CN220033741U - Auxiliary hoisting device in factory building - Google Patents

Abstract

The utility model discloses an auxiliary hoisting device in a factory building, which comprises: the lifting frame, at least one pair of lever beams and a hanging part; the utility model discloses a hoist and mount frame, including hoist and mount frame, the thick stick roof beam is erect in hoist and mount frame top and is supported by hoist and mount frame, all is provided with a plurality of through-holes that mutually support on thick stick roof beam and the hoist and mount frame, and the through-hole is provided with the bolt and fixes thick stick roof beam and hoist and mount frame and form hoist and mount framework, the through-hole is arranged along thick stick roof beam and hoist and mount frame length direction, thick stick roof beam along hoist and mount frame length direction adjustment fixed position and match the hoist and mount article of different length, the articulated portion sets up on the thick stick roof beam for be connected with hoist and mount article. The utility model has simple structure, adopts an adjustable hoisting framework, improves the applicability to hoisting articles with different lengths, hangs the hoisting articles on the hoisting framework, has good integrity with the hoisting framework, improves the stability of hoisting operation, reduces the vertical hoisting space occupied by the hoisting framework, and is convenient for the hoisting operation in a factory building.

Description

Auxiliary hoisting device in factory building

Technical Field

The utility model relates to the technical field of hoisting equipment, in particular to an auxiliary hoisting device in a factory building.

Background

In the early construction process of the factory building, a lifting tool is needed to lift production equipment and the like to a machine position for installation or lifting transition. When hoisting conveying mechanism and other longer and heavier production equipment, the crane hanging hook is directly used for hoisting and is not easy to keep stable. If a plurality of steel cables are used for connecting or binding production equipment, then the hanging hook is hung on the crane, although the contact point can be increased, the stability is improved, the deformation or extension of the steel cables can occupy more vertical hanging space, and the efficient hanging operation in a factory building with limited space and limited height is not facilitated. In the prior art, as disclosed in publication number CN 110668299B, a steel structure factory building construction steel structure hoisting conveying device is provided with a retraction mechanism, an auxiliary mechanism and a hoisting mechanism, wherein the hoisting mechanism is provided with a support bracket for supporting and fixing steel, and the retraction mechanism completes hoisting and transporting work of the steel through the retraction steel wire auxiliary hoisting mechanism. The hoisting conveying equipment has the characteristics of good buffering performance and high stability, but has a complex structure, is designed for supporting and hoisting steel materials, and is long and heavy in production equipment, and the long and heavy production equipment cannot be placed on a supporting bracket for hoisting. Therefore, it is necessary to design a device suitable for assisting production equipment in completing hoisting in a limited space of a factory building.

Disclosure of Invention

The utility model aims to provide an auxiliary hoisting device in a factory building, which has a simple structure, adopts an adjustable hoisting framework, improves the applicability to different hoisting article lengths, hangs the hoisting articles on the hoisting framework, has good integrity with the hoisting framework, improves the stability of hoisting operation, reduces the vertical hoisting space occupied by the hoisting framework, facilitates the hoisting operation in the factory building, and solves the technical problem that the hoisting operation is inconvenient because more vertical hoisting space is occupied by steel rope slings for connecting or binding the hoisting articles.

In order to achieve the objects of the present utility model, the present utility model provides an auxiliary hoisting device in a factory building, comprising: the lifting frame, at least one pair of lever beams and a hanging part; the utility model discloses a hoist and mount frame, including hoist and mount frame, the thick stick roof beam is erect in hoist and mount frame top and is supported by hoist and mount frame, all is provided with a plurality of through-holes that mutually support on thick stick roof beam and the hoist and mount frame, and the through-hole is provided with the bolt and fixes thick stick roof beam and hoist and mount frame and form hoist and mount framework, the through-hole is arranged along thick stick roof beam and hoist and mount frame length direction, thick stick roof beam along hoist and mount frame length direction adjustment fixed position and match the hoist and mount article of different length, the articulated portion sets up on the thick stick roof beam for be connected with hoist and mount article.

Preferably, in the auxiliary lifting device in the factory building, a sleeving part is arranged on the lever, the sleeving part is in sliding sleeving with the lever to adjust the position, and the hooking part is arranged on the sleeving part.

Preferably, in the auxiliary hoisting device in the factory building, the lever beam is an I-shaped beam, an I-shaped slot hole is formed in the sleeve joint part, and the lever beam penetrates through the slot hole to form sliding fit.

Preferably, in the auxiliary hoisting device in the factory building, the lowest end of the hooking part is parallel to the hoisting frame.

Preferably, in the auxiliary hoisting device in the factory building, the through hole spacing of the lever is equal to the width of the sleeving piece, and the through holes on the left side and the right side of the sleeving piece are matched with bolts for limiting and fixing the sleeving piece.

