CN112372115A - Hemisphere welding tool device - Google Patents

Abstract

The invention relates to a hemispherical body welding tool device which is mainly applied to the welding of an upper end face and an end face flange of a hemispherical shell and is designed with a welding tool capable of adjusting pre-tightening pressure, and can solve the problem that the flange is easy to deform when the end face of the hemispherical shell is welded, the hemispherical body welding tool device mainly comprises a positioning base, a hemispherical shell and a hemispherical body press-mounting mechanism, wherein the positioning base adopts an inner support 4 blocks to simultaneously support the inner wall, the upper part of a support block is processed into a cambered surface which can be fully contacted with the inner wall of the hemispherical shell, the material density of the hemispherical body is low, the whole mass is light, the position is easy to adjust, in addition, 8 pressing plates which are uniformly distributed in the circumferential direction are arranged above the end face flange welding part to press the welding flange, the pressing position and the stress of the pressing plates can be adjusted at the same time, the larger stress is avoided, and the larger internal stress is also, by adopting the technical scheme, the deformation can be effectively reduced when the flange is welded on the end face of the hemispherical shell.

Description

Hemisphere welding tool device

Technical Field

The invention relates to the technical field of welding, in particular to a hemisphere welding tool device.

Background

When the flange is welded on the end face of the hemispherical shell, the welding difficulty is high and the quality stability is poor due to the adverse effects of the welding performance and the structure of materials, so that the production and the application of the welding structure are restricted, the improvement of a welding tool is the key of the improvement of a welding process, the welding of the hemispherical shell and the flange is limited by a part processing mode and a welding structure, manual argon arc welding is generally adopted, the welding quality stability is poor, the yield is low, and the deformation is easy to occur.

This frock work piece uses when spheroid seal welding, and the work piece is applied to in the experiment cabin, and this design frock is used for the up end and the terminal surface flange welding of hemisphere casing, because hemisphere casing diameter is great, and hemisphere casing wall thickness is 2mm, takes place the deformation easily when welding on it, in order to solve this problem, consequently designs the welding frock of an adjustable pretension pressure.

Disclosure of Invention

The invention provides a hemispherical body welding tool device, which aims to solve the problem that a flange is easy to deform when the end face of a hemispherical shell is welded.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the invention adopts a hemisphere welding tool device which mainly comprises a positioning base, a hemisphere shell and a hemisphere press-fitting mechanism, wherein an end face flange is welded on the upper end face of the hemisphere shell by the device, and full welding is carried out in the circumferential direction of an annular welding line.

Furthermore, the positioning seat 1 consists of a square bottom plate, a supporting rod and a screw rod; the three welding modes are formed, a screw rod is welded in the middle of a square bottom plate, the screw rod is made of seamless steel tubes and is externally twisted, a round boss is arranged on the upper surface of the square bottom plate, the center of the square bottom plate is hollowed out, 4 rib plates are welded in 90-degree positions respectively, two support rods are perpendicularly welded on each rib plate, and a certain size gap is reserved between every two support rods.

Further, the hemispherical shell is a half of a sealed sphere with the wall thickness of 1mm, and the workpiece is used in an experiment chamber.

Furthermore, the hemisphere press-fitting mechanism is divided into an external press-fitting mechanism and an internal supporting mechanism.

Further, the external press-fitting mechanism is characterized in that the upper end part of the first middle screw rod is mounted on a connecting rod mounting seat, the lower end part of the first middle screw rod is mounted under the connecting rod mounting seat, 8 lifting lugs are uniformly arranged on the connecting rod mounting seat in the circumferential direction and are respectively connected with the upper end parts of the pressing rods through pin shafts, the lower end position of the first screw rod is mounted under the connecting rod mounting seat, the 8 uniformly distributed lifting lugs face upwards and are respectively inserted into grooves in the middle parts of the pressing rods, the two pressing rods are connected through the pin shafts, a pressing plate is welded on the lower end face of each pressing rod, and the. The upper end part of the pressure lever is connected with the connecting rod mounting seat, the middle part of the pressure lever is connected with the driving connecting rod through a groove, the lower end part of the pressure lever forms a 30-degree included angle and is welded with the pressure plate, and the welding position of the pressure lever and the pressure plate adopts a full-length welding mode. And after the whole welding, the lower surface of the pressing plate is subjected to plane milling processing, so that the flatness of the pressing plate is ensured.

