CN220620473U - Fireproof high-damping rubber shock insulation support - Google Patents

Abstract

The utility model relates to the technical field of rubber supports, in particular to a fireproof high-damping rubber shock insulation support, which comprises a plurality of rubber discs, two support plates, two connection plates, four groups of dragging members and two protection frames, wherein each connection plate is fixedly connected with a corresponding support plate, each protection frame is fixedly connected with a corresponding support plate, each group of dragging members comprises an upper connection member and a lower connection member, the upper connection member is fixedly connected with one support plate, the lower connection member is fixedly connected with the other support plate, a first movable block can move through two first pin shafts, can move with a certain amplitude when facing transverse force, reduces the pulling of the rubber discs, and meanwhile, a second movable block can also move with a certain amplitude through a second pin shaft.

Description

Fireproof high-damping rubber shock insulation support

Technical Field

The utility model relates to the technical field of rubber supports, in particular to a fireproof high-damping rubber shock insulation support.

Background

The prior shock-insulation rubber support is widely used in shock-insulation engineering of buildings, bridges and equipment, can obviously reduce the damage of earthquake to the structure and ensures the safety of the structure, people and property. But the fire resistance of the shock insulation rubber support is poor, which threatens the fire safety of the shock insulation structure. Particularly, for the more shock insulation building space of personnel, fire protection level is higher, and general requirement reaches the one-level fire protection requirement, and only relies on shock insulation rubber support to prevent fires, is difficult to reach the one-level fire protection requirement. Many existing fireproof structures are complex, high in cost and difficult to popularize and apply. There is a need for a flame-retardant, shock-resistant rubber mount that addresses the foregoing issues _。

In the prior art, patent (CN 105155671B) discloses a fireproof and shock-proof rubber support, which comprises a shock-proof rubber support and a heat-proof and fire-proof component, wherein the protective rubber of the shock-proof rubber support is rubber with better flame retardant and heat-proof performances, the heat-proof and fire-proof component is coated at two ends of the shock-proof rubber support, thick fireproof paint, high-temperature fireproof cloth and high-temperature heat-proof layers are sequentially arranged from inside to outside, the high-temperature-proof heat-proof layers are fixedly laminated on the periphery of the high-temperature-proof fireproof cloth in a layer-by-layer mode and are of a shutter structure, the fireproof and shock-proof rubber support provided by the utility model has better flame retardant and heat-proof effects, can generate horizontal shearing deformation to protect an upper structure of a building, has better fireproof and heat-proof effects at ordinary times, and can better prevent the influence of a high-temperature heat source on the support when a fire disaster occurs, and achieves the primary fireproof requirement.

However, in the above prior art, the vibration occurring in the horizontal direction during an earthquake may affect the fireproof support, and the protection effect is not comprehensive enough.

Disclosure of Invention

The utility model aims to provide a fireproof high-damping rubber shock-insulation support, which solves the problems that the shock in the horizontal direction can affect the fireproof support in the prior art during earthquake and the protection effect is not comprehensive enough.

In order to achieve the above object, the utility model provides a fire-resistant high damping rubber shock insulation support, which comprises a plurality of rubber discs, two support plates, two connection plates, four groups of dragging members and two protection frames, wherein one rubber disc is fixedly connected with one of the connection plates and is positioned on one side of one of the connection plates, the other rubber disc is fixedly connected with the other connection plate and is positioned on one side of the other connection plate, each connection plate is fixedly connected with the corresponding support plate and is respectively positioned on one side of the corresponding support plate, each protection frame is fixedly connected with the corresponding support plate and is respectively positioned on the other side of the corresponding support plate, each group of dragging members comprises an upper connection member and a lower connection member, the upper connection member is fixedly connected with one of the support plates and is positioned on one side of one of the support plates, and the lower connection member is fixedly connected with the other support plate and is positioned on one side of the other support plate.

