CN218311152U - Lead ingot grooving device - Google Patents

Abstract

The utility model relates to a retrieve lead and smelt technical field, concretely relates to lead ingot groover. Including the cutting case, both ends opening about the cutting case has seted up on the lateral wall before the cutting case into the hole, and the cutting case front end of advancing the hole below is provided with material feeding unit, and the conveyer belt is installed to cutting case left end, all is fixed with the right angle cutter on the relative terminal surface of lateral wall around the cutting case, and the right angle cutter is located into the hole left side, has all seted up the feed opening on the left cutting case bottom plate of right angle cutter, is provided with thrust unit on the cutting case on feed hole right side. The utility model discloses, can process the grooving to the both ends of lead ingot, will have the lower floor that a plurality of lead ingots of grooving piled as the lead ingot, therefore in fork arm of fork truck can enter into the grooving of the lead ingot of lower floor, the convenience is piled the lead ingot and is transported, can improve the transport efficiency that the lead ingot was piled.

Description

Lead ingot grooving device

Technical Field

The utility model relates to a retrieve lead and smelt technical field, concretely relates to lead ingot groover.

Background

In the process of smelting the recovered lead, when a wheel type continuous casting machine is used for continuously casting lead liquid, the lead discharged from the wheel type continuous casting machine is in a strip shape, the strip lead is called a lead strip, the lead strip is cut into lead ingots after being shaped and straightened, and the lead ingots are stacked by a manipulator and then bundled to form a lead ingot stack. When needs are piled the lead ingot and are transported, because the lead ingot is piled there is not sufficient clearance between lower extreme and the ground, consequently inconvenient fork arm that makes fork truck enters into between lead ingot heap and the ground, consequently, inconvenient fork truck that utilizes is piled the lead ingot and is transported, current method is for making fork arm lower extreme laminating ground of fork truck, then with the fork arm rigid of fork truck insert ground and lead ingot heap between, consequently, the ground damage of factory building is serious, simultaneously, the lead ingot is piled and is emptyd easily and take place the incident.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a conveniently utilize fork truck to pile the lead ingot and transport, can improve the lead ingot groover of the transport efficiency that the lead ingot was piled.

In order to realize the purpose, the utility model provides a technical scheme is:

the utility model provides a lead ingot groover, including the cutting case, both ends opening about the cutting case, the inlet has been seted up on the lateral wall before the cutting case, the cutting case front end of inlet below is provided with material feeding unit, the conveyer belt is installed to cutting case left end, the upper end and the cutting case bottom plate upper end parallel and level of conveyer belt, all be fixed with the right angle cutter on the relative terminal surface of lateral wall around the cutting case, the right angle cutter is located the inlet left side, the feed opening has all been seted up on the left cutting case bottom plate of right angle cutter, be provided with thrust unit on the cutting case on inlet right side, material feeding unit allows to carry the lead ingot to the cutting incasement through the inlet, thrust unit allows to promote the horizontal direction upward movement of lead ingot at the cutting incasement that is located the cutting incasement.

Specifically, the lower hole wall of the inlet hole is flush with the upper end of the bottom plate of the cutting box.

Specifically, material feeding unit is including fixing the layer board at the cutting case front end, the lower pore wall parallel and level of layer board upper end and inlet opening, and the layer board upper end on inlet opening right side is fixed with fore-and-aft baffle, and the right pore wall parallel and level of baffle left end and inlet opening is provided with the side thrust unit on the left layer board of baffle, is provided with the vertical thrust unit that corresponds with the inlet opening on the left layer board of baffle.

The pushing device comprises a third push plate, the third push plate is in sliding contact with the inner wall of the cutting box, a rectangular groove is formed in the left end of the third push plate, a fourth push plate is installed in the rectangular groove, the space between the fourth push plate and the two right-angle cutters corresponds, the left end of the fourth push plate is flush with the left end of the third push plate, a plurality of transverse fourth telescopic cylinders are fixed on the third support plate, the telescopic rods of the fourth telescopic cylinders are fixedly connected with the fourth push plate, the right end of the cutting box is fixed with a support plate, transverse third telescopic cylinders are fixed on the support plate, and the telescopic rods of the third telescopic cylinders are fixedly connected with the third push plate.

Specifically, the side pushing device comprises a first telescopic cylinder fixed at the upper end of the supporting plate, the first telescopic cylinder is transversely arranged, a first push plate is fixed on a telescopic rod of the first telescopic cylinder, the first push plate is parallel to the baffle, the longitudinal pushing device comprises a second telescopic cylinder fixed on the supporting plate, the second telescopic cylinder is longitudinally arranged, a second push plate is fixed on a telescopic rod of the second telescopic cylinder, and the second push plate is perpendicular to the baffle.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, can process the grooving to the both ends of lead ingot, will have a plurality of lead ingots of grooving and pile the lower floor as the lead ingot, therefore in fork truck's yoke can enter into the grooving of the lead ingot of lower floor, conveniently pile the lead ingot and transport, can improve the transport efficiency that the lead ingot was piled.

Drawings

Fig. 1 is a top view of the present invention.

