CN217776789U - Aluminium alloy detects uses high-efficient anchor clamps - Google Patents

Abstract

The utility model discloses an aluminium alloy detects uses high-efficient anchor clamps, including detecting the platform, the both sides of detecting the top outer wall of platform all are equipped with first electric rail, first electric rail's inside is equipped with two frames, two the bottom inner wall of frame all is equipped with two gag lever posts, two electric telescopic handle is all installed to the central position of frame bottom inner wall, electric telescopic handle piston rod's one end is equipped with the install bin, the internally mounted of install bin has servo motor, the one end of servo motor output shaft is connected with rotatory piece, be equipped with the electric rail of second on one side outer wall of rotatory piece. The utility model discloses an aluminium alloy detects uses high-efficient anchor clamps has the mode that saves artifical upset and makes aluminium alloy turnover time, improves work efficiency, has improved to detect accurate to the detection of aluminium alloy roughness and flaw condition, has improved the effect that detects the security.

Description

High-efficient anchor clamps are used in aluminium alloy detection

Technical Field

The utility model relates to an aluminium alloy detection device technical field especially relates to an aluminium alloy detects uses high-efficient anchor clamps.

Background

The aluminum profile has the advantages of attractive appearance, durability and the like, and is widely applied to the building industry. With the rapid advance of large-scale capital construction investment and industrialization process in China, the demand and the yield of aluminum profiles are greatly increased, and the requirements on the quality of the aluminum profiles are higher and higher.

Application number is 202010515389.9's patent document discloses an aluminium alloy detection device, solves to have among the prior art that the inspection mode is comparatively single and the lower shortcoming of work efficiency, including support, work platform, aluminium alloy body and supporting leg, one side that the support was kept away from on the work platform top is provided with the spacing subassembly of second, one side that the support top is close to the spacing subassembly of second evenly is provided with second distance sensor, one side that the support top is close to the spacing subassembly of second evenly is fixed with spacing riser, and one side of spacing riser all sets up first distance sensor, one side of the spacing subassembly of second is provided with first spacing subassembly, one side that the spacing subassembly of second was kept away from to spacing riser is provided with the gas storage chamber, the air pump is installed to work platform's bottom, can clean work platform before detecting, can detect the roughness and the length that the aluminium alloy simultaneously and whether accord with the standard during the detection, and work efficiency is high. But traditional aluminium alloy detects uses high-efficient anchor clamps and need adopt the mode of artifical upset to make the aluminium alloy upset in the testing process to this adaptation detection subassembly detects aluminium alloy roughness and flaw condition, and work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aluminium alloy detects uses high-efficient anchor clamps aims at solving aluminium alloy and detects uses high-efficient anchor clamps and need adopt the mode of artifical upset to make the aluminium alloy upset in the testing process to this adaptation determine module carries out the technical problem that detects to aluminium alloy roughness and flaw condition.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an aluminium alloy detects uses high-efficient anchor clamps, is including examining test table, the both sides of examining test table's top outer wall all are equipped with first electronic track, first electronic orbital inside is equipped with two frames, two the bottom inner wall of frame all is equipped with two gag lever posts, two electric telescopic handle is all installed to the central position of frame bottom inner wall, the one end of electric telescopic handle piston rod is equipped with the install bin, the internally mounted of install bin has servo motor, the one end of servo motor output shaft is connected with rotatory piece, be equipped with the electronic track of second on one side outer wall of rotatory piece, the electronic orbital inside of second is equipped with two grip blocks.

In this scheme, place on putting the thing platform when waiting to detect the aluminium alloy, the frame begins to remove to the aluminium alloy along first electric orbit, when the frame begins work to take the install bin to descend to the position that the aluminium alloy wanted to correspond to the in-process electric telescopic handle that the aluminium alloy removed, after the turning block contacts the aluminium alloy, the grip block is drawn close to the aluminium alloy along second electric orbit, step up it, electric telescopic handle takes the install bin to rise again afterwards, after reacing the take-up height, rotatory piece begins to rotate under servo motor's control and detects aluminium alloy roughness and flaw condition with this adaptation detection component, artifical upset time has been saved, and the work efficiency is improved.

In a preferred scheme, install two dwangs on the circumference outer wall of servo motor output shaft, the bottom outer wall of install bin is equipped with the hole, the inside connecting rod of pegging graft of hole, the circumference outer wall that is close to the top of connecting rod has cup jointed reset spring, the bottom of connecting rod is connected with the extrusion piece, two all be equipped with the gasbag on the bottom inner wall of frame, install the gas-supply pipe on the bottom outer wall of gasbag, the central point who detects a top inner wall is equipped with the gas collection box, the gas hole that equidistantly distributes is installed to the top outer wall of gas collection box, the top of connecting rod is connected with the semicircle piece, reset spring's top is connected on the bottom outer wall of semicircle piece, reset spring's bottom is connected on the bottom inner wall of install bin, the dwang, the connecting rod with reset spring three cooperation is used, the gas-supply pipe passes it connects to detect the platform on one side outer wall of gas collection box.

