CN215866771U - Power grid optimization operation analysis equipment - Google Patents

Abstract

The utility model relates to the field of power industry, in particular to a power grid optimization operation analysis device, which comprises a first frame body, a second frame body and a heat dissipation plate, wherein the first frame body is provided with a first opening; a second frame body is arranged on one side of the first frame body, and a heat dissipation plate is arranged above the second frame body; a dismounting assembly is arranged between the first frame body and the second frame body and comprises an upper mounting frame, a lower mounting frame and a clamping block; an upper mounting frame is arranged above the first frame body and the second frame body, and a lower mounting frame is arranged below the first frame body and the second frame body; clamping blocks are fixedly connected to two sides of the inner wall of the upper mounting frame and the inner wall of the lower mounting frame, and clamping grooves are formed in the outer wall of the first frame body and the outer wall of the heat dissipation plate; through separating between first framework and the second framework, clear up impurity such as the inside dust of second framework, when device internals damaged, can in time maintain simultaneously, ensured the holistic result of use of device.

Description

Power grid optimization operation analysis equipment

Technical Field

The utility model relates to the field of power industry, in particular to a power grid optimization operation analysis device.

Background

The power grid is formed into a national or regional network by connecting the adjacent power transmission substations, so that unified management is facilitated, the specified power quality is ensured, and the maximum economic benefit is obtained.

With the rapid development of the power industry, the capacity of the power grid is gradually increased, and during communication, the electric wire is detected by using the power grid optimization operation analysis equipment, so that the detection process is more convenient.

When the existing power grid optimization operation analysis equipment works, a heat dissipation net is installed to dissipate heat of parts in work so as to ensure normal operation of the equipment, but when the equipment is used for a long time, impurities such as dust and the like are easily generated in the equipment, and because the equipment is fixedly installed, the dust in the equipment cannot be cleaned in time, after the equipment is used for a long time, the interior of the heat dissipation net is easily blocked, so that the normal operation of the equipment is influenced, and certain loss is caused; therefore, the power grid optimization operation analysis device is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

In order to make up for the defects of the prior art and solve the problem that dust in equipment cannot be cleaned in time, the utility model provides a power grid optimization operation analysis device.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model relates to a power grid optimization operation analysis device which comprises a first frame body, a second frame body and a heat dissipation plate, wherein the first frame body is provided with a first opening; a second frame body is arranged on one side of the first frame body, and a heat dissipation plate is arranged above the second frame body;

a dismounting assembly is arranged between the first frame body and the second frame body and comprises an upper mounting frame, a lower mounting frame and a clamping block; an upper mounting frame is arranged above the first frame body and the second frame body, and a lower mounting frame is arranged below the first frame body and the second frame body; clamping blocks are fixedly connected to two sides of the inner wall of the upper mounting frame and the inner wall of the lower mounting frame, clamping grooves are formed in the outer wall of the first frame body and the outer wall of the heat dissipation plate, and the clamping blocks are inserted into the matched clamping grooves; inner grooves are formed in the front side and the rear side of the bottom end of the upper mounting frame, and first sliding rails are arranged on the two sides of each inner groove; stabilizing sliding blocks are connected inside the first sliding rail in a sliding mode, trapezoidal rods are fixedly connected between the two groups of stabilizing sliding blocks, trapezoidal grooves are formed in the front side and the rear side of the top end of the lower mounting frame, and the trapezoidal rods are inserted into the matched trapezoidal grooves; all be provided with spacing spring between inside groove and the trapezoidal pole, impurity such as the inside dust of second framework is cleared up more conveniently, prevents that internals from receiving the damage.

Preferably, the outer wall at both ends all the joint has the firm board around going up the installing frame, firm board bottom rigid coupling has firm pole, the firm groove has all been seted up to trapezoidal pole inside, and firm pole all inserts and establish inside the assorted firm inslot, has further improved the steadiness of going up the installing frame and installing frame down after the installation.

Preferably, the inner walls of the stabilizing grooves are fixedly connected with fixing blocks, and the upper ends and the lower ends of the fixing blocks are provided with rubber rolling balls through bearings; the fixing block and the rubber rolling ball are inserted into the matched notches, so that the fixing effect of the device in the installation process is further improved.

