CN211638215U - Branching system of steel forging production line - Google Patents

Abstract

The utility model discloses a branching system of a steel forging production line, which comprises a main roller way connected with a heating furnace, a first branch roller way and a second branch roller way which are arranged on one side of the main roller way far away from the heating furnace, and a guiding device arranged between the main roller way and the two branch roller ways; the first branch roller way and the second branch roller way are arranged side by side, and the first branch roller way and the second branch roller way are symmetrically arranged relative to the center line of the transmission direction of the general roller way; the guiding device comprises an underframe, a rotating shaft rotationally arranged on the underframe, a flow distribution plate fixedly connected to the rotating shaft and a driving mechanism connected with the rotating shaft and used for controlling the rotating shaft to rotate; the rotating shaft is positioned on the center line of the conveying direction of the general roller way, and two ends of the rotating shaft respectively penetrate out of the upper surface and the lower surface of the underframe; the flow distribution plate extends out towards one side of the general roller way and is positioned above the general roller way. The utility model discloses the effect that production efficiency is high has.

Description

Branching system of steel forging production line

Technical Field

The utility model relates to a technical field that steel production was made, in particular to steel forging and pressing production line's separated time system.

Background

When steel products such as channel steel, steel beams and the like are produced and manufactured, a workpiece needs to be heated to more than 1000 ℃ in a stepping heating furnace, and after the workpiece is taken out of the furnace at a high temperature, the workpiece enters a forging and pressing workshop for forging and pressing under the conveying of a roller way.

However, workpieces can be sent out after being heated in batches in the heating furnace, a certain time is needed for forging each high-temperature workpiece in the forging workshop, the workpiece cannot be received in the forging workshop in time due to the fact that the supply speed of the high-temperature workpiece is too high, and if the supply speed of the workpiece is reduced, the production efficiency of steel products is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel forging and pressing production line's separated time system has the advantage that production efficiency is high.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a branching system of a steel forging production line comprises a main roller way connected with a heating furnace, a first branch roller way and a second branch roller way which are arranged on one side of the main roller way far away from the heating furnace, and a guide device arranged between the main roller way and the two branch roller ways;

the first branch roller way and the second branch roller way are arranged side by side, and the first branch roller way and the second branch roller way are symmetrically arranged relative to the center line of the transmission direction of the general roller way;

the guiding device comprises an underframe, a rotating shaft rotationally arranged on the underframe, a flow distribution plate fixedly connected to the rotating shaft and a driving mechanism connected with the rotating shaft and used for controlling the rotating shaft to rotate;

the rotating shaft is positioned on the center line of the conveying direction of the general roller way, and two ends of the rotating shaft respectively penetrate out of the upper surface and the lower surface of the underframe;

the flow distribution plate extends out towards one side of the general roller way and is positioned above the general roller way.

By adopting the technical scheme, the guide device is arranged between the main roller way and the two branch roller ways, the driving mechanism controls the branch flow plates to intermittently swing in the process that the workpiece moves along the main roller way, when the branch flow plates rotate to one side of the second branch roller way, the inlet of the second branch roller way is sealed, one end of the workpiece moves against the branch flow plates, and enters the first branch roller way under the guide action of the branch flow plates; when the splitter plate rotates towards one side of the first splitting roller way, the inlet of the first splitting roller way is sealed, one end of a workpiece abuts against the splitter plate to move, the workpiece enters the second splitting roller way under the guiding action of the splitter plate, the splitting of the workpiece is realized, the workpiece can enter different splitting roller ways and is forged and pressed in different forging and pressing workshops, meanwhile, the supply speed of the workpiece on the main roller way is uninterrupted, and the production efficiency is improved.

The present invention may be further configured in a preferred embodiment as: the driving mechanism comprises a rotating rod fixedly connected with the lower end of the rotating shaft, a connecting rod hinged to one end of the rotating rod far away from the rotating shaft and an air cylinder connected with the connecting rod;

the rotating rod extends out towards one side of the general roller way and is positioned below the general roller way;

the cylinder sets up in one side of total roll table, the one end that the dwang was kept away from to the connecting rod is articulated with the top of cylinder piston rod.

