CN219945064U

CN219945064U - Cross steel column processing strutting arrangement

Info

Publication number: CN219945064U
Application number: CN202320417015.2U
Authority: CN
Inventors: 王长留; 侯菲菲; 魏芬芬; 张阳建; 王腾; 李剑; 陈为通
Original assignee: Shandong First Construction Fabricated Construction Technology Co ltd
Current assignee: Shandong First Construction Fabricated Construction Technology Co ltd
Priority date: 2023-03-08
Filing date: 2023-03-08
Publication date: 2023-11-03
Anticipated expiration: 2033-03-08

Abstract

The utility model relates to a cross steel column processing supporting device, and belongs to the technical field of steel structural member processing. Including the base, the base is rectangular plate structure, and its upper surface is the plane, and upper surface symmetry is provided with left side locating rack and right side locating rack, the edge of the first side of base is connected with left side board perpendicularly, and the edge of second side is connected with right side board perpendicularly, a plurality of promotion cylinders that are used for promoting right side locating rack to be close to or keep away from left side locating rack are installed along its length direction interval to the right side board, left side locating rack is including being used for supporting the rectangular base A of I-steel and being used for the right trapezoid piece A to left side T shaped steel location, right side locating rack is including being used for supporting the rectangular base B of I-steel and being used for carrying out the right trapezoid piece B that fixes a position to right side T shaped steel. The utility model has the beneficial effects that: greatly improves the welding forming efficiency and forming welding quality of the cross steel column, and has good practical use and popularization value.

Description

Cross steel column processing strutting arrangement

Technical Field

The utility model relates to a cross steel column processing supporting device, and belongs to the technical field of steel structural member processing.

Background

With the continuous progress and development of steel structure engineering technology, steel structure members are more and more complex in type and more in variety, wherein cross-shaped sections are more and more favored due to the advantages of good bidirectional stress performance, simplicity in processing and manufacturing, convenience in processing node stiffening plates and the like, and the cross-shaped sections are widely applied to steel columns, particularly steel-mixed structural columns of multi-high-rise steel structures. The common processing method for processing the cross-shaped section is that one H-shaped steel is welded with two T-shaped components, and the method is relatively labor-hour-consuming to assemble and is not easy to ensure the verticality.

The patent number 202121523797.5 discloses a cross steel column assembly welding jig frame, which comprises a plurality of groups of jig frame units which are arranged side by side, wherein the bottoms of the outer sides of two sides of all the jig frame units are connected into a whole through connecting rods; the jig frame unit comprises two vertical rods and a transverse supporting rod, wherein the left end and the right end of the transverse supporting rod are used for connecting the lower parts of the two vertical rods in a penetrating way, the jig frame unit is also provided with a pressing rod, one end of the pressing rod is hinged to the top of one vertical rod, and the other end of the pressing rod is provided with a bolt hole; the middle part of the compression bar is downwards provided with a top pressing plate mechanism, and symmetrical positions on the two upright posts are respectively provided with a set of side pressing plate mechanisms; the novel welding jig frame is designed, so that the welding forming of the cross steel column is greatly facilitated, and particularly, the processing forming of the large cross steel column is greatly facilitated, the welding forming efficiency and the forming welding quality of the cross steel column are greatly improved, and the welding jig frame has good practical use and popularization values.

Although the welding forming of auxiliary cross steel column can be realized to above-mentioned patent, the present technical consideration is incomplete, has following drawback:

the left side locating rack and the right side locating rack can not be pushed to move to the left side locating rack by pushing the air cylinder, two side edges of the wing plate at the bottom of the I-steel are respectively located at the locating step A on the surface of the strip-shaped base A and the locating step B on the surface of the strip-shaped base B, and the left side locating rack and the right side locating rack are used for respectively locating the left side T-shaped steel and the right side T-shaped steel, so that the requirement of rapid assembly welding is met.