Furthermore, after the end face flange is placed on the upper end face of the half-shell sphere, the upper position and the lower position of the first relative screw rod on the connecting rod mounting seat are manually adjusted, so that an included angle formed by 8 connecting rods connected with the connecting rod mounting seat and the end face flange placed in the horizontal position is reduced, and the pre-tightening force of the pressing plate on the end face flange is increased. When the connecting rod mounting seat is adjusted to be arranged below, the connecting rod mounting seat moves upwards when rotating anticlockwise, the end parts of the inner sides of 8 driving connecting rods in the circumferential direction move upwards, the end part of the other side connected with the pressing rod moves downwards, and the position of the pressing rod pressing the flange edge of the end face slightly deviates inwards; when the connecting rod mounting seat is adjusted to be arranged below, the connecting rod mounting seat moves downwards when rotating clockwise, the end parts of the inner sides of 8 driving connecting rods in the circumferential direction move downwards, the end parts of the other sides connected with the pressing rods move upwards, and the positions of the pressing rods pressing the flange edges of the end faces slightly deviate outwards; the position of the pressing plate for pressing the end face flange can be adjusted through the two adjusting modes.

Further, inside supporting mechanism, the inside processing of sliding sleeve is the internal thread, locking piece quantity is 4, 4 latch segments of equipartition installation on the outside circumferencial direction of sliding sleeve, the mounting means of latch segment and sliding sleeve is the interference fit installation, the one end of connecting rod is the cell type, the tip trompil, the other end trompil, the one end cell type and the latch segment of connecting rod are fixed through round pin hub connection, the other end of connecting rod inserts inside the rectangular channel of connecting seat, it is fixed through round pin hub connection, interior kicking block is the arc piece, the upper end can laminate with spheroidal inner wall for having an inclination, the intermediate position of connecting rod is installed between 2 bracing pieces, use round pin axle fixed connection. When the adjusting sliding sleeve rotates anticlockwise, the sliding sleeve drives the locking blocks to move upwards simultaneously, the inner side end of the connecting rod moves upwards, the outer side end of the connecting rod moves downwards, the four inner supporting blocks move downwards through connection of the connecting seat, and at the moment, the inner supporting blocks are separated from the inner wall of the half-shell sphere gradually; when the adjustment sliding sleeve clockwise rotation, the sliding sleeve drives the latch segment and moves down simultaneously, and the medial extremity of connecting rod is downward, and the outside end rebound of connecting rod through the connection of connecting seat makes four interior bracers rebound simultaneously, and interior bracer laminates half spheroidal inner wall gradually this moment, plays the supporting role. When the half-shell sphere and the end face flange are welded, the inner wall of the half-shell sphere is supported, and welding deformation is reduced.

The second technical solution adopted by the present invention to solve the above technical problems is as follows:

the working principle and the assembling method of the hemispherical body welding tool device comprise the following steps:

the method comprises the following steps that firstly, a half-shell sphere is placed on a square bottom plate of a positioning base 1, the lower end face of the half-shell sphere is in contact with the upper plane of the square bottom plate, the outer diameter of a cylindrical boss on the square bottom plate is equal to the inner diameter of the half-shell sphere, and the half-shell sphere is positioned; an end face flange is arranged on the upper end opening face of the half-shell sphere.

Second step, prop the mechanism in the adjustment, the manual work uses the specialized tool to adjust to the sliding sleeve, during clockwise rotation, the sliding sleeve drives the latch segment and moves down simultaneously, the medial extremity of connecting rod is downward, the outside end rebound of connecting rod, through the connection of connecting seat, make four interior bracers rebound simultaneously, interior bracer laminates half spheroidal inner wall gradually this moment, make the inclined plane of interior bracer gradually with half spheroidal inner wall laminating fully, play the effect of inside support hemisphere casing, the supporting shoe material uses 6063, weight is lighter when making the regulation, adjust the height easily.

