CN205276534U - Two -way shock -absorbing structure of transformer room - Google Patents

Abstract

The utility model provides a two -way shock -absorbing structure of transformer room belongs to the transformer field. It has been solved current transformer and has placed the not good problem of room shock attenuation effect. This two -way shock -absorbing structure of transformer room is including the room body that is equipped with the transformer, still include the brace table, the brace table internal fixation has the fixed plate, be equipped with the shock pad between room body bottom and the brace table, and it is fixed mutually with room body bottom and fixed plate that the shock pad passes through the bolt, still include a plurality of movable damper, activity damper supports a section of thick bamboo including the cover tube -shape, support section of thick bamboo one end opening, the other end is fixed with the baffle, and it is equipped with annular convex ring with brace table top surface parallel and level and enstrophe to support section of thick bamboo open -ended one end, the baffle is fixed mutually with the fixed plate, still include cylindrical snubber block, be equipped with annular spout on the snubber block outer wall, and the bulge loop inlays in the spout, be equipped with compression spring between snubber block rear end and the baffle, and compression spring drives the snubber block, make the snubber block front end support in room body bottom. This shock -absorbing structure can reach better shock attenuation effect.

Description

A kind of transformer room bidirectional damping structure

Technical field

The utility model belongs to transformer technology field, it relates to a kind of transformer room bidirectional damping structure.

Background technology

Transformer is one of nucleus equipment of power network, and in road both sides, cities and towns, transformer usually can be arranged on two bar transformer erecting frame. Placing room is the house for placing transformer, but existing placement room is generally with damping mechanism and is fixedly connected with, while damping can the loosening of damping mechanism together, damping effect can weaken afterwards for a long time, it is therefore desirable to improve.

Summary of the invention

The purpose of this utility model is for the above-mentioned problems in the prior art, it provides a kind of damping effect is better, and shock-damping structure can be avoided to loosen the transformer room bidirectional damping structure bringing impact.

The purpose of this utility model realizes by following technical proposal: a kind of transformer room bidirectional damping structure, comprise the room body being provided with transformer, it is characterized in that: also comprise concrete support platform, described support platform inside is fixed with horizontally disposed hard retaining plate, it is provided with cushion blocking bottom described room body and between support platform, and cushion blocking is by fixing with retaining plate bottom bolt and room body, also comprise some Moveable shock mechanisms, described Moveable shock mechanism comprises sleeve shaped support cylinder, support tube one end open, the other end is fixed with baffle plate, and one end of support tube opening is concordant and varus is provided with annular convex ring with support countertop, baffle plate and retaining plate fix, also comprise cylindrical damping block, damping block outer wall is provided with annular groove, and convex ring is embedded in chute, it is provided with compression spring between damping block rear end and baffle plate, and compression spring drives damping block, damping block front end is against bottom room body.

Utilize cushion blocking to be fixed on bottom room body and support, between platform, room body is formed damping, and due to fixing bottom cushion blocking and room body, even if therefore loosening between cushion blocking and room body, also by the reinforcement damping that offsets bottom damping block front end and room body, shock-damping structure is avoided to loosen the impact on damping effect, the Moveable shock mechanism that damping block is corresponding simultaneously is connected with retaining plate, and only there is abutting relationship between room body, therefore Moveable shock mechanism can not be subject to the impact of room body, to reach better damping effect.

In above-mentioned a kind of transformer room bidirectional damping structure, it is provided with, bottom described room body, the flange turned up, and flange is provided with fixed orifices, and bolt through fixed orifices and cushion blocking and fixes with retaining plate.

Therefore connect more stable.

In above-mentioned a kind of transformer room bidirectional damping structure, described damping block front end is provided with the spherical groove that cell wall is greater than semisphere, and coordinates in spherical groove and be embedded with spherical ball, and roller surface is coated with cushioning material, and offsets bottom spin and flange.

Therefore, when room body shakes micro-shifting, roll by spin and form consistent damping effect to tangible bottom room body.

In above-mentioned a kind of transformer room bidirectional damping structure, also comprise sealed strip, described sealed strip cross section is L-shaped, and comprise connecting wing and the sealing wing, described connecting wing is fixed on flange top, countertop offsets sealing tip extension with supporting, and around being coated on bottom room body and support between platform top.

Sealing effect is improved by arranging sealed strip.

In above-mentioned a kind of transformer room bidirectional damping structure, bottom described flange, it is provided with arc positioning groove, and spin coordinates with locating slot cell wall and offsets.

Spin is played certain limit positioning action by locating slot.

Compared with prior art, the utility model tool has the following advantages:

Utilize cushion blocking to be fixed on bottom room body and support, between platform, room body is formed damping, and due to fixing bottom cushion blocking and room body, even if therefore loosening between cushion blocking and room body, also by the reinforcement damping that offsets bottom damping block front end and room body, shock-damping structure is avoided to loosen the impact on damping effect, the Moveable shock mechanism that damping block is corresponding simultaneously is connected with retaining plate, and only there is abutting relationship between room body, therefore Moveable shock mechanism can not be subject to the impact of room body, to reach better damping effect.

Accompanying drawing explanation

Fig. 1 is this shock-damping structure schematic diagram.

Fig. 2 is Fig. 1 partial enlargement figure.

In figure,

1, Fang Ti; 11, cushion blocking; 12, bolt; 13, flange; 14, locating slot;

2, platform is supported; 21, retaining plate;

3, Moveable shock mechanism; 31, support tube; 32, baffle plate; 33, convex ring; 34, damping block; 35, chute; 36, compression spring; 37, spherical groove; 38, spin;

4, sealed strip; 41, connecting wing; 42, the wing is sealed.

Embodiment

The following is specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model is not limited to these embodiments.

