CN110861059A

CN110861059A - Material stacking support

Info

Publication number: CN110861059A
Application number: CN201911155547.8A
Authority: CN
Inventors: 孟新利; 王高峰
Original assignee: SHANXI SHANGFENG TECHNOLOGY Co Ltd
Current assignee: SHANXI SHANGFENG TECHNOLOGY Co Ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2020-03-06

Abstract

A material stacking support belongs to the field of environmental protection and comprises support columns, material plates, pull rods, pin shafts and cotter pins. The material plates are sequentially arranged on the fixed shaft of the support column, and the cotter pin is inserted into the hole on the fixed shaft; one end of the pull rod is screwed into a threaded hole of a connecting ball on the lower material plate, the other end of the pull rod is connected with the tail of the upper material plate through a pin shaft, and a cotter pin is inserted into the pin shaft hole. When the material stacking support does not stack any object, the front plate of the material plate at the lowest layer can protrude out of the vertical surface of the upright post, and all the material plates at the upper layer are positioned in the vertical surface of the upright post, so that the material can be placed to the lowest layer without obstacles. When placing the material from the top down, the lower surface of material contacts with the material front bezel of lower floor, pushes down the material board, makes the material rotatory, steadily puts on the material board gradually, until the material board rotates to the stopper, finally makes the material board level, and the material is steady.

Description

Material stacking support

Technical Field

The invention belongs to the field of environmental protection, and mainly relates to a material stacking support which is mainly used for stacking materials in an up-down layered manner.

Background

In the process of general product production, semi-manufactured goods, finished product can all stack neatly from top to bottom after producing and put, also can be according to batch operation at the in-process of transporting, transportation, on the one hand is the production environment who creates safe civilization, and on the other hand saves space, raises the efficiency, reduces the cost, but to some not resistance to compression, when the surface has the product that the arch can't the stromatolite place, conventional mode of stacking just can not satisfy needs, needs very big place to place.

Disclosure of Invention

The invention provides a material stacking support which has good structural stress, is convenient to use, can be taken at any time and can be recycled.

A material stacking stand can be a wooden, plastic or metal product. The device consists of a support column, a material plate, a pull rod, a pin shaft and a cotter pin. The material plates are sequentially arranged on the fixed shaft of the support column, and the cotter pin is inserted into the hole in the fixed shaft to limit the falling of the material plates; the pull rod is firstly screwed into a threaded hole of a connecting ball on the lower material plate, then the tail part of the pull rod is connected with the tail part of the upper material plate by a pin shaft, and a cotter pin is inserted into the pin shaft hole.

The support column is composed of a column bottom plate, a stand column, a fixed shaft and a limiting block. The stand is installed on the column bottom plate, and fixed axle and stopper are installed respectively on the stand surface for install the material board.

The column bottom plate is made of wood, plastic or metal, a steel plate is usually adopted for uniformly distributing the pressure of the materials transmitted to the ground, the upright columns and the column bottom plate are made of the same material, the upright columns have a certain height, and limiting rods for installing the material plates and limiting the material plates are arranged on the upright columns.

The material plate is usually made of metal components and consists of a front plate, a middle shaft sleeve, a tail plate, a connecting ball, a clamping sleeve and a tail shaft sleeve, wherein the front plate and the tail plate are distributed at two ends of the middle shaft sleeve, the tail plate is provided with the movable connecting ball and the clamping sleeve, and the tail shaft sleeve provided with a pull rod is arranged below the tail part. The center of gravity of the material plate is arranged between the middle shaft sleeve and the tail part, and the front part of the material plate is inclined backwards when the material plate does not work.

The connecting ball is a ball with a threaded hole, the diameter of the ball is larger than that of the long round hole of the clamping sleeve, shafts are welded at two ends of the ball, and the shafts are perpendicular to the threaded hole. The cutting sleeve is a plate with a long round hole, the two plates are adjacently welded on the tail plate, and the distance between the two plates is slightly larger than the diameter of the ball. So that the connecting ball can rotate in the cutting sleeve and move in the oblong hole.

The pull rod is made of steel, the head of the pull rod is a threaded rod and is matched with the connecting ball, and the tail of the pull rod is provided with a shaft hole. During installation, the head part is screwed into the connecting ball of the material plate, and the tail part is connected with the tail shaft sleeve by using a pin shaft.

The pin shaft and the cotter pin are generally made of common standard parts.

The working principle is as follows: when the material stacking support does not stack any object, the front plate of the material plate at the lowest layer can protrude out of the vertical surface of the upright post, and all the material plates at the upper layer are positioned in the vertical surface of the upright post, so that the material can be placed to the lowest layer without obstacles. When placing the material from the top down, the lower surface of material contacts with the material front bezel of lower floor, pushes down the material board, makes the material rotatory, steadily puts on the material board gradually, until the material board rotates to the stopper, finally makes the material board level, and the material is steady.

In the rotating process of the lowest layer of material plate, the distance between the material plate and the material plate close to the upper layer is gradually reduced, so that the pull rod pushes the material plate of the upper layer to rotate for a certain angle, and the front plate close to the upper layer is enabled to exceed the outer vertical surface of the upright post. When the material is placed on the layer, the front plate of the material plate on the upper layer next to the layer will exceed the outer vertical surface, and so on, the material can be placed from bottom to top layer by layer without interference and with the linkage mechanism.

The invention has the advantages of good structure stress, convenient use and convenient use.