Thirdly, when end face flanges with different thicknesses are welded, firstly adjusting the extension height of the first screw relative to the inside of the first screw, and when the thickness is increased, rotating the upper hexagonal head of the first screw to rotate anticlockwise by using a wrench to adjust the extension height of the first screw to increase; when the thickness of the end face flange is reduced, the upper hexagonal head of the screw is rotated clockwise by using a wrench, and the extension height of the screw is adjusted to be increased. And after the extending position of the first screw rod is fixed, the pretightening force and the welding position of the end face flange are adjusted.

Fourthly, because the external threads of the first screw rod are matched with the internal threads in the screw rod, when the connecting rod mounting seat is adjusted to be arranged below, the connecting rod mounting seat moves upwards when the connecting rod mounting seat rotates anticlockwise, the end parts of the inner sides of 8 driving connecting rods in the circumferential direction move upwards, the end parts of the other sides of the 8 driving connecting rods connected with the pressing rod move downwards, and the position of the flange edges of the pressing end faces of the pressing rod slightly deviates inwards; when the connecting rod mounting seat is adjusted to be arranged below, the connecting rod mounting seat moves downwards when rotating clockwise, the end parts of the inner sides of 8 driving connecting rods in the circumferential direction move downwards, the end parts of the other sides connected with the pressing rods move upwards, and the positions of the pressing rods pressing the flange edges of the end faces slightly deviate outwards; the position of the pressing plate for pressing the end face flange can be adjusted through the two adjusting modes. The contact position of the end face flange and the upper end face of the hemispherical shell is adjusted according to the two adjusting modes.

Fifthly, after the inner supporting block of the inner supporting mechanism is adjusted to be in contact with the inner wall of the hemispherical shell, after the end flange is pressed and fixed by the pressing plate of the outer mechanism, a welding tool is used for full welding on a circumferential circle at the joint where the end flange is in contact with the hemispherical shell, and the hemispherical shell and the end flange are made of stainless steel 304 and are welded by argon arc welding with a welding rod which is a stainless steel welding rod.

Sixthly, after the joint of the lower end face of the end face flange and the hemispherical shell is fully welded for one circle, firstly, when the sliding sleeve is adjusted to rotate anticlockwise, the sliding sleeve drives the locking blocks to move upwards simultaneously, the inner side end of the connecting rod moves upwards, the outer side end of the connecting rod moves downwards, the four inner supporting blocks are enabled to move downwards simultaneously through connection of the connecting seat, and at the moment, the inner supporting blocks are separated from the inner wall of the hemispherical shell; and then, a wrench tool is used for rotating the first screw rod to increase the extension height of the first screw rod, so that the compression rod is driven to be lifted, and therefore 8 compression plates which are arranged and compressed on the upper surface of the end face flange are simultaneously separated from the end face flange. And manually taking out a finished product welded by the hemispherical shell and the end face flange.

The invention designs a welding tool capable of adjusting pretightening pressure, which is mainly applied to the welding of the upper end face and the end face flange of a hemispherical shell, and can effectively reduce the deformation amount easily generated when the flange is welded on the end face of the hemispherical shell.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a structural assembly view of a hemisphere welding tooling device of the present invention;

FIG. 2 is a schematic view of a positioning base 1 in a hemisphere welding fixture apparatus of the present invention;

FIG. 3 is a schematic view of a hemisphere pressing mechanism 3 in a hemisphere welding fixture apparatus according to the present invention;

FIG. 4 is a schematic view of an external press-fitting mechanism 6 in the hemispherical body welding tooling device according to the present invention;

FIG. 5 is a schematic view of an internal supporting mechanism 7 of a hemispherical body welding tooling device according to the present invention;

FIG. 6 is a schematic view of a hemispherical shell and an end flange of a hemispherical welding tooling device according to the present invention.