Fig. 2 is a three-dimensional view of the cutting box.

Fig. 3 is a side view of the cutting box.

Fig. 4 is a sectional view taken along the line a in fig. 3.

Fig. 5 is a schematic view of a lead ingot stack.

Part names in the drawings are as follows:

a cutting box (1) is provided with a hole (2), a supporting plate (4), a first push plate (5), a first telescopic cylinder (6), a baffle (7), a second telescopic cylinder (8), a third push plate (9), a fourth push plate (10), a fourth push plate (11), a supporting plate (13), a third telescopic cylinder (14), a feeding port (16), a right-angle cutter (15), a conveying belt (17), a lead ingot (18) and a groove.

Detailed Description

As shown in fig. 1-5, a lead ingot grooving device comprises a cutting box 1, wherein the left end and the right end of the cutting box 1 are open, a feed hole 2 is formed in the front side wall of the cutting box 1, the lower hole wall of the feed hole 2 is parallel to the upper end of a bottom plate of the cutting box 1, a feeding device is arranged at the front end of the cutting box 1 below the feed hole 2, a conveying belt 16 is installed at the left end of the cutting box 1, the upper end of the conveying belt 16 is parallel to the upper end of the bottom plate of the cutting box 1, a right-angle cutter 14 is fixed on the opposite end faces of the front side wall and the rear side wall of the cutting box 1, the right-angle cutter 14 is positioned on the left side of the feed hole 2, a discharge hole 15 is formed in the bottom plate of the cutting box 1 on the left side of the right-angle cutter 14, and a pushing device is arranged on the cutting box 1 on the right side of the feed hole 2. The feeding device allows to feed the lead ingot 17 into the cutting box 1 through the inlet hole 2, and the pushing device allows to push the lead ingot 17 located in the cutting box 1 to move in the transverse direction in the cutting box 1.

Feeding unit is including fixing the layer board 3 at 1 front end of cutting case, and the lower pore wall parallel and level of 3 upper ends of layer boards and inlet 2, 3 upper ends of layer boards on inlet 2 right side are fixed with fore-and- aft baffle 6, and 6 left ends of baffle and inlet 2's right pore wall parallel and level are provided with the side thrust unit on 6 left layer boards 3 of baffle, the side thrust unit is fixed with first push pedal 4 including fixing the first telescoping cylinder 5 in layer board 3 upper end, and first telescoping cylinder 5 transversely sets up on the telescopic link of first telescoping cylinder 5, and first push pedal 4 is parallel with baffle 6. The longitudinal pushing device corresponding to the inlet hole 2 is arranged on the supporting plate 3 on the left side of the baffle 6 and comprises a second telescopic cylinder 7 fixed on the supporting plate 3, the second telescopic cylinder 7 is longitudinally arranged, a second pushing plate 8 is fixed on a telescopic rod of the second telescopic cylinder 7, and the second pushing plate 8 is perpendicular to the baffle 6.

The pushing device comprises a third pushing plate 9, the third pushing plate 9 is in sliding contact with the inner wall of the cutting box 1, a rectangular groove is formed in the left end of the third pushing plate 9, a fourth pushing plate 10 is installed in the rectangular groove, the space between the fourth pushing plate 10 and the two right-angle cutters 14 corresponds to each other, the left end of the fourth pushing plate 10 is flush with the left end of the third pushing plate 9, a plurality of transverse fourth telescopic cylinders 11 are fixed on the third supporting plate 3, telescopic rods of the fourth telescopic cylinders 11 are fixedly connected with the fourth pushing plate 10, a supporting plate 12 is fixed at the right end of the cutting box 1, transverse third telescopic cylinders 13 are fixed on the supporting plate 12, and telescopic rods of the third telescopic cylinders 13 are fixedly connected with the third pushing plate 9.