Preferably, the inner walls of the upper mounting frame and the lower mounting frame are both glued with two groups of rubber bumps, and the other ends of the rubber bumps are mutually attached to the outer surfaces of the first frame body and the heat dissipation plate, so that the device is protected in the mounting process.

Preferably, the outer sides of the first frame body and the second frame body are both provided with a protection assembly, the protection assembly comprises a protection angle frame, a second slide rail and a triangular block, the outer sides of the first frame body and the second frame body are both provided with the protection angle frame, the outer walls of the first frame body and the second frame body are both provided with the second slide rail, the upper end and the lower end of the second slide rail are both connected with a limit slide block in a sliding manner, the inner wall of the protection angle frame is fixedly connected with a T-shaped block, the T-shaped block is both provided with two groups of hinge rods through bearings, and the other side of each hinge rod is arranged on the corresponding limit slide block through a bearing; two sets of all be provided with reset spring between the spacing slider, prevent when receiving the collision, the easy emergence wearing and tearing phenomenon of corner, influence the internals running state when causing device surface damage.

Preferably, movable frames are arranged outside the hinged rods, T-shaped rods are movably arranged inside the movable frames, and the other sides of the T-shaped rods are fixedly connected to the outer walls of the hinged rods; all be provided with buffer spring between activity frame and the T shape pole, buffer spring surface all fixed mounting has three hornblocks, further carries out cushioning effect to the extrusion force that receives.

Preferably, all there is the gyro wheel through bearing movable mounting on the triangle piece, and the opposite side and the mutual laminating of protection angle frame inner wall of gyro wheel, have improved the smooth and easy nature of device at the removal in-process.

Preferably, the outer surfaces of the triangular blocks are all glued with positioning blocks, and the other sides of the positioning blocks are attached to the inner surfaces of the protective corner frames, so that the overall effect of the device in the use process is ensured.

The utility model has the advantages that:

1. after the stabilizing plate is detached, the trapezoidal rod is pulled upwards to drive the stabilizing slide block to slide in the first slide rail, the limiting spring is extruded, so that the trapezoidal rod is separated from a locking state between the trapezoidal grooves, the upper installation frame is pulled upwards to separate the clamping block from a clamping state between the clamping block and the clamping groove, the lower installation frame is pulled downwards to separate the lower installation frame from a clamping state at the joint between the lower installation frame and the first frame body and the second frame body, impurities such as dust and the like in the second frame body are cleaned by separating the first frame body from the second frame body, and meanwhile when parts in the device are damaged, the maintenance can be carried out in time, and the integral using effect of the device is ensured;

2. when the protection angle frame receives the extrusion force, drive spacing slider to sliding to the one end of keeping away from the T-shaped piece on the second slide rail, thereby it is tensile to reset spring, because the effect of bearing installation, drive the hinge bar simultaneously and remove to the one end of keeping away from the T-shaped piece, T-shaped pole is moved about in the activity frame inside this moment, the gyro wheel rolls along protection angle frame inner wall this moment at the in-process that the hinge bar removed, to the buffer spring extrusion, make buffer spring and reset spring take place elastic deformation back reconversion, carry out cushioning effect through the effort that receives first framework and second framework outer wall, prevent when receiving the collision, the wearing and tearing phenomenon takes place easily in the corner, influence the inside part running state when causing device surface damage.

Drawings

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

FIG. 1 is a perspective view of a first embodiment;

FIG. 2 is a schematic side sectional view illustrating a first embodiment of the present invention;

FIG. 3 is a schematic cross-sectional front view illustrating a structure of the first embodiment;

FIG. 4 is an enlarged schematic view of a portion A of FIG. 2 according to an embodiment;

FIG. 5 is an enlarged schematic view of a portion B of FIG. 3 according to an embodiment;

fig. 6 is a schematic partial cross-sectional view of the second embodiment.

