CN113314986A - Indoor high voltage distribution cabinet antidetonation frame with prevent empting function - Google Patents

Abstract

The invention relates to a power distribution cabinet anti-seismic frame, in particular to an indoor high-voltage power distribution cabinet anti-seismic frame with an anti-toppling function, which comprises a base, a bottom buffering and damping assembly, a swinging triggering assembly, a gravity stabilizing assembly and the like; be equipped with bottom buffering damper assembly on the base, be equipped with the swing on the bottom buffering damper assembly and trigger the subassembly, the subassembly is stabilized to gravity is located on the bottom buffering damper assembly. Through the cooperation of fixed arc frame and removal supporting shoe and device above that, when this equipment fixing was in the eminence, under the guide effect of fixed arc frame and the effect of earth's heart gravity, it can be perpendicular with the level to remove the supporting shoe and device above that to prevent to place the frame and empty, and then reduce the potential safety hazard that the high voltage distribution cabinet of placing in the frame falls out and cause, reached and can slow down effectively that the earthquake leads to the fact rocking in order to reduce the effect of the loss that the earthquake brought to the high voltage distribution cabinet of placing in the frame.

Description

Indoor high voltage distribution cabinet antidetonation frame with prevent empting function

Technical Field

The invention relates to a power distribution cabinet anti-seismic frame, in particular to an indoor high-voltage power distribution cabinet anti-seismic frame with an anti-toppling function.

Background

The high-voltage power distribution cabinet is a cabinet used for power generation, power transmission, power distribution and electric energy of a power system, mainly comprises a high-voltage circuit breaker, a high-voltage isolating switch, a grounding switch, a high-voltage load switch and a high-voltage automatic reclosing and segmenting device, and the high-voltage switch manufacturing industry is an important component of the power transmission and transformation equipment manufacturing industry and plays an important role in the whole power industry, so that the high-voltage power distribution cabinet is widely applied.

High voltage distribution cabinet is generally bulky, and when taking place the earthquake, current high voltage distribution cabinet emptys easily, causes certain potential safety hazard, and current high voltage distribution cabinet does not have emergent fixed function, leads to high voltage distribution cabinet when the earthquake takes place to drop easily, and follow-up need expend time and maintain high voltage distribution cabinet, has increased the loss that the earthquake brought, has greatly reduced the user and has used the experience of high voltage distribution cabinet in-process and feel.

Disclosure of Invention

Based on this, it is necessary to provide one kind can prevent that high voltage distribution cabinet from empting in order to protect it, can slow down effectively that the earthquake leads to the fact to high voltage distribution cabinet rocks with the loss that reduces the earthquake and bring the indoor high voltage distribution cabinet antidetonation frame that has of preventing empting function to the problem of the rocking that can not prevent high voltage distribution cabinet from empting, can't slow down the earthquake and lead to the fact to high voltage distribution cabinet that provides in the above-mentioned background art.

The technical scheme is as follows: the utility model provides an indoor high voltage distribution cabinet antidetonation frame with prevent empting function, is equipped with bottom buffering damper assembly on the base including base, bottom buffering damper assembly, swing trigger assembly and gravity stabilizing assembly, is equipped with the swing on the bottom buffering damper assembly and triggers the subassembly, and gravity stabilizing assembly locates on the bottom buffering damper assembly.

Further, the bottom buffering and damping component comprises an L-shaped frame, a placing plate, a damping spring, a fixed block and a bracket, the movable block, the activity round bar, the fixed frid, place the frame, fixed arc frame and removal supporting shoe, be equipped with two pairs of L shape framves on the base, the resettlement plate has cup jointed jointly between two pairs of L shape framves, the resettlement plate bottom is provided with three pairs of circular slots, be connected with damping spring between L shape frame and the resettlement plate, the coupling of base top has three pairs of fixed blocks, fixed block and resettlement plate slidingtype cooperation, the hookup of resettlement plate top has a pair of support, the movable block sliding type is connected on the support, the rotation type is connected with the activity round bar on the movable block, the sliding type is connected with the fixed frid on the activity round bar, the frame is placed in the hookup jointly between two fixed frids, the hookup of resettlement plate top has a pair of fixed arc frame, it has a pair of removal supporting shoe to place the sliding type connection on the frame, remove supporting shoe and fixed arc frame slidingtype cooperation.

