CN109693001B - Intelligent processing system of H shaped steel of usefulness is built to steel construction building - Google Patents

Abstract

The invention relates to an H-shaped steel intelligent processing system for building a steel structure building. The clamping and positioning device comprises a rotating supporting mechanism arranged between the inner walls of the mounting frame, clamping adjusting grooves are symmetrically arranged on the left side and the right side of the mounting frame, a driving bidirectional cylinder is arranged on the mounting frame, and an execution clamping mechanism is symmetrically arranged at the two ends of the driving bidirectional cylinder. The H-shaped steel cutting clamp can solve the problems that in the building and construction process of the existing steel structure, H-shaped steel needs to be manually cut and machined, the H-shaped steel needs to be manually fixed by means of the existing clamp, H-shaped steel with different specifications needs to be manually adjusted, the H-shaped steel is clamped by the manually controlled clamp, the cutting and machining stability is poor, a cutting saw blade is easily broken due to vibration of the H-shaped steel during cutting, the machining cost is increased, the operation is complex, the labor intensity is high, the working efficiency is low and the like.

Description

Intelligent processing system of H shaped steel of usefulness is built to steel construction building

Technical Field

The invention relates to the technical field of steel structure buildings, in particular to an H-shaped steel intelligent processing system for building a steel structure building.

Background

The steel structure building is one of the main building structure type in present society, the steel structure building adopts special construction's shaped steel to weld the dress and builds, H shaped steel is one of the main material of building the steel structure building, need cut H shaped steel according to the actual working condition when building the steel structure building, but need artifically carry out cut machining to H shaped steel among the current steel structure building construction process, it fixes H shaped steel to need artifically with the help of current anchor clamps, the H shaped steel of different specifications needs manual regulation anchor clamps, and manual control anchor clamps centre gripping H shaped steel cut machining poor stability, lead to the cutting saw bit to stretch over because of the vibration of H shaped steel during the cutting easily, the cost of processing has been increased, the operation is complicated, intensity of labour is big and work efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides an H-shaped steel intelligent processing system for steel structure building construction, which can solve the problems that in the existing steel structure building construction process, H-shaped steel needs to be cut and processed manually, the H-shaped steel needs to be fixed manually by means of an existing clamp, H-shaped steel of different specifications needs to be adjusted manually, the H-shaped steel is clamped by a manual control clamp, the cutting and processing stability is poor, a cutting saw blade is easy to stretch off due to vibration of the H-shaped steel during cutting, the processing cost is increased, the operation is complex, the labor intensity is high, the working efficiency is low and the like, can realize the function of cutting and processing the H-shaped steel intelligently, stably and efficiently, does not need manual operation, and has the advantages of good stability, simplicity in operation, low labor intensity and the like.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides an intelligent system of processing of H shaped steel of steel construction building usefulness, includes the installing frame, bilateral symmetry is provided with centre gripping positioner around the installing frame.

The clamping and positioning device comprises a rotating supporting mechanism installed between the inner walls of an installation frame, clamping adjustment grooves are symmetrically formed in the left side and the right side of the installation frame, a driving bidirectional cylinder is installed on the installation frame, an executing clamping mechanism is symmetrically arranged at the two ends of the driving bidirectional cylinder and is located in the clamping adjustment grooves, the rotating supporting mechanism automatically adapts to adjustment operation according to the specification of H-shaped steel, and the executing clamping mechanism clamps and fixes the H-shaped steel.

The rotary supporting mechanism comprises a rotary roller which is installed between the inner walls of the installation frame through a bearing, the rotary roller is of a hollow structure, a feeding groove is uniformly formed in the rotary roller along the circumferential direction of the rotary roller, a lifting driving cylinder is arranged in the middle of the inner wall of the rotary roller, the top end of the lifting driving cylinder is installed on a lifting driving plate through a flange, the lower end of the lifting driving plate abuts against a feeding adjusting branched chain, and the lifting driving cylinder controls the lifting driving plate to perform lifting operation so as to drive the feeding adjusting branched chain to perform width adjustment.

