CN118699627A - A kind of gap welding equipment for U-shaped stainless steel pipe - Google Patents

Abstract

The invention relates to the technical field of seam welding equipment of stainless steel pipes, and discloses seam welding equipment of U-shaped stainless steel pipes, which comprises a workbench, wherein an L-shaped supporting plate is fixed at the top of the workbench, an air cylinder is fixed at the top of the L-shaped supporting plate, the welding machine is fixed at the bottom of the air cylinder, a connecting plate is fixed on the side wall of the workbench, a first motor is fixed on the inner side of the connecting plate, a groove is formed in the top of the workbench, and a bidirectional threaded rod is fixed at the output end of the first motor. This gap welding equipment of nonrust steel pipe of U-shaped, through setting up clamping mechanism, and then when putting into the steel pipe and rotate the cover, keep away from the longboard when clamping mechanism, through reset spring, disc, extrusion rod, sloping block, connecting rod and return spring's cooperation, can make four clamping blocks in the rotation cover press from both sides tightly fixedly to the steel pipe, make things convenient for the staff to operate.

Description

A kind of gap welding equipment for U-shaped stainless steel pipe

Technical Field

The invention relates to the technical field of gap welding equipment for stainless steel pipes, in particular to a gap welding equipment for U-shaped stainless steel pipes.

Background Art

Stainless steel pipes are widely used in industrial pipelines such as petroleum, chemical, medical, food, light industry, mechanical instruments, and mechanical structural parts. In addition, when the bending and torsional strengths are the same, the weight is lighter, so it is also widely used in the manufacture of mechanical parts and engineering structures. It is also commonly used in furniture and kitchenware.

When welding stainless steel pipes, corresponding stainless steel pipe welding equipment is required to perform welding operations between steel pipes.

In the prior art, the existing U-shaped stainless steel pipe gap welding equipment, when welding the steel pipe, generally requires the staff to manually press to fix the steel pipe, which may cause discomfort to the staff during the welding process because people hold the steel pipe with their hands, increase the labor of the staff, and reduce the work efficiency; in view of this, we propose a U-shaped stainless steel pipe gap welding equipment.

Summary of the invention

The object of the present invention is to provide a U-shaped stainless steel pipe gap welding device to solve the problems raised in the above background technology.

To achieve the above-mentioned purpose, the present invention provides the following technical solutions: a gap welding device for a U-shaped stainless steel pipe, comprising a workbench, an L-shaped support plate is fixed on the top of the workbench, a cylinder is fixed on the top of the L-shaped support plate, a welding machine is fixed on the bottom of the cylinder, a connecting plate is fixed on the side wall of the workbench, a first motor is fixed on the inner side of the connecting plate, a groove is opened on the top of the workbench, a bidirectional threaded rod is fixed on the output end of the first motor, the end point of the bidirectional threaded rod is rotatably mounted on the inner wall of the groove, a threaded sleeve is threadedly connected to the outer wall of the bidirectional threaded rod, the bottom of the threaded sleeve is slidably mounted on the inner wall of the groove, a fixing plate is fixed on the top of the threaded sleeve, a support block is fixed on the top of the fixing plate, a clamping mechanism is arranged on the support block, a cleaning mechanism is arranged on the workbench, and the clamping mechanism comprises:

A rotating sleeve, the rotating sleeve is rotatably mounted on the inner side of the supporting block, a guide rod is fixed to the side wall of the rotating sleeve, and a disc is slidably mounted on the outer wall of the guide rod;

A return spring, one side of which is fixed to the side wall of the disc, and the other side of which is fixed with a stopper;

An extrusion rod is fixed on one side of the disc close to the L-shaped support plate, a connecting rod runs through the rotating sleeve, an inclined block is fixed to one end of the connecting rod, a clamping block is fixed to the other end of the connecting rod, a return spring is fixed to the side of the inclined block close to the rotating sleeve, and a side of the return spring away from the inclined block is fixed to the outer wall of the rotating sleeve. By setting a clamping mechanism, when the steel pipe is put into the rotating sleeve, when the clamping mechanism is away from the long plate, the four clamping blocks in the rotating sleeve can clamp and fix the steel pipe through the cooperation of the return spring, the disc, the extrusion rod, the inclined block, the connecting rod and the return spring, which is convenient for the staff to operate.

