CN114455495B - Sliding lifting equipment for indoor material fixed on I-steel beam - Google Patents

Abstract

When the upper steel structure is completed, the steel beam steel plate covers the upper space, so that the material cannot be lifted into the floor, at the moment, the equipment is processed according to the size of the steel beam on site, the material is lifted into the floor vertically by using a lifting opening, then the left L-shaped connecting plate and the right L-shaped connecting plate of the equipment are connected under the I-shaped steel in a butt joint mode, after the alignment positions of bolt holes of the L-shaped connecting plates are adjusted according to the size of the I-shaped steel, the two L-shaped connecting plates are fixed by high-strength bolts, and after the device is fixed, hooks such as a chain block and the like are hooked on the falling hanging plate for use. The invention solves the problems that after the hoisting of the steel structure is completed, the larger and heavier equipment is difficult to hoist into the floor and has larger danger, and simultaneously combines the actual situation of the site, so that the equipment can be quickly and safely hoisted into the floor horizontally under the condition of not affecting the operation of the steel structure and other work types.

Description

Sliding lifting equipment for indoor material fixed on I-steel beam

Technical Field

The invention relates to an indoor material sliding and lifting device fixed on an I-shaped steel beam.

Background

At present, on the lifting problem of heavier and larger equipment after the steel structure is finished, a very convenient mode is not available, the old mode adopted on site has larger danger and low efficiency, and the problems that the structure and the attractive appearance are possibly influenced by collision with the structure exist.

Disclosure of Invention

The invention aims to provide sliding lifting equipment for indoor materials fixed on an I-steel beam.

In order to solve the above problems, the present invention provides a sliding and lifting device for indoor materials fixed on an i-steel beam, comprising:

two sets up C style of calligraphy concatenation module relatively, wherein, every C style of calligraphy concatenation module includes: the hanging plate, the side plate and the connecting plate are connected in sequence to form a C shape, the hanging plate is hung on the I-shaped steel beam, and a flange at one end of the I-shaped steel beam extends into the C-shaped open slot;

the connecting plates of the two C-shaped splicing modules are mutually butted so as to fix one end of the I-shaped steel beam in a space surrounded by the two oppositely arranged C-shaped splicing modules;

the connecting plate of each C-shaped splicing module is provided with a falling hanging plate, and the hooks of the chain block are connected with the falling hanging plates.

Furthermore, in the sliding and lifting device for indoor materials fixed on the I-shaped steel beam, the connecting plates of each C-shaped splicing module are long sides and short sides connected into an L shape, the long side of one L-shaped connecting plate is connected with the short side of the other L-shaped connecting plate, and the short side of the other L-shaped connecting plate is connected with the long side of the other L-shaped connecting plate.

Further, in the sliding and lifting device for indoor materials fixed on the i-steel beam, bolt holes are respectively formed in the ends of the long side and the short side of each connecting plate, the long side of one L-shaped connecting plate is connected with the short side of the other L-shaped connecting plate through bolts penetrating through the long side and the short side, and the short side of the other L-shaped connecting plate is connected with the long side of the other L-shaped connecting plate through bolts penetrating through the long side and the short side.

Further, in the sliding and lifting device for the indoor material fixed on the i-beam, the number of bolt holes on the long side is at least 2, and the number of bolt holes on the short side is at least 2.

Further, in the sliding and lifting device for the indoor material fixed on the I-beam, at least 2 bolt holes are formed in each row.

Further, in the above-described sliding and lifting apparatus for indoor material secured to an i-beam, a row of bolt holes on a long side of one L-shaped web is aligned with a row of bolt holes on a short side of another L-shaped web.

Further, in the above-mentioned sliding and lifting device for indoor material fixed on the i-beam, the 2 rows of bolt holes on the long side of one L-shaped connecting plate are aligned with the 2 rows of bolt holes on the short side of the other L-shaped connecting plate.

Furthermore, in the sliding and lifting device for the indoor material fixed on the I-shaped steel beam, at least 2 lifting holes are formed in each falling hanging plate.

Further, in the sliding and lifting device for the indoor material fixed on the I-beam, the first lifting hole on one falling hanging plate is aligned with the first lifting hole on the other falling hanging plate

Further, in the sliding and lifting device for indoor material fixed on the I-beam, the second lifting hole on one falling hanging plate is aligned with the second lifting hole on the other falling hanging plate.

