CN205166346U - Stifled seat equipment of semi -automatic welding pipe end - Google Patents

Abstract

Stifled seat equipment of semi -automatic welding pipe end relates to the metal machining field of not having the cutting. Constitute by workstation, movable mould system, cover half system and atmospheric pressure power and electromagnetic induction control system, movable mould system and cover half system pass through the track to be fixed at the workstation both ends, and movable mould system and cover half system be located the same straight line of same horizontal plane, and movable mould system and cover half system can follow pathway movement, atmospheric pressure power and electromagnetic induction control system are located the workstation side, with movable mould system and cover half headtotail. The beneficial effects of the utility model are that: the utility model discloses simple structure, semi -automatization control, it is easy and simple to handle.

Description

Semiautomatic welding pipe end block mounting equipment

Technical field

The utility model relates to the metal machining field without cutting, and specifically belongs to the assembling process equipment of pipe end block.

Background technology

When producing bridging type stoving rack (or radiator) product, for guaranteeing the sealing of stoving rack (or radiator) product, need, in the sealing of each pipe end welding block, first block to be arranged in each pipe end before welding.At present, conventional dress block mode manually knocks in pipe by block, and its shortcoming is that labour intensity is large, efficiency is low, and block end face equal with end surfaces (or parallel) during people's frock block, cannot be ensured, affect product quality, and special-shaped caliber cuts the rear mouth of pipe has distortion to cause block to mate.

Summary of the invention

The purpose of this utility model is for described defect above, provides a kind of semiautomatic welding pipe end block mounting equipment that can automatically block be loaded in difformity tubing.

The purpose of this utility model is achieved by the following technical programs.

Semiautomatic welding pipe end block mounting equipment, it is characterized in that, be made up of workbench, moving die system, cover half system and Pneumatic pressure power and electromagnetic induction control system, described moving die system and cover half system are fixed on workbench two ends by track, and moving die system and cover half system are positioned on the same straight line of same level, moving die system and cover half system track-movable, described Pneumatic pressure power and electromagnetic induction control system are positioned at workbench side, are connected with moving die system and cover half system, described moving die system is by dynamic model frame, dynamic model cylinder, dynamic model block fixed block, dynamic model compression cylinder, dynamic model top die, dynamic model die shoe is formed, described dynamic model frame is arranged on workbench one end, dynamic model cylinder is fixedly mounted on outside dynamic model frame, described dynamic model block fixed block is connected with dynamic model cylinder, described dynamic model die shoe is fixedly mounted on inside dynamic model frame, dynamic model top die is positioned at above dynamic model die shoe, described dynamic model die shoe is provided with the concave surface corresponding with tube end face with between dynamic model top die, dynamic model block fixed block is corresponding with this concave surface, described dynamic model top die connects dynamic model compression cylinder, dynamic model compression cylinder is connected with Pneumatic pressure power and electromagnetic induction control system respectively with dynamic model cylinder, described cover half system is by cover half frame, cover half cylinder, cover half block fixed block, cover half compression cylinder, cover half top die, cover half die shoe is formed, described cover half frame is arranged on the workbench other end, cover half cylinder is fixedly mounted on outside cover half frame, described cover half block fixed block is connected with cover half cylinder, described cover half die shoe is fixedly mounted on inside cover half frame, cover half top die is positioned at above cover half die shoe, described cover half die shoe is provided with the concave surface corresponding with tube end face with between cover half top die, cover half block fixed block is corresponding with this concave surface, described cover half top die connects cover half compression cylinder, cover half compression cylinder is connected with Pneumatic pressure power and electromagnetic induction control system respectively with cover half cylinder.

Described cover half block fixed block and dynamic model block fixed block are made up of die holder, core rod, stroke locating piece, spring, guide post, die holder, core rod are arranged in stroke locating piece successively, spring fitting is between die holder and stroke locating piece, parallel with core rod, outside stroke locating piece, guide post is installed, guide effect when moving for stroke locating piece.

Operation principle of the present utility model is: start power supply, inspection machine oil circuit and control system, according to the specification adjustment moving die system of tubing to be processed and the distance of cover half system, makes it the instructions for use meeting tubing to be processed.

Get a tubing to be processed, use cloth to wipe with except after surface debris, be placed on dynamic model die shoe and cover half die shoe, get two special blocks of tubing and put into dynamic model block fixed block and cover half block fixed block front end shape chamber, by start button, dynamic model compression cylinder and cover half compression cylinder promote dynamic model top die and cover half top die presses down, there is shaping and be fixed effect, after tubing is fixing, dynamic model cylinder and cover half cylinder promote dynamic model block fixed block and the horizontal progressive die motion of cover half block fixed block, after tubing pipe end is withstood in the die holder front end in dynamic model block fixed block and cover half block fixed block, dynamic model cylinder and cover half cylinder continue progressive die, promote core rod in the block press-in tubing in shape chamber, compression distance regulates by stroke locating piece.

