CN220058959U - Shock insulation support temporary protection device - Google Patents

Abstract

The utility model relates to the technical field of shock insulation supports, in particular to a temporary protection device for a shock insulation support, which comprises at least three upper support plates, wherein the at least three upper support plates are spliced end to form a channel for the shock insulation support to pass through, and the inner side of each upper support plate can be attached to an upper pre-buried positioning steel plate; the number of the side baffles is consistent with that of the upper support plates, and the side baffles are vertically connected with the upper support plates; the connecting components are arranged at the joint of the two adjacent side baffles and are used for realizing detachable fixed connection of the two adjacent side baffles; the utility model can protect the upper pre-buried positioning steel plate through the upper support plate, and can form a space for accommodating the shock-insulation rubber body through a plurality of side baffles in a enclosing way, so that the damage to the shock-insulation support is reduced in the construction process of the upper support pier, the use reliability of the shock-insulation support is improved, and the effect of detachable and fixed connection of two adjacent side baffles can be realized through the connecting component.

Description

Shock insulation support temporary protection device

Technical Field

The utility model relates to the technical field of shock insulation supports, in particular to a temporary protection device for a shock insulation support.

Background

When building construction, in order to reduce the vibration transmission efficiency between the underground foundation and the building superstructure, a vibration isolation layer is usually formed between the underground foundation and the building superstructure through a vibration isolation support, and the self-vibration period of the building construction system is prolonged through the vibration isolation support so as to reduce the damage of vibration to the building construction system.

Referring to fig. 1, the shock insulation support includes a shock insulation rubber body, an upper pre-buried positioning steel plate and a lower pre-buried positioning steel plate, which are respectively connected to the upper and lower ends of the rubber body; at present, the installation sequence of the shock insulation support structure is generally that the lower support is firstly installed, then the shock insulation support sleeve and the steel plate are pre-buried, then the shock insulation support is installed, and finally the upper support is installed, because the time difference between the construction of the upper support and the construction of the lower support is large, the shock insulation support is not protected in the construction process of the upper support, and the rubber part of the shock insulation support can be damaged in the process of binding the upper support reinforcing steel bars or supporting the upper support templates by woodworkers, so that the use reliability of the shock insulation support is affected.

Disclosure of Invention

In order to improve the use reliability of the shock insulation support, the utility model provides a temporary protection device for the shock insulation support.

The utility model provides a temporary protection device for a shock insulation support, which adopts the following technical scheme:

a temporary protection device for a shock insulation support comprises

At least three upper support plates are spliced end to form a channel for the vibration isolation support to pass through, and the inner side of the upper support plates can be attached to an upper embedded positioning steel plate;

the number of the side baffles is consistent with that of the upper support plates, and the side baffles are vertically connected with the upper support plates;

the connecting components are arranged at the joint of two adjacent side baffles and are connected with the side baffles for realizing the detachable fixed connection of the two adjacent side baffles.

Through the technical scheme, after the construction of the lower buttress is completed, the lower buttress passes through the lower embedded positioning steel plate and is in threaded connection with the embedded sleeve embedded in the lower buttress through the bolts, the shock insulation support is fixed on the lower buttress, then the side baffles are applied with force, so that the side baffles are arranged on the periphery side of the shock insulation support in a surrounding manner, until at least three upper support plates are spliced end to end, then the fixation of two adjacent side baffles is realized through the connecting component, at the moment, the shock insulation rubber body is positioned in a protection space surrounded by a plurality of side baffles, after the construction of the upper buttress at the position is completed, the connecting component is adjusted to enable the two adjacent side baffles to be separated, and then the steps are repeated to protect the shock insulation support before the construction of the next upper buttress; the temporary protection device for the shock insulation support can protect an upper embedded positioning steel plate through the upper support plate, a space for accommodating the shock insulation rubber body can be formed by enclosing the plurality of side baffles, damage to the shock insulation support is reduced in the construction process of the upper support pier, the use reliability of the shock insulation support is improved, and detachable fixed connection of two adjacent side baffles can be realized through the connecting assembly.

