CN209998590U

CN209998590U - welding equipment for tube fire extinguisher of pipeline manufacturing line

Info

Publication number: CN209998590U
Application number: CN201920233381.6U
Authority: CN
Inventors: 陆正柳
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-02-18
Filing date: 2019-02-18
Publication date: 2020-01-31
Anticipated expiration: 2029-02-18

Abstract

The utility model is suitable for a bottle welding field provides system pipeline barrel fire extinguisher welding equipment, which comprises a base, move and carry the mechanism, rotary mechanism, second rotary mechanism, the positioning mechanism, the second positioning mechanism, the third positioning mechanism, the fourth positioning mechanism, upper cover feed mechanism, low head feed mechanism, bottleneck feed mechanism, barrel feed mechanism, the welding mechanism, second welding mechanism and controller have improved location efficiency and accuracy, the cost of fire extinguisher bottle in production has been reduced, the quality of fire extinguisher bottle has still been improved.

Description

welding equipment for tube fire extinguisher of pipeline manufacturing line

Technical Field

The utility model relates to a bottle welding field, more specifically say, relate to system pipeline barrel fire extinguisher welding equipment.

Background

The fire extinguisher is a portable fire extinguishing tool, chemical substances are placed in the fire extinguisher to extinguish fire, the fire extinguisher is common fire-proof facilities and is stored in public places or places where fire is likely to happen, ingredients filled in different kinds of fire extinguishers are different from , most fire extinguishers generate high-pressure gas in the using process, and therefore the requirement on welding quality in the processing process of a fire extinguisher bottle body is very high.

The fire extinguisher need weld bottle and bottleneck at the in-process of production, form the cavity that is used for holding the filler, present common fire extinguisher bottle welding equipment need adopt artifical manual horizontal location's mode to the bottle, so that bottleneck and bottle welded purpose, not only the inefficiency of location, the accuracy is not high, still can lead to easy off tracking in the welding process, the cost of manufacturing has not only been increased to the mode of this kind of manual horizontal location, still reduced the quality of welding effect and fire extinguisher bottle.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to prior art's above-mentioned defect, provide system pipeline barrel fire extinguisher welding equipment.

The utility model provides a technical scheme that its technical problem adopted is:

welding equipment for constructing pipeline cylinder fire extinguishers comprises a base, a transfer mechanism, a rotating mechanism, a second rotating mechanism, a positioning mechanism, a second positioning mechanism, a third positioning mechanism, a fourth positioning mechanism, an upper end socket feeding mechanism, a lower end socket feeding mechanism, a bottle opening feeding mechanism, a cylinder feeding mechanism, a welding mechanism, a second welding mechanism and a controller;

the transfer mechanism is arranged on the base and positioned on the central line of the base;

the th rotating mechanism is arranged on the base and is positioned at the side of the transfer mechanism , the second rotating mechanism is arranged on the base and is positioned at the side of the transfer mechanism far away from the th rotating mechanism, and the second rotating mechanism and the th rotating mechanism are symmetrically distributed by taking the transfer mechanism as the center;

the th positioning mechanism is arranged on the base and is arranged in the upstream direction of the th rotating mechanism relative to the transferring mechanism, the second positioning mechanism is arranged on the base and is arranged in the upstream direction of the second rotating mechanism relative to the transferring mechanism, and the second positioning mechanism and the th positioning mechanism are symmetrically distributed by taking the transferring mechanism as the center;

the third positioning mechanism is arranged on the base in the upstream direction of the th positioning mechanism relative to the transfer mechanism, the fourth positioning mechanism is arranged on the base in the upstream direction of the second positioning mechanism relative to the transfer mechanism, and the third positioning mechanism and the fourth positioning mechanism are symmetrically distributed by taking the transfer mechanism as the center;

the upper end enclosure feeding mechanism is positioned in the upstream direction of the third positioning mechanism relative to the transfer mechanism and is arranged on the base, the lower end enclosure feeding mechanism is positioned in the upstream direction of the fourth positioning mechanism relative to the transfer mechanism and is arranged on the base, the bottle mouth feeding mechanism is arranged on the side, close to the third positioning mechanism , of the base, and the barrel feeding mechanism is positioned in the upstream position of the transfer mechanism relative to the movement direction of the transfer mechanism;

