CN216304475U - Tension-preventing shock-isolating support device - Google Patents

Abstract

The utility model provides a tension-preventing shock-insulation support device which comprises connecting steel plates, pre-buried top plates, sealing plates, connecting bolts, energy dissipation rods, rubber layers, steel plate layers, protective layers, pre-buried bottom plates, detachable deflector structures, fixed warning seat structures and horizontal shock-insulation seat structures. The arrangement of the flow deflector, the U-shaped mounting seat, the mounting bolt, the U-shaped fixing seat, the L-shaped mounting seat, the connecting rod and the bolt nut is favorable for realizing the flow guiding function; the fixing base indulges the jack, and horizontal jack, inserted bar, fixation nut and warning board's setting is favorable to realizing setting up the function of warning sign.

Description

Tension-preventing shock-isolating support device

Technical Field

The utility model belongs to the technical field of shock insulation equipment, and particularly relates to an anti-tension shock insulation support device.

Background

The shock insulation support is a support device arranged for meeting the shock insulation requirement of a structure, and is widely applied to the aspects of buildings, bridge engineering, equipment shock insulation, instrument shock insulation, cultural relic shock insulation and the like.

However, the existing shock insulation support device also has the problems that the existing shock insulation support device does not have a flow guide function, does not have the function of arranging a warning board and has poor tension preventing effect horizontally.

Therefore, the utility model discloses a tension-proof vibration isolation support device which is very necessary.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a tension-preventing shock-isolating support device which has a flow guiding function, a warning board arranging function and a horizontal tension-preventing effect.

The utility model is realized by the following technical scheme:

the tension-preventing shock-isolating support device comprises connecting steel plates, pre-buried top plates, sealing plates, connecting bolts, energy-consuming rods, rubber layers, steel plate layers, protective layers, pre-buried bottom plates, detachable deflector structures, fixed warning seat structures and horizontal shock-isolating seat structures, wherein the energy-consuming rods are longitudinally arranged in the middle between the two horizontally-arranged connecting steel plates; the embedded bottom plate is connected with a horizontal shock insulation seat structure; the detachable flow deflector structure is connected with the embedded top plate; the fixed warning seat structure is connected with the connecting steel plate; the detachable flow deflector structure comprises a flow deflector, a U-shaped mounting seat, a mounting bolt, a U-shaped fixing seat, an L-shaped mounting seat, a connecting rod and a bolt nut, wherein the upper end of the flow deflector is mounted in the U-shaped mounting seat through the mounting bolt, the upper side of the middle part of the flow deflector is connected with the U-shaped fixing seat through a bolt, the lower part of the right side of the U-shaped mounting seat is connected with the L-shaped mounting seat through a bolt, the lower part of the L-shaped mounting seat is connected with the connecting rod through a bolt, and the lower end of the connecting rod is inserted in the U-shaped fixing seat and is fastened and connected with the U-shaped mounting seat through the bolt nut.

Preferably, the two U-shaped mounting seats are respectively arranged at the left side and the right side of the connecting steel plate at the upper side, and the upper ends of the U-shaped mounting seats are connected with the embedded top plate through bolts.

Preferably, the fixed warning seat structure comprises two fixed seats, a longitudinal jack, a transverse jack, an inserted bar, a fixed nut and a warning plate, wherein the upper side of the inside of each fixed seat is provided with the longitudinal jack, the lower side of the inside of each fixed seat is provided with the transverse jack, and the aperture of each longitudinal jack is consistent with that of each transverse jack; the left end and the right end of the inserted bar penetrate through the left transverse insertion hole and the right transverse insertion hole respectively, the left end and the right end of the inserted bar are connected with the two fixing seats through fixing nuts respectively, and the upper end of the inserted bar is connected with a warning plate through bolts.

Preferably, the two fixing seats are respectively bolted on the left side and the right side of the rear side of the upper part of the connecting steel plate on the lower side.

Preferably, horizontal shock insulation seat structure include horizontal sliding seat, fixed shock insulation seat, go up and prevent drawing the spring, prevent drawing spring and installation steel sheet down, the inside of horizontal sliding seat be provided with fixed shock insulation seat, both ends are bolted connection respectively about the upper portion of fixed shock insulation seat and are prevented drawing the spring, and go up and prevent drawing the outer end and the horizontal sliding seat bolted connection setting of spring, both ends are bolted connection respectively and prevent drawing the spring down about the lower part of fixed shock insulation seat, and prevent down that the outer end of drawing the spring sets up with horizontal sliding seat bolted connection, wherein the lower part bolted connection of fixed shock insulation seat has the installation steel sheet.