In the drawings:

1. positioning base

2. Semi-spherical shell

3. Hemisphere press-fitting mechanism

4. Square bottom plate

5. Support rod

6. External press-fitting mechanism

7. Internal support mechanism

8. End face flange

9. 8 press rods are arranged in the circumferential direction

10. Pin shaft

11. Driving connecting rod

12. Under the connecting rod mounting seat

13. Screw rod 1

14. On the connecting rod mounting seat

15. A pressing plate with 8 blocks arranged in the circumferential direction

16. 4 connecting rods are evenly distributed in the circumferential direction

17. Locking block

18. Sliding sleeve

19. 4 inner supporting blocks are uniformly distributed in the circumferential direction

20. Connecting seat

21. Circumferential weld

22. Screw rod

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific embodiments, which are to be understood as merely illustrative of the invention and not as limiting the scope of the invention.

Referring to fig. 1, the invention discloses a hemisphere welding tool device, which mainly comprises a positioning base 1, a hemisphere shell 2 and a hemisphere press-mounting mechanism 3, wherein an end face flange is welded on the upper end face of the hemisphere shell by the hemisphere welding tool device, and full welding is carried out in the circumferential direction of an annular welding line.

Referring to fig. 2, the positioning seat 1 is composed of a square bottom plate 4, a supporting rod 5 and a screw 22; the three welding modes are formed, the screw rod 22 is welded in the middle of the square bottom plate 4, the screw rod is made of seamless steel tubes and is externally twisted, a round boss is arranged on the upper surface of the square bottom plate 4, the center of the boss is hollowed out, 4 rib plates are welded in 90-degree positions respectively, two support rods 5 are perpendicularly welded on each rib plate, and a certain size gap is reserved between every two support rods 5.

In this embodiment, the hemispherical shell 2 is a half of a sealed sphere with a wall thickness of 1mm, and the workpiece is used in an experiment chamber.

Referring to fig. 3, the hemisphere pressing mechanism 3 is divided into an outer pressing mechanism 6 and an inner supporting mechanism 7.

Referring to fig. 4, in the external press-fitting mechanism 6, an upper end of a middle screw rod 13 is mounted on an upper connecting rod mounting seat 14, a lower connecting rod mounting seat 12 is mounted on a lower portion of the middle screw rod 13, 8 lifting lugs are uniformly arranged on the upper connecting rod mounting seat 14 in the circumferential direction and are respectively connected with upper ends of pressure rods 9 through pin shafts, the lower connecting rod mounting seat 12 is mounted at a lower end of the screw rod 13, the 8 lifting lugs are uniformly arranged upward and are respectively inserted into a groove in the middle of the pressure rod 9, the two are connected through the pin shafts, a pressure plate 15 is welded on a lower end face of each pressure rod 9, and the pressure plate is arc. The upper end part of the pressure lever 9 is connected with the upper 14 of the connecting rod mounting seat, the middle part of the pressure lever is connected with the driving connecting rod 11 through a groove, the lower end part of the pressure lever 9 forms a 30-degree included angle and is welded with the pressure plate 15, and the welding position of the pressure lever 9 and the pressure plate 15 adopts a full-length welding mode. And after the integral welding, the lower surface of the pressing plate 15 is subjected to plane milling processing, so that the flatness of the pressing plate is ensured.

In this embodiment, after the end flange is placed on the upper end surface of the half-shell sphere, the upper and lower positions of the first 14 connecting rod mounting seats relative to the first screw rod are manually adjusted, so that the included angle formed by the 8 connecting rods 9 connected with the first connecting rod mounting seats and the end flange placed in the horizontal position is reduced, and the pretightening force of the pressing plate 15 on the end flange is increased. When the connecting rod mounting seat lower 12 is adjusted and rotates anticlockwise, the connecting rod mounting seat lower 12 moves upwards, the end parts of the inner sides of 8 driving connecting rods 11 in the circumferential direction move upwards, the end part of the other side connected with the pressing rod 9 moves downwards, and the position of the pressing rod 9 pressing the flange edge of the end face slightly deviates inwards; when the connecting rod mounting seat lower 12 is adjusted and rotates clockwise, the connecting rod mounting seat lower 12 moves downwards, the end parts of the inner sides of 8 driving connecting rods 11 in the circumferential direction move downwards, the end parts of the other sides connected with the pressing rods 9 move upwards, and the positions of the pressing rods 9 pressing the flange edges of the end faces slightly offset outwards; the position of the pressing plate for pressing the end face flange can be adjusted through the two adjusting modes.

