Building assembled component intensity detects structure
Technical Field
The application relates to the technical field of component intensity detection, in particular to a building assembly type component intensity detection structure.
Background
The building fabricated member refers to each element constituting a building, and if the building is regarded as a product, the building fabricated member refers to a part in the product. The components in the building mainly include: building (house) surfaces, walls, columns, foundations and the like, and building fabricated components are usually put into production after being detected to be light.
The existing detection device generally comprises a placing table, a supporting column is arranged on the placing table, a detection assembly is installed at one end, far away from the placing table, of the supporting column, the detection assembly comprises a detection plate and an air cylinder pushing the detection plate, the moving end of the air cylinder is fixed with the detection plate, the fixed end of the air cylinder is connected with the supporting column, a sensor for detecting strength is arranged on the detection plate, when the building assembled component is detected, the building assembled component is firstly placed on the placing table, then the detection plate is driven to move towards the direction close to the building assembled component through the air cylinder, the building assembled component is extruded, and therefore the strength of the building assembled component is obtained.
In view of the above-mentioned related art, the inventor believes that after the building fabricated component is detected, the building fabricated component may crack or break, and then needs to be cleaned by a little by hand, and finally the strength of another building fabricated component can be detected after the cleaning is completed, thereby reducing the working efficiency.
SUMMERY OF THE UTILITY MODEL
For the building assembled component on the convenient clearance placing table, the application provides a building assembled component intensity detects structure.
The application provides a building assembled component intensity detects structure adopts following technical scheme:
the utility model provides a building assembled component intensity detects structure, is including placing the platform and setting up the determine module on placing the platform, determine module includes the impeller that pick-up plate and drive pick-up plate removed, the impeller is installed and is being placed the bench, it is provided with the mounting groove to place one side of platform near determine module, and mounting groove one end is provided with the opening, it is provided with the backup pad that is used for sealing up the opening to place bench, the backup pad is used for placing building assembled component, it is provided with the drive assembly who is used for driving the backup pad to remove to place bench.
Through adopting above-mentioned technical scheme, the back is accomplished in the intensity detection of detection component to building assembled component, drives the backup pad through drive assembly and removes to make the opening on the mounting groove open, detect building assembled component after accomplishing and can directly enter into the mounting groove from placing the bench opening part in, thereby can replace the mode of traditional artifical clearance, improve work efficiency.
Optionally, the driving assembly comprises a first rack fixed at the bottom of the supporting plate, a first gear meshed with the first rack and a connecting shaft fixed by the gear in a coaxial manner, and two ends of the connecting shaft are rotatably connected to the inner wall of the mounting groove.
Through adopting above-mentioned technical scheme, the rotating gear one under the effect of rack one, drives the backup pad through gear one and removes to can realize opening and closing of mounting groove opening part, thereby it is more convenient when using.
Optionally, a pushing assembly used for driving the gear to rotate is arranged on the placing table, the pushing assembly comprises a second gear and a second rack meshed with the second gear, the second gear and the connecting shaft are coaxially fixed, and one end, far away from the second gear, of the second rack is connected with the detection plate.
Through adopting above-mentioned technical scheme, building assembled component is detecting the completion back, under the effect of impeller, drive the pick-up plate and remove to keeping away from the direction of placing the platform, the removal of pick-up plate can drive rack two and remove, because gear two and rack two mesh, drive the gear one that fixes on the connecting axle under the effect of gear two and rotate, thereby can make the backup pad remove, make the opening of mounting groove open, the building assembled component of placing in the backup pad drops in the mounting groove, thereby it is more convenient to remove at the drive backup pad.
Optionally, a baffle plate for limiting the position of the building assembled component is arranged on the placing table.
Through adopting above-mentioned technical scheme, when needs opening is opened, drive assembly drives the movable plate and removes, under the effect of baffle, can prevent to place the building assembled component and the backup pad simultaneous movement on the movable plate.
Optionally, a clamping plate is arranged on the placing table, the clamping plate slides along the moving direction of the supporting plate, and an adjusting screw rod used for adjusting the position of the clamping plate is arranged on the baffle plate.