The upper connecting piece comprises a first connecting body, two first pin shafts, a first movable block and saw teeth, wherein one first pin shaft is movably connected with the first movable block and is positioned at one end of the first movable block, the other first pin shaft is movably connected with the first movable block and is positioned at the other end of the first movable block, the saw teeth are fixedly connected with the first movable block and are positioned at one end of the first movable block, and the first connecting body is fixedly connected with the first movable block and is positioned at the other end of the first movable block.

The lower connecting piece comprises a second connecting body, two second pin shafts, a second movable block and a tooth box, wherein one of the second pin shafts is movably connected with the second movable block and is positioned at one end of the second movable block, the other one of the second pin shafts is movably connected with the second movable block and is positioned at the other end of the second movable block, the second connecting body is fixedly connected with the second movable block and is positioned at one end of the second movable block, and the tooth box is fixedly connected with the second movable block and is positioned at the other end of the second movable block.

Each connecting plate comprises a plate body and four nuts, wherein the four nuts are fixedly connected with the plate body and are respectively located on the periphery of the plate body.

Each protection frame is provided with a plurality of holes.

The fireproof high-damping rubber shock insulation support further comprises a middle shaft body and four cross bars, wherein the four cross bars are fixedly connected with the middle shaft body and are respectively located on the periphery of the middle shaft body, and the middle shaft body is fixedly connected with one of the connecting plates and is located in the middle of one of the connecting plates.

According to the fireproof high-damping rubber vibration isolation support, the first movable block can move through the two first pin shafts, a certain amplitude of movement can be conducted when the first movable block faces against transverse force, the first movable block can move to the rubber disc in a reduced mode, meanwhile, the second movable block can move to a certain amplitude through the second pin shafts, the matching of the saw teeth and the tooth boxes further improves the change amplitude of the whole device, the vibration resistance is improved, the matching of each rubber disc can reduce force generated by vibration, the arrangement of the protection frame can facilitate the connection between the supporting plate and other buildings, the arrangement of the holes can facilitate the fixation of the protection frame by workers, the first movable block can regulate the position of the first movable block, the position of the second movable block is located on the same horizontal line, the stability of the device is guaranteed, the matching of the saw teeth and the tooth boxes can prevent the saw teeth from falling off, the second movable block can also be matched with the middle shaft, the second movable block can be matched with the second pin shafts, the stability of the rubber disc can be prevented from falling off, the rubber disc can be stably arranged, the position of the second movable block can be stably matched with the middle shaft, and the rubber disc can be stably arranged, and the vibration can be prevented from falling down, and the vibration can be stably prevented from being caused by the two side shafts.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is an enlarged view of the partial structure at a of fig. 1 according to the present utility model.

Fig. 3 is a front view of a second embodiment of the present utility model.

Fig. 4 is a sectional view taken along line B-B of fig. 3 in accordance with the present utility model.

The novel rubber bearing comprises the following components of a rubber disc 101, a supporting plate 102, a connecting plate 103, a dragging piece 104, a protecting frame 105, an upper connecting piece 106, a lower connecting piece 107, a first connecting body 108, a first pin shaft 109, a first movable block 110, saw teeth 111, a second connecting body 112, a second pin shaft 113, a second movable block 114, a tooth box 115, a plate body 116, a nut 117, a hole 118, a middle shaft 201 and a cross rod 202.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the application is as follows:

referring to fig. 1-2, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, and fig. 2 is an enlarged partial structure at a of fig. 1 of the present utility model.

The utility model provides a fireproof high-damping rubber vibration isolation support, which comprises a plurality of rubber discs 101, two support plates 102, two connecting plates 103, four groups of dragging members 104 and two protection frames 105, wherein each group of dragging members 104 comprises an upper connecting member 106 and a lower connecting member 107, the upper connecting member 106 comprises a first connecting body 108, two first pin shafts 109, a first movable block 110 and saw teeth 111, the lower connecting member 107 comprises a second connecting body 112, two second pin shafts 113, a second movable block 114 and a tooth box 115, each connecting plate 103 comprises a plate body 116 and four nuts 117, and each protection frame 105 is provided with a plurality of holes 118.