Preferably, a long board is fixed on the top of the workbench, and a fixing column is fixed on the side wall of the long board.

Preferably, a second motor is fixed to the side wall of the support block, a rotating rod is fixed to the output end of the second motor, a small gear is fixed to the outer wall of the rotating rod, a large gear is fixed to the outer wall of the rotating sleeve, the large gear and the small gear are in meshing relationship with each other, and the large gear can be driven to rotate by setting the small gear.

Preferably, four clamping blocks are arranged on the rotating sleeve, and the four clamping blocks are arranged on the inner side of the rotating sleeve in a circular array.

Preferably, the cleaning mechanism includes a support seat, a collection box is fixed on the top of the support seat, a connecting rod passes through the support seat, the connecting rod is slidably connected to the penetration point of the support seat, a fixed seat is fixed on the top of the connecting rod, and a brush is fixed on the top of the fixed seat. By arranging the brush, the outer wall of the steel pipe can be cleaned.

Preferably, a baffle is fixed to the bottom of the connecting rod, a vibration spring is fixed to the top of the baffle, and the top of the vibration spring is fixed to the inner side of the support seat. By arranging the vibration spring, the brush can be driven to vibrate up and down.

Preferably, a transmission rod is fixed to the outer wall of the baffle, a square block is fixed to the end point of the transmission rod, a fixing rod is fixed to the side wall of the square block, a transmission plate is fixed to the end of the fixing rod away from the square block, and multiple groups of equally spaced arc blocks are fixed to the top of the transmission plate.

Preferably, an L-shaped connecting rod is fixed to the side wall of the threaded sleeve, and a protrusion is fixed to one end of the L-shaped connecting rod away from the threaded sleeve.

Preferably, two groups of the clamping mechanisms are provided, and the two groups of clamping mechanisms are symmetrically arranged with the center line in the vertical direction of the workbench as the symmetry axis.

Preferably, a connecting plate is fixed to the side wall of the collecting box, a supporting rod is fixed to the outer wall of the connecting rod, a bearing plate is fixed to the end of the supporting rod away from the connecting rod, a push rod passes through the bearing plate, the bearing plate and the penetration point of the push rod are slidably connected, a push plate is fixed to the bottom of the push rod, a moving spring is fixed to the top of the push plate, the top of the moving spring is fixed to the bottom of the bearing plate, an inclined rod is hinged to the top of the push rod, a U-shaped rod is hinged to the end of the inclined rod away from the push rod, the U-shaped rod is slidably mounted on a fixed seat, the U-shaped rod is slidably mounted on the inner wall of the fixed seat, a slapping plate is fixed to the end of the U-shaped rod away from the fixed seat, and a striking block is fixed to the side wall of the slapping plate.

Compared with the prior art, the present invention provides a U-shaped stainless steel pipe gap welding device, which has the following beneficial effects:

1. The U-shaped stainless steel pipe gap welding equipment is provided with a clamping mechanism. When the steel pipe is placed in the rotating sleeve, when the clamping mechanism is away from the long plate, the four clamping blocks in the rotating sleeve can clamp and fix the steel pipe through the cooperation of the reset spring, the disc, the extrusion rod, the inclined block and the connecting rod, which is convenient for the staff to operate.

2. The U-shaped stainless steel pipe gap welding equipment is provided with a cleaning mechanism. When the welding part of the steel pipe moves onto the brush, the second motor is started to drive the rotating rod and the small gear to rotate, so that the large gear drives the rotating sleeve to rotate, and then the clamping mechanism drives the steel pipe to rotate, so that the steel pipe can be fitted on the brush to rotate, thereby having the effect of cleaning the welding part of the steel pipe.

3. The gap welding equipment of the U-shaped stainless steel pipe, when the thread sleeve moves on the bidirectional threaded rod, the brush can vibrate back and forth through the cooperation of the L-shaped connecting rod, the protrusion, the transmission plate, the arc block, the fixed rod, the square block, the transmission rod, the baffle, the transmission spring, the connecting rod and the fixed seat, so that the impurities attached to the brush can be vibrated off, and the brush has a self-cleaning effect.