the th welding mechanism is arranged above the th rotating mechanism, and the second welding mechanism is arranged above the second rotating mechanism;

the controller is arranged on the side of the base ;

the transfer mechanism, the th rotating mechanism, the second rotating mechanism, the th positioning mechanism, the second positioning mechanism, the third positioning mechanism, the fourth positioning mechanism, the upper end enclosure feeding mechanism, the lower end enclosure feeding mechanism, the bottle opening feeding mechanism, the cylinder body feeding mechanism, the th welding mechanism and the second welding mechanism are electrically connected with the controller.

According to the scheme of , the moving mechanism comprises a linear moving module and a moving clamp, the linear moving module is arranged on the base, the linear moving module is electrically connected with the controller, and the moving clamp is arranged at the output end of the linear moving module.

According to the utility model, the -step feeding scheme is that the -th rotating mechanism comprises a cylinder, a connecting block, a rotating motor and a rotating main shaft, the -th cylinder is horizontally arranged on the base, the output end of the output end points to the second rotating mechanism, the connecting block is arranged at the output end of the cylinder, the rotating motor is fixed on the connecting block, the rotating motor is the same as the -th cylinder in output end direction, the rotating motor output end is connected with the rotating main shaft through a coupler, the rotating motor drives the rotating main shaft to rotate, the -th cylinder and the rotating motor are electrically connected with a controller, the second rotating mechanism comprises a second cylinder and a rotating driven shaft, the second cylinder is horizontally arranged, the output end of the output end points to the -th rotating mechanism, the rotating driven shaft is arranged.

As the utility model discloses a go into step scheme, positioning mechanism includes third cylinder and location axle, and the third cylinder level sets up and the directional second positioning mechanism of output, and the location axle passes through the bearing and installs the output at the third cylinder, and third cylinder electricity connection director, second positioning mechanism structure is the same with positioning mechanism structure, and third positioning mechanism structure is the same with positioning mechanism structure, and fourth positioning mechanism structure is the same with positioning mechanism structure.

According to the scheme of , the upper end cover feeding mechanism comprises an upper end cover vibration material disc, an upper end cover feeding three-coordinate system and an upper end cover feeding clamp, the upper end cover vibration material disc is arranged at the upstream position of the third positioning mechanism relative to the moving direction of the moving and carrying mechanism and is arranged on the base, the upper end cover feeding three-coordinate system is arranged on the base, the upper end cover feeding clamp realizes the movement during the material taking and feeding through the upper end cover feeding three-coordinate system, the lower end cover feeding mechanism is identical in structure with the upper end cover feeding mechanism, the bottleneck feeding mechanism is identical in structure with the upper end cover feeding mechanism, the barrel feeding mechanism comprises a barrel material rack and a barrel ejection assembly, the barrel is arranged on the base and is located at the upstream position of the moving and carrying mechanism relative to the moving and carrying mechanism, the barrel material rack is arranged in an inclined mode, and the ejection assembly is vertically arranged on the base.

According to the scheme of , the welding mechanism comprises two welding guns and a fixed support, the welding guns are arranged on the side, away from the base, of the rotating main shaft through the fixed support, the fixed support is arranged on the downstream, away from the base, of the rotating mechanism relative to the moving direction of the transfer mechanism and is arranged on the base, the welding guns are electrically connected with the controller, the second welding mechanism comprises welding guns and a fixed support, the welding guns are arranged on the side, away from the base, of the rotating main shaft through the fixed support, the fixed support is arranged on the downstream, relative to the moving direction of the transfer mechanism, of the second rotating mechanism and is arranged on the base, and the.

The beneficial effects of the utility model reside in that because the utility model discloses a machine replaces the workman to accomplish material loading, location, clamping, welding machine body, has improved location efficiency and accuracy, has reduced the cost of fire extinguisher bottle in production, has still improved the quality of fire extinguisher bottle.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts:

FIG. 1 is a front view of an pipe-making barrel fire extinguisher welding apparatus;

fig. 2 is a top view of pipeline barrel fire extinguisher welding equipment.

