CN219448126U - Forging and pressing part conveying line - Google Patents

Abstract

The utility model relates to the technical field of conveying lines, in particular to a wide-width adjustable forging and pressing part conveying line which comprises rib plates, side plates, a first roller body, a second roller body and a conveying belt, wherein the side plates are respectively arranged on two sides of the rib plates, the side plates can slide to be close to or far away from the rib plates, the first roller body is rotatably connected with one side plate, the second roller body is rotatably connected with the other side plate, the first roller body and the second roller body are coaxially arranged, the second roller body can be inserted into the first roller body, and the conveying belt is attached to the surfaces of the first roller body and the second roller body. The forging part conveying line provided by the utility model is adjustable in width and applicable to the transmission of parts with different sizes.

Description

Forging and pressing part conveying line

Technical Field

The utility model relates to the technical field of conveying lines, in particular to a wide-width adjustable forged part conveying line.

Background

The sizes of the forged parts are different, the widths of the conveyor belts of the parts to be driven are different in production, and the larger the sizes of the parts are, the larger the widths of the conveyor belts are. Conventional wide fixed belts have failed to meet the conveying requirements of a wide variety of products in workshops. Patent publication No. CN212402433U discloses a wide-width adjustable rubber belt conveyor belt that is adjusted by moving an adjusting portion so as to be close to a main supporting portion or an auxiliary supporting portion to thereby adjust the width of the belt conveyor. However, the above adjustment has the following disadvantages: (1) The distance between the main supporting part and the auxiliary supporting part is always fixed, and the single-side adjustment centering is poor; (2) a conveying device having a driving roller is not applicable. Based on this, improvements to existing adjustable conveyor belts are needed.

Disclosure of Invention

The utility model aims to: in order to overcome the defects in the prior art, the utility model provides a forged part conveying line.

The technical scheme is as follows: to achieve the above object, a forged part conveying line of the present utility model includes:

rib plates;

the side plates are arranged on two sides of the rib plate separately and can slide to be close to or far away from the rib plate;

the first roller body is rotationally connected with one side plate;

the second roller body is rotationally connected with the other side plate, the first roller body and the second roller body are coaxially arranged, and the second roller body can be inserted into the first roller body;

and the conveyor belt is attached to the surfaces of the first roller body and the second roller body.

Further, the inner cavity of the first roller body is in a special shape, one end of the second roller body is provided with a connecting section matched with the shape of the inner cavity of the first roller body, and the connecting section extends into the inner cavity of the first roller body.

Further, the conveyer belt includes master band and subband, the equal array of both sides face of master band is provided with the arch, at least one side of subband is provided with the recess, the arch stretches into in the recess and makes master band and subband joint.

Further, the device also comprises a sleeper plate and an air cylinder, wherein the sleeper plate is connected with a guide rail, the bottom surface of the side plate is connected with a guide block, and the guide block is in sliding connection with the guide rail; the air cylinder is arranged between the rib plate and the side plate and is used for driving the side plate to slide.

Further, the roller further comprises at least one driving wheel, and the driving wheel is connected with any one of the first roller bodies or any one of the second roller bodies.

Further, the rib plates and the side plates are made of aluminum alloy materials, and the sleeper plates are made of cast iron materials.

The conveying line for the forged parts has at least the following technical effects: the device can adjust the whole width of the conveying line by adjusting the distance between the rib plates and the side plates, the side plates are symmetrically arranged at two sides of the rib plates, and the adjusting pair is good; the whole length of the driving roller formed by the first roller body and the second roller body is adjustable, and the whole width of the driving belt is also adjustable, so that the driving belt is matched with the size of the parts, thereby saving the space of a workshop, and the driving belt has flexible structure and strong applicability.

Drawings

FIG. 1 is a forged part transfer line;

FIG. 2 is a forged part transfer line with the conveyor removed;

FIG. 3 is a schematic view of the structure with the belt, first roller body and second roller body removed;

FIG. 4 is a schematic view of the connection of the first roll body and the second roll body;

fig. 5 is a schematic structural diagram of a connection of a sub-band and a parent band.

In the figure, 1, rib plate; 2. a side plate; 3. a first roller body; 4. a second roller body; 5. a conveyor belt; 6. a connection section; 7. a master tape; 8. a sub-band; 9. a protrusion; 10. a groove; 11. a pillow plate; 12. a cylinder; 13. a guide rail; 14. a guide block; 15. a driving wheel.

Detailed Description

The principles and features of the present utility model are described below with reference to fig. 1 through 5, the examples being provided for illustration only and not for limitation of the scope of the utility model.

A forged part conveying line comprises a rib plate 1, side plates 2, a first roller body 3, a second roller body 4, a sleeper 11, an air cylinder 12 and a conveying belt 5.