After dynamic model block fixed block and cover half block fixed block are pressed into tubing block, dynamic model cylinder and cover half cylinder move back mould, spring-return, the relative die holder of core rod is retreated, vacates shape chamber, dynamic model compression cylinder and cover half compression cylinder retreat, on carry dynamic model top die and cover half top die, after all module recoverys to original state, take out the product processed, just can complete the manufacturing procedure of whole product.

Separately get a tubing to be processed, use cloth to wipe with except after surface debris, be placed on dynamic model die shoe and cover half die shoe, repeat aforesaid operations.

The beneficial effects of the utility model are: the utility model utilizes hydraulic power and electromagnetic induction control system, block is automatically loaded in difform tubing, change Traditional Man assembling mode, tubing two ends block is assembled simultaneously, reduces labour intensity, improve production efficiency, fixing after utilizing upper and lower mould shaping, guarantee that nozzle sizes conforms to block identical, and due to oriented parallel motion, guarantee that block end face overlaps (or parallel) with pipe business face, ensure that welding quality.The utility model structure is simple, semi-automatic control, easy and simple to handle.

Accompanying drawing explanation

Fig. 1 is the utility model overall structure schematic diagram.

Fig. 2 is the left TV structure schematic diagram of the utility model.

Fig. 3 is the utility model plan structure schematic diagram.

In figure, 1 workbench, 2 dynamic model framves, 3 dynamic model cylinders, 4 dynamic model block fixed blocks, 5 dynamic model compression cylinders, 6 dynamic model top dies, 7 dynamic model die shoes, 8 cover half die shoes, 9 cover half top dies, 10 cover half compression cylinders, 11 cover half block fixed blocks, 12 cover half cylinders, 13 cover half framves, 14 Pneumatic pressure powers and electromagnetic induction control system, a die holder, b core rod, c stroke locating piece, d spring, e guide post.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described further.

embodiment 1.

Semiautomatic welding pipe end block mounting equipment, be made up of workbench 1, moving die system, cover half system and Pneumatic pressure power and electromagnetic induction control system 14, described moving die system and cover half system are fixed on workbench 1 two ends by track, and moving die system and cover half system are positioned on the same straight line of same level, moving die system and cover half system track-movable, described Pneumatic pressure power and electromagnetic induction control system 14 are positioned at workbench 1 side, are connected with moving die system and cover half system, described moving die system is by dynamic model frame 2, dynamic model cylinder 3, dynamic model block fixed block 4, dynamic model compression cylinder 5, dynamic model top die 6, dynamic model die shoe 7 is formed, described dynamic model frame 2 is arranged on workbench 1 one end, dynamic model cylinder 3 is fixedly mounted on outside dynamic model frame 2, described dynamic model block fixed block 4 is connected with dynamic model cylinder 3, described dynamic model die shoe 7 is fixedly mounted on inside dynamic model frame 2, dynamic model top die 6 is positioned at above dynamic model die shoe 7, described dynamic model die shoe 7 is provided with the concave surface corresponding with tube end face with between dynamic model top die 6, dynamic model block fixed block 4 is corresponding with this concave surface, described dynamic model top die 6 connects dynamic model compression cylinder 5, dynamic model compression cylinder 5 is connected with Pneumatic pressure power and electromagnetic induction control system 14 respectively with dynamic model cylinder 3, described cover half system is by cover half frame 13, cover half cylinder 12, cover half block fixed block 11, cover half compression cylinder 10, cover half top die 9, cover half die shoe 8 is formed, described cover half frame 13 is arranged on workbench 1 other end, cover half cylinder 12 is fixedly mounted on outside cover half frame 13, described cover half block fixed block 11 is connected with cover half cylinder 12, described cover half die shoe 8 is fixedly mounted on inside cover half frame 13, cover half top die 9 is positioned at above cover half die shoe 8, described cover half die shoe 8 is provided with the concave surface corresponding with tube end face with between cover half top die 9, cover half block fixed block 11 is corresponding with this concave surface, described cover half top die 9 connects cover half compression cylinder 10, cover half compression cylinder 10 is connected with Pneumatic pressure power and electromagnetic induction control system 14 respectively with cover half cylinder 12.

Described cover half block fixed block 11 and dynamic model block fixed block 4 are made up of die holder a, core rod b, stroke locating piece c, spring d, guide post e, die holder a, core rod b are arranged in stroke locating piece c successively, spring d is arranged between die holder a and stroke locating piece c, parallel with core rod b, outside stroke locating piece c, guide post e is installed, guide effect when moving for stroke locating piece c.

