CN215616092U - High-reliability butt joint device for welding assembly type building steel beam - Google Patents

Abstract

The utility model discloses a high-reliability butt joint device for welding an assembled building steel beam, which comprises a T-shaped steel taking butt joint device and a wing plate receiving butt joint device, wherein the T-shaped steel taking butt joint device and the wing plate receiving butt joint device are arranged on a turnover disc, the wing plate receiving butt joint device comprises two receiving butt joint supports symmetrically arranged on the turnover disc, a web plate butt joint gap is arranged between the near ends of the two receiving butt joint supports, butt joint guide bodies are fixedly arranged on the two receiving butt joint supports respectively and are positioned at one end, close to the T-shaped steel taking butt joint device, of the web plate butt joint gap, a butt joint guide channel communicated with the web plate butt joint gap is arranged between the two butt joint guide bodies, and the width of the butt joint guide channel is gradually increased towards the T-shaped steel taking butt joint device. The utility model is additionally provided with the butt joint guide body, and can be more easily adapted to the inclined web plate by utilizing the butt joint guide channel with a larger opening, so that the inclined web plate can be smoothly guided to the butt joint gap of the web plate, and the butt joint operation is ensured to be smoothly carried out.

Description

High-reliability butt joint device for welding assembly type building steel beam

Technical Field

The utility model relates to the technical field of assembly welding of construction steel beams, in particular to a high-reliability butt joint device for welding an assembly type construction steel beam.

Background

The construction steel beam is formed by welding, and is more and more popular due to flexible and changeable section and thickness. For example, when a building steel beam such as an H-beam is welded, a web is welded to a flange to form a T-beam, and the T-beam is turned over and then assembled with another flange to form the H-beam. The web plate and one wing plate are assembled and welded, and the T-shaped steel and the other wing plate are assembled and welded in advance. For example, in the patent application with the application number of '201910839976.0', namely 'section steel automatic overturning and butting assembly device', the disclosed butting assembly device is provided with a rotatable overturning plate, the overturning plate is provided with a section steel avoiding passage and a section steel butting passage, a T-shaped steel taking and butting device is arranged at the section steel avoiding passage on the overturning plate, and the T-shaped steel taking and butting device conveys the conveyed T-shaped steel to a wing plate receiving and butting device at the section steel butting passage for butting, as shown in fig. 3. The flange receiving butt joint device comprises two symmetrical receiving butt joint supports, a web butt joint gap corresponding to the web is arranged between the two receiving butt joint supports, and the web of the T-shaped steel is conveyed to the web butt joint gap before butt joint.

In practical use, the width of the two material taking clamping grooves on the T-shaped steel material taking butt joint device is fixed, and a margin is usually reserved relative to the thickness of the wing plate, so that after the two material taking clamping jaws clamp the wing plate of the T-shaped steel, the wing plate of the T-shaped steel is clamped by the two material taking clamping grooves in a diagonal inclined state, and the web plate on the T-shaped steel forms an inclined state. When T-shaped steel is delivered to the flange plate receiving and butting device by the T-shaped steel taking and butting device, a web plate on the T-shaped steel is directly abutted against a certain receiving and butting support and cannot smoothly reach a web plate butting gap, so that normal butting operation cannot be finished.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-reliability butt joint device for welding an assembly type building steel beam, which ensures that butt joint operation is carried out smoothly.

In order to solve the technical problems, the technical scheme of the utility model is as follows: assembly type building steel beam welding is with high reliability interfacing apparatus, including setting up T shaped steel material taking interfacing apparatus and pterygoid lamina material receiving interfacing apparatus on the upset dish, pterygoid lamina material receiving interfacing apparatus includes that bisymmetry sets up connect material butt joint support on the upset dish, two connect to be equipped with web butt joint clearance between the near-end of material butt joint support, two connect to be fixed respectively on the material butt joint support to be equipped with and be located web butt joint clearance is close to the butt joint guide body of T shaped steel material taking interfacing apparatus one end department, two be equipped with between the butt joint guide body with the butt joint guide way that web butt joint clearance intercommunication set up, the width of butt joint guide way to T shaped steel material taking interfacing apparatus direction crescent setting.

According to the preferable technical scheme, web supporting wheels are rotatably mounted at the web abutting gaps on the material receiving abutting supports respectively, and abutting guiding conical surfaces are arranged on the wheel surfaces of the two web supporting wheels, which are close to the T-shaped steel material taking and abutting device respectively.

As an optimal technical scheme, the T-shaped steel taking and butting device comprises a taking and butting support which is slidably mounted on the overturning plate along the butting direction, and a taking and butting driving device is arranged between the taking and butting support and the overturning plate; and the material taking butt joint support is provided with a material taking clamping device.

Due to the adoption of the technical scheme, the high-reliability butt joint device for welding the assembled building steel beam comprises a T-shaped steel taking butt joint device and a wing plate receiving butt joint device which are arranged on a turnover disc, wherein the wing plate receiving butt joint device comprises two symmetrical receiving butt joint supports arranged on the turnover disc, a web butt joint gap is arranged between the near ends of the receiving butt joint supports, two web butt joint gaps are fixedly arranged on the receiving butt joint supports and are close to butt joint guide bodies arranged at one end of the T-shaped steel taking butt joint device, butt joint guide channels communicated with the web butt joint gaps are arranged between the butt joint guide bodies, and the width of the butt joint guide channels is gradually increased towards the T-shaped steel taking butt joint device. The utility model is additionally provided with the butt joint guide body, and can be more easily adapted to the inclined web plate by utilizing the butt joint guide channel with a larger opening, so that the inclined web plate can be smoothly guided to the butt joint gap of the web plate, and the butt joint operation is ensured to be smoothly carried out.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is a schematic view of a state after butt-joint of T-section steel in the prior art.