4. The gap welding equipment for the U-shaped stainless steel pipe, when the threaded sleeve drives the clamping mechanism away from the L-shaped support plate, the disc contacts the fixed column, so that the fixed column squeezes the disc, and the clamping blocks are moved away from each other through the cooperation of the squeezing rod, the inclined block, the return spring and the connecting rod, so that it is convenient to put the steel pipe into the rotating sleeve.

5. The U-shaped stainless steel pipe gap welding equipment drives the brush to shake through the connecting rod, and through the cooperation of the push rod, push plate, connecting block, oblique rod, U-shaped rod, beating plate and striking block, it can play a more effective cleaning of the brush and make the cleaning effect better.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the three-dimensional structure of the overall device of the present invention;

FIG2 is a schematic diagram of the three-dimensional structure of the overall device of the present invention;

FIG. 3 is a schematic cross-sectional view of the clamping mechanism of the present invention.

FIG4 is an enlarged schematic diagram of structure A of FIG1 of the present invention;

FIG5 is an enlarged schematic diagram of structure B of FIG1 of the present invention;

FIG6 is an enlarged schematic diagram of structure C of FIG2 of the present invention;

FIG7 is an enlarged schematic diagram of the D structure of FIG2 of the present invention;

FIG8 is an enlarged schematic diagram of the structure E of FIG4 of the present invention;

FIG. 9 is an enlarged schematic diagram of the F structure of FIG. 7 of the present invention.

In the figure: 1, workbench; 2, L-shaped support plate; 3, cylinder; 4, welding machine; 5, connecting plate; 6, first motor; 7, groove; 8, two-way threaded rod; 9, threaded sleeve; 10, fixed plate; 11, support block; 12, clamping mechanism; 1201, rotating sleeve; 1202, guide rod; 1203, stopper; 1204, return spring; 1205, disc; 1206, connecting rod; 1207, extrusion rod; 1208, inclined block; 1209, clamping block; 1210, large gear; 1211, return spring; 13, long plate; 14, fixed column; 15, second motor; 16, rotating rod; 17, small gear; 1 8. L-shaped connecting rod; 19. convex block; 20. cleaning mechanism; 2001. supporting seat; 2002. collecting box; 2003. connecting rod; 2004. fixing seat; 2005. brush; 2006. baffle; 2007. vibration spring; 2008. transmission rod; 2009. square block; 2010. fixing rod; 2011. transmission plate; 2012. arc block; 2013. connecting plate; 2014. supporting rod; 2015. bearing plate; 2016. push rod; 2017. push plate; 2018. moving spring; 2019. oblique rod; 2020. U-shaped rod; 2021. slapping plate; 2022. striking block.

DETAILED DESCRIPTION

The following will be combined with the drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

As shown in Figures 1 to 9, the present invention provides a technical solution: a U-shaped stainless steel pipe gap welding device, including a workbench 1, an L-shaped support plate 2 is fixed on the top of the workbench 1, a cylinder 3 is fixed on the top of the L-shaped support plate 2, a welding machine 4 is fixed on the bottom of the cylinder 3, and the welding machine 4 is mainly a ZX1 DC welding machine. In order to start the cylinder 3 so that the welding machine 4 can move downward and then perform welding operations, a connecting plate 5 is fixed to the side wall of the workbench 1, a first motor 6 is fixed on the inner side of the connecting plate 5, and a bidirectional motor 6 is fixed on the output end of the first motor 6. A threaded rod 8, a groove 7 is opened on the top of the workbench 1, the end point of the bidirectional threaded rod 8 is rotatably installed on the inner wall of the groove 7, the outer wall of the bidirectional threaded rod 8 is threadedly connected with a threaded sleeve 9, the bottom of the threaded sleeve 9 is slidably installed on the inner wall of the groove 7, two groups of threaded sleeves 9 are provided, and the two groups of threaded sleeves 9 are symmetrically arranged with the center line of the workbench 1 in the vertical direction as the symmetry axis, a fixing plate 10 is fixed on the top of the threaded sleeve 9, a supporting block 11 is fixed on the top of the fixing plate 10, a clamping mechanism 12 is provided on the supporting block 11, and a cleaning mechanism 20 is provided on the top of the workbench 1.

