CN112663813A - Building damping device convenient to fault detection - Google Patents

Abstract

The invention discloses a building damping device convenient for fault detection, which comprises a base, a bearing frame, bearing columns, threaded columns, an adjusting wheel and a limiting column, wherein the base is of a rectangular structure with a damping bin arranged inside, the bearing frame is arranged in the damping bin, a plurality of bearing columns are hinged to the bottom end of the bearing frame, a plurality of connecting columns for the bearing columns to be inserted are formed at the bottom end of the damping bin, the bearing columns are connected with the connecting columns in a sliding manner, the threaded columns are arranged inside the top ends of the four sides of the base, a plurality of second sliding chutes matched with the threaded columns are formed in the base, sliding rods are inserted and arranged inside the threaded columns, connecting grooves matched with the sliding rods are formed in the threaded columns, and one ends of the sliding rods are connected with the threaded columns in a sliding manner, so that the building damping device convenient for fault detection can avoid damage to a vertical damping device when a building moves horizontally, and can provide a relatively horizontal installation environment for the building.

Description

Building damping device convenient to fault detection

Technical Field

The invention belongs to the technical field of building devices, and particularly relates to a building damping device convenient for fault detection.

Background

The shock attenuation, namely building shock attenuation (structure energy dissipation shock attenuation) technique, building shock attenuation (structure energy dissipation shock attenuation technique) is at some positions (such as support, shear force wall, joint or connecting piece) of structure setting up power consumption device, produce the friction through the device, crooked (or shearing, twist reverse), elastoplasticity (or viscoelasticity) hysteresis deformation dissipates or absorbs the energy of earthquake input structure to reduce the earthquake reaction of major structure, thereby avoid the structure to produce and destroy or collapse, reach the purpose of shock attenuation control, building shock attenuation structure is after the installation staff need carry out a series of relevant detections to it.

When the existing building damping device convenient for fault detection generates displacement in the horizontal direction, the damping device in the vertical direction is damaged; and the existing building damping device convenient for fault detection is inconvenient for providing a relatively horizontal installation environment for a building.

Disclosure of Invention

The invention aims to provide a building damping device convenient for fault detection so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a building damping device convenient to fault detection, includes base, bearing frame, heel post, screw thread post, regulating wheel and spacing post, the base is the inside rectangle structure of seting up the surge bin, install the bearing frame in the surge bin, the bottom of bearing frame articulates there are a plurality of heel posts, the bottom structure of surge bin has a plurality of spliced poles that supply the heel post to peg graft, heel post and spliced pole sliding connection, the screw thread post is all installed to four side top inside of base, the second spout of having seted up a plurality of adaptation screw thread posts in the base, it is a plurality of the slide bar is all pegged graft and installed to the inside of screw thread post, the spread groove of having seted up the adaptation slide bar in the screw thread post, and it is a plurality of the one end and the screw thread post sliding connection of slide bar, the other end and the relative side fixed connection of bearing frame of a plurality.

Preferably, the bottom end of the bearing column is provided with a first sliding block, a first sliding groove for the first sliding block to slide is formed in the connecting column, a first spring is installed in the first sliding groove, the top end of the first spring is connected with the bottom end of the bearing column, and the bottom end of the first spring is connected with the bottom end of the first sliding groove.

Preferably, the slide bar is close to the one end of screw thread post and is constructed the second slider, the inside third spout of seting up the adaptation second slider of screw thread post, install the second spring in the spread groove, the one end and the spread groove of second spring are connected, the other end and the sliding rod connection of second spring.

Preferably, the regulating wheel is installed to the outer fringe face of screw thread post, the regulating wheel is circular shape platelike structure, the internal structure of regulating wheel have with the screw of screw thread post outer fringe face interlock, just the mid-mounting of regulating wheel has the bearing that supplies regulating wheel pivoted, the top of base is extended to the top of regulating wheel.

Preferably, the side symmetric construction of base has a plurality of spacing posts, just the dust mask is installed on the top in shock attenuation storehouse, and one side and the top in shock attenuation storehouse of dust mask are connected, and the opposite side and the side of bearing frame of dust mask are connected.

Preferably, a plurality of connecting rods are installed to the inside bottom of bearing frame, and the top of a plurality of connecting rods supports jointly and has the connecting frame, just two planimetric devices are installed perpendicularly to the top of bearing frame.

