CN213174214U

CN213174214U - Green energy-saving earthquake-resistant building structure

Info

Publication number: CN213174214U
Application number: CN202021736221.2U
Authority: CN
Inventors: 孔德奎
Original assignee: Pingliang New Century Construction Engineering Co ltd
Current assignee: Pingliang New Century Construction Engineering Co ltd
Priority date: 2020-08-19
Filing date: 2020-08-19
Publication date: 2021-05-11
Anticipated expiration: 2030-08-19

Abstract

The utility model discloses a green energy-saving earthquake-resistant building structure, which comprises a horizontally arranged base, support columns, a top plate and pull rods, wherein the four corners of the top end surface of the base are vertically provided with the support columns, the top end surface of each support column is horizontally provided with the top plate, the middle parts of the four groups of support columns are vertically provided with connecting blocks, and the pull rods are connected between the two adjacent groups of connecting blocks; the utility model discloses a hydraulic telescopic arm, including support column, hydraulic telescopic arm, lifter plate, support column, hydraulic telescopic arm, lifting plate, the top face of support column is improved level and is provided with the second connecting plate, be provided with the hydraulic telescopic arm perpendicularly on the top face of second connecting plate, the hydraulic telescopic arm is provided with the multiunit side by side, the multiunit the top level of hydraulic telescopic arm is provided with the lifter plate, be provided with first telescopic link perpendicularly on the top face of lifter plate, first telescopic link is provided with the. This green energy-conserving antidetonation building structure, rational in infrastructure has good anti-seismic performance, and is convenient for install and adjust, is worth promoting.

Description

Green energy-saving earthquake-resistant building structure

Technical Field

The utility model belongs to the technical field of housing construction structure, concretely relates to green energy-conserving antidetonation building structure.

Background

At present, building structures at home and abroad are all reinforced concrete and bricks as main bodies, but the improvement of the earthquake resistance of the building is still realized by improving the overall stability of the building after the building section, and the improvement of the overall stability of the building structure is realized by consuming a large amount of building materials, namely, the shock of earthquake waves is resisted by a measure of 'rigid-gram' even though the human has already made clear that the using amount of the building materials is in direct proportion to the earthquake resisting grade, the human has not yet made clear the corresponding relation of the using amounts of the building materials and cannot predict the area, grade and occurrence time of the earthquake, the using amount of the building materials has certain blindness, and when the using amount of the building materials is too small, the building is collapsed by sudden earthquake, so that great loss is brought to the human and property; when the using amount of the building materials is too large and greatly exceeds the capability of resisting earthquake, or when earthquake does not occur, the excessive using amount of the building materials does not accord with the low-carbon trend in the world nowadays, and the natural environment for human existence is seriously damaged.

At present, use multiple shockproof structure among the current building structure, nevertheless the antidetonation effect is general not good, and building structure receives can produce the height dislocation after vibrations, has the potential safety hazard, and current building structure does not have regulatory function, consequently, needs further improvement.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a green energy-conserving antidetonation building structure to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a green energy-saving earthquake-resistant building structure comprises a horizontally arranged base, supporting columns, a top plate and pull rods, wherein the supporting columns are vertically arranged at four corners of the top end face of the base, the top plate is horizontally arranged on the top end face of each supporting column, connecting blocks are vertically arranged in the middle of four groups of supporting columns, and the pull rods are connected between two adjacent groups of connecting blocks;

the utility model discloses a support column, including support column, hydraulic telescopic arm, lifter plate, buffer board, first telescopic link, the top face of support column is improved level and is provided with the second connecting plate, be provided with hydraulic telescopic arm perpendicularly on the top face of second connecting plate, hydraulic telescopic arm is provided with the multiunit side by side, multiunit the top level of hydraulic telescopic arm is provided with the lifter plate, be provided with first telescopic link perpendicularly on the top face of lifter plate, first telescopic link is provided with the multiunit side by side, multiunit the top level of first telescopic link is provided with the buffer board, and the multiunit first spring has not been put to first telescopic link is equallyd divide outward, the both.

Preferably, the position level that corresponds with the buffer board on the bottom face of roof is provided with first connecting plate, the middle part of first connecting plate bottom face is provided with the T-slot, just be provided with on the top face of buffer board with the T-shaped connector of T-slot cooperation joint is located be provided with the locating plate perpendicularly on the first connecting plate of T-slot both sides, be provided with on the buffer board with the location arch that the locating plate cooperation was used.

Preferably, the vertical mounting groove of having seted up in the link, it is provided with the slider to slide in the mounting groove, pull rod through connection piece lateral wall with slider fixed connection, just all be provided with the second telescopic link perpendicularly on the top face and the bottom face of slider, the flexible end of second telescopic link is connected with the roof and the diapire of mounting groove, just the second spring has been put to second telescopic link overcoat, the both ends of second spring weld with the roof and the diapire of slider and mounting groove respectively.