In one embodiment of the present invention, the clamping mechanism 12 includes a rotating sleeve 1201, a disc 1205, a guide rod 1202, a reset spring 1204, a stopper 1203, an extrusion rod 1207, an inclined block 1208, a connecting rod 1206, a clamping block 1209, a large gear 1210 and a return spring 1211. The rotating sleeve 1201 passes through the support block 11, and the rotating sleeve 1201 is rotatably connected to the penetration point of the support block 11. The guide rod 1202 is fixed to the side of the rotating sleeve 1201 away from the L-shaped support plate 2, and the disc 1205 is slidably installed on the outer wall of the guide rod 1202. The reset spring 1204 is fixed to the side of the disc 1205 away from the support block 11, and the reset spring 1204 is away from the rotating sleeve A stopper 1203 is fixed on one side of 1201, and a return spring 1204 is provided to reset the disc 1205. An extrusion rod 1207 is fixed on the side of the disc 1205 close to the rotating sleeve 1201. A connecting rod 1206 runs through the rotating sleeve 1201, an inclined block 1208 is fixed on one end of the connecting rod 1206, and a clamping block 1209 is fixed on the other end of the connecting rod 1206. A return spring 1211 is fixed on the side of the inclined block 1208 close to the rotating sleeve 1201, and the side of the return spring 1211 away from the inclined block 1208 is fixed to the outer wall of the rotating sleeve 1201. The connecting rod 1206 runs through the rotating sleeve 1201, and the connecting rod 1206 is slidably connected to the rotating sleeve 1201. There are four clamping blocks 1209, which are arranged in a circular array inside the rotating sleeve 1201, and the clamping blocks 1209 are made of rubber material, which can prevent the steel pipe from being pinched. The clamping blocks 1209 can clamp the steel pipe. A long plate 13 is fixed on the top of the workbench 1, and a fixing column 14 is fixed on the side of the long plate 13 close to the L-shaped support plate 2. The side of the fixing column 14 away from the long plate 13 is in contact with the disc 1205, and at this time, the fixing column 14 squeezes the disc 1205, and the reset spring 1204 is in a stretched state. When it is necessary to weld the two groups of steel pipes, the steel pipe can be extended into the rotating sleeve 1201, and the first electric Machine 6 controls the bidirectional threaded rod 8 to rotate forward, so that the two groups of threaded sleeves 9 are close to each other, and then the disc 1205 is away from the fixed column 14, so that the disc 1205 is not squeezed. Because the reset spring 1204 is in a stretched state, the reset spring 1204 can drive the disc 1205 away from the rotating sleeve 1201, so that the disc 1205 drives the extrusion rod 1207 away from the support block 11, so that the extrusion rod 1207 does not squeeze the inclined block 1208. Because the return spring 1211 is in a stretched state, the connecting rod 1206 can drive the clamping block 1209 to approach each other, and the steel pipe in the rotating sleeve 1201 can be clamped and fixed by the clamping block 1209, so that the rotating sleeve 1201 can drive the steel pipe to move.

In one embodiment of the present invention, the cleaning mechanism 20 includes a support seat 2001, a collection box 2002, a connecting rod 2003, a fixed seat 2004, a brush 2005, a vibration spring 2007, a baffle 2006, a transmission rod 2008, a square block 2009, a fixed rod 2010, a transmission plate 2011 and an arc block 2012. The top of the workbench 1 is fixed with a support seat 2001, and the top of the support seat 2001 is fixed with a collection box 2002. By setting the collection box 2002, the waste chips can be collected. The supporting seat 2001 and the collecting box 2002 are penetrated by a connecting rod 2003, and the penetration point is slidably connected. The top of the connecting rod 2003 is fixed with a fixed seat 2004, and the top of the fixed seat 2004 is fixed with a brush 2005. The bottom of the connecting rod 2003 is fixed with a baffle 2006, and the top of the baffle 2006 is fixed A vibration spring 2007 is fixed, and the top of the vibration spring 2007 is fixed on the inner side of the support seat 2001. By arranging the vibration spring 2007, the brush 2005 can be vibrated. A transmission rod 2008 is fixed to the outer wall of the baffle 2006. The transmission rod 2008 penetrates the support seat 2001, and the transmission rod 2008 can move up and down at the penetration point of the support seat 2001. A square block 2009 is fixed to the end of the transmission rod 2008 away from the baffle 2006, and a fixing rod 2010 is fixed to the side wall of the square block 2009. A transmission plate 2011 is fixed to the end of the fixing rod 2010 away from the square block 2009, and multiple groups of equidistant arc blocks 2012 are fixed to the top of the transmission plate 2011. When the rotating sleeve 1201 drives the welding parts of the two groups of steel pipes to fit together, the outer wall of the welding part of the steel pipe can fit with the brush 2005.

