CN215545484U - Steel automatic feeding mechanism - Google Patents

Abstract

The utility model provides an automatic steel feeding mechanism which is used for feeding steel raw materials so as to facilitate the subsequent processing procedure to process the steel; comprises a fixed plate component, a lifting component and a conveying component; the fixed plate component is used for fixedly bearing the whole mechanism; the lifting assembly is fixedly arranged on the fixed plate assembly; the conveying assembly is fixedly arranged on the lifting assembly; the fixing plate assembly comprises a bottom plate 1 and a side plate 2; the side plates 2 are vertically and symmetrically arranged on two sides of the bottom plate 1 and form a middle bearing space with the bottom plate 1; the lifting assembly comprises a guide rail 3 fixed on the inner side wall of the side plate 2; the conveying assembly comprises a conveying fixed plate 6 and a conveying belt 7 arranged in the middle of the conveying fixed plate 6; the transmission fixing plate 6 is fixedly arranged on the upper surface of the horizontal bracket 4; the utility model has the beneficial effects that: simple structure, convenient assembly and low cost.

Description

Steel automatic feeding mechanism

Technical Field

The utility model mainly relates to the technical field of steel raw material cutting, in particular to an automatic steel feeding mechanism.

Background

Steel is one of indispensable raw materials in the modern industrial production process, and steel raw materials need to be cut to form raw materials for factory production and processing. Therefore, in the process of cutting the steel raw material, a mechanism suitable for feeding the steel material is needed.

Published chinese utility model patent, application No. CN201720437906.9, patent name: equipment for hot briquetting metallurgical raw material metal steel piece with old and useless metal rubbish, application date: 20170425, the utility model relates to a device for hot-press forming metallurgical raw material metal steel blocks by waste metal garbage, the raw material is waste metal garbage generated in industry and life; the device comprises a crusher, a magnetic separator, a blanking device, a metering conveyor, a feeding machine, a heat exchange kiln, an intermediate transfer device and a hydraulic forming machine which are sequentially arranged, wherein the heat exchange kiln is an obliquely arranged drum-type rotary kiln, and one end of the heat exchange kiln, which corresponds to the feeding machine, is a high-position end and is provided with a feeding port; the other end of the heat exchange kiln is a low-level end, and is respectively provided with a temperature adjusting heater and a discharge hole, wherein the temperature adjusting heater is a burner which takes natural gas as fuel and burns flame reverse raw materials and exchanges heat; the heat exchange kiln dries and heats the raw materials, and then the raw materials are conveyed to a hydraulic forming machine through an intermediate transfer device, and the hydraulic forming machine carries out hot press forming on the raw materials to form a metallurgical raw material metal steel block. The utility model improves the utilization level of metallurgical waste materials, and the hot-press formed metal steel block can be used as a cooling material during tapping of a metal smelting furnace and can replace iron ore for steelmaking.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides an automatic steel feeding mechanism which is used for feeding steel raw materials so as to process the steel in the subsequent processing procedure.

The utility model provides an automatic steel feeding mechanism which comprises a fixed plate assembly, a lifting assembly and a conveying assembly, wherein the fixed plate assembly is arranged on the fixed plate assembly;

the fixed plate component is used for fixedly bearing the whole mechanism; the lifting assembly is fixedly arranged on the fixed plate assembly; the conveying assembly is fixedly arranged on the lifting assembly;

the fixing plate assembly comprises a bottom plate 1 and a side plate 2; the side plates 2 are vertically and symmetrically arranged on two sides of the bottom plate 1 and form a middle bearing space with the bottom plate 1;

the lifting assembly comprises a guide rail 3 fixed on the inner side wall of the side plate 2, a horizontal support 4 arranged on the guide rail 3 and a cylinder 5 fixed on the bottom plate 1 and fixedly connected with the bottom of the horizontal support 4 at the driven end; the cylinder 5 drives the horizontal bracket 4 to slide up and down along the direction of the guide rail 3;

the conveying assembly comprises a conveying fixed plate 6 and a conveying belt 7 arranged in the middle of the conveying fixed plate 6; the transmission fixing plate 6 is fixedly arranged on the upper surface of the horizontal bracket 4; a hollow cavity is further arranged at the upper part of the conveying fixing plate 6, and the conveying belt 7 is arranged in the hollow cavity; the height of the conveyor belt 7 is higher than that of the hollow cavity.

Preferably, the horizontal bracket 4 further comprises a sliding rod 41 and a connecting plate 42; the two ends of the sliding rod 41 are connected with the guide rail 3 in a sliding manner; two sliding rods 41 are symmetrically arranged; the connecting plate 42 is connected to the middle of the two sliding rods 41.

Preferably, the driven end of the air cylinder 5 is also provided with a top table 51; the top table 51 is in a circular truncated cone shape, and the top of the top table is fixedly connected with the connecting plate 42; the top land 51 has a top area greater than a bottom area.

Preferably, baffles are further disposed on both sides of the upper surface of the transfer fixing plate 6.

Preferably, the upper surface of the conveyor belt 7 is further provided with an anti-slip layer; the anti-skid layer is in a shape of convex particles.

Preferably, the anti-slip layer is in a twill shape.

Preferably, the upper surface of the conveyor belt 7 is also provided with a corrosion-resistant layer.

The utility model has the beneficial effects that: simple structure, convenient assembly and low cost.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

in the figure, the position of the upper end of the main shaft,

1. a base plate; 2. a side plate; 3. a guide rail; 4. horizontal support, 41, sliding rod, 42, connecting plate; 5. a cylinder 51, a top platform; 6. a transport fixing plate; 7. and (4) a conveyor belt.

Detailed Description

The present invention will now be described in detail with reference to the drawings, which are given by way of illustration and explanation only and should not be construed to limit the scope of the present invention in any way.