Preferably, the lifting plate and the two sides of one end face of the second connecting plate in opposite directions are provided with limiting strips which are mutually matched and abutted, and the two sides of the bottom end face of the second connecting plate are provided with reinforcing plates connected with the supporting columns.

Preferably, there are top covers through multiunit bracing piece fixed mounting on the top face of roof, the top cover slope symmetry is provided with two sets ofly, just the equal level in both sides of base is provided with the flange board.

The utility model discloses a technological effect and advantage: this energy-conserving antidetonation building structure of green, through set up first telescopic link and first spring on every group support column top, can effectively alleviate the tensile stress or the compressive stress between roof and every group support column when this structure receives vibrations, and under the cooperation of the flexible locating lever of second spring and second, can make the slider elastic sliding in the link block, in order to avoid leading to every group support column dislocation from top to bottom because of vibrations and cause the pull rod to receive shearing stress and impaired fracture, and then effectively improved this building structure's anti-seismic performance, simultaneously under the cooperation of the flexible arm of multiunit hydraulic pressure, can adjust the roof in this building structure, in order to avoid this structure to receive to produce the height dislocation after the vibrations, thereby remove the potential safety hazard. This green energy-conserving antidetonation building structure, rational in infrastructure has good anti-seismic performance, and is convenient for install and adjust, is worth promoting.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the buffer board structure of the present invention;

fig. 3 is a cross-sectional view of the connecting block of the present invention.

In the figure: the device comprises a base 1, a connecting block 2, a supporting column 3, a top plate 4, a top cover 5, a supporting rod 6, a pull rod 7, a flange plate 8, a first connecting plate 9, a T-shaped connecting head 10, a T-shaped groove 11, a positioning plate 12, a buffer plate 13, a first telescopic rod 14, a first spring 15, a lifting plate 16, a limiting strip 17, a hydraulic telescopic arm 18, a second connecting plate 19, a reinforcing plate 20, a sliding block 21, a mounting groove 22, a second telescopic rod 23 and a second spring 24.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a green energy-saving earthquake-resistant building structure as shown in figures 1-3, which comprises a horizontally arranged base 1, support columns 3, a top plate 4 and pull rods 7, wherein the support columns 3 are vertically arranged at four corners of the top end surface of the base 1, the top plate 4 is horizontally arranged on the top end surface of the support columns 3, connecting blocks 2 are vertically arranged in the middle parts of the four groups of support columns 3, and the pull rods 7 are connected between the two adjacent groups of connecting blocks 2;

the top of support column 3 is faced upward horizontally and is provided with second connecting plate 19, be provided with the flexible arm of hydraulic pressure 18 on the face of second connecting plate 19's the top perpendicularly, the flexible arm of hydraulic pressure 18 is provided with the multiunit side by side, the multiunit the top level of the flexible arm of hydraulic pressure 18 is provided with lifter plate 16, be provided with first telescopic link 14 on the face of lifter plate 16's the top perpendicularly, first telescopic link 14 is provided with the multiunit side by side, the multiunit the top level of first telescopic link 14 is provided with buffer board 13, and the multiunit first spring 15 has been put to first telescopic link 14 outer equalling divide respectively the cover, the both ends of first spring 15 weld with lifter plate 16 and buffer board 13 respectively.

Specifically, position level that top 4 of the bottom face with buffer board 13 corresponds is provided with first connecting plate 9, the middle part of first connecting plate 9 bottom face is provided with T-slot 11, just be provided with on the top face of buffer board 13 with T-shaped connector 10 of 11 cooperation joints in T-slot is located be provided with locating plate 12 on the first connecting plate 9 of 11 both sides in T-slot perpendicularly, be provided with on the buffer board 13 with the location arch that 12 cooperations of locating plate used plays spacing fixed effect.

Specifically, vertically in the connecting block 2, mounting groove 22 has been seted up, it is provided with slider 21 to slide in the mounting groove 22, pull rod 7 run through connecting block 2 lateral wall with slider 21 fixed connection, just all be provided with second telescopic link 23 on the top face and the bottom face of slider 21 perpendicularly, the flexible end of second telescopic link 23 is connected with the roof and the diapire of mounting groove 22, just second spring 24 has been put outward to second telescopic link 23, the both ends of second spring 24 respectively with the roof and the diapire welding of slider 21 and mounting groove 22, should set up the cooperation on the lateral wall that connecting block 2 is close to pull rod 7 one end pull rod 7 gliding spout.

Specifically, the two sides of the opposite end surfaces of the lifting plate 16 and the second connecting plate 19 are provided with limiting strips 17 which are mutually matched and abutted to play a role in reinforcement, and the two sides of the bottom end surface of the second connecting plate 19 are provided with reinforcing plates 20 connected with the supporting columns 3, so that the structure is more stable.

