CN108311770B

CN108311770B - Alignment calibration welding device used in water supply pipe installation procedure in building

Info

Publication number: CN108311770B
Application number: CN201810231038.8A
Authority: CN
Inventors: 林国发; 李河龙; 曾章平
Original assignee: FUJIAN MINNAN CONSTRUCTION ENGINEERING CO LTD
Current assignee: FUJIAN MINNAN CONSTRUCTION ENGINEERING CO LTD
Priority date: 2018-03-20
Filing date: 2018-03-20
Publication date: 2023-04-25
Anticipated expiration: 2038-03-20
Also published as: CN108311770A

Abstract

The alignment, calibration and welding device for the water supply pipe installation process in a building comprises a movable pipe clamping mechanism, a rotary clamping mechanism, a fixed pipe clamping mechanism, a movable pipe clamping mechanism, a fixed pipe clamping mechanism and a movable pipe clamping mechanism, wherein the movable pipe clamping mechanism can move back and forth along two sliding shafts in a sliding frame mechanism; the sliding frame mechanism can control the movable pipe clamping mechanism, the rotary clamping mechanism and the fixed pipe clamping mechanism to simultaneously rotate in the same direction along the left water feeding pipe body and the right water feeding pipe body, and the gun heads of the argon arc welding gun clamped by the rotary clamping mechanism also rotate in the same direction and simultaneously weld and fasten the pipe orifices of the left water feeding pipe body and the right water feeding pipe body which are butted together. The invention has the characteristics of novel structure, simple and convenient operation and stronger practicability.

Description

Alignment calibration welding device used in water supply pipe installation procedure in building

Technical Field

The invention belongs to the field of building construction auxiliary equipment, and relates to a counterpoint calibration welding device used in a water supply pipe installation procedure in a building.

Background

The construction of hidden engineering inside to the building main part can involve the installation of feed pipe, especially large-scale medical department of hospitalization engineering, and these feed pipes often need to carry out installation and construction of aerial pipe, in the installation of aerial pipe and construction process, need to carry out the welded pipe intercommunication operation to two adjacent feed pipes, at present, can have following problem to the welding construction of two adjacent aerial feed pipes: after the adjacent two water supply pipes in the middle are calibrated and positioned, in the process of carrying out heat welding by the argon arc welding gun, the pipe calibration positioning device can block and prevent the heat welding operation of the argon arc welding gun, so that great inconvenience is brought to the welding operation of workers, the welding effect can be influenced, and the operation efficiency can be reduced.

Disclosure of Invention

In order to solve the problems, the invention provides a counterpoint calibration welding device for a water supply pipe installation process in a building, which has the characteristics of novel structure, simplicity and convenience in operation and stronger practicability.

In order to achieve the above purpose, the invention adopts the following specific technical measures: a contraposition calibration welding device used in the installation procedure of a water supply pipe in a building is composed of a sliding frame mechanism, a movable pipe clamping mechanism, a rotary clamping mechanism and a fixed pipe clamping mechanism, and is characterized in that,

the movable pipe clamping mechanism can move back and forth along two sliding shafts in the sliding frame mechanism, the rotary clamping mechanism can be used for clamping the gun head of the argon arc welding gun, the rotary clamping mechanism is arranged between the fixed pipe clamping mechanism and the movable pipe clamping mechanism, the fixed pipe clamping mechanism is fastened at the left rod end of a screw in the rotary clamping mechanism, the movable pipe clamping mechanism is fastened at the right rod end of the screw in the rotary clamping mechanism, the movable pipe clamping mechanism can be used for positioning the pipe orifice end of one water supply pipe body, and the fixed pipe clamping mechanism can be used for positioning the pipe orifice end of the other water supply pipe body;

the left water supply pipe body and the right water supply pipe body are respectively calibrated through the positioning of the fixed pipe clamping mechanism and the movable pipe clamping mechanism, so that the pipe orifice ends of the left water supply pipe body and the right water supply pipe body are always kept on the same axis during welding;

the movable pipe clamping mechanism, the rotary clamping mechanism and the fixed pipe clamping mechanism are supported by the carriage mechanism, when the left water supply pipe body and the right water supply pipe body which are kept on the same axis are welded, the carriage mechanism can control the movable pipe clamping mechanism, the rotary clamping mechanism and the fixed pipe clamping mechanism to simultaneously rotate in the same direction along the left water supply pipe body and the right water supply pipe body, and the gun heads of the argon arc welding gun clamped by the rotary clamping mechanism also rotate in the same direction and simultaneously weld and fasten the pipe orifices of the left water supply pipe body and the right water supply pipe body which are butted together;

