CN215003513U - Accurate check out test set of anticorrosive steel pipe coating thickness - Google Patents

Abstract

The utility model discloses an accurate check out test set of anticorrosive steel pipe coating thickness, including the coating determine module that is used for detecting the different position coating thickness of single steel pipe, be used for detecting the unloading subassembly that back steel pipe unloading removed and be used for to the automatic feeding mechanism of putting in single steel pipe in the coating determine module, automatic feeding mechanism sets up side by side with the coating determine module, unloading subassembly sliding connection is on the coating determine module. Realize the automatic operation of single material loading through automatic feeding mechanism, recycle the coating thickness condition that coating detecting component detected single steel pipe comprehensively, finally will detect the steel pipe remove coating detecting component through the unloading subassembly in, vacate and detect the position, the convenient automated inspection to next steel pipe realizes the whole automation of steel pipe detection, reduces manual operation process, promotes enterprise production efficiency.

Description

Accurate check out test set of anticorrosive steel pipe coating thickness

Technical Field

The utility model belongs to the technical field of anticorrosive steel pipe processing equipment, specifically speaking relates to an accurate check out test set of anticorrosive steel pipe coating thickness.

Background

The thickness of the coating of the anticorrosive steel pipe is an important measurement standard in the factory quality of the anticorrosive steel pipe, the thickness detection of the anticorrosive steel pipe mostly stays at the random point selection measurement by manually holding a portable thickness detector at present, the detection distance of each person or even each measurement is not fixed, so that the error of the measurement result is large, the real thickness condition of the whole anticorrosive steel pipe cannot be truly reflected, the unforeseen problem of the quality problem of the anticorrosive steel pipe at the later stage is caused, great hidden danger is brought to production, and meanwhile, the reputation of an enterprise producing the anticorrosive steel pipe is also influenced; the whole steel pipe is comprehensively detected by advanced detection equipment, which is not suitable for small-sized production enterprises, and if the density is selected by increasing detection points, the detection speed of a quality control department can be reduced, and the finished product delivery efficiency of the anticorrosive steel pipe is further influenced.

Accordingly, further developments and improvements are still needed in the art.

SUMMERY OF THE UTILITY MODEL

Aiming at various defects in the prior art, in order to solve the problems, