CN116358990A

CN116358990A - Intensity detection device for steel structure machining and system thereof

Info

Publication number: CN116358990A
Application number: CN202310489710.4A
Authority: CN
Inventors: 杨俊彬
Original assignee: Anhui Zhongshun Construction Technology Co ltd
Current assignee: Anhui Zhongshun Construction Technology Co ltd
Priority date: 2023-05-04
Filing date: 2023-05-04
Publication date: 2023-06-30

Abstract

The invention discloses a strength detection device for steel structure processing and a system thereof, comprising a detection table, wherein four corners of the bottom of the detection table are respectively fixed with support legs, a detection assembly for extrusion detection of a steel structural member is arranged above the detection table, and a clamping deviation prevention assembly for clamping and fixing two sides of the steel structural member so as to prevent the deviation of the steel structural member is also arranged on the detection table. This intensity detection device and system for steel construction processing through pressing from both sides and getting the setting of preventing partially the subassembly, can realize the quick centre gripping to steel structure spare, need not to use two cylinder centre gripping, use cost is little, through the setting of wherein lift adjustment subassembly, can realize the fine setting, adjust clamping angle to be suitable for the centre gripping of not equidimension steel structure spare, through contact assembly's setting, be convenient for carry out the centre gripping to the steel structure spare of different shapes, can laminate steel structure spare according to steel structure spare's profile, improve the centre gripping stability, reduce the use limitation.

Description

Intensity detection device for steel structure machining and system thereof

Technical Field

The invention relates to the technical field of steel structure detection, in particular to a strength detection device and a system for steel structure processing.

Background

The existing steel structural member is required to be detected against pressure intensity after processing, the steel structural member is required to be fixed before detection, the existing fixing mode generally adopts double-cylinder clamping, the use cost is relatively high, stable clamping is inconvenient to achieve according to different shapes of the steel structural member after clamping, the existing clamping assembly is limited in cylinder stroke and generally constant in clamping angle range, so that the clamping angle is inconvenient to finely adjust, and certain limitation is achieved in use.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the strength detection device for the steel structure processing and the system thereof, which solve the problems that the prior fixing mode generally adopts double cylinders to clamp more, the use cost is relatively high, stable clamping is inconvenient to realize according to different outlines of steel structures due to different shapes of steel structures after clamping, the prior clamping assembly is inconvenient to finely adjust, the clamping angle range is generally constant, and the use has certain limitation.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the strength detection device for the steel structure machining comprises a detection table, wherein four corners of the bottom of the detection table are respectively fixed with a support leg, a detection assembly for carrying out extrusion detection on a steel structural member is arranged above the detection table, a controller is fixed at the top of the detection table, and a clamping anti-deviation assembly for clamping and fixing two sides of the steel structural member and preventing the steel structural member from deviating is further arranged on the detection table;

the detection assembly comprises a support fixed at the top of the detection table, a hydraulic cylinder is fixed below the support, a mounting block is fixed at the bottom end of the hydraulic cylinder, a mounting groove is formed in the bottom of the mounting block, and a pressure sensor is fixed on the inner wall of the mounting groove.

Further, press from both sides and get the folded plate of preventing the partial component including fixing in the inspection table top, the below rotation of folded plate has the pivot that runs through to inspection table below, the inspection table is run through to the bottom of pivot, the surface cover of pivot is equipped with the extrusion piece, the top of extrusion piece is fixed with the cylinder piece, cylinder piece and extrusion piece integrated into one piece, the through-hole with pivot looks adaptation has been seted up in the last run through of cylinder piece and extrusion piece, the pivot is located the fixed surface of inspection table top and has the rib, the rib groove with rib looks adaptation has been seted up to the inner wall of through-hole, the both sides at inspection table top all rotate through the bull stick and have the centre gripping arm, two the laminating wheel with extrusion piece surface laminating is all installed to the inboard of centre gripping arm, two the top of centre gripping arm all is fixed with the spring fixing rod, two be fixed with the tension spring between the spring fixing rod, the below of inspection table is provided with and then drives the through-hole with the rotation axis looks adaptation through-hole, be provided with between folded plate and the cylinder piece and the regulation box that moves up and down or two the multiple points move down, two the centre gripping box contact between the fixed steel structure.

Further, the driving assembly comprises a gear fixed on the surface of the rotating shaft, an air cylinder is fixed at the bottom of the detection table, and a rack meshed with the gear is fixed at one end of the air cylinder.

