CN204403686U - Shock-absorption device pedestal - Google Patents

Abstract

A kind of shock-absorption device pedestal, comprising: a base body, top is used for load bearing equipment; One fixing bottom-plate, is located between this base body and floor; And at least one fixing-assembly, be made up of a stud and a nut, for fixing bottom-plate is locked on floor; It is characterized in that: a dampening assembly, comprising: a fibre cloth, be located at below this fixing bottom-plate; And a sheet metal, be located between this fibre cloth and this floor, the object increasing anti seismic efficiency can be reached.

Description

Shock-absorption device pedestal

Technical field

The utility model relates to a kind of shock-absorption device pedestal; Be used for load bearing equipment in particular to one, the shock-absorption device pedestal that the vibration influence equipment on floor operates can be prevented.

Background technique

In the high technology building such as Electronics Factory now, wafer factory or photoelectricity factory, mostly equipment high for the steady demands such as such as exposure machine being placed on one has on the equipment base of earthquake-resistant structure, uses the vibration influence equipment running avoiding floor to transmit.

Existing equipment base roughly comprises: a base body, a fixing bottom-plate and at least one fixing-assembly be made up of stud and nut.

Base body and fixing bottom-plate adopt steel to make mostly, can bear the weight of equipment, and the vibration influence equipment that floor can be avoided to transmit running.

Fixing-assembly system is for locking fixing bottom-plate on floor, use the stability increasing base body and fixing bottom-plate, but along with the progress of science and technology, equipment requirement is more and more meticulous, therefore antidetonation demand is also more and more high, therefore the antidetonation effect increasing existing equipment base has become one of main direction of studying of industry now.

In view of this utility model designer, is think hard funiculus, active research, is engaged in the experience of Related product research for many years, and through constantly test and improvement, finally develops the utility model.

Model utility content

The purpose of this utility model is to provide a kind of shock-absorption device pedestal increasing antidetonation effect.

The structure that the utility model achieves the above object comprises: a base body, is made up of steel, is located on floor, and top is used for load bearing equipment; One fixing bottom-plate, is located between this base body and floor; And at least one fixing-assembly, be made up of a stud and a nut, for fixing bottom-plate is locked on floor; Its feature is: a dampening assembly, comprising: a fibre cloth, is located at below this fixing bottom-plate; And a sheet metal, be located between this fibre cloth and this floor.

Preferably, this sheet metal is made with aluminum alloy, magnesium alloy or zinc alloy, can use absorbing vibration.

Preferably, be provided with at least one second dampening assembly further, this second dampening assembly comprises: one second fibre cloth, is located at above this fixing bottom-plate; And one second sheet metal, be located between the second fibre cloth and this nut, antidetonation effect can be increased further.

Preferably, this base body comprises: at least one supporting frame, forms by some H profile steel are staggered; And a steel plate, be located at this supporting frame top; This base body can be used for load bearing equipment, and resists, absorbs and disperse the vibrations that floor is transmitted.

Preferably, this base body has supporting frame more than two, and is provided with the different square tube of some height between each supporting frame, uses and regulates height.

Preferably, this fixing bottom-plate is the plate body of an area slightly larger than the area bottom this base body, uses the area increasing base body and floor contact.

Preferably, this fixing bottom-plate is made up of some little plate bodys, uses should the change of bottom of base body.

Preferably, respectively this little plate body is laid in bottom base body spaced a predetermined distance, uses should the change of bottom of base body.

Preferably, respectively this little plate body is respectively equipped with at least one fixing-assembly, uses little plate body locking on floor.

The utility model has the advantages that increase anti seismic efficiency.

Accompanying drawing explanation

Fig. 1 is stereogram of the present utility model.

Fig. 2 is the front sectional elevation of the utility model when carrying an equipment.

Fig. 3 is the enlarged diagram of the A part of Fig. 2.

(primary clustering symbol description)

100 shock-absorption device pedestal 101 floors

102 equipment 1 base bodies

11 supporting frame 12 steel plates

13 square tube 2 fixing bottom-plates

21 little plate body 3 fixing-assemblys

31 stud 32 nuts

4 dampening assembly 41 fibre cloth

42 sheet metal 5 second dampening assemblies

51 second fibre cloth 52 second sheet metals

Embodiment

The utility model is for reaching above-mentioned and other object, and its technological means taked, assembly and effect thereof, adopt a preferred embodiment cooperation to illustrate as follows now.

As shown in Figure 1, 2, the utility model shock-absorption device pedestal 100 comprises: a base body 1, is made up of steel, is located on floor 101, and top is used for load bearing equipment 102.One fixing bottom-plate 2, is located between this base body 1 and floor 101.And at least one fixing-assembly 3, be made up of, for fixing bottom-plate 2 is locked on floor 101 stud 31 and a nut 32.Its feature is, a dampening assembly 4 is located between fixing bottom-plate 2 and floor 101, can reach the object increasing anti seismic efficiency.Hereafter will be explained in detail.

Base body 1 can be made up of steel, is located on floor 101, and top is used for load bearing equipment 102, hereby illustrates as follows.