Preferably, the plurality of horizontal movable seats are respectively bolted to four corners of the lower part of the connecting steel plate.

Preferably, the plurality of mounting steel plates are respectively bolted to four corners of the upper part of the embedded bottom plate.

Compared with the prior art, the utility model has the beneficial effects that:

in the utility model, the arrangement of the flow deflector, the U-shaped mounting seat, the mounting bolt, the U-shaped fixing seat, the L-shaped mounting seat, the connecting rod and the bolt nut is favorable for realizing the flow guiding function.

In the utility model, the arrangement of the fixed seat, the longitudinal insertion hole, the transverse insertion hole, the insertion rod, the fixed nut and the warning board is favorable for realizing the function of arranging the warning board.

According to the utility model, the arrangement of the horizontal movable seat, the fixed shock insulation seat, the upper tension-proof spring, the lower tension-proof spring and the mounting steel plate is beneficial to improving the horizontal tension-proof effect.

According to the utility model, the arrangement of the embedded top plate and the embedded bottom plate is beneficial to mounting the connecting steel plate.

In the utility model, the arrangement of the energy dissipation rod, the rubber layer and the steel plate layer is favorable for realizing a shock insulation function.

In the utility model, the arrangement of the protective layer is beneficial to improving the protective effect.

Drawings

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

fig. 2 is a schematic structural view of a removable baffle structure of the present invention;

FIG. 3 is a schematic structural diagram of a fixed warning seat structure according to the present invention;

fig. 4 is a schematic structural view of a horizontal seismic isolation mount structure of the present invention.

In the figure:

1. connecting steel plates; 2. pre-burying a top plate; 3. closing the plate; 4. a connecting bolt; 5. an energy consumption bar; 6. a rubber layer; 7. a steel plate layer; 8. a protective layer; 9. pre-burying a bottom plate; 10. the flow deflector structure can be disassembled; 101. a flow deflector; 102. a U-shaped mounting seat; 103. installing a bolt; 104. a U-shaped fixed seat; 105. an L-shaped mounting seat; 106. a connecting rod; 107. a bolt and a nut; 11. fixing the warning seat structure; 111. a fixed seat; 112. a longitudinal insertion hole; 113. a horizontal jack; 114. inserting a rod; 115. fixing a nut; 116. A warning board; 12. a horizontal shock isolation seat structure; 121. a horizontal movable seat; 122. fixing a shock insulation seat; 123. an upper anti-pull spring; 124. a lower tension spring; 125. and (5) installing a steel plate.

Detailed Description

The utility model is described in detail with reference to the accompanying drawings, and as shown in fig. 1 and fig. 2, the tension-proof vibration isolation bearing device comprises two connecting steel plates 1, a pre-embedded top plate 2, seal plates 3, connecting bolts 4, energy dissipation rods 5, a rubber layer 6, a steel plate layer 7 and a protective layer 8, wherein the energy dissipation rods 5 are longitudinally arranged in the middle between the two horizontally arranged connecting steel plates 1, the upper part of the upper connecting steel plate 1 is connected with the pre-embedded top plate 2 through bolts, the seal plates 3 are arranged on the inner sides of the two connecting steel plates 1 through the connecting bolts 4, the rubber layer 6 and the steel plate layer 7 are alternately arranged between the two seal plates 3, and the protective layer 8 covers the outer parts of the seal plates 3, the rubber layer 6 and the steel plate layer 7.

The tension-preventing shock-isolating support device further comprises an embedded bottom plate 9, a detachable flow deflector structure 10, a fixed warning seat structure 11 and a horizontal shock-isolating seat structure 12, wherein the embedded bottom plate 9 is connected with the horizontal shock-isolating seat structure 12; the detachable flow deflector structure 10 is connected with the embedded top plate 2; the fixed warning seat structure 11 is connected with the connecting steel plate 1.

Wherein the detachable guide vane structure 10 comprises a guide vane 101, a U-shaped mounting seat 102, a mounting bolt 103, a U-shaped fixing seat 104, an L-shaped mounting seat 105, a connecting rod 106 and a bolt nut 107, the upper end of the guide vane 101 is arranged in the U-shaped mounting seat 102 through a mounting bolt 103, the upper side of the middle part of the guide vane 101 is connected with a U-shaped fixed seat 104 through a bolt, the lower part of the right side of the U-shaped mounting seat 102 is connected with an L-shaped mounting seat 105 through a bolt, the lower part of the L-shaped mounting seat 105 is connected with a connecting rod 106 through a bolt, wherein the lower end of the connecting rod 106 is inserted in the U-shaped fixed seat 104 and is fastened and connected by a bolt and a nut 107, when the pier stud of the building flows down, the shock insulation support is easy to corrode, the service life and the shock insulation performance of the shock insulation support are reduced, the flow deflector 101 guides water to enable the water to flow to the outer side of the connecting steel plate 1, the guide vane 101 is easily removed for replacement by mounting the bolt 103 and the bolt nut 107.