Through adopting above-mentioned technical scheme, dwang and pivot coaxial fixed are in the same place, but push-and-pull dwang when cylinder piston rod is flexible, and the dwang revolutes the rotation of axes, can drive the flow distribution plate and revolute the rotation of axes, realizes the reciprocal swing of flow distribution plate.

The present invention may be further configured in a preferred embodiment as: arc plates are fixedly connected between the two side surfaces of the splitter plate and the side surface of the rotating shaft respectively.

Through adopting above-mentioned technical scheme, arc smooth connection is between pivot and flow distribution plate, and when the work piece moved along total roll table, can entered into first branch roll table or second smoothly to the arc and divide the roll table on.

The present invention may be further configured in a preferred embodiment as: the bottom frame is provided with a door-shaped frame, and a zipper is connected between the top of the door-shaped frame and the end part of the splitter plate far away from the rotating shaft of the splitter plate.

Through adopting above-mentioned technical scheme, because the flow distribution plate has certain length, its tip can rock or sink because of gravity when the flow distribution plate revolutes the rotation of axes, sets up the zip fastener and plays ascending pulling force to whole flow distribution plate, and the flow distribution plate is more stable at the rotation in-process.

The present invention may be further configured in a preferred embodiment as: one end of the second branch roller way, which is far away from the main roller way, is rotatably connected to the ground, an arc-shaped track is arranged on the ground by taking the rotating shaft of the second branch roller way as the center of circle, and the end part of the second branch roller way, which is close to the main roller way, is slidably arranged on the arc-shaped track;

and a power part for controlling the second branch roller way to rotate along the arc-shaped track is arranged on the second branch roller way.

Through adopting above-mentioned technical scheme, because every forging and pressing workshop area is great, first branch roll table and second divide the roll table to set up side by side, on spatial position, the forging and pressing workshop probably is difficult to arrange, consequently, can set up another forging and pressing workshop in orbital one side of arc, and the work piece moves to the second and divides the roll table on, and power spare control second divides the roll table to rotate along the arc track, carries the work piece to the forging and pressing workshop of opposite side in.

The present invention may be further configured in a preferred embodiment as: the power part comprises a walking wheel rotatably arranged on the second branch roller way and a hub motor connected with the walking wheel.

Through adopting above-mentioned technical scheme, the walking wheel drives whole second branch roll table rotation along arc track removal, simple structure easily realizes.

To sum up, the utility model discloses a beneficial technological effect does:

1. the guiding device is arranged between the main roller way and the two branch roller ways, the driving mechanism controls the flow distribution plate to intermittently swing in the process that the workpiece moves along the main roller way, when the flow distribution plate rotates to one side of the second branch roller way, the inlet of the second branch roller way is closed, one end of the workpiece moves against the flow distribution plate, and the workpiece enters the first branch roller way under the guiding action of the flow distribution plate; when the splitter plate rotates towards one side of the first splitting roller way, the inlet of the first splitting roller way is closed, one end of a workpiece moves against the splitter plate and enters the second splitting roller way under the guiding action of the splitter plate, so that splitting of the workpiece is realized, the workpiece can enter different splitting roller ways and is forged and pressed in different forging and pressing workshops, meanwhile, the supply speed of the workpiece on the main roller way is uninterrupted, and the production efficiency is improved;

2. the rotating shaft and the splitter plate are controlled to rotate by driving the connecting rod and the rotating rod to rotate by the cylinder, so that the structure is simple and the realization is easy;

3. the second branch roller way is rotatably arranged on the arc-shaped track, so that the conveying direction of the workpiece can be changed, and the arrangement of the field is more flexible.

Drawings

Fig. 1 is a schematic view of an overall structure according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram showing the guiding device in fig. 1 and the positional relationship between the guiding device and the general roller way.

Fig. 3 is a schematic structural diagram showing a connection relationship between the second branch roller table and the arc-shaped rail in fig. 1.

In the figure, 1, a general roller bed; 2. a first branch roller way; 3. a second branch roller way; 4. a guide device; 41. a chassis; 42. a rotating shaft; 43. a flow distribution plate; 44. rotating the rod; 45. a connecting rod; 46. a cylinder; 47. an arc-shaped plate; 5. a gantry frame; 6. a zipper; 7. an arc-shaped track; 8. a traveling wheel; 81. an in-wheel motor.