Further, the swing triggers the subassembly including fixed push rod, the transverse bar, horizontal backup pad, the gim peg, clamping bar, torsion spring one, settle the bolt, the swinging arms, torsion spring two and pouring weight, the hookup of base both sides has fixed push rod, the hookup has the transverse bar on the support, the hookup has horizontal backup pad on the support, the hookup has a pair of gim peg on the transverse bar, the last pivoted type of gim peg is connected with clamping bar, be connected with torsion spring one between clamping bar and the transverse bar, the hookup has a pair of settling to tie in the horizontal backup pad, the pivoted type of settling to tie is connected with the swinging arms, be connected with torsion spring two between swinging bar and the horizontal backup pad, the pouring weight has been placed in the horizontal backup pad, the pouring weight contacts with clamping bar.

Furthermore, the gravity stabilizing assembly comprises a fixed rod, a sliding plate and a supporting spring, the fixed rod is connected to the fixed arc-shaped frame and is connected with the support, the sliding plate is connected to the fixed rod in a sliding mode, and the supporting spring is connected between the sliding plate and the fixed arc-shaped frame.

Further, still including gravity clamping component, on gravity clamping component located bottom buffering damper assembly, gravity clamping component includes the limiting plate, the U-shaped pole, the clamp plate, the bottom baffle, compression spring and top baffle, it has two pairs of limiting plates to place the hookup on the frame, it has a pair of U-shaped pole to place slidable connection on the frame, the hookup has the clamp plate on the U-shaped pole, it has a pair of bottom baffle to place slidable connection on the frame, the bottom baffle with place and be connected with compression spring between the frame, hookup commonly has the top baffle between two U-shaped poles, the top baffle with place the frame contact.

Furthermore, the device also comprises a tension spring, and a pair of tension springs is connected between the placing frame and the placing plate.

The beneficial effects are that:

through the cooperation of top baffle and bottom baffle, top baffle and bottom baffle will place the high voltage distribution cabinet restriction of frame and live for place the high voltage distribution cabinet of frame and can not drop, thereby can prevent to place the high voltage distribution cabinet of frame and empty and fall out, reached and can prevent to place the high voltage distribution cabinet of frame and empty the effect that falls out.

Through the cooperation of fixed arc frame and removal supporting shoe and device above that, when this equipment fixing was in the eminence, under the guide effect of fixed arc frame and the effect of earth's heart gravity, it can be perpendicular with the level to remove the supporting shoe and device above that to prevent to place the frame and empty, and then reduce the potential safety hazard that the high voltage distribution cabinet of placing in the frame falls out and cause, reached and can slow down effectively that the earthquake leads to the fact rocking in order to reduce the effect of the loss that the earthquake brought to the high voltage distribution cabinet of placing in the frame.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic view of a first partially assembled body of the bottom cushioning shock assembly of the present invention.

FIG. 4 is a schematic view of a second partial body structure of the bottom cushion shock assembly of the present invention.

FIG. 5 is a perspective view of the bottom cushioning shock assembly of the present invention.

Fig. 6 is a schematic perspective view of a portion of the swing trigger assembly of the present invention.

Fig. 7 is an enlarged perspective view of the present invention a.

Fig. 8 is a perspective view of the gravity stabilizing assembly of the present invention.

Fig. 9 is a partial perspective view of the present invention.

Fig. 10 is a schematic perspective view of an enlarged portion of the present invention B.

Reference numerals: 1_ base, 2_ bottom buffer damping element, 21_ L-shaped frame, 22_ setting plate, 23_ damping spring, 24_ fixed block, 25_ bracket, 26_ moving block, 27_ moving round bar, 28_ fixed groove plate, 29_ setting frame, 210_ fixed arc frame, 211_ moving support block, 3_ swing trigger element, 31_ fixed push rod, 32_ transverse bar, 33_ transverse support plate, 34_ fixed bolt, 35_ clamping bar, 36_ torsion spring one, 37_ setting bolt, 38_ swing rod, 39_ torsion spring two, 310_ weight, 4_ gravity stabilizing element, 41_ fixed rod, 42_ sliding plate, 43_ supporting spring, 5_ gravity clamping element, 51_ limiting plate, 52_ U-shaped bar, 53_ pressing plate, 54_ bottom blocking plate, 55_ compression spring, 56_ top blocking plate, 6_ tension spring.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example (b): the utility model provides an indoor high voltage distribution cabinet antidetonation frame with prevent empting function, as shown in fig. 1-10, including base 1, bottom buffering damper assembly 2, swing trigger assembly 3 and gravity stabilizing assembly 4, be equipped with bottom buffering damper assembly 2 on the base 1, bottom buffering damper assembly 2 is used for the high voltage distribution cabinet of preliminary protection in placing frame 29, be equipped with swing trigger assembly 3 on the bottom buffering damper assembly 2, gravity stabilizing assembly 4 is located on bottom buffering damper assembly 2, gravity stabilizing assembly 4 is used for increasing the stability of placing frame 29 and device on it.