What is needed is a cross steel column processing supporting device, which is capable of moving a right locating rack to a left locating rack by pushing a cylinder, locating two side edges of a wing plate at the bottom of an I-steel at a locating step A on the surface of a strip-shaped base A and a locating step B on the surface of a strip-shaped base B respectively, locating left T-shaped steel and right T-shaped steel by using the left locating rack and the right locating rack respectively, and further meeting the requirement of quick assembly welding.

Disclosure of Invention

In order to solve one of the above problems, according to the above shortcomings in the prior art, the present utility model aims to solve the technical problems: how to realize the motion of pushing the right side locating rack to the left locating rack through pushing the cylinder, the both sides limit of the pterygoid lamina with I-steel bottom is located the location step platform A on rectangular form base A surface and the location step platform B department on rectangular form base B surface respectively and is utilized left side locating rack, right side locating rack to the location of left side T shaped steel, right side T shaped steel respectively, and then satisfies quick assembly welding's requirement, provides a cross steel column processing strutting arrangement for this reason.

The utility model discloses a cross steel column processing supporting device which is characterized by comprising a base, wherein the base is of a rectangular plate-shaped structure, the upper surface of the base is a plane, a left positioning frame and a right positioning frame are symmetrically arranged on the upper surface of the base, the edge of a first side edge of the base is vertically connected with a left side plate, the edge of a second side edge of the base is vertically connected with a right side plate, a plurality of fastening screws for fixing the left positioning frame are arranged on the left side plate at intervals along the length direction of the left side plate, a plurality of pushing cylinders for pushing the right positioning frame to approach or separate from the left positioning frame are arranged on the right side plate at intervals along the length direction of the right side plate, the left positioning frame comprises a strip-shaped base A for supporting I-shaped steel and a right trapezoid block A for positioning left T-shaped steel, and the right positioning frame comprises a strip-shaped base B for supporting the I-shaped steel and a right trapezoid block B for positioning the right T-shaped steel.

The processing steps of the cross steel column are as follows:

a1, prefabricating and processing I-steel, left-side T-shaped steel and right-side T-shaped steel;

a2, a plurality of trapezoid positioning plates A matched and positioned with the right trapezoid blocks A are welded on the lower surface of the left T-shaped steel web at intervals, and trapezoid positioning plates B matched and positioned with the right trapezoid blocks B are welded on the lower surface of the right T-shaped steel web at intervals;

a3, hoisting the I-steel to the upper part of the base by using a hoisting tool, and gradually reducing the height of the I-steel until the bottom wing plate of the I-steel is slightly pressed on the strip-shaped base A and the right trapezoid block A;

a4, pushing the right locating rack to move towards the left locating rack by pushing the air cylinder, and respectively locating two side edges of the wing plate at the bottom of the I-steel at the locating step A on the surface of the strip-shaped base A and the locating step B on the surface of the strip-shaped base B;

a5, hoisting left T-shaped steel, gradually inserting a right trapezoid block A into a positioning groove formed by a trapezoid positioning plate A and a wing plate of the left T-shaped steel, finally attaching a side surface A to the surface of the wing plate of the left T-shaped steel, attaching a top surface A to the surface of a web plate of the left T-shaped steel, attaching the trapezoid positioning plate A to the surface of an inclined surface A, enabling one end of the web plate of the left T-shaped steel to be close to a web plate of I-shaped steel, and welding the web plate of the left T-shaped steel on the upper web plate of the I-shaped steel by using a welding tool;

a6, adopting the same operation flow to weld the web plate of the right-side T-shaped steel on the other side of the web plate of the I-shaped steel;

a7, assembling and welding the I-steel, the left side T-shaped steel and the right side T-shaped steel to form a cross steel column processing supporting device;

and A8, hanging the assembly from the left locating frame and the right locating frame, and pushing the cylinder to drive the right locating frame to restore to the initial state.