The invention has the technical effects and advantages that: according to the building damping device convenient for fault detection, the bearing frame is arranged in the base, the bearing column is hinged to the bottom end of the bearing frame, and the bearing column is matched with the connecting column, so that the connecting column cannot be damaged when the bearing frame horizontally shakes, the damage rate of the damping device can be reduced, and the building damping device is practical; through installing the slide bar in four sides of bearing frame, by regulating wheel regulation screw thread post, by screw thread post and slide bar cooperation, through installing the levelling device on bearing frame top, can adjust the bearing frame to a relatively horizontally installation environment, can improve the stability of building.

Drawings

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

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

fig. 3 is an enlarged schematic view of the structure at B in fig. 2 according to the present invention.

In the figure: the device comprises a base 1, a damping bin 101, a connecting column 102, a first sliding chute 103, a second sliding chute 104, a bearing frame 2, a connecting rod 201, a connecting frame 202, a leveling device 203, a bearing column 3, a first sliding block 301, a first spring 302, a threaded column 4, a sliding rod 401, a second sliding block 402, a third sliding chute 403, a connecting groove 404, a second spring 405, an adjusting wheel 5, a bearing 501, a limiting column 6 and a dustproof film 601.

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.

The invention provides a building damping device convenient for fault detection, which comprises a base 1, a bearing frame 2, bearing columns 3, threaded columns 4, an adjusting wheel 5 and a limiting column 6, wherein the base 1 is of a rectangular structure with a damping bin 101 arranged inside, the bearing frame 2 is arranged in the damping bin 101, the bottom end of the bearing frame 2 is hinged with a plurality of bearing columns 3, in the concrete implementation, the bearing frame 2 can move towards any direction on the bearing columns 3, the bottom end of the damping bin 101 is provided with a plurality of connecting columns 102 for the bearing columns 3 to be inserted, the bearing columns 3 are connected with the connecting columns 102 in a sliding manner, the threaded columns 4 are arranged inside the top ends of the four sides of the base 1, a plurality of second sliding chutes 104 matched with the threaded columns 4 are arranged in the base 1, and sliding rods 401 are inserted and arranged inside the threaded columns 4, the threaded column 4 is internally provided with a connecting groove 404 matched with the sliding rod 401, one end of the sliding rod 401 is connected with the threaded column 4 in a sliding mode, the other ends of the sliding rods 401 are fixedly connected with the opposite side faces of the bearing frame 2, the sliding rod 401 is limited by adjusting the threaded column 4 during specific implementation, and the bearing frame 2 can be adjusted to be relatively horizontal.

Specifically, a first sliding block 301 is configured at the bottom end of the bearing column 3, a first sliding groove 103 for the first sliding block 301 to slide is formed in the connecting column 102, a first spring 302 is installed in the first sliding groove 103, the top end of the first spring 302 is connected with the bottom end of the bearing column 3, and the bottom end of the first spring 302 is connected with the bottom end of the first sliding groove 103.

Specifically, a second sliding block 402 is configured at one end of the sliding rod 401 close to the threaded column 4, a third sliding groove 403 matched with the second sliding block 402 is formed in the threaded column 4, a second spring 405 is installed in the connecting groove 404, one end of the second spring 405 is connected with the connecting groove 404, and the other end of the second spring 405 is connected with the sliding rod 401.

Specifically, regulating wheel 5 is installed to the outer fringe face of screw thread post 4, regulating wheel 5 is circular shape platelike structure, regulating wheel 5's internal structure have with the screw of the outer fringe face interlock of screw thread post 4, just regulating wheel 5's mid-mounting has the bearing 501 that supplies regulating wheel 5 pivoted, the top of base 1 is extended to the top of regulating wheel 5, and during concrete implementation, regulating wheel 5 commissions outer fringe face structure has the screw thread, improves frictional force, the regulation of being convenient for.

Specifically, the side of the base 1 is symmetrically provided with a plurality of limiting columns 6, the top end of the damping cabin 101 is provided with a dustproof film 601, the dustproof film 601 can be made of plastic film, but the dustproof film 601 is not limited to the plastic film, one side of the dustproof film 601 is connected with the top end of the damping cabin 101, and the other side of the dustproof film 601 is connected with the side of the bearing frame 2.

Specifically, a plurality of connecting rods 201 are installed to the inside bottom of bearing frame 2, and the top of a plurality of connecting rods 201 supports jointly has connection frame 202, just two levelling devices 203, the available level bar of levelling device 203 are installed perpendicularly to the top of bearing frame 2.