In the figure: 1. a first frame body; 2. a second frame body; 3. a heat dissipation plate; 4. mounting a frame; 401. a lower mounting frame; 402. a clamping block; 403. a card slot; 404. an inner tank; 405. a first slide rail; 406. stabilizing the slide block; 407. a trapezoidal bar; 408. a trapezoidal groove; 409. a limiting spring; 410. a rubber bump; 5. a stabilizing plate; 501. a stabilizing rod; 502. a stabilizing groove; 503. a fixed block; 504. a rubber rolling ball; 505. a notch; 506. a pull ring; 507. a guard ring; 6. a protective corner frame; 601. a second slide rail; 602. a limiting slide block; 603. a hinged lever; 604. a T-shaped block; 605. a movable frame; 606. a T-shaped rod; 607. a buffer spring; 608. a triangular block; 610. a roller; 611. a return spring; 612. and (5) positioning the blocks.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1 to 5, a power grid optimization operation analysis apparatus includes a first frame 1, a second frame 2, and a heat dissipation plate 3; a second frame body 2 is arranged on one side of the first frame body 1, and a heat dissipation plate 3 is arranged above the second frame body 2;

a dismounting assembly is arranged between the first frame body 1 and the second frame body 2, and comprises an upper mounting frame 4, a lower mounting frame 401 and a fixture block 402; an upper mounting frame 4 is arranged above the first frame body 1 and the second frame body 2, and a lower mounting frame 401 is arranged below the first frame body 1 and the second frame body 2; clamping blocks 402 are fixedly connected to two sides of the inner walls of the upper mounting frame 4 and the lower mounting frame 401, clamping grooves 403 are formed in the outer walls of the first frame body 1 and the heat dissipation plate 3, and the clamping blocks 402 are inserted into the matched clamping grooves 403; inner grooves 404 are formed in the front side and the rear side of the bottom end of the upper mounting frame 4, and first sliding rails 405 are arranged on the two sides of each inner groove 404; stabilizing sliding blocks 406 are connected inside the first sliding rail 405 in a sliding manner, trapezoidal rods 407 are fixedly connected between the two groups of stabilizing sliding blocks 406, trapezoidal grooves 408 are formed in the front side and the rear side of the top end of the lower mounting frame 401, and the trapezoidal rods 407 are inserted into the matched trapezoidal grooves 408; a limiting spring 409 is arranged between the inner groove 404 and the trapezoidal rod 407; when the heat dissipation plate works, dust is easily accumulated on the heat dissipation plate 3 due to the fact that the heat dissipation plate 3 is arranged outside for too long time, due to the fact that the heat dissipation plate 3 and the inside of the second frame body 2 are designed to penetrate through, after the dust is accumulated for a long time, impurities such as dust and the like are generated inside the second frame body 2, circuit connection is affected, and meanwhile, machine damage is caused, when the stabilizing rod 501 is separated from the locking state between the stabilizing grooves 502, the stabilizing slide block 406 is driven to slide inside the first slide rail 405 by upwards pulling the trapezoidal rod 407 under acting force, due to the integral structure design, in the process that the stabilizing slide block 406 moves, the whole trapezoidal rod 407 is driven to move upwards to extrude the limiting spring 409, so that the trapezoidal rod 407 is separated from the locking state between the trapezoidal grooves 408, the mounting frame 4 is pulled upwards at the moment, and under the action of force, the clamping block 402 is driven to be separated from the clamping state between the clamping groove 403, the installation frame 401 is pulled down, so that the installation frame 401 is separated from the clamping state of the joint of the first frame body 1 and the second frame body 2, the first frame body 1 and the second frame body 2 can be separated at the moment, impurities such as dust in the second frame body 2 can be cleaned, meanwhile, when parts in the device are damaged, the maintenance can be carried out in time, and the integral using effect of the device is ensured.

The outer walls of the front end and the rear end of the upper mounting frame 4 are clamped with stabilizing plates 5, the bottom ends of the stabilizing plates 5 are fixedly connected with stabilizing rods 501, stabilizing grooves 502 are formed in the trapezoidal rods 407, and the stabilizing rods 501 are inserted in the matched stabilizing grooves 502; the during operation, through pulling firm board 5 to the outside, under the effort, drive firm board 5 and carry out the in-process that removes, drive firm pole 501 and remove, when firm pole 501 carries out the in-process that moves about in firm inslot 502 inside, because the effect of bearing installation, drive rubber spin 504 and roll at the in-process that firm pole 501 removed, thereby extrude rubber spin 504, make rubber spin 504 take place deformation, thereby make fixed block 503 and rubber spin 504 break away from and notch 505 between the block state, drive firm pole 501 simultaneously break away from and the firm locking between the inslot 502, when firm board 5 is in the mounted state, the steadiness of installing frame 4 and lower installing frame 401 after the installation has further been improved.