Please refer to fig. 5, the inner supporting mechanism 7 is configured such that the inner portion of the sliding sleeve 18 is processed into an internal thread, the number of the locking blocks 17 is 4, 4 locking blocks 17 are uniformly installed in the outer circumferential direction of the sliding sleeve, the locking blocks 17 and the sliding sleeve 18 are installed in an interference fit manner, one end of the connecting rod 16 is a groove shape, the end portion of the connecting rod is provided with a hole, the other end of the connecting rod 16 is provided with a hole, the groove shape of one end of the connecting rod 16 is fixed to the locking blocks 17 through a pin, the other end of the connecting rod 16 is inserted into the rectangular groove of the connecting seat 20 and fixed through a pin, the inner supporting block 19 is an arc-shaped block, the upper end of the inner supporting block can be attached to the inner wall. When the adjusting sliding sleeve 18 rotates anticlockwise, the sliding sleeve 18 drives the locking block 17 to move upwards at the same time, the end part of the inner side of the connecting rod 16 moves upwards, the end part of the outer side of the connecting rod 16 moves downwards, the four inner supporting blocks move downwards through the connection of the connecting seat 20, and at the moment, the inner supporting block 19 is gradually separated from the inner wall of the half-shell sphere; when the adjusting sliding sleeve 18 rotates clockwise, the sliding sleeve 18 drives the locking block 17 to move downwards at the same time, the inner side end of the connecting rod 16 moves downwards, the outer side end of the connecting rod 16 moves upwards, the four inner supporting blocks move upwards through connection of the connecting seat 20, and the inner supporting blocks 19 are gradually attached to the inner wall of the half-shell sphere to play a supporting role. When the half-shell sphere and the end face flange are welded, the inner wall of the half-shell sphere is supported, and welding deformation is reduced.

The invention relates to an assembling method based on a hemispherical welding tool device, which comprises the following steps:

firstly, placing a half-shell sphere 2 on a square bottom plate 4 of a positioning base 1, wherein the lower end face of the half-shell sphere is in contact with the upper plane of the square bottom plate 4, and the outer diameter of a cylindrical boss on the square bottom plate 4 is equal to the inner diameter of the half-shell sphere 2, so that the half-shell sphere 2 is positioned; an end flange 8 is placed on the upper opening surface of the half-shell sphere.

Second step, prop the mechanism in the adjustment, the manual work uses the specialized tool to adjust to sliding sleeve 18, during clockwise rotation, sliding sleeve 18 drives latch segment 17 and moves down simultaneously, the medial extremity of connecting rod 16 is downward, the lateral extremity rebound of connecting rod 16, through the connection of connecting seat 20, make four interior kickers rebound simultaneously, interior kicker 19 laminates half spheroidal inner wall gradually this moment, it is abundant with half spheroidal inner wall laminating gradually to make the inclined plane of 4 interior kickers, play the effect of inside support hemisphere casing, the supporting shoe material uses 6063, the weight is lighter when making the regulation, adjust the height easily.

Thirdly, when end face flanges with different thicknesses are welded, firstly adjusting the extending height of the first screw 13 relative to the inner part of the screw 22, and when the thickness is increased, rotating the upper hexagonal head of the screw 13 by using a wrench to rotate anticlockwise so as to adjust the extending height to be increased; when the end face flange thickness is reduced, the extension height thereof is adjusted to be increased by rotating the upper hexagonal head of the screw 13 clockwise using a wrench. And after the extending position of the first screw rod 13 is fixed, the pretightening force and the welding position of the end face flange are adjusted.