In this embodiment, referring to fig. 3, the fixed warning seat structure 11 includes two fixed seats 111, two longitudinal insertion holes 112, two transverse insertion holes 113, an insertion rod 114, a fixing nut 115, and a warning plate 116, where the upper side of the inside of the fixed seat 111 is provided with the longitudinal insertion holes 112, the lower side of the inside of the fixed seat 111 is provided with the transverse insertion holes 113, and the aperture of the longitudinal insertion holes 112 is the same as the aperture of the transverse insertion holes 113; two about both ends of inserted bar 114 run through respectively horizontal jack 113, and inserted bar 114 about both ends respectively through fixation nut 115 and two fixing base 111 connect, the upper end bolted connection of inserted bar 114 has warning board 116, operating personnel will warn with the slogan paste warning board 116 on, be favorable to playing the prompt action to near personnel of shock insulation support.

In this embodiment, referring to fig. 4, the horizontal vibration-isolating seat structure 12 includes a horizontal movable seat 121, a fixed vibration-isolating seat 122, an upper tension-preventing spring 123, a lower tension-preventing spring 124 and a mounting steel plate 125, the horizontal movable seat 121 is internally provided with the fixed vibration-isolating seat 122, the left and right ends of the upper portion of the fixed vibration-isolating seat 122 are respectively bolted with the upper tension-preventing spring 123, the outer end of the upper tension-preventing spring 123 is bolted with the horizontal movable seat 121, the left and right ends of the lower portion of the fixed vibration-isolating seat 122 are respectively bolted with the lower tension-preventing spring 124, the outer end of the lower tension-preventing spring 124 is bolted with the horizontal movable seat 121, the lower portion of the fixed vibration-isolating seat 122 is bolted with the mounting steel plate 125, when the vibration-isolating support receives a horizontal pulling force, the horizontal movable seat 121 and the fixed vibration-isolating seat 122 are displaced relatively in the horizontal direction, the upper tension-preventing spring 123 and the lower tension-preventing spring 124 buffer the horizontal movable seat 121 and the fixed vibration-isolating seat 122, thereby improving the effect of horizontal shock insulation.

In this embodiment, specifically, the warning board 116 is disposed at the rear side of the protective layer 8.

In this embodiment, specifically, the two detachable baffle structures 10 are disposed opposite to each other.

In this embodiment, specifically, a plurality of horizontal vibration isolation seat structures 12 are provided.

In this embodiment, specifically, the energy dissipation rod 5 penetrates through the inside of the sealing plate 3, and penetrates through the inside of the rubber layer 6 and the steel plate layer 7.

In this embodiment, specifically, the energy consumption rod 5 is a lead core rod; the protective layer 8 is a black rubber layer.

In this embodiment, specifically, the flow deflector 101 is a rubber sheet.

In this embodiment, specifically, the warning board 116 is a rectangular PVC plastic board.

In this embodiment, specifically, the upper pull-proof spring 123 is a stainless steel spring; the lower anti-pulling spring 124 is a stainless steel spring.

Principle of operation

In the utility model, when a pier stud of a building flows down, the shock insulation support is easy to corrode, the service life and the shock insulation performance of the shock insulation support are reduced, the flow deflector 101 guides water to enable the water to flow to the outer side of the connecting steel plate 1, the flow deflector 101 is convenient to detach and replace through the mounting bolt 103 and the bolt nut 107, and an operator can mount the detachable flow deflector structures 10 on the periphery of the lower part of the embedded top plate 2 in actual application, so that the protection effect on the shock insulation support is improved; an operator pastes a warning slogan to the warning plate 116, which is beneficial to playing a role of prompting personnel near the vibration isolation support, in practical application, the operator also installs the fixed warning seat structure 11 on the front side of the lower connecting steel plate 1, and the longitudinal insertion hole 112 is used for inserting an externally arranged insertion rod 114, so that the warning plate 116 is arranged on the periphery of the vibration isolation support; when the seismic isolation support receives a horizontal pulling force, the horizontal movable seat 121 and the fixed seismic isolation seat 122 generate relative displacement along the horizontal direction, and the upper tensile spring 123 and the lower tensile spring 124 buffer the horizontal movable seat 121 and the fixed seismic isolation seat 122, so that the seismic isolation effect in the horizontal direction is improved.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (7)