Specifically, there is top cap 5 through 6 fixed mounting of multiunit bracing piece on the top face of

roof

4, 5 slope symmetries of top cap are provided with two sets ofly, play the effect of rain-proof water, just the equal level in both sides of base 1 is provided with flange 8, and the mounting hole has been seted up perpendicularly at flange 8's both ends to the installation of this structure is fixed.

The working principle is as follows: when the green energy-saving earthquake-resistant building structure is used, the housing building can be fixed on the ground through the edge plates 8 on the two sides of the base 1, and the top plate 4 and the top cover 5 are convenient to disassemble and assemble through the matching of the T-shaped groove 11 and the T-shaped connector 10; when this structure receives vibrations, through the cooperation of first telescopic link 14 and first spring 15, can effectively alleviate the tensile stress or the pressure between roof 4 and every group support column 3, and under the cooperation of second spring 24 and the flexible locating lever of second, can make slider 21 elastic sliding in connecting block 2, in order to avoid leading to every group support column 3 dislocation from top to bottom because of vibrations and cause pull rod 7 to receive shearing stress and impaired fracture, and then effectively improved this building structure's anti-seismic performance, and finally, through the multiunit hydraulic stretching arm 18 who starts 19 top end faces of every group second connecting plate, can adjust roof 4 in this building structure, in order to avoid this structure to receive to produce the height dislocation after the vibrations, thereby relieve the potential safety hazard. This green energy-conserving antidetonation building structure, rational in infrastructure has good anti-seismic performance, and is convenient for install and adjust, is worth promoting.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims

1. The utility model provides a green energy-conserving antidetonation building structure, includes that the level sets up base (1), support column (3), roof (4) and pull rod (7), its characterized in that: supporting columns (3) are vertically arranged at four corners of the top end face of the base (1), a top plate (4) is horizontally arranged on the top end face of each supporting column (3), connecting blocks (2) are vertically arranged in the middle of each of the four groups of supporting columns (3), and a pull rod (7) is connected between every two adjacent groups of connecting blocks (2);

the top face of support column (3) is improved level and is provided with second connecting plate (19), be provided with hydraulic stretching arm (18) on the top face of second connecting plate (19) perpendicularly, hydraulic stretching arm (18) are provided with the multiunit side by side, multiunit the top level of hydraulic stretching arm (18) is provided with lifter plate (16), be provided with first telescopic link (14) on the top face of lifter plate (16) perpendicularly, first telescopic link (14) are provided with the multiunit side by side, multiunit the top level of first telescopic link (14) is provided with buffer board (13), and the multiunit first spring (15) have respectively been put to the cover equally divide outward in first telescopic link (14), the both ends of first spring (15) weld with lifter plate (16) and buffer board (13) respectively.

2. A green energy-saving earthquake-resistant building structure as claimed in claim 1, wherein: the utility model discloses a T-shaped connector, including roof (4), buffer board (13), T-shaped groove (11), locating plate (12) are provided with on the first connecting plate (9) of T-shaped groove (11) both sides perpendicularly, be provided with on buffer board (13) with the position level that buffer board (13) correspond is provided with first connecting plate (9), the middle part of first connecting plate (9) bottom face is provided with T-shaped groove (11), just be provided with on the top face of buffer board (13) with T-shaped connector (10) of T-shaped groove (11) cooperation joint are located be provided with on first connecting plate (9) of T-shaped groove (11) both sides perpendicularly locating plate (.

3. A green energy-saving earthquake-resistant building structure as claimed in claim 1, wherein: vertical mounting groove (22) of having seted up in connecting block (2), it is provided with slider (21) to slide in mounting groove (22), pull rod (7) through connection piece (2) lateral wall with slider (21) fixed connection, just all be provided with second telescopic link (23) perpendicularly on the top face and the bottom face of slider (21), the flexible end of second telescopic link (23) is connected with the roof and the diapire of mounting groove (22), just second spring (24) have been put to second telescopic link (23) overcoat, the both ends of second spring (24) respectively with the roof and the diapire welding of slider (21) and mounting groove (22).

4. A green energy-saving earthquake-resistant building structure as claimed in claim 1, wherein: the lifting plate (16) and the two sides of one end face of the second connecting plate (19) in opposite directions are provided with limiting strips (17) which are mutually matched and abutted, and the two sides of the bottom end face of the second connecting plate (19) are provided with reinforcing plates (20) connected with the supporting columns (3).

5. A green energy-saving earthquake-resistant building structure as claimed in claim 1, wherein: there are top caps (5) through multiunit bracing piece (6) fixed mounting on the top face of roof (4), top cap (5) slope symmetry is provided with two sets ofly, just the equal level in both sides of base (1) is provided with flange board (8).