The inner walls of the stabilizing grooves 502 are fixedly connected with fixing blocks 503, and the upper ends and the lower ends of the fixing blocks 503 are provided with rubber rolling balls 504 through bearings; notches 505 are formed in the stabilizing rods 501, and the fixing blocks 503 and the rubber rolling balls 504 are inserted into the matched notches 505; the during operation, when the firm pole 501 carries out the in-process that moves about in firm groove 502 inside, because the effect of bearing installation, drive rubber spin 504 and roll at the in-process that firm pole 501 removed, thereby extrude rubber spin 504, make rubber spin 504 take place deformation, thereby make fixed block 503 and rubber spin 504 break away from and notch 505 between the block state, when fixed block 503 and rubber spin 504 are inserted and are established notch 505 inside, the firm effect of device in the installation has further been improved.

Two groups of rubber bumps 410 are glued on the inner walls of the upper mounting frame 4 and the lower mounting frame 401, and the other ends of the rubber bumps 410 are mutually attached to the outer surfaces of the first frame body 1 and the heat dissipation plate 3; during operation, after the upper mounting frame 4 and the lower mounting frame 401 are mounted, the rubber bump 410, the first frame body 1 and the outer surface of the heat dissipation plate 3 are attached to each other, the device is protected in the mounting process, and meanwhile, the stabilizing effect after the upper mounting frame 4 and the lower mounting frame 401 are mounted is improved.

The outer sides of the first frame body 1 and the second frame body 2 are both provided with a protection assembly, the protection assembly comprises a protection angle frame 6, a second slide rail 601 and a triangular block 608, the outer sides of the first frame body 1 and the second frame body 2 are both provided with the protection angle frame 6, the outer walls of the first frame body 1 and the second frame body 2 are both provided with the second slide rail 601, the upper end and the lower end of the second slide rail 601 are both connected with a limiting slide block 602 in a sliding manner, the inner wall of the protection angle frame 6 is fixedly connected with a T-shaped block 604, two groups of hinge rods 603 are arranged on the T-shaped block 604 through bearings, and the other sides of the hinge rods 603 are arranged on the matched limiting slide blocks 602 through bearings; a return spring 611 is arranged between the two groups of limiting sliding blocks 602; when the analysis device works, when the analysis device collides in the transportation process, the protection angle frame 6 is extruded, when the protection angle frame 6 is extruded, due to the effect of internal sliding, the limiting slide block 602 is driven to slide on the second slide rail 601 to one end far away from the T-shaped block 604, so that the reset spring 611 is stretched, due to the effect of bearing installation, the hinge rod 603 is driven to move to one end far away from the T-shaped block 604, at the moment, the T-shaped rod 606 moves in the movable frame 605, the roller 610 rolls along the inner wall of the protection angle frame 6 during the moving process of the hinge rod 603, the buffer spring 607 is extruded, so that the buffer spring 607 and the reset spring 611 are elastically deformed and then return to the original state, the acting force on the outer walls of the first frame body 1 and the second frame body 2 is buffered, thereby preventing the phenomenon of abrasion easily occurring at corners when the analysis device is collided, the damage to the surface of the device is caused and the operation state of the internal parts is influenced.

The outer parts of the hinged rods 603 are all provided with movable frames 605, T-shaped rods 606 are movably arranged in the movable frames 605, and the other sides of the T-shaped rods 606 are fixedly connected to the outer walls of the hinged rods 603; a buffer spring 607 is arranged between the movable frame 605 and the T-shaped rod 606, and the outer surface of the buffer spring 607 is fixedly provided with a triangular block 608; during operation, move to the one end of keeping away from T-shaped piece 604 at articulated pole 603, T-shaped piece 606 moves about in activity frame 605 inside this moment, extrudees buffer spring 607 for buffer spring 607 takes place elastic deformation reconversion, further carries out cushioning effect to the extrusion force that receives.

The triangular blocks 608 are movably provided with rollers 610 through bearings, and the other sides of the rollers 610 are attached to the inner walls of the protective corner frames 6; during operation, in the moving process of the hinge rod 603, due to the effect of bearing installation, the roller 610 rolls along the inner wall of the protection angle frame 6, and the smoothness of the device in the moving process is improved.

