CN222757412U - A material receiving platform for leveling - Google Patents

Abstract

The utility model proposes a material receiving platform for leveling, including an overall frame, a material receiving component and a transfer component. The overall frame plays a load-bearing role and is welded by multiple horizontal channel steels and multiple vertical channel steels. The material receiving component is used to prevent the sheet material from falling and being damaged, and is composed of multiple steel plates. The transfer component includes a wooden pier, a sheet material hook and a forklift. The material receiving platform for leveling of the utility model is used for temporary storage of finished parts of the leveling equipment, reducing the time consumed in the transfer of finished parts, reducing the danger during the transfer process, and can improve the operating efficiency of the leveling equipment, reduce the labor intensity of the staff, and at the same time provide a certain guarantee for safety.

Description

Material receiving table for leveling

Technical Field

The utility model belongs to the technical field of leveling tools, and particularly relates to a receiving table for leveling.

Background

When the leveling equipment runs in the production process, the discharging position of the leveling equipment is also a multi-roller platform through the reciprocating motion of the multi-roller platform. After the product leveling is finished, equipment is required to be stopped firstly, then a crane is used for hoisting the product onto a turnover vehicle, the production efficiency is low, the labor intensity of personnel and the operation difficulty are high, meanwhile, the height of the multi-roller platform is higher, and the dangerous degree in the hoisting and transferring process of plates is higher.

Disclosure of utility model

First, the technical problem to be solved

The utility model provides a material receiving table for leveling, which aims to solve the technical problems of long transfer time, high risk degree and high labor intensity of personnel after the leveling equipment is operated.

(II) technical scheme

In order to solve the technical problems, the utility model provides a material receiving table for leveling, which comprises an integral framework, a material bearing assembly and a transferring assembly, wherein,

The integral frame has a bearing function and is formed by welding a plurality of transverse channel steel and a plurality of vertical channel steel; the first upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, the rear end of each first upper transverse channel steel is welded with a first vertical channel steel, a reinforcing channel steel is welded between the left transverse channel steel and the right transverse channel steel, and the front end of each first upper transverse channel steel is provided with a connecting plate for connecting leveling equipment; the second upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, the rear end of each second upper transverse channel steel is welded with a second vertical channel steel, a reinforcing channel steel is welded between the left and right second upper transverse channel steel, and a first lower transverse channel steel is welded between the first vertical channel steel and the second vertical channel steel on the same side; the third upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, wherein a fourth vertical channel steel is welded at the rear end of each third upper transverse channel steel, a second lower transverse channel steel is welded between the second vertical channel steel and the fourth vertical channel steel on the same side, a third vertical channel steel is welded between the third upper transverse channel steel and the second lower transverse channel steel, a reinforcing channel steel is welded between the left and right third upper transverse channel steels, the fourth upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, a fifth vertical channel steel is welded at the front end of each fourth upper transverse channel steel, a sixth vertical channel steel is welded at the rear end of each fourth upper transverse channel steel, a third lower transverse channel steel is welded between the fourth vertical channel steel and the fifth vertical channel steel on the same side, the heights of the first upper transverse channel steel, the second upper transverse channel steel, the third upper transverse channel steel and the fourth upper transverse channel steel have the same inclination angle, the heights of each upper transverse channel steel are in a gradient, openings with proper widths are reserved between the adjacent upper transverse channel steels, and the fourth transverse channel steel is used as an installation gear of a timber pier, and the forklift truck is convenient to directly use after production is completed;

The material bearing assembly is used for preventing the plate from falling and damaging and consists of a plurality of steel plates, wherein the left end and the right end of the first steel plate, the second steel plate, the third steel plate and the fourth steel plate are respectively welded on the left end and the right end of the first upper transverse channel steel, the second upper transverse channel steel, the third upper transverse channel steel and the fourth upper transverse channel steel, and the fifth steel plate is obliquely welded between the fourth upper transverse channel steel and the sixth vertical channel steel;

The transfer assembly comprises a wood pier, a plate lifting hook and a forklift, wherein the wood pier is used for being placed in a corresponding installation gear according to the size of the plate to realize the accumulation of the plate, and the plate lifting hook and the forklift are respectively used for lifting or transferring the plate.

Further, a first reinforcing rib is welded between the first upper transverse channel steel and the first vertical channel steel.

Further, a second reinforcing rib is welded between the second upper transverse channel steel and the second vertical channel steel.

Further, the bottoms of the first vertical channel steel, the second vertical channel steel, the fourth vertical channel steel, the fifth vertical channel steel and the sixth vertical channel steel are welded with channel steel bottom plates.

(III) beneficial effects

The utility model provides a material receiving table for leveling, which comprises an integral framework, a material bearing assembly and a transferring assembly, wherein the integral framework plays a role of bearing, is formed by welding a plurality of transverse channel steel and a plurality of vertical channel steel, the material bearing assembly is used for preventing a plate from falling and being damaged, and consists of a plurality of steel plates, and the transferring assembly comprises a timber pier, a plate lifting hook and a forklift. The receiving table for leveling is used for temporarily storing finished parts of leveling equipment, reducing the time consumed for transferring the finished parts, reducing the risk in the transferring process, improving the operating efficiency of the leveling equipment, reducing the labor intensity of workers and guaranteeing the safety to a certain extent.