The actuating clamping mechanism comprises an actuating moving frame arranged on a driving bidirectional cylinder, the lower end of the actuating moving frame is located in a clamping adjusting groove, an actuating clamping frame is arranged at the lower end of the actuating moving frame, clamping operation grooves are symmetrically formed in the side wall of the actuating clamping frame, a clamping operation branched chain is arranged in each clamping operation groove, the driving bidirectional cylinder controls each clamping operation branched chain to conduct width adjusting operation, and the clamping operation branched chains conduct clamping fixing operation on two sides of the upper end of the H-shaped steel.

The feeding adjusting branched chain comprises a feeding adjusting rod which is arranged on the inner wall of the rotating roller through a pin shaft, a feeding return spring is connected between the feeding adjusting rod and the inner wall of the rotating roller, the feeding adjusting rod is abutted against a feeding annular frame, the feeding annular frame is arranged on the inner wall of the rotating roller through a feeding telescopic rod, a feeding buffer spring is sleeved on the feeding telescopic rod, the feeding annular frame is located in a feeding groove, an annular supporting block is arranged on the outer wall of the feeding annular frame, and the annular supporting block is connected with the rotating roller in a sliding fit mode. When the lifting drive plate moves, the lifting drive plate and the feeding return spring are matched with each other to control the feeding adjusting rod to perform angle adjusting operation, the feeding adjusting rod and the feeding telescopic rod are matched with each other to control the annular supporting block to perform left-right adjusting movement, and the feeding buffer spring plays a role in resetting the annular supporting block.

The clamping operation branched chain comprises a clamping rubber block arranged on the inner wall of an execution clamping frame, an execution clamping plate is arranged on the inner wall of the execution clamping frame through a clamping telescopic rod, a clamping reset spring is sleeved on the clamping telescopic rod, a clamping driven rod is arranged on the side wall of the execution clamping plate, a clamping driving plate is arranged in a clamping operation groove through a pin shaft, and a clamping operation cylinder is arranged between the clamping driving plate and the execution clamping frame through a pin shaft; the centre gripping driven lever is located the centre gripping operation inslot, and the centre gripping driven lever supports and leans on the centre gripping drive plate, mutually supports between centre gripping telescopic link and the centre gripping reset spring and has played the effect that supports and reset to carrying out the grip block, centre gripping operation cylinder control centre gripping drive plate rotates the regulation to drive the centre gripping rubber block through the extrusion to the centre gripping driven lever and support and lean on the lateral wall of H shaped steel, the centre gripping rubber block can increase and H shaped steel between the frictional force, thereby improve the stability of work.

The middle part of installing frame is provided with cuts the cut groove, installs the electronic slider of cutting on the installing frame, is provided with the cutting electric saw on the electronic slider of cutting, and the cutting electric saw is located the cut groove, and the cutting electric slider control cutting electric saw carries out the cutting operation to H shaped steel.

Be provided with on the installing frame and press the hole, install on the installing frame and press the cylinder, press the top of cylinder and pass through flange mounting on pressing the post, press the post and be located pressing the hole, press the lower extreme of post and be provided with and press the briquetting, press cylinder control and press the briquetting and closely press the upper end middle part of H shaped steel to ensure that H shaped steel can not vibrate during cutting process.

When the device works, firstly, H-shaped steel to be cut is conveyed into the device through the existing equipment, the lifting driving cylinder controls the lifting driving plate to carry out lifting operation so as to drive the feeding adjusting branch chain to carry out width adjustment, the lifting driving plate is matched with the feeding return spring to control the feeding adjusting rod to carry out angle adjustment operation when moving, the feeding adjusting rod is matched with the feeding telescopic rod to control the annular supporting block to carry out left-right adjustment movement, the feeding buffer spring plays a role in resetting the annular supporting block, the pressing cylinder controls the pressing block to tightly press the middle part of the upper end of the H-shaped steel so as to ensure that the H-shaped steel is not vibrated when being cut, the bidirectional cylinder is driven to control the clamping operation branch chain to carry out width adjustment operation, the clamping telescopic rod is matched with the clamping return spring to play a role in, the centre gripping operation cylinder control centre gripping drive plate rotates the regulation to drive the centre gripping block rubber through the extrusion to the centre gripping follower lever and lean on the lateral wall of H shaped steel, the block rubber of centre gripping can increase and H shaped steel between the frictional force, thereby improve the stability of work, can realize the function of the stable high-efficient cutting process H shaped steel of intellectuality.

