Resistance to plucking rubber earthquake isolation support mechanism
Technical field
The utility model relates to a kind of shock isolating pedestal mechanism, especially relates to a kind of resistance to plucking rubber earthquake isolation support mechanism.
Background technology
The rubber earthquake isolation support extraction-resistant behavior using in prior art is poor, while installing and using, conventionally adopt bolt to be connected with base surface the bottom of rubber earthquake isolation support, the top of rubber earthquake isolation support treats that by bolt and top shock-damping structure part is connected, the shock-damping structure part for the treatment of towering under wind and geological process very easily topples, make rubber earthquake isolation support tensile failure, thereby make top treat normal use of shock-damping structure part damage impact.The patent No. is that the rubber earthquake isolation support in 201320126490.0 patent has certain extraction-resistant behavior, but upper left resistance to plucking plate and lower-left resistance to plucking plate are in the time being used in conjunction with, and upper right resistance to plucking plate and bottom right resistance to plucking plate are in the time being used in conjunction with, because the deformation that TR thin rubber sheet can occur is less, therefore can not bear the large deformation of bearing, when in high wind or the large deformation of severe earthquake action undersetting, the situation that upper left resistance to plucking plate and lower-left resistance to plucking plate and upper right resistance to plucking plate and bottom right resistance to plucking plate easily fracture, thereby damage rubber earthquake isolation support, the normal use of shock-damping structure part is treated in impact.
Utility model content
Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, a kind of resistance to plucking rubber earthquake isolation support mechanism is provided, it is simple in structure, reasonable in design, effectively solve the problem that existing rubber earthquake isolation support easily topples under wind and geological process, can meet the large deformation of bearing simultaneously, and then the normal use of shock-damping structure part is treated in assurance, practical, result of use, has very high promotional value.
For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of resistance to plucking rubber earthquake isolation support mechanism, it is characterized in that: comprise mechanism's upper junction plate, mechanism's lower connecting plate, upper left resistance to plucking plate, upper right resistance to plucking plate, lower-left resistance to plucking plate, bottom right resistance to plucking plate, upper padding plate and lower bolster, and be arranged on the first bearing between upper left resistance to plucking plate and lower-left resistance to plucking plate, be arranged on the second bearing between upper right resistance to plucking plate and bottom right resistance to plucking plate and be arranged on upper padding plate and lower bolster between the 3rd bearing, on described mechanism upper junction plate, offer and need shock-damping structure part connecting hole, on described mechanism lower connecting plate, offer base surface connecting hole, the shape of described upper left resistance to plucking plate and upper right resistance to plucking plate is L font, described upper left resistance to plucking plate and upper right resistance to plucking plate are separately positioned on the left and right sides of mechanism's upper junction plate and upper end and are all fixedly connected with the bottom of mechanism upper junction plate, the shape of described lower-left resistance to plucking plate and bottom right resistance to plucking plate is is inverted L font, described lower-left resistance to plucking plate and bottom right resistance to plucking plate are separately positioned on the left and right sides of mechanism's lower connecting plate and lower end and are all fixedly connected with the top of mechanism lower connecting plate, the shape of described upper padding plate and lower bolster is rectangle, middle part and upper end that described upper padding plate is arranged on mechanism's upper junction plate are fixedly connected with mechanism's upper junction plate bottom, middle part and lower end that described lower bolster is arranged on mechanism's lower connecting plate are fixedly connected with mechanism's lower connecting plate top, described the first bearing is between upper left resistance to plucking plate kink and lower-left resistance to plucking plate kink, described the second bearing is between upper right resistance to plucking plate kink and bottom right resistance to plucking plate kink, described the first bearing, the second bearing and the 3rd bearing include bearing upper junction plate, bearing lower connecting plate and be arranged on bearing upper junction plate and bearing lower connecting plate between middle skeleton, described middle skeleton comprises that center has the block rubber of through hole, steel sheet, upper sealing plate and lower shrouding, described block rubber is arranged between bearing upper junction plate and bearing lower connecting plate, described steel-sheet quantity is the inside that polylith and polylith steel sheet are evenly arranged on block rubber, described upper sealing plate is installed in the upper grooves of block rubber, described upper sealing plate is fixedly connected with bearing upper junction plate, described lower shrouding is installed in the lower recess of block rubber, described lower shrouding is fixedly connected with bearing lower connecting plate, the bearing upper junction plate of described the first bearing is fixedly connected with the kink bottom of lower-left resistance to plucking plate, the bearing lower connecting plate of described the first bearing is fixedly connected with the kink top of upper left resistance to plucking plate, the bearing upper junction plate of described the second bearing is fixedly connected with the kink bottom of bottom right resistance to plucking plate, the bearing lower connecting plate of described the second bearing is fixedly connected with the kink top of upper right resistance to plucking plate, the bearing upper junction plate of described the 3rd bearing is fixedly connected with upper padding plate bottom, the bearing lower connecting plate of described the 3rd bearing is fixedly connected with lower bolster top.