The bottom buffering and damping component 2 comprises an L-shaped frame 21, a placing plate 22, a damping spring 23, a fixing block 24, a support 25, a moving block 26, a movable round bar 27, a fixed groove plate 28, a placing frame 29, a fixed arc-shaped frame 210 and a movable supporting block 211, wherein two pairs of L-shaped frames 21 are arranged on the base 1, the placing plate 22 is sleeved between the two pairs of L-shaped frames 21, three pairs of circular grooves are arranged at the bottom of the placing plate 22, the damping spring 23 is connected between the L-shaped frames 21 and the placing plate 22, the base 1 can slide at the bottom of the placing plate 22 through the matching of the damping spring 23, the L-shaped frames 21 and the devices on the L-shaped frames, the three pairs of fixing blocks 24 are connected at the top of the base 1, the fixing blocks 24 are in sliding fit with the placing plate 22, the pair of supports 25 are connected at the top of the placing plate 22, the moving block 26 is in sliding connection with the support 25, the movable round bar 27 is in rotating connection with the moving block 26, the fixed groove plate 28 is in sliding connection with the movable round bar 27, under the action of the bracket 25 and the fixed slot plates 28, the fixed rod 41 and the upper device thereof can swing by taking the movable round rod 27 as the center, the placing frame 29 is jointly connected between the two fixed slot plates 28, the top of the placing plate 22 is connected with a pair of fixed arc-shaped frames 210, under the guide action of the fixed arc-shaped frames 210 and the action of gravity, the movable supporting blocks 211 and the upper device thereof can be vertical to the horizontal, the placing frame 29 is connected with a pair of movable supporting blocks 211 in a sliding mode, and the movable supporting blocks 211 are matched with the fixed arc-shaped frames 210 in a sliding mode.

The swing trigger component 3 comprises a fixed push rod 31, a transverse rod 32, a transverse support plate 33, a fixed bolt 34, a clamping rod 35, a first torsion spring 36, a mounting bolt 37, a swing rod 38, a second torsion spring 39 and a weight 310, wherein the fixed push rod 31 is connected with two sides of the base 1, the fixed push rod 31 is used for pushing the two clamping rods 35 on different sides to swing, the transverse rod 32 is connected with the support 25, the transverse support plate 33 is connected with the support 25, the transverse rod 32 is connected with a pair of fixed bolts 34, the fixed bolts 34 are connected with the clamping rod 35 in a rotating mode, the first torsion spring 36 is connected between the clamping rod 35 and the transverse rod 32, the pair of mounting bolts 37 are connected with the transverse support plate 33, the swing rod 38 is connected with the mounting bolts 37 in a rotating mode, the swing rod 38 is used for pushing the weight 310 to move towards the direction close to the placing frame 29, and the second torsion spring 39 is connected between the swing rod 38 and the transverse support plate 33, the weight 310 is placed on the lateral support plate 33, the weight 310 is used to push the pressure plate 53 and its upper device downward, and the weight 310 is in contact with the clamping bar 35.

The gravity stabilizing assembly 4 comprises a fixed rod 41, a sliding plate 42 and a supporting spring 43, the fixed rod 41 is connected to the fixed arc-shaped frame 210, the fixed rod 41 is connected to the bracket 25, the sliding plate 42 is connected to the fixed rod 41 in a sliding manner, and the supporting spring 43 is connected between the sliding plate 42 and the fixed arc-shaped frame 210.