The invention has the beneficial effects that:

1. the H-shaped steel cutting and processing device can solve the problems that in the existing steel structure building construction process, H-shaped steel needs to be cut and processed manually, the H-shaped steel needs to be fixed manually by means of the existing clamp, H-shaped steel with different specifications needs to be adjusted manually, the H-shaped steel is clamped by the manual control clamp, the cutting and processing stability is poor, a cutting saw blade is easy to be snapped due to the vibration of the H-shaped steel during cutting, the processing cost is increased, the operation is complex, the labor intensity is high, the working efficiency is low and the like, the function of cutting and processing the H-shaped steel intelligently, stably and efficiently can be realized, the manual operation is not needed, and the H-shaped steel cutting and processing device has the;

2. the clamping and positioning device is designed, the clamping and positioning device can accurately and stably clamp and fix the H-shaped steel, meanwhile, the intelligent adaptive adjustment operation can be carried out according to the specification of the H-shaped steel, and the H-shaped steel can be ensured not to vibrate in the cutting process.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view between the mounting frame and the rotary support mechanism of the present invention;

FIG. 3 is a schematic structural diagram of the present invention between the mounting frame, the pressing cylinder, the pressing post, the pressing block and the clamping mechanism;

FIG. 4 is a schematic diagram of the structure between the clamping frame and the branch chain for clamping operation according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

As shown in figures 1 to 4, the H-shaped steel intelligent processing system for building the steel structure building comprises an installation frame 1, wherein clamping and positioning devices 2 are symmetrically arranged on the front side and the rear side of the installation frame 1.

The clamping and positioning device 2 comprises a rotating supporting mechanism 3 installed between the inner walls of an installation frame 1, clamping adjustment grooves are symmetrically formed in the left side and the right side of the installation frame 1, a driving bidirectional cylinder 24 is installed on the installation frame 1, execution clamping mechanisms 4 are symmetrically arranged at the two ends of the driving bidirectional cylinder 24, the execution clamping mechanisms 4 are located in the clamping adjustment grooves, the rotating supporting mechanism 3 automatically performs adaptation adjustment operation according to the specification of H-shaped steel, and the execution clamping mechanisms 4 clamp and fix the H-shaped steel.

The rotary supporting mechanism 3 comprises a rotary roller 31 installed between the inner walls of the installation frame 1 through a bearing, the rotary roller 31 is of a hollow structure, feeding grooves are uniformly formed in the rotary roller 31 in the circumferential direction, a lifting driving cylinder 32 is arranged in the middle of the inner wall of the rotary roller 31, the top end of the lifting driving cylinder 32 is installed on a lifting driving plate 33 through a flange, the lower end of the lifting driving plate 33 abuts against a feeding adjusting branched chain 34, and the lifting driving cylinder 32 controls the lifting driving plate 33 to perform lifting operation so as to drive the feeding adjusting branched chain 34 to perform width adjustment.

The execution clamping mechanism 4 comprises an execution moving frame 41 installed on the driving bidirectional cylinder 24, the lower end of the execution moving frame 41 is located in a clamping adjusting groove, an execution clamping frame 42 is installed at the lower end of the execution moving frame 41, clamping operation grooves are symmetrically formed in the side wall of the execution clamping frame 42, a clamping operation branched chain 43 is arranged in each clamping operation groove, the driving bidirectional cylinder 24 controls the clamping operation branched chain 43 to conduct width adjusting operation, and the clamping operation branched chain 43 conducts clamping fixing operation on two sides of the upper end of the H-shaped steel.

The feeding adjusting branched chain 34 comprises a feeding adjusting rod 341 mounted on the inner wall of the rotating roller 31 through a pin shaft, a feeding return spring 342 is connected between the feeding adjusting rod 341 and the inner wall of the rotating roller 31, the feeding adjusting rod 341 abuts against a feeding annular frame 343, the feeding annular frame 343 is mounted on the inner wall of the rotating roller 31 through a feeding telescopic rod, a feeding buffer spring 346 is sleeved on the feeding telescopic rod 345, the feeding annular frame 343 is positioned in a feeding groove, an annular supporting block 344 is mounted on the outer wall of the feeding annular frame 343, and the annular supporting block 344 is connected with the rotating roller 31 in a sliding fit mode. When the lifting driving plate 33 moves, the lifting driving plate and the feeding return spring 342 are mutually matched to control the feeding adjusting rod 341 to perform angle adjustment operation, the feeding adjusting rod 341 and the feeding telescopic rod 345 are mutually matched to control the annular supporting block 344 to perform left-right adjustment movement, and the feeding buffer spring 346 plays a role in returning the annular supporting block 344.