Above-mentioned resistance to plucking rubber earthquake isolation support mechanism, is characterized in that: described the first bearing, the second bearing and the 3rd bearing are positioned in same level.
Above-mentioned resistance to plucking rubber earthquake isolation support mechanism, is characterized in that: described upper sealing plate is fixedly connected with bearing upper junction plate by the first bolt, and lower shrouding is fixedly connected with bearing lower connecting plate by the second bolt.
Above-mentioned resistance to plucking rubber earthquake isolation support mechanism, it is characterized in that: described bearing upper junction plate and bearing lower connecting plate are rectangle steel plate, the connected mode of bearing upper junction plate and lower-left resistance to plucking plate, upper padding plate and bottom right resistance to plucking plate is welding, and the connected mode of bearing lower connecting plate and upper left resistance to plucking plate, upper right resistance to plucking plate and lower bolster is welding.
Above-mentioned resistance to plucking rubber earthquake isolation support mechanism, it is characterized in that: described mechanism upper junction plate and mechanism's lower connecting plate are rectangle steel plate, the described quantity for the treatment of shock-damping structure part connecting hole and base surface connecting hole is four, described in four, treat that shock-damping structure part connecting hole is symmetricly set on four angles of mechanism's upper junction plate, four described base surface connecting holes are symmetricly set on four angles of mechanism's lower connecting plate.
Above-mentioned resistance to plucking rubber earthquake isolation support mechanism, it is characterized in that: described upper left resistance to plucking plate, upper right resistance to plucking plate, lower-left resistance to plucking plate, bottom right resistance to plucking plate, upper padding plate and lower bolster are steel plate, the connected mode of described upper left resistance to plucking plate, upper right resistance to plucking plate and upper padding plate and mechanism's upper junction plate is welding, and the connected mode of described lower-left resistance to plucking plate, bottom right resistance to plucking plate and lower bolster and mechanism's lower connecting plate is welding.
The utility model compared with prior art has the following advantages:
1, the utility model is simple in structure, reasonable in design, easy to install.
2, the utility model is by being fixedly connected on the upper left resistance to plucking plate of mechanism upper junction plate bottom and being fixedly connected on being used in conjunction with of lower-left resistance to plucking plate at mechanism's lower connecting plate top, and be fixedly connected on the upper right resistance to plucking plate of mechanism upper junction plate bottom and be fixedly connected on being used in conjunction with of bottom right resistance to plucking plate at mechanism's lower connecting plate top, rubber earthquake isolation support can be born topple to produce to upper pulling force, prevent that rubber earthquake isolation support in the vertical direction under wind and geological process from moving, shock-damping structure part is difficult for toppling to make towering treating.
3, the utility model by arranging the first bearing between upper left resistance to plucking plate and lower-left resistance to plucking plate, between upper right resistance to plucking plate and bottom right resistance to plucking plate, the second bearing is set simultaneously, make rubber earthquake isolation support there is good extraction-resistant behavior, can meet the bearing large deformation under wind and geological process, and then guarantee to treat the normal use of shock-damping structure part.
4, the utility model can effectively reduce the loss bringing because of high wind or earthquake, practical, and low cost of manufacture, safe and reliable, has very high promotional value.
Below by drawings and Examples, the technical solution of the utility model is described in further detail.
Accompanying drawing explanation
Fig. 1 is overall structure schematic diagram of the present utility model.