In the testing process, when the install bin descends, the connecting rod drives the extrusion piece and begins to extrude the gasbag, gas conveys the gas hole through the gas-supply pipe and discharges through the gas hole, reach the effect that whisk the dirt for the aluminium material, it rotates to drive the dwang when servo motor drives rotatory piece rotatory, dwang extrusion connecting rod, make the connecting rod descend to drive extrusion piece extrusion gasbag once more and whisk the dirt for the aluminium alloy, after rotatory piece rotation, the connecting rod resets under reset spring's effect, the effect of blowing for the aluminium alloy has reduced the surperficial dust of aluminium alloy, improved the aluminium alloy roughness, the detection precision of the flaw condition.

In a preferred scheme, the outer wall of one side of each of the two clamping blocks is provided with anti-slip strips distributed equidistantly, the anti-slip strips on the outer wall of the opposite side of the two clamping blocks are arranged in a mutually staggered structure, the outer wall of one side, close to the top, of each of the two racks is connected with the same fixed rod, the outer wall of the circumference of the fixed rod is provided with two detection probes, and the two sides of the outer wall of the top of each detection platform are provided with object placing platforms.

When the aluminium alloy was placed and is being put the thing bench, put the stability that the aluminium alloy indent semi-arc type structure at thing bench top reported obstacles aluminium alloy and placed, pressed from both sides at the aluminium alloy and played the testing process, two comprehensive scanning aluminium alloy of test probe improve and detect the precision, when the grip block step up rotatory detection time measuring, the antislip strip of two grip blocks and aluminium alloy contact surface with adding the mistake mutually began to play the effect, has reduced the probability that the aluminium alloy dropped.

By last, an aluminium alloy detects uses high-efficient anchor clamps, including detecting the platform, the both sides of detecting the top outer wall of platform all are equipped with first electronic track, first electronic orbital inside is equipped with two frames, two the bottom inner wall of frame all is equipped with two gag lever posts, two electric telescopic handle is all installed to the central position of frame bottom inner wall, the one end of electric telescopic handle piston rod is equipped with the install bin, the internally mounted of install bin has servo motor, the one end of servo motor output shaft is connected with rotatory piece, be equipped with the electronic track of second on one side outer wall of rotatory piece, one side outer wall of rotatory piece still is equipped with two grip blocks. The utility model provides an aluminium alloy detects uses high-efficient anchor clamps has the mode that saves artifical upset and makes aluminium alloy turnover time, improves work efficiency, has improved and has detected the aluminium alloy roughness, the detection precision of the flaw condition, has reduced the probability that the aluminium alloy dropped, has improved the technological effect who detects the security.

Drawings

Fig. 1 is the utility model provides an aluminium alloy detects overall structure schematic diagram with high-efficient anchor clamps.

Fig. 2 is the utility model provides an aluminium alloy detects partial section structure elevation of with high-efficient anchor clamps.

Fig. 3 is the utility model provides an aluminium alloy detects rotatory piece mounting structure schematic diagram with high-efficient anchor clamps.

In the drawings: 1. a detection table; 2. a frame; 3. installing a box; 4. rotating the block; 5. an electric telescopic rod; 6. a limiting rod; 7. a first motorized track; 8. an air bag; 9. a gas delivery pipe; 10. detecting a probe; 11. a gas blowing hole; 12. a placing table; 13. a second motorized track; 14. anti-slip strips; 15. a clamping block; 16. rotating the rod; 17. a return spring; 18. a connecting rod; 19. and extruding the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The utility model discloses an aluminium alloy detects uses high-efficient anchor clamps mainly is applied to traditional aluminium alloy and detects uses high-efficient anchor clamps and need adopt the mode of artifical upset to make the aluminium alloy upset in the testing process to this adaptation determine module carries out the scene that detects to aluminium alloy roughness and flaw condition.

Referring to fig. 1 and 3, an aluminium alloy detects uses high-efficient anchor clamps, including detecting platform 1, the both sides of detecting platform 1's top outer wall all are equipped with first electronic track 7, the inside of first electronic track 7 is equipped with two frames 2, the bottom inner wall of two frames 2 all is equipped with two gag lever posts 6, electric telescopic handle 5 is all installed to the central point of 2 bottom inner walls of two frames puts, the one end of electric telescopic handle 5 piston rod is equipped with install bin 3, the internally mounted of install bin 3 has servo motor, the one end of servo motor output shaft is connected with rotatory piece 4, be equipped with the electronic track 13 of second on the outer wall of one side of rotatory piece 4, the inside of the electronic track 13 of second is equipped with two grip blocks 15.

