CN209585767U - A kind of architectural engineering steel structure earthquake-resistant buffering pedestal - Google Patents

Abstract

The utility model discloses a kind of architectural engineering steel structure earthquake-resistants to buffer pedestal, including bottom plate, the affixed cylinder in the upper surface of the bottom plate, the top of the cylinder is connected with annulus, and the inside of the cylinder is equipped with deck, and the outer wall bottom end of the deck is connected with disk, extension spring is equipped between the disk and annulus, the downward both ends of the extension spring are mounted with hook, and the top of the hook is connected with convex block, and convex block described in top is fixedly linked with annulus.The architectural engineering buffers pedestal with steel structure earthquake-resistant, carry out using when, pass through the cooperation between deck, bottom plate, cylinder, annulus, extension spring, sleeve, loop bar, compressed spring and pallet, the general stability of entire steel building can be increased, the shock resistance of steel building is set to be strengthened, so that the security performance of the support column holder of steel building is reinforced, it can satisfy and normally use needs.

Description

A kind of architectural engineering steel structure earthquake-resistant buffering pedestal

Technical field

The utility model relates to architectural engineering steel structure earthquake-resistants to buffer pedestal technical field, specially a kind of architectural engineering Pedestal is buffered with steel structure earthquake-resistant.

Background technique

In the prior art, the support column holder of steel building is placed on bottom surface, and the steel construction of this structure is built The stability of strutting system for the pillar built is poor, causes the general stability of entire steel building poor, generally existing shock resistance Difference is not able to satisfy the needs used so that the security performance of the support column holder of steel building reduces.

Utility model content

The purpose of this utility model is to provide a kind of architectural engineering steel structure earthquake-resistants to buffer pedestal, to solve above-mentioned back The problem of being proposed in scape technology.

To achieve the above object, the utility model provides the following technical solutions: a kind of architectural engineering steel structure earthquake-resistant is slow Pedestal, including bottom plate, the affixed cylinder in the upper surface of the bottom plate are rushed, the top of the cylinder is connected with annulus, the cylinder Inside is equipped with deck, and the outer wall bottom end of the deck is connected with disk, and extension spring is equipped between the disk and annulus, described The downward both ends of extension spring are mounted with hook, and the top of the hook is connected with convex block, and convex block described in top and annulus are solid Fixed to be connected, convex block described in bottom end is fixedly linked with disk, is connected with sleeve, the set at left and right sides of the upper surface of the bottom plate The inner tip sliding of cylinder is connected with loop bar, and the bottom end of the loop bar is connected with the first gasket, the lower surface of first gasket It is connected with compressed spring, the bottom end of the compressed spring is connected with the second gasket, and second gasket is fixedly linked with sleeve, institute The top for stating loop bar is connected with pallet, and the pallet offsets with deck, and the outer wall top fixing sleeve of the deck is connected to first The top clamping of lantern ring, the deck is connected with pillar, and the outer wall bottom end fixing sleeve of the pillar is connected to the second lantern ring, and described the Two lantern rings fit with the first lantern ring, and inserted with bolt, the bolt sequentially passes through second set for the upper surface of second lantern ring Ring and the first lantern ring, the outer wall bottom end of the bolt are threaded with nut, and the nut offsets with the first lantern ring, the branch Sky pericardium is bumped on front side of the outer wall of column, the inside of the hollow capsule is placed with water, and the upper surface floating of the water has buoy.

Preferably, the first planchet is connected at left and right sides of the outer wall of the pillar, the left surface of first planchet is solid It being connected to cross bar, is connected with brace on the left of the outer wall bottom end of the cross bar, the bottom end of the brace is connected with the second planchet, and described the Two planchets are fixedly linked with annulus.

Preferably, the outer wall of the deck is coated with paint.

Preferably, the outer wall of the deck is socketed with rubber ring, and rubber ring fits with annulus.

Preferably, card hole is provided at left and right sides of the lower surface of the bottom plate.

Compared with prior art, the utility model has the beneficial effects that the architectural engineering buffers pedestal with steel structure earthquake-resistant, It is carrying out in use, by between deck, bottom plate, cylinder, annulus, extension spring, sleeve, loop bar, compressed spring and pallet Cooperation, can increase the general stability of entire steel building, the shock resistance of steel building is made to be strengthened, so that steel The security performance of the support column holder of structural construction is reinforced, and can satisfy and normally uses needs, passes through deck, first Pillar can be fixed on the top of deck by the cooperation between lantern ring, the second lantern ring, pillar, bolt, nut and buoy, observation The installation effectiveness between pillar and deck can be improved in the seat of buoy.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the partial enlarged view of Fig. 1；

Fig. 3 is the attachment structure schematic diagram of Fig. 1 sleeve, loop bar and compressed spring

Fig. 4 is the attachment structure schematic diagram of Fig. 1 convex block, hook and extension spring.