Compared with the prior art, when the upper steel structure is finished, the steel beam and the steel plate cover the upper space, so that materials cannot be lifted into floors, at the moment, the equipment is processed according to the size of the steel beam on site, the materials are vertically lifted into the floors by using the lifting opening, then the left L-shaped connecting plate and the right L-shaped connecting plate of the equipment are connected under I-steel in a butt joint mode, after the alignment positions of bolt holes of the L-shaped connecting plates are adjusted according to the size of the I-steel, the two L-shaped connecting plates are fixed by high-strength bolts, and after the device is fixed, hooks such as a chain block and the like are hooked on a falling hanging plate for use.

The invention solves the problems that after the hoisting of the steel structure is completed, the larger and heavier equipment is difficult to hoist into the floor and has larger danger, and simultaneously combines the actual situation of the site, so that the equipment can be quickly and safely hoisted into the floor horizontally under the condition of not affecting the operation of the steel structure and other work types.

The invention can carry out statistical classification according to the size of the steel beam on site, and can adjust the bolt position of the equipment so as to lead the equipment to be widely applied on site, thereby avoiding the waste that equipment with one size can only correspond to the steel beam with one size.

Drawings

FIG. 1 is a block diagram of an embodiment of the present invention of a sliding hoist for indoor material secured to a steel I-beam;

fig. 2 is a schematic connection diagram of a connection board according to an embodiment of the invention.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

As shown in fig. 1 and 2, the present invention provides a sliding and lifting apparatus for indoor material fixed to a girder i-steel, comprising: two sets up C style of calligraphy concatenation module relatively, wherein, every C style of calligraphy concatenation module includes: the hanging plate 1, the side plate 2 and the connecting plate 3 are sequentially connected into a C shape, the hanging plate is hung on the I-shaped steel beam 5, and the flange at one end of the I-shaped steel beam 5 extends into the opening groove in the C shape;

the connecting plates 3 of the two C-shaped splicing modules are mutually butted so as to fix one end of the I-shaped steel beam 5 in a space surrounded by the two oppositely arranged C-shaped splicing modules;

the connecting plate of each C-shaped splicing module is provided with a falling hanging plate 6, and the hooks of the chain block are connected with the falling hanging plates.

In the construction of the steel structure, after the construction of the upper structural steel beam and the profiled steel sheet is completed, the subsequent larger and heavier materials cannot be lifted into the floor by direct vertical lifting, but the lifting of the larger and heavier materials after the completion of the steel structure is solved by the equipment for the convenience of construction and the safety of construction.

The device is used for solving the problems that the materials are difficult to hoist in the steel structure, and the device has the advantages of convenience in construction, more reasonable structure and the like.

In one embodiment of the sliding lifting device for indoor materials fixed on an I-shaped steel beam, the connecting plates of each C-shaped splicing module are long sides and short sides which are connected into an L shape, the long side of one L-shaped connecting plate is connected with the short side of the other L-shaped connecting plate, and the short side of the other L-shaped connecting plate is connected with the long side of the other L-shaped connecting plate.

In one embodiment of the sliding lifting device for indoor materials fixed on an I-shaped steel beam, the ends of the long side and the short side of each connecting plate are respectively provided with bolt holes, the long side of one L-shaped connecting plate is connected with the short side of the other L-shaped connecting plate through bolts 4 penetrating through the long side and the short side, and the short side of the other L-shaped connecting plate is connected with the long side of the other L-shaped connecting plate through bolts 4 penetrating through the long side and the short side.

In one embodiment of the sliding and lifting apparatus for indoor material secured to a steel I-beam of the present invention, as shown in FIGS. 1 and 2, there are at least 2 rows of bolt holes on the long side and at least 2 rows of bolt holes on the short side.

In one embodiment of the present invention, there are at least 2 bolt holes per row.

In one embodiment of the present invention, a row of bolt holes on the long side of one L-shaped web is aligned with a row of bolt holes on the short side of another L-shaped web.

Here, through the alignment position difference of the bolt hole of long limit and minor face, can finely tune according to on-the-spot girder steel width, the application universality is stronger. When a row of bolt holes on the long side of one L-shaped connecting plate is aligned with a row of bolt holes on the short side of the other L-shaped connecting plate, the width of the adaptive field steel beam is wider.

