CN219379615U - Be applied to large-scale welded three-dimensional positioning frock - Google Patents

Abstract

The utility model discloses a welding tool, in particular to a three-dimensional positioning tool applied to large-scale welding, which comprises a frame body, a main beam, a longitudinal beam, an auxiliary cross beam, an auxiliary oblique beam, a positioning protrusion and a positioning hole, wherein the frame body comprises a first side beam, a second side beam and a first cross beam; the first cross beam is arranged at the front ends of the first side beam and the second side beam, the main beam is fixedly arranged in the middle of the first measuring beam and the second side beam, the longitudinal beams are respectively and vertically arranged at two sides of the main beam, the positioning protrusions are used for being matched with concave cavities on the pipe fittings to be welded, and the positioning holes are formed in the positioning protrusions. According to the utility model, the plurality of positioning bulges are arranged on the frame body, and are matched with the concave cavities on the pipe fitting to be welded, so that the pipe fitting can not displace in the welding process, and meanwhile, the plurality of positioning holes are arranged on the positioning bulges, so that a plurality of clamps can be used for mounting, and the pipe fitting is clamped by the clamps, so that the welding effect of the pipe fitting can be effectively improved.

Description

Be applied to large-scale welded three-dimensional positioning frock

Technical Field

The utility model relates to the technical field of welding, in particular to a three-dimensional positioning tool applied to large-scale welding.

Background

The welding fixture is a set of flexible fixture for welding, fixing, compressing and positioning, and is mainly used for welding various weldable materials.

The patent with publication number CN218341403U discloses a hydraulic support structural member welding positioning tool, which comprises a chassis and a positioning mechanism; and (3) a chassis: the middle part of the upper surface of the hollow positioning table is provided with a circular opening, the upper end of the inside of the circular opening is rotationally connected with the hollow positioning table through a bearing, and the upper surface of the hollow positioning table is provided with transverse sliding openings which are symmetrical front and back; positioning mechanism: the novel positioning device comprises a pin rod, a sleeve frame, a sleeve rod and an upright post, wherein the pin rod is symmetrically and rotatably connected to the inside of a hollow positioning table through bearings, the sleeve frame is fixedly sleeved at the upper end of the pin rod, the sleeve rod is slidably connected to the inside of the sleeve frame, and the upright post is arranged at the outer end of the upper surface of the sleeve rod.

Although the above scheme is to clamp and fix the welding piece through the stand column arranged on the loop bar, when the scheme is used for welding, the stand column is round, so that the welding piece is in line contact with the stand column when the welding piece is clamped, sliding is easy to occur, and therefore the welding deviation of the welding piece is too large, and the welding piece cannot be used.

Disclosure of Invention

The utility model aims to solve the problem that the welding deviation is overlarge because each component on a rack is inconvenient to fix when a large-scale positioning tool is used for welding, and provides a three-dimensional positioning tool applied to large-scale welding.

Be applied to large-scale welded three-dimensional positioning frock, include

The frame body comprises a first side beam, a second side beam and a first cross beam; the first cross beam is arranged between the front end surfaces of the first side beam and the second side beam;

the main beam is fixedly arranged in the middle of the first measuring beam and the second side beam and is parallel to the first cross beam;

the longitudinal beams are provided with a plurality of longitudinal beams which are respectively and vertically arranged on two sides of the main beam;

the auxiliary cross beam is used for fixedly connecting the auxiliary longitudinal beam with the frame body;

the auxiliary inclined beam is used for fixedly connecting the auxiliary longitudinal beam with the frame body;

the positioning protrusions are arranged and are used for being matched with the concave cavities on the pipe fitting to be welded, and the pipe fitting to be welded is fixed;

the locating holes are formed in the locating protrusions and are used for installing the clamp.

Preferably: the longitudinal beams are six, namely a first longitudinal beam, a second longitudinal beam, a third longitudinal beam, a fourth longitudinal beam, a fifth longitudinal beam and a sixth longitudinal beam, wherein the first longitudinal beam, the second longitudinal beam and the third longitudinal beam are arranged on the front side of the main beam, and the third longitudinal beam, the fourth longitudinal beam, the fifth longitudinal beam and the sixth longitudinal beam are arranged at the bottom of the main beam.

Preferably: and rib plates are arranged at the joints of the fourth longitudinal beam, the fifth longitudinal beam and the sixth longitudinal beam and the main beam.