the sliding frame mechanism comprises a U-shaped rod, two sliding shafts, a Fang Tixing lifting block, a lifting handle and a rotary handle, wherein the two rod ends of the U-shaped rod are respectively and fixedly connected with one sliding shaft through welding, the front sliding shaft and the rear sliding shaft are kept parallel and serve as sliding rails, the right shaft ends of the front sliding shaft and the rear sliding shaft are respectively and fixedly connected with the left side wall of the Fang Tixing lifting block through welding, the right side of the Fang Tixing lifting block is provided with the lifting handle through a screw, and the rear side wall of the Fang Tixing lifting block is fixedly provided with the rotary handle through welding;

fang Tixing the lifting block is internally provided with a driving toothed bar and a traction screw rod, the rotary handle is sleeved with the outer rod end of the driving toothed bar, the inner rod end of the driving toothed bar is provided with a driving bevel gear, the inner rod end of the traction screw rod is provided with a driven bevel gear, and the driven bevel gear is meshed with the driving bevel gear;

the pipe clamping fixing mechanism comprises a square seat block, a first rod sleeve, a first ejection screw rod, a first pipe embedding mouthpiece and a first rotary rod, wherein the first pipe embedding mouthpiece is integrally formed on the front side of the square seat block, a first concave pipe embedding groove is integrally formed on the pipe embedding mouthpiece, and the first pipe embedding groove is horizontally arranged left and right;

the top surface of the square seat block is integrally formed with a rod sleeve I, the rod sleeve I is in a front-back deep trend, the rod sleeve I rotates to form a jacking screw rod I, the rear rod end of the jacking screw rod I is movably connected with a rotary rod I in series, the rotation of the jacking screw rod I can be controlled through the rotary rod I, and the front rod end of the jacking screw rod I in rotation can be pushed forward and finally jacked to press the pipe orifice end of the water supply pipe body positioned at the left side;

the movable pipe clamping mechanism comprises a main sliding block, a second rod sleeve, a second material ejection screw rod, a second pipe embedding mouthpiece, a second rotary rod and a sliding sleeve, wherein the main sliding block is integrally formed with a front sliding sleeve and a rear sliding sleeve, the sliding sleeves are movably sleeved on sliding shafts, and each sliding shaft is correspondingly sleeved with one sliding sleeve; the middle part of the main sliding block is also drilled with a rod hole which is communicated with the middle part of the left side surface of the main sliding block to the middle part of the right side surface of the main sliding block, the inner wall of the rod hole is tapped with a rotary joint pattern, and the outer rod end of the traction screw rod is communicated with the middle part of the left side surface of the square lifting block and is continuously screwed with the rod hole on the main sliding block leftwards;

the front side of the main sliding block is integrally formed with a tube embedding mouthpiece II, the tube embedding mouthpiece II is integrally formed with a concave tube embedding groove II, and the tube embedding groove II is horizontally arranged left and right;

the top surface of the main sliding block is integrally provided with a second rod sleeve, the second rod sleeve is in a front-back deep trend, the second rod sleeve rotates to form a second ejection screw rod, the rear rod end of the second ejection screw rod is movably connected with a second rotary rod in series, the second ejection screw rod can be controlled to rotate through the second rotary rod, and the front rod end of the second ejection screw rod in rotation can be pushed forward and finally pushed against the pipe orifice end of the water supply pipe body positioned on the right side;

the rotation of the rotary handle can control the rotation of the driving toothed bar, the rotation of the driving toothed bar drives the rotation of the traction screw rod through the driving bevel gear and the driven bevel gear which are meshed together, and the rotation of the traction screw rod can finally draw the main sliding block to transversely move along the sliding rail through the sliding sleeve;

the screw clamping mechanism comprises a screw rod, a screw nut, a movable clamping plate and a fixed clamping plate, wherein the left rod end of the screw rod is fastened on the right side wall of the square seat block through welding, the right rod end of the screw rod is connected with the middle part of the U-shaped rod through welding, the right side of the screw rod is fastened and sleeved with the fixed clamping plate, the movable clamping plate is sleeved with the left side of the screw rod, the screw rod is further sleeved with the screw nut, the screw nut is arranged on the left side of the movable clamping plate, and the movable clamping plate moves rightwards and is close to the fixed clamping plate under the pushing of the screw nut through controlling the rotation of the screw nut;

the movable clamping plate and the fixed clamping plate can be used for clamping the gun head of the argon arc welding gun.