Preferably, a plurality of bolt holes for the fastening screw to penetrate are formed in the left side plate, a fastening screw is arranged on each bolt hole, a screw rod of the fastening screw penetrates through the bolt hole to be connected with the strip-shaped base A of the left side positioning frame, the left side positioning frame is fixed on the inner wall of the left side plate, the installation is convenient, and the fixing and positioning of the left side positioning frame are realized.

Preferably, a plurality of through holes for the piston rod to penetrate are formed in the right side plate, each through hole is correspondingly provided with a pushing cylinder, the cylinder body of each pushing cylinder is fixed on the outer wall of the right side plate, the telescopic rod of each pushing cylinder penetrates through the corresponding through hole to be fixedly connected with the strip-shaped base B of the right side positioning frame, the piston rod of each pushing cylinder pushes the right side positioning frame to be close to the left side positioning frame by controlling the pushing cylinder to extend, and the piston rod of each pushing cylinder can be controlled to retract to pull the right side positioning frame away from the left side positioning frame.

Preferably, the left side locating rack includes rectangular form base A that sets up along base length direction, rectangular form base A upper surface is provided with rectangular trapezoid block A and location step platform A that sets up along rectangular form base A length direction, and rectangular trapezoid block A is used for the location to left side T shaped steel, and location step platform A is used for the location to the I-steel, the top surface A at rectangular trapezoid block A top is the plane, and the side A of rectangular trapezoid block A one side is perpendicular with top surface A, rectangular trapezoid block A's opposite side is inclined plane A, the contained angle between inclined plane A and the top surface A is the obtuse angle. The inclined plane A is matched with the trapezoid positioning plate A, and the left T-shaped steel is driven to gradually approach the I-shaped steel along with the descending of the left T-shaped steel, so that the position between the left T-shaped steel and the I-shaped steel is fixed.

Preferably, the left side locating rack includes rectangular form base B that base length direction set up, rectangular form base B upper surface is provided with right trapezoid piece B and location step B that set up along rectangular form base B length direction, and right trapezoid piece B is used for the location to right side T shaped steel, and location step B is used for the location to the I-steel, the top surface B at right trapezoid piece B top is the plane, and the side B of right trapezoid piece B one side is perpendicular with top surface B, the opposite side of right trapezoid piece B is inclined plane B, the contained angle between inclined plane B and the top surface B is the obtuse angle. The inclined plane B is matched with the trapezoid positioning plate B, and the right T-shaped steel is driven to gradually approach the I-shaped steel along with the descending of the right T-shaped steel, so that the position between the right T-shaped steel and the I-shaped steel is fixed.

Preferably, the base, the left side plate and the right side plate are all steel plates and can be fixed on the ground or the frame through embedded parts.

Compared with the prior art, the utility model has the following beneficial effects:

according to the cross steel column processing supporting device, the right locating rack is pushed to move towards the left locating rack by the pushing air cylinder, two side edges of the wing plate at the bottom of the I-steel are respectively located at the locating step A on the surface of the strip-shaped base A and the locating step B on the surface of the strip-shaped base B, and the left T-shaped steel and the right T-shaped steel are respectively located by the left locating rack and the right locating rack, so that the requirement of rapid assembly welding is met.

According to the cross steel column processing supporting device, the inclined plane A is matched with the trapezoid positioning plate A, the left side T-shaped steel is driven to be gradually close to the I-shaped steel along with the descending of the left side T-shaped steel, the position fixing between the left side T-shaped steel and the I-shaped steel is achieved, the inclined plane B is matched with the trapezoid positioning plate B, the right side T-shaped steel is driven to be gradually close to the I-shaped steel along with the descending of the right side T-shaped steel, the position fixing between the right side T-shaped steel and the I-shaped steel is achieved, great convenience is brought, the welding forming efficiency of the cross steel column and the forming welding quality are greatly improved, and the cross steel column processing supporting device has good practical use and popularization value.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

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

FIG. 2 is a flowchart illustrating the operation of the present utility model;

FIG. 3 is a second flowchart illustrating the operation of the present utility model;

FIG. 4 is a third flowchart of the operation of the present utility model;