Preferably: the auxiliary cross beams are three, namely a first auxiliary cross beam, a second auxiliary cross beam and a third auxiliary cross beam, wherein the first auxiliary cross beam is arranged on one side of the first side beam and is connected with the sixth longitudinal beam, and the second auxiliary cross beam is arranged on one side of the sixth longitudinal beam and is connected with the fourth longitudinal beam; the third auxiliary cross beam is arranged on one side of the second side beam and is connected with the fourth longitudinal beam.

Preferably: the auxiliary oblique beams are two, namely a first auxiliary oblique beam and a second auxiliary oblique beam, the first auxiliary oblique beam is arranged on one side of the first side beam and is connected with the third longitudinal beam, and the second auxiliary oblique beam is arranged on one side of the second side beam and is connected with the first longitudinal beam.

Preferably: the positioning protrusions are seven, namely a first protrusion, a second protrusion, a third protrusion, a fourth protrusion, a fifth protrusion, a sixth protrusion and a seventh protrusion, wherein the first protrusion, the second protrusion, the third protrusion and the third protrusion are sequentially arranged on the upper surface of the first cross beam, the fourth protrusion is arranged on the upper surface of the first longitudinal beam, the fifth protrusion and the sixth protrusion are arranged on one side of the main beam, the fifth protrusion is located between the first longitudinal beam and the second longitudinal beam, the sixth protrusion is located between the second longitudinal beam and the third longitudinal beam, and the seventh protrusion is arranged on the upper surface of the third longitudinal beam.

Preferably: the upper surface of girder is provided with the roof.

Preferably: and forklift fixing plates are arranged at the bottoms of the first cross beam and the second auxiliary cross beam.

The beneficial effects of the utility model are as follows:

1. the pipe fitting to be welded is fixed through the cooperation of support body, girder, longeron, auxiliary crossbeam, auxiliary sloping, location arch and locating hole, and the location arch can cooperate with the recess of waiting to weld the pipe fitting, can be convenient for wait to weld the pipe fitting to fix to be provided with a plurality of locating holes on the location arch and install through many anchor clamps, carry out the centre gripping to the pipe fitting through the anchor clamps can effectually improve the welding effect of pipe fitting.

2. Through setting up supplementary crossbeam and supplementary sloping for the support body can be more stable with being connected of girder, can improve the connection stability between longeron and the support body simultaneously.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged view of the utility model at A;

FIG. 3 is a schematic view of a frame of the present utility model;

FIG. 4 is a schematic view of a positioning boss of the present utility model;

FIG. 5 is a schematic view of a main beam of the present utility model;

FIG. 6 is a schematic view of the installation of the clamp of the present utility model.

In the figure, 1, a frame body; 11. a first side member; 12. a second side member; 13. a first cross beam; 2. a main beam; 21. a top plate; 3. a longitudinal beam; 31. a first stringer; 32. a second stringer; 33. a third stringer; 34. a fourth stringer; 35. a fifth stringer; 36. a sixth stringer; 37. rib plates; 4. an auxiliary cross beam; 41. a first auxiliary beam; 42. a second auxiliary beam; 43. a third auxiliary cross member; 5. an auxiliary oblique beam; 51. a first auxiliary diagonal beam; 52. a second auxiliary diagonal beam; 6. positioning the bulge; 61. a first protrusion; 62. a second protrusion; 63. a third protrusion; 64. a fourth protrusion; 65. a fifth protrusion; 66. a sixth protrusion; 67. a seventh protrusion; 7. positioning holes; 8. and a forklift fixing plate.

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples. The utility model may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present utility model. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict.

It should be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present utility model by way of illustration, and only the components related to the present utility model are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complicated.

Example 1

As shown in figures 1-6 of the drawings,

a three-dimensional positioning tool applied to large-scale welding comprises a frame body 1, a main beam 2, a longitudinal beam 3, an auxiliary cross beam 4, an auxiliary oblique beam 5, a positioning protrusion 6 and a positioning hole 7.

The frame body 1 includes a first side member 11, a second side member 12, and a first cross member 13; the first cross member 13 is provided at the front ends of the first side member 11 and the second side member 12, and specifically, the first side member 11, the second side member 12 and the first cross member 13 are connected together by welding, so that the frame body 1 can be more stable.

The girder 2 is fixed to be set up in the middle part of first measurement and second curb girder 12, and is parallel with first crossbeam 13, and specifically girder 2 welds in the middle part of first curb girder 11 and second curb girder 12 to the upper surface of girder 2 is provided with roof 21, can effectually avoid girder 2 to receive the damage through roof 21.

