CN210547816U - Sword processing is with forging equipment - Google Patents

Abstract

The utility model provides a sword processing is with forging equipment, including the base, carry the material box, the motor, first gear, the support, moving mechanism, the inlet pipe, roll the mechanism, receiving mechanism, electric control cabinet and pneumatic control cabinet, the utility model discloses moving mechanism, the setting of roll mechanism and receiving mechanism, the first jack catch will be heated blank centre gripping, send the blank to moving mechanism, adopt mechanical equipment to shift the blank that heats, when avoiding operating personnel to shift the blank, appear scalding operating personnel's danger, moving mechanism will heat the blank centre gripping, the cylinder moves laterally on the pillar, will heat the blank and send to different stations, rotate through the second rotary disk, guarantee the blank evenly forges, the motor drives the roller and rotates, roll the heated blank, change the number of times of forging to the heated blank through changing different axle bush, make the heated blank take shape through rolling, the section beating operation is carried out by adopting the rolling mechanism, a large amount of labor force and time are saved, and the forging efficiency is improved.

Description

Sword processing is with forging equipment

Technical Field

The utility model belongs to the technical field of the sword processing is with forging, especially, relate to a sword processing is with forging equipment.

Background

According to the existing forging equipment, heated blanks are manually transferred to the forging equipment, operators turn the blanks, the labor intensity and the danger of the operators are increased invisibly, and the forging equipment for processing the sword is urgently needed to be developed to solve the problems and facilitate market popularization and application.

The prior art lacks treasured sword processing and uses forging equipment, adopts operating personnel to shift by the heating blank, has scald operating personnel's danger, adopts upset personnel to overturn by the heating blank, forges the inhomogeneous effect of production to the blank, and operating personnel forges the blank and beats the shaping, reduces work efficiency's problem.

Therefore, the invention of the forging equipment for processing the sword is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a sword processing is with forging equipment to solve prior art and lack sword processing with forging equipment, adopt operating personnel to shift by the heating blank, there is scald operating personnel's danger, adopt upset personnel to overturn by the heating blank, forge the inhomogeneous effect of production to the blank, operating personnel forges the shaping to the blank, reduces work efficiency's problem. A forging device for processing a sword comprises a base, a material carrying box, a motor, a first gear, a bracket, a moving mechanism, a feeding pipe, a rolling mechanism, a material receiving mechanism, an electric control cabinet and a pneumatic control cabinet, wherein the material carrying box is arranged in the middle position above the base; the motor is fixed in the middle position in front of the base through a bolt; the first gear is fixedly connected with an output shaft of the motor through a key; the bracket is welded on the left side above the base, a slide way is arranged above the bracket, and a lead screw is arranged above the bracket; the moving mechanism is matched with a lead screw above the bracket; the rolling mechanism is welded in the middle position above the base and is arranged on the right side of the bracket; the feeding pipe is fixed above the rolling mechanism through a bolt; the material receiving mechanism is fixed above the base through a bolt and is arranged on the right side of the rolling mechanism; the pneumatic control cabinet is fixed at the right end above the base through a bolt; the electric control cabinet is fixed above the pneumatic control cabinet through bolts.

The moving mechanism comprises an air cylinder, a second rotating disk and a second clamping jaw, a sliding strip is arranged below the air cylinder, is connected with a support slide way in a sliding mode, is connected with an air control cabinet through an air pipe, and is made of MAL25 type; the second rotating disc is welded at the right end of the output rod of the air cylinder, is connected with the electric control cabinet through a wire and is of an HSD-140DT type; the second clamping jaw is fixed at the right end of the second rotating disk through a bolt.

The rolling mechanism comprises a rolling support, a first roller, a second roller, a bearing bush, a second gear, an idler wheel and a third gear, wherein the first roller is fixed below the inside of the rolling support through a bearing; the second roller is fixed above the inside of the rolling bracket through a bearing and is above the first roller; the two bearing bushes are fixed on the cylinder surfaces of the first roller and the second roller through bolts respectively; the second gear is fixedly connected with the right end of the second roller through a key; the idler wheel is fixed at the middle position of the left side of the rolling support through a bearing and is meshed with the second gear; and the third gear is fixed at the right end of the first roller through key connection and is meshed with the idle gear and the first gear.

