CN216656214U - Bolt forging and pressing system - Google Patents

Abstract

The utility model belongs to the technical field of bolt machining, and particularly relates to a bolt forging and pressing system which comprises a first conveying line, forging and pressing equipment and a second conveying line which are sequentially arranged, wherein a material placing area and a product temporary storage area are arranged between a feeding end of the first conveying line and a discharging end of the second conveying line; the clamp mechanism can move towards the material placing area and the product temporary storage area and can linearly reciprocate along the direction from the feeding end of the first conveying line to the discharging end of the second conveying line; according to the utility model, the material loading and product unloading operation can be completed through one clamp mechanism, the system complexity is reduced, the production cost is reduced, the stock conditions of the material placing area and the product temporary storage area can be observed more conveniently and more visually without using an operator, and the operation convenience is improved.

Description

Bolt forging and pressing system

Technical Field

The utility model belongs to the technical field of bolt machining, and particularly relates to a bolt forging and pressing system.

Background

At present, the whole volume of the automatic forging and pressing system of the large-sized bolt is large, the machining path is generally a linear path, the raw material placing area is arranged at one end of the system feeding, the product collecting area is arranged at one end of the system discharging, therefore, a mechanical clamping jaw is required to be arranged at one end of the feeding end and one end of the discharging end to perform feeding and discharging operations respectively, the cost is high, and an operator is difficult to monitor the conditions of the raw material placing area and the product collecting area simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bolt forging system which is low in system complexity and high in operation convenience.

The forging and pressing device comprises a first conveying line, forging and pressing equipment and a second conveying line which are sequentially arranged, wherein a material placing area and a product temporary storage area are arranged between a feeding end of the first conveying line and a discharging end of the second conveying line; the material storage device is characterized by further comprising a clamp mechanism, wherein the clamp mechanism can move towards the material storage area and the product temporary storage area, and can linearly reciprocate along the direction from the feeding end of the first conveying line to the discharging end of the second conveying line.

Furthermore, the conveying line I is provided with two baffle plates which are arranged along the length direction of the conveying line I, the two baffle plates are respectively arranged on two sides of the conveying line I, and the conveying belt of the conveying line I can move along the space between the two baffle plates.

Still further, the forging apparatus includes a heating device and a forging device which are arranged in this order.

Furthermore, the forging equipment further comprises a rust removing device, and the rust removing device is arranged between the heating device and the forging device.

Still further, still include the cooling water shower nozzle, the cooling water shower nozzle is towards transfer chain two settings, and the cooling water shower nozzle is connected with external cooling water system.

Furthermore, the forging and pressing device further comprises a manipulator which is used for transferring the materials on the first conveying line to the forging and pressing equipment and transferring the formed products to the second conveying line.

Furthermore, a plurality of supporting pieces are arranged on the conveying belt of the second conveying line and are arranged at equal intervals along the length direction of the conveying belt.

Furthermore, the supporting piece is a plate, and a bracket is arranged at the top of the plate.

Still further, still include the cross and move the module, fixture mechanism sets up on the removal end of cross removal module.

Furthermore, the clamp mechanism is a magnetic type clamp mechanism

The utility model has the advantages that a zigzag processing path is formed, material loading and product unloading operations can be completed through a clamp mechanism, the system complexity is reduced, the production cost is reduced, operators do not need to observe the stock conditions of the material placement area and the product temporary storage area more conveniently and more intuitively, and the operation convenience is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is an enlarged view of the utility model at A.

FIG. 3 is an enlarged view of the utility model at B.

In the figure, 1-conveyor line one; 2-a heating device; 3-a rust removal device; 4-forging and pressing device; 5-conveying line II; 51-a support; 511-bracket; 52-cooling water spray head; 6-a material placement area; 7-product buffer zone; 8-a cross moving module; 81-a clamp mechanism; 9-mechanical arm.

Detailed Description

As shown in fig. 1-3, the forging and pressing device comprises a first conveying line 1, a forging and pressing device and a second conveying line 5 which are arranged in sequence, wherein a feeding end of the first conveying line 1 and a discharging end of the second conveying line 5 are positioned on the same side, and the first conveying line 1 and the second conveying line 5 can be arranged in parallel. The conveying line further comprises a material placing area 6 and a product temporary storage area 7, as shown in fig. 1, the material placing area 6 and the product temporary storage area 7 are located between the feeding end of the first conveying line 1 and the discharging end of the second conveying line 5, the material placing area 6 and the product temporary storage area 7 are arranged in parallel, and specifically, the material placing area 6 and the product temporary storage area 7 are arranged between the feeding end of the first conveying line 1 and the discharging end of the second conveying line 5 and are sequentially arranged along the direction from the feeding end of the first conveying line 1 to the discharging end of the second conveying line 5. The utility model also comprises a clamp mechanism 81, wherein the clamp mechanism 81 can move towards the material placing area 6 and the product temporary storage area 7, and the clamp mechanism 81 can linearly reciprocate along the direction from the feeding end of the first conveying line 1 to the discharging end of the second conveying line 5. Preferably anchor clamps mechanism 81 is for inhaling formula anchor clamps mechanism, and bar-shaped material is difficult for the landing, and is more stable, reliable to the removal of bar-shaped material, and its magnetism inhales the concrete structure principle of centre gripping the same with prior art, and it is no longer repeated here.

According to the bolt forging and pressing system, the material placing area 6 and the product temporary storage area 7 are arranged between the feeding end of the first conveying line 1 and the discharging end of the second conveying line 5 in parallel, a zigzag machining path is formed, material feeding and product discharging operations can be completed through the clamp mechanism 81, the complexity of the system is reduced, the production cost is reduced, an operator does not need to observe the stock conditions of the material placing area 6 and the product temporary storage area 7 more conveniently and more intuitively, and the operation convenience is improved.