Fig. 2 is the C part structure for amplifying schematic diagram of Fig. 1.
Fig. 3 is the A-A sectional view of Fig. 1.
Description of reference numerals:
1-1-mechanism upper junction plate; 1-2-mechanism lower connecting plate; 2-1-upper left resistance to plucking plate;
2-2-upper right resistance to plucking plate; 3-1-lower-left resistance to plucking plate; 3-2-bottom right resistance to plucking plate;
4-upper padding plate; 5-lower bolster; 6-treat shock-damping structure part connecting hole;
7-base surface connecting hole; 8-1-bearing upper junction plate; 8-2-bearing lower connecting plate;
8-3-through hole; 8-4-block rubber; 8-5-steel sheet;
8-6-upper sealing plate; 8-7-lower shrouding; 8-8-the first bolt;
8-9-the second bolt.
The specific embodiment
As Fig. 1, shown in Fig. 2 and Fig. 3, the utility model comprises the upper junction plate 1-1 of mechanism, the lower connecting plate 1-2 of mechanism, upper left resistance to plucking plate 2-1, upper right resistance to plucking plate 2-2, lower-left resistance to plucking plate 3-1, bottom right resistance to plucking plate 3-2, upper padding plate 4 and lower bolster 5, and be arranged on the first bearing between upper left resistance to plucking plate 2-1 and lower-left resistance to plucking plate 3-1, be arranged on the second bearing between upper right resistance to plucking plate 2-2 and bottom right resistance to plucking plate 3-2 and be arranged on upper padding plate 4 and lower bolster 5 between the 3rd bearing, on the described upper junction plate 1-1 of mechanism, offer and need shock-damping structure part connecting hole 6, on the described lower connecting plate 1-2 of mechanism, offer base surface connecting hole 7, the shape of described upper left resistance to plucking plate 2-1 and upper right resistance to plucking plate 2-2 is L font, described upper left resistance to plucking plate 2-1 is all fixedly connected with the bottom of the upper junction plate 1-1 of mechanism with the left and right sides and upper end that upper right resistance to plucking plate 2-2 is separately positioned on the upper junction plate 1-1 of mechanism, the shape of described lower-left resistance to plucking plate 3-1 and bottom right resistance to plucking plate 3-2 is is inverted L font, described lower-left resistance to plucking plate 3-1 is all fixedly connected with the top of the lower connecting plate 1-2 of mechanism with the left and right sides and lower end that bottom right resistance to plucking plate 3-2 is separately positioned on the lower connecting plate 1-2 of mechanism, the shape of described upper padding plate 4 and lower bolster 5 is rectangle, middle part and upper end that described upper padding plate 4 is arranged on the upper junction plate 1-1 of mechanism are fixedly connected with the upper junction plate 1-1 of mechanism bottom, middle part and lower end that described lower bolster 5 is arranged on the lower connecting plate 1-2 of mechanism are fixedly connected with the lower connecting plate 1-2 of mechanism top, described the first bearing is between upper left resistance to plucking plate 2-1 kink and lower-left resistance to plucking plate 3-1 kink, described the second bearing is between upper right resistance to plucking plate 2-2 kink and bottom right resistance to plucking plate 3-2 kink, described the first bearing, the second bearing and the 3rd bearing include bearing upper junction plate 8-1, bearing lower connecting plate 8-2 and be arranged on bearing upper junction plate 8-1 and bearing lower connecting plate 8-2 between middle skeleton, described middle skeleton comprises that center has the block rubber 8-4 of through hole 8-3, steel sheet 8-5, upper sealing plate 8-6 and lower shrouding 8-7, described block rubber 8-4 is arranged between bearing upper junction plate 8-1 and bearing lower connecting plate 8-2, the quantity of described steel sheet 8-5 is the inside that polylith and polylith steel sheet 8-5 are evenly arranged on block rubber 8-4, described upper sealing plate 8-6 is installed in the upper grooves of block rubber 8-4, described upper sealing plate 8-6 is fixedly connected with bearing upper junction plate 8-1, described lower shrouding 8-7 is installed in the lower recess of block rubber 8-4, described lower shrouding 8-7 is fixedly connected with bearing lower connecting plate 8-2, the bearing upper junction plate 8-1 of described the first bearing is fixedly connected with the kink bottom of lower-left resistance to plucking plate 3-1, the bearing lower connecting plate 8-2 of described the first bearing is fixedly connected with the kink top of upper left resistance to plucking plate 2-1, the bearing upper junction plate 8-1 of described the second bearing is fixedly connected with the kink bottom of bottom right resistance to plucking plate 3-2, the bearing lower connecting plate 8-2 of described the second bearing is fixedly connected with the kink top of upper right resistance to plucking plate 2-2, the bearing upper junction plate 8-1 of described the 3rd bearing is fixedly connected with upper padding plate 4 bottoms, the bearing lower connecting plate 8-2 of described the 3rd bearing is fixedly connected with lower bolster 5 tops.