1. The tension-proof shock insulation support device is characterized by comprising connecting steel plates (1), pre-buried top plates (2), sealing plates (3), connecting bolts (4), energy dissipation rods (5), rubber layers (6), steel plate layers (7), protective layers (8), pre-buried bottom plates (9), detachable flow deflector structures (10), fixed warning seat structures (11) and horizontal shock insulation seat structures (12), wherein the energy dissipation rods (5) are longitudinally arranged in the middle between the two horizontally arranged connecting steel plates (1), the upper part of the connecting steel plate (1) on the upper side is in bolted connection with the pre-buried top plates (2), the sealing plates (3) are arranged on the inner sides of the two connecting steel plates (1) through the connecting bolts (4), the rubber layers (6) and the steel plate layers (7) are alternately arranged between the two sealing plates (3), the outer parts of the sealing plate (3), the rubber layer (6) and the steel plate layer (7) are covered with a protective layer (8); the embedded bottom plate (9) is connected with a horizontal shock insulation seat structure (12); the detachable guide vane structure (10) is connected with the embedded top plate (2); the fixed warning seat structure (11) is connected with the connecting steel plate (1); detachable flow deflector structure (10) include flow deflector (101), U type mount pad (102), construction bolt (103), U type fixing base (104), L type mount pad (105), connecting rod (106) and bolt nut (107), the upper end of flow deflector (101) install in the inside of U type mount pad (102) through construction bolt (103), the middle part upside bolted connection of flow deflector (101) has U type fixing base (104), the right side lower part bolted connection of U type mount pad (102) has L type mount pad (105), the lower part bolted connection of L type mount pad (105) has connecting rod (106), wherein the lower extreme of connecting rod (106) is pegged graft in the inside of U type fixing base (104), and through bolt nut (107) fastening connection setting.

2. The tension-proof seismic isolation bearing device as claimed in claim 1, wherein two U-shaped mounting seats (102) are respectively arranged at the left and right sides of the connecting steel plate (1) at the upper side, and the upper ends of the U-shaped mounting seats (102) are connected with the embedded top plate (2) through bolts.

3. The tension-proof shock-insulation support device as claimed in claim 1, wherein the fixed warning seat structure (11) comprises two fixed seats (111), longitudinal insertion holes (112), transverse insertion holes (113), insertion rods (114), fixed nuts (115) and warning plates (116), the longitudinal insertion holes (112) are formed in the upper side of the inner portion of the fixed seats (111), the transverse insertion holes (113) are formed in the lower side of the inner portion of the fixed seats (111), and the hole diameters of the longitudinal insertion holes (112) are consistent with the hole diameters of the transverse insertion holes (113); the left end and the right end of the inserted bar (114) penetrate through the left transverse insertion hole and the right transverse insertion hole (113) respectively, the left end and the right end of the inserted bar (114) are connected with the two fixing seats (111) through fixing nuts (115), and the upper end of the inserted bar (114) is connected with a warning plate (116) through bolts.

4. The tension-proof seismic isolation bearing device as set forth in claim 1, wherein two of said fixing seats (111) are bolted to the left and right sides of the upper rear side of said connecting steel plate (1) at the lower side, respectively.

5. The tension-proof seismic isolation bearing device as claimed in claim 1, wherein said horizontal seismic isolation bearing structure (12) comprises a horizontal movable bearing (121), a fixed seismic isolation bearing (122), an upper tension-proof spring (123), a lower tension-proof spring (124) and a mounting steel plate (125), a fixed shock insulation seat (122) is arranged inside the horizontal movable seat (121), the left end and the right end of the upper part of the fixed shock insulation seat (122) are respectively connected with an upper anti-pulling spring (123) through bolts, the outer end of the upper anti-pulling spring (123) is connected with the horizontal movable seat (121) by bolts, the left end and the right end of the lower part of the fixed shock-insulation seat (122) are respectively connected with a lower anti-pulling spring (124) by bolts, and the outer end of the lower anti-pulling spring (124) is connected with the horizontal movable seat (121) by bolts, wherein the lower part of the fixed shock insulation seat (122) is connected with a mounting steel plate (125) through bolts.

6. The tension-proof seismic isolation bearing device as claimed in claim 5, wherein a plurality of said horizontal movable seats (121) are bolted to the lower four corners of said connection steel plate (1) at the lower side, respectively.

7. The tension-proof seismic isolation bearing device as claimed in claim 5, wherein a plurality of said mounting steel plates (125) are bolted to the upper four corners of the pre-buried base plate (9), respectively.

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