19 is arranged on the side wall of the side local mass controlled fluid stabilizing component 18, the porous crushed state regulating and controlling stressed component 19 is obliquely arranged, the inclination angle of the porous crushed state regulating and controlling stressed component 19 is the same as that of the regulated through hole 8, the porous crushed state regulating and controlling stressed component 19 is movably arranged in the regulated through hole 8, the porous crushed state regulating and controlling stressed component 19 in the regulated through hole 8 is adsorbed and fixed after the coil 10 is electrified, the driving component 21 is arranged in the side local mass controlled fluid stabilizing connecting component 18, the side local mass controlled fluid stabilizing component 18, the porous crushed state regulating and controlling stressed component 19 and the local mass stabilizing stressed component and the high-voltage distribution cabinet 1 are connected with the side wall of the high-voltage distribution cabinet, and the high-voltage distribution cabinet 1 is conveniently arranged to drive the high-voltage distribution cabinet 1; the local mass control type fluid stable connecting component 20 comprises a local mass control type fluid stable connecting piece 22, a stable plug-in piece 23 and a fluid filling stable piece 24, the fluid filling stable piece 24 is arranged on the side wall of the local mass control type fluid stable connecting piece 22, a local mass control groove 25 is formed in the upper wall of the local mass control type fluid stable connecting piece 22, the local mass control type fluid stable connecting piece 22 is arranged in a hollow cavity with an opening in the upper wall, the stable plug-in piece 23 is movably arranged in the local mass control groove 25, after the local mass control type fluid stable connecting piece 22 is assembled on the side wall of the high-voltage power distribution cabinet 1, quicksand and other substances can be filled in the local mass control groove 25, the quicksand is arranged on the inner bottom wall of the local mass control groove 25 under the action of gravity, so that the center of the whole body is lowered, the high-voltage power distribution cabinet 1 is convenient to stabilize, after the destination is reached, the quicksand can be discharged from the local mass control type fluid stable connecting piece 22, the local mass control type fluid stable connecting piece 22 is provided with a jack 26, the jack 26 is arranged in the local mass control type fluid stable connecting piece 22 to be arranged as a symmetrical axis-controlled type fluid stable connecting component, and the local mass control type fluid stable connecting component is arranged on the side of the jack type fluid stable connecting component 20, and the local mass control type fluid stable connecting component is convenient to be arranged on the side of the local mass control type fluid stable connecting component; the side type local mass control type fluid stabilizing component 18 comprises a side type stabilizing insert 27, a side type connecting piece 28, a side type local mass control type fluid stabilizing piece 29 and a side type fluid filling stabilizing piece 30, wherein the side type fluid filling stabilizing piece 30 is arranged on the side wall of the side type local mass control type fluid stabilizing piece 29, the upper wall of the side type local mass control type fluid stabilizing piece 29 is provided with a side type local mass control groove 31, so that the side type local mass control type fluid stabilizing piece 29 is arranged in a hollow cavity with an opening on the upper wall, the side type stabilizing insert 27 is movably arranged in the side type local mass control groove 31, when the side type local mass control type fluid stabilizing piece 29 is assembled on the side wall of the high-voltage distribution cabinet 1, the side type local mass control groove 31 can be filled with quicksand and other substances, the quicksand is arranged on the inner bottom wall of the side type local mass control groove 31 under the action of gravity, the center of the whole body is lowered, the stability of the high-voltage power distribution cabinet 1 is facilitated, after the high-voltage power distribution cabinet reaches a destination, quicksand can be discharged from the side type local mass control type fluid stabilizing piece 29, the side type local mass control type fluid stabilizing piece 29 is provided with a plugboard 32, the plugboard 32 is symmetrically arranged by taking the central line of the side type local mass control type fluid stabilizing piece 29 as a symmetrical axis, the plugboard 32 is movably arranged in the plugboard 26, after the plugboard 32 is arranged in the plugboard 26, a bolt penetrates through the local mass control type fluid stabilizing connecting piece 22 and the plugboard 32, the connection of the local mass control type fluid stabilizing piece 22 and the side type local mass control type fluid stabilizing piece 29 is realized, the side type connecting piece 28 is arranged on the other side wall of the side type local mass control type fluid stabilizing piece 29, and the driving component 21 is arranged in the side type connecting piece 28; the porous broken state regulation and control stress component 19 comprises a porous broken state regulation and control stress piece 33 and a flexible grid blocking piece 34, the flexible grid blocking piece 34 is arranged in the porous broken state regulation and control stress piece 33, scrap iron 40 is filled in the porous broken state regulation and control stress piece 33, the flexible grid blocking piece 34 partitions the porous broken state regulation and control stress piece 33, the electromagnetic effect is matched with the circulation condition of the scrap iron 40 in the regulation and control partition conveniently, the porous broken state regulation and control stress piece 33 is movably arranged in the regulation and control through hole 8, the porous broken state regulation and control stress piece 33 is attached to the coil I10, meanwhile, the porous broken state regulation and control stress piece 33 is made of metal materials such as aluminum, magnesium and the like, and is internally filled with flowable scrap iron 40, because the porous broken state regulation and control stress piece 33 is obliquely arranged, when the porous broken state regulation and control stress piece 33 is inserted into the regulation and control through hole 8, the scrap iron 40 is gathered at the position of the flexible grid blocking piece 34 under the action of gravity, after the coil I10 is electrified, the scrap iron 40 is adsorbed, the scrap iron 40 in the flexible grid blocking piece 34 is connected with the porous broken state regulation and control stress piece 10, the porous broken state regulation and control stress piece 33 is fixed in the porous broken state and control power distribution cabinet 1 under the action, and the high vibration and the vibration can be absorbed by the porous broken state, and the porous broken state regulation and control stress piece 33 is protected, and the high-stable in the power distribution cabinet is in the process, and the high and the vibration and the power distribution state can be protected.

