CN217496467U - Container guide rail frame vertical insertion type mounting structure - Google Patents

Abstract

The utility model belongs to the technical field of the mechanical skill and specifically relates to a perpendicular bayonet mounting structure of container guide rail frame. The utility model provides a container guide rail frame bayonet mounting structure perpendicularly, includes the bulkhead, its characterized in that: bulkhead one side be equipped with the T section bar, be equipped with the guide rail frame on the T section bar, it is fixed through U type draw-in groove, wedge iron needle between guide rail frame and the bulkhead, be located bulkhead one side connection U type draw-in groove, U type draw-in groove opening forms guide rail frame installation cavity between the opening of U type draw-in groove and the bulkhead, be equipped with a plurality of wedge iron needle one in the guide rail frame installation cavity, guide rail frame is connected to the one end of wedge iron needle one, U type draw-in groove or bulkhead are connected to the other end of wedge iron needle one. Compared with the prior art, the operation is simple, the safety and the reliability are realized, the installation precision is high, and the three-dimensional operation is effectively realized; meanwhile, the specialized tools of the chain block are reduced, so that the productivity is liberated, and the production efficiency is greatly improved. And U type draw-in groove, wedge iron needle, T section bar repeatedly usable reduce the energy consumption, reduce carbon and discharge.

Description

Vertical insertion type mounting structure of container guide rail frame

Technical Field

The utility model belongs to the technical field of the mechanical skill and specifically relates to a perpendicular bayonet mounting structure of container guide rail frame.

Background

The current container ship transportation market is prosperous, and a part called a container guide rail frame is arranged in a container ship type, is generally manufactured by welding angle steel and other small steel plates, and is welded and fixed on a ship bulkhead or a lashing bridge according to the size requirement of a standard container. In order to improve the production work efficiency and the installation precision requirement, the guide rail frame is generally welded and spliced into a semi-finished product on a special jig frame on the land by angle steel and other small steel plates, then the semi-finished product is lifted to a ship to be installed and fixed, but at least two chain blocks of each guide frame are needed to be bound and adjusted in order to ensure the construction safety and the precision requirement during installation and fixation, and the chain blocks can be loosened after the fine adjustment and fixation of the guide rail frame is finished. If the construction project content is constructed simultaneously and the production period is short, the number of special tools such as chain block is not so large, which will become one of the main bottlenecks hindering production, and if too many chain blocks are prepared, waste will be caused, and the production cost will be increased.

Disclosure of Invention

The utility model provides a vertical insertion type installation structure of a container guide rail frame, which overcomes the defects of the prior art, has simple operation, safety and reliability, high installation precision and effectively solves the three-dimensional operation; meanwhile, the special tools of the chain block are reduced, so that the productivity is liberated, and the production efficiency is greatly improved. And U type draw-in groove, wedge iron needle, T section bar repeatedly usable reduce the energy consumption, reduce carbon and discharge.

In order to realize the above purpose, a vertical insertion type installation structure of a container guide rail frame is designed, which comprises a cabin wall and is characterized in that: bulkhead one side be equipped with the T section bar, be equipped with the guide rail frame on the T section bar, it is fixed through U type draw-in groove, wedge iron needle between guide rail frame and the bulkhead, be located bulkhead one side connection U type draw-in groove, U type draw-in groove opening forms guide rail frame installation cavity between the opening of U type draw-in groove and the bulkhead, be equipped with a plurality of wedge iron needles one in the guide rail frame installation cavity, guide rail frame is connected to the one end of wedge iron needle one, U type draw-in groove or bulkhead are connected to the other end of wedge iron needle one.

And the three inner side surfaces of the U-shaped clamping groove are respectively provided with a first mounting groove for mounting a first wedge-shaped iron needle.

And a mounting groove II for mounting the wedge-shaped iron needle I is arranged on the bulkhead.

The central line of the guide rail frame is parallel to the central line of the U-shaped clamping groove.

And a wedge-shaped iron needle II is arranged between the T-shaped material and the guide rail frame.

Compared with the prior art, the utility model has the advantages of simple operation, safety, reliability and high installation precision, and effectively solves the three-dimensional operation; meanwhile, the specialized tools of the chain block are reduced, so that the productivity is liberated, and the production efficiency is greatly improved. And U type draw-in groove, wedge iron needle, T section bar repeatedly usable reduce the energy consumption, reduce carbon and discharge.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a front view of the T-shaped material of the present invention.

Fig. 5 is a side view of the T-shaped section of the present invention.

Fig. 6 is a schematic structural diagram of the U-shaped slot of the present invention.

Fig. 7 is a schematic structural view of the wedge-shaped iron needle of the present invention.

Referring to fig. 1 to 7, wherein 1 is a bulkhead, 2 is a T-shaped material, 3 is a guide rail frame, 4 is a U-shaped clamping groove, 5 is a guide rail frame installation cavity, 6 is a wedge-shaped iron pin i, 7 is an installation groove, and 8 is a wedge-shaped iron pin ii.

Detailed Description

The invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 7, a T-shaped section 2 is arranged on one side of a bulkhead 1, a guide rail frame 3 is arranged on the T-shaped section 2, the guide rail frame 3 and the bulkhead 1 are fixed through a U-shaped clamping groove 4 and a wedge-shaped iron needle 6, the U-shaped clamping groove 4 is connected to one side of the bulkhead 1, an opening of the U-shaped clamping groove 4 faces the bulkhead 1, a guide rail frame installation cavity 5 is formed between the opening of the U-shaped clamping groove 4 and the bulkhead 1, a plurality of wedge-shaped iron needles 6 are arranged in the guide rail frame installation cavity 5, one end of each wedge-shaped iron needle 6 is connected with the guide rail frame 3, and the other end of each wedge-shaped iron needle 6 is connected with the U-shaped clamping groove 4 or the bulkhead 1.