Fourthly, because the external threads of the first screw rod 13 are matched with the internal threads in the screw rod 22, when the connecting rod mounting seat lower 12 is adjusted and rotates anticlockwise, the connecting rod mounting seat lower 12 moves upwards, the end parts of the inner sides of 8 driving connecting rods 11 in the circumferential direction move upwards, the end parts of the other sides connected with the pressing rods 9 move downwards, and the positions of the pressing end face flange edges of the pressing rods 9 slightly deviate inwards; when the connecting rod mounting seat lower 12 is adjusted and rotates clockwise, the connecting rod mounting seat lower 12 moves downwards, the end parts of the inner sides of 8 driving connecting rods 11 in the circumferential direction move downwards, the end parts of the other sides connected with the pressing rods 9 move upwards, and the positions of the pressing rods 9 pressing the flange edges of the end faces slightly offset outwards; the position of the pressing plate for pressing the end face flange can be adjusted through the two adjusting modes. The contact position of the end face flange and the upper end face of the hemispherical shell is adjusted according to the two adjusting modes.

Fifthly, after the inner supporting block of the inner supporting mechanism is adjusted to be in contact with the inner wall of the hemispherical shell, after the end flange is pressed and fixed by the pressing plate of the outer mechanism, a welding tool is used for full welding on a circumferential circle at the joint where the end flange is in contact with the hemispherical shell, and the hemispherical shell and the end flange are made of stainless steel 304 and are welded by argon arc welding with a welding rod which is a stainless steel welding rod.

Sixthly, after the joint of the lower end face of the end face flange and the hemispherical shell is fully welded for one circle, firstly, when the sliding sleeve 18 is adjusted to rotate anticlockwise, the sliding sleeve 18 drives the locking block 17 to move upwards simultaneously, the inner side end of the connecting rod 16 moves upwards, the outer side end of the connecting rod 16 moves downwards, the four inner supporting blocks are connected through the connecting seat 20 and move downwards simultaneously, and at the moment, the inner supporting block 19 is separated from the inner wall of the hemispherical shell; and then the first screw 13 is rotated by using a wrench tool, so that the extension height of the first screw is increased, the pressure rod 9 is promoted to be lifted, and therefore 8 pressure plates 15 which are tightly pressed on the upper surface of the end face flange are arranged and are simultaneously separated from the end face flange. And manually taking out a finished product welded by the hemispherical shell and the end face flange.

Although the illustrative embodiments of the present invention have been described above to enable those skilled in the art to understand the present invention, the present invention is not limited to the scope of the embodiments, and it is apparent to those skilled in the art that all the inventive concepts using the present invention are protected as long as they can be changed within the spirit and scope of the present invention as defined and defined by the appended claims.

Claims (7)

1. The utility model provides a hemisphere welding tool equipment which characterized in that: the device comprises a positioning base (1), a hemispherical shell (2) and a hemispherical press-fitting mechanism (3), wherein an end face flange is welded on the upper end face of the hemispherical shell, and full welding is carried out in the circumferential direction of an annular welding line.

2. Hemisphere welding fixture device according to claim 1, characterized by that the positioning seat (1) is composed of square bottom plate (4), support rod (5), screw (22); the three welding modes are formed, a screw rod (22) is welded in the middle of a square bottom plate (4), the screw rod is made of seamless steel tubes and is externally twisted, a round boss is arranged on the upper surface of the square bottom plate (4), the center of the square bottom plate is hollowed out, 4 rib plates are welded in 90-degree positions respectively, two support rods (5) are perpendicularly welded on each rib plate, and a certain size gap is reserved between every two support rods (5).

3. Hemisphere welding fixture device according to claim 1, characterized by that, the hemisphere shell (2), is half of the sealed spheroid with wall thickness of 1mm, this work piece is used in the experiment cabin.

4. Hemisphere welding fixture device according to claim 1, characterized by that hemisphere pressure equipment mechanism (3) divide into outside pressure equipment mechanism (6), inside supporting mechanism (7) two parts.

