CN105952978B - Build the damper of electromechanical equipment and pipeline - Google Patents

Abstract

The invention discloses a kind of dampers for building electromechanical equipment and pipeline, and technical problems to be solved are not only vibration damping but also energy dissipating, are conveniently installed and used.The present invention includes firm banking, and firm banking is equipped with damper, and the damper includes equipment installation pedestal, damping means, and damping means are made of damper fixed plate and vibration damping group；Vibration damping group is slidably connected in damper fixed plate；Vibration damping group is made of spring fixed link, shock-absorbing spring and energy dissipating rubber column, spring fixed link is set in the hole of shock mounting plate, spring fixed link is formed with hole and is slidably connected, shock-absorbing spring is sleeved on outside spring fixed link, spring fixed link lower end is connected with energy dissipating rubber column, the upper end of spring fixed link is fixedly connected with equipment installation pedestal, and energy dissipating rubber column is set in shock-absorbing spring.Compared with prior art, using the vibration damping group of compressed spring compound rubber column combination structure, in channel steel, load is distributed on damper, is reduced installation dimension, is conveniently installed and used, vibration damping energy dissipating.

Description

Build the damper of electromechanical equipment and pipeline

Technical field

The present invention relates to a kind of Architectural Equipment, particularly a kind of installation equipment for building electromechanical equipment.

Background technology

At present, countries in the world use the single of spring or vibration isolation glue substantially for building the vibration damping energy dissipation measure of electromechanical equipment Pattern.Spring damping is coordinated using single large scale spring and installation pedestal, and such structure causes scantling excessive, is unfavorable for Though installation and spring can effectively reduce mechanical oscillation intensity, the vibration frequency of equipment is increased.Vibration isolation glue is arranged on installation pedestal On, vibrational energy can be largely absorbed using vibration isolation glue, but since the aging of rubber electrodes fatiguability and its bearing strength have Limit, effectiveness in vibration suppression is poor in this way for institute.In addition to above two form, vibration damping can be met in the industry but also meet energy dissipating Belong to hydraulic damping system, but the system is suitable only for large scale equipment and large space installation need to be mounted so that space is excessive Environment uses, and can not meet and be installed and used in the Mechatronic Systems of modern complex building.

Invention content

The object of the present invention is to provide a kind of dampers for building electromechanical equipment and pipeline, and technical problems to be solved are both Vibration damping energy dissipating again, is conveniently installed and used.

To solve the above problems, the present invention is realized using following technical scheme：It is a kind of to build subtracting for electromechanical equipment and pipeline Shake device, and including firm banking, the firm banking is equipped with damper, and the damper includes equipment installation pedestal, set on setting The damping means of standby installation pedestal lower part, damping means are by damper fixed plate and the vibration damping group being connected under damper fixed plate It forms；Damper fixed plate is arranged in parallel along its length with equipment installation pedestal, and the vibration damping group is slidably connected at damper In fixed plate；Vibration damping group is made of spring fixed link, shock-absorbing spring and energy dissipating rubber column, is provided on the waist of damper fixed plate Hole, the spring fixed link being vertically arranged are set in hole, and the upper and lower ends of spring fixed link stretch out hole, spring fixed link and hole shape Into being slidably connected, shock-absorbing spring is sleeved on outside spring fixed link, and spring fixed link lower end is connected with energy dissipating rubber column, and spring is solid The upper end of fixed pole is fixedly connected with equipment installation pedestal, and energy dissipating rubber column is set in shock-absorbing spring, the both ends of damper fixed plate By damper fixing bolt pass through damper fixed plate after be set on firm banking in damper fixing nut be threadedly coupled, So as to which damper fixed plate is fixed on firm banking, the minimum range between equipment installation pedestal and damper fixed plate is The height of the bolt head of damper fixing bolt.