The material receiving mechanism comprises a material receiving support, a material receiving cylinder, a polished rod, a fixed seat, a first rotating disk and a first jaw, the material receiving cylinder is fixed at the right end above the material receiving support through a bolt and is connected with the pneumatic control cabinet through an air pipe, and the material receiving mechanism is in an MAL25 type; two polished rods are adopted and fixed in front of the material receiving bracket through bolts; the fixed seat is arranged on the polished rod and is movably connected with the polished rod; the first rotating disc is fixed in front of the fixed seat through a bolt and is connected with an electric control cabinet through a lead, and an HSD-140DT type is selected; the first clamping jaw is fixed in front of the first rotating disc through a bolt.

The motor is connected with the electric control cabinet through a wire, and a KLIDA type is selected to provide power for the rolling mechanism; the pneumatic control cabinet is connected with the electric control cabinet through a lead; the material loading box is movably connected with the base and is used for bearing a blank to be processed.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses a receiving mechanism's setting connects the material push rod shrink, and the fixing base moves right, and first rotary disk rotates, and a feeding section of thick bamboo is aimed at to first jack catch, and the blank that is heated passes through a feeding section of thick bamboo and first jack catch contact, and the blank centre gripping of heating is got back to first jack catch, and primary position is got back to first rotary disk, connects the material push rod to stretch out, promotes the fixing base and removes left, sends the blank to moving mechanism, adopts mechanical equipment to shift the blank of heating, when avoiding operating personnel to shift the blank, appears scalding operating personnel's danger.

2. The utility model discloses a moving mechanism's setting, moving mechanism are with the blank centre gripping of heating, and the cylinder is lateral shifting on the pillar, and the blank that will be heated is sent to different stations, rotates through the second rotary disk, drives and is heated the blank and rotate, makes the blank obtain effectual upset, guarantees that the blank evenly forges.

3. The utility model discloses a setting of rolling mechanism, motor drive roller rotate, make the axle bush rotate thereupon, to being rolled by the heating blank, change the number of times of forging to being heated the blank through changing different axle bushes, through rolling the messenger by the heating blank shaping, adopt rolling mechanism to carry out the section and beat the operation, save a large amount of labours and time, and improve and forge efficiency.

Drawings

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

Fig. 2 is a schematic structural diagram of the rolling mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the moving mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the receiving mechanism of the present invention.

In the figure:

1-base, 2-material loading box, 3-motor, 4-first gear, 5-bracket, 6-moving mechanism, 61-push rod, 62-second rotating disk, 63-second jaw, 7-material feeding pipe, 8-rolling mechanism, 81-rolling bracket, 82-first roller, 83-second roller, 84-bearing bush, 85-second gear, 86-idler wheel, 87-third gear, 9-material receiving mechanism, 91-material receiving bracket, 92-material receiving push rod, 93-polished rod, 94-fixed seat, 95-first rotating disk, 96-first jaw, 10-electric control cabinet and 11-air control cabinet.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 4

The utility model provides a forging device for processing a sword, which comprises a base 1, a material carrying box 2, a motor 3, a first gear 4, a bracket 5, a moving mechanism 6, a feeding pipe 7, a rolling mechanism 8, a material receiving mechanism 9, an electric control cabinet 10 and a pneumatic control cabinet 11, wherein the material carrying box 2 is arranged at the middle position above the base 1; the motor 3 is fixed in the middle of the front of the base 1 through a bolt; the first gear 4 is fixedly connected with an output shaft of the motor 3 through a key; the bracket 5 is welded on the left side above the base 1, a slideway is arranged above the bracket, and a screw rod is arranged above the bracket; the moving mechanism 6 is matched with a lead screw above the bracket 5; the rolling mechanism 8 is welded in the middle position above the base 1 and is arranged on the right side of the bracket 5; the feeding pipe 7 is fixed above the rolling mechanism 8 through a bolt; the material receiving mechanism 9 is fixed above the base 1 through bolts and is arranged on the right side of the rolling mechanism 8; the pneumatic control cabinet 11 is fixed at the right end above the base 1 through bolts; the electric control cabinet 10 is fixed above the pneumatic control cabinet 11 through bolts.