For this embodiment, one of the rubber discs 101 is fixedly connected with one of the connecting plates 103, the other rubber disc 101 is fixedly connected with the other connecting plate 103, each connecting plate 103 is fixedly connected with the corresponding supporting plate 102, each protecting frame 105 is fixedly connected with the corresponding supporting plate 102, the upper connecting piece 106 is fixedly connected with one of the supporting plates 102, the lower connecting piece 107 is fixedly connected with the other supporting plate 102, one of the first pins 109 is movably connected with the first movable block 110, the other first pin 109 is movably connected with the first movable block 110, the saw teeth 111 is fixedly connected with the first movable block 110, the first connecting body 108 is fixedly connected with the first movable block 110, one of the second pins 113 is movably connected with the second movable block 114, the other second pin 113 is movably connected with the second movable block 114, the second connecting body 112 is fixedly connected with the second movable block 114, the other first pin 109 is movably connected with the second movable block 114, the saw teeth 111 can be further movably connected with the second movable block 114 by the first pin 109, and the second movable block 117 can be further movably connected with the second movable block 114, and the first movable block 117 can be further movably connected with the second movable block 117, and the amplitude of the vibration-resistant disc can be further improved, and the amplitude of the vibration can be further improved by the amplitude of the first movable block 117.

Wherein, one of them the rubber dish 101 is located one of them the one side of connecting plate 103, another one the rubber dish 101 is located another one the one side of connecting plate 103, every connecting plate 103 is located respectively corresponding one side of backup pad 102, every protection frame 105 is located respectively corresponding one side of backup pad 102, go up connecting piece 106 is located one of them backup pad 102's one side, down connecting piece 107 is located another one side of backup pad 102, every the cooperation of rubber dish 101 can reduce the power that comes from vibrations to produce, the setting of protection frame 105 can be convenient for the backup pad 102 is connected with other buildings, and a plurality of the setting of hole 118 also can make things convenient for the staff to the fixing of protection frame 105.

Secondly, one of the first pins 109 is located at one end of the first movable block 110, the other first pin 109 is located at the other end of the first movable block 110, the saw teeth 111 are located at one end of the first movable block 110, the first connecting body 108 is located at the other end of the first movable block 110, the first movable block 110 can move through the first pin 109, the first connecting body 108 can define the position of the first movable block 110, and the position of the second connecting body 112 is located at the same horizontal line, so that stability of the device is ensured, and the saw teeth 111 and the tooth boxes 115 can be mutually matched to prevent the saw teeth 111 from falling off.

Meanwhile, one of the second pins 113 is located at one end of the second movable block 114, the other second pin 113 is located at the other end of the second movable block 114, the second connector 112 is located at one end of the second movable block 114, the tooth box 115 is located at the other end of the second movable block 114, the four nuts 117 are located at the periphery of the plate 116, the second movable block 114 can move through the two second pins 113, the second connector 112 limits the position of the second movable block 114, the mutual cooperation of the tooth box 115 and the saw teeth 111 can prevent falling, and meanwhile, the pulling stability is improved.

In this embodiment, the first movable block 110 may be movable by two first pins 109, and may perform a certain range of movement when facing a transverse force, so as to reduce the pulling of the rubber disc 101, and at the same time, the second movable block 114 may also perform a certain range of movement by the second pins 113, so that the cooperation between the saw teeth 111 and the tooth boxes 115 further improves the variation range of the overall device, improving the shock resistance, each of the rubber discs 101 may be mutually matched to reduce the force generated by the shock, the setting of the protection frame 105 may facilitate the connection between the support plate 102 and other buildings, and the setting of the plurality of holes 118 may also facilitate the fixation of the protection frame 105 by a worker, the first movable block 110 may also perform a movement by the first pins 109, the first connector 108 may define the position of the first movable block 110, and the position of the second connector 112 may be in the same horizontal line, so as to ensure the stability of the device, the saw teeth 111 and the tooth boxes 115 may also cooperate with the second pins 111 to prevent the second movable block 114 from falling off, and the second movable block 114 may also be mutually matched to prevent the saw teeth 111 from falling off.