Detailed Description

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

Referring to fig. 1, in order to the embodiment of the present invention, a branching system for a steel forging line is disclosed, which includes a main roller bed 1 fixedly disposed on the ground, a first branch roller bed 2, a second branch roller bed 3 and a guiding device 4, wherein one end of the main roller bed 1 is connected to an outlet of a heating furnace, the first branch roller bed 2 and the second branch roller bed 3 are disposed side by side on one side of the main roller bed 1 away from the heating furnace, a conveying direction of the first branch roller bed 2 and the second branch roller bed 3 is consistent with a conveying direction of the main roller bed 1, and the first branch roller bed 2 and the second branch roller bed 3 are symmetrically disposed relative to a central line of the conveying direction of; the guiding device 4 is fixedly arranged on the ground and is positioned between the main roller way 1 and the two branch roller ways.

Referring to fig. 1 and 2, the guiding device 4 includes a bottom frame 41, a rotating shaft 42, a diversion plate 43 and a driving mechanism, wherein the bottom frame 41 is fixedly arranged on the ground; the rotating shaft 42 is rotatably connected to the center of the bottom frame 41, the upper end and the lower end of the rotating shaft 42 respectively penetrate through the upper surface and the lower surface of the bottom frame 41, and the rotating shaft 42 is located on the center line of the conveying direction of the general roller way 1; the splitter plate 43 is fixedly connected to the upper end of the side surface of the rotating shaft 42, the splitter plate 43 extends out towards one side of the general roller way 1, the splitter plate 43 is positioned above the general roller way 1, and a gap is reserved between the lower side edge of the splitter plate 43 and a rotating roller of the general roller way 1; further, arc plates 47 are respectively welded and fixed between the side surface of the rotating shaft 42 and the two side surfaces of the splitter plate 43, the arc plates 47 are smoothly connected between the rotating shaft 42 and the splitter plate 43, and when a workpiece moves along the general roller way 1, the workpiece can smoothly enter the first splitter roller way 2 or the second splitter roller way 3 against the arc plates 47.

The upper surface of the bottom frame 41 is also fixedly connected with a door-shaped frame 5, a zipper 6 is arranged at a position of the door-shaped frame 5 right above the rotating shaft 42, one end of the zipper 6 is hooked on the door-shaped frame 5, the other end is hooked on the end part of the flow distribution plate 43 far away from the rotating shaft 42, and the zipper 6 is in a tensioning state. Since the diversion plate 43 has a certain length, the end of the diversion plate 43 may shake or sink due to gravity when rotating around the rotating shaft 42, the zipper 6 is arranged to pull the diversion plate 43 upwards, and the diversion plate 43 is more stable during the rotation process.

Actuating mechanism includes dwang 44, connecting rod 45 and cylinder 46, and the one end fixed connection of dwang 44 is at the lower tip of pivot 42, and the other end stretches out towards total roll table 1 one side, and cylinder 46 is fixed to be set up subaerial in total roll table 1 one side, and cylinder 46's piston rod is on a parallel with total roll table 1's commentaries on classics roller, and the one end of connecting rod 45 is articulated with the tip that pivot 42 was kept away from to dwang 44, and the other end is articulated with the top of cylinder 46 piston rod. When a piston rod of the air cylinder 46 is stretched, the rotating rod 44 can be pulled to rotate around the rotating shaft 42, meanwhile, the shunting plate 43 rotates around the rotating shaft 42, when a workpiece moves along the general roller way 1, the shunting plate 43 rotates towards one side of the second shunting roller way 3 to seal an inlet of the second shunting roller way 3, and the workpiece enters the first shunting roller way 2 under the guiding action of the shunting plate 43; the shunting plate 43 rotates towards one side of the first shunting table 2 to seal the inlet of the first shunting table 2, and the workpiece enters the second shunting table 3 under the guiding action of the shunting plate 43, so that shunting of the workpiece is realized.