The theory of operation, this building damping device convenient to fault detection, when using, fix base 1 in the assigned position, then can improve base 1's stability by a plurality of spacing posts 6, then honor a plurality of regulating pulleys 5 of smooth rotation, drive screw thread post 4 by regulating pulley 5, with 4 horizontal migration of screw thread post, it is spacing to carry out elasticity by second spring 405 to slide bar 401, then observe levelling device 203, adjust bearing frame 2 to relative level, then with concrete placement inside bearing frame 2, by connecting rod 201 and connection frame 202, can improve the condensation degree of concrete and bearing frame 2, this building damping device convenient to fault detection, when can avoiding building horizontal migration, produce destruction to vertical damping device, and can provide a relative horizontally installation environment for the building.

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 may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. A building shock absorbing device that facilitates fault detection, comprising a base (1), a load-bearing frame (2), a load-bearing column (3), a threaded column (4), an adjustment wheel (5) and a limit column (6); It is characterized in that: the base (1) is a rectangular structure with a shock-absorbing chamber (101) opened therein, a load-bearing frame (2) is installed in the shock-absorbing chamber (101), and the bottom of the load-bearing frame (2) The ends are hinged with a plurality of load-bearing columns (3), the bottom end of the shock-absorbing chamber (101) is configured with a plurality of connection columns (102) for the load-bearing columns (3) to be inserted into, and the load-bearing columns (3) are connected with The column (102) is slidably connected; Threaded posts (4) are installed inside the top ends of the four sides of the base (1), and a plurality of second sliding grooves (104) adapted to the threaded posts (4) are opened in the base (1). A sliding rod (401) is inserted and installed inside the threaded column (4), a connecting groove (404) adapted to the sliding rod (401) is opened in the threaded column (4), and a plurality of the sliding rods One end of the (401) is slidably connected to the threaded column (4), and the other ends of the plurality of sliding rods (401) are fixedly connected to the opposite side of the load-bearing frame (2). 2. A building shock absorption device for easy fault detection according to claim 1, characterized in that: the bottom end of the load-bearing column (3) is configured with a first sliding block (301), and the connecting column (102) ) is provided with a first sliding groove (103) for sliding the first sliding block (301), a first spring (302) is installed in the first sliding groove (103), and the top end of the first spring (302) is connected to the The bottom end of the bearing column (3) is connected, and the bottom end of the first spring (302) is connected with the bottom end of the first chute (103). 3. A building damping device for easy fault detection according to claim 1, characterized in that: a second sliding block (402) is configured at one end of the sliding rod (401) close to the threaded column (4), so A third chute (403) adapted to the second sliding block (402) is provided inside the threaded column (4), a second spring (405) is installed in the connecting groove (404), and the second spring ( One end of the second spring (405) is connected with the connecting groove (404), and the other end of the second spring (405) is connected with the sliding rod (401). 4. A building damping device for easy fault detection according to claim 1, characterized in that: an adjusting wheel (5) is installed on the outer edge surface of the threaded column (4), and the adjusting wheel (5) It is a circular plate-like structure, the inside of the adjusting wheel (5) is configured with a thread that engages with the outer edge surface of the threaded column (4), and the middle of the adjusting wheel (5) is installed with an adjusting wheel (5) For the rotating bearing (501), the top end of the adjusting wheel (5) extends out of the top end of the base (1). 5. A building shock absorption device for easy fault detection according to claim 1, characterized in that: the side of the base (1) is symmetrically structured with a plurality of limit posts (6), and the shock absorption chamber is A dust-proof film (601) is installed on the top of the (101), one side of the dust-proof film (601) is connected to the top of the shock-absorbing chamber (101), and the other side of the dust-proof film (601) is connected to the load-bearing frame (2) side connection. 6. A building shock absorbing device for easy fault detection according to claim 1, characterized in that: a plurality of connecting rods (201) are installed on the inner bottom end of the load-bearing frame (2), and the plurality of connecting rods The top end of (201) is jointly supported with a connecting frame (202), and the top end of the load-bearing frame (2) is vertically installed with two leveling devices (203). 7. A building damping device for easy fault detection according to claim 1, characterized in that: when the building damping device for fault detection is in use, the base (1) is fixed at a specified position, and then the A plurality of limit posts (6) can improve the stability of the base (1), and then Rongguang rotates a plurality of adjusting wheels (5), the adjusting wheels (5) drive the threaded posts (4), and move the threaded posts (4) horizontally , the sliding rod (401) is elastically limited by the second spring (405), then the leveling device (203) is observed, the load-bearing frame (2) is adjusted to a relative level, and then the concrete is poured inside the load-bearing frame (2) , by the connecting rod (201) and the connecting frame (202), the coagulation degree of the concrete and the load-bearing frame (2) can be improved.

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