Spring fixed link of the present invention is cylindric, and being equipped with outer diameter at the middle part of spring fixed link is more than cylinder outer diameter Limited step, the outer diameter of limited step is more than the hole of damper fixed plate and the internal diameter of shock-absorbing spring, and limited step, which is set on, to be subtracted The lower end for fixed plate of shaking, the upper end of shock-absorbing spring are against on the lower face of limited step, and the cylinder stretching on limited step top subtracts The hole for device fixed plate of shaking forms with the hole and is slidably connected, and the upper end of cylinder extension is fixedly connected with equipment installation pedestal, circle The bottom of column is less than the small end of cylinder outer diameter for external dimensions.

Energy dissipating rubber column of the present invention is column, is vertically arranged, upper end is provided with hole, for spring fixed link lower part Small end is put in, and the small end of the cylinder lower end is formed with the hole of energy dissipating rubber column upper end and is interference fitted, the upper end of energy dissipating rubber column It is connect with the lower end of shock-absorbing spring, there are gaps between the lower face of the energy dissipating rubber column and the waist top of firm banking.

Channel steel of the section of equipment installation pedestal of the present invention for c-type, opening upwards, waist are horizontally disposed with, bipod Simultaneously bending still further below after inside horizontal bending upward, forms two buttons to concave.

Two semi-circular shapes that damper of the present invention is further included set on equipment installation pedestal top are opposite disposed Pipe clamp, the lower end of pipe clamp are equipped with the clamping portion of inverted T-shape, and the clamping portion card access device installation pedestal two of pipe clamp lower part is inwardly In recessed button, fixation is connected with pipe clamp fixing nut by pipe clamp fixing bolt on pipe clamp top.

The quantity of vibration damping group of the present invention is no less than three groups.

Damper fixed plate section of the present invention is the channel steel of c-type, and Open Side Down for channel steel, and waist is horizontally disposed with, two Foot is downward.

Firm banking of the present invention is C-type steel, and the waist of firm banking is horizontally disposed with, and the bipod of firm banking is upward simultaneously Bending still further below after inside horizontal bending, forms two buttons to concave, the notch length and firm banking of the firm banking Waist height it is equal, the notch of damper fixed plate cover in the upper end of firm banking, make firm banking upper end be inserted into damper consolidate In the notch of fixed board, rectangular shock absorber fixing nut is arranged in two buttons to concave of firm banking, so as to fix bottom Seat is fixed with damper fixed plate.

Damper fixing nut shape of the present invention is rectangle.

Shock-absorbing spring of the present invention is spiral compression spring.

Compared with prior art, the present invention using the vibration damping group of compressed spring compound rubber column combination structure, mounted on slot In steel, load is distributed on damper, is reduced installation dimension, is conveniently installed and used, vibration damping energy dissipating.

Description of the drawings

Fig. 1 is the structural decomposition diagram of the present invention.

Fig. 2 is the front view of Fig. 1.

Fig. 3 is the left view of Fig. 1.

Fig. 4 is the vertical view of Fig. 1.

Fig. 5 is the sectional view one of Fig. 1.

Fig. 6 is the sectional view two of Fig. 1.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawings and examples.As shown in Figures 1 to 6, it is of the invention The damper (damper) of electromechanical equipment and pipeline is built, if being building electromechanical equipment or pipe there are one the channel steel that section is c-type The equipment installation pedestal 3 in road 9, the opening upwards of channel steel, waist (height, waist it is high h) be horizontally disposed with, bipod (the wide b of leg) upward and to Bending still further below after interior horizontal bending forms two buttons to concave.3 lower part of equipment installation pedestal is equipped with damping means, vibration damping Component is made of damper fixed plate 4 and the vibration damping group being connected under damper fixed plate 4, and the quantity of vibration damping group is no less than three Group.

4 section of damper fixed plate be c-type channel steel, Open Side Down for channel steel, and waist is horizontally disposed with, bipod downward, vibration damping Device fixed plate 4 is arranged in parallel along its length with equipment installation pedestal 3, and equipment installation pedestal 3 is suspended from the upper of damper fixed plate 4 Side, height of the minimum range for the bolt head of damper fixing bolt 5 between equipment installation pedestal 3 and damper fixed plate 4.

