CN209638729U - A kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism - Google Patents

Abstract

The utility model relates to electromechanical equipment support technology fields, and disclose a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism, including transverse slat, through-hole is offered at the upper end center of transverse slat, movable sleeve is connected to connecting rod in through-hole, strip through-hole is offered on the bar wall of connecting rod, shaft is slidably connected in strip through-hole, two sides opposite with through-hole are fixedly connected respectively at the both ends of shaft, the first spring is equipped in strip through-hole, it is fixedly connected on the downside of one end of first spring and strip through-hole, the other end of first spring is fixedly connected with baffle, the upper end of baffle and the axial wall of shaft are slidably connected, the left and right ends lower lateral rods wall of connecting rod offers T-type sliding slot.The utility model, can be by multiple damping, and the shaking force effectively generated to electromechanical equipment by earthquake buffers, and greatly reduces electromechanical equipment stress and falls a possibility that causing secondary injury.

Description

A kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism

Technical field

The utility model relates to electromechanical equipment support technology field more particularly to a kind of buildings with multiple aseismatic mechanism Electromechanical equipment para-seismic support.

Background technique

Build electromechanical vibration prevention system composition include riser bundle, girder steel and purlin clamp, loop pipe hang, shockproof diagonal brace system System, shockproof steel hanging piece and support etc., in modern architecture construction, it is well known that when coming earthquake, due to electric wire, pipeline, The electromechanical equipments such as fire-fighting system fall initiation secondary injury (such as fire, falling object, leakage etc.) caused by secondary casualties Ratio accounts for injures and deaths, and more than half leads to our fire-fighting system, water supply system and alarm system and due to seismic force It fails or falls, cause bigger casualties.So in present anti-seismic technology, the anti-seismic performances of our architecture noumenons it is high and It does not fall, electromechanical equipment leads to device fall and cause secondary injures and deaths, the antidetonation of all seems due to not having reinforced shakeproof energy It is meaningless.

In the prior art, for installing electric wire, pipeline, the bracket of the electromechanical equipments such as fire-fighting system, structure is simple, although energy Enough play the role of firm installation, but anti-seismic performance is poor when in use, when by macroseism, electric wire, pipeline, fire-fighting system etc. Electromechanical equipment, which is easy to fall, causes secondary injury.

Summary of the invention

Purpose of the utility model is to solve in the prior art build electromechanical equipment mounting bracket, anti-seismic performance compared with A kind of building electromechanical equipment with multiple aseismatic mechanism for being easy the problem of falling when poor electromechanical equipment is by macroseism, and proposing Use para-seismic support.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism, including transverse slat, the upper end of the transverse slat Through-hole is offered at center, movable sleeve is connected to connecting rod in the through-hole, strip through-hole is offered on the bar wall of the connecting rod, Slidably connect shaft in the strip through-hole, two sides opposite with through-hole are fixedly connected respectively at the both ends of the shaft, described It is equipped with the first spring in strip through-hole, is fixedly connected on the downside of one end of first spring and strip through-hole, first bullet The other end of spring is fixedly connected with baffle, and the upper end of the baffle and the axial wall of shaft are slidably connected, the left and right of the connecting rod Both ends lower lateral rods wall offers T-type sliding slot, two T-type sliding slots in be connected with buffer gear, the buffer gear with The lower end of transverse slat connects, and movable sleeve is connected to casing on the bar wall of the connecting rod, at the lower end nozzle of described sleeve pipe in along fixation It is connected with ring block, the upper end of the connecting rod passes through ring block and is fixedly connected with spacing ball, right on the tube wall of described sleeve pipe Title is fixedly connected there are two mounting blocks.

Preferably, the buffer gear includes the T-type sliding block being slidably connected in T-type sliding slot, and the T-type sliding block is opposite Two sides are fixedly connected to second spring, and two one end of the second spring far from T-type sliding block are opposite with T-type sliding slot respectively Two sides are fixedly connected, and one end of the T-type sliding block is rotatably connected to drive rod by pivot pin, and the drive rod is far from T-type sliding block One end be rotatablely connected by the lower end of rotary shaft and transverse slat.

It is preferably, interior at the lower end nozzle of described sleeve pipe that along being fixedly connected, there are two symmetrical fixed block, two institutes It states the opposite side of fixed block and is fixedly connected to rubber block, and rubber block and the bar wall of connecting rod are slidably connected.

Preferably, it is connected with limit plate surely at left and right sides of the upper end of the transverse slat.

Preferably, the lower end of the connecting rod is fixedly connected with inverted U-shaped link block, and the U-shaped link block is opposite Two sides are connected with mounting plate by pin rotation, and multiple mounting holes are uniformly provided on mounting plate.