Wherein, two frames 2 are located the both sides of examining 1 top outer wall of test table, and two grip blocks 15 are located the top and the bottom of rotatory piece 4 keep away from servo motor one side outer wall, and two gag lever posts 6 are located the both sides of electric telescopic handle 5, and the top of two gag lever posts 6 links to each other with the top inner wall of two frames 2.

Wherein, two frames 2 are all right-left motion along first electronic track 7, and rotatory piece 4 is circular motion with servo motor's output shaft as the centre of a circle, and grip block 15 is up-and-down motion along second electronic track 13.

In the specific implementation process, place on putting thing platform 12 when waiting to detect the aluminium alloy, frame 2 begins to remove to the aluminium alloy along first electric rail 7, in-process electric telescopic handle 5 that moves to the aluminium alloy when frame 2 begins work and takes install bin 3 to descend to the position that the aluminium alloy wanted to correspond, after the turning block contacts the aluminium alloy, grip block 15 draws close to the aluminium alloy along second electric rail 13, step up it, electric telescopic handle 5 again takes install bin 3 to rise afterwards, reach the take the altitude after, rotatory piece 4 begins to rotate under servo motor's control and detects aluminium alloy roughness and flaw condition with this adaptation detection components, artifical upset time has been reduced.

Referring to fig. 1 and 2, two rotating rods 16 are installed on the circumferential outer wall of the output shaft of the servo motor, the bottom outer wall of the installation box 3 is provided with holes, connecting rods 18 are inserted inside the holes, the circumferential outer wall, close to the top, of each connecting rod 18 is sleeved with a return spring 17, the bottom end of each connecting rod 18 is connected with an extrusion block 19, air bags 8 are arranged on the bottom inner walls of the two racks 2, air conveying pipes 9 are installed on the bottom outer walls of the air bags 8, air collecting boxes are arranged in the central positions of the top inner walls of the detection platform 1, air blowing holes 11 distributed equidistantly are installed on the top outer walls of the air collecting boxes, the top ends of the connecting rods 18 are connected with semicircular blocks, the top ends of the return springs 17 are connected to the bottom outer walls of the semicircular blocks, the bottom ends of the return springs 17 are connected to the bottom inner wall of the installation box 3, the rotating rods 16, the connecting rods 18 and the return springs 17 are matched for use, and the air conveying pipes 9 penetrate through the detection platform 1 and are connected to the outer wall on one side of the air collecting boxes.

Specifically, in the testing process, when install bin 3 descends, connecting rod 18 drives extrusion piece 19 and begins to extrude gasbag 8, gas conveys gas hole 11 and discharges through gas hole 11 through gas-supply pipe 9, reach the effect that is aluminium material whisk, drive dwang 16 when servo motor drives rotatory piece 4 rotatory and rotate, dwang 16 extrudes connecting rod 18, make connecting rod 18 descend and drive extrusion piece 19 and extrude gasbag 8 once more and be aluminium alloy whisk, after rotatory 4 rotation of piece, connecting rod 18 resets under reset spring 17's effect, the effect of blowing for the aluminium alloy has reduced the surperficial dust of aluminium alloy.

Referring to fig. 1 and 3, one side outer wall of two grip blocks 15 all is equipped with the antislip strip 14 that the equidistance distributes, and the antislip strip 14 on the relative one side outer wall of two grip blocks 15 sets up to staggered structure mutually, and one side outer wall that two frames 2 are close to the top is connected with same dead lever, is equipped with two test probes 10 on the circumference outer wall of dead lever, and the both sides of examining test table 1 top outer wall all are equipped with puts thing platform 12.

Wherein, the top of the object placing table 12 is designed to be a concave semi-arc structure.

When the aluminium alloy was placed on putting thing platform 12, put the stability that thing platform 12 top's aluminium alloy indent semi-arc type structure was reported obstacles aluminium alloy and was placed, pressed from both sides at the aluminium alloy and played the testing process, two scanning aluminium alloy that test probe 10 is comprehensive, improve and detect the precision, when grip block 15 steps up rotatory detection, grip block 15 and aluminium alloy relieved the face add wrong antislip strip 14 of each other and begin to play a role, reduced the probability that the aluminium alloy dropped.