Drawings

FIG. 1 is a front view of a leveling receiving table of the present utility model;

FIG. 2 is a top view of the leveling receiving station of the present utility model;

FIG. 3 is a view of the leveling receiving station of FIG. 1 according to the present utility model;

Fig. 4 is a schematic diagram of a method for using the leveling receiving table of the present utility model.

Wherein: 1-first upper transverse channel steel, 2-second upper transverse channel steel, 3-third upper transverse channel steel, 4-fourth upper transverse channel steel, 5-first vertical channel steel, 6-second vertical channel steel, 7-third vertical channel steel, 8-fourth vertical channel steel, 9-fifth vertical channel steel, 10-sixth vertical channel steel, 11-first lower transverse channel steel, 12-second lower transverse channel steel, 13-third lower transverse channel steel, 14-reinforcing channel steel, 15-first reinforcing rib, 16-second reinforcing rib, 17-channel steel bottom plate, 18-first steel plate, 19-second steel plate, 20-third steel plate, 21-fourth steel plate, 22-fifth steel plate, 23-connecting plate, 24-timber pier, 25-plate lifting hook, 26-forklift, 27-large material, 28-small material and 29-leveling machine tool.

Detailed Description

To make the objects, contents and advantages of the present utility model more apparent, the following detailed description of the present utility model will be given with reference to the accompanying drawings and examples.

The embodiment provides a receiving platform for leveling, the structure of which is shown in figures 1-3, and the receiving platform mainly comprises an integral framework, a material bearing assembly and a transferring assembly.

The integral framework mainly plays a bearing role and is formed by welding a plurality of transverse channel steel and a plurality of vertical channel steel. The first upper transverse channel steel 1 comprises a left transverse channel steel and a right transverse channel steel, the rear end of each first upper transverse channel steel 1 is welded with a first vertical channel steel 5, a first reinforcing rib 15 is welded between the first upper transverse channel steel 1 and the first vertical channel steel 5, a reinforcing channel steel 14 is welded between the left transverse channel steel 1 and the right transverse channel steel 1, and the front end of each first upper transverse channel steel 1 is provided with a connecting plate 23 used for connecting leveling equipment 29; the second upper transverse channel steel 2 comprises a left transverse channel steel and a right transverse channel steel, the rear end of each second upper transverse channel steel 2 is welded with a second vertical channel steel 6, a second reinforcing rib 16 is welded between the second upper transverse channel steel 2 and the second vertical channel steel 6, a reinforcing channel steel 14 is welded between the left and right second upper transverse channel steel 2, and a first lower transverse channel steel 11 is welded between the first vertical channel steel 5 and the second vertical channel steel 6 on the same side; the third upper transverse channel steel 3 comprises a left transverse channel steel 3 and a right transverse channel steel 3, the rear end of each third upper transverse channel steel 3 is welded with a fourth vertical channel steel 8, a second lower transverse channel steel 12 is welded between the second vertical channel steel 6 and the fourth vertical channel steel 8 on the same side, a third vertical channel steel 7 is welded between the third upper transverse channel steel 3 and the second lower transverse channel steel 12, a reinforcing channel steel 14 is welded between the left and right third upper transverse channel steel 3, the fourth upper transverse channel steel 4 comprises a left and right transverse channel steel 4, the front end of each fourth upper transverse channel steel 4 is welded with a fifth vertical channel steel 9, the rear end of each fourth upper transverse channel steel 4 is welded with a sixth vertical channel steel 10, a third lower transverse channel steel 13 is welded between the fourth vertical channel steel 8 and the fifth vertical channel steel 9 on the same side, a bottom plate 17 is welded at the bottoms of each first vertical channel steel 5, the second vertical channel steel 6, the fourth vertical channel steel 8, the fifth vertical channel steel 9 and the sixth vertical channel steel 10, the first upper transverse channel steel 1, the second upper transverse channel steel 2, the sixth transverse channel steel 10 and the fourth vertical channel steel 9 are welded with a bottom plate 17 The third upper transverse channel steel 3 and the fourth upper transverse channel steel 4 have the same inclination angle, the height of each upper transverse channel steel is in gradient descent along the straight line, and an opening with proper width is reserved between the adjacent upper transverse channel steels 4 and is used as an installation gear of the wood pier 24, and products which are transported by using a forklift are convenient to use after production is completed.

The material bearing assembly is used for preventing the plate from falling and being damaged and consists of a plurality of steel plates. The left and right ends of the first steel plate 18, the second steel plate 19, the third steel plate 20 and the fourth steel plate 21 are respectively welded on the left and right ends of the first upper transverse channel steel 1, the second upper transverse channel steel 2, the third upper transverse channel steel 3 and the fourth upper transverse channel steel 4, and the fifth steel plate 22 is obliquely welded between the fourth upper transverse channel steel 4 and the sixth vertical channel steel 10. The planes of the first steel plate 18, the second steel plate 19 and the third steel plate 20 are not on the same straight line, and the height fall exists, so that the condition that the plate is clamped by the clearance of the integral framework due to natural sagging can be effectively prevented.