The moving mechanism 6 comprises an air cylinder 61, a second rotating disc 62 and a second claw 63, a slide bar is arranged below the air cylinder 61, is in sliding connection with a slide way of the bracket 5, is connected with the pneumatic control cabinet 11 through an air pipe, and is in an MAL25 type; the second rotating disc 62 is welded at the right end of an output rod of the air cylinder 61 and is connected with the electric control cabinet 10 through a wire, and the HSD-140DT type is selected; the second jaw 63 is fixed to the right end of the second rotating disk 62 by a bolt.

The rolling mechanism 8 comprises a rolling bracket 81, a first roller 82, a second roller 83, a bearing bush 84, a second gear 85, an idler gear 86 and a third gear 87, wherein the first roller 82 is fixed below the inside of the rolling bracket 81 through a bearing; the second roller 83 is fixed above the inside of the rolling support 81 through a bearing and above the first roller 82; two bearing bushes 84 are fixed on the cylinder surfaces of the first roller 82 and the second roller 83 through bolts; the second gear 85 is fixedly connected with the right end of the second roller 83 through a key; the idle gear 86 is fixed at the middle position of the left side of the rolling bracket 81 through a bearing and is meshed with the second gear 85; the third gear 87 is fixed to the right end of the first roller 82 by a key connection and meshes with the idle gear 86 and the first gear 4.

The material receiving mechanism 9 comprises a material receiving bracket 91, a material receiving cylinder 92, a polished rod 93, a fixed seat 94, a first rotating disk 95 and a first claw 96, wherein the material receiving cylinder 92 is fixed at the right end above the material receiving bracket 91 through a bolt, is connected with the pneumatic control cabinet 11 through an air pipe and is of an MAL25 type; two polished rods 93 are adopted and fixed in front of the material receiving bracket 91 through bolts; the fixed seat 94 is arranged on the polish rod 93 and is movably connected with the polish rod 93; the first rotating disc 95 is fixed in front of the fixed seat 94 through bolts, is connected with the electric control cabinet 10 through a lead, and is made of HSD-140DT type; the first claw 96 is fixed to the front of the first rotating disk 95 by a bolt.

The motor 3 is connected with an electric control cabinet 10 through a wire, and a KLIDA type is selected to provide power for the rolling mechanism 8; the pneumatic control cabinet 11 is connected with the electric control cabinet 10 through a lead; the material loading box 2 is movably connected with the base 1 and is used for loading a processed blank.

Principle of operation

In the utility model, the material receiving push rod 92 contracts, the fixing seat 94 moves rightwards, the first rotary disk 95 rotates, the first jaw 96 is aligned with the feeding cylinder 7, the heated blank is contacted with the first jaw 96 through the feeding cylinder 7, the first jaw 96 clamps the heated blank, the first rotary disk 95 returns to the original position, the material receiving push rod 92 extends out, the fixing seat 94 is pushed leftwards to move, the blank is sent to the moving mechanism 6, mechanical equipment is adopted to transfer the heated blank, the danger of scalding the operator when the operator transfers the blank is avoided, the moving mechanism 6 clamps the heated blank, the push rod 61 transversely moves on the support post 5, the heated blank is sent to different stations, the heated blank is driven to rotate through the second rotary disk 62, the blank is effectively overturned, the blank is guaranteed to be evenly forged and beaten, the motor 3 drives the roller to rotate, the bearing bush 83 rotates along with the blank, roll by the heating blank, change the number of times to being rolled by the heating blank through changing different axle bush 83, through rolling the messenger and being heated the blank shaping, adopt rolling mechanism 8 to carry out the section and beat the operation, save a large amount of labours and time, and improve and forge efficiency.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (5)