The device also comprises a gravity clamping assembly 5, the gravity clamping assembly 5 is arranged on the bottom buffering and damping assembly 2, the gravity clamping assembly 5 is used for limiting the high-voltage power distribution cabinet in the placing frame 29, the gravity clamping assembly 5 comprises limiting plates 51, U-shaped rods 52, a pressing plate 53, bottom baffles 54, compression springs 55 and top baffles 56, two pairs of limiting plates 51 are connected on the placing frame 29 in a linkage manner, a pair of U-shaped rods 52 are connected on the placing frame 29 in a sliding manner, the U-shaped rods 52 are used for pushing the bottom baffles 54 to move towards the mutually approaching direction, the pressing plate 53 is connected on the U-shaped rods 52, a pair of bottom baffles 54 are connected on the placing frame 29 in a sliding manner, the bottom baffles 54 are used for limiting the lower part of the high-voltage power distribution cabinet in the placing frame 29, the compression springs 55 are connected between the bottom baffles 54 and the placing frame 29, the top baffles 56 are connected between the two U-shaped rods 52 in a linkage manner, and the top baffles 56 are used for limiting the upper part of the high-voltage power distribution cabinet in the placing frame 29, the top baffle 56 is in contact with the placement frame 29.

The device also comprises a tension spring 6, a pair of tension springs 6 are connected between the placing frame 29 and the placing plate 22, and the tension springs 6 are used for limiting the positions of the placing frame 29 and devices on the placing frame.

Install high voltage distribution cabinet in placing frame 29 during the use, when this equipment fixing takes place the earthquake in the low place, ground can take place to rock, make base 1 and last device rock, when the earthquake is less, through damping spring 23 and L shape frame 21 and the cooperation of device on it, base 1 can slide in mounting plate 22 bottom, through damping spring 23, can reduce base 1 and the range that last device rocked, base 1 can not drive mounting plate 22 motion, thereby play the effect that the high voltage distribution cabinet in the frame 29 was placed in the protection, the effect that can tentatively protect the high voltage distribution cabinet in placing frame 29 has been reached.

When this equipment fixing was in the eminence, under the effect of support 25 and fixed frid 28, dead lever 41 and last device can use activity round bar 27 to swing as the center, under the guide effect of fixed arc 210 and the effect of earth's heart gravitation, it can be perpendicular with the level to remove supporting shoe 211 and last device to prevent to place frame 29 and empty, and then reduce the potential safety hazard that falls out the cause of placing the high voltage distribution cabinet in the frame 29, reached and can slow down the earthquake effectively and to placing the effect of the loss that the high voltage distribution cabinet that the frame 29 was interior caused rocking in order to reduce the earthquake.

When the base 1 and the device thereon move, the fixed push rod 31 will push the two clamping rods 35 on different sides to swing, the two torsion springs 39 on different sides will be compressed, the two clamping rods 35 on different sides will push the two swinging rods 38 on different sides to swing, the two torsion springs 39 on different sides will be compressed, so that the two swinging rods 38 on different sides push the weight 310 to move towards the direction close to the placing frame 29, then the weight 310 will drop onto the sliding plate 42, the weight 310 will push the sliding plate 42 to move downwards to contact with the placing frame 29 under its own gravity, the supporting spring 43 will be compressed, thereby increasing the stability of the placing frame 29 and the device thereon, and at the same time, the weight 310 will push the pressing plate 53 and the device thereon to move downwards, so that the top baffle 56 will limit the upper part of the high voltage distribution cabinet in the placing frame 29, meanwhile, the U-shaped rod 52 can push the bottom baffle 54 to move towards the mutually approaching direction, the compression spring 55 can be compressed accordingly, the bottom baffle 54 can limit the lower part of the high-voltage power distribution cabinet in the placement frame 29, the effect of effectively limiting the high-voltage power distribution cabinet in the placement frame 29 to reduce potential safety hazards is achieved, when the earthquake is large, the fixing block 24 can drive the placement plate 22 and the upper device to shake, due to the guiding effect of the support 25, the moving block 26 and the upper device can only move towards the horizontal direction, the top baffle 56 and the bottom baffle 54 can limit the high-voltage power distribution cabinet in the placement frame 29 at the moment, the high-voltage power distribution cabinet in the placement frame 29 can not fall off, the high-voltage power distribution cabinet in the placement frame 29 can be prevented from falling off, and the effect of preventing the high-voltage power distribution cabinet in the placement frame 29 from falling off is achieved.