In a specific embodiment, the coupling assembly comprises a barrel and a pin;

the circular tube and the bolt are respectively arranged on two adjacent side baffles, the circular tube and the bolt are arranged on different side baffles, and the axial direction of the circular tube is perpendicular to the plane of the bottom wall of the upper support plate; and the bolt can be inserted into the hollow inner cavity of the adjacent round tube.

Through adopting above-mentioned technical scheme, the coupling assembling of design, through pipe and bolt, can realize the degree of freedom restriction along the horizontal direction between two adjacent side shield, then through the mode of head-to-tail phase connection for polylith side shield forms a firm whole protective structure, and the drawing materials of pipe and bolt are convenient, simple structure has reduced installation protector's material cost.

In a specific embodiment, the number of the round tubes and the bolts is plural, and the plurality of the round tubes and the bolts are distributed along the axial direction of the round tubes and the bolts.

Through adopting above-mentioned technical scheme, the quantity of design is a plurality of pipes and bolt, can realize the multiposition of offside baffle and inject in vertical direction, further improves the shock resistance of the whole protective structure that the polylith side baffle formed.

In a specific embodiment, the bolt includes a connecting section, a vertical section and an inserting section which are integrally arranged, one end of the connecting section is connected with the side baffle, the other end of the connecting section is connected with the vertical section, the vertical section and the inserting section are coaxially arranged, and the diameter of the inserting section is gradually reduced from one side close to the connecting section to one side close to the circular tube.

Through adopting above-mentioned technical scheme, the bolt of design is convenient for realize the connection of side shield and vertical section through the linkage segment, is convenient for realize inserting the fixed of section through vertical section, is convenient for insert in the sleeve pipe through inserting the section, realizes the quick connect of two adjacent side shields, improves protector's installation, dismantles efficiency.

In a specific embodiment, the side guards comprise transverse links, vertical mounting ribs, and splice plates; the number of the vertical installation ribs is multiple, the vertical installation ribs are distributed along the long side of the upper support plate and are mutually arranged in parallel, and the vertical installation ribs are fixedly connected with the upper support plate;

the transverse connecting rod is connected with a plurality of vertical mounting ribs;

the number of the splice plate bodies is multiple, the splice plate bodies are arranged in a netlike space surrounded by the transverse connecting rods and the vertical installation ribs, and the splice plate bodies are connected with the vertical installation ribs.

Through adopting above-mentioned technical scheme, the side shield of design can form the netted supporting structure of an installation splice plate body through horizontal connecting rod and many vertical installation muscle, can realize the protection of shock insulation rubber body through the splice plate body.

In a specific embodiment, at least one diagonal brace is disposed between the upper support plate and the side guard, one end of the diagonal brace being connected to the upper support plate and the other end being connected to the side guard.

Through adopting above-mentioned technical scheme, the diagonal brace of design can improve the structural stability between upper bracket and the side shield.

In a specific embodiment, the coupling assembly comprises a plurality of fixing bolts screwed simultaneously with two adjacent side guards, and the plurality of fixing bolts are distributed along a direction perpendicular to the plane of the top wall of the upper support plate.

Through adopting above-mentioned technical scheme, the coupling assembly of design, can be fast convenient realize the detachable fixed connection between two adjacent side shields through fixing bolt.

In a specific embodiment, the top wall of the upper support plate is arranged flush with the top wall of the upper pre-buried positioning steel plate.

Through adopting above-mentioned technical scheme, the upper support plate that the roof of design and last pre-buried location steel sheet flush can be when realizing supporting the shock insulation support, as the shaping template of upper buttress diapire.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the temporary protection device for the shock insulation support can protect an upper embedded positioning steel plate through the upper support plate, a space for accommodating the shock insulation rubber body can be formed by enclosing the plurality of side baffles, damage to the shock insulation support is reduced in the construction process of the upper support pier, the use reliability of the shock insulation support is improved, and detachable fixed connection of two adjacent side baffles can be realized through the connecting assembly.

2. The temporary protection device for the shock insulation support is convenient to realize the connection of the side baffle and the vertical section through the connecting section, is convenient to realize the fixation of the inserting section through the vertical section, is convenient to insert into the sleeve through the inserting section, realizes the quick connection of two adjacent side baffles, and improves the installation and disassembly efficiency of the protection device.

3. The temporary protection device for the shock insulation support is designed, and the temporary protection device can serve as a forming template of the bottom wall of the upper buttress while supporting the shock insulation support through the upper support plate flush with the top wall of the upper embedded positioning steel plate.

Drawings

Fig. 1 is a schematic view of a prior art shock mount.

Fig. 2 is a schematic plan view of embodiment 1 of the present utility model.

Fig. 3 is a schematic three-dimensional structure of fig. 2.

Fig. 4 is an enlarged schematic view of a portion a of fig. 3.

Fig. 5 is a schematic plan view of embodiment 2 of the present utility model.

Reference numerals illustrate: 01. a shock insulation support; 011. a shock-insulating rubber body; 012. a positioning steel plate is pre-buried; 013. a lower embedded positioning steel plate; 1. an upper support plate; 2. side baffles; 21. a transverse link; 22. a vertical mounting rib; 23. splice plate body; 3. a coupling assembly; 31. a round tube; 32. a plug pin; 321. a connection section; 322. a vertical section; 323. an insertion section; 33. a fixing bolt; 4. and (5) an inclined strut.

Detailed Description

The utility model is described in further detail below with reference to fig. 2-5.

The embodiment of the utility model discloses a temporary protection device for a shock insulation support.

Example 1

Referring to fig. 2 and 3, a temporary protection device for a shock insulation support comprises an upper support plate 1, side baffles 2 and a coupling assembly 3, wherein the number of the upper support plate 1 is at least three, at least three upper support plates 1 are spliced end to form a channel for passing through an upper pre-buried positioning steel plate 012, and the inner side of the upper support plate 1 can be attached to the upper pre-buried positioning steel plate 012; the number of the upper support plates 1 in the utility model can be three, four or five, and only a channel which is matched with the shape of the upper embedded positioning steel plate 012 can be formed after the head and tail are spliced, and the number of the upper support plates 1 in the embodiment is four.

Referring to fig. 2, in order to finish supporting the shock insulation support 01 and use the upper support plate 1 as a forming template of the bottom wall of the upper support pier, the top wall of the upper support plate 1 is flush with the top wall of the upper embedded positioning steel plate 012, at least one diagonal brace 4 is arranged between the upper support plate 1 and the side baffle 2, one end of the diagonal brace 4 is welded with the upper support plate 1, and the other end is welded with the side baffle 2, wherein the number of the diagonal braces 4 in the utility model can be 1, 2 or 3, and in the embodiment, the number of the diagonal braces 4 is 6.

Referring to fig. 3, the number of the side baffles 2 is at least three, the number of the side baffles 2 is the same as that of the upper support plates 1, and the side baffles 2 are welded with the upper support plates 1 vertically; the number of the connecting components 3 is multiple, the connecting components 3 are arranged at the joint of the two adjacent side baffles 2, and the connecting components 3 are connected with the side baffles 2 and used for realizing the detachable fixed connection of the two adjacent side baffles 2.

Referring to fig. 3, further, in order to save the material cost of the round tube 31 and the bolt 32 and realize the force balance of the bolt 32 structure of the round tube 31 acting on the side baffle 2, the number of the round tube 31 and the bolt 32 is multiple, and the number of the round tube 31 and the bolt 32 is multiple and the number of the round tube 31 and the bolt 32 can be two, three, or four in the present embodiment.

Referring to fig. 4, specifically, the coupling assembly 3 includes a circular tube 31 and a bolt 32, the circular tube 31 and the bolt 32 are welded on two adjacent side baffles 2 respectively, and the circular tube 31 and the bolt 32 are installed on different side baffles 2, in the utility model, the circular tube 31 is welded on two opposite side baffles 2, the bolt 32 is welded on the other two opposite side baffles 2, the axial direction of the circular tube 31 is perpendicular to the plane of the bottom wall of the upper support plate 1, the bolt 32 can be inserted into the hollow inner cavity of the circular tube 31 from top to bottom, and the detachable fixed connection of the two adjacent side baffles 2 is realized through the structures of the circular tube 31 and the bolt 32.

Referring to fig. 4, in order to further improve the efficiency and convenience of inserting the bolt 32 into the circular tube 31, the bolt 32 includes a connecting section 321, a vertical section 322 and an inserting section 323 which are integrally provided, one end of the connecting section 321 is welded and fixed with the side baffle 2, the other end is connected with the vertical section 322, the axial direction of the vertical section 322 is perpendicular to the plane where the bottom wall of the upper support plate 1 is located, and the vertical section 322 and the inserting section 323 are coaxially provided, and the diameter of the inserting section 323 is gradually reduced from one side close to the connecting section 321 to one side close to the circular tube 31 so as to be convenient to be inserted into the circular tube 31.

Referring to fig. 2, further discloses a specific structure of the side baffle 2 on the basis of the foregoing embodiment, the side baffle 2 includes a transverse connecting rod 21, a plurality of vertical mounting ribs 22 and a splice plate body 23, the number of the vertical mounting ribs 22 is plural, the vertical mounting ribs 22 are vertically welded with the top wall of the upper support plate 1, the plural vertical mounting ribs 22 are distributed along the long side of the upper support plate 1, and the transverse connecting rod 21 is simultaneously welded with the plural vertical mounting ribs 22; the number of splice plates 23 is several, the splice plates are arranged in a netlike space surrounded by the transverse connecting rod 21 and the vertical mounting ribs 22, and the splice plates are welded and fixed with the vertical mounting ribs 22; wherein, pipe 31 and linkage segment 321 are all installed on being close to the vertical installation muscle 22 that the edge set up, and diagonal brace 4 and vertical installation muscle 22 welding.

The embodiment 1 of the utility model provides a temporary protection device for a shock insulation support, which is implemented by the following principle: after the construction of the lower buttress is completed, the lower pre-buried positioning steel plate 013 is penetrated through by bolts and then is in threaded connection with pre-buried sleeves pre-buried in the lower buttress, the shock insulation support 01 is fixed on the lower buttress, then force is applied to the side baffles 2, so that two side baffles 2 welded with round tubes 31 are arranged on two opposite sides of the shock insulation support 01 in a surrounding mode, then force is applied to the side baffles 2 welded with bolts 32, the bolts 32 are inserted into the round tubes 31 from top to bottom, the position fixing of the four side baffles 2 is achieved, the side baffles 2 move and simultaneously are spliced end to end, the inner side of the upper support 1 is attached to the periphery of the upper pre-buried positioning steel plate 012, the top wall of the upper support 1 is flush with the top wall of the upper pre-buried positioning steel plate 012, at this moment, the shock insulation rubber body 011 is located in a protection space surrounded by the four side baffles 2, after the construction of the upper buttress is completed, the coupling assembly 3 is adjusted, the adjacent two side baffles 2 are separated, and then the protection of the shock insulation support 01 before the construction of the next upper buttress is repeated.

In the case of example 2,

referring to fig. 5, the present embodiment 2 is different from embodiment 1 in that the coupling assembly 3 includes a plurality of fixing bolts 33, the fixing bolts 33 are simultaneously screwed with the vertical mounting ribs 22 on the adjacent two side guards 2, and the plurality of fixing bolts 33 are distributed in a direction perpendicular to the plane in which the top wall of the upper stay 1 is located; the number of the fixing bolts 33 in the present utility model may be 2, 3, or 4, and the number of the fixing bolts 33 in the present embodiment is 2.

The embodiment 2 of the utility model provides a temporary protection device for a shock insulation support, which is implemented by the following principle: after the construction of the lower buttress is completed, the lower pre-buried positioning steel plate 013 is penetrated through the bolts and then is connected with the pre-buried sleeve pipe which is pre-buried in the lower buttress in a threaded manner, the shock insulation support 01 is fixed on the lower buttress, then force is applied to the side baffles 2, the side baffles 2 move and simultaneously enable the head and tail parts between the upper support plates 1 to be spliced, the inner sides of the upper support plates 1 are attached to the peripheries of the upper pre-buried positioning steel plate 012, the top wall of the upper support plates 1 is flush with the top wall of the upper pre-buried positioning steel plate 012, then the four side baffles 2 are connected and fixed through the fixing bolts 33 to form a whole enclosure, at the moment, the shock insulation rubber body 011 is located in a protection space surrounded by the four side baffles 2, after the construction of the upper buttress at the moment is completed, the connecting assembly 3 is adjusted to enable the two adjacent side baffles 2 to be separated, and then the protection of the shock insulation support 01 before the construction of the next upper buttress is repeated.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides a shock insulation support temporary protection device which characterized in that: comprising

At least three upper support plates (1), wherein at least three upper support plates (1) are spliced end to form a channel for a shock insulation support (01) to pass through, and the inner side of each upper support plate (1) can be attached to an upper pre-buried positioning steel plate (012);

the number of the side baffles (2) is consistent with that of the upper support plates (1), and the side baffles (2) are vertically connected with the upper support plates (1);

the multi-group connecting assembly (3), the connecting assembly (3) is arranged at the joint of two adjacent side baffles (2), the connecting assembly (3) is connected with the side baffles (2) and is used for realizing the detachable fixed connection of two adjacent side baffles (2).

2. The temporary protection device for a seismic isolation support according to claim 1, wherein: the connecting component (3) comprises a circular tube (31) and a bolt (32);

the round tube (31) and the bolt (32) are respectively arranged on two adjacent side baffles (2), the round tube (31) and the bolt (32) are arranged on different side baffles (2), and the axial direction of the round tube (31) is perpendicular to the plane of the bottom wall of the upper support plate (1); and is also provided with

The bolt (32) can be inserted into the hollow inner cavity of the adjacent round tube (31).

3. The temporary protection device for a seismic isolation support according to claim 2, wherein: the number of the round tubes (31) and the bolts (32) is multiple, and the round tubes (31) and the bolts (32) are distributed along the axial direction of the round tubes.

4. The temporary protection device for a seismic isolation support according to claim 2, wherein: the bolt (32) comprises a connecting section (321), a vertical section (322) and an inserting section (323) which are integrally arranged, one end of the connecting section (321) is connected with the side baffle (2), the other end of the connecting section is connected with the vertical section (322), the vertical section (322) and the inserting section (323) are coaxially arranged, and the diameter of the inserting section (323) is gradually reduced from one side of the connecting section (321) to one side of the circular tube (31).

5. A temporary protection device for a seismic isolation support according to any one of claims 1-3, wherein: the side baffle (2) comprises a transverse connecting rod (21), a vertical mounting rib (22) and a splice plate body (23);

the number of the vertical installation ribs (22) is multiple, the vertical installation ribs (22) are distributed along the long side of the upper support plate (1) and are arranged in parallel with each other, and the vertical installation ribs (22) are fixedly connected with the upper support plate (1);

the transverse connecting rod (21) is connected with a plurality of vertical mounting ribs (22);

the number of the splice plate bodies (23) is multiple, the splice plate bodies (23) are arranged in a netlike space surrounded by the transverse connecting rod (21) and the vertical installation ribs (22), and the splice plate bodies (23) are connected with the vertical installation ribs (22).

6. A temporary protection device for a seismic isolation support according to any one of claims 1-3, wherein: at least one diagonal brace (4) is arranged between the upper support plate (1) and the side baffle plate (2), one end of the diagonal brace (4) is connected with the upper support plate (1), and the other end of the diagonal brace is connected with the side baffle plate (2).

7. The temporary protection device for a seismic isolation support according to claim 2, wherein: the connecting assembly (3) comprises a plurality of fixing bolts (33), the fixing bolts (33) are simultaneously in threaded connection with two adjacent side baffles (2), and the fixing bolts (33) are distributed along the direction perpendicular to the plane of the top wall of the upper support plate (1).

8. The temporary protection device for a seismic isolation support according to claim 1, wherein: the top wall of the upper support plate (1) is arranged flush with the top wall of the upper embedded positioning steel plate (012).