Among them, a second motor 15 is fixed to one side of the support block 11 close to the L-shaped support plate 2, a rotating rod 16 is fixed to the output end of the second motor 15, a small gear 17 is fixed to the outer wall of the rotating rod 16, the small gear 17 and the large gear 1210 are in mutual meshing state, and the large gear 1210 is fixed to the outer wall of the rotating sleeve 1201, and then when the second motor 15 is started, the rotating rod 16 can be rotated, and the large gear 1210 can be driven to rotate by the small gear 17, so that the large gear 1210 drives the rotating sleeve 1201 and the steel pipe to rotate, so that the welding part of the steel pipe is rotated on the brush 2005, and then the welding part of the steel pipe can be cleaned by the brush 2005. , brush off the impurities at the welding place of the steel pipe to prevent a large amount of impurities from being attached to the welding place of the steel pipe, which will affect the welding of the steel pipe. When the cylinder 3 is started to make the welding machine 4 move downward for welding, the steel pipe is rotated to facilitate the welding operation of the steel pipe. An L-shaped connecting rod 18 is fixed on the side of the threaded sleeve 9 away from the L-shaped support plate 2, and a protrusion 19 is fixed on the end of the L-shaped connecting rod 18 away from the threaded sleeve 9. When the welding is completed, one group of discs 1205 can be pushed to make the disc 1205 approach the support block 11, and the inclined block 1208 is squeezed by the squeezing rod 1207 to make the inclined block 1208 away from the rotating sleeve 1201, and the connecting rod 1206 is used to push the inclined block 1208 away from the rotating sleeve 1201. , so that the clamping blocks 1209 move away from each other, so that the clamping blocks 1209 do not clamp the steel pipe, and then the first motor 6 can be started to control the bidirectional threaded rod 8 to reverse, so that the threaded sleeves 9 move away from each other, so that the clamping mechanisms 12 move away from each other, and then the threaded sleeve 9 can drive the disc 1205 to contact the fixed column 14. When the disc 1205 continues to move away from the L-shaped support plate 2, the disc 1205 will be squeezed and the disc 1205 will move closer to the support block 11. Through the cooperation of the squeezing rod 1207, the inclined block 1208 and the connecting rod 1206, the clamping blocks 1209 can be moved away from each other, and then the steel pipe can be taken out of the rotating sleeve 1201, and the clamping blocks 1209 can move away from each other. The two sets of arc blocks 2012 are far away from each other, which makes it convenient to extend the steel pipe into the rotating sleeve 1201 to clamp and fix the steel pipe. When the threaded sleeve 9 moves on the bidirectional threaded rod 8, the protrusion 19 can be driven to move through the L-shaped connecting rod 18. When the protrusion 19 moves to contact with the arc block 2012, the arc block 2012 will be squeezed and moved downward. Through the cooperation of the fixed rod 2010, the square block 2009 and the transmission rod 2008, the baffle 2006 can drive the connecting rod 2003 to move downward, so that the vibration spring 2007 is stretched, and the connecting rod 2003 can drive the fixing seat 2004 and the brush 2005 to move downward. When the protrusion 19 moves to the two sets of arc blocks, the connecting rod 2003 can be driven to move downward. When the protrusion 19 moves on the arc block 2012, the vibration spring 2007 is in a stretched state, so that the connecting rod 2003 drives the brush 2005 to return to its original position upward, and then when the protrusion 19 moves on the arc block 2012, the brush 2005 can be vibrated up and down, and the impurities attached to the brush 2005 can be vibrated off, so as to prevent a large amount of impurities from being attached to the brush 2005, which will affect the cleaning of the steel pipe connection, and make the impurities cleaned by the brush 2005 fall into the collection box 2002, which is convenient for the staff to clean up in a centralized manner. The side wall of the collection box 2002 is fixed with a connecting plate 2013, and the outer wall of the connecting rod 2003 is fixed with a supporting rod 214. A bearing plate 2015 is fixed to one end of the rod 2014 away from the connecting rod 2003. The support rod 2014 can be provided to support the bearing plate 2015. A push rod 2016 runs through the bearing plate 2015. The bearing plate 2015 is slidably connected to the penetration of the push rod 2016. A push plate 2017 is fixed to the bottom of the push rod 2016. A moving spring 2018 is fixed to the top of the push plate 2017. The top of the moving spring 2018 is fixed to the bottom of the bearing plate 2015. An inclined rod 2019 is hinged to the top of the push rod 2016. A U-shaped rod 2020 is hinged to the end of the inclined rod 2019 away from the push rod 2016. The U-shaped rod 2020 is slidably installed. On the fixed seat 2004, the U-shaped rod 2020 is slidably installed with the inner wall of the fixed seat 2004, and a slapping plate 2021 is fixed to the end of the U-shaped rod 2020 away from the fixed seat 2004, and a striking block 2022 is fixed to the side wall of the slapping plate 2021. When the connecting rod 2003 moves downward, the fixed seat 2004 can be driven to move downward, so that the U-shaped rod 2020 moves downward, and the supporting rod 2014 drives the push rod 2016 to move downward, so that the push plate 2017 contacts with the connecting plate 2013, and then the push plate 2017 is subjected to an extrusion force, so that the push rod 2016 moves upward on the bearing plate 2015, so that the push rod 2016 squeezes the oblique rod 2019, so that the oblique rod 201 9 is subjected to the extrusion force, so that the inclined rod 2019 squeezes the U-shaped rod 2020 to move into the fixed seat 2004, and then the U-shaped rod 2020 drives the flapping plate 2021 to move, so that the flapping plate 2021 flaps the brush 2005, and then it can be further cleaned, and the dust attached to the brush 2005 can be flapped off. The side wall of the flapping plate 2021 is fixed with a striking block 2022. When the flapping plate 2021 flaps the brush 2005, the striking block 2022 can be inserted into the brush 2005 and the brush 2005, and then the dust attached between the brush 2005 can be cleaned off, so that the cleaning effect of the brush 2005 is better.