Further, the lifting adjusting assembly comprises a first electric telescopic rod which is fixed at the top of the folded plate in a penetrating mode, a plug disc is fixed at the bottom end of the first electric telescopic rod, and an annular groove matched with the plug disc in use is formed in the surface of the cylindrical block.

Further, contact assembly is including running through the laminating pole of slip inboard at the centre gripping box, the laminating pole is provided with a plurality of, the top of centre gripping box runs through and is fixed with the electronic telescopic handle of second, the inner wall of centre gripping box slides there is the lifter plate, the bottom of the electronic telescopic handle of second is fixed with the top of lifter plate, the bottom of lifter plate is fixed with wave latch, the wave tooth's socket with wave latch looks adaptation has been seted up on the surface of laminating pole, the inner wall of centre gripping box is fixed with the magnetic plate, the end-to-end fixation of laminating pole has the magnetic disk that uses with the magnetic plate cooperation, the fixed surface of laminating pole has spacing, the inboard of centre gripping box runs through and has seted up the spacing groove with spacing looks adaptation, the surface fixation of laminating pole has the anti-ejection piece.

Further, one side of the magnetic disc, which is close to the magnetic plate, is provided with the same magnetic pole, and a plurality of attaching rods are positioned at the same horizontal height.

Further, the cross section of the extrusion block is in an elliptical shape, and the cross section of the extrusion block is sequentially reduced from top to bottom.

The invention also discloses a strength detection system for steel structure processing, which comprises the detection assembly.

Advantageous effects

The invention provides a strength detection device and a system for steel structure processing. Compared with the prior art, the method has the following beneficial effects:

this intensity detection device and system for steel construction processing through pressing from both sides and getting the setting of preventing partially the subassembly, can realize the quick centre gripping to steel structure spare, need not to use two cylinder centre gripping, use cost is little, through the setting of wherein lift adjustment subassembly, can realize the fine setting, adjust clamping angle to be suitable for the centre gripping of not equidimension steel structure spare, through contact assembly's setting, be convenient for carry out the centre gripping to the steel structure spare of different shapes, can laminate steel structure spare according to steel structure spare's profile, improve the centre gripping stability, reduce the use limitation.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

FIG. 3 is a bottom view of the structure of the present invention;

FIG. 4 is a schematic diagram of the connection of the extrusion block and the cylindrical block according to the present invention;

FIG. 5 is a schematic view of a spindle structure according to the present invention;

FIG. 6 is a cross-sectional view of a partial structure of the present invention;

FIG. 7 is a perspective cross-sectional view of the structure of the clamping case of the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 2A in accordance with the present invention;

fig. 9 is a partial enlarged view of the present invention at B in fig. 7.

In the figure: 1-test stand, 2-foot, 3-test assembly, 31-bracket, 32-hydraulic cylinder, 33-mounting block, 34-mounting slot, 35-pressure sensor, 4-controller, 5-clamp anti-deflection assembly, 51-flap, 52-spindle, 53-squeeze block, 54-cylinder block, 55-through hole, 56-rib, 57-rib slot, 58-turn bar, 59-clamp arm, 510-apply wheel, 511-spring retainer, 512-tension spring, 513-drive assembly, 5131-gear, 5132-cylinder, 5133-rack, 514-lift adjustment assembly, 5141-first electrical telescoping rod, 5142-insert plate, 5143-annular slot, 515-clamp box, 516-contact assembly, 5161-apply rod, 5162-second electrical telescoping rod, 5163-lift plate, 5164-wave latch, 5165-wave slot, 5166-magnetic plate, 5167-magnetic disk, 5168-stop bar, 5169-stop slot, 51610-anti-eject block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides two technical solutions: the strength detection device for processing the steel structure specifically comprises the following embodiments:

example 1

The strength detection device for processing the steel structure comprises a detection table 1, wherein four corners of the bottom of the detection table 1 are respectively fixed with a support leg 2, a detection assembly 3 for detecting extrusion of a steel structural member is arranged above the detection table 1, a controller 4 is fixed at the top of the detection table 1 and used for controlling opening or closing of each electric element, and a clamping anti-deflection assembly 5 for clamping and fixing two sides of the steel structural member and further preventing the steel structural member from deflecting is also arranged on the detection table 1;

the detection assembly 3 comprises a support 31 fixed at the top of the detection table 1, a hydraulic cylinder 32 is fixed below the support 31, a mounting block 33 is fixed at the bottom end of the hydraulic cylinder 32, a mounting groove 34 is formed in the bottom of the mounting block 33, a pressure sensor 35 is fixed on the inner wall of the mounting groove 34, and the pressure sensor 35 is a PTG501 type pressure sensor.