In the present embodiment, described the first bearing, the second bearing and the 3rd bearing are positioned in same level.
In the present embodiment, described upper sealing plate 8-6 is fixedly connected with bearing upper junction plate 8-1 by the first bolt 8-8, and lower shrouding 8-7 is fixedly connected with bearing lower connecting plate 8-2 by the second bolt 8-9.
In the present embodiment, described bearing upper junction plate 8-1 and bearing lower connecting plate 8-2 are rectangle steel plate, the connected mode of bearing upper junction plate 8-1 and lower-left resistance to plucking plate 3-1, upper padding plate 4 and bottom right resistance to plucking plate 3-2 is welding, and the connected mode of bearing lower connecting plate 8-2 and upper left resistance to plucking plate 2-1, upper right resistance to plucking plate 2-2 and lower bolster 5 is welding.
In the present embodiment, the described upper junction plate 1-1 of mechanism and the lower connecting plate 1-2 of mechanism are rectangle steel plate, the described quantity for the treatment of shock-damping structure part connecting hole 6 and base surface connecting hole 7 is four, described in four, treat that shock-damping structure part connecting hole 6 is symmetricly set on four angles of the upper junction plate 1-1 of mechanism, four described base surface connecting holes 7 are symmetricly set on four angles of the lower connecting plate 1-2 of mechanism.
In the present embodiment, described upper left resistance to plucking plate 2-1, upper right resistance to plucking plate 2-2, lower-left resistance to plucking plate 3-1, bottom right resistance to plucking plate 3-2, upper padding plate 4 and lower bolster 5 are steel plate, described upper left resistance to plucking plate 2-1, upper right resistance to plucking plate 2-2 and upper padding plate 4 are welding with the connected mode of the upper junction plate 1-1 of mechanism, and described lower-left resistance to plucking plate 3-1, bottom right resistance to plucking plate 3-2 and lower bolster 5 are welding with the connected mode of the lower connecting plate 1-2 of mechanism.
When use, by base surface connecting hole, the utility model is connected with base surface, by treat shock-damping structure part connecting hole by the utility model with treat that shock-damping structure part is connected and can use.The utility model is by being fixedly connected on the upper left resistance to plucking plate of mechanism upper junction plate bottom and being fixedly connected on being used in conjunction with of lower-left resistance to plucking plate at mechanism's lower connecting plate top, and be fixedly connected on the upper right resistance to plucking plate of mechanism upper junction plate bottom and be fixedly connected on being used in conjunction with of bottom right resistance to plucking plate at mechanism's lower connecting plate top, rubber earthquake isolation support can be born topple to produce to upper pulling force, prevent that rubber earthquake isolation support in the vertical direction under wind and geological process from moving, shock-damping structure part is difficult for toppling to make towering treating.In addition, by the first bearing being set between upper left resistance to plucking plate and lower-left resistance to plucking plate, between upper right resistance to plucking plate and bottom right resistance to plucking plate, the second bearing is set simultaneously, make rubber earthquake isolation support there is good extraction-resistant behavior, can meet the bearing large deformation under wind and geological process, and then guarantee to treat the normal use of shock-damping structure part.
The above; it is only preferred embodiment of the present utility model; not the utility model is imposed any restrictions; every any simple modification of above embodiment being done according to the utility model technical spirit, change and equivalent structure change, and all still belong in the protection domain of technical solutions of the utility model.