In the drawing, the device comprises a base 1, a transfer mechanism 2, a rotating mechanism 3 to , a second rotating mechanism 4, a positioning mechanism 5 to , a second positioning mechanism 6, a third positioning mechanism 7, a fourth positioning mechanism 8, an upper sealing head feeding mechanism 9, a lower sealing head feeding mechanism 10, a bottle opening feeding mechanism 11, a cylinder feeding mechanism 12, a welding mechanism 13 to , a second welding mechanism 14 and a controller 15.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, a clear and complete description will be given below with reference to the technical solutions of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, belong to the scope of protection of the present invention.

As shown in fig. 1-2, the welding equipment for the pipeline cylinder fire extinguisher comprises a base 1, a transfer mechanism 2, a rotating mechanism 3, a second rotating mechanism 4, a positioning mechanism 5, a second positioning mechanism 6, a third positioning mechanism 7, a fourth positioning mechanism 8, an upper sealing head feeding mechanism 9, a lower sealing head feeding mechanism 10, a bottle mouth feeding mechanism 11, a cylinder feeding mechanism 12, a welding mechanism 13, a second welding mechanism 14 and a controller 15;

the transfer mechanism 2 is arranged on the base 1 and is positioned on the central line of the base 1;

the th rotating mechanism 3 is arranged on the base 1 and is positioned at the side of the transfer mechanism 2 , the second rotating mechanism 4 is arranged on the base 1 and is positioned at the side of the transfer mechanism 2 far away from the th rotating mechanism 3, and the second rotating mechanism 4 and the th rotating mechanism 3 are symmetrically distributed by taking the transfer mechanism 2 as the center;

the th positioning mechanism 5 is arranged on the base 1 in the upstream direction of the th rotating mechanism 3 relative to the transfer mechanism 2, the second positioning mechanism 6 is arranged on the base 1 in the upstream direction of the second rotating mechanism 4 relative to the transfer mechanism 2, and the second positioning mechanism 6 and the th positioning mechanism 5 are symmetrically distributed with the transfer mechanism 2 as the center;

the third positioning mechanism 7 is arranged on the base 1 in the upstream direction of the th positioning mechanism 5 relative to the transfer mechanism 2, the fourth positioning mechanism 8 is arranged on the base 1 in the upstream direction of the second positioning mechanism 6 relative to the transfer mechanism 2, and the third positioning mechanism 7 and the fourth positioning mechanism 8 are symmetrically distributed with the transfer mechanism 2 as the center;

the upper end enclosure feeding mechanism 9 is positioned in the upstream direction of the third positioning mechanism 7 relative to the transfer mechanism 2 and is arranged on the base 1, the lower end enclosure feeding mechanism 10 is positioned in the upstream direction of the fourth positioning mechanism 8 relative to the transfer mechanism 2 and is arranged on the base 1, the bottleneck feeding mechanism 11 is arranged on the side, close to the third positioning mechanism 7 , of the base 1, and the cylinder feeding mechanism 12 is positioned in the upstream position of the transfer mechanism 2 relative to the moving direction of the transfer mechanism 2;

the th welding mechanism 13 is arranged above the th rotating mechanism 3, and the 14 th welding mechanism is arranged above the 4 th rotating mechanism;

the controller 15 is provided on the base 1 side;

the transfer mechanism 2, the -th rotating mechanism 3, the second rotating mechanism 4, the -th positioning mechanism 5, the second positioning mechanism 6, the third positioning mechanism 7, the fourth positioning mechanism 8, the upper sealing head feeding mechanism 9, the lower sealing head feeding mechanism 10, the bottle mouth feeding mechanism 11, the cylinder feeding mechanism 12, the -th welding mechanism 13 and the second welding mechanism 14 are electrically connected with the controller 15.