Preferably, the material of the transverse slat and connecting rod is aluminium alloy.

Compared with prior art, it is anti-to provide a kind of building electromechanical equipment use with multiple aseismatic mechanism for the utility model Shake bracket, have it is following the utility model has the advantages that

1, the building electromechanical equipment para-seismic support with multiple aseismatic mechanism, passes through the limit being arranged in connecting rod Ball, when connecting rod stress, connecting rod can be swung in casing, connecting rod stress swinging extrusion rubber block, rubber block stress It generates deformation and is given to one reversed power of connecting rod, reset connecting rod, while transverse slat moves shaft by the power of electromechanical equipment Dynamic, shaft is mobile to drive baffle to squeeze the first spring, and the first spring stress shrinks the power generated to transverse slat and buffers, Neng Gouyou The shaking force of effect generated to electromechanical equipment by earthquake buffers, and greatly reduces a possibility that electromechanical equipment stress is fallen.

2, the building electromechanical equipment para-seismic support with multiple aseismatic mechanism, passes through the T-type being arranged in T-type sliding slot Sliding block, in transverse slat stress, transverse slat inclination squeezes drive rod, and drive rod stress is mobile to drive T-type sliding block mobile, and T-type sliding block moves Dynamic to squeeze second spring, second spring forced contraction is given to one reversed power of T-type sliding block simultaneously, and then sets to electromechanics on transverse slat Arrived shaking force is buffered.

It is not directed to part in the device to be the same as those in the prior art or can be realized by using the prior art, this is practical new Type, can be by multiple damping, and the shaking force effectively generated to electromechanical equipment by earthquake buffers, and substantially reduces Electromechanical equipment stress is fallen a possibility that causing secondary injury.

Detailed description of the invention

Fig. 1 be the utility model proposes it is a kind of with multiple aseismatic mechanism building electromechanical equipment para-seismic support knot Structure schematic diagram；

Fig. 2 is the schematic enlarged-scale view in Fig. 1 at A.

In figure: 1 connecting rod, 2 rubber blocks, 3 fixed blocks, 4 casings, 5 mounting blocks, 6 ring blocks, 7 spacing balls, 8 transverse slats, 9 U Type connection, 10 mounting plates, 11 limit plates, 12 drive rods, 13 shafts, 14 baffles, 15 T-type sliding slots, 16 first springs, 17 second Spring, 18 T-type sliding blocks.

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.

In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Referring to Fig.1-2, a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism, including transverse slat 8, transverse slat 8, for installing electromechanical equipment, offer through-hole, movable sleeve is connected to connecting rod 1 in through-hole, through-hole at the upper end center of transverse slat 8 The diameter of the big connecting rod 1 in aperture offers strip through-hole on the bar wall of connecting rod 1, slidably connects shaft in strip through-hole 13, two sides opposite with through-hole are fixedly connected respectively at the both ends of shaft 13, and the first spring 16, the first spring are equipped in strip through-hole It is fixedly connected on the downside of 16 one end and strip through-hole, the other end of the first spring 16 is fixedly connected with baffle 14, baffle 14 Upper end and the axial wall of shaft 13 are slidably connected, and the left and right ends lower lateral rods wall of connecting rod 1 offers T-type sliding slot 15, two T-types Sliding slot 15 is interior to be connected with buffer gear, and buffer gear is connect with the lower end of transverse slat 8, and buffer gear includes being slidably connected at T-type T-type sliding block 18 in sliding slot 15, the opposite two sides of T-type sliding block 18 are fixedly connected to second spring 17, two second springs 17 Two sides opposite with T-type sliding slot 15 are fixedly connected respectively for one end far from T-type sliding block 18, and one end of T-type sliding block 18 passes through pivot pin It is rotatably connected to drive rod 12, the one end of drive rod 12 far from T-type sliding block 18 is rotated by the lower end of rotary shaft and transverse slat 8 to be connected It connects, movable sleeve is connected to casing 4 on the bar wall of connecting rod 1, and the caliber of casing 4 is greater than the diameter of connecting rod 1, the lower end pipe of casing 4 Along ring block 6 is fixedly connected at mouthful, the upper end of connecting rod 1 passes through ring block 6 and is fixedly connected with spacing ball 7, spacing ball 7 Diameter be less than the internal diameter of ring block 6, at the lower end nozzle of casing 4 in along being fixedly connected there are two symmetrical fixed block 3, Two opposite sides of fixed block 3 are fixedly connected to rubber block 2, and rubber block 2 and the bar wall of connecting rod 1 are slidably connected, rubber Blob of viscose 2 can buffer the oscillatory forces of connecting rod 1, be symmetrically fixedly connected on the tube wall of casing 4 there are two mounting blocks 5, horizontal It is connected with limit plate 11 surely at left and right sides of the upper end of plate 8, the lower end of connecting rod 1 is fixedly connected with inverted U-shaped link block 9, U The opposite two sides of type link block 9 are connected with mounting plate 10 by pin rotation, and multiple installations are uniformly provided on mounting plate 10 Hole, facilitates pipe laying facility, and the material of transverse slat 8 and connecting rod 1 is aluminium alloy, reduces the weight of electromechanical equipment bracket, and It is not easy to corrode.