Working principle: when it is necessary to weld two groups of steel pipes, the steel pipes can be inserted into the rotating sleeve 1201, and the first motor 6 can be started to control the bidirectional threaded rod 8 to rotate forward, so that the two groups of threaded sleeves 9 are close to each other, and the disc 1205 is moved away from the fixed column 14, so that the disc 1205 is not squeezed, and because the reset spring 1204 is in a stretched state, the reset spring 1204 can drive the disc 1205 away from the rotating sleeve 1201, so that the disc 1205 drives the extrusion rod 1207 away from the support block 11, so that the extrusion rod 1207 does not squeeze the inclined block 1208, and because the return spring 1211 is in a stretched state, the connecting rod 1206 can be moved into the rotating sleeve 1201, and the steel pipe in the rotating sleeve 1201 can be clamped and fixed by the clamping block 1209, so that the rotating sleeve 1201 can drive the steel pipe to move, and when the rotating sleeve 1201 is brought When the welding places of the two groups of steel pipes are fitted together, the outer wall of the welding place of the steel pipe can be fitted with the brush 2005. When the second motor 15 is started, the rotating rod 16 can be rotated, and the large gear 1210 can be driven to rotate through the small gear 17, so that the large gear 1210 drives the rotating sleeve 1201 and the steel pipe to rotate, so that the welding place of the steel pipe can be rotated on the brush 2005, and the welding place of the steel pipe can be cleaned by the brush 2005, and the impurities at the welding place of the steel pipe can be brushed off to prevent a large amount of impurities from being attached to the welding place of the steel pipe, which will affect the welding of the steel pipe. When the cylinder 3 is started and the welding machine 4 moves downward for welding, the steel pipe is rotated to facilitate the welding operation of the steel pipe. When the welding is completed, one group of discs 1205 can be pushed to make the discs 1205 close to the support block 11, and the extrusion rod 1207, the inclined block 1208 and the connecting rod 1207 are used. Rod 1206 makes the clamping blocks 1209 move away from each other, so that the clamping blocks 1209 do not clamp the steel pipe, and then the first motor 6 can be started to control the reversal of the bidirectional threaded rod 8, so that the threaded sleeves 9 move away from each other, and the clamping mechanism 12 moves away from each other, and then the threaded sleeve 9 drives the disc 1205 to contact the fixed column 14. When the disc 1205 continues to move away from the L-shaped support plate 2, the disc 1205 will be squeezed and the disc 1205 will move closer to the support block 11. Through the cooperation of the extrusion rod 1207, the inclined block 1208 and the connecting rod 1206, the clamping blocks 1209 can be moved away from each other, and then the steel pipe can be taken out of the rotating sleeve 1201, and the clamping blocks 1209 move away from each other, which makes it convenient to extend the steel pipe into the rotating sleeve 1201 to clamp and fix the steel pipe. When the threaded sleeve 9 moves on the bidirectional threaded rod 8, the protrusion 19 can be driven to move through the L-shaped connecting rod 18. When the projection 19 moves to contact with the arc block 2012, the arc block 2012 will be subjected to an extrusion force, causing the arc block 2012 to move downward. Through the cooperation of the fixed rod 2010, the square block 2009 and the transmission rod 2008, the baffle 2006 can drive the connecting rod 2003 to move downward, so that the vibration spring 2007 is stretched, and the connecting rod 2003 can drive the fixed seat 2004 and the brush 2005 to move downward. When the projection 19 moves between the two groups of arc blocks 2012, because the vibration spring 2007 is in a stretched state, the connecting rod 2003 drives the brush 2005 to return to its original position upward. Then, when the projection 19 moves on the arc block 2012, the brush 2005 can be vibrated up and down, and impurities attached to the brush 2005 can be vibrated off, preventing a large amount of impurities from being attached to the brush 2005, which will affect the cleaning of the steel pipe connection.

