CN210150574U - Superimposed sheet hoist and mount frame - Google Patents

Abstract

A laminated slab hoisting frame is formed by combining I-shaped channel steel, grooves are arranged on two sides of the I-shaped channel steel, the I-shaped channel steel comprises two groups of transverse I-shaped channel steel and two groups of first longitudinal I-shaped channel steel, the end part of the first longitudinal I-shaped channel steel is trapezoidal, two ends of the first longitudinal I-shaped channel steel are respectively inserted into the inner grooves of the transverse I-shaped channel steel positioned on two sides of the first longitudinal I-shaped channel steel to form a square hoisting frame base, three groups of second longitudinal I-shaped channel steel are arranged between the two groups of first longitudinal I-shaped channel steel, the end part of the second longitudinal I-shaped channel steel is trapezoidal and is embedded into the inner grooves of the transverse I-shaped channel steel, adjacent second longitudinal I-shaped channel steel are connected through the obliquely arranged I-shaped channel steel, the obliquely arranged I-shaped channel steel is rhombic, the end part of the obliquely arranged I-shaped channel steel is trapezoidal and is embedded into the inner, the utility model discloses superimposed sheet's coincide hoist and mount can be realized to the very big security that has increased of its structural relationship.

Description

Superimposed sheet hoist and mount frame

Technical Field

The utility model relates to a superimposed sheet hoist and mount frame is applicable to the building engineering field.

Background

The handling of superimposed sheet includes: the method comprises the following steps of loading and transferring a transfer trolley in a workshop, transporting the transfer trolley to a storage yard, hoisting and unloading the transfer trolley to the storage yard, delivering goods and loading, transporting and hoisting and unloading on site, wherein in the hoisting process of the laminated slab, the hoisting speed of the laminated slab limits the overall progress to a great extent, the hoisting of the traditional single laminated slab is time-consuming and labor-consuming, the timely completion of the delivery of the laminated slab with a large quantity is difficult to ensure, and the safety cannot be effectively ensured by the existing hoisting device, so that the potential safety hazard is caused; in addition, because the laminated slabs are flat plates, after being stacked, the upper layer and the lower layer are tightly attached, the laminated slabs are extremely difficult to take out, generally need to be manually lifted by a crowbar, and then can be transferred for the next step; or the cushion blocks are manually placed when the laminated plates are stacked, but the cushion blocks are very close to the laminated plates when the cushion blocks are manually placed, so that safety accidents are very easy to happen.

Disclosure of Invention

For solving the problem that prior art exists, improve handling efficiency, the utility model provides a superimposed sheet hoist and mount frame, the very big handling transport time who has shortened the superimposed sheet of this device, very big increase handling efficiency to whole safe and reliable.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a laminated slab hoisting frame is formed by combining I-shaped channel steel, grooves are arranged on two sides of the I-shaped channel steel, the I-shaped channel steel comprises two groups of transverse I-shaped channel steel and two groups of first longitudinal I-shaped channel steel, the end part of the first longitudinal I-shaped channel steel is trapezoidal, two ends of the first longitudinal I-shaped channel steel are respectively inserted into the inner grooves of the transverse I-shaped channel steel positioned on two sides of the first longitudinal I-shaped channel steel to form a square hoisting frame base, three groups of second longitudinal I-shaped channel steel are arranged between the two groups of first longitudinal I-shaped channel steel, the end part of the second longitudinal I-shaped channel steel is trapezoidal and is embedded into the inner grooves of the transverse I-shaped channel steel, adjacent second longitudinal I-shaped channel steel is connected through the obliquely arranged I-shaped channel steel, the obliquely arranged I-shaped channel steel is rhombic, and the end part of the obliquely arranged I-shaped, and is embedded into the inner side groove of the transverse I-shaped channel steel.

Preferably, the side end of the second longitudinal I-shaped channel steel is provided with a lifting hook which is square-like, and the lifting hook is embedded into a groove in the outer side of the transverse I-shaped channel steel.

Preferably, three groups of vertical I-shaped channel steel are regularly arranged on the top surface of the transverse I-shaped channel steel, a second obliquely-arranged I-shaped channel steel is arranged between the vertical I-shaped channel steel, one end of the second obliquely-arranged I-shaped channel steel is connected with the vertical I-shaped channel steel, and the other end of the second obliquely-arranged I-shaped channel steel is connected with the transverse I-shaped channel steel.

Preferably, the second longitudinal i-shaped channel steel comprises a middle second longitudinal i-shaped channel steel, and the end part of the obliquely-arranged i-shaped channel steel is abutted against the end part of the middle second longitudinal i-shaped channel steel.

Preferably, the lifting hooks are two groups and are regularly arranged in grooves on the outer sides of the transverse H-shaped channel steel.

Compared with the prior art, the utility model discloses superimposed sheet's coincide hoist and mount can be realized to the very big increase of its structural relationship the security, the security that especially cushion was placed.

Drawings

For further explanation of the present invention, the drawings and embodiments are listed below.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the top view structure of the present invention.

Fig. 3 is a schematic view of a partial structure of the present invention.

Fig. 4 is the schematic structural diagram of the cushion block rotary conveying device of the present invention.

Fig. 5 is the schematic structural diagram of the cushion block rotary conveying device of the present invention 2.