As depicted in figs. 1 and 2, a kind of transformer room bidirectional damping structure of the utility model, comprise the room body 1 being provided with transformer, also comprise concrete support platform 2, support platform 2 inside and it is fixed with horizontally disposed hard retaining plate 21, it is provided with cushion blocking 11 bottom room body 1 and between support platform 2, and cushion blocking 11 is by fixing with retaining plate 21 bottom bolt 12 and room body 1, also comprise some Moveable shock mechanisms 3, Moveable shock mechanism 3 comprises sleeve shaped support cylinder 31, support tube 31 one end open, the other end is fixed with baffle plate 32, and one end of support tube 31 opening is concordant and varus is provided with annular convex ring 33 with support platform 2 end face, baffle plate 32 and retaining plate 21 fix, also comprise cylindrical damping block 34, damping block 34 outer wall is provided with annular groove 35, and convex ring 33 is embedded in chute 35, compression spring 36 it is provided with between damping block 34 rear end and baffle plate 32, and compression spring 36 drives damping block 34, damping block 34 front end is against bottom room body 1.

Further, it is provided with the flange 13 turned up bottom room body 1, and flange 13 is provided with fixed orifices, and bolt 12 through fixed orifices and cushion blocking 11 and fixes with retaining plate 21. Damping block 34 front end is provided with the spherical groove 37 that cell wall is greater than semisphere, and coordinates in spherical groove 37 and be embedded with spherical ball 38, and spin 38 Surface coating has cushioning material, and offsets bottom spin 38 and flange 13. Also comprising sealed strip 4, sealed strip 4 cross section is L-shaped, and comprises connecting wing 41 and the sealing wing 42, and connecting wing 41 is fixed on flange 13 top, and platform 2 end face offsets with supporting in the sealing wing 42 end, and around being coated on bottom room body 1 and support between platform 2 top. Arc positioning groove 14 it is provided with, and spin 38 coordinates with locating slot 14 cell wall and offsets bottom flange 13.

Utilize cushion blocking 11 to be fixed on bottom room body 1 and support, between platform 2, room body 1 is formed damping, and owing to fixing bottom cushion blocking 11 and room body 1, even if therefore loosening between cushion blocking 11 and room body 1, also by the reinforcement damping that offsets bottom damping block 34 front end and room body 1, shock-damping structure is avoided to loosen the impact on damping effect, the Moveable shock mechanism 3 of damping block 34 correspondence is connected with retaining plate 21 simultaneously, and only there is abutting relationship between room body 1, therefore Moveable shock mechanism 3 can not be subject to the impact of room body 1, to reach better damping effect.

Specific embodiment described herein is only to the utility model spirit explanation for example. Described specific embodiment can be made various amendment or supplements or adopt similar mode to substitute by the utility model person of ordinary skill in the field, but can't deviate spirit of the present utility model or surmount the scope that appended claims defines.

Although more employing the terms such as room body 1, cushion blocking 11, bolt 12, flange 13, locating slot 14, support platform 2, retaining plate 21, Moveable shock mechanism 3, support tube 31, baffle plate 32, convex ring 33, damping block 34, chute 35, compression spring 36, spherical groove 37, spin 38, sealed strip 4, connecting wing 41, the sealing wing 42 herein, but not getting rid of the possibility using other term. These terms are used to be only used to describe and explain essence of the present utility model more easily; They are construed to any a kind of additional restriction all disagree with the utility model spirit.

Claims (5)

1. a transformer room bidirectional damping structure, comprise the room body (1) being provided with transformer, it is characterized in that: also comprise concrete support platform (2), described support platform (2) inside is fixed with horizontally disposed hard retaining plate (21), it is provided with cushion blocking (11) between described room body (1) bottom and support platform (2), and cushion blocking (11) is fixed by bolt (12) and room body (1) bottom and retaining plate (21), also comprise some Moveable shock mechanisms (3), described Moveable shock mechanism (3) comprises sleeve shaped support cylinder (31), support tube (31) one end open, the other end is fixed with baffle plate (32), and one end of support tube (31) opening is concordant and varus is provided with annular convex ring (33) with support platform (2) end face, baffle plate (32) and retaining plate (21) fix, also comprise cylindrical damping block (34), damping block (34) outer wall is provided with annular groove (35), and convex ring (33) is embedded in chute (35), compression spring (36) it is provided with between damping block (34) rear end and baffle plate (32), and compression spring (36) drives damping block (34), damping block (34) front end is made to be against room body (1) bottom.

2. a kind of transformer room bidirectional damping structure according to claim 1, it is characterized in that: described room body (1) bottom is provided with the flange (13) turned up, and flange (13) is provided with fixed orifices, and bolt (12) through fixed orifices and cushion blocking (11) and fixes with retaining plate (21).

3. a kind of transformer room bidirectional damping structure according to claim 2, it is characterized in that: described damping block (34) front end is provided with the spherical groove (37) that cell wall is greater than semisphere, and cooperation is embedded with spherical ball (38) in spherical groove (37), spin (38) Surface coating has cushioning material, and spin (38) offsets with flange (13) bottom.

4. a kind of transformer room bidirectional damping structure according to claim 3, it is characterized in that: also comprise sealed strip (4), described sealed strip (4) cross section is L-shaped, and comprise connecting wing (41) and the sealing wing (42), described connecting wing (41) is fixed on flange (13) top, platform (2) end face offsets with supporting in the sealing wing (42) end, and around being coated on room body (1) bottom and support between platform (2) top.

5. a kind of transformer room bidirectional damping structure according to claim 4, it is characterised in that: described flange (13) bottom is provided with arc positioning groove (14), and spin (38) coordinates with locating slot (14) cell wall and offsets.