The above generally describes the present invention in detail, but it is obvious to a person skilled in the art that some modifications or improvements can be made to the present invention. Therefore, modifications or improvements that do not depart from the spirit of the present invention are within the scope of protection of the present invention.

Claims (10)

1. The utility model provides a seam welding equipment of U-shaped stainless steel pipe, includes workstation (1), its characterized in that: the utility model provides a cleaning device for a workbench, including workstation (1), cylinder (3), welding machine (4), connecting plate (5), supporting plate (12), clamping mechanism (12), cleaning mechanism (20) are provided with on the top of workstation (1), L type backup pad (2) are fixed with at the top of workstation (1), the top of L type backup pad (2) is fixed with cylinder (3), the bottom of cylinder (3) is fixed with welding machine (4), the lateral wall of workstation (1) is fixed with connecting plate (5), the inboard of connecting plate (5) is fixed with first motor (6), groove (7) are seted up at the top of workstation (1), the extreme point rotation of first motor (6) is installed at the inner wall of groove (7), the outer wall threaded connection of two-way threaded rod (8) has thread bush (9), the bottom slidable mounting of thread bush (9) is at the inner wall of groove (7), the top of thread bush (9) is fixed with fixed plate (10), the top of fixed plate (10) is fixed with supporting shoe (11), be provided with clamping mechanism (12) on the supporting shoe (11), be provided with on the workstation (1), cleaning mechanism (20) include.