The invention has the advantages of novel structure, simple and convenient operation and stronger practicability.

The invention will be further described with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic view of a three-dimensional combination structure of the present invention.

In the figure: a1-square seat block, A2-rod sleeve I, A3-ejector screw rod I, A31-rotating rod I, A4-embedded pipe mouthpiece I, A41-embedded pipe groove I, B1-main sliding block, B2-rod sleeve II, B3-ejector screw rod II, B31-rotating rod II, B4-embedded pipe mouthpiece II, B41-embedded pipe groove II, sliding sleeve B5, C1-screw rod, C2-fixed clamping plate, C3-movable clamping plate, D1-U-shaped rod, D2-sliding shaft, D3-Fang Tixing lifting block, D31-traction screw rod, D4-lifting handle and D5-rotating handle.

Detailed Description

As shown in figure 1, the alignment, calibration and welding device for the installation procedure of the water supply pipe in the building consists of a sliding frame mechanism, a movable pipe clamping mechanism, a rotary clamping mechanism and a fixed pipe clamping mechanism, and is characterized in that,

the movable pipe clamping mechanism can move back and forth along two sliding shafts D2 in the sliding frame mechanism, the rotary clamping mechanism can be used for clamping the gun head of the argon arc welding gun, the rotary clamping mechanism is arranged between the fixed pipe clamping mechanism and the movable pipe clamping mechanism, the fixed pipe clamping mechanism is fastened at the left rod end of a screw rod C1 in the rotary clamping mechanism, the movable pipe clamping mechanism is fastened at the right rod end of the screw rod C1 in the rotary clamping mechanism, the movable pipe clamping mechanism can be used for positioning the pipe orifice end of one water supply pipe body, and the fixed pipe clamping mechanism can be used for positioning the pipe orifice end of the other water supply pipe body;

the sliding frame mechanism comprises a U-shaped rod D1, two sliding shafts D2 and Fang Tixing lifting blocks D3, lifting handles D4 and a rotary handle D5, wherein the two rod ends of the U-shaped rod D1 are respectively and fixedly connected with one sliding shaft D2 through welding, the front sliding shaft D2 and the rear sliding shaft D2 are kept parallel and serve as sliding rails, the right shaft ends of the front sliding shaft D2 and the rear sliding shaft D2 are respectively and fixedly connected with the left side wall of the Fang Tixing lifting block D3 through welding, the right side of the Fang Tixing lifting block D3 is provided with one lifting handle D4 through screws, and the rear side wall of the Fang Tixing lifting block D3 is fixedly provided with one rotary handle D5 through welding;

fang Tixing lifting block D3 is internally provided with a driving toothed bar and a traction screw rod D31, a rotary handle D5 is sleeved with the outer rod end of the driving toothed bar, a driving bevel gear is arranged at the inner rod end of the driving toothed bar, and a driven bevel gear is arranged at the inner rod end of the traction screw rod D31 and meshed with the driving bevel gear;

the fixed pipe clamping mechanism comprises a square seat block A1, a rod sleeve A2, a jacking screw rod A3, a pipe embedding mouthpiece A4 and a rotary rod A31, wherein the pipe embedding mouthpiece A4 is integrally formed on the front side of the square seat block A1, the pipe embedding mouthpiece A4 is integrally formed with a concave pipe embedding groove A41, and the pipe embedding groove A41 extends horizontally left and right;

the top surface of the square seat block A1 is integrally formed with a rod sleeve A2, the rod sleeve A2 is in a front-back depth trend, the rod sleeve A2 is rotated to form a jacking screw rod A3, the rear rod end of the jacking screw rod A3 is movably connected with a rotary rod A31 in series, the rotation of the jacking screw rod A3 can be controlled through the rotary rod A31, and the front rod end of the rotating jacking screw rod A3 can be pushed forward and finally jacked to press the pipe orifice end of the water supply pipe body positioned at the left side;