In the utility model, in use, mounting blocks 5 are fixed on building using bolt, when 1 stress of connecting rod, Connecting rod 1 can be swung by the limit of spacing ball 7 in casing 4,1 stress swinging extrusion rubber block 2 of connecting rod, rubber block 2 Stress generates deformation and is given to 1 one reversed power of connecting rod, resets connecting rod 1, while transverse slat 8 is made by the power of electromechanical equipment Shaft 13 is mobile, and shaft 13 is mobile to drive baffle 14 to squeeze the first spring 16, and 16 forced contraction of the first spring generates transverse slat 8 Power is buffered, and the shaking force that can be effectively generated to electromechanical equipment by earthquake buffers, in 8 stress of transverse slat, transverse slat 8 Inclination squeezes drive rod 12, and 12 stress of drive rod is mobile to drive T-type sliding block 18 mobile, and T-type sliding block 18 is mobile to squeeze second spring 17,17 forced contraction of second spring is given to 18 1 reversed power of T-type sliding block simultaneously, so to electromechanical equipment on transverse slat 8 by Shaking force buffered.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism, including transverse slat (8), which is characterized in that institute It states and offers through-hole at the upper end center of transverse slat (8), movable sleeve is connected to connecting rod (1) in the through-hole, the connecting rod (1) Strip through-hole is offered on bar wall, is slidably connected in the strip through-hole shaft (13), the both ends difference of the shaft (13) The two sides opposite with through-hole are fixedly connected, and are equipped with the first spring (16) in the strip through-hole, and the one of first spring (16) It holds and is fixedly connected on the downside of strip through-hole, the other end of first spring (16) is fixedly connected with baffle (14), the gear The upper end of plate (14) and the axial wall of shaft (13) are slidably connected, and the left and right ends lower lateral rods wall of the connecting rod (1) offers T Type sliding slot (15), two T-type sliding slots (15) are interior to be connected with buffer gear, the lower end of the buffer gear and transverse slat (8) It connects, movable sleeve is connected to casing (4) on the bar wall of the connecting rod (1), interior at the lower end nozzle of described sleeve pipe (4) to connect along fixed It is connected to ring block (6), the upper end of the connecting rod (1) passes through ring block (6) and is fixedly connected with spacing ball (7), described sleeve pipe (4) there are two being symmetrically fixedly connected on tube wall mounting blocks (5).

2. a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism according to claim 1, feature It is, the buffer gear includes the T-type sliding block (18) being slidably connected in T-type sliding slot (15), and the T-type sliding block (18) is opposite Two sides be fixedly connected to second spring (17), two second springs (17) are distinguished far from the one end of T-type sliding block (18) The two sides opposite with T-type sliding slot (15) are fixedly connected, and one end of the T-type sliding block (18) is rotatably connected to drive rod by pivot pin (12), the one end of the drive rod (12) far from T-type sliding block (18) is rotatablely connected by the lower end of rotary shaft and transverse slat (8).

3. a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism according to claim 1, feature Be, at the lower end nozzle of described sleeve pipe (4) in along being fixedly connected there are two symmetrical fixed block (3), two are described solid Determine the opposite side of block (3) to be fixedly connected to rubber block (2), and rubber block (2) and the bar wall of connecting rod (1) are slidably connected.

4. a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism according to claim 1, feature It is, is connected with limit plate (11) surely at left and right sides of the upper end of the transverse slat (8).

5. a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism according to claim 1, feature Be, the lower end of the connecting rod (1) is fixedly connected with inverted U-shaped link block (9), the U-shaped link block (9) it is opposite two Side is connected with mounting plate (10) by pin rotation, and is uniformly provided with multiple mounting holes on mounting plate (10).

6. a kind of building electromechanical equipment para-seismic support with multiple aseismatic mechanism according to claim 1, feature It is, the material of the transverse slat (8) and connecting rod (1) is aluminium alloy.