The clamping anti-deflection assembly 5 comprises a folded plate 51 fixed at the top of the detection table 1, a rotating shaft 52 penetrating through the lower portion of the detection table 1 is rotated below the folded plate 51, the bottom end of the rotating shaft 52 penetrates through the detection table 1, the surface of the rotating shaft 52 is sleeved with a pressing block 53, the cross section of the pressing block 53 is elliptical, the cross section of the pressing block 53 is sequentially reduced from top to bottom, a cylindrical block 54 is fixed at the top of the pressing block 53, the cylindrical block 54 and the pressing block 53 are integrally formed, a through hole 55 matched with the rotating shaft 52 is formed in the penetrating mode on the cylindrical block 54 and the pressing block 53, a rib 56 is fixed on the surface of the rotating shaft 52 above the detection table 1, a rib groove 57 matched with the rib 56 is formed in the inner wall of the through hole 55, the rib groove 57 is matched with the rib groove 57 through the rib 56, the rotating shaft 52 can drive the pressing block 53 to rotate synchronously, two sides of the top of the detection table 1 are respectively provided with a clamping arm 59 through the rotation of a rotating rod 58, a fitting wheel 510 on the surface of the pressing block 53 is respectively installed on the inner side of the two clamping arms 59, the two clamping arms 59 are respectively provided with a spring fixing rods 511, a steel clamping assembly 512 is respectively arranged between the two clamping blocks and the two clamping blocks are respectively, the two clamping blocks are respectively contacted with the two clamping blocks are respectively arranged on the two clamping blocks, and the two clamping blocks are in contact with each clamping assembly 512, and are contacted with each other, and are arranged between two clamping assembly 512 and are stably, and are arranged between each clamping assembly and can be stably and stably, and are arranged.

The driving assembly 513 includes a gear 5131 fixed on the surface of the rotating shaft 52, a cylinder 5132 fixed at the bottom of the detecting table 1, and a rack 5133 meshed with the gear 5131 is fixed at one end of the cylinder 5132, electrically connected to an external power source and controlled by the controller 4.

The lifting adjusting assembly 514 comprises a first electric telescopic rod 5141 which penetrates through the top of the folded plate 51, is electrically connected with an external power supply and is controlled by the controller 4, an inserting disc 5142 is fixed at the bottom end of the first electric telescopic rod 5141, an annular groove 5143 which is matched with the inserting disc 5142 in use is formed in the surface of the cylindrical block 54, the cylindrical block 54 is conveniently driven to move upwards or downwards through the matching of the inserting disc 5142 and the annular groove 5143, the height of the extruding block 53 is adjusted, and the maximum opening angle of the two clamping arms 59 is adjusted, so that the clamping of different steel structural members can be realized.

The contact assembly 516 comprises a plurality of attaching rods 5161 penetrating and sliding inside the clamping box 515, the attaching rods 5161 are provided with a plurality of second electric telescopic rods 5162 penetrating and fixed at the top of the clamping box 515, the second electric telescopic rods 5162 are electrically connected with an external power supply and controlled by the controller 4, lifting plates 5163 are sliding on the inner wall of the clamping box 515, the bottom ends of the second electric telescopic rods 5162 are fixed with the tops of the lifting plates 5163, wave clamping teeth 5164 are fixed at the bottoms of the lifting plates 5163, wave tooth grooves 5165 matched with the wave clamping teeth 5164 are formed in the surface of the attaching rods 5161, the attaching rods 5161 are conveniently positioned by the arrangement of the wave clamping teeth 5164 and the wave tooth grooves 5165, and the attaching rods 5161 can be attached to the surface of a steel structural member according to the shape of the surface of the steel structural member, realizes multipoint contact of the steel structure, realizes stable clamping, the inner wall of the clamping box 515 is fixed with a magnetic plate 5166, the tail end of the attaching rod 5161 is fixed with a magnetic disk 5167 matched with the magnetic plate 5166 for use, the surface of the attaching rod 5161 is fixed with a limit bar 5168, the inner side of the clamping box 515 is penetrated and provided with a limit groove 5169 matched with the limit bar 5168, the attaching rod 5161 can only slide at the inner side of the clamping box 515 and cannot rotate through the cooperation of the limit bar 5168 and the limit groove 5169, so that the wave latch 5164 and the wave tooth groove 5165 can be always aligned, the surface of the attaching rod 5161 is fixed with an anti-ejection block 51610 to effectively prevent the attaching rod 5161 from being ejected out of the clamping box 515,