In order to lighten the weight of the whole device and improve the strength of the whole device, the rib plates 1 and the side plates 2 are made of aluminum alloy materials, and the sleeper plates 11 are made of cast iron materials. The two side plates 2 are respectively arranged at two sides of the rib plate 1, and the two side plates 2 and the rib plate 1 are arranged in parallel. The cylinder 12 sets up respectively between two curb plates 2 and gusset 1, and the one end and the gusset 1 of cylinder 12 are connected, and the other end and the curb plate 2 of cylinder 12 are connected, are provided with a plurality of cylinders 12 between curb plate 2 and the gusset 1, and a plurality of cylinders 12 are arranged along the length direction array of gusset 1 or curb plate 2, and a plurality of cylinders 12 can guarantee that curb plate 2 has even drive power. The pillow plates 11 are arranged below the rib plates 1 and the side plates 2, and a plurality of pillow plates 11 are arranged in an array along the length direction of the rib plates 1 or the side plates 2. The upper surface of the pillow plate 11 is connected with a guide rail 13, and the length direction of the guide rail 13 is perpendicular to the length direction of the rib plate 1 and the side plate 2. The bottom surface of the side plate 2 is connected with a guide block 14, and the guide block 14 is in sliding connection with the guide rail 13. The extension and retraction of the air cylinder 12 can enable the side plate 2 to slide along the guide rail 13 to be close to or far away from the rib plate 1 so as to change the distance between the rib plate 1 and the side plate 2.

The first roller body 3 is rotatably connected with one side plate 2, and the second roller body 4 is rotatably connected with the other side plate 2. The plurality of first roller bodies 3 and the plurality of second roller bodies 4 are arranged in an array along the length direction of the side plate 2. The first roller body 3 and the second roller body 4 are opposite left and right, one first roller body 3 and one second roller body 4 form a group of driving rollers, and the first roller body 3 and the second roller body 4 of the same group of driving rollers are arranged on the same axis. The inner cavity at one end of the first roller body 3 is in a different shape, and in particular to the embodiment, the different shape is a regular hexagon; one end of the second roller body 4 is provided with a connecting section 6 matched with the shape of the inner cavity of the first roller body 3, and the connecting section 6 extends into the inner cavity of the first roller body 3 to enable the first roller body 3 and the second roller body 4 to synchronously rotate. The embodiment further comprises two driving wheels 15, and the two driving wheels 15 are respectively connected to the ends of the two second roller bodies 4. The driving wheels 15 are synchronous pulleys, the conveyor belt 5 is attached to the surfaces of the first roller body 3 and the second roller body 4, two driving wheels 15 drive two groups of the first roller body 3 and the second roller body 4 to rotate, and the two groups of the first roller body 3 and the second roller body 4 drive the conveyor belt 5 to rotate.

To accommodate the variation in spacing between the gusset 1 and the side panel 2, the conveyor belt 5 includes a parent belt 7 and a child belt 8. The two side surfaces of the mother belt 7 are provided with the bulges 9 in an array manner, the two side surfaces of the sub belt 8 are provided with the grooves 10, the bulges 9 can extend into the grooves 10 to form clamping connection so that the mother belt 7 and the sub belt 8 are relatively fixed, and along with the increase of the distance between the rib plate 1 and the side plate 2, the number of the sub belts 8 can be increased or decreased to expand the overall width of the transmission belt 5. Because the mother belt 7 and the sub belt 8 are in the shape of a circular ring, when the mother belt 7 or the sub belt 8 is installed, firstly, the side plate 2 is moved to maximize the distance between the side plate and the rib plate 1, and the first roller body 3 and the second roller body 4 are separated; then the mother belt 7 and the sub belt 8 are sleeved on the first roller body 3 and the second roller body 4; finally, the side plate 2 is moved again to close the first roller body 3 and the second roller body 4.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting thereof, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present utility model.

Claims (6)

1. A forged part transfer line, comprising:

a rib plate (1);

the side plates (2) are respectively arranged at two sides of the rib plate (1), and the side plates (2) can slide to be close to or far away from the rib plate (1);

the first roller body (3), the said first roller body (3) is connected with one of them (2) rotation;

the second roller body (4), the second roller body (4) is rotationally connected with the other side plate (2), the first roller body (3) and the second roller body (4) are coaxially arranged, and the second roller body (4) can be inserted into the first roller body (3);

and the conveyor belt (5) is attached to the surfaces of the first roller body (3) and the second roller body (4).

2. The forged part conveying line according to claim 1, wherein the inner cavity of the first roller body (3) is shaped, one end of the second roller body (4) is provided with a connecting section (6) matched with the inner cavity of the first roller body (3), and the connecting section (6) extends into the inner cavity of the first roller body (3).

3. A forged part conveying line according to claim 1, characterized in that the conveying belt (5) comprises a mother belt (7) and a sub belt (8), wherein protrusions (9) are arranged on two side surfaces of the mother belt (7) in an array mode, grooves (10) are formed in at least one side of the sub belt (8), and the protrusions (9) extend into the grooves (10) to enable the mother belt (7) to be clamped with the sub belt (8).

4. The forged part conveying line according to claim 1, further comprising a sleeper plate (11) and a cylinder (12), wherein a guide rail (13) is connected to the sleeper plate (11), a guide block (14) is connected to the bottom surface of the side plate (2), and the guide block (14) is slidably connected to the guide rail (13); the air cylinder (12) is arranged between the rib plate (1) and the side plate (2), and the air cylinder (12) is used for driving the side plate (2) to slide.

5. A forged part conveying line according to claim 1, characterized in that it further comprises at least one driving wheel (15), said driving wheel (15) being connected to either the first roller body (3) or the second roller body (4).

6. A forged part conveying line according to claim 4, characterized in that the rib plate (1) and the side plate (2) are made of aluminum alloy, and the sleeper plate (11) is made of cast iron.