As shown in fig. 11, the side connecting piece 28 is provided with a driving cavity 35, and the driving assembly 21 is arranged in the driving cavity 35; the driving assembly 21 comprises a hydraulic rod 36, a supporting piece 37 and a driving roller 38, wherein the hydraulic rod 36 is arranged on the upper wall in the driving cavity 35, the supporting piece 37 is arranged on the movable end of the hydraulic rod 36, the driving roller 38 is movably arranged on the supporting piece 37, a sliding groove 39 is arranged on the transport vehicle 4, the driving roller 38 is movably arranged in the sliding groove 39, and the sliding groove 39 carries out limit treatment on the driving roller 38; when the side partial mass handle control type fluid stabilizing piece 29 and the partial mass handle control type fluid stabilizing connecting piece 22 are assembled on the high-voltage power distribution cabinet 1, the hydraulic rod 36 is controlled to work, the hydraulic rod 36 pushes the supporting piece 37 and the driving roller 38 to extend out of the driving cavity 35, if the purpose of automatic driving is achieved, the outside of the driving roller 38 can be externally connected with a motor for driving, or under the condition of no motor, the high-voltage power distribution cabinet 1 can be driven by the driving roller 38 through external driving force.

When the high-voltage power distribution cabinet is particularly used, after the local mass control type fluid stable connecting piece 22 is assembled on the side wall of the high-voltage power distribution cabinet 1 through external force, the side local mass control type fluid stable fixing piece 29 is attached to the high-voltage power distribution cabinet 1 and is arranged, the plugboard 32 on the side local mass control type fluid stable fixing piece 29 is inserted into the plughole 26 of the local mass control type fluid stable connecting piece 22, the bolt penetrates through the local mass control type fluid stable connecting piece 22 and the plugboard 32 to be arranged, the connection of the local mass control type fluid stable connecting piece 22 and the side local mass control type fluid stable fixing piece 29 is realized, the high-voltage power distribution cabinet 1 is arranged between the local mass control type fluid stable connecting piece 22 and the side local mass control type fluid stable fixing piece 29, the side fluid filling stable fixing piece 30 and the fluid filling stable fixing piece 24 are inflated through the external air pump, and the side fluid filling stable fixing piece 24 are inflated, and the clamping and fixing of the high-voltage power distribution cabinet 1 are realized under the action of pressure; when the side type partial mass handle control type fluid stabilizing piece 29 and the partial mass handle control type fluid stabilizing connecting piece 22 are assembled on the high-voltage power distribution cabinet 1, the external key is used for controlling the hydraulic rod 36 to work, the hydraulic rod 36 pushes the supporting piece 37 and the driving roller 38 to extend out of the driving cavity 35, if the purpose of automatic driving is achieved, the outside of the driving roller 38 can be externally connected with a motor for driving, or under the condition of no motor, the high-voltage power distribution cabinet 1 can be driven by the driving roller 38 to move by external pushing force, the high-voltage power distribution cabinet 1 is moved to the position of the transportation mobile vehicle 4, the high-voltage power distribution cabinet 1 is arranged on the transportation mobile vehicle 4 by external driving force, the driving roller 38 is movably arranged in the sliding groove 39, after the multi-hole broken state control stress assembly 19 slides along the side wall of the transportation mobile vehicle 4, the hydraulic rod 36 is controlled to move downwards