In figure: 1, bottom plate, 2, cylinder, 3, annulus, 4, deck, 5, disk, 6, extension spring, 7, hook, 8, convex block, 9, set Cylinder, 10, loop bar, the 11, first gasket, 12, compressed spring, the 13, second gasket, 14, pallet, the 15, first lantern ring, 16, pillar, 17, the second lantern ring, 18, hollow capsule, 19, water, 20, buoy, 21, bolt, 22, nut, the 23, first planchet, 24, cross bar, 25, tiltedly Bar, the 26, second planchet, 27, paint, 28, card hole, 29, rubber ring.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: a kind of architectural engineering steel structure earthquake-resistant buffering base Seat, including bottom plate 1, the affixed cylinder 2 in the upper surface of bottom plate 1, the top of cylinder 2 are connected with annulus 3, and the inside of cylinder 2 is equipped with card Seat 4, the outer wall bottom end of deck 4 is connected with disk 5, between disk 5 and annulus 3 be equipped with extension spring 6, extension spring 6 it is downward Both ends are mounted with hook 7, and the top for linking up with 7 is connected with convex block 8, and top convex block 8 is fixedly linked with annulus 3, bottom end convex block 8 with Disk 5 is fixedly linked, and sleeve 9 is connected at left and right sides of the upper surface of bottom plate 1, and the inner tip sliding of sleeve 9 is connected with set Bar 10, the bottom end of loop bar 10 are connected with the first gasket 11, and the lower surface of the first gasket 11 is connected with compressed spring 12, extension spring 6 and compressed spring 12 plus coefficient together to be relatively larger than deck 4 can 4 top of deck active force, the bottom end of compressed spring 12 is solid It is connected to the second gasket 13, the second gasket 13 is fixedly linked with sleeve 9, and the top of loop bar 10 is connected with pallet 14, pallet 14 and card Seat 4 offsets, and the outer wall top fixing sleeve of deck 4 is connected to first set ring 15, and the top clamping of deck 4 is connected with pillar 16, props up The outer wall bottom end fixing sleeve of column 16 is connected to the second lantern ring 17, and the second lantern ring 17 fits with the first lantern ring 15, the second lantern ring 17 Inserted with bolt 21, bolt 21 sequentially passes through the second lantern ring 17 and the first lantern ring 15, the outer wall bottom end screw thread of bolt 21 for upper surface It is connected with nut 22, nut 22 offsets with the first lantern ring 15, has been bumped into sky pericardium 18, hollow capsule 18 on front side of the outer wall of pillar 16 Be it is transparent, the inside of hollow capsule 18 is placed with water 19, and the upper surface floating of water 19 has buoy 20, and cylinder 2 is embedded in level The inside in face makes the outer wall of cylinder 2 leak out one of four parts of horizontal plane left and right, in the upper surface that pillar 16 is placed in deck 4, makes It is completely coincident between first lantern ring 15 and the second lantern ring 17, the buoy 20 inside hollow capsule 18 on front side of 16 outer wall of pillar, when When buoy 20 is in the center of hollow capsule 18, it is being inserted into bolt 21 to the upper surface of the second lantern ring 17, by 21 outer wall bottom of bolt End cap connected nut 22 rotates clockwise nut 22, and nut 22 is made to offset with the first lantern ring 15, to make pillar 16 and deck 4 Between be connected, when pillar 16 encounter external force push when, the vibration that deck 4 can be made slight, 4 outer wall bottom end of deck socket circle The bracket 14 that disk 5 can be stretched 4 lower surface of active force and deck of spring 6 will receive the active force of compressed spring 12, from And the impact force of deck 4 can be slowed down, the first planchet 23, a left side for the first planchet 23 are connected at left and right sides of the outer wall of pillar 16 Surface is connected with cross bar 24, is connected with brace 25 on the left of the outer wall bottom end of cross bar 24, the bottom end of brace 25 is connected with the second planchet 26, the second planchet 26 is fixedly linked with annulus 3, the cross bar 24 that the first planchet 23 at left and right sides of 16 outer wall of pillar is connected with, horizontal The affixed brace 25 in 24 bottom end of bar can increase the stability of pillar 16, and the outer wall of deck 4 is coated with paint 27, and paint 27 is third Olefin(e) acid resinoid material is made, and the outer wall of deck 4 is socketed with rubber ring 29, and rubber ring 29 fits with annulus 3, and rubber ring 29 is General Purpose Rubber material is made, and has certain toughness under room temperature, can prevent dust from entering the inside of cylinder 2, the following table of bottom plate 1 It is provided with card hole 28 at left and right sides of face, card hole 28 can increase the frictional force between bottom plate 1 and ground.