The clamping operation branched chain 43 comprises a clamping rubber block 431 arranged on the inner wall of the execution clamping frame 42, an execution clamping plate 433 is arranged on the inner wall of the execution clamping frame 42 through a clamping telescopic rod 432, a clamping return spring 434 is sleeved on the clamping telescopic rod 432, a clamping driven rod 435 is arranged on the side wall of the execution clamping plate 433, a clamping driving plate 436 is arranged in a clamping operation groove through a pin shaft, and a clamping operation cylinder 437 is arranged between the clamping driving plate 436 and the execution clamping frame 42 through a pin shaft; the centre gripping driven lever 435 is located centre gripping operation inslot, and centre gripping driven lever 435 supports and leans on centre gripping drive plate 436, mutually support between centre gripping telescopic link 432 and the centre gripping reset spring 434 and has played the effect of supporting with reseing to carrying out clamping plate 433, centre gripping operation cylinder 437 control centre gripping drive plate 436 rotates the regulation to drive centre gripping rubber block 431 and support on the lateral wall of H shaped steel through the extrusion to centre gripping driven lever 435, centre gripping rubber block 431 can increase and H shaped steel between the frictional force, thereby improve the stability of work.

The middle part of installing frame 1 is provided with cuts the cut groove, installs cutting electric slider 6 on the installing frame 1, is provided with cutting electric saw 7 on the cutting electric slider 6, and cutting electric saw 7 is located cuts the inslot, and cutting electric slider 6 control cutting electric saw 7 carries out the cutting operation to H shaped steel.

The mounting frame 1 is provided with a pressing hole, the mounting frame 1 is provided with a pressing cylinder 21, the top end of the pressing cylinder 21 is mounted on a pressing column 22 through a flange, the pressing column 22 is located in the pressing hole, the lower end of the pressing column 22 is provided with a pressing block 23, and the pressing cylinder 21 controls the pressing block 23 to tightly press the middle part of the upper end of the H-shaped steel, so that the H-shaped steel is prevented from vibrating during cutting and machining.

When the device works, firstly, the H-shaped steel to be cut is conveyed into the device by the existing equipment, the lifting driving cylinder 32 controls the lifting driving plate 33 to carry out lifting operation, so as to drive the feeding adjusting branched chain 34 to carry out width adjustment, the lifting driving plate 33 is matched with the feeding return spring 342 to control the feeding adjusting rod 341 to carry out angle adjustment when moving, the feeding adjusting rod 341 is matched with the feeding telescopic rod 345 to control the annular supporting block 344 to carry out left-right adjustment movement, the feeding buffer spring 346 plays a role in returning the annular supporting block 344, the pressing cylinder 21 controls the pressing block 23 to tightly press the middle part of the upper end of the H-shaped steel, so as to ensure that the H-shaped steel is not vibrated when being cut, the bidirectional cylinder 24 is driven to control the clamping operation branched chain 43 to carry out width adjustment operation, the clamping telescopic rod 432 is matched with the clamping return spring 434 to play a role in supporting, centre gripping operation cylinder 437 control centre gripping drive plate 436 rotates the regulation, thereby drive centre gripping rubber block 431 and lean on the lateral wall of H shaped steel through the extrusion to centre gripping driven lever 435, centre gripping rubber block 431 can increase and H shaped steel between the frictional force, thereby improve the stability of work, the function of intelligent stable high efficiency cutting processing H shaped steel has been realized, the needs manual work that exists among the current steel construction building construction process of having solved needs is cut H shaped steel, need the manual work to fix H shaped steel with the help of current anchor clamps, the H shaped steel of different specifications needs manual regulation anchor clamps, and manual control anchor clamps centre gripping H shaped steel cutting processing stability is poor, easily lead to the cutting saw bit to stretch over because of the vibration of H shaped steel during the cutting, the cost of processing has been increased, the operation is complicated, the intensity of labour is big with work low grade difficult problem, the purpose has been reached.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides an intelligent system of processing of H shaped steel of steel construction building usefulness, includes installing frame (1), its characterized in that: clamping and positioning devices (2) are symmetrically arranged on the front side and the rear side of the mounting frame (1);