Detailed Description

As shown in fig. 1 to 5, a composite slab hoisting frame is formed by combining i-shaped channel steel, grooves are formed in two sides of the i-shaped channel steel, and the composite slab hoisting frame further comprises a cushion block rotary conveying device, the cushion block rotary conveying device is located at a side end of the i-shaped channel steel, the cushion block rotary conveying device comprises a sliding seat 8, a sliding rail 81 is arranged on the sliding seat 8, a support 82 is slidably mounted on the sliding rail 81, rollers 83 are mounted at the upper end and the lower end of the support 82, a conveying belt 84 is rotatably mounted on the rollers 83, a fixed socket 85 is mounted on the conveying belt 84, and the fixed socket 85 is used for inserting the cushion block; the I-shaped channel steel comprises two groups of transverse I-shaped channel steel 1 and two groups of first longitudinal I-shaped channel steel 2, the end part of the first longitudinal I-shaped channel steel 2 is trapezoidal, two ends of the first longitudinal I-shaped channel steel 2 are respectively inserted into the inner side grooves 11 of the transverse I-shaped channel steel 1 positioned at two sides of the first longitudinal I-shaped channel steel 2 to form a square lifting frame base, three groups of second longitudinal I-shaped channel steel 3 are arranged between the two groups of first longitudinal I-shaped channel steel 2, the end parts of the second longitudinal I-shaped channel steels 3 are trapezoidal and are embedded into the grooves 11 at the inner sides of the transverse I-shaped channel steels 1, the adjacent second longitudinal I-shaped channel steels 3 are connected through the obliquely arranged I-shaped channel steels 4, the obliquely arranged I-shaped channel steels 4 are rhombic, the end part of the inclined I-shaped channel steel 4 is trapezoidal and is embedded into the inner side groove 11 of the transverse I-shaped channel steel 1.

Preferably, 3 sides of the second longitudinal I-shaped channel steel are provided with lifting hooks 5, each lifting hook 5 is square-like, and each lifting hook 5 is embedded into the corresponding outer groove 12 of the corresponding transverse I-shaped channel steel 1.

Preferably, three groups of vertical I-shaped channel steel 6 are regularly arranged on the top surface of the transverse I-shaped channel steel 1, a second obliquely-arranged I-shaped channel steel 7 is arranged between the vertical I-shaped channel steel 6, one end of the second obliquely-arranged I-shaped channel steel 7 is connected with the vertical I-shaped channel steel 6, and the other end of the second obliquely-arranged I-shaped channel steel is connected with the transverse I-shaped channel steel 1.

Preferably, the second longitudinal i-shaped channel 3 includes a middle second longitudinal i-shaped channel 31, and an end of the obliquely-arranged i-shaped channel 4 abuts against an end of the middle second longitudinal i-shaped channel 31.

Preferably, the two groups of the lifting hooks 5 are regularly arranged in the outer groove 12 of the transverse I-shaped channel steel 1.

It should be apparent that the above-mentioned embodiment is only one example of the present invention, and any simple modification in the structure or principle provided by the present invention is within the protection scope of the present invention.

Claims (5)

1. A laminated slab hoisting frame is formed by combining I-shaped channel steel, grooves are formed in two sides of the I-shaped channel steel, and the laminated slab hoisting frame is characterized by further comprising a cushion block rotary conveying device, the cushion block rotary conveying device is located at the side end of the I-shaped channel steel, the cushion block rotary conveying device comprises a sliding seat, a sliding rail is arranged on the sliding seat, a support is arranged on the sliding rail in a sliding mode, rolling wheels are arranged at the upper end and the lower end of the support, a conveying belt is rotatably arranged on the rolling wheels, a fixed socket is arranged on the conveying belt, and the fixed socket is used for being; the I-shaped channel steel comprises two groups of transverse I-shaped channel steel and two groups of first longitudinal I-shaped channel steel, wherein the end part of the first longitudinal I-shaped channel steel is trapezoidal, the two ends of the first longitudinal I-shaped channel steel are respectively inserted into the inner side grooves of the transverse I-shaped channel steel positioned at the two sides of the first longitudinal I-shaped channel steel to form a square lifting frame base, three groups of second longitudinal I-shaped channel steel are arranged between the two groups of first longitudinal I-shaped channel steel, the end part of the second longitudinal I-shaped channel steel is trapezoidal, the second longitudinal I-shaped channel steel is embedded into the inner side grooves of the transverse I-shaped channel steel, the adjacent second longitudinal I-shaped channel steel is connected through the inclined I-shaped channel steel, the inclined I-shaped channel steel is rhombic, and the end part of the inclined I-shaped channel steel is trapezoidal and is embedded.

2. A superimposed sheet hoisting frame as claimed in claim 1, wherein said second longitudinal channel section is provided at its side with a hook, said hook being square-like and embedded in an outer groove of a transverse channel section.

3. A laminated slab lifting frame as claimed in claim 1, wherein three sets of vertical I-shaped channels are regularly arranged on the top surface of the transverse I-shaped channels, a second obliquely arranged I-shaped channel is arranged between the vertical I-shaped channels, one end of the second obliquely arranged I-shaped channel is connected with the vertical I-shaped channels, and the other end of the second obliquely arranged I-shaped channel is connected with the transverse I-shaped channels.

4. A superimposed sheet sling stand according to claim 1, wherein said second longitudinal channel section includes a central second longitudinal channel section, the ends of said angled channel sections abutting the ends of said central second longitudinal channel section.

5. A superimposed sheet hanger according to claim 2, wherein said hooks are two groups regularly arranged in the outer groove of the transverse i-shaped channel.

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