The working principle is as follows: during the use, place the aluminium alloy that will wait to detect on putting thing platform 12, place on putting thing platform 12 when waiting to detect the aluminium alloy, frame 2 begins to remove to the aluminium alloy along first electronic track 7, when frame 2 begins work to take install bin 3 to descend to the position that the aluminium alloy wanted to correspond to the in-process electric telescopic handle 5 that moves to the aluminium alloy, after the turning block contacts the aluminium alloy, grip block 15 draws close to the aluminium alloy along second electronic track 13, tighten it, electric telescopic handle 5 again takes install bin 3 to rise afterwards, reach a take the altitude after, turning block 4 begins to rotate under servo motor's control with this adaptation test probe 10 detects it, in the testing process, when install bin 3 descends, connecting rod 18 drives the extrusion piece 19 and begins to extrude gasbag 8, gas conveying to gas blowing hole 11 through the gas-supply pipe 9 and discharges through gas-supply pipe 11, reach the effect for the aluminium material dust removal dwang, drive turning block 16 when servo motor drives turning block 4 rotatory and rotate, 16 extrudes connecting rod 18, make connecting rod 18 drive extrusion piece 19 extrusion gasbag 8 once more extrude for the connecting rod, after the turning block 4 rotation again, this rotation returns the effect of dust removal, this rotation detection spring 18, carry out the effect of the return of the rotation under this rotation.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. The substitution may be of partial structures, devices, method steps, or may be a complete solution. According to the technical scheme of the utility model and utility model thereof think of and equal replacement or change, all should cover within the scope of protection of the utility model.

Claims (10)

1. The utility model provides an aluminium alloy detects uses high-efficient anchor clamps, is including examining test table (1), its characterized in that, the both sides of examining the top outer wall of test table (1) all are equipped with first electronic track (7), the inside of first electronic track (7) is equipped with two frames (2), two the bottom inner wall of frame (2) all is equipped with two gag lever post (6), two electric telescopic handle (5) are all installed to the central position of frame (2) bottom inner wall, the one end of electric telescopic handle (5) piston rod is equipped with install box (3), the internally mounted of install box (3) has servo motor, the one end of servo motor output shaft is connected with rotatory piece (4), be equipped with second electronic track (13) on the outer wall of one side of rotatory piece (4), the inside of second electronic track (13) is equipped with two grip blocks (15).

2. The aluminum profile detection efficient clamp according to claim 1, wherein the two racks (2) are located on two sides of the outer wall of the top of the detection table (1), the two clamping blocks (15) are located on the top and the bottom of the outer wall of one side, away from the servo motor, of the rotating block (4), the two limiting rods (6) are located on two sides of the electric telescopic rod (5), and the top ends of the two limiting rods (6) are connected with the inner walls of the tops of the two racks (2).

3. The aluminum profile detection efficient clamp according to claim 1, wherein the two racks (2) move left and right along the first electric track (7), the rotating block (4) moves circularly around an output shaft of the servo motor, the clamping block (15) moves up and down along the second electric track (13), and the two racks (2), the rotating block (4) and the clamping block (15) are used in cooperation.

4. The aluminum profile detection efficient clamp as claimed in claim 3, wherein two rotating rods (16) are mounted on the outer circumferential wall of the output shaft of the servo motor, holes are formed in the outer bottom wall of the installation box (3), connecting rods (18) are inserted into the holes, reset springs (17) are sleeved on the outer circumferential wall, close to the tops, of the connecting rods (18), extrusion blocks (19) are connected to the bottom ends of the connecting rods (18), air bags (8) are arranged on the inner bottom walls of the two racks (2), air conveying pipes (9) are mounted on the outer bottom walls of the air bags (8), air collecting boxes are arranged in the central positions of the inner top walls of the detection table (1), and air blowing holes (11) distributed equidistantly are mounted on the outer top walls of the air collecting boxes.

5. The aluminum profile detection efficient clamp according to claim 4, wherein a semicircular block is connected to the top end of the connecting rod (18), the top end of the return spring (17) is connected to the outer wall of the bottom of the semicircular block, the bottom end of the return spring (17) is connected to the inner wall of the bottom of the installation box (3), and the rotating rod (16), the connecting rod (18) and the return spring (17) are matched for use.

6. The aluminum profile detection efficient clamp according to claim 4, wherein the gas conveying pipe (9) penetrates through the detection table (1) and is connected to the outer wall of one side of the gas collecting box.

7. The aluminum profile detection efficient clamp as claimed in claim 3, wherein the outer walls of one side of the two clamping blocks (15) are provided with anti-slip strips (14) distributed at equal intervals, and the anti-slip strips (14) on the outer wall of the opposite side of the two clamping blocks (15) are arranged in a mutually staggered structure.

8. The aluminum profile detection efficient clamp as claimed in claim 4, wherein the two frames (2) are connected with the same fixing rod on the outer wall of one side close to the top, and two detection probes (10) are arranged on the outer wall of the circumference of the fixing rod.

9. The aluminum profile detection efficient clamp as claimed in claim 2, wherein the two sides of the outer wall of the top of the detection table (1) are provided with storage tables (12).

10. The aluminum profile detection efficient clamp as claimed in claim 9, wherein the top of the object placing table (12) is of a concave semi-arc structure.

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