According to the conveying line I, the two baffle plates 11 are arranged on the conveying line I1, the two baffle plates 11 are arranged along the length direction of the conveying line I1, the two baffle plates 11 are respectively arranged on two sides of the conveying line I1, specifically, the two baffle plates 11 are respectively fixedly arranged on two sides of a machine body of the conveying line I, a conveying belt of the conveying line I1 can move along the two baffle plates 11, and the baffle plates 11 do not move with the conveying belt of the conveying line I1. Through set up baffle 11 in the both sides of transfer chain 1, play the effect that transversely stops to the bar-shaped material on the transfer chain 1, avoid bar-shaped material landing.

The forging and pressing are hot forging and pressing, and the forging and pressing equipment comprises a heating device 2 and a forging and pressing device 4 which are sequentially arranged. Heating the rod-shaped material before forging. Preferably, the forging equipment further comprises a rust removing device 3, and the rust removing device 3 is arranged between the heating device 2 and the forging device 4. After the material is heated, the surface of the material is derusted firstly, and then the material is forged, so that the surface quality of the product is improved. The positions of the heating device 2, the rust removing device 3 and the forging device 4 are shown in fig. 1.

The utility model also comprises a cooling water spray head 52 arranged on the bracket, the water spraying end of the cooling water spray head 52 is arranged towards the conveying line two 5, and the cooling water spray head 52 is connected with an external cooling water system. And a cooling water spray head 52 is arranged to spray water to cool the product on the second conveying line 5, and the cooling water spray head 2 is preferably arranged to be inclined towards the second conveying line 5. The number of the cooling water spray heads 2 is three, and the three cooling water spray heads 2 are arranged at intervals along the length direction of the second conveying line 5. So as to carry out multi-stage water cooling on the product and improve the cooling effect.

The utility model further comprises two manipulators 9, wherein one manipulator 9 is arranged among the heating device 2, the derusting device 3 and the first conveying line 1, and the manipulator 9 is used for moving the materials on the first conveying line 1 into the heating device 2 and then moving the heated materials into the derusting device 3. And the other manipulator 9 is arranged among the rust removing device 3, the forging device 4 and the second conveying line 5, and the manipulator 9 is used for moving the materials in the rust removing device 3 to the forging device 4 and then moving the forged products to the second conveying line 5.

And a plurality of supporting pieces 51 are arranged on the conveying belt of the second conveying line 5, and the plurality of supporting pieces 51 are arranged at equal intervals along the length direction of the conveying belt. When the manipulator 9 places a product on the second conveyor line 5, the stem of the product (bolt) is located on the support 15 and the head of the product is located between two supports 51. The product can be conveyed straightly and conveniently, and then the product can be clamped and moved by the clamp mechanism 81 conveniently. Preferably, the supporting piece 51 is a plate, a bracket 511 is arranged at the top of the plate, and the bracket 511 is V-shaped, so that the rod part of the product can be limited conveniently, and the product can be prevented from transversely shifting when moving on the second conveying line 5.

As shown in fig. 1, the present invention further includes a cross moving module 8, and the clamping mechanism 81 is disposed on the moving end of the cross moving module 8. The clamp mechanism 81 linearly reciprocates along the direction from the feeding end of the first conveying line 1 to the discharging end of the second conveying line 5 through the cross-shaped moving module 8 and moves up and down towards the material placing area 6 and the product temporary storage area 7.

Claims (10)

1. A bolt forging and pressing system is characterized by comprising a first conveying line (1), forging and pressing equipment and a second conveying line (5) which are sequentially arranged, wherein a material placing area (6) and a product temporary storage area (7) are arranged between a feeding end of the first conveying line (1) and a discharging end of the second conveying line (5); the material temporary storage device is characterized by further comprising a clamp mechanism (81), wherein the clamp mechanism (81) can move towards the material placement area (6) and the product temporary storage area (7), and the clamp mechanism (81) can linearly reciprocate along the direction from the feeding end of the first conveying line (1) to the discharging end of the second conveying line (5).

2. The bolt forging system according to claim 1, wherein the conveyor line one (1) is provided with two baffle plates (11), the two baffle plates (11) are arranged along the length direction of the conveyor line one (1), the two baffle plates (11) are respectively arranged on two sides of the conveyor line one (1), and the conveyor belt of the conveyor line one (1) can move between the two baffle plates (11).

3. A bolt forging system according to claim 1, wherein said forging apparatus comprises a heating means (2) and a forging means (4) arranged in series.

4. A bolt forging system according to claim 3, wherein the forging apparatus further comprises a rust removing device (3), the rust removing device (3) being provided between the heating device (2) and the forging device (4).

5. A bolt forging system as recited in claim 3, further comprising a cooling water jet (52), said cooling water jet (52) being disposed toward the feed line two (5), the cooling water jet (52) being connected to an external cooling water system.

6. A bolt forging system according to any one of claims 1 to 5, further including a robot (9) for transferring material from the first conveyor line (1) to the forging apparatus and transferring formed product to the second conveyor line (5).

7. A bolt forging system according to any one of claims 1-5, wherein said conveyor belt of said second conveyor line (5) is provided with a plurality of said bearings (51), said plurality of bearings (51) being equally spaced along the length of said conveyor belt.

8. A bolt forging system according to claim 7, wherein said support (51) is a plate having a bracket (511) formed in the top thereof.

9. A bolt forging system according to any one of claims 1 to 5 and 8, further comprising a cross moving module (8), wherein said clamp mechanism (81) is provided at a moving end of the cross moving module (8).

10. A bolt forging system as claimed in claim 9, wherein said clamp mechanism (81) is a magnetically attractable clamp mechanism (81).

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