The stringers 3 are provided in plural and vertically disposed on both sides of the main girder 2, specifically, the stringers 3 are provided with six, namely, a first stringer 31, a second stringer 32, a third stringer 33, a fourth stringer 34, a fifth stringer 35 and a sixth stringer 36, the first stringer 31, the second stringer 32 and the third stringer 33 are disposed on the front side of the main girder 2 by welding, the third stringer 33, the fourth stringer 34, the fifth stringer 35 and the sixth stringer 36 are disposed on the bottom of the main girder 2 by welding, and the first stringer 31, the second stringer 32 and the third stringer 33 are disposed opposite to the three stringers 3, the fourth stringer 34, the fifth stringer 35 and the sixth stringer, so that the frame 1 can support welded pipes well.

The upper surfaces of the first longitudinal beam 31, the second longitudinal beam 32, the third longitudinal beam 33, the fourth longitudinal beam 34, the fifth longitudinal beam 35 and the sixth longitudinal beam 36 are provided with a plurality of mounting holes, and the positioning protrusions 6 can be conveniently fixed through the mounting holes, so that the positioning protrusions 6 cannot displace when being welded on the longitudinal beam 3, and the welding precision of the positioning protrusions is improved.

The auxiliary cross members 4 are provided with three, namely, a first auxiliary cross member 41, a second auxiliary cross member 42 and a third auxiliary cross member 43, the first auxiliary cross member 41 being provided on one side of the first side member 11 and connected to the sixth longitudinal member 36, the second auxiliary cross member 42 being provided on one side of the sixth longitudinal member 36 and connected to the fourth longitudinal member 34; the third auxiliary cross member 43 is provided at one side of the second side member 12 and is connected to the fourth side member 34, and specifically, the stability of the frame body 1 can be further improved by providing an auxiliary cross member 4, a second auxiliary cross member 42, and the third auxiliary cross member 43 connected to the fourth side member 34, the fifth side member 35, and the sixth side member 36.

The auxiliary diagonal beams 5 are provided with two auxiliary diagonal beams, namely, a first auxiliary diagonal beam 51 and a second auxiliary diagonal beam 52, specifically, the first auxiliary diagonal beam 51 is arranged on one side of the first side beam 11 and is connected with the third longitudinal beam 33, the second auxiliary diagonal beam 52 is arranged on one side of the second side beam 12 and is connected with the first longitudinal beam 31, so that the connection stability of the first longitudinal beam 31 and the third longitudinal beam 33 with the frame body 1 can be effectively improved, and the longitudinal beam 3 and the frame body 1 can be better connected;

the positioning bulges 6 are provided with a plurality of positioning bulges 6, the specific positioning bulges 6 are provided with seven positioning bulges which are respectively a first bulge 61, a second bulge 62, a third bulge 63, a fourth bulge 64, a fifth bulge 65, a sixth bulge 66 and a seventh bulge 67, the first bulge 61, the second bulge 62, the third bulge 63 are sequentially arranged on the upper surface of the first cross beam 13, the fourth bulge 64 is arranged on the upper surface of the first longitudinal beam 31, the fifth bulge 65 and the sixth bulge 66 are arranged on one side of the main beam 2, the fifth bulge 65 is positioned between the first longitudinal beam 31 and the second longitudinal beam 32, the sixth bulge 66 is positioned between the second longitudinal beam 32 and the third longitudinal beam 33, the seventh bulge 67 is arranged on the upper surface of the third longitudinal beam 33, and the seven positioning bulges 6 can be convenient to be matched with a concave cavity on a piece to be welded, and meanwhile, the welded pipe fitting can be fixed, so that the welding quality of the pipe fitting can be stably improved during welding;

the locating holes 7 are formed in a plurality of positions, the locating holes 7 are formed in the locating protrusions 6, and specifically, the locating holes 7 can be determined according to different fixtures installed on the locating protrusions 6, and the fixtures can be installed conveniently.

The bottom of first crossbeam 13 and second auxiliary crossbeam 42 all is provided with fork truck fixed plate 8, specifically, through setting up fork truck fixed plate 8 in the bottom of support body 1 can be convenient for remove support body 1, also can be convenient for carry out the clamping to welded pipe fitting simultaneously.

The working process of the utility model

When in use, the main beam 2 is welded at the middle parts of the first side beam 11 and the second side beam 12, the main beam 2 is parallel to the first cross beam 13, three longitudinal beams 3 are welded at two sides of the main beam 2 respectively, the longitudinal beams 3 are connected with the frame body 1 into a whole through the auxiliary cross beams 4, the positioning protrusions 6 are arranged on the upper surfaces of the different longitudinal beams 3, the welding parts can be preliminarily fixed through the positioning protrusions 6, the positioning holes 7 on the positioning protrusions 6 can be convenient for installing various clamps, the welding parts can be fixed through the clamps, the frame body 1 can be fast fixed on the pipe fittings to be welded, and the welding quality is improved.

