CN216105745U - A construction equipment for isolation bearing transportation and hoist and mount - Google Patents

Abstract

The utility model discloses a construction device for transporting and hoisting a vibration isolation support, which comprises a support frame, a bearing beam and a hand push rod, wherein the support frame is provided with a support frame; the number of the supporting frames is a pair, the supporting frames are isosceles triangular frames formed by welding the head and the tail of channel steel, and the bearing beams are vertically arranged between the supporting frames; one long edge of the support frame is horizontally arranged, a bearing beam is arranged at the joint of the other long edge and the short edge of the support frame, and the hand push rod is horizontally arranged between the long edge and the short edge of the support frame; a manual hoist sling is arranged on the bearing beam to fix the seismic isolation support to be hoisted; a connecting rod is arranged at the end part of the long edge of the support frame arranged along the horizontal direction, and the connecting rod is a channel steel; the one end of support frame and the handing-over department of connecting rod are provided with the load one-way wheel, the other end of support frame and the handing-over department of connecting rod are provided with the universal wheel.

Description

A construction equipment for isolation bearing transportation and hoist and mount

Technical Field

The utility model belongs to the technical field of earthquake-resistant building construction, and relates to a construction device for transporting and hoisting an earthquake-resistant support.

Background

In areas with high requirements on earthquake fortification strength, an earthquake isolation support is generally arranged at the joint of the first-layer column bottom and a foundation or at the corresponding floor of a building structure to consume the energy transferred to the upper structure by an earthquake so as to reduce the earthquake response of the upper building structure, improve the earthquake resistance grade of the building and ensure the structural safety of the building under the earthquake condition.

Through engineering example analysis, the vibration isolation support is found to be large in size and heavy in weight, and needs to be hung and hung in the air in the whole process during installation. The problems that construction is carried out by using common hoisting equipment, suspension stability is poor, and hoisting precision cannot be guaranteed exist, and meanwhile, a large amount of manual matching is needed in the installation process. If the shock insulation support is installed at an offset position, the situation that the shock insulation support is stressed eccentrically and is suspended without stress is directly caused; therefore, the rapid and accurate positioning in the installation process of the shock insulation support is the main point of quality control of shock insulation building construction.

Therefore, a construction device for transporting and hoisting a vibration isolation support needs to be designed to solve the technical problems in the prior art.

Disclosure of Invention

The utility model aims to solve at least some technical problems in the prior art to a certain extent, and provides a construction device for transporting and hoisting a shock insulation support.

In order to solve the technical problem, the utility model provides a construction device for transporting and hoisting a vibration isolation support, which comprises a support frame, a bearing beam and a hand push rod, wherein the support frame is provided with a support frame; the number of the supporting frames is a pair, the supporting frames are isosceles triangular frames formed by welding the head and the tail of channel steel, and the bearing beams are vertically arranged between the supporting frames; one long edge of the support frame is horizontally arranged, a bearing beam is arranged at the joint of the other long edge and the short edge of the support frame, and the hand push rod is horizontally arranged between the long edge and the short edge of the support frame; a manual hoist sling is arranged on the bearing beam to fix the seismic isolation support to be hoisted; a connecting rod is arranged at the end part of the long edge of the support frame arranged along the horizontal direction, and the connecting rod is a channel steel; the one end of support frame and the handing-over department of connecting rod are provided with the load one-way wheel, the other end of support frame and the handing-over department of connecting rod are provided with the universal wheel.

As a preferred embodiment, the bearing beam is I-shaped steel, and the middle part of the bearing beam is provided with a hanging ring to be connected with the hand hoist sling.

In a preferred embodiment, a reinforcing rib is arranged at the joint of the long side and the short side of the support frame, and the reinforcing rib is an angle steel, a channel steel or an I-steel.

In a preferred embodiment, the hand push rod is horizontally arranged in the middle of the long side and the short side of the support frame.

As a preferred embodiment, a hand push rod is further arranged and horizontally connected between the supporting frames, and the hand push rod and other hand push rods are located at the same vertical height.

In a preferred embodiment, the universal wheel is further provided with a parking device, and the parking device is positioned on the outer side of the universal wheel.

In a preferred embodiment, the support frame is provided with a connecting rod at the middle position of the long side arranged along the horizontal direction.

In a preferred embodiment, the handle bar is a tubular structure that is arched in an arc shape toward the outside.

As a preferred embodiment, the hand push rod is of a circular tube structure, and the outer diameter of the hand push rod is 20-30 mm.

In a preferred embodiment, a protective cover is disposed on an outer peripheral side of the handle bar, and the protective cover is made of fluororubber.

The utility model has the beneficial effects that:

the construction device for transporting and hoisting the shock insulation support is reasonable in structure, solves the problem that a heavy shock insulation support is difficult to transport in the prior construction technology, improves the flexibility of regulation and control in installation, hoisting and placing construction, improves the construction quality of a shock insulation layer on the premise of ensuring the installation speed and accuracy of the shock insulation support, and ensures the safety and stability of a building.

Drawings

The above advantages of the present invention will become more apparent and more readily appreciated from the detailed description set forth below when taken in conjunction with the drawings, which are intended to be illustrative, not limiting, of the utility model and in which:

FIG. 1 is a schematic structural diagram of a construction device for transporting and hoisting a seismic isolation support according to the utility model;

FIG. 2 is a right side view of the construction apparatus corresponding to FIG. 1;

fig. 3 is a plan view of the construction device according to the present invention.

In the drawings, the reference numerals denote the following components:

10. a support frame; 10a, long side; 10b, short side;

20. a bearing beam; 30. a handspike; 40. a hoist rope; 50. a connecting rod; 60. a force bearing one-way wheel; 70. a universal wheel; 80. a parking device; 90. and (4) reinforcing ribs.

Detailed Description

Fig. 1 to 3 are schematic diagrams related to a construction device for transporting and hoisting a seismic isolation bearing according to the present application, and the present invention will be described in detail below with reference to specific embodiments and accompanying drawings.

The examples described herein are specific embodiments of the present invention, are intended to be illustrative and exemplary in nature, and are not to be construed as limiting the scope of the utility model. In addition to the embodiments described herein, those skilled in the art will be able to employ other technical solutions which are obvious based on the disclosure of the claims and the specification of the present application, and these technical solutions include technical solutions which make any obvious replacement or modification for the embodiments described herein.

The drawings in the present specification are schematic views to assist in explaining the concept of the present invention, and schematically show the shapes of respective portions and their mutual relationships. It is noted that the drawings are not necessarily to the same scale so as to clearly illustrate the structures of the various elements of the embodiments of the utility model. Like reference numerals are used to denote like parts.

The utility model discloses a structural schematic diagram of a construction device for transporting and hoisting a vibration-isolating support, which is shown in figures 1 and 2. The construction device for transporting and hoisting the vibration isolation support comprises a support frame 10, a bearing beam 20 and a hand push rod 30.

Furthermore, the number of the support frames 10 is a pair, and the support frames are isosceles triangle frames formed by welding channel steel end to end, and the bearing beams 20 are vertically arranged between the support frames 10; one long side 10a of the support frame 10 is horizontally disposed, and a force-bearing beam 20 is disposed at a joint of the other long side 10a and the short side 10b, as shown in fig. 2, the hand push rod 30 is horizontally disposed between the long side 10a and the short side 10b of the support frame 10.

A manual hoist sling 40 is arranged on the bearing beam 20 to fix a seismic isolation support to be hoisted; the hand hoist sling 40 comprises a bearing iron chain, a connecting ring, three balancing slings and a hand hoist; the go-between can carry out 360 rotations, and the isolation bearing of easy to assemble adjustment, 3 tons of hand block load are carried out the lift of isolation bearing through hand block.

The support frame adopts a triangular structure with good stability, and is beneficial to improving the installation precision of the shock insulation support by operating the manual hoist sling 40 on the premise of ensuring the construction safety.

A connecting rod 50 is arranged at the end of the long side 10a of the support frame 10 arranged along the horizontal direction, and as shown in fig. 2, the connecting rod 50 is a channel steel; a force bearing one-way wheel 60 is arranged at the joint of one end of the support frame 10 and the connecting rod 50, and a universal wheel 70 is arranged at the joint of the other end of the support frame 10 and the connecting rod 50.

As an embodiment of the present invention, the carrier beam 20 is an i-beam, and a hanging ring is disposed in the middle of the carrier beam to connect the hoist cable 40.

A reinforcing rib 90 is arranged at the joint of the long side 10a and the short side 10b of the support frame 10, as shown in fig. 2, the reinforcing rib 90 is an angle steel, a channel steel or an i-steel. In the embodiment shown in fig. 2, the stiffening ribs 90 are channel steel.

In fig. 2, the hand push bar 30 is horizontally disposed at a middle position between the long side 10a and the short side 10b of the support frame 10.

The construction device is further provided with a handspike 30, as shown in fig. 1, which is horizontally connected between the support frames 10, and the handspike 30 is located at the same vertical height as the other handspikes 30. That is, the number of the hand push bars 30 of the construction device of the present invention is three, which are provided at the rear side, the left side, and the right side of the construction device, so that the operator can push the construction device as a whole by holding the hand push bars 30.

In the present invention, the universal wheel 70 is further provided with a parking device 80, as shown in fig. 2, the parking device 80 is located at the outer side of the universal wheel 70 to facilitate parking of the construction apparatus.

In the present invention, the connecting rod 50 is disposed at the middle position of the long side 10a of the support frame 10 arranged along the horizontal direction, as shown in fig. 3, so as to increase the overall strength of the construction apparatus and ensure the stability of the construction process.

As another embodiment of the present invention, the handle bar 30 has a tubular structure, which is arched toward the outside. Further, the hand push rod 30 is a circular tube structure, and the outer diameter thereof is 20-30 mm.

Preferably, a protection cover is disposed on an outer circumferential side of the handle bar 30, and the protection cover is made of fluororubber to facilitate holding by an operator.

The use steps of the construction device for transporting and hoisting the vibration isolation support are briefly described as follows:

firstly, hoisting a seismic isolation support and the construction device to a construction area;

then, lifting the parking device 80, moving the tail direction of the construction device through the universal wheels 70, and aligning the tail direction of the construction device to the seismic isolation support needing to be hoisted;

then, the construction device is pushed by the hand push rod 30 to be right above the shock insulation support, and the parking device 80 is put down and screwed down;

and then, three balance slings on the hand hoist sling 40 are loosened to sequentially penetrate through the lifting hole positions of the vibration isolation support at equal intervals, and the hand hoist is pulled to lift the vibration isolation support.

The hand push rods 30 on the two sides and the rear side are respectively supported by three persons, the parking device 80 is lifted, the tail of the construction device is moved towards the direction of the shock insulation buttress to be installed through the universal wheels 70, and the hand push rods 30 push the construction device to be right above the shock insulation buttress.

And slowly loosening the hand-operated hoist, rotating the shock insulation support to align the anchor bars, continuously loosening the hand-operated hoist, and enabling the shock insulation support to descend to a preset position to finish installation.

Compared with the defects and shortcomings of the prior art, the construction device for transporting and hoisting the shock insulation support is reasonable in structure, solves the problem that a heavy shock insulation support is difficult to transport in the prior construction technology, improves the flexibility of regulation and control in installation, hoisting and placing construction, improves the construction quality of a shock insulation layer on the premise of ensuring the installation speed and precision of the shock insulation support, and ensures the safety and stability of a building; in addition, the construction device can be used repeatedly, and is favorable for controlling the construction cost.

The present invention is not limited to the above embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which are the same as or similar to the technical solutions of the present invention, fall within the protection scope of the present invention.

Claims (10)

1. A construction device for transporting and hoisting a vibration isolation support is characterized by comprising a support frame, a bearing beam and a hand push rod; the number of the supporting frames is a pair, the supporting frames are isosceles triangular frames formed by welding the head and the tail of channel steel, and the bearing beams are vertically arranged between the supporting frames; one long edge of the support frame is horizontally arranged, a bearing beam is arranged at the joint of the other long edge and the short edge of the support frame, and the hand push rod is horizontally arranged between the long edge and the short edge of the support frame; a manual hoist sling is arranged on the bearing beam to fix the seismic isolation support to be hoisted; a connecting rod is arranged at the end part of the long edge of the support frame arranged along the horizontal direction, and the connecting rod is a channel steel; the one end of support frame and the handing-over department of connecting rod are provided with the load one-way wheel, the other end of support frame and the handing-over department of connecting rod are provided with the universal wheel.

2. The construction device as claimed in claim 1, wherein the load-bearing beam is an i-beam, and a hanging ring is provided at the middle part thereof to connect the hoist cable of the chain block.

3. The construction device according to claim 1, wherein a reinforcing rib is arranged at the joint of the long side and the short side of the support frame, and the reinforcing rib is an angle steel, a channel steel or an I-steel.

4. The construction apparatus as claimed in claim 1, wherein the hand push bar is horizontally disposed at a middle position between a long side and a short side of the support frame.

5. The construction apparatus as claimed in claim 4, wherein a hand push bar is further provided, which is horizontally connected between the support frames, and the hand push bar is located at the same vertical height as the other hand push bars.

6. The construction device according to claim 1, wherein the universal wheel is further provided with a parking device located outside the universal wheel.

7. The construction apparatus according to claim 1, wherein the support frame is provided with a connection bar at a middle position of a long side disposed in a horizontal direction.

8. The construction apparatus according to claim 1, wherein the hand push bar is a tubular structure which is arched toward an outer side arc.

9. The construction apparatus as claimed in claim 8, wherein the push rod has a circular tube structure with an outer diameter of 20-30 mm.

10. The construction apparatus as claimed in claim 8, wherein a protective cover is provided at an outer circumferential side of the push bar, the protective cover being made of fluororubber.

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