The outer surfaces of the triangular blocks 608 are glued with positioning blocks 612, and the other sides of the positioning blocks 612 are mutually attached to the inner surfaces of the protective corner frames 6; during operation, when the roller 610 moves along the inner wall of the protection corner frame 6, the positioning block 612 is driven to move along the inner wall of the protection corner frame 6, so that the accuracy of the device in the moving process is ensured, and the overall effect of the device in the using process is ensured.

Example two

Referring to fig. 6, in a first comparative example, as another embodiment of the present invention, pull rings 506 are fixedly installed on outer surfaces of the stabilizing plate 5, protective rings 507 are glued to inner walls of the pull rings 506, and the protective rings 507 are made of rubber; the during operation, stimulates through holding pull ring 506, because integral type structural design, when pull ring 506 removes, drives firm board 5 and removes, has ensured the convenience of device in operation process, and hand and guard ring 507 laminate each other simultaneously, have increased the frictional force after the contact of contact hand, prevent that the hand from taking place the phenomenon of skidding in operation process, have ensured the result of use of device in operation process.

The working principle is that the stabilizing plate 5 is pulled outwards, the stabilizing rod 501 is driven to move in the process of driving the stabilizing plate 5 to move under the action of an acting force, when the stabilizing rod 501 moves in the stabilizing groove 502, the rubber rolling ball 504 is driven to roll in the process of moving the stabilizing rod 501 due to the action of bearing installation, so that the rubber rolling ball 504 is extruded, the rubber rolling ball 504 is deformed, the fixing block 503 and the rubber rolling ball 504 are separated from the clamping state with the notch 505, the stabilizing rod 501 is driven to be separated from the locking state with the stabilizing groove 502, when the stabilizing plate 5 is in the installation state, the stability of the upper installation frame 4 and the lower installation frame 401 after installation is further improved, dust accumulation on the heat dissipation plate 3 is easily caused due to the long external time of the heat dissipation plate 3, and the inner part of the heat dissipation plate 3 and the second frame body 2 are designed to be penetrated, after long-term dust accumulation, impurities such as dust and the like are generated in the second frame body 2, the circuit connection is affected, and meanwhile, the machine is damaged, when the stabilizing rod 501 is separated from the locking state between the stabilizing grooves 502, the trapezoidal rod 407 is pulled upwards at the moment, the stabilizing sliding block 406 is driven to slide in the first sliding rail 405 under the action of force, due to the integral structure design, in the process that the stabilizing sliding block 406 moves, the trapezoidal rod 407 is driven to move upwards integrally, the limiting spring 409 is extruded, so that the trapezoidal rod 407 is separated from the locking state between the trapezoidal grooves 408, the upper mounting frame 4 is pulled upwards at the moment, the clamping block 402 is driven to be separated from the clamping state between the clamping groove 403 under the action of force, the mounting frame 401 is pulled downwards, the lower mounting frame 401 is separated from the clamping state at the joint between the first frame body 1 and the second frame body 2, at the moment, the first frame body 1 and the second frame body 2 can be separated, impurities such as dust in the second frame body 2 are cleaned, and meanwhile, when parts in the device are damaged, the device can be maintained in time, and the overall using effect of the device is ensured.

When the analysis equipment collides in the transportation process, the protective angle frame 6 is extruded, when the protective angle frame 6 is extruded, due to the internal sliding action, the limiting slide block 602 is driven to slide on the second slide rail 601 to the end far away from the T-shaped block 604, so as to stretch the return spring 611, due to the effect of the bearing installation, the hinge rod 603 is driven to move towards the end far away from the T-shaped block 604, at the moment, the T-shaped rod 606 moves in the movable frame 605, the roller 610 rolls along the inner wall of the shield angular frame 6 at this time during the movement of the hinge lever 603, the buffer spring 607 is pressed, so that the buffer spring 607 and the return spring 611 are restored to the original state after being elastically deformed, the acting force on the outer walls of the first frame body 1 and the second frame body 2 is buffered, thereby preventing the first frame body and the second frame body from being collided, the corner takes place wearing and tearing phenomenon easily, influences the internals running state when causing device surface damage.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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

Claims (8)