the clamping and positioning device (2) comprises a rotating supporting mechanism (3) arranged between the inner walls of an installation frame (1), clamping and adjusting grooves are symmetrically formed in the left side and the right side of the installation frame (1), a driving bidirectional cylinder (24) is installed on the installation frame (1), executing clamping mechanisms (4) are symmetrically arranged at the two ends of the driving bidirectional cylinder (24), and the executing clamping mechanisms (4) are located in the clamping and adjusting grooves;

the rotary supporting mechanism (3) comprises a rotary roller (31) which is arranged between the inner walls of the mounting frame (1) through a bearing, the rotary roller (31) is of a hollow structure, feeding grooves are uniformly formed in the rotary roller (31) along the circumferential direction of the rotary roller, a lifting driving cylinder (32) is arranged in the middle of the inner wall of the rotary roller (31), the top end of the lifting driving cylinder (32) is arranged on a lifting driving plate (33) through a flange, and the lower end of the lifting driving plate (33) abuts against a feeding adjusting branched chain (34);

the execution clamping mechanism (4) comprises an execution moving frame (41) arranged on the driving bidirectional cylinder (24), the lower end of the execution moving frame (41) is positioned in the clamping adjusting groove, an execution clamping frame (42) is arranged at the lower end of the execution moving frame (41), clamping operation grooves are symmetrically formed in the side wall of the execution clamping frame (42), and clamping operation branched chains (43) are arranged in the clamping operation grooves;

the feeding adjusting branched chain (34) comprises a feeding adjusting rod (341) installed on the inner wall of the rotating roller (31) through a pin shaft, a feeding return spring (342) is connected between the feeding adjusting rod (341) and the inner wall of the rotating roller (31), the feeding adjusting rod (341) abuts against a feeding annular frame (343), the feeding annular frame (343) is installed on the inner wall of the rotating roller (31) through a feeding telescopic rod, and a feeding buffer spring (346) is sleeved on the feeding telescopic rod (345).

2. The intelligent processing system of the H-shaped steel for the construction of the steel structure building according to claim 1, characterized in that: the feeding annular frame (343) is positioned in the feeding groove, an annular supporting block (344) is installed on the outer wall of the feeding annular frame (343), and the annular supporting block (344) is connected with the rotating roller (31) in a sliding fit mode.

3. The intelligent processing system of the H-shaped steel for the construction of the steel structure building according to claim 1, characterized in that: the clamping operation branched chain (43) comprises a clamping rubber block (431) arranged on the inner wall of the execution clamping frame (42), an execution clamping plate (433) is arranged on the inner wall of the execution clamping frame (42) through a clamping telescopic rod (432), a clamping reset spring (434) is sleeved on the clamping telescopic rod (432), a clamping driven rod (435) is arranged on the side wall of the execution clamping plate (433), a clamping driving plate (436) is arranged in a clamping operation groove through a pin shaft, and a clamping operation cylinder (437) is arranged between the clamping driving plate (436) and the execution clamping frame (42) through a pin shaft;

the clamping driven rod (435) is located in the clamping operation groove, and the clamping driven rod (435) abuts against the clamping driving plate (436).

4. The intelligent processing system of the H-shaped steel for the construction of the steel structure building according to claim 1, characterized in that: the middle part of installing frame (1) is provided with cuts the cut groove, installs cutting electric slider (6) on installing frame (1), is provided with cutting electric saw (7) on cutting electric slider (6), and cutting electric saw (7) are located cuts the cut inslot.

5. The intelligent processing system of the H-shaped steel for the construction of the steel structure building according to claim 1, characterized in that: the mounting frame (1) is provided with a pressing hole, the mounting frame (1) is provided with a pressing cylinder (21), the top end of the pressing cylinder (21) is mounted on a pressing column (22) through a flange, the pressing column (22) is located in the pressing hole, and the lower end of the pressing column (22) is provided with a pressing block (23).

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