Preferably, in the auxiliary hoisting device in the factory building, the hoisting frame is a frame structure formed by assembling and fixing a cross beam and a vertical beam, a middle line of the frame structure is provided with a middle cross beam, and the middle cross beam is provided with a hanging hole for hanging and connecting with a travelling crane.

Preferably, in the auxiliary hoisting device in the factory building, the hoisting frame is formed by welding I-steel or fixing bolts, and the through holes are formed along the wing plates of the I-steel.

The utility model at least comprises the following beneficial effects:

1. the auxiliary hoisting device is simple in structure and comprises a hoisting frame, a lever and a hanging part; the lifting frame and the lever beam form an adjustable lifting frame, so that the lifting frame can adapt to lifting articles with different lengths, and has high applicability; the hoisting article is hung on the hoisting framework through the hanging part, the integrity of the hoisting mechanism is good, the steel rope is connected and bound, the swing in the hoisting process can be reduced, the stability is good, and the problem that the hoisting of the steel rope hoisting rope occupies more vertical hoisting space can be avoided.

2. The auxiliary hoisting device is provided with the sleeve joint part which is in sliding fit with the beam, the hanging part is arranged on the sleeve joint part, the sleeve joint part can be adjusted to the position on the beam, and then the sleeve joint part is limited and fixed through the bolts so as to adapt to hoisting articles with different widths, and the adjustment is very convenient.

3. The auxiliary hoisting device disclosed by the utility model uses the I-shaped steel as the hoisting frame and the lever beam, has high structural strength, is firm and durable, is convenient to open a through hole in a wing plate of the I-shaped steel, is used for installation and matching, is convenient to process and low in cost, can be obtained locally, and is very suitable for being used in a steel member production factory building.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic structural view of an auxiliary hoisting device in a factory building according to the present utility model;

FIG. 2 is a schematic view of a structure of a lifting frame according to the present utility model;

FIG. 3 is a schematic view of a lever according to the present utility model;

fig. 4 is a schematic structural view of the socket according to the present utility model.

Detailed Description

The present utility model is described in further detail below with reference to examples to enable those skilled in the art to practice the utility model by reference to the specification.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

The experimental methods described in the following embodiments are conventional methods unless otherwise indicated, and the reagents and materials are commercially available.

As shown in fig. 1 to 4, an auxiliary hoisting device in a factory building includes: a hanger 10, a pair of beams 20, and a hitching section 24; the lifting frame 10 and the bar beam form a lifting frame, when in use, the lifting frame 10 is hung on the crane 30, and the bar beam 20 is erected above the lifting frame 10 and is supported by the lifting frame; the utility model discloses a hoist and mount frame, including the hoist and mount frame, the hoist and mount frame is provided with the through-hole that all is provided with a plurality of each other on the hoist and mount frame 20, including a plurality of first through-holes 13 that set up on the hoist and mount frame and a plurality of second through-holes 22 that set up on the hoist and mount frame, when first through-hole 13 and second through-hole 22 aim at the back, set up first bolt 28 at the through-hole and can fix the hoist and mount frame 10 with the hoist and mount roof beam 20, first through-hole 13 sets up along the length direction of hoist and mount frame 10, the second through-hole 22 is arranged along the length direction of hoist and mount roof beam 20, after hoist and mount frame 10 length direction adjustment fixed position, hoist and mount article that can match different length, the hoist and mount frame 20 sets up the portion 24 and be used for being connected with hoist and mount article.

During implementation, according to the length of the hoisted article, the distance between the pair of beams is adjusted, then the hoisted article is connected with the hoisted article through the hanging part, so that the hoisted article and the hoisted framework form a whole, then the hoisted article is hung with the hoisted framework through the crane, and then the crane is operated to move the hoisted article to the target position. Because the integrity of the hoisted article and the hoisted framework is good, the stability in the hoisting operation process is good, the problems of large activity and large swing amplitude of the connection and binding of the steel rope slings can not occur, the problem that the steel rope occupies more vertical hoisting space can not occur, and the efficient hoisting operation in the effective space of a factory building can be realized.

Further, in another embodiment, as shown in fig. 3 and 4, the hanging portion 24 is provided with a hanging ring or a hanging hole 25, and the hanging article is connected and fixed with the hanging portion 24 through the hanging ring or the hanging hole, which is more convenient.

Further, in another embodiment, as shown in fig. 1, 3 and 4, the lever 20 is provided with a socket 21, the socket 21 is slidably sleeved with the lever 20 to enable adjustment of the position, and the hooking portion 24 is provided on the socket 21. The sliding fit of the socket 21 with the beam 20 allows the width of the hitching section 24 to be adjusted to match different width items.

Further, in another embodiment, as shown in fig. 1, the lowest end of the hooking portion 24 is parallel to the bottom of the lifting frame 10. If the hanging part extends downwards too much, the liftable space of the hoisted article can be compressed, which is unfavorable for operation, and if the hanging part is too high, the hanging of the hoisted article is unfavorable.