FIG. 5 is a flowchart of the operation of the present utility model;

FIG. 6 is a flowchart fifth operation of the present utility model;

FIG. 7 is a flowchart of the operation of the present utility model;

FIG. 8 is a flow chart of operation of the present utility model;

in the figure: 1. base 2, left side locating rack 2.1, rectangular base A2.2, right trapezoid block A2.3, top surface A2.4, side surface A2.5, inclined plane A2.6, location ladder platform A3, right side locating rack 3.1, rectangular base B3.2, right trapezoid block B3.3, top surface B3.4, side surface B3.5, inclined plane B3.6, location ladder platform B4, fastening screw 5, pushing cylinder 6, left side board 7, right side board 8, I-steel 9, left side T shaped steel 10, right side T shaped steel 11, trapezoid locating plate A12, trapezoid locating plate B.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

the present utility model is further illustrated by the following examples, which are not intended to be limiting, but any modifications, equivalents, improvements, etc. within the spirit and principles of the present utility model are intended to be included within the scope of the present utility model.

Embodiment 1, as shown in fig. 1, a cross steel column processing supporting device, including base 1, base 1 is rectangular platy structure, and its upper surface is the plane, and upper surface symmetry is provided with left side locating rack 2 and right side locating rack 3, the edge of the first side of base 1 is connected with left side board 6 perpendicularly, and the edge of second side is connected with right side board 7 perpendicularly, a plurality of fastening screw 4 that are used for fixing left side locating rack 2 are installed along its length direction interval to left side board 6, right side board 7 is installed along its length direction interval a plurality of pushing cylinder 5 that are used for pushing right side locating rack 3 to be close to or keep away from left side locating rack 2, left side locating rack 2 includes rectangular base A2.1 that is used for supporting I steel 8 and right trapezoid piece A2.2 that is used for the location to left side T shaped steel 9, right side locating rack 3 includes rectangular base B3.1 that is used for supporting I steel 8 and right side T shaped steel 10 carries out the right trapezoid piece B3.2 that is used for the location.

The processing steps of the cross steel column are as follows:

a1, prefabricating and processing I-steel 8, left-side T-shaped steel 9 and right-side T-shaped steel 10;

a2, a plurality of trapezoid positioning plates A11 matched and positioned with the right trapezoid blocks A2.2 are welded on the lower surface of the left side T-shaped steel 9 web plate at intervals, and trapezoid positioning plates B12 matched and positioned with the right trapezoid blocks B3.2 are welded on the lower surface of the right side T-shaped steel 10 web plate at intervals;

a3, hoisting the I-steel 8 above the base 1 by using a hoisting tool, and gradually lowering the height of the I-steel 8 until the bottom wing plate of the I-steel 8 is slightly pressed on the strip-shaped base A2.1 and the right trapezoid block A2.2 (shown in figure 2);

a4, pushing the right positioning frame 3 to move towards the left positioning frame 2 by pushing the air cylinder 5, and respectively positioning two side edges of a wing plate at the bottom of the I-steel 8 at the positioning step A2.6 on the surface of the strip-shaped base A2.1 and the positioning step B3.6 on the surface of the strip-shaped base B3.1 (as shown in figure 3);

a5, hoisting the left T-shaped steel 9, gradually inserting the right trapezoid block A2.2 into a positioning groove formed by a trapezoid positioning plate A11 and a wing plate of the left T-shaped steel 9 (shown in figure 4), attaching the side surface A2.4 to the surface of the wing plate of the left T-shaped steel 9, attaching the top surface A2.3 to the surface of a web plate of the left T-shaped steel 9, attaching the trapezoid positioning plate A11 to the surface of an inclined plane A2.5, enabling one end of the web plate of the left T-shaped steel 9 to be close to the web plate of the I-shaped steel 8 (shown in figure 5), and welding the web plate of the left T-shaped steel 9 on the upper web plate of the I-shaped steel 8 by using a welding tool;

a6, the web plate of the right T-shaped steel 10 is welded on the other side of the web plate of the I-shaped steel 8 by adopting the same operation flow (as shown in figures 6 and 7);

a7, assembling and welding the I-steel 8, the left T-shaped steel 9 and the right T-shaped steel 10 to form a cross steel column processing supporting device;

a8, the assembly is lifted away from the left positioning frame 2 and the right positioning frame 3 (as shown in fig. 8), and the pushing cylinder 5 drives the right positioning frame 3 to restore to the initial state.

Further, a plurality of bolt holes for the fastening screw 4 to penetrate are formed in the left side plate 6, a fastening screw 4 is respectively arranged on each bolt hole, a screw rod of the fastening screw 4 penetrates through the bolt hole to be connected with the strip-shaped base A2.1 of the left side positioning frame 2, the left side positioning frame 2 is fixed on the inner wall of the left side plate 6, the installation is convenient, and the fixing and positioning of the left side positioning frame 2 are realized.

Embodiment 2, as shown in fig. 1, a cross steel column processing supporting device, including base 1, base 1 is rectangular platy structure, and its upper surface is the plane, and upper surface symmetry is provided with left side locating rack 2 and right side locating rack 3, the edge of the first side of base 1 is connected with left side board 6 perpendicularly, and the edge of second side is connected with right side board 7 perpendicularly, a plurality of fastening screw 4 that are used for fixing left side locating rack 2 are installed along its length direction interval to left side board 6, right side board 7 is installed along its length direction interval a plurality of pushing cylinder 5 that are used for pushing right side locating rack 3 to be close to or keep away from left side locating rack 2, left side locating rack 2 includes rectangular base A2.1 that is used for supporting I steel 8 and right trapezoid piece A2.2 that is used for the location to left side T shaped steel 9, right side locating rack 3 includes rectangular base B3.1 that is used for supporting I steel 8 and right side T shaped steel 10 carries out the right trapezoid piece B3.2 that is used for the location.

Further, a plurality of through holes for the piston rod to penetrate are formed in the right side plate 7, each through hole is correspondingly provided with a pushing cylinder 5, the cylinder body of the pushing cylinder 5 is fixed on the outer wall of the right side plate 7, the telescopic rod penetrates through the corresponding through hole and is fixedly connected with the strip-shaped base B3.1 of the right side positioning frame 3, the piston rod of the pushing cylinder 5 pushes the right side positioning frame 3 to approach the left side positioning frame 2 by controlling the pushing cylinder 5 to stretch, and the piston rod of the pushing cylinder 5 can also be controlled to retract to pull the right side positioning frame 3 away from the left side positioning frame 2.

Further, the left side locating rack 2 includes rectangular form base A2.1 that sets up along base 1 length direction, rectangular form base A2.1 upper surface is provided with rectangular trapezoidal piece A2.2 and the location ladder platform A2.6 that set up along rectangular form base A2.1 length direction, and rectangular trapezoidal piece A2.2 is used for the location to left side T shaped steel 9, and location ladder platform A2.6 is used for the location to I-steel 8, the top surface A2.3 at rectangular trapezoidal piece A2.2 top is the plane, and the side A2.4 and the top surface A2.3 of rectangular trapezoidal piece A2.2 one side are perpendicular, the opposite side of rectangular trapezoidal piece A2.2 is inclined plane A2.5, the contained angle between inclined plane A2.5 and the top surface A2.3 is the obtuse angle, and inclined plane A2.5 cooperates with trapezoidal locating plate A11, along with the decline of left side T shaped steel 9 drive left side T shaped steel 9 gradually is close to I-steel 8, realizes the position fixation between left side T shaped steel 9 and the I-steel 8.