In the figure: 1-turning over the turntable; 2-T-shaped steel taking and butting device; 21-taking and butting a support; 22-take material docking drive; 23-a material take-off jaw; 24-material taking clamping groove; 25-a take-off clamp drive; 3-the wing plate connects the butt joint device of the material; 31-material receiving butt joint support; 32-web abutment gap; 4-butting a guide body; 41-butting guide channels; 5-web support wheels; 51-butting guide conical surfaces; 6-T section steel; 61-web.

Detailed Description

The utility model is further illustrated below with reference to the figures and examples. In the following detailed description, exemplary embodiments of the utility model are described by way of illustration only. Needless to say, a person skilled in the art realizes that the described embodiments can be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in fig. 1 and 2, the high-reliability butt joint device for welding the fabricated building steel beam comprises a T-shaped steel taking butt joint device 2 and a wing plate receiving butt joint device 3 which are arranged on a turnover disc 1. The wing plate material receiving and butting device 3 comprises two material receiving and butting supports 31 symmetrically arranged on the turnover plate 1, and a web butting gap 32 is arranged between the near ends of the two material receiving and butting supports 31. The T-shaped steel taking and butting device 2 comprises a taking and butting support 21 which is arranged on the overturning plate 1 in a sliding mode along the butting direction, and a taking and butting driving device 22 is arranged between the taking and butting support 21 and the overturning plate 1; and a material taking clamping device is arranged on the material taking butt joint support 21. Conventionally, the material taking clamping device comprises two pairs of material taking clamping jaws 23 symmetrically and slidably mounted on the material taking butt-joint support 21, material taking clamping grooves 24 are respectively formed in the two material taking clamping jaws 23, and a material taking clamping driver 25 is arranged between the two material taking clamping jaws 23.

The material taking clamping driver 25 drives the two material taking clamping jaws 23 to approach each other, the two material taking clamping grooves 24 clamp wing plates on the delivered T-shaped steel 6, the material taking butt joint driving device 22 drives the material taking butt joint support 21 to slide towards the wing plate material receiving butt joint device 3, and finally the purpose is to deliver a web 61 on the T-shaped steel 6 to the web butt joint gap 32 for butt joint. The above structures and principles are easily understood by those skilled in the art in conjunction with the disclosed prior art, and will not be described in detail herein.

Two connect to material to connect to be fixed respectively on the butt joint support 31 to be equipped with and be located web butt joint clearance 32 is close to the butt joint guide body 4 of 2 one end departments of T shaped steel material taking interfacing apparatus, two be equipped with between the butt joint guide body 4 with the butt joint guide way 41 that web butt joint clearance 32 intercommunication set up, the width of butt joint guide way 41 to T shaped steel material taking interfacing apparatus 2 direction crescent sets up. In this embodiment, the docking guide body 4 is additionally provided, and the docking guide channel 41 with a larger opening can be more easily adapted to the inclined web 61, so as to smoothly guide the inclined web to the web docking gap 32, thereby ensuring that the docking operation is smoothly performed.

In this embodiment, web support wheels 5 are respectively rotatably mounted on each material receiving butt-joint support 31 at the web butt-joint gap 32, and the two web support wheels 5 can assist in supporting the web 61 sent to the web butt-joint gap 32. The two web supporting wheels 5 are respectively provided with a butt joint guiding conical surface 51 on the wheel surface close to the T-shaped steel taking and butting device 2, and the butt joint guiding conical surfaces 51 can be matched with the butt joint guiding channel 41, so that the web 61 on the T-shaped steel 6 is continuously guided to finally and accurately reach the web butting gap 32.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (3)

1. Assembly type structure girder steel welding is with high reliability interfacing apparatus, get material interfacing apparatus and pterygoid lamina and connect material interfacing apparatus including setting up the T shaped steel on the tilting disk, pterygoid lamina connects material interfacing apparatus to include that bisymmetry sets up connect material butt joint support on the tilting disk, two connect to be equipped with web butt joint clearance, its characterized in that between the near-end of material butt joint support: the two receiving butt-joint supports are respectively and fixedly provided with a butt-joint guide body which is positioned at one end of the T-shaped steel taking butt-joint device and close to the butt-joint gap of the web, a butt-joint guide channel communicated with the butt-joint gap of the web is arranged between the two butt-joint guide bodies, and the width of the butt-joint guide channel is gradually increased towards the direction of the T-shaped steel taking butt-joint device.

2. The high reliability interfacing apparatus for welding of fabricated construction steel beams according to claim 1, wherein: web supporting wheels are respectively rotatably mounted at the web abutting gaps on the material receiving abutting supports, and abutting guiding conical surfaces are respectively arranged on the wheel surfaces of the two web supporting wheels, which are close to the T-shaped steel material taking and abutting device.

3. The high reliability interfacing apparatus for welding of fabricated construction steel beams according to claim 1, wherein: the T-shaped steel taking and butting device comprises a taking and butting support which is arranged on the overturning plate in a sliding mode along the butting direction, and a taking and butting driving device is arranged between the taking and butting support and the overturning plate; and the material taking butt joint support is provided with a material taking clamping device.

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