1. An operation analytical equipment is optimized to electric wire netting which characterized in that: comprises a first frame body (1), a second frame body (2) and a heat dissipation plate (3); a second frame body (2) is arranged on one side of the first frame body (1), and a heat dissipation plate (3) is arranged above the second frame body (2);

a dismounting assembly is arranged between the first frame body (1) and the second frame body (2), and comprises an upper mounting frame (4), a lower mounting frame (401) and a fixture block (402); an upper mounting frame (4) is arranged above the first frame body (1) and the second frame body (2), and a lower mounting frame (401) is arranged below the first frame body (1) and the second frame body (2); clamping blocks (402) are fixedly connected to two sides of the inner walls of the upper mounting frame (4) and the lower mounting frame (401), clamping grooves (403) are formed in the outer walls of the first frame body (1) and the heat dissipation plate (3), and the clamping blocks (402) are inserted into the matched clamping grooves (403); inner grooves (404) are formed in the front side and the rear side of the bottom end of the upper mounting frame (4), and first sliding rails (405) are arranged on the two sides of each inner groove (404); stabilizing sliding blocks (406) are connected inside the first sliding rail (405) in a sliding manner, trapezoidal rods (407) are fixedly connected between the two groups of stabilizing sliding blocks (406), trapezoidal grooves (408) are formed in the front side and the rear side of the top end of the lower mounting frame (401), and the trapezoidal rods (407) are inserted into the matched trapezoidal grooves (408); and a limiting spring (409) is arranged between the inner groove (404) and the trapezoidal rod (407).

2. The power grid optimization operation analysis device according to claim 1, wherein: the outer wall at both ends all the joint has firm board (5) around going up installing frame (4), firm pole (501) are connected to firm board (5) bottom rigid coupling, firm groove (502) have all been seted up to trapezoidal pole (407) inside, and firm pole (501) all insert and establish inside assorted firm groove (502).

3. The power grid optimization operation analysis device according to claim 2, wherein: the inner walls of the stabilizing grooves (502) are fixedly connected with fixing blocks (503), and the upper end and the lower end of each fixing block (503) are provided with rubber rolling balls (504) through bearings; notches (505) are formed in the stabilizing rods (501), and the fixing blocks (503) and the rubber rolling balls (504) are inserted into the notches (505) which are matched with each other.

4. The power grid optimization operation analysis device according to claim 3, wherein: two groups of rubber bumps (410) are glued to the inner walls of the upper mounting frame (4) and the lower mounting frame (401), and the other ends of the rubber bumps (410) are attached to the outer surfaces of the first frame body (1) and the heat dissipation plate (3).

5. The power grid optimization operation analysis device according to claim 4, wherein: the protective device comprises a first frame body (1) and a second frame body (2), wherein protective components are arranged on the outer sides of the first frame body (1) and the second frame body (2), each protective component comprises a protective angle frame (6), a second sliding rail (601) and a triangular block (608), the outer sides of the first frame body (1) and the second frame body (2) are provided with the protective angle frames (6), the outer walls of the first frame body (1) and the second frame body (2) are provided with the second sliding rails (601), the upper end and the lower end of each second sliding rail (601) are connected with a limiting sliding block (602) in a sliding mode, the inner wall of each protective angle frame (6) is fixedly connected with a T-shaped block (604), the T-shaped block (604) is provided with two groups of hinged rods (603) through bearings, and the other side of each hinged rod (603) is arranged on the corresponding limiting sliding block (602) through a bearing; and a return spring (611) is arranged between the two groups of limiting sliding blocks (602).

6. The power grid optimization operation analysis device according to claim 5, wherein: the outer parts of the hinged rods (603) are provided with movable frames (605), T-shaped rods (606) are movably arranged in the movable frames (605), and the other sides of the T-shaped rods (606) are fixedly connected to the outer walls of the hinged rods (603); buffer springs (607) are arranged between the movable frame (605) and the T-shaped rod (606), and triangular blocks (608) are fixedly mounted on the outer surfaces of the buffer springs (607).

7. The power grid optimization operation analysis device according to claim 6, wherein: all there is gyro wheel (610) through bearing movable mounting on the triangle piece (608), and the opposite side and the interior wall of protection angle frame (6) of gyro wheel (610) laminate each other.

8. The power grid optimization operation analysis device according to claim 7, wherein: the outer surfaces of the triangular blocks (608) are glued with positioning blocks (612), and the other sides of the positioning blocks (612) are mutually attached to the inner surfaces of the protective corner frames (6).

Images