Through adopting above-mentioned technical scheme, rotate adjusting screw, make splint to keeping away from or being close to the direction removal of baffle, can fix not unidimensional building assembled component.
Optionally, a sliding groove is formed in the side wall of the mounting groove, the sliding groove is formed in the moving direction of the support plate, and the side face of the support plate is clamped in the sliding groove.
Through adopting above-mentioned technical scheme, under the effect of spout, can support the side of backup pad, improve the intensity of backup pad, prevent when building assembled component detects, the backup pad breaks.
Optionally, a guide rod is arranged on the baffle, one end, far away from the limiting plate, of the guide rod penetrates through the clamping plate, and the clamping plate is connected to the guide rod in a sliding mode.
Through adopting above-mentioned technical scheme, under the effect of guide bar, can prevent when adjusting splint that the rotation appears in the splint.
Optionally, a rubber plate is arranged on one side of the baffle close to the support plate, and one side of the rubber plate close to the support plate abuts against the surface of the support plate.
Through adopting above-mentioned technical scheme, under the effect of rubber slab, can scrape the backup pad surface when the backup pad removes and get, make the building assembled component clearance in the backup pad cleaner.
Drawings
Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.
Fig. 2 is a partial cross-sectional view of an embodiment of the present application.
Fig. 3 is an enlarged view of a point a in fig. 2.
Reference numerals: 1. a placing table; 11. mounting grooves; 12. an opening; 13. a support plate; 14. a support column; 2. a drive assembly; 21. a first gear; 22. a first rack; 23. a connecting shaft; 3. a baffle plate; 31. a rubber plate; 32. a blanking channel; 33. a material receiving barrel; 34. fixing grooves; 4. a detection component; 41. detecting a plate; 42. a pusher member; 5. a chute; 6. the pushing assembly 61 and a gear II; 62. a second rack; 7. a splint; 71. adjusting the screw rod; 72. a guide rod.
Detailed Description
The present application is described in further detail below with reference to figures 1-3.
The embodiment of the application discloses building assembled component intensity detects structure. Referring to fig. 1 and 2, a building fabricated component intensity detection structure includes a placing table 1, the placing table 1 is vertically arranged, a mounting groove 11 is formed in the placing table 1, the mounting groove 11 is arranged along a direction perpendicular to the ground, an opening 12 is formed in a section, away from the ground, of the mounting groove 11, a supporting plate 13 is arranged on the mounting groove 11, the opening 12 can be sealed through the arrangement of the supporting plate 13, the other side of the opening is used for placing a building fabricated component, a driving assembly 2 used for driving the supporting plate 13 to move is arranged on the placing table 1, and the opening 12 of the mounting groove 11 can be closed or opened through the driving assembly 2.
Referring to fig. 1 and 2, a baffle 3 is welded on the upper surface of a placing table 1, a rubber plate 31 is arranged on one side of the baffle 3 close to a support plate 13, the rubber plate 31 is abutted against the surface of the support plate 13, after the detection of the building fabricated component is completed, an opening 12 of a mounting groove 11 needs to be opened, the support plate 13 is driven by a driving assembly 2 to move, and the building fabricated component and the support plate 13 can be prevented from moving simultaneously by the arrangement of the baffle 3; through the setting of rubber slab 31, can scrape the clearance to backup pad 13 surface, make the building fabricated component waste residue on backup pad 13 surface fall into installation groove 11 through opening 12.
Referring to fig. 1 and 2, placing and having seted up unloading passageway 32 in the platform 1, unloading passageway 32 one end and the diapire intercommunication of mounting groove 11, the other end runs through and places platform 1 lateral wall, and the diapire slope of unloading passageway 32 sets up, places platform 1 side and has receipts storage bucket 33 through the bolt fastening, detects building assembled component after accomplishing and falls into in receiving bucket 33 from opening 12 through unloading passageway 32 to can conveniently clear up.
Referring to fig. 2 and 3, a fixing groove 34 is formed in the placing table 1, the driving assembly 2 is arranged in the fixing groove 34, the driving assembly 2 comprises a first gear 21, a first rack 22 and a connecting shaft 23, the first rack 22 is welded on one side, close to the ground, of the supporting plate 13, the first rack 22 and the first gear 21 are meshed and arranged, the first gear 21 is fixed on the connecting shaft 23, the connecting shaft 23 is connected to the placing table 1 in a rotating mode, the first gear 21 is rotated, under the action of the first rack 22, the supporting plate 13 is driven to move, and therefore the position of the supporting plate 13 can be adjusted more conveniently.