The lead ingot 17 is longitudinally placed between a first push plate 4 and a baffle 6 by a manipulator, then the first telescopic cylinder 5 is started, a telescopic rod of the first telescopic cylinder 5 drives the first push plate 4 to move towards the right side, the first push plate 4 and the baffle 6 clamp the lead ingot 17, at the moment, the lead ingot 17 corresponds to a feed hole 2, then a second telescopic cylinder 7 is started, a telescopic rod of the second telescopic cylinder 7 drives a second push plate 8 to move towards the rear side, the second push plate 8 enables the lead ingot 17 to pass through the feed hole 2 and then enter the cutting box 1, at the moment, the second push plate 8 is positioned in the feed hole 2, the rear end of the second push plate 8 is contacted with the front end of the lead ingot 17, the rear end of the second push plate 8 is aligned with the rear end of the front side wall of the cutting box 1, the front end of the lead ingot 17 is contacted with the rear side wall of the cutting box 1, then a third telescopic cylinder 13 is started, a telescopic rod of the third telescopic cylinder 13 drives a third supporting plate 3, a fourth push plate 10, a fourth telescopic cylinder 11 and the lead ingot 17 to move towards the left side in the cutting box 1, when the lead ingot 17 moves towards the left side in the cutting box 1, the lower side parts of the front and rear ends of the lead ingot 17 can be cut by the right-angle cutter 14, when the extension of the telescopic rod of the third telescopic cylinder 13 is completed, most of the front and rear ends of the lead ingot 17 are cut by the right-angle cutter 14, then the fourth telescopic cylinder 11 is started, the telescopic rod of the fourth telescopic cylinder 11 enables the lead ingot 17 to continue to move towards the left side in the cutting box 1 through the fourth push plate 10, when the lead ingot 17 moves to the left side of the right-angle cutter 14, the front and rear ends of the lead ingot 17 are cut into the cutting groove 18 by the right-angle cutters 14, the lead ingot 17 is pushed to move towards the left side by the fourth push plate 10, when the lead ingot 17 enters the conveyor belt 16, the lead ingot 17 is conveyed towards the left side by the conveyor belt 16, and at the time, the cutting groove 18 processing of the lead ingot 17 is completed, and then, the telescopic rods of the third telescopic cylinder 13 and the fourth telescopic cylinder 11 retract, the third push plate 9 and the fourth push plate 10 are restored, then the first telescopic cylinder 5 and the second telescopic cylinder 7 respectively drive the first push plate 4 and the second push plate 8 to be restored, and at the moment, the grooving 18 processing operation can be carried out on the next lead ingot 17. After the lead ingot 17 is cut by the direct cutter, the excess material is positioned between the right-angle cutter 14 and the cutting box 1, and when the next lead ingot 17 is cut, the excess material positioned between the right-angle cutter 14 and the cutting box 1 is extruded and discharged through the discharge hole 15. The manipulator lays the lead ingots 17 on the conveyor belt 16 flatly at the lowermost layer as the bottom, then, the manipulator pile up neatly the lead ingots 17 that do not have the grooving 18 on the bottom, pile up the lead ingots 17 after accomplishing the pile up neatly and tie up, then can transport lead ingot 17 after making fork arm of fork truck enter into the grooving 18.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides a lead ingot groover, including cutting case (1), both ends opening about cutting case (1), a serial communication port, inlet hole (2) have been seted up on cutting case (1) preceding lateral wall, cutting case (1) front end of inlet hole (2) below is provided with material feeding unit, conveyer belt (16) are installed to cutting case (1) left end, the upper end and cutting case (1) bottom plate upper end parallel and level of conveyer belt (16), all be fixed with right angle cutter (14) on the relative terminal surface of lateral wall around cutting case (1), right angle cutter (14) are located inlet hole (2) left side, feed opening (15) have all been seted up on the left cutting case (1) bottom plate of right angle cutter (14), be provided with thrust unit on cutting case (1) on inlet hole (2) right side, material feeding unit allows lead ingot (17) to be carried to cutting case (1) in through inlet hole (2), thrust unit allows to promote lead ingot (17) that are located cutting case (1) and move in the horizontal direction in cutting case (1).

2. A lead ingot grooving apparatus as claimed in claim 1, wherein the lower bore wall of the inlet bore (2) is flush with the upper end of the bottom plate of the cutting box (1).

3. The lead ingot grooving device according to claim 1, wherein the feeding device comprises a supporting plate (3) fixed to the front end of the cutting box (1), the upper end of the supporting plate (3) is flush with the lower hole wall of the inlet hole (2), a longitudinal baffle (6) is fixed to the upper end of the supporting plate (3) on the right side of the inlet hole (2), the left end of the baffle (6) is flush with the right hole wall of the inlet hole (2), a side pushing device is arranged on the supporting plate (3) on the left side of the baffle (6), and a longitudinal pushing device corresponding to the inlet hole (2) is arranged on the supporting plate (3) on the left side of the baffle (6).

4. The lead ingot grooving device according to claim 1, wherein the pushing device comprises a third push plate (9), the third push plate (9) is in sliding contact with the inner wall of the cutting box (1), a rectangular groove is formed in the left end of the third push plate (9), a fourth push plate (10) is installed in the rectangular groove, the fourth push plate (10) corresponds to a space between the two right-angle cutters (14), the left end of the fourth push plate (10) is flush with the left end of the third push plate (9), a plurality of transverse fourth telescopic cylinders (11) are fixed on the third push plate (9), telescopic rods of the fourth telescopic cylinders (11) are fixedly connected with the fourth push plate (10), a support plate (12) is fixed at the right end of the cutting box (1), a transverse third telescopic cylinder (13) is fixed on the support plate (12), and telescopic rods of the third telescopic cylinders (13) are fixedly connected with the third push plate (9).

5. The lead ingot grooving device according to claim 3, wherein the lateral pushing device comprises a first telescopic cylinder (5) fixed to the upper end of the supporting plate (3), the first telescopic cylinder (5) is transversely arranged, a first push plate (4) is fixed to a telescopic rod of the first telescopic cylinder (5), the first push plate (4) is parallel to the baffle (6), the longitudinal pushing device comprises a second telescopic cylinder (7) fixed to the supporting plate (3), the second telescopic cylinder (7) is longitudinally arranged, a second push plate (8) is fixed to a telescopic rod of the second telescopic cylinder (7), and the second push plate (8) is perpendicular to the baffle (6).

Images