the magnetic disk 5167 and the magnetic plate 5166 are of the same magnetic pole on the side close to each other, and the attaching rod 5161 can be quickly reset by the repulsive force between the same magnetic poles, and meanwhile, the attaching rods 5161 can be attached to the surface of the steel structural member and are located at the same horizontal height.

Example 2

The clamping anti-deflection assembly 5 comprises a folded plate 51 fixed at the top of the detection table 1, a rotating shaft 52 penetrating through the lower portion of the detection table 1 is rotated below the folded plate 51, the bottom end of the rotating shaft 52 penetrates through the detection table 1, the surface of the rotating shaft 52 is sleeved with a pressing block 53, the cross section of the pressing block 53 is elliptical, the cross section of the pressing block 53 is sequentially reduced from top to bottom, a cylindrical block 54 is fixed at the top of the pressing block 53, the cylindrical block 54 and the pressing block 53 are integrally formed, a through hole 55 matched with the rotating shaft 52 is formed in the upper portion of the cylindrical block 54 and the pressing block 53 in a penetrating mode, a rib 56 is fixed on the surface of the rotating shaft 52 above the detection table 1, a rib groove 57 matched with the rib 56 is formed in the inner wall of the through hole 55, the rib groove 57 is matched with the rib 56 through the rib groove 57, the matching of the rib 56 and the rib groove 57 are convenient to drive the pressing block 53 to rotate synchronously when the rotating shaft 52, clamping arms 59 are rotated on two sides of the top of the detection table 1, a fitting wheel 510 on the surface of the pressing block 53 is installed on the inner side of the two clamping arms 59 from top to bottom, the top of the two clamping arms 59 is fixedly provided with a spring fixing rods 511, a through hole 55 matched with the two clamping rods 511 on the two clamping arms, the two clamping arms are fixedly arranged on the top of the two clamping arms 59, the two clamping blocks are fixedly arranged on the top of the spring fixing rods 511, the two clamping blocks are fixedly arranged on the top of the clamping blocks, the clamping block 512 are fixedly arranged on the clamping block 512, and can be matched with the clamping block 512, the clamping block 52, and can be stably arranged between the clamping assembly and can be stably matched with the clamping assembly and can be stably and matched with the clamping and can by the upper and lower and bottom and upper and lower by the upper and lower supporting and upper and lower supporting device.

The invention also discloses a strength detection system for processing the steel structure, which comprises a detection assembly.

And all that is not described in detail in this specification is well known to those skilled in the art.

During operation, the steel structural member to be detected is placed between the two clamping boxes 515, then the air cylinder 5132 is started, the air cylinder 5132 is extended to drive the gear 5131 to rotate clockwise (overlook) through the rack 5133, the rotating shaft 52 can also rotate clockwise, further, the whole extrusion block 53 is driven to rotate clockwise under the cooperation of the ribs 56 and the rib grooves 57, the two attaching wheels 510 are extruded, the two clamping arms 59 rotate around the two rotating rods 58 respectively, the front ends of the two clamping arms 59 move close to each other, the attaching rods 5161 on the two clamping boxes 515 can attach to the surface of the steel structural member, then the second electric telescopic rod 5162 is started, the second electric telescopic rod 5162 is extended to drive the lifting plate 5163 to move downwards, the wave clamping teeth 5164 are respectively clamped into the corresponding wave tooth grooves 5165, the positioning of the attaching rods 5161 is achieved, then the air cylinder 5132 is started again, the air cylinder 5132 is produced again, the attaching rods 5161 on two sides are extruded in multiple points, the steel structural member is enabled to complete, the stable clamping of the steel structural member is enabled, the steel structural member is enabled to be attached to the steel structural member, then the hydraulic pressure sensor 33 is driven to move downwards, and the hydraulic pressure sensor 35 is driven to detect the pressing strength of the steel structural member is achieved.