The second embodiment of the present application is:

on the basis of the first embodiment, please refer to fig. 3-4, wherein fig. 3 is a front view of a second embodiment of the present utility model, and fig. 4 is a cross-sectional view taken along line B-B of fig. 3 of the present utility model.

The utility model provides a fireproof high-damping rubber shock insulation support, which also comprises a middle shaft body 201 and four cross bars 202.

For this embodiment, four horizontal poles 202 all with axis body 201 fixed connection, axis body 201 with wherein one connecting plate 103 fixed connection, four the setting of horizontal pole 202 can stabilize a plurality of rubber dish 101, prevent when taking place vibrations every between the rubber dish 101 landing has promoted stability and security.

The four cross bars 202 are respectively located at the peripheral sides of the central shaft body 201, the central shaft body 201 is located in the middle of one of the connecting plates 103, the central shaft body 201 is set to function as a supporting point which is acted by the connection of the cross bars 202, and meanwhile, the central shaft body 201 can also stabilize and strengthen each rubber disc 101.

In this embodiment, the arrangement of the four cross bars 202 can stabilize a plurality of rubber trays 101, so as to prevent each rubber tray 101 from sliding down when vibration occurs, thereby improving stability and safety, and the arrangement of the central shaft 201 serves as a fulcrum for connecting the cross bars 202, and meanwhile, the central shaft 201 can also stabilize and strengthen each rubber tray 101.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (6)

1. The utility model provides a fire-resistant high damping rubber shock insulation support, includes a plurality of rubber disks, two backup pads, two connecting plates and two protection frames, one of them the rubber disk with wherein connecting plate fixed connection is located one of them connecting plate's one side, another the rubber disk with another connecting plate fixed connection is located another connecting plate's one side, every connecting plate with corresponding backup pad fixed connection, and be located respectively corresponding backup pad's one side, every protection frame all with corresponding backup pad fixed connection, and be located respectively corresponding backup pad's the opposite side,

the device comprises a supporting plate, four groups of dragging members, and is characterized by further comprising four groups of dragging members, wherein each group of dragging members comprises an upper connecting member and a lower connecting member, the upper connecting member is fixedly connected with one supporting plate and is positioned at one side of the one supporting plate, and the lower connecting member is fixedly connected with the other supporting plate and is positioned at one side of the other supporting plate.

2. The refractory high damping rubber vibration isolation mount of claim 1, wherein,

the upper connecting piece comprises a first connecting body, two first pin shafts, a first movable block and saw teeth, wherein one first pin shaft is movably connected with the first movable block and is positioned at one end of the first movable block, the other first pin shaft is movably connected with the first movable block and is positioned at the other end of the first movable block, the saw teeth are fixedly connected with the first movable block and are positioned at one end of the first movable block, and the first connecting body is fixedly connected with the first movable block and is positioned at the other end of the first movable block.

3. The refractory high damping rubber vibration isolation mount of claim 2, wherein,

the lower connecting piece comprises a second connecting body, two second pin shafts, a second movable block and a tooth box, wherein one of the second pin shafts is movably connected with the second movable block and is positioned at one end of the second movable block, the other one of the second pin shafts is movably connected with the second movable block and is positioned at the other end of the second movable block, the second connecting body is fixedly connected with the second movable block and is positioned at one end of the second movable block, and the tooth box is fixedly connected with the second movable block and is positioned at the other end of the second movable block.

4. A refractory, high damping rubber vibration-isolating mount as in claim 3,

each connecting plate comprises a plate body and four nuts, wherein the four nuts are fixedly connected with the plate body and are respectively positioned on the periphery of the plate body.

5. The refractory high damping rubber vibration isolation mount of claim 4, wherein,

each protection frame is provided with a plurality of holes.

6. The refractory high damping rubber vibration isolation mount of claim 5, wherein,

the fireproof high-damping rubber shock insulation support further comprises a central shaft body and four cross bars, wherein the four cross bars are fixedly connected with the central shaft body and are respectively located on the periphery of the central shaft body, and the central shaft body is fixedly connected with one of the connecting plates and is located in the middle of one of the connecting plates.