In one embodiment of the sliding and lifting device for indoor material fixed on an I-beam, the 2 rows of bolt holes on the long side of one L-shaped connecting plate are aligned with the 2 rows of bolt holes on the short side of the other L-shaped connecting plate.

Here, through the alignment position difference of the bolt hole of long limit and minor face, can finely tune according to on-the-spot girder steel width, the application universality is stronger. When the 2 rows of bolt holes on the long side of one L-shaped connecting plate are aligned with the 2 rows of bolt holes on the short side of the other L-shaped connecting plate, the width of the adaptive field steel beam is narrower.

In one embodiment of the sliding and lifting device for indoor materials fixed on the I-shaped steel beam, at least 2 lifting holes are formed in each falling hanging plate, so that the aligned hole positions can be conveniently adjusted.

In one embodiment of the present invention, a sliding lifting apparatus for indoor material secured to a steel I-beam is provided wherein a first lifting hole in one drop hanger plate is aligned with a first lifting hole in another drop hanger plate.

In one embodiment of the sliding and lifting apparatus for securing indoor material to a steel I-beam, the second lifting hole in one drop hanger plate is aligned with the second lifting hole in the other drop hanger plate.

Specifically, when the upper steel structure is completed, the steel beam and the steel plate cover the upper space, so that materials cannot be lifted into floors, at the moment, the equipment is processed according to the size of the steel beam on site, the materials are vertically lifted into the floors by using a lifting opening, then the left L-shaped connecting plate and the right L-shaped connecting plate of the equipment are connected under I-steel in a butt joint mode, after the alignment positions of bolt holes of the L-shaped connecting plates are adjusted according to the size of the I-steel, the two L-shaped connecting plates are fixed by high-strength bolts, and after the equipment is fixed, hooks such as a chain block and the like are hooked on a falling hanging plate for use.

The invention solves the problems that after the hoisting of the steel structure is completed, the larger and heavier equipment is difficult to hoist into the floor and has larger danger, and simultaneously combines the actual situation of the site, so that the equipment can be quickly and safely hoisted into the floor horizontally under the condition of not affecting the operation of the steel structure and other work types.

The invention can carry out statistical classification according to the size of the steel beam on site, and can adjust the bolt position of the equipment so as to lead the equipment to be widely applied on site, thereby avoiding the waste that equipment with one size can only correspond to the steel beam with one size.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (1)

1. An indoor material sliding and lifting device fixed on an i-steel beam, comprising:

two sets up C style of calligraphy concatenation module relatively, wherein, every C style of calligraphy concatenation module includes: the hanging plate, the side plate and the connecting plate are connected in sequence to form a C shape, the hanging plate is hung on the I-shaped steel beam, and a flange at one end of the I-shaped steel beam extends into the C-shaped open slot;

the connecting plates of the two C-shaped splicing modules are mutually butted so as to fix one end of the I-shaped steel beam in a space surrounded by the two oppositely arranged C-shaped splicing modules;

a falling hanging plate is arranged on the connecting plate of each C-shaped splicing module, and a hook of the chain block is connected with the falling hanging plate;

the connecting plates of each C-shaped splicing module are long sides and short sides which are connected into an L shape, the long side of one L-shaped connecting plate is connected with the short side of the other L-shaped connecting plate, and the short side of the other L-shaped connecting plate is connected with the long side of the other L-shaped connecting plate;

the long side and the short side of each connecting plate are respectively provided with a bolt hole, the long side of one L-shaped connecting plate is connected with the short side of the other L-shaped connecting plate through bolts penetrating through the long side and the short side, and the short side of the other L-shaped connecting plate is connected with the long side of the other L-shaped connecting plate through bolts penetrating through the long side and the short side;

the number of the bolt holes on the long side is at least 2, and the number of the bolt holes on the short side is at least 2;

at least 2 bolt holes are arranged in each row;

a row of bolt holes on the long side of one L-shaped connecting plate is aligned with a row of bolt holes on the short side of the other L-shaped connecting plate;

the 2 rows of bolt holes on the long side of one L-shaped connecting plate are aligned with the 2 rows of bolt holes on the short side of the other L-shaped connecting plate;

at least 2 hanging holes are formed in each falling hanging plate;

the first hanging hole on one falling hanging plate is aligned with the first hanging hole on the other falling hanging plate;

the second hanging hole on one drop down hanging plate is aligned with the second hanging hole on the other drop down hanging plate.