1. The utility model provides a sword processing is with forging equipment which characterized in that: the automatic feeding device comprises a base (1), a material loading box (2), a motor (3), a first gear (4), a support (5), a moving mechanism (6), a feeding pipe (7), a rolling mechanism (8), a material receiving mechanism (9), an electric control cabinet (10) and a pneumatic control cabinet (11), wherein the material loading box (2) is arranged in the middle position above the base (1); the motor (3) is fixed in the middle position in front of the base (1) through a bolt; the first gear (4) is fixedly connected with an output shaft of the motor (3) through a key; the bracket (5) is welded on the left side above the base (1), a slideway is arranged above the bracket, and a lead screw is arranged above the bracket; the moving mechanism (6) is matched with a lead screw above the bracket (5); the rolling mechanism (8) is welded in the middle position above the base (1) and is arranged on the right side of the bracket (5); the feeding pipe (7) is fixed above the rolling mechanism (8) through a bolt; the material receiving mechanism (9) is fixed above the base (1) through bolts and is arranged on the right side of the rolling mechanism (8); the pneumatic control cabinet (11) is fixed at the right end above the base (1) through bolts; the electric control cabinet (10) is fixed above the pneumatic control cabinet (11) through bolts.

2. The forging apparatus for saber processing as recited in claim 1, wherein: the moving mechanism (6) comprises an air cylinder (61), a second rotating disc (62) and a second clamping jaw (63), a sliding strip is arranged below the air cylinder (61), is in sliding connection with a support (5) slide way, is connected with the pneumatic control cabinet (11) through an air pipe, and is of an MAL25 type; the second rotating disc (62) is welded at the right end of an output rod of the air cylinder (61), is connected with the electric control cabinet (10) through a wire and is in HSD-140DT type; the second claw (63) is fixed at the right end of the second rotating disk (62) through a bolt.

3. The forging apparatus for saber processing as recited in claim 1, wherein: the rolling mechanism (8) comprises a rolling bracket (81), a first roller (82), a second roller (83), a bearing bush (84), a second gear (85), an idler gear (86) and a third gear (87), wherein the first roller (82) is fixed below the inside of the rolling bracket (81) through a bearing; the second roller (83) is fixed above the inside of the rolling support (81) through a bearing and is above the first roller (82); two bearing bushes (84) are fixed on the cylinder surfaces of the first roller (82) and the second roller (83) through bolts respectively; the second gear (85) is fixedly connected with the right end of the second roller (83) through a key; the idle gear (86) is fixed at the middle position of the left side of the rolling support (81) through a bearing and is meshed with the second gear (85); the third gear (87) is fixed at the right end of the first roller (82) through key connection and is meshed with the idle gear (86) and the first gear (4).

4. The forging apparatus for saber processing as recited in claim 1, wherein: the material receiving mechanism (9) comprises a material receiving support (91), a material receiving cylinder (92), a polished rod (93), a fixed seat (94), a first rotating disk (95) and a first claw (96), wherein the material receiving cylinder (92) is fixed at the right end above the material receiving support (91) through a bolt, is connected with the pneumatic control cabinet (11) through an air pipe and is of an MAL25 type; two polished rods (93) are adopted and fixed in front of the material receiving bracket (91) through bolts; the fixed seat (94) is arranged on the polish rod (93) and is movably connected with the polish rod (93); the first rotating disc (95) is fixed in front of the fixed seat (94) through bolts and is connected with the electric control cabinet (10) through a lead, and the HSD-140DT type is selected; the first claw (96) is fixed in front of the first rotating disk (95) by a bolt.

5. The forging apparatus for saber processing as recited in claim 1, wherein: the motor (3) is connected with the electric control cabinet (10) through a wire, and a KLIDA type is selected; the pneumatic control cabinet (11) is connected with the electric control cabinet (10) through a lead; the material carrying box (2) is movably connected with the base (1).

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