Drawings

FIG. 1 is a front elevation view of a material stacking support of the present invention;

FIG. 2 is a schematic bottom view of a material stack according to the present invention;

FIG. 3 is a schematic illustration of a material stack according to the present invention;

FIG. 4 is a view of a support post of the present invention;

FIG. 5 is a front elevation view of the material plate of the present invention;

FIG. 6 is a top view of the material plate of the present invention;

FIG. 7 is a drawbar illustration of the present invention;

in the drawings, in the drawings: 1-supporting column, 2-material plate, 3-pull rod, 4-pin shaft, 5-split pin, 6-material, 11-upright column, 12-fixed shaft, 13-limited block, 14-column bottom plate, 21-front plate, 22-middle shaft sleeve, 23-clamping sleeve, 24-tail plate, 25-tail shaft sleeve and 26-connecting ball.

Detailed Description

A board of taking the closed angle is placed to certain warehouse plan, and length is 2m, and width 200mm because of can not destroy the closed angle, stacks the three-layer at most, and total height must not exceed 1.5 meters, chooses for use two that high 1.5 meters to stack the support and constitutes a set ofly, and four layers set up.

The bracket is made of steel. The support is composed of a support column 1, a material plate 2, a pull rod 3, a pin shaft 4 and a cotter pin 5.

4 material plates 2 are sequentially arranged on a fixed shaft 12 of the support column 1 from bottom to top, and an opening pin 5 is inserted into a pin hole in the fixed shaft 12 to limit the falling of the material plates; one end of a pull rod 3 is screwed into a threaded hole of a connecting ball on the lower material plate, the other end of the pull rod 3 is connected with the tail part of the upper material plate by a pin shaft 4, and a cotter pin 5 is inserted into the pin shaft hole.

The support column 1 is composed of a column bottom plate 14, a vertical column 11, a fixed shaft 12 and a limiting block 13. The stand is installed on the column bottom plate, and fixed axle and stopper are installed respectively on the stand surface for install the material board.

The column bottom plate is a steel plate and is used for uniformly distributing the pressure of the material transmitted to the ground, the upright column and the column bottom plate are made of the same material and have a column with a certain height, and a limiting rod for mounting the material plate and limiting the material plate is arranged on the column.

The material plate is made of a steel plate. The material plate comprises a front plate 21, a middle shaft sleeve 22, a tail plate 24, a connecting ball 26, a clamping sleeve 23 and a tail shaft sleeve 25, wherein the front plate and the tail plate are distributed at two ends of the middle shaft sleeve, the movable connecting ball and the clamping sleeve are arranged on the tail plate, and the tail shaft sleeve provided with a pull rod is arranged below the tail plate. The center of gravity of the material plate is arranged between the middle shaft sleeve and the tail part, and the front part of the material plate is inclined backwards when the material plate does not work.

The connecting ball 26 is a ball with an M6 threaded hole, the diameter of the ball is larger than that of the long round hole of the cutting sleeve, and shafts are welded at two ends of the ball and are perpendicular to the threaded hole.

The cutting sleeve 23 is a plate with a long round hole, two plates are adjacently welded on the tail plate, and the distance between the two plates is slightly larger than the diameter of the ball. So that the connecting ball can rotate in the cutting sleeve and move in the oblong hole.

The pull rod is made of steel, the head of the pull rod is a threaded rod, the threaded rod is matched with the connecting ball, and the tail of the pull rod is provided with a shaft hole. When the material plate is installed, the head of the pull rod is screwed into the connecting ball of the material plate, and the tail of the pull rod is connected with the tail shaft sleeve through a pin shaft.

The pin shaft and the cotter pin are generally made of common standard parts.

When the material stacking support does not stack any object, the front plate of the material plate at the lowest layer protrudes out of the vertical plane of the upright column by 30mm, and all the material plates at the upper layer are in the vertical plane of the upright column, so that the material can be placed to the lowest layer without obstacles. When placing the material from the top down, the lower surface of material contacts with the material front bezel of lower floor, pushes down the material board, makes the material rotatory, steadily puts on the material board gradually, until the material board rotates to the stopper, finally makes the material board level, and the material is steady.

Claims

1. A material stacking support comprises a support column, a material plate and a pull rod; the device is characterized in that the material plates are sequentially arranged on the fixed shafts of the support columns; one end of the pull rod is screwed into the threaded hole of the connecting ball on the lower material plate, and the other end of the pull rod is connected with the tail part of the upper material plate.

2. The material stacking bracket as recited in claim 1, wherein the support post comprises a post base plate, a post, a fixed shaft, and a stop block, the post is mounted on the post base plate, and the fixed shaft and the stop block are respectively mounted on the surface of the post; the material plate consists of a front plate, a middle shaft sleeve, a tail plate, a connecting ball, a clamping sleeve and a tail shaft sleeve, wherein the front plate and the tail plate are distributed at two ends of the middle shaft sleeve; the center of gravity of the material plate is positioned between the middle shaft sleeve and the tail part, and the front part of the material plate is inclined backwards when the material plate does not work; the connecting ball is a ball with a threaded hole, the diameter of the ball is larger than that of the long round hole of the clamping sleeve, shafts are welded at two ends of the ball and are perpendicular to the threaded hole; the cutting sleeve is a plate with a long round hole, the two plates are adjacently welded on the tail plate, and the distance between the two plates is larger than the diameter of the ball; the connecting ball can rotate in the cutting sleeve and move in the oblong hole; the head of the pull rod is a threaded rod and is matched with the connecting ball, the tail of the pull rod is provided with a shaft hole, the head of the pull rod is screwed into the connecting ball of the material plate during installation, and the tail of the pull rod is connected with the tail shaft sleeve through a pin shaft.