And three inner side surfaces of the U-shaped clamping groove 4 are respectively provided with a first mounting groove 7 for mounting a first wedge-shaped iron needle 6.

And a mounting groove II for mounting the wedge-shaped iron needle I6 is arranged on the bulkhead 1.

The central line of the guide rail bracket 3 is parallel to the central line of the U-shaped clamping groove 4.

A wedge-shaped iron needle II 8 is arranged between the T-shaped material 2 and the guide rail frame 3.

The utility model discloses before the use, guide rail frame 3 is welded earlier and is spliced into a semi-manufactured goods by angle steel and other little steel sheets on the special bed-jig on land, and the handling is installed fixedly on the ship again. As shown in fig. 1 to 3, when fixing and adjusting the size of the ship, each guide rail bracket mainly uses 3U- shaped clamping grooves 4, 8 wedge-shaped iron pins I6, 2 wedge-shaped iron pins II 8 and 1T-shaped material. The U-shaped clamping groove 4 mainly plays a role in fixing the guide rail frame 3 and preventing toppling. The first wedge-shaped iron needle 6 and the second wedge-shaped iron needle 8 play a role in size adjustment. The T-profile 2 serves as a support in the height direction.

When the T-shaped section bar is used specifically, the T-shaped section bar 2 is welded and fixed at the lower opening of the bulkhead 1 according to the size requirement, the T-shaped section bar 2 is arranged right below the guide rail frame 3 and is about 20mm lower than the size requirement of the lowest end of the guide rail frame 3, and therefore the height of the guide rail frame 3 can be adjusted through the wedge-shaped iron needle II 8. Three U-shaped clamping grooves 4 are formed in the upper direction and the lower direction of one guide rail frame 3, and the center of each U-shaped clamping groove 4 is required to be parallel to the center line of the guide rail frame 3, so that the guide rail frame 3 can be conveniently hoisted, inserted and fixed, and the front, back, left and right sizes of the guide rail frame 3 can be adjusted by utilizing a wedge-shaped iron needle 6 subsequently. The U-shaped clamping groove 4 in the middle of the guide rail frame 3 does not need a wedge-shaped iron needle to adjust the size, 4 mounting grooves 7 of the upper U-shaped clamping groove and the lower U-shaped clamping groove respectively prop against the guide rail frame 3 by 4 wedge-shaped iron needles 6 so as to be convenient for size adjustment or allowance cutting, and therefore the requirement of the installation technology precision of the guide rail frame 3 is met.

When the device is used specifically, as shown in fig. 1, the U-shaped clamping groove 4 and the T-shaped section bar 2 only need to be roughly fixed in a positioning welding mode before the guide rail frame 3 is hoisted and vertically inserted. And after the hoisting is finished, knocking in the wedge-shaped iron needle 6, tightly clamping the wedge-shaped iron needle 6 in contact with the guide rail frame 3, and adjusting the left and right positions of the guide rail frame 3 by changing the vertical distance of the wedge-shaped iron needles 6 on the left and right sides to form the mounting structure shown in the figure 3, so that the process precision requirement is met.

The utility model has simple operation, safety and reliability, high installation precision, and effectively solves the three-dimensional operation; meanwhile, the specialized tools of the chain block are reduced, so that the productivity is liberated, and the production efficiency is greatly improved. And U type draw-in groove, wedge iron needle, T section bar repeatedly usable reduce the energy consumption, reduce carbon and discharge.

Claims (5)

1. The utility model provides a container guide rail frame bayonet mounting structure perpendicularly, includes the bulkhead, its characterized in that: bulkhead (1) one side be equipped with T section bar (2), be equipped with guide rail frame (3) on T section bar (2), through U type draw-in groove (4), wedge iron needle (6) are fixed between guide rail frame (3) and bulkhead (1), be located bulkhead (1) one side and connect U type draw-in groove (4), U type draw-in groove (4) opening is towards bulkhead (1), form guide rail frame installation cavity (5) between the opening of U type draw-in groove (4) and bulkhead (1), be equipped with a plurality of wedge iron needles (6) in guide rail frame installation cavity (5), guide rail frame (3) are connected to the one end of wedge iron needle (6), U type draw-in groove (4) or bulkhead (1) are connected to the other end of wedge iron needle (6).

2. The vertically-inserting type mounting structure of the container rail frame according to claim 1, wherein: and a first mounting groove (7) for mounting a wedge-shaped iron needle (6) is respectively arranged on three inner side surfaces of the U-shaped clamping groove (4).

3. The vertically-inserting type mounting structure of the container rail frame according to claim 1, wherein: and a mounting groove II for mounting the wedge-shaped iron needle I (6) is arranged on the bulkhead (1).

4. The vertically-inserting type mounting structure of the container rail frame according to claim 1, wherein: the central line of the guide rail bracket (3) is parallel to the central line of the U-shaped clamping groove (4).

5. The vertically-inserting type mounting structure of the container rail frame according to claim 1, wherein: a wedge-shaped iron needle II (8) is arranged between the T-shaped material (2) and the guide rail frame (3).

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