Vibration damping group is slidably connected in damper fixed plate 4.Vibration damping group is by spring fixed link 10, shock-absorbing spring 11 and energy dissipating Rubber column 12 forms.Hole 13 is provided on the waist of damper fixed plate 4, the spring fixed link 10 being vertically arranged is set in hole 13, bullet The upper and lower ends of spring fixed link 10 stretch out hole 13, and spring fixed link 10 is formed with hole 13 and is slidably connected.Outside spring fixed link 10 Shock-absorbing spring 11 is cased with, shock-absorbing spring 11 is spiral compression spring, and 10 lower end of spring fixed link is connected with energy dissipating rubber column 12。

Spring fixed link 10 is cylindric, and the limiting stand that outer diameter is more than cylinder outer diameter is equipped at the middle part of spring fixed link 10 Rank 14, the outer diameter of limited step 14 are more than the hole 13 of damper fixed plate 4 and the internal diameter of shock-absorbing spring 11, shock-absorbing spring 11 it is upper End is against on the lower face of limited step 14.The cylinder on 14 top of limited step stretches out the hole 13 of damper fixed plate 4, with the hole Formation is slidably connected, and cylinder extension is higher than the minimum range between equipment installation pedestal 3 and damper fixed plate 4, cylinder The upper end of extension connect fixation by way of welding or anchoring with equipment installation pedestal 3.The lower part set of limited step 14 Shock-absorbing spring 11 is put, the bottom of cylinder is less than the small end 15 of cylinder outer diameter for external dimensions, and small end 15 is used to put in energy dissipating rubber In the hole of 12 upper end of rubber column gel column.Energy dissipating rubber column 12 is column, is vertically arranged, upper end is provided with hole, for 10 lower part of spring fixed link Small end 15 put in.The small end 15 of cylinder lower end is formed with the hole of 12 upper end of energy dissipating rubber column and is interference fitted, energy dissipating rubber column 12 Upper end connect with the lower end of shock-absorbing spring 11, the both ends of energy dissipating rubber column 12 and the both ends of shock-absorbing spring 11 all keep water Prosposition is put.Under normality, when building electromechanical equipment or pipeline 9 is not installed in equipment installation pedestal 3, limited step 14 is by vibration damping The tension of spring 11 itself influences, and limited step 14 is located at the lower section in the hole 13 of damper fixed plate 4, the upper end of limited step 14 Face is bonded with the lower face of damper fixed plate 4, and the gap between damper fixed plate 4 and equipment installation pedestal 3 is more than one The height of bolt head is reserved with gap between the top of 7 waist of lower end and channel steel of energy dissipating rubber column 12；When building electromechanical equipment or After pipeline 9 is mounted in equipment installation pedestal 3, due to 3 stress of equipment installation pedestal, cylinder extension is also downwardly applied at this time Pressure, limited step 14 start far from damper fixed plate 4, after shock-absorbing spring 11 is by gravity compressed from top, energy dissipating Rubber column 12 is also pressurized simultaneously.

When it is building electromechanical equipment to be mounted, the connection mode and equipment of the prior art can be used in building electromechanical equipment Installation pedestal 3 connects；When it is pipeline to be mounted, 3 top of equipment installation pedestal, i.e. channel steel top, if there are two semicircle The opposite disposed pipe clamp 2 of shape, the pipeline 9 for connecting mounted are fixed in pipe clamp 2, and the word of falling T is equipped in the lower part of pipe clamp 2 The clamping portion 17 of shape, pipe clamp 2 by 17 card access device installation pedestal 3 two of clamping portion concave buckle in, on 2 top of pipe clamp Pipeline 9 is fixed on damper by pipe clamp fixing bolt 1 and pipe clamp fixing nut 8.

Equipment installation pedestal 3 uses channel steel of the section for c-type, is fixed convenient for the button that two above channel steel concave different The pipe clamp 2 of size facilitates the various sizes of pipeline 9 of installation.Equipment installation pedestal 3 can also use the section bar of other cross sectional shapes Or plank, to facilitate fixed building electromechanical equipment or pipeline 9.