The rotating sleeve (1201) is rotatably arranged on the inner side of the supporting block (11), a guide rod (1202) is fixed on the side wall of the rotating sleeve (1201), and a disc (1205) is slidably arranged on the outer wall of the guide rod (1202);

A return spring (1204), wherein one side of the return spring (1204) is fixed on the side wall of the disc (1205), and a stop block (1203) is fixed on the other side of the return spring (1204);

The extrusion rod (1207), extrusion rod (1207) is fixed in disc (1205) and is close to one side of L type backup pad (2), run through in rotating sleeve (1201) have connecting rod (1206), the one end of connecting rod (1206) is fixed with sloping block (1208), the other end of connecting rod (1206) is fixed with clamping block (1209), one side that sloping block (1208) is close to rotating sleeve (1201) is fixed with return spring (1211), one side that return spring (1211) kept away from sloping block (1208) is fixed at the outer wall of rotating sleeve (1201).

2. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 1 wherein: the top of workstation (1) is fixed with longboard (13), the lateral wall of longboard (13) is fixed with fixed column (14).

3. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 1 wherein: the side wall of supporting shoe (11) is fixed with second motor (15), the output of second motor (15) is fixed with dwang (16), the outer wall of dwang (16) is fixed with pinion (17), the outer wall of rotating sleeve (1201) is fixed with gear wheel (1210), gear wheel (1210) are intermeshing form with pinion (17).

4. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 1 wherein: the four clamping blocks (1209) are arranged on the rotating sleeve (1201), and the four clamping blocks (1209) are arranged on the inner side of the rotating sleeve (1201) in a circumferential array.

5. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 1 wherein: the cleaning mechanism (20) comprises a supporting seat (2001), a collecting box (2002) is fixed at the top of the supporting seat (2001), a connecting rod (2003) penetrates through the supporting seat (2001), the connecting rod (2003) is slidably connected with the penetrating position of the supporting seat (2001), a fixing seat (2004) is fixed at the top of the connecting rod (2003), and a hairbrush (2005) is fixed at the top of the fixing seat (2004).

6. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 5 wherein: a baffle plate (2006) is fixed at the bottom of the connecting rod (2003), a vibrating spring (2007) is fixed at the top of the baffle plate (2006), and the top of the vibrating spring (2007) is fixed at the inner side of the supporting seat (2001).

7. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 6 wherein: the baffle plate is characterized in that a transmission rod (2008) is fixed on the outer wall of the baffle plate (2006), a square block (2009) is fixed at the end point of the transmission rod (2008), a fixing rod (2010) is fixed on the side wall of the square block (2009), a transmission plate (2011) is fixed at one end, far away from the square block (2009), of the fixing rod (2010), and a plurality of groups of equidistant arc blocks (2012) are fixed at the top of the transmission plate (2011).

8. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 1 wherein: the side wall of the thread bush (9) is fixed with an L-shaped connecting rod (18), and one end of the L-shaped connecting rod (18) far away from the thread bush (9) is fixed with a lug (19).

9. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 1 wherein: the clamping mechanisms (12) are arranged in two groups, and the two groups of clamping mechanisms (12) are symmetrically arranged by taking the center line of the workbench (1) in the vertical direction as a symmetrical axis.

10. A seam welding apparatus for U-shaped stainless steel pipes as set forth in claim 5 wherein: the utility model discloses a beating device for a beaten and beaten, including collection box (2002) and fixed beating plate (2021), including connecting box (2002), connecting box (2016), bracing piece (2013) are fixed with to the lateral wall of collecting box (2002), the outer wall of connecting rod (2003) is fixed with bracing piece (2014), the one end that connecting rod (2003) was kept away from to bracing piece (2014) is fixed with loading board (2015), run through in loading board (2015) has push rod (2016), loading board (2015), the department sliding connection of push rod (2016) and loading board (2016), the bottom of push rod (2016) is fixed with push pedal (2017), the top of push pedal (2017) is fixed with movable spring (2018), the top of movable spring (2018) is fixed in the bottom of loading board (2015), the top of push rod (2016) articulates has inclined rod (2019), the one end that push rod (2016) was kept away from to inclined rod (2019) articulates has U type pole (2020), U type pole (2020) slidable mounting is in fixing base (2004), U type pole (2020) and fixing base (2004) inner wall slidable mounting, U type pole (2020) is kept away from one end of beaten and beaten (2021).