Start power supply, inspection machine oil circuit and control system, according to the specification adjustment moving die system of tubing to be processed and the distance of cover half system, make it the instructions for use meeting tubing to be processed.

Get a tubing to be processed, use cloth to wipe with except after surface debris, be placed in dynamic model die shoe 7 with on cover half die shoe 8, get two special blocks of tubing and put into dynamic model block fixed block 4 and shape chamber, cover half block fixed block 11 front end, by start button, dynamic model compression cylinder 5 and cover half compression cylinder 10 promote dynamic model top die 6 and cover half top die 9 presses down, there is shaping and be fixed effect, after tubing is fixing, dynamic model cylinder 3 and cover half cylinder 12 promote dynamic model block fixed block 4 and the horizontal progressive die motion of cover half block fixed block 11, after tubing pipe end is withstood in the die holder front end in dynamic model block fixed block 4 and cover half block fixed block 11, dynamic model cylinder 3 and cover half cylinder 12 continue progressive die, promote core rod b in the block press-in tubing in shape chamber, compression distance regulates by stroke locating piece c.

After dynamic model block fixed block 4 and cover half block fixed block 11 are pressed into tubing block, dynamic model cylinder 3 and cover half cylinder 12 move back mould, spring d replys, the relative die holder a of core rod b is retreated, and vacate shape chamber, dynamic model compression cylinder 5 and cover half compression cylinder 10 retreat, on carry dynamic model top die 6 and cover half top die 9, after all module recoverys to original state, take out the product processed, just can complete the manufacturing procedure of whole product.

Separately get a tubing to be processed, use cloth to wipe with except after surface debris, be placed in dynamic model die shoe 7 with on cover half die shoe 8, repeat aforesaid operations.

Claims (2)

1. semiautomatic welding pipe end block mounting equipment, it is characterized in that: be made up of workbench (1), moving die system, cover half system and Pneumatic pressure power and electromagnetic induction control system (14), described moving die system and cover half system are fixed on workbench (1) two ends by track, and moving die system and cover half system are positioned on the same straight line of same level, moving die system and cover half system track-movable, described Pneumatic pressure power and electromagnetic induction control system (14) are positioned at workbench (1) side, are connected with moving die system and cover half system, described moving die system is by dynamic model frame (2), dynamic model cylinder (3), dynamic model block fixed block (4), dynamic model compression cylinder (5), dynamic model top die (6), dynamic model die shoe (7) is formed, described dynamic model frame (2) is arranged on workbench (1) one end, dynamic model cylinder (3) is fixedly mounted on dynamic model frame (2) outside, described dynamic model block fixed block (4) is connected with dynamic model cylinder (3), described dynamic model die shoe (7) is fixedly mounted on dynamic model frame (2) inner side, dynamic model top die (6) is positioned at dynamic model die shoe (7) top, described dynamic model die shoe (7) is provided with the concave surface corresponding with tube end face with between dynamic model top die (6), dynamic model block fixed block (4) is corresponding with this concave surface, described dynamic model top die (6) connects dynamic model compression cylinder (5), dynamic model compression cylinder (5) is connected with Pneumatic pressure power and electromagnetic induction control system (14) respectively with dynamic model cylinder (3), described cover half system is by cover half frame (13), cover half cylinder (12), cover half block fixed block (11), cover half compression cylinder (10), cover half top die (9), cover half die shoe (8) is formed, described cover half frame (13) is arranged on workbench (1) other end, cover half cylinder (12) is fixedly mounted on cover half frame (13) outside, described cover half block fixed block (11) is connected with cover half cylinder (12), described cover half die shoe (8) is fixedly mounted on cover half frame (13) inner side, cover half top die (9) is positioned at cover half die shoe (8) top, described cover half die shoe (8) is provided with the concave surface corresponding with tube end face with between cover half top die (9), cover half block fixed block (11) is corresponding with this concave surface, described cover half top die (9) connects cover half compression cylinder (10), cover half compression cylinder (10) is connected with Pneumatic pressure power and electromagnetic induction control system (14) respectively with cover half cylinder (12).

2. semiautomatic welding pipe end block mounting equipment according to claim 1, it is characterized in that: cover half block fixed block (11) and dynamic model block fixed block (4) are by die holder (a), core rod (b), stroke locating piece (c), spring (d), guide post (e) is formed, die holder (a), core rod (b) is arranged in stroke locating piece (c) successively, spring (d) is arranged between die holder (a) and stroke locating piece (c), parallel with core rod (b), outside stroke locating piece (c), guide post (e) is installed, guide effect time mobile for stroke locating piece (c).