after the limited position of the transportation mobile vehicle 4 is reached, the multi-hole state regulation and control stressed piece 33 is inserted into the regulation and control through hole 8, the high-voltage power distribution cabinet 1 is arranged on the flexible multi-hole type object state support piece 13, scrap iron 40 is arranged in the flexible multi-hole type object state support piece 13, meanwhile, the flexible multi-hole type object state support piece 13 is made of rubber materials, certain flexibility is achieved, flowable scrap iron 40 is filled in the flexible multi-hole type object state support piece, deformation occurs under the action of the dead weight of the high-voltage power distribution cabinet 1, the high-voltage power distribution cabinet 1 is embedded into the flexible multi-hole type object state support piece 13, a magnetic field is generated after the coil II 16 is electrified, the magnetic field adsorbs the scrap iron 40 filled in the flexible multi-hole type object state support piece 13, the scrap iron 40 is shaped under the action of magnetic force, the fixation of the high-voltage power distribution cabinet 1 is achieved, and meanwhile, the flexible multi-hole type object state support piece 13 can absorb vibration and sound in the transportation process, and protect the high-voltage power distribution cabinet 1; the multi-hole broken state regulation and control stressed piece 33 is attached to the first coil 10, meanwhile, the multi-hole broken state regulation and control stressed piece 33 is made of metal, and is internally filled with flowable scrap iron 40, as the multi-hole broken state regulation and control stressed piece 33 is obliquely arranged, the scrap iron 40 is gathered at the flexible grid piece 34 under the action of gravity as the multi-hole broken state regulation and control stressed piece 33 is inserted into the regulation and control through hole 8, a magnetic field is generated after the first coil 10 is electrified, the scrap iron 40 in the flexible grid piece 34 is adsorbed, and the scrap iron 40 is fixed with the multi-hole materials in the multi-hole broken state regulation and control stressed piece 33 under the action of magnetic force, so that the fixation of the high-voltage power distribution cabinet 1 is realized, and meanwhile, the multi-hole broken state regulation and control stressed piece 33 can absorb vibration and sound in the transportation process, so as to protect the high-voltage power distribution cabinet 1; after the high-voltage power distribution cabinet 1 is fixed, the local mass handle control groove 25 can be filled with quicksand and the like or other substances, the stabilizing plug-in piece 23 is inserted into the local mass handle control groove 25, the quicksand is arranged on the bottom wall in the local mass handle control groove 25 under the action of gravity, so that the overall center is lowered, the stability of the high-voltage power distribution cabinet 1 is facilitated, after the high-voltage power distribution cabinet reaches a destination, the quicksand can be discharged from the local mass handle control fluid stabilizing connector 22, the side type local mass handle control groove 31 can be filled with the quicksand and the like or other substances, the side type stabilizing plug-in piece 27 is inserted into the side type local mass handle control groove 31, the quicksand is arranged on the bottom wall in the side type local mass handle control groove 31 under the action of gravity, the overall center is lowered, the stability of the high-voltage power distribution cabinet 1 is facilitated, and after the high-voltage power distribution cabinet reaches the destination, the quicksand can be discharged from the side type local mass handle control fluid stabilizing piece 29.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (5)