The transfer mechanism 2 comprises a linear moving module and a transfer clamp, the linear moving module is arranged on the base 1, the linear moving module is electrically connected with the controller 15, and the transfer clamp is arranged at the output end of the linear moving module.

rotary mechanism 3 includes cylinder, the connecting block, rotating electrical machines and rotating main shaft, cylinder level sets up on base 1, the directional second rotary mechanism 4 of output, the output at cylinder is installed to the connecting block, rotating electrical machines fixes on the connecting block, rotating electrical machines is the same with cylinder's output direction, the rotating electrical machines output passes through the shaft coupling and links to each other with rotating main shaft, rotating electrical machines drive rotating main shaft is rotatory, cylinder and the equal electric connection director 15 of rotating electrical machines, second rotary mechanism 4 includes second cylinder and rotatory driven shaft, the directional rotary mechanism 3 of second cylinder level setting and output, rotatory driven shaft passes through the bearing and installs the output at the second cylinder, cylinder and second cylinder electric connection director 15.

The positioning mechanism 5 comprises a third cylinder and a positioning shaft, the third cylinder is horizontally arranged, the output end of the third cylinder points to the second positioning mechanism 6, the positioning shaft is mounted at the output end of the third cylinder through a bearing, the third cylinder is electrically connected with the controller 15, the structure of the second positioning mechanism 6 is the same as that of the positioning mechanism 5, the structure of the third positioning mechanism 7 is the same as that of the positioning mechanism 5, and the structure of the fourth positioning mechanism 8 is the same as that of the positioning mechanism 5.

The upper end enclosure feeding mechanism 9 comprises an upper end enclosure vibrating material tray, an upper end enclosure feeding three-coordinate system and an upper end enclosure feeding clamp, the upper end enclosure vibrating material tray is arranged at the upstream position of the third positioning mechanism 7 relative to the moving direction of the transfer mechanism 2 and is arranged on the base 1, the upper end enclosure feeding three-coordinate system is arranged on the base 1, the upper end enclosure feeding clamp realizes the movement during the material taking and feeding through the upper end enclosure feeding three-coordinate system, the structure of the lower end enclosure feeding mechanism 10 is the same as that of the upper end enclosure feeding mechanism 9, the structure of the bottleneck feeding mechanism 11 is the same as that of the upper end enclosure feeding mechanism 9, the cylinder feeding mechanism 12 comprises a cylinder material rack, the cylinder ejection assembly is arranged on the base 1 and located at the upstream position of the transfer mechanism 2 relative to the moving direction of the transfer mechanism 2, the cylinder material rack is arranged in an inclined mode, and the ejection assembly and the cylinder material rack are perpendicularly arranged on the base 1.

The th welding mechanism 13 includes two welding guns and a fixed bolster, the welding gun sets up in the side that the rotation main shaft keeps away from base 1 through the fixed bolster, the fixed bolster sets up in th rotation mechanism 3 for moving downstream of moving the mechanism 2 direction of transfer and set up on base 1, welding gun is connected with controller 15 electricity, the second welding mechanism 14 includes welding gun and fixed bolster, welding gun sets up in the side that the rotation main shaft keeps away from base 1 through the fixed bolster, the fixed bolster sets up in the second rotation mechanism 4 for moving downstream of the mechanism 2 direction of transfer and set up on base 1, welding gun is connected with controller 15 electricity.

The utility model discloses a concrete theory of operation, the barrel is carried off through the work or material rest at barrel feed mechanism 12, the jacking subassembly carries the barrel jacking to move and carries 2 tops, move and carry the initial position of mechanism 2 and be close to barrel feed mechanism 12, move and carry behind the barrel clamping to move and carry mechanism 2 and move to the centre of three positioning mechanism 7 and fourth positioning mechanism 8, upper cover feed mechanism 9, lower cover feed mechanism 10 will place the upper cover in upper cover vibration charging tray and place the lower cover in lower cover vibration charging tray respectively through the anchor clamps subassembly and install on the location axle of third positioning mechanism 7 and fourth positioning mechanism 8, then third positioning mechanism 7 is ejecting earlier, ejecting behind the fourth positioning mechanism 8, will push the upper cover to the barrel earlier, the upper cover is the center pin location and then pushes the lower cover to the barrel, similarly, the location installation of bottleneck is accomplished at positioning mechanism and second positioning mechanism;