5. The hemisphere welding tool device according to claim 4, characterized in that the external press-fitting mechanism (6) is provided with a first middle screw (13) with an upper connecting rod mounting seat (14) at the upper end thereof and a lower connecting rod mounting seat (12) at the lower end thereof, wherein 8 lifting lugs are uniformly arranged on the first connecting rod mounting seat (14) in the circumferential direction and are respectively connected with the upper ends of the compression rods (9) through pin shafts, the first screw (13) with the lower connecting rod mounting seat (12) at the lower end thereof is provided with 8 lifting lugs which are uniformly arranged thereon and face upward, the lifting lugs are respectively inserted into grooves in the middle portions of the compression rods (9) and are connected with each other through the pin shafts, and a pressing plate (15) is welded on the lower end surface of each compression rod (9) and is. The upper end part of the pressing rod (9) is connected with the connecting rod mounting seat (14), the middle part of the pressing rod is connected with the driving connecting rod (11) through a groove, the lower end part of the pressing rod (9) is welded with the pressing plate (15) at an included angle of 30 degrees, the welding part of the pressing rod (9) and the pressing plate (15) adopts a full-length welding mode, and the lower surface of the pressing plate (15) is subjected to milling plane processing after the whole welding, so that the flatness of the pressing plate is guaranteed.

6. A hemisphere welding tooling device according to claim 3, characterized in that after the end face flange is placed on the upper end face of the half-shell sphere, the vertical position of the connecting rod mounting seat (14) relative to the first screw rod is manually adjusted, so that the included angle formed by the 8 connecting rods (9) connected with the connecting rod mounting seat and the end face flange placed horizontally is reduced, and the pretightening force of the pressing plate (15) to the end face flange is increased. When the connecting rod mounting seat lower part (12) is adjusted and rotates anticlockwise, the connecting rod mounting seat lower part (12) moves upwards, the end parts of the inner sides of 8 driving connecting rods (11) in the circumferential direction move upwards, the end part of the other side connected with the pressing rod (9) moves downwards, and the position of the pressing rod (9) pressing the end face flange edge slightly deviates inwards; when the lower connecting rod mounting seat (12) is adjusted and rotates clockwise, the lower connecting rod mounting seat (12) moves downwards, the end parts of the inner sides of 8 driving connecting rods (11) in the circumferential direction move downwards, the end parts of the other sides connected with the pressing rods (9) move upwards, and the positions of the pressing end face flange edges of the pressing rods (9) slightly deviate outwards; the position of the pressing plate for pressing the end face flange can be adjusted through the two adjusting modes.

7. Hemisphere welding fixture device according to claim 4, characterized by that the inside of the internal support mechanism (7), the sliding sleeve (18) is processed into internal thread, the number of locking blocks (17) is 4, 4 locking blocks (17) are uniformly arranged in the circumferential direction outside the sliding sleeve, the locking blocks (17) and the sliding sleeve (18) are arranged in an interference fit manner, one end of the connecting rod (16) is in a groove shape, the end part of the connecting rod is provided with a hole, the other end of the connecting rod is provided with a hole, the groove shape of one end of the connecting rod (16) is fixedly connected with the locking blocks (17) through pin shafts, the other end of the connecting rod (16) is inserted into the rectangular groove of the connecting seat (20), the inner supporting block (19) is an arc-shaped block, the upper end of the inner supporting block can be attached to the inner wall of a sphere by an inclination, and the middle position of the connecting rod (16) is arranged between 2 supporting rods (5) and is fixedly connected by a pin shaft. When the adjusting sliding sleeve (18) rotates anticlockwise, the sliding sleeve (18) drives the locking block (17) to move upwards at the same time, the end part of the inner side of the connecting rod (16) moves upwards, the end part of the outer side of the connecting rod (16) moves downwards, the four inner supporting blocks are connected through the connecting seat (20) and simultaneously move downwards, and at the moment, the inner supporting blocks (19) are gradually separated from the inner wall of the half-shell sphere; when adjusting sliding sleeve (18) clockwise rotation, sliding sleeve (18) drive latch segment (17) downstream simultaneously, and the medial extremity of connecting rod (16) is downward, and the lateral extremity rebound of connecting rod (16), through the connection of connecting seat (20), make four interior bracers rebound simultaneously, interior bracer (19) laminate half spheroidal inner wall gradually this moment, play the supporting role. When the half-shell sphere and the end face flange are welded, the inner wall of the half-shell sphere is supported, and welding deformation is reduced.

Images