The position of the placing frame 29 and the device on the placing frame can be limited through the tension spring 6, so that the shaking of the placing frame 29 and the device on the placing frame caused by the earthquake can be relieved.

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

Claims (6)

1. The utility model provides an indoor high voltage distribution cabinet antidetonation frame with prevent empting function which characterized in that, including base, bottom buffering damper assembly, swing trigger subassembly and gravity stabilizing assembly, be equipped with bottom buffering damper assembly on the base, be equipped with the swing on the bottom buffering damper assembly and trigger the subassembly, the gravity stabilizing assembly is located on the bottom buffering damper assembly.

2. The anti-knock frame for indoor high voltage power distribution cabinets with anti-toppling functions as claimed in claim 1, wherein the bottom buffering and damping assembly comprises an L-shaped frame, a mounting plate, a damping spring, a fixed block, a support frame, a movable block, a movable round bar, a fixed trough plate, a placing frame, a fixed arc-shaped frame and a movable support block, two pairs of L-shaped frames are arranged on the base, the mounting plate is sleeved between the two pairs of L-shaped frames, three pairs of circular grooves are arranged at the bottom of the mounting plate, the damping spring is connected between the L-shaped frame and the mounting plate, three pairs of fixed blocks are connected at the top of the base, the fixed blocks are in sliding fit with the mounting plate, a pair of support frames are connected at the top of the mounting plate, the movable block is connected on the support frame in a sliding manner, the movable round bar is connected on the movable block in a rotating manner, the fixed trough plate is connected on the movable round bar in a sliding manner, the placing frame is connected between the two fixed trough plates, the top of the placing plate is connected with a pair of fixed arc-shaped frames, the placing frame is connected with a pair of movable supporting blocks in a sliding mode, and the movable supporting blocks are matched with the fixed arc-shaped frames in a sliding mode.

3. The anti-seismic frame with the anti-toppling function for the indoor high-voltage power distribution cabinet according to claim 2, wherein the swinging trigger assembly comprises a fixed push rod, a transverse support plate, a fixed bolt, a clamping rod, a first torsion spring, a mounting bolt, a swinging rod, a second torsion spring and a weight block, the fixed push rod is connected to two sides of the base, the transverse rod is connected to the support, the transverse support plate is connected to the transverse rod, the pair of fixed bolts are connected to the transverse rod in a rotating mode, the clamping rod is connected to the fixed bolts in a rotating mode, the first torsion spring is connected between the clamping rod and the transverse rod, the pair of mounting bolts are connected to the transverse support plate in a rotating mode, the swinging rod is connected to the mounting bolts in a rotating mode, the second torsion spring is connected between the swinging rod and the transverse support plate, the weight block is placed on the transverse support plate, and is in contact with the clamping rod.

4. The anti-seismic frame with anti-toppling function for indoor high voltage power distribution cabinets of claim 3, wherein the gravity stabilizing assembly comprises a fixed rod, a sliding plate and a supporting spring, the fixed rod is connected to the fixed arc-shaped frame, the fixed rod is connected to the bracket, the sliding plate is slidably connected to the fixed rod, and the supporting spring is connected between the sliding plate and the fixed arc-shaped frame.

5. The anti-seismic frame with the anti-toppling function for the indoor high-voltage power distribution cabinet according to claim 4, further comprising a gravity clamping assembly, wherein the gravity clamping assembly is arranged on the bottom buffering and damping assembly and comprises limiting plates, U-shaped rods, a pressing plate, a bottom baffle, a compression spring and a top baffle, two pairs of limiting plates are connected to the placing frame in a linkage mode, a pair of U-shaped rods are connected to the placing frame in a sliding mode, the pressing plate is connected to the U-shaped rods in a linkage mode, a pair of bottom baffles are connected to the placing frame in a sliding mode, the compression spring is connected between the bottom baffle and the placing frame, the top baffle is connected between the two U-shaped rods in a linkage mode, and the top baffle is in contact with the placing frame.

6. The anti-seismic frame with the anti-toppling function for the indoor high-voltage power distribution cabinet according to claim 5, further comprising tension springs, wherein a pair of tension springs is connected between the placing frame and the placing plate.

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