The both ends of 4 waist of damper fixed plate are drilled with mounting hole 16 respectively, and damper fixing bolt 5 is passed through after mounting hole with subtracting Device fixing nut 6 of shaking is threadedly coupled.6 shape of damper fixing nut is preferably rectangular, and the building electromechanics with being originally intended to installation is set Standby or pipeline firm banking 7 connects, and firm banking 7 is C-type steel, and the waist of firm banking 7 is horizontally disposed with, and the two of firm banking 7 Foot upward and inwardly bending still further below after horizontal bending, forms two buttons to concave, the notch length of the firm banking 7 with The waist height of firm banking 7 is equal, and the notch of damper fixed plate 4 covers the upper end in the upper end of firm banking 7, making firm banking 7 It is inserted into the notch of damper fixed plate 4, rectangular shock absorber fixing nut 6 is arranged on two buttons to concave of firm banking 7 Interior, so as to which firm banking 7 and damper fixed plate 4 be fixed, the cross sectional shape of damper fixed plate 4 can also use other shapes The section bar or plank of shape, to facilitate the connector with the equipment installation pedestal 3 of different cross section shape and the other shapes of original equipment Connection.

Vibration damping group is arranged between the bipod of firm banking 7.

After installation fixes building electromechanical equipment or pipeline 9 on the damper of firm banking 7, electromechanical equipment or pipe are built The gravity in road 9 passs spring fixed link 10, the limited step compressing shock-absorbing spring of spring fixed link 10 through equipment installation pedestal 3 11, shock-absorbing spring 11 after by gravity compressed by weight transfer to energy dissipating rubber column 12, make energy dissipating rubber column 12 while be pressurized, energy dissipating The bottom of rubber column 12 is contacted with the 7 waist bottom of firm banking of original equipment, so as to build the gravity of electromechanical equipment or pipeline 9 warp Shock-absorbing spring 11 and energy dissipating rubber column 12 are transferred to the firm banking 7 of original equipment.

When building electromechanical equipment or pipeline 9 vibrates, shock-absorbing spring 11 can effectively reduce vibration intensity, energy dissipating rubber Column 12 can effectively absorb the vibrational energy that shock-absorbing spring 11 is received.The quantity of vibration damping group regards building electromechanical equipment or pipeline 9 Depending on weight, the defects of rubber bearing strength is limited is effectively solved.

In the present invention, using compressed spring and the vibration damping group structure of rubber column, in the bipod of firm banking 7, The vibration damping and Dissipation of Energy of vibration generated in building electromechanical equipment or the operation of pipeline 9 is efficiently solved, according to single bullet Though spring damping, spring increases the natural frequency of vibration of equipment simultaneously, according to single rubber damping, though effect of energy dissipation is good, Rubber can lead to fatigue failure in chronic stress.Therefore, it using compressed spring and the vibration damping group structure of rubber column and is mounted on In firm banking 7, not only effective vibration damping energy dissipating, while installation space is also greatly saved.It is following in the market, firm banking 7 use is more and more common, and the structure of invention is with apparent perspective.

The building electromechanical equipment of invention and the damper of pipeline, not only vibration damping but also energy dissipating, simple in structure, at low cost, and installation makes With conveniently.

Claims (7)