1. Porous garrulous formula energy regulation and control local firm formula high voltage distribution cabinet is with operation equipment, its characterized in that: the device comprises a high-voltage power distribution cabinet, a local mass handle control type fluid stabilizing device, a porous material crushed energy state regulating device, a transport mobile vehicle and a flexible porous material crushed energy state supporting device, wherein the porous material crushed energy state regulating device is arranged on two opposite side walls of the transport mobile vehicle, the flexible porous material crushed energy state supporting device is arranged on the inner bottom wall of the transport mobile vehicle, the local mass handle control type fluid stabilizing device is movably arranged on the side wall of the high-voltage power distribution cabinet, and the local mass handle control type fluid stabilizing device is movably arranged in the porous material crushed energy state regulating device; the porous material crushed energy state regulating device comprises a porous material crushed energy receiving piece and a porous material crushed energy state regulating piece, wherein the porous material crushed energy receiving piece is arranged on two opposite side walls of the transport trolley, the porous material crushed energy state regulating piece is arranged in the porous material crushed energy receiving piece, a regulating type through hole and a magnetic control cavity are arranged on the porous material crushed energy receiving piece, the magnetic control cavity is arranged close to the regulating type through hole, and the porous material crushed energy state regulating piece is arranged in the magnetic control cavity; the porous material crushed energy state control piece is internally provided with a first coil and a first iron core, the first iron core is arranged in the magnetic control cavity, the first coil is arranged in the magnetic control cavity, and the first coil is sleeved on the outer side of the first iron core; the flexible porous type object state supporting device comprises a flexible porous type object state supporting piece and a porous type object state supporting bottom wall, the porous type object state supporting bottom wall is arranged on the inner bottom wall of the transport vehicle, the flexible porous type object state supporting piece is arranged on the porous type object state supporting bottom wall, a porous type object state supporting cavity is arranged in the porous type object state supporting bottom wall, a second coil and a second iron core are arranged in the porous type object state supporting cavity, and the second coil is sleeved on the outer side of the second iron core; the local mass control type fluid stabilizing device comprises a side local mass control type fluid stabilizing component, a porous broken state regulation and control stress component, a local mass control type fluid stabilizing connecting component and a driving component, wherein the side local mass control type fluid stabilizing component is connected with the local mass control type fluid stabilizing connecting component through bolts, the porous broken state regulation and control stress component is arranged on the side wall of the side local mass control type fluid stabilizing component, the porous broken state regulation and control stress component is obliquely arranged, the inclination angle of the porous broken state regulation and control stress component is the same as that of the regulation type through hole, the porous broken state regulation and control stress component is movably arranged in the regulation type through hole, and the driving component is arranged in the side local mass control type fluid stabilizing component; the local mass control type fluid stable connecting component comprises a local mass control type fluid stable connecting piece, a stable plug-in piece and a fluid filling stable piece, wherein the fluid filling stable piece is arranged on the side wall of the local mass control type fluid stable connecting piece, a local mass control groove is formed in the upper wall of the local mass control type fluid stable connecting piece, the stable plug-in piece is movably arranged in the local mass control groove, the local mass control type fluid stable connecting piece is provided with a jack, and the jack is symmetrically arranged by taking the central line of the local mass control type fluid stable connecting piece as a symmetrical axis; the side type local mass control type fluid stabilizing component comprises a side type stabilizing plug-in component, a side type connecting piece, a side type local mass control type fluid stabilizing piece and a side type fluid filling stabilizing piece, wherein the side type fluid filling stabilizing piece is arranged on the side wall of the side type local mass control type fluid stabilizing piece, a side type local mass control groove is formed in the upper wall of the side type local mass control type fluid stabilizing piece, the side type stabilizing plug-in component is movably arranged in the side type local mass control groove, a plug board is arranged on the side type local mass control type fluid stabilizing piece, the plug board is symmetrically arranged by taking the center line of the side type local mass control type fluid stabilizing piece as a symmetrical axis, the plug board is movably arranged in the plug board, the side type connecting piece is arranged on the other side wall of the side type local mass control type fluid stabilizing piece, and the driving component is arranged in the side type connecting piece.

2. The porous crushed rigid-flexible energy regulation and control local stable type operation equipment for a high-voltage power distribution cabinet according to claim 1, wherein the operation equipment is characterized in that: the porous broken state regulation and control stress component comprises a porous broken state regulation and control stress piece and a flexible check piece, wherein the flexible check piece is arranged in the porous broken state regulation and control stress piece, the porous broken state regulation and control stress piece is movably arranged in a regulation and control through hole, and the porous broken state regulation and control stress piece is attached to the first coil.

3. The porous crushed rigid-flexible energy regulation and control local stable type operation equipment for a high-voltage power distribution cabinet according to claim 2, wherein the operation equipment is characterized in that: the side type connecting piece is internally provided with a driving cavity, and the driving assembly is arranged in the driving cavity.

4. The operation device for a porous crushed type rigid-flexible energy regulation and control local stable type high-voltage power distribution cabinet according to claim 3, wherein: the driving assembly comprises a hydraulic rod, a supporting piece and a driving roller, wherein the hydraulic rod is arranged on the upper wall in the driving cavity, the supporting piece is arranged on the movable end of the hydraulic rod, and the driving roller is movably arranged on the supporting piece.

5. The porous crushed rigid-flexible energy-regulating and locally-stable operating device for a high-voltage power distribution cabinet according to claim 4, wherein the operating device is characterized by: the transport mobile vehicle is provided with a chute, and the driving roller is movably arranged in the chute.