Referring to fig. 2 and 3, a supporting column 14 is arranged on the placing table 1, the supporting column 14 is arranged vertically, a detection assembly 4 is arranged at one end, away from the placing table 1, of the supporting column 14, the detection assembly 4 assembly comprises a detection plate 41 and an urging member 42, in the embodiment, the urging member 42 is arranged as an air cylinder, the fixed end of the air cylinder is fixedly connected with the supporting column 14, the piston end of the air cylinder is welded with the detection plate 41, and when the strength of the building assembled component is detected, the building assembled component placed on the supporting plate 13 is pressed through the detection plate 41, so that the strength of the building assembled component is obtained.
Referring to fig. 2 and 3, in order to improve the strength of the supporting plate 13 during operation, the sliding grooves 5 are formed in the side walls of the mounting groove 11, the sliding grooves 5 are formed in the moving direction of the supporting plate 13, in the embodiment, the two sliding grooves 5 are symmetrically formed in the side walls of the two opposite sides of the mounting groove 11, the two sides of the supporting plate 13 are clamped in the sliding grooves 5, and the bottom wall of the sliding grooves 5 can support the supporting plate 13 partially. The side wall of the mounting groove 11 is provided with a yielding groove, the yielding groove is formed in the side face adjacent to the sliding groove 5, and the supporting plate 13 can continue to move when the detection plate 41 is abutted to the building assembled component through the yielding groove.
Referring to fig. 2 and 3, a pushing assembly 6 is arranged in the fixing groove 34, the pushing assembly 6 is used for pushing the first gear 21 to rotate, the pushing assembly 6 comprises a second gear 61 and a second rack 62, the second gear 61 and the second rack 62 are arranged in a meshed manner, the second gear 61 and the connecting shaft 23 are coaxially fixed, one end, away from the second gear 61, of the second rack 62 is welded to the side surface of the detection plate 41, after the building assembled component is detected, when the detection plate 41 moves in the direction away from the support plate 13, the second rack 62 is driven to move, so that the second gear 61 can be pushed to rotate, because the first gear 21 and the second gear 61 are coaxially fixed, the second gear 61 rotates, the first gear 21 is driven to rotate, then under the action of the first rack 22, the support plate 13 is driven to move, so that the opening 12 of the mounting groove 11 is opened, under the action of the baffle plate 3, the building assembled component and the support plate 13 are prevented from moving simultaneously, the building assembled component enters the blanking pipeline from the opening 12, so that the traditional manual cleaning is replaced, the cleaning efficiency is improved, and the detection efficiency is also improved.
Referring to fig. 2 and 3, a clamping plate 7 is arranged on the placing table 1, the clamping plate 7 slides along the moving direction of the supporting plate 13, an adjusting screw 71 is rotatably connected to the baffle plate 3 for conveniently adjusting the position of the clamping plate 7, and one end of the adjusting screw 71, which is far away from the baffle plate 3, penetrates through the clamping plate 7; be provided with guide bar 72 on baffle 3, guide bar 72 and adjusting screw 71 set up in the relative both sides of baffle 3, and splint 7 is passed to the one end of guide bar 72, and splint 7 sliding connection is on guide bar 72, through the setting of guide bar 72, can prevent to rotate adjusting screw 71 time, and splint 7 takes place to rotate.
The implementation principle of the building assembled component strength detection structure of the embodiment of the application is as follows: after the intensity detection of building assembled component accomplished, cylinder reverse movement drives pick-up plate 41 and removes to the direction of keeping away from ground, and two 62 drive gear of rack simultaneously rotate 61, drive gear 21 and rotate under the effect of connecting axle 23, can make rack 22 remove simultaneously to drive backup pad 13 and remove, make the opening 12 of mounting groove 11 open, then detect the waste material of accomplishing and drop to unloading passageway 32 in from the opening 12 of mounting groove 11, thereby drop to in storage bucket 33.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.