after the upper end enclosure, the lower end enclosure and the bottle mouth are all jacked on the cylinder body, a transfer clamp on the moving mechanism 2 clamps the cylinder body with the upper end enclosure, the lower end enclosure and the bottle mouth, and then the controller controls the transfer mechanism to move to the -th rotating mechanism (3) and the second rotating mechanism (4);

the rotary mechanism 3 and the second rotary mechanism 4 from both sides successively withhold the cylinder with the upper head, the lower head and the bottle mouth, the rotary mechanism 3 through the cylinder promote the rotary main shaft to the bottle mouth, the second rotary mechanism 4 through the second cylinder drive the rotary driven shaft again to the lower head, finally by the motor on the rotary mechanism 3 drive the rotary main shaft, drive the rotary driven shaft, make the upper head, the lower head, the bottle mouth and the cylinder rotate synchronously, the welding gun on the welding mechanism and the second welding mechanism along the assembled annular gap welding, after rotating for circles, the rotary motor and the welding gun stop working, carry on processes.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

Claims

welding equipment for pipeline cylinder fire extinguishers, which is characterized by comprising a base (1), a transfer mechanism (2), a rotating mechanism (3), a second rotating mechanism (4), a positioning mechanism (5), a second positioning mechanism (6), a third positioning mechanism (7), a fourth positioning mechanism (8), an upper end enclosure feeding mechanism (9), a lower end enclosure feeding mechanism (10), a bottle opening feeding mechanism (11), a cylinder feeding mechanism (12), a welding mechanism (13), a second welding mechanism (14) and a controller (15);

the transfer mechanism (2) is arranged on the base (1) and is positioned on the central line of the base (1);

the -th rotating mechanism (3) is arranged on the base (1) and is positioned on the side of the transfer mechanism (2) , the second rotating mechanism (4) is arranged on the base (1) and is positioned on the side of the transfer mechanism (2) far away from the -th rotating mechanism (3), and the second rotating mechanism (4) and the -th rotating mechanism (3) are symmetrically distributed by taking the transfer mechanism (2) as a center;

the th positioning mechanism (5) is arranged on the base (1) in the upstream direction of the th rotating mechanism (3) relative to the transferring mechanism (2), the second positioning mechanism (6) is arranged on the base (1) in the upstream direction of the second rotating mechanism (4) relative to the transferring mechanism (2), and the second positioning mechanism (6) and the th positioning mechanism (5) are symmetrically distributed with the transferring mechanism (2) as the center;

the third positioning mechanism (7) is arranged on the base (1) in the upstream direction of the th positioning mechanism (5) relative to the transfer mechanism (2), the fourth positioning mechanism (8) is arranged on the base (1) in the upstream direction of the second positioning mechanism (6) relative to the transfer mechanism (2), and the third positioning mechanism (7) and the fourth positioning mechanism (8) are symmetrically distributed by taking the transfer mechanism (2) as the center;

the upper end enclosure feeding mechanism (9) is positioned in the upstream direction of the third positioning mechanism (7) relative to the transfer mechanism (2) and is arranged on the base (1), the lower end enclosure feeding mechanism (10) is positioned in the upstream direction of the fourth positioning mechanism (8) relative to the transfer mechanism (2) and is arranged on the base (1), the bottleneck feeding mechanism (11) is arranged on the side, close to the third positioning mechanism (7) , of the base (1), and the cylinder feeding mechanism (12) is positioned in the upstream position of the transfer mechanism (2) relative to the moving direction of the transfer mechanism (2);

the th welding mechanism (13) is arranged above the th rotating mechanism (3), and the second welding mechanism (14) is arranged above the second rotating mechanism (4);

the controller (15) is provided on the base (1) side;