Base body 1 can comprise: at least one supporting frame 11, forms by some H profile steel are staggered; And a steel plate 12, be located at this supporting frame 11 top.Base body 1 has high strength, can bear the weight of equipment 102, is mainly used in resisting, absorbing and disperse the vibrations of transmitting on floor, uses when avoiding equipment to operate and is given a shock impact.Base body 1 also can have supporting frame 11 more than two, and can be provided with the different square tube of some height 13 between each supporting frame 11, uses and regulates height.

Fixing bottom-plate 2 also can be made up of steel, is located between base body 1 and floor 101, for increasing the area that base body 1 contacts with floor 101, and fixing-assembly 3 can be coordinated to reach the effect of the stability increasing base body 1.This fixing bottom-plate 2 is can be the plate body (not shown) of an area slightly larger than the area bottom base body 1, this fixing bottom-plate 2 also can be made up of some little plate bodys 21 be laid in spaced a predetermined distance bottom base body 1, uses the change of the bottom of corresponding base body 1.

Fixing-assembly 3 is made up of, for locking fixing bottom-plate 2 on floor 101 stud 31 and a nut 32.The bottom of stud 31 can be embedded in floor 101, and top is run through and protruded from fixing bottom-plate 2.Nut 32 spiral shell is located at stud 31 top, and locks on floor 101 by fixing bottom-plate 2, and conveniently detachable fixing bottom-plate 2 can be provided with a packing ring 33 bottom nut 32.As shown in Figure 1, when fixing bottom-plate 2 by some little plate bodys 21 form time, each little plate body 21 is respectively equipped with at least one fixing-assembly 3, uses and each little plate body 21 is locked on floor.

As shown in Figure 2, dampening assembly 4 comprises: a fibre cloth 41, is located at below fixing bottom-plate 2; And a sheet metal 42, be located between fibre cloth 41 and this floor 101.Fibre cloth 41 can be used for resisting high-frequency vibration, and sheet metal 42 can be used for absorbing vibration, therefore can reach the object increasing antidetonation effect.

In addition, fixing bottom-plate 2 can be provided with at least one second dampening assembly 5, second dampening assembly 5 further and comprise: one second fibre cloth 51, is located at above fixing bottom-plate 2; And one second sheet metal 52, be located between the second fibre cloth 51 and nut 32, use and increase antidetonation effect further.

By reference to the accompanying drawings mode of execution of the present utility model is explained in detail above.Although the utility model with preferred embodiment openly as above; but it is not for limiting the utility model; any those skilled in the art are not departing from spirit and scope of the present utility model; can make possible variation and amendment, the scope that therefore protection domain of the present utility model should define with claims is as the criterion.

Claims (10)

1. a shock-absorption device pedestal (100), comprising:

One base body (1), is made up of steel, is located on floor (101);

One fixing bottom-plate (2), is located between described base body (1) and floor (101); And

At least one fixing-assembly (3), is made up of a stud (31) and a nut (32), for locking fixing bottom-plate (2) in floor (101);

It is characterized in that:

One dampening assembly (4), comprising: a fibre cloth (41), is located at described fixing bottom-plate (2) below; And a sheet metal (42), be located between described fibre cloth (41) and described floor (101).

2. shock-absorption device pedestal (100) as claimed in claim 1, is characterized in that: wherein said sheet metal (42) is made with aluminum alloy, magnesium alloy or zinc alloy.

3. as the shock-absorption device pedestal in claim 1 or 2 as described in any one, it is characterized in that: be wherein provided with at least one second dampening assembly (5), described second dampening assembly (5) comprising: one second fibre cloth (51), is located at described fixing bottom-plate (2) top; And one second sheet metal (52), be located between the second fibre cloth (51) and described nut (32).

4. shock-absorption device pedestal as claimed in claim 3, is characterized in that: wherein said second sheet metal (52) is made with aluminum alloy, magnesium alloy or zinc alloy.

5. shock-absorption device pedestal as claimed in claim 1, is characterized in that: wherein said base body 1 comprises: at least one supporting frame (11), forms by some I shape H profile steel are staggered; And a steel plate (12), be located at support frame as described above (11) top, described steel plate (12) top is used for load bearing equipment (102).

6. shock-absorption device pedestal as claimed in claim 5, it is characterized in that: wherein said base body (1) has supporting frame (11) more than two, and is provided with the different square tube of some height (13) between each supporting frame (11).

7. shock-absorption device pedestal as claimed in claim 1, is characterized in that: wherein said fixing bottom-plate (2) is the plate body of an area slightly larger than the area of described base body (1) bottom.

8. shock-absorption device pedestal as claimed in claim 1, is characterized in that: wherein said fixing bottom-plate (2) is made up of some little plate bodys (21).

9. shock-absorption device pedestal as claimed in claim 8, is characterized in that: wherein each described little plate body (21) is laid in base body (1) bottom spaced a predetermined distance.

10. shock-absorption device pedestal as claimed in claim 8, is characterized in that: wherein each described little plate body (21) is respectively equipped with at least one fixing-assembly (3).