In order to adjust the clamping angle of the clamping arm 59, the first electric telescopic rod 5141 is started to drive the height of the insert disc 5142, the height of the cylindrical block 54 is adjusted by matching with the annular groove 5143, the height of the extrusion block 54 is adjusted, the clamping angle of the clamping arm 59 is smaller when the height of the extrusion block 54 is higher, otherwise, the clamping angle is larger when the height is lower, and the clamping angle can be freely adjusted according to the size of the steel structure.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a steel construction processing is with intensity detection device, includes the detection platform, the four corners of detection platform bottom all is fixed with stabilizer blade, its characterized in that: a detection assembly for carrying out extrusion detection on the steel structural member is arranged above the detection table, a controller is fixed at the top of the detection table, and a clamping anti-deviation assembly for clamping and fixing two sides of the steel structural member and further preventing the steel structural member from deviating is also arranged on the detection table;

the utility model provides a press from both sides and get anti-deflection subassembly including fixing the folded plate at the detection bench top, the below rotation of folded plate has the pivot that runs through to detection bench below, the detection bench is run through to the bottom of pivot, the surface cover of pivot is equipped with the extrusion piece, the top of extrusion piece is fixed with the cylinder piece, cylinder piece and extrusion piece integrated into one piece, run through on cylinder piece and the extrusion piece set up the through-hole with pivot looks adaptation, the pivot is located the fixed surface of detection bench top and has the arris, the arris groove with the arris looks adaptation has been seted up to the inner wall of through-hole, the both sides at detection bench top all rotate through the bull stick and have the centre gripping arm, two the laminating wheel with extrusion piece surface laminating is all installed to the inboard of centre gripping arm, two be fixed with the spring fixing lever at the top of centre gripping arm, two be fixed with tension spring between the spring fixing lever, the below of detection bench is provided with and drives and then realizes the drive assembly that just reverses to the pivot, be provided with between folding plate and the cylinder piece and drive the lifting adjustment subassembly that moves up and down, two contact the centre gripping boxes are provided with between two clamping boxes.

2. The strength detecting device for steel structure working according to claim 1, wherein: the detection assembly comprises a support fixed at the top of the detection table, a hydraulic cylinder is fixed below the support, a mounting block is fixed at the bottom end of the hydraulic cylinder, a mounting groove is formed in the bottom of the mounting block, and a pressure sensor is fixed on the inner wall of the mounting groove.

3. The strength detecting device for steel structure working according to claim 1, wherein: the driving assembly comprises a gear fixed on the surface of the rotating shaft, an air cylinder is fixed at the bottom of the detection table, and a rack meshed with the gear is fixed at one end of the air cylinder.

4. The strength detecting device for steel structure working according to claim 1, wherein: the lifting adjusting assembly comprises a first electric telescopic rod which penetrates through the top of the folded plate, a plug disc is fixed at the bottom end of the first electric telescopic rod, and an annular groove matched with the plug disc for use is formed in the surface of the cylindrical block.

5. The strength detecting device for steel structure working according to claim 1, wherein: the contact assembly comprises a laminating rod which penetrates through the inner side of the clamping box and slides, the laminating rod is provided with a plurality of laminating rods, the top of the clamping box penetrates through and is fixedly provided with a second electric telescopic rod, the inner wall of the clamping box slides to be provided with a lifting plate, the bottom of the second electric telescopic rod is fixedly connected with the top of the lifting plate, the bottom of the lifting plate is fixedly provided with wave teeth, the surface of the laminating rod is provided with wave tooth grooves matched with the wave teeth, the inner wall of the clamping box is fixedly provided with a magnetic plate, the tail end of the laminating rod is fixedly provided with a magnetic disc matched with the magnetic plate, the surface of the laminating rod is fixedly provided with a limiting strip, the inner side of the clamping box penetrates through and is provided with a limiting groove matched with the limiting strip, and the surface of the laminating rod is fixedly provided with an anti-ejection block.

6. The strength detecting device for steel structure working according to claim 5, wherein: one side of the magnetic disk, which is close to the magnetic plate, is provided with the same magnetic pole, and a plurality of attaching rods are positioned at the same horizontal height.

7. The strength detecting device for steel structure working according to claim 1, wherein: the cross section of the extrusion block is elliptic, and the cross section of the extrusion block is sequentially reduced from top to bottom.

8. Intensity detecting system is used in steel construction processing, its characterized in that: comprising a detection assembly according to any one of claims 1-2.