The foregoing examples merely illustrate specific embodiments of the utility model, which are described in greater detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (8)

1. Be applied to large-scale welded three-dimensional positioning frock, its characterized in that: comprising

The frame body (1), the frame body (1) comprises a first side beam (11), a second side beam (12) and a first cross beam (13); the first cross beam (13) is arranged between the front ends of the first side beam (11) and the second side beam (12);

the main beam (2) is fixedly arranged in the middle of the first side beam (11) and the second side beam (12) and is parallel to the first cross beam (13);

the longitudinal beams (3) are arranged, and the longitudinal beams (3) are respectively and vertically arranged on two sides of the main beam (2);

the auxiliary cross beam (4) is used for fixedly connecting the auxiliary longitudinal beam (3) with the frame body (1);

the auxiliary oblique beam (5) is used for fixedly connecting the auxiliary longitudinal beam (3) with the frame body (1);

the positioning bulges (6) are arranged and are used for being matched with the concave cavities on the pipe fitting to be welded, and the pipe fitting to be welded is fixed;

the positioning holes (7) are formed in the positioning protrusions (6), and the positioning holes (7) are formed in a plurality of positions and are used for installing the clamp.

2. The stereotactic tooling for large welding according to claim 1, wherein: the longitudinal beams (3) are six, namely a first longitudinal beam (31), a second longitudinal beam (32), a third longitudinal beam (33), a fourth longitudinal beam (34), a fifth longitudinal beam (35) and a sixth longitudinal beam (36), wherein the first longitudinal beam (31), the second longitudinal beam (32) and the third longitudinal beam (33) are arranged on the front side of the main beam (2), and the third longitudinal beam (33), the fourth longitudinal beam (34), the fifth longitudinal beam (35) and the sixth longitudinal beam (36) are arranged on the bottom of the main beam (2) and are positioned on the rear side of the main beam (2).

3. The stereotactic tooling for large welding according to claim 2, wherein: and rib plates (37) are arranged at the joints of the fourth longitudinal beam (34), the fifth longitudinal beam (35) and the sixth longitudinal beam (36) and the main beam (2).

4. The stereotactic tooling for large welding according to claim 2, wherein: the auxiliary beams (4) are respectively provided with a first auxiliary beam (41), a second auxiliary beam (42) and a third auxiliary beam (43), the first auxiliary beam (41) is arranged on one side of the first side beam (11) and is connected with the sixth longitudinal beam (36), and the second auxiliary beam (42) is arranged on one side of the sixth longitudinal beam (36) and is connected with the fourth longitudinal beam (34); the third auxiliary cross member (43) is provided on one side of the second side member (12) and is connected to the fourth side member (34).

5. The stereotactic tooling for large welding according to claim 2, wherein: the auxiliary oblique beams (5) are provided with two auxiliary oblique beams, namely a first auxiliary oblique beam (51) and a second auxiliary oblique beam (52), the first auxiliary oblique beam (51) is arranged on one side of the first side beam (11) and is connected with the third longitudinal beam (33), and the second auxiliary oblique beam (52) is arranged on one side of the second side beam (12) and is connected with the first longitudinal beam (31).

6. The stereotactic tooling for large welding according to claim 2, wherein: the positioning protrusions (6) are respectively arranged on the upper surface of the first cross beam (13), the first protrusions (61), the second protrusions (62), the third protrusions (63), the fourth protrusions (64), the fifth protrusions (65), the sixth protrusions (66) and the seventh protrusions (67), the first protrusions (61), the second protrusions (62) and the third protrusions (63) are sequentially arranged on the upper surface of the first cross beam (13) from left to right, the fourth protrusions (64) are arranged on the upper surface of the first longitudinal beam (31), the fifth protrusions (65) and the sixth protrusions (66) are arranged on one side of the main beam (2), the fifth protrusions (65) are located between the first longitudinal beam (31) and the second longitudinal beam (32), the sixth protrusions (66) are located between the second longitudinal beam (32) and the third longitudinal beam (33), and the seventh protrusions (67) are arranged on the upper surface of the third longitudinal beam (33).

7. The stereotactic tooling for large welding according to claim 1, wherein: the upper surface of girder (2) is provided with roof (21).

8. The stereotactic tooling for large welding according to claim 4, wherein: the bottoms of the first cross beam (13) and the second auxiliary cross beam (42) are respectively provided with a forklift fixing plate (8).