The transfer assembly includes piers 24, plate hangers 25 and forklifts 26. The wooden piers 24 are used for being placed in corresponding installation gears according to the sizes of the plates, and the stacking of the plates is achieved. The plate lifting hook 25 and the forklift 26 are respectively used for lifting or transferring the plate. The piers 24 can effectively adjust the length of the material bearing table, and prevent the product from falling while realizing orderly stacking of small pieces. The special plate lifting hook 25 can be matched with a gap between the material bearing table and a product to realize efficient transfer of the product.

When the leveling receiving table is used, as shown in fig. 4, the receiving table is transported to a discharge hole of leveling equipment 29, and after the position is adjusted, the leveling equipment 29 and the receiving table are integrally connected and fixed through a connecting plate 23 by using bolts. Three gear positions are selected to place or not to place the wood piers 24 according to the product size. When the product is a small piece 28, the wooden pier 24 is placed in a gear closest to the leveling equipment 29, the plate is automatically dropped to a material bearing table along with the movement of the multi-roller platform after being leveled, and the plate is manually carried or transported to a transfer trolley by using a magnetic lifting appliance after being piled to a certain degree. When the product size is large, after the material bearing table is piled up to a certain degree, the material bearing table is directly transported by using the forklift 26 or lifted to a transport trolley by using the plate lifting hooks 25 according to the operation difficulty. If the product is a large material 27 with a larger size, the fork truck 26 can be used for transferring directly through a reserved space in the integral framework, and the plate lifting hook 25 can also be used for lifting, so that the plate lifting hook 25 can be directly inserted into a gap between the plate and the material bearing platform due to the reserved fall when the upper surface of the material bearing platform is designed.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and variations could be made by those skilled in the art without departing from the technical principles of the present utility model, and such modifications and variations should also be regarded as being within the scope of the utility model.

Claims (4)

1. The receiving platform for leveling is characterized by comprising an integral framework, a material bearing assembly and a transferring assembly, wherein the material bearing assembly comprises a plurality of supporting plates,

The integral frame has a bearing function and is formed by welding a plurality of transverse channel steel and a plurality of vertical channel steel; the first upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, the rear end of each first upper transverse channel steel is welded with a first vertical channel steel, a reinforcing channel steel is welded between the left transverse channel steel and the right transverse channel steel, and the front end of each first upper transverse channel steel is provided with a connecting plate for connecting leveling equipment; the second upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, the rear end of each second upper transverse channel steel is welded with a second vertical channel steel, a reinforcing channel steel is welded between the left and right second upper transverse channel steel, and a first lower transverse channel steel is welded between the first vertical channel steel and the second vertical channel steel on the same side; the third upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, wherein a fourth vertical channel steel is welded at the rear end of each third upper transverse channel steel, a second lower transverse channel steel is welded between the second vertical channel steel and the fourth vertical channel steel on the same side, a third vertical channel steel is welded between the third upper transverse channel steel and the second lower transverse channel steel, a reinforcing channel steel is welded between the left and right third upper transverse channel steels, the fourth upper transverse channel steel comprises a left transverse channel steel and a right transverse channel steel, a fifth vertical channel steel is welded at the front end of each fourth upper transverse channel steel, a sixth vertical channel steel is welded at the rear end of each fourth upper transverse channel steel, a third lower transverse channel steel is welded between the fourth vertical channel steel and the fifth vertical channel steel on the same side, the heights of the first upper transverse channel steel, the second upper transverse channel steel, the third upper transverse channel steel and the fourth upper transverse channel steel have the same inclination angle, the heights of each upper transverse channel steel are in a gradient, openings with proper widths are reserved between the adjacent upper transverse channel steels, and the fourth transverse channel steel is used as an installation gear of a timber pier, and the forklift truck is convenient to directly use after production is completed;

The material bearing assembly is used for preventing the plate from falling and damaging and consists of a plurality of steel plates, wherein the left end and the right end of the first steel plate, the second steel plate, the third steel plate and the fourth steel plate are respectively welded on the left end and the right end of the first upper transverse channel steel, the second upper transverse channel steel, the third upper transverse channel steel and the fourth upper transverse channel steel, and the fifth steel plate is obliquely welded between the fourth upper transverse channel steel and the sixth vertical channel steel;

The transfer assembly comprises a wood pier, a plate lifting hook and a forklift, wherein the wood pier is used for being placed in a corresponding installation gear according to the size of the plate to realize the accumulation of the plate, and the plate lifting hook and the forklift are respectively used for lifting or transferring the plate.

2. The leveling stock table as recited in claim 1, wherein a first stiffener is welded between the first upper transverse channel and the first vertical channel.

3. The leveling receiving station of claim 1, wherein a second stiffener is welded between the second upper transverse channel and the second vertical channel.

4. The leveling receiving station of claim 1, wherein the bottom of each of the first, second, fourth, fifth, and sixth vertical channels is welded with a channel floor.