1. a kind of damper for building electromechanical equipment, including firm banking (7), it is characterised in that：It is set on the firm banking (7) There is damper, the damper includes equipment installation pedestal (3), the damping means set on equipment installation pedestal (3) lower part, vibration damping Component is made of damper fixed plate (4) and the vibration damping group being connected under damper fixed plate (4)；Damper fixed plate (4) with Equipment installation pedestal (3) is arranged in parallel along its length, and the vibration damping group is slidably connected in damper fixed plate (4)；Vibration damping Group is made of spring fixed link (10), shock-absorbing spring (11) and energy dissipating rubber column (12), is provided on the waist of damper fixed plate (4) Hole (13), for the spring fixed link (10) being vertically arranged in hole (13), the upper and lower ends of spring fixed link (10) stretch out hole (13), spring fixed link (10) is formed with hole (13) and is slidably connected, and shock-absorbing spring (11) is sleeved on spring fixed link (10) outside, spring Fixed link (10) lower end is connected with energy dissipating rubber column (12), upper end and the equipment installation pedestal (3) of spring fixed link (10) It is fixedly connected, energy dissipating rubber column (12) in shock-absorbing spring (11), by damper fixed by the both ends of damper fixed plate (4) Bolt (5) is threadedly coupled across damper fixed plate (4) with the damper fixing nut (6) in firm banking (7) afterwards, from And damper fixed plate (4) is fixed on firm banking (7), between equipment installation pedestal (3) and damper fixed plate (4) Height of the minimum range for the bolt head of damper fixing bolt (5)；

The spring fixed link (10) is cylinder, and the limiting that outer diameter is more than cylinder outer diameter is equipped at the middle part of spring fixed link (10) Step (14), the outer diameter of limited step (14) are more than the hole (13) of damper fixed plate (4) and the internal diameter of shock-absorbing spring (11), limit For position step (14) set on the lower end of shock mounting plate (4), the upper end of shock-absorbing spring (11) is against the lower face of limited step (14) On, the cylinder on limited step (14) top stretches out the hole (13) of damper fixed plate (4), is formed and is slidably connected with the hole (13), The upper end of cylinder extension is fixedly connected with equipment installation pedestal (3), and the bottom of cylinder is less than for external dimensions outside cylinder The small end (15) of diameter；

The energy dissipating rubber column (12) is column, is vertically arranged, upper end is provided with hole, for the small end of spring fixed link (10) lower part (15) it puts in, the hole of cylinder the lowermost small end (15) and energy dissipating rubber column (12) upper end, which is formed, to be interference fitted, energy dissipating rubber The lower end of rubber column gel column (12) is connect with the lower end of shock-absorbing spring (11), the lower face of the energy dissipating rubber column (12) and firm banking (7) there are gaps above waist；

The quantity of the vibration damping group is no less than three groups.

2. the damper of building electromechanical equipment according to claim 1, it is characterised in that：The equipment installation pedestal (3) Section be c-type channel steel, opening upwards, waist is horizontally disposed with, bipod upward and inwardly bending still further below after horizontal bending, shape The button to concave into two.

3. the damper of building electromechanical equipment according to claim 1, it is characterised in that：The damper, which further includes, to be set on The opposite disposed pipe clamp (2) of two semi-circular shapes on equipment installation pedestal (3) top, the lower end of pipe clamp (2) are equipped with inverted T-shape Clamping portion (17), in what clamping portion (17) card access device installation pedestal (3) two of pipe clamp (2) lower part concaved buckle, in pipe Block (2) top to fix by pipe clamp fixing bolt (1) and pipe clamp fixing nut (8) connection.

4. the damper of building electromechanical equipment according to claim 1, it is characterised in that：The damper fixed plate (4) Section is the channel steel of c-type, and Open Side Down for channel steel, and waist is horizontally disposed with, and bipod is downward.

5. the damper of building electromechanical equipment according to claim 1, it is characterised in that：The firm banking (7) is c-type Steel, the waist of firm banking (7) are horizontally disposed with, the bipod of firm banking (7) upward and inwardly bending still further below after horizontal bending, shape The button to concave into two, the notch length of the firm banking (7) is equal with the waist height of firm banking (7), and damper is fixed The notch of plate (4) covers the notch that the upper end of firm banking (7) in the upper end of firm banking (7), is made to be inserted into damper fixed plate (4) In, damper fixing nut (6) is arranged in two buttons to concave of firm banking (7), thus by firm banking (7) with subtracting Device fixed plate of shaking (4) is fixed.

6. the damper of building electromechanical equipment according to claim 5, it is characterised in that:The damper fixing nut (6) shape is rectangle.

7. the damper of building electromechanical equipment according to claim 1, it is characterised in that：The shock-absorbing spring (11) is spiral shell Revolve compressed spring.