The utility model provides an automatic steel feeding mechanism which comprises a fixed plate assembly, a lifting assembly and a conveying assembly, wherein the fixed plate assembly is arranged on the fixed plate assembly;

the fixed plate component is used for fixedly bearing the whole mechanism; the lifting assembly is fixedly arranged on the fixed plate assembly; the conveying assembly is fixedly arranged on the lifting assembly;

the fixing plate assembly comprises a bottom plate 1 and a side plate 2; the side plates 2 are vertically and symmetrically arranged on two sides of the bottom plate 1 and form a middle bearing space with the bottom plate 1;

the lifting assembly comprises a guide rail 3 fixed on the inner side wall of the side plate 2, a horizontal support 4 arranged on the guide rail 3 and a cylinder 5 fixed on the bottom plate 1 and fixedly connected with the bottom of the horizontal support 4 at the driven end; the cylinder 5 drives the horizontal bracket 4 to slide up and down along the direction of the guide rail 3;

the conveying assembly comprises a conveying fixed plate 6 and a conveying belt 7 arranged in the middle of the conveying fixed plate 6; the transmission fixing plate 6 is fixedly arranged on the upper surface of the horizontal bracket 4; a hollow cavity is further arranged at the upper part of the conveying fixing plate 6, and the conveying belt 7 is arranged in the hollow cavity; the height of the conveyor belt 7 is higher than that of the hollow cavity.

The conveying fixing plate 6 is used for bearing the whole steel, and after the horizontal support 4 and the transmission fixing plate 5 are jacked to a preset position by the air cylinder 5, the conveying belt 7 starts to rotate to convey the steel material to the next process.

Preferably, in this embodiment, the horizontal bracket 4 further includes a sliding rod 41 and a connecting plate 42; the two ends of the sliding rod 41 are connected with the guide rail 3 in a sliding manner; two sliding rods 41 are symmetrically arranged; the connecting plate 42 is connected to the middle of the two sliding rods 41.

With the above structure, the slide rod 41 is engaged with the guide rail 3 and can slide up and down along the guide rail 3.

In the preferred embodiment, the driven end of the cylinder 5 is further provided with a top table 51; the top table 51 is in a circular truncated cone shape, and the top of the top table is fixedly connected with the connecting plate 42; the top land 51 has a top area greater than a bottom area.

By means of the structure, the stress area is increased, and the stability of the lifting device is improved.

In this embodiment, it is preferable that baffles are further disposed on both sides of the upper surface of the conveying fixing plate 6.

With the structure, the baffle is used for resisting steel materials on the conveying fixing plate 6 so as to prevent the steel materials from sliding sideward.

In this embodiment, preferably, the upper surface of the conveyor belt 7 is further provided with an anti-slip layer; the anti-skid layer is in a shape of convex particles.

The structure is arranged, so that friction force is increased, and steel can be better conveyed.

In this embodiment, preferably, the anti-slip layer is a twill shape.

In the embodiment, preferably, the upper surface of the conveyor belt 7 is further provided with a corrosion-resistant layer.

The structure improves the durability of the mechanism.

It should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (7)

1. An automatic steel feeding mechanism comprises a fixed plate assembly, a lifting assembly and a conveying assembly;

it is characterized in that the preparation method is characterized in that,

the fixed plate component is used for fixedly bearing the whole mechanism; the lifting assembly is fixedly arranged on the fixed plate assembly; the conveying assembly is fixedly arranged on the lifting assembly;

the fixing plate component comprises a bottom plate (1) and a side plate (2); the side plates (2) are vertically and symmetrically arranged at two sides of the bottom plate (1) and form a middle bearing space with the bottom plate (1);

the lifting assembly comprises a guide rail (3) fixed on the inner side wall of the side plate (2), a horizontal support (4) arranged on the guide rail (3) and a cylinder (5) fixed on the bottom plate (1) and fixedly connected with the bottom of the horizontal support (4) at the driven end; the cylinder (5) drives the horizontal bracket (4) to slide up and down along the direction of the guide rail (3);

the conveying assembly comprises a conveying fixed plate (6) and a conveying belt (7) arranged in the middle of the conveying fixed plate (6); the transmission fixing plate (6) is fixedly arranged on the upper surface of the horizontal bracket (4); a hollow cavity is further arranged at the upper part of the conveying fixing plate (6), and the conveying belt (7) is arranged in the hollow cavity; the height of the conveyor belt (7) is higher than that of the hollow cavity.

2. The automatic steel feeding mechanism according to claim 1, characterized in that: the horizontal bracket (4) also comprises a sliding rod (41) and a connecting plate (42); the two ends of the sliding rod (41) are connected with the guide rail (3) in a sliding manner; two sliding rods (41) are symmetrically arranged; the connecting plate (42) is connected and arranged in the middle of the two sliding rods (41).

3. The automatic steel feeding mechanism according to claim 2, characterized in that: the driven end of the cylinder (5) is also provided with a jacking platform (51); the top table (51) is in a circular truncated cone shape, and the top of the top table is fixedly connected with the connecting plate (42); the top area of the top platform (51) is larger than the bottom area.

4. The automatic steel feeding mechanism according to claim 3, characterized in that: baffles are further arranged on two sides of the upper surface of the conveying fixing plate (6).

5. The automatic steel feeding mechanism according to claim 4, characterized in that: the upper surface of the conveyor belt (7) is also provided with an anti-skid layer; the anti-skid layer is in a shape of convex particles.

6. The automatic steel feeding mechanism according to claim 5, characterized in that: the anti-skid layer is in a twill shape.

7. The automatic steel feeding mechanism according to claim 6, characterized in that: the upper surface of the conveyor belt (7) is also provided with a corrosion-resistant layer.

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