the transfer mechanism (2), the th rotating mechanism (3), the second rotating mechanism (4), the th positioning mechanism (5), the second positioning mechanism (6), the third positioning mechanism (7), the fourth positioning mechanism (8), the upper end socket feeding mechanism (9), the lower end socket feeding mechanism (10), the bottle mouth feeding mechanism (11), the cylinder body feeding mechanism (12), the th welding mechanism (13) and the second welding mechanism (14) are electrically connected with the controller (15).
2. The piping barrel fire extinguisher welding apparatus as claimed in claim 1, wherein the transfer mechanism (2) includes a linear moving module and a transfer jig, the linear moving module is provided on the base (1), the linear moving module is electrically connected to the controller (15), and the transfer jig is provided at an output end of the linear moving module.
3. The fire extinguisher welding equipment for the tubular fire extinguisher of claim 1, wherein the th rotating mechanism (3) comprises a th cylinder, a connecting block, a rotating motor and a rotating spindle, the th cylinder is horizontally arranged on the base (1) and the output end of the connecting block points to the second rotating mechanism (4), the connecting block is installed at the output end of the th cylinder, the rotating motor is fixed on the connecting block, the rotating motor and the output end of the th cylinder are in the same direction, the output end of the rotating motor is connected with the rotating spindle through a coupler, the rotating motor drives the rotating spindle to rotate, the th cylinder and the rotating motor are both electrically connected with the controller (15), the second rotating mechanism (4) comprises a second cylinder and a rotating driven shaft, the second cylinder is horizontally arranged and the output end of the th rotating mechanism (3), the rotating driven shaft is installed at the output end of the second cylinder through a bearing, and the th cylinder and the second cylinder are electrically connected with the controller (15).
4. The welding equipment for the fire extinguisher with the piping barrel according to claim 1, wherein the th positioning mechanism (5) comprises a third cylinder and a positioning shaft, the third cylinder is horizontally arranged and the output end of the third cylinder is directed to the second positioning mechanism (6), the positioning shaft is mounted at the output end of the third cylinder through a bearing, the third cylinder is electrically connected with a controller (15), the second positioning mechanism (6) has the same structure as the th positioning mechanism (5), the third positioning mechanism (7) has the same structure as the th positioning mechanism (5), and the fourth positioning mechanism (8) has the same structure as the th positioning mechanism (5).
5. The welding equipment for the fire extinguisher with the pipeline barrel as claimed in claim 1, wherein the upper head feeding mechanism (9) comprises an upper head vibration tray, an upper head feeding three-coordinate system and an upper head feeding fixture, the upper head vibration tray is arranged at the upstream position of the third positioning mechanism (7) relative to the moving direction of the transfer mechanism (2) and is arranged on the base (1), the upper head feeding three-coordinate system is arranged on the base (1), the upper head feeding fixture realizes the movement during the material taking and feeding through the upper head feeding three-coordinate system, the lower head feeding mechanism (10) has the same structure as the upper head feeding mechanism (9), the bottleneck feeding mechanism (11) has the same structure as the upper head feeding mechanism (9), and the barrel feeding mechanism (12) comprises a barrel rack, The cylinder ejection assembly is arranged on the base (1) and located at the upstream position of the transfer mechanism (2) relative to the moving direction of the transfer mechanism (2), the cylinder material rack is arranged in an inclined mode, and the ejection assembly and the cylinder material rack are perpendicularly arranged on the base (1).
6. The piping barrel fire extinguisher welding apparatus as claimed in claim 3, wherein the th welding mechanism (13) includes two welding guns and a fixed bracket, the welding guns are disposed on the side of the main rotation axis away from the base (1) through the fixed bracket, the fixed bracket is disposed on the base (1) downstream of the th rotation mechanism (3) with respect to the moving direction of the transfer mechanism (2), the welding guns are electrically connected to the controller (15), the second welding mechanism (14) includes welding guns and a fixed bracket, the welding guns are disposed on the side of the main rotation axis away from the base (1) through the fixed bracket, the fixed bracket is disposed on the base (1) downstream of the second rotation mechanism (4) with respect to the moving direction of the transfer mechanism (2), and the three welding guns are electrically connected to the controller (15).