Referring to fig. 1 and 3, the second divides the roll table 3 to keep away from the one end of total roll table 1 and rotates to be connected subaerial, subaerial use second divide the roll table 3 axis of rotation to be provided with arc track 7 as the centre of a circle, the second divides the bottom that roll table 3 is close to arc track 7 one end to be fixed with the mounting panel, be provided with the drive second on the mounting panel and divide roll table 3 pivoted power spare, power spare includes walking wheel 8 and installs the in-wheel motor 81 on walking wheel 8 in this embodiment, can drive walking wheel 8 when in-wheel motor 81 starts and rotate, the second divides roll table 3 to. Because every forging and pressing workshop area is great, when first divide roll table 2 and second to divide roll table 3 to set up side by side, on spatial position, the forging and pressing workshop probably is difficult to arrange, consequently, can set up another forging and pressing workshop in one side of arc track 7, the work piece moves to the second and divides on the roll table 3, wheel hub motor 81 driven wheel 8 rotates, whole second divides roll table 3 to rotate along arc track 7, carries the work piece to the forging and pressing workshop of opposite side in.

The implementation principle of the embodiment is as follows:

after the workpiece is heated in the heating furnace, the workpiece falls on the main roller way 1 and moves along the main roller way 1, the air cylinder 46 controls the shunting plate 43 to intermittently swing, the workpiece is guided, the workpiece is respectively conveyed to the first shunting roller way 2 and the second shunting roller way 3, and then the workpiece is respectively conveyed to the corresponding forging and pressing workshops by the first shunting roller way 2 and the second shunting roller way 3.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (6)

1. The utility model provides a steel forging line's separated time system which characterized in that: comprises a main roller way (1) connected with a heating furnace, a first branch roller way (2) and a second branch roller way (3) which are arranged on one side of the main roller way (1) far away from the heating furnace, and a guide device (4) arranged between the main roller way (1) and the two branch roller ways;

the first branch roller way (2) and the second branch roller way (3) are arranged side by side, and the first branch roller way (2) and the second branch roller way (3) are symmetrically arranged relative to the central line of the transmission direction of the general roller way (1);

the guide device (4) comprises a bottom frame (41), a rotating shaft (42) rotatably arranged on the bottom frame (41), a flow distribution plate (43) fixedly connected to the rotating shaft (42) and a driving mechanism connected with the rotating shaft (42) and used for controlling the rotating shaft (42) to rotate;

the rotating shaft (42) is positioned on the center line of the conveying direction of the general roller way (1), and two ends of the rotating shaft (42) respectively penetrate out of the upper surface and the lower surface of the bottom frame (41);

the flow distribution plate (43) extends out towards one side of the general roller way (1) and is positioned above the general roller way (1).

2. The branching system for a steel forging line as claimed in claim 1, wherein: the driving mechanism comprises a rotating rod (44) fixedly connected with the lower end of the rotating shaft (42), a connecting rod (45) hinged to one end of the rotating rod (44) far away from the rotating shaft (42) and a cylinder (46) connected with the connecting rod (45);

the rotating rod (44) extends out towards one side of the general roller way (1) and is positioned below the general roller way (1);

the cylinder (46) is arranged on one side of the general roller way (1), and one end, far away from the rotating rod (44), of the connecting rod (45) is hinged to the top end of a piston rod of the cylinder (46).

3. The branching system for a steel forging line as claimed in claim 1, wherein: arc-shaped plates (47) are fixedly connected between the surfaces of the two sides of the flow distribution plate (43) and the side surface of the rotating shaft (42) respectively.

4. The branching system for a steel forging line as claimed in claim 2, wherein: the improved door-shaped frame is characterized in that a door-shaped frame (5) is arranged on the bottom frame (41), and a zipper (6) is connected between the top of the door-shaped frame (5) and the end part of the flow distribution plate (43) far away from the rotating shaft (42).

5. The branching system for a steel forging line as claimed in claim 1, wherein: one end, far away from the main roller way (1), of the second branch roller way (3) is rotatably connected to the ground, an arc-shaped track (7) is arranged on the ground by taking a rotating shaft of the second branch roller way (3) as a circle center, and the end part, close to the main roller way (1), of the second branch roller way (3) is slidably arranged on the arc-shaped track (7);

and a power part for controlling the second branch roller way (3) to rotate along the arc-shaped track (7) is arranged on the second branch roller way.

6. The branching system for a steel forging line as claimed in claim 5, wherein: the power part comprises a walking wheel (8) rotatably arranged on the second branch roller way (3) and a hub motor (81) connected with the walking wheel (8).

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