Further, the left side locating rack 2 includes the rectangular form base B3.1 that base 1 length direction set up, rectangular form base B3.1 upper surface is provided with right trapezoid piece B3.2 and the location ladder platform B3.6 that set up along rectangular form base B3.1 length direction, and right trapezoid piece B3.2 is used for the location to right side T shaped steel 10, and location ladder platform B3.6 is used for the location to I-steel 8, the top surface B3.3 at right trapezoid piece B3.2 top is the plane, and the side B3.4 of right trapezoid piece B3.2 one side is perpendicular with top surface B3.3, the opposite side of right trapezoid piece B3.2 is inclined plane B3.5, the contained angle between inclined plane B3.5 and the top surface B3.3 is the obtuse angle, and inclined plane B3.5 cooperates with trapezoidal locating plate B12, along with the decline drive right side T shaped steel 10 of right side T shaped steel 10 gradually is close to I-steel 8, realizes the position fixation between right side T shaped steel 10 and the I-steel 8.

Further, the base 1, the left side plate 6 and the right side plate 7 are all steel plates, and can be fixed on the ground or a frame through embedded parts.

The foregoing has shown and described the basic principles, main features and advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims

1. A cross steel column processing strutting arrangement, its characterized in that: the base is of a rectangular plate-shaped structure, the upper surface of the base is a plane, a left side locating rack and a right side locating rack are symmetrically arranged on the upper surface of the base, a left side plate is vertically connected to the edge of a first side of the base, a right side plate is vertically connected to the edge of a second side of the base, a plurality of fastening screws used for fixing the left side locating rack are installed on the left side plate at intervals along the length direction of the left side plate, a plurality of pushing cylinders used for pushing the right side locating rack to approach or depart from the left side locating rack are installed on the right side plate at intervals along the length direction of the right side plate, the left side locating rack comprises a strip-shaped base A used for supporting I-shaped steel and a right trapezoid block A used for locating left side T-shaped steel, and the right side locating rack comprises a strip-shaped base B used for supporting the I-shaped steel and a right trapezoid block B used for locating right side T-shaped steel.

2. The cross steel column processing supporting device according to claim 1, wherein the left side plate is provided with a plurality of bolt holes for the fastening screws to penetrate through, each bolt hole is provided with a fastening screw, and a screw rod penetrating through bolt hole of each fastening screw is connected with the strip-shaped base A of the left side positioning frame to fix the left side positioning frame on the inner wall of the left side plate.

3. The cross steel column processing supporting device according to claim 2, wherein a plurality of through holes for the piston rod to penetrate are formed in the right side plate, each through hole is correspondingly provided with a pushing cylinder, a cylinder body of the pushing cylinder is fixed on the outer wall of the right side plate, and a telescopic rod of the pushing cylinder penetrates through the corresponding through hole to be fixedly connected with the strip-shaped base B of the right side positioning frame.

4. The cross steel column processing supporting device according to claim 3, wherein the left side locating frame comprises a strip-shaped base A which is arranged along the length direction of the base, a right trapezoid block A and a locating step platform A which are arranged along the length direction of the strip-shaped base A are arranged on the upper surface of the strip-shaped base A, the right trapezoid block A is used for locating left side T-shaped steel, the locating step platform A is used for locating I-shaped steel, the top surface A of the top of the right trapezoid block A is a plane, the side surface A of one side of the right trapezoid block A is perpendicular to the top surface A, the other side of the right trapezoid block A is an inclined surface A, and an included angle between the inclined surface A and the top surface A is an obtuse angle.

5. The cross steel column processing supporting device according to claim 4, wherein the left locating frame comprises a strip-shaped base B arranged in the length direction of the base, a right trapezoid block B and a locating step table B are arranged on the upper surface of the strip-shaped base B and are arranged along the length direction of the strip-shaped base B, the right trapezoid block B is used for locating right-side T-shaped steel, the locating step table B is used for locating I-shaped steel, the top surface B of the top of the right trapezoid block B is a plane, the side surface B of one side of the right trapezoid block B is perpendicular to the top surface B, the other side of the right trapezoid block B is an inclined surface B, and an included angle between the inclined surface B and the top surface B is an obtuse angle.