When buffering pedestal with steel structure earthquake-resistant using architectural engineering, cylinder 2 is embedded in the inside of horizontal plane first, is made The outer wall of cylinder 2 leaks out one of four parts of horizontal plane left and right, in the upper surface that pillar 16 is placed in deck 4, makes the first lantern ring 15 It is completely coincident between the second lantern ring 17, the buoy 20 inside hollow capsule 18 on front side of 16 outer wall of pillar, when buoy 20 is in When the center of hollow capsule 18, it is being inserted into bolt 21 to the upper surface of the second lantern ring 17,21 outer wall bottom end of bolt is being covered into connected nut 22, nut 22 is rotated clockwise, nut 22 is made to offset with the first lantern ring 15, thus make to be connected between pillar 16 and deck 4, When pillar 16, which encounters external force, to be pushed, the disk 5 of the vibration that deck 4 can be made slight, the socket of 4 outer wall bottom end of deck can be by The bracket 14 of 4 lower surface of active force and deck of extension spring 6 will receive the active force of compressed spring 12, so as to slow down The impact force of deck 4 adds the shock resistance of steel building to increase the general stability of entire steel building By force, it so that the security performance of the support column holder of steel building is reinforced, can satisfy normal using needs, pillar The cross bar 24 that the first planchet 23 at left and right sides of 16 outer walls is connected with, the affixed brace 25 in 24 bottom end of cross bar can increase pillar 16 Stability.

In the description of the present invention, it should be understood that term " coaxial ", " bottom ", " one end ", " top ", " in The orientation of the instructions such as portion ", " other end ", "upper", " side ", " top ", "inner", " front ", " center ", " both ends " or position are closed System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, rather than The device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot It is construed as a limitation of the present invention.

In addition, term " first ", " second ", " third ", " the 4th " are used for description purposes only, and should not be understood as instruction or It implies relative importance or implicitly indicates the quantity of indicated technical characteristic, define " first ", " second ", " the as a result, Three ", the feature of " the 4th " can explicitly or implicitly include at least one of the features.

In the present invention unless specifically defined or limited otherwise, term " installation ", " setting ", " connection ", " Gu Calmly ", the terms such as " being screwed on " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral； It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements, unless otherwise restricted clearly, for this field For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of architectural engineering buffers pedestal, including bottom plate (1) with steel structure earthquake-resistant, it is characterised in that: the bottom plate (1) it is upper The top of the affixed cylinder in surface (2), the cylinder (2) is connected with annulus (3), and the inside of the cylinder (2) is equipped with deck (4), The outer wall bottom end of the deck (4) is connected with disk (5), is equipped with extension spring (6) between the disk (5) and annulus (3), institute The downward both ends for stating extension spring (6) are mounted with hook (7), and the top of the hook (7) is connected with convex block (8), top institute It states convex block (8) to be fixedly linked with annulus (3), convex block described in bottom end (8) is fixedly linked with disk (5), the upper table of the bottom plate (1) It is connected with sleeve (9) at left and right sides of face, the inner tip sliding of the sleeve (9) is connected with loop bar (10), the loop bar (10) bottom end is connected with the first gasket (11), and the lower surface of first gasket (11) is connected with compressed spring (12), described The bottom end of compressed spring (12) is connected with the second gasket (13), and second gasket (13) is fixedly linked with sleeve (9), the set The top of bar (10) is connected with pallet (14), and the pallet (14) offsets with deck (4), the outer wall top of the deck (4) Fixing sleeve is connected to first set ring (15), and the top clamping of the deck (4) is connected with pillar (16), the outer wall of the pillar (16) Bottom end fixing sleeve is connected to the second lantern ring (17), and second lantern ring (17) fits with the first lantern ring (15), second lantern ring (17) upper surface sequentially passes through the second lantern ring (17) and the first lantern ring (15), institute inserted with bolt (21), the bolt (21) The outer wall bottom end for stating bolt (21) is threaded with nut (22), and the nut (22) offsets with the first lantern ring (15), described It has been bumped into sky pericardium (18) on front side of the outer wall of pillar (16), the inside of the hollow capsule (18) is placed with water (19), the water (19) upper surface floating has buoy (20).

2. a kind of architectural engineering according to claim 1 buffers pedestal with steel structure earthquake-resistant, it is characterised in that: the pillar (16) it is connected with the first planchet (23) at left and right sides of outer wall, the left surface of first planchet (23) is connected with cross bar (24), it is connected with brace (25) on the left of the outer wall bottom end of the cross bar (24), the bottom end of the brace (25) is connected with the second circle It pads (26), second planchet (26) is fixedly linked with annulus (3).

3. a kind of architectural engineering according to claim 1 buffers pedestal with steel structure earthquake-resistant, it is characterised in that: the deck (4) outer wall is coated with paint (27).

4. a kind of architectural engineering according to claim 1 buffers pedestal with steel structure earthquake-resistant, it is characterised in that: the deck (4) outer wall is socketed with rubber ring (29), and rubber ring (29) fits with annulus (3).

5. a kind of architectural engineering according to claim 1 buffers pedestal with steel structure earthquake-resistant, it is characterised in that: the bottom plate (1) card hole (28) are provided at left and right sides of lower surface.