the movable pipe clamping mechanism comprises a main sliding block B1, a second rod sleeve B2, a second ejection screw rod B3, a second pipe embedding mouthpiece B4, a second rotary rod B31 and a sliding sleeve B5, wherein the main sliding block B1 is integrally provided with a front sliding sleeve B5 and a rear sliding sleeve B5, the sliding sleeves B5 are movably sleeved on sliding shafts D2, and each sliding shaft D2 is correspondingly sleeved with one sliding sleeve B5; the middle part of the main sliding block B1 is also drilled with a rod hole which is communicated from the middle part of the left side surface of the main sliding block B1 to the middle part of the right side surface of the main sliding block B1, the inner wall of the rod hole is provided with a screwed joint pattern, and the outer rod end of the traction screw rod D31 is communicated from the middle part of the left side surface of the square lifting block D3 and is screwed with the rod hole on the main sliding block B1 continuously leftwards;

the front side of the main sliding block B1 is integrally formed with a tube embedding mouthpiece B4, the tube embedding mouthpiece B4 is integrally formed with a concave tube embedding groove B41, and the tube embedding groove B41 is horizontally arranged left and right;

the top surface of the main sliding block B1 is integrally formed with a rod sleeve II B2, the rod sleeve II B2 is in a front-back depth trend, the rod sleeve II B2 rotates to form a jacking screw rod II B3, the rear rod end of the jacking screw rod II B3 is movably connected with a rotating rod II B31 in series, the rotation of the jacking screw rod II B3 can be controlled through the rotating rod II B31, and the front rod end of the rotating jacking screw rod II B3 can be pushed forward and finally jacked to press the pipe orifice end of the water supply pipe body positioned on the right side;

the rotation of the rotary handle D5 can control the rotation of the driving toothed bar, the rotation of the driving toothed bar drives the rotation of the traction screw rod D31 through the driving bevel gear and the driven bevel gear which are meshed together, and the rotation of the traction screw rod D31 can finally draw the main sliding block B1 to transversely move along the sliding rail through the sliding sleeve B5;

the screw clamping mechanism comprises a screw rod C1, a screwing nut, a movable clamping plate C3 and a fixed clamping plate C2, wherein the left rod end of the screw rod C1 is fastened on the right side wall of the square seat block A1 through welding, the right rod end of the screw rod C1 is connected to the middle of the U-shaped rod D1 through welding, the fixed clamping plate C2 is fastened and sleeved on the right side of the screw rod C1, the movable clamping plate C3 is sleeved and connected with the left side of the screw rod C1, the screw rod C1 is further sleeved and connected with a screwing nut, the screwing nut is arranged on the left side of the movable clamping plate C3, and the movable clamping plate C3 moves rightwards and is close to the fixed clamping plate C2 under the pushing of the screwing nut through controlling the rotation of the screwing nut;

the movable clamping plate C3 and the fixed clamping plate C2 can be used for clamping the gun head of the argon arc welding gun.

Claims

1. A contraposition calibration welding device used in the installation procedure of a water supply pipe in a building is composed of a sliding frame mechanism, a movable pipe clamping mechanism, a rotary clamping mechanism and a fixed pipe clamping mechanism, and is characterized in that,

the movable pipe clamping mechanism can move back and forth along two sliding shafts (D2) in the sliding frame mechanism, the rotary clamping mechanism can be used for clamping a gun head of an argon arc welding gun, the rotary clamping mechanism is arranged between the fixed pipe clamping mechanism and the movable pipe clamping mechanism, the fixed pipe clamping mechanism is fastened at a left rod end of a screw (C1) in the rotary clamping mechanism, the movable pipe clamping mechanism is fastened at a right rod end of the screw (C1) in the rotary clamping mechanism, the movable pipe clamping mechanism can be used for positioning a pipe orifice end of one water supply pipe body, and the fixed pipe clamping mechanism can be used for positioning a pipe orifice end of the other water supply pipe body;

the sliding frame mechanism comprises a U-shaped rod (D1), two sliding shafts (D2) and Fang Tixing lifting blocks (D3), a lifting handle (D4) and a rotary handle (D5), wherein the two rod ends of the U-shaped rod (D1) are respectively and fixedly connected with one sliding shaft (D2) through welding, the front sliding shaft and the rear sliding shaft (D2) are kept parallel and serve as sliding rails, the right shaft ends of the front sliding shaft and the rear sliding shaft (D2) are fixedly connected with the left side wall of the Fang Tixing lifting block (D3) through welding, the right side of the Fang Tixing lifting block (D3) is provided with the lifting handle (D4) through screws, and the rear side wall of the Fang Tixing lifting block (D3) is fixedly provided with the rotary handle (D5) through welding;