Further, in another embodiment, as shown in fig. 1 to 4, the lever 20 is an i-beam, an i-shaped slot 26 is formed in the socket 21, and the lever 20 is slidably engaged with the slot 26. In the illustration, the I-shaped slotted hole is provided with a convex part 27, fills the waist part of the I-shaped lever beam, and increases the structural strength. The I-steel is a common steel material and is also a common production material in a steel member production factory building, and the I-steel is selected as a beam and can be obtained locally.

Further, in another embodiment, as shown in fig. 1 and 3, the distance between the second through holes 22 of the lever is equal to the width of the socket 21, in the illustration, the second through holes 22 on the left and right sides of the socket 21 are matched with second bolts 23, and the second bolts 23 limit and fix the socket 21, so that the adjustment is very convenient and quick.

Further, in another embodiment, as shown in fig. 1 and 2, the lifting frame 10 is a frame structure formed by assembling and fixing the cross beam 12 and the vertical beam 11, a middle line of the frame structure is provided with a middle cross beam 14, and the middle cross beam 14 is provided with a hanging hole 15 for hanging with the crane 30. When in use, the hanging hook of the crane hanger is directly hung into the hanging hole 15.

Further, in another embodiment, the lifting frame 10 is formed by welding or bolting with a i-beam, and the through hole is formed along the wing plate of the i-beam. In the illustration, the cross beam and the vertical beam of the hoisting frame are I-steel, the ends are welded and fixed, and then a first through hole 13 is formed in the corresponding position of the flange plate of the I-steel.

One implementation of the utility model is as follows:

as shown in fig. 1 to 4, the production equipment of the conveying mechanism needs to be lifted to a machine position in a factory building for installation, the conveying mechanism is longer, if the lifting operation is directly used, unbalance or large swing amplitude is easy to occur, the problem of insufficient stability is solved, if a steel cable is used for multipoint connection or binding on the conveying mechanism, and then the steel cable is hung on the lifting operation in a concentrated manner for lifting, although the stability is improved to a certain extent, the steel cable occupies a plurality of vertical lifting spaces, and in the limited space height of the factory building, the lifting operation is greatly influenced, and even the equipment cannot be lifted to the required height when the lifting operation is serious. When the utility model is used, the conveying mechanism production equipment is directly hung on the hanging part and is very close to the hoisting frame, the integrity of the hanging part and the hoisting frame is high, the hoisting stability is improved, and the problem that the hoisting space is occupied by the traction of the steel rope is also solved. After the hanging of the conveying mechanism production equipment is completed, the crane is controlled to lift the conveying mechanism production equipment, and the conveying mechanism production equipment is moved to a machine position for installation.

Although embodiments of the utility model have been disclosed above, they are not limited to the use listed in the specification and embodiments. It can be applied to various fields suitable for the present utility model. Additional modifications will readily occur to those skilled in the art.

Claims (7)

1. Auxiliary hoisting device in factory building, its characterized in that includes: the lifting frame, at least one pair of lever beams and a hanging part; the utility model discloses a hoist and mount frame, including hoist and mount frame, the thick stick roof beam is erect in hoist and mount frame top and is supported by hoist and mount frame, all is provided with a plurality of through-holes that mutually support on thick stick roof beam and the hoist and mount frame, and the through-hole is provided with the bolt and fixes thick stick roof beam and hoist and mount frame and form hoist and mount framework, the through-hole is arranged along thick stick roof beam and hoist and mount frame length direction, thick stick roof beam along hoist and mount frame length direction adjustment fixed position and match the hoist and mount article of different length, the articulated portion sets up on the thick stick roof beam for be connected with hoist and mount article.

2. The auxiliary hoisting device in a factory building of claim 1, wherein the beam is provided with a sleeve joint part, the sleeve joint part is in sliding sleeve joint with the beam to adjust the position, and the hanging part is arranged on the sleeve joint part.

3. The auxiliary hoisting device in a factory building of claim 2, wherein the lever beam is an I-shaped beam, an I-shaped slot is formed in the sleeve joint part, and the lever beam penetrates through the slot to form sliding fit.

4. The in-building auxiliary hoist device of claim 1, characterized in that the lowest end of the hitching section is parallel to the hoist frame.

5. The auxiliary hoisting device in a factory building of claim 1, wherein the through hole spacing of the lever is equal to the width of the sleeving piece, and the through holes on the left side and the right side of the sleeving piece are matched with bolts for limiting and fixing the sleeving piece.

6. The auxiliary hoisting device in a factory building of claim 1, wherein the hoisting frame is a frame structure formed by assembling and fixing a cross beam and a vertical beam, a middle position line of the frame structure is provided with a middle cross beam, and the middle cross beam is provided with a hanging hole for hanging with a travelling crane.

7. The auxiliary hoisting device in a factory building of claim 6, wherein the hoisting frame is formed by welding or bolting of I-steel, and the through holes are formed along wing plates of the I-steel.