fang Tixing lifting blocks (D3) are internally provided with a driving toothed bar and a traction screw rod (D31), a rotary handle (D5) is sleeved with the outer rod end of the driving toothed bar, a driving bevel gear is arranged at the inner rod end of the driving toothed bar, a driven bevel gear is arranged at the inner rod end of the traction screw rod (D31), and the driven bevel gear is meshed with the driving bevel gear;

the fixed pipe clamping mechanism comprises a square seat block (A1), a first rod sleeve (A2), a first material ejection screw rod (A3), a first pipe embedding mouthpiece (A4) and a first rotary rod (A31), wherein the first pipe embedding mouthpiece (A4) is integrally formed on the front side of the square seat block (A1), the first pipe embedding mouthpiece (A4) is integrally formed with a first concave pipe embedding groove (A41), and the first pipe embedding groove (A41) extends horizontally left and right;

the top surface of the square seat block (A1) is integrally formed with a rod sleeve I (A2), the rod sleeve I (A2) is in a front-back deep trend, the rod sleeve I (A2) is rotated to form a jacking screw rod I (A3), the rear rod end of the jacking screw rod I (A3) is movably connected with a rotary rod I (A31) in series, the rotary rod I (A31) can control the jacking screw rod I (A3) to rotate, and the front rod end of the rotating jacking screw rod I (A3) can be pushed forward and finally push against the pipe orifice end of the water supply pipe body positioned at the left side;

the movable pipe clamping mechanism comprises a main sliding block (B1), a second rod sleeve (B2), a second material ejection screw rod (B3), a second pipe embedding mouthpiece (B4), a second rotary rod (B31) and a sliding sleeve (B5), wherein the main sliding block (B1) is integrally provided with a front sliding sleeve and a rear sliding sleeve (B5), the sliding sleeves (B5) are movably sleeved on sliding shafts (D2), and each sliding shaft (D2) is correspondingly sleeved with one sliding sleeve (B5); the middle part of the main sliding block (B1) is also drilled with a rod hole which is communicated with the middle part of the left side surface of the main sliding block (B1) to the middle part of the right side surface of the main sliding block (B1), the inner wall of the rod hole is tapped with a screwed joint line, and the outer rod end of the traction screw rod (D31) penetrates through the middle part of the left side surface of the square lifting block (D3) and is continuously screwed with the rod hole on the main sliding block (B1) leftwards;

the front side of the main sliding block (B1) is integrally formed with a tube embedding mouthpiece II (B4), the tube embedding mouthpiece II (B4) is integrally formed with a concave tube embedding groove II (B41), and the tube embedding groove II (B41) is horizontally arranged left and right;

the top surface of the main sliding block (B1) is integrally formed with a second rod sleeve (B2), the second rod sleeve (B2) is in a front-back deep trend, the second rod sleeve (B2) is rotated to form a second ejection screw rod (B3), the rear rod end of the second ejection screw rod (B3) is movably connected with a second rotary rod (B31) in series, the second ejection screw rod (B3) can be controlled to rotate through the second rotary rod (B31), and the front rod end of the second rotary ejection screw rod (B3) can be pushed forward and finally pushed to press the pipe orifice end of the water supply pipe body positioned on the right side;

the rotation of the rotary handle (D5) can control the rotation of the driving toothed bar, the rotation of the driving toothed bar drives the rotation of the traction screw rod (D31) through the driving bevel gear and the driven bevel gear which are meshed together, and the rotation of the traction screw rod (D31) can finally draw the main sliding block (B1) to transversely move along the sliding rail through the sliding sleeve (B5);

the screw clamping mechanism comprises a screw (C1), a screwing nut, a movable clamping plate (C3) and a fixed clamping plate (C2), wherein the left rod end of the screw (C1) is fastened on the right side wall of the square seat block (A1) through welding, the right rod end of the screw (C1) is connected to the middle part of the U-shaped rod (D1) through welding, the fixed clamping plate (C2) is fastened and sleeved on the right side of the screw (C1), the movable clamping plate (C3) is sleeved on the left side of the screw (C1), the screw (C1) is further sleeved with a screwing nut, the screwing nut is arranged on the left side of the movable clamping plate (C3), and the movable clamping plate (C3) moves rightwards and approaches to the fixed clamping plate (C2) under the pushing of the screwing nut through controlling the rotation of the screwing nut;

the movable clamping plate (C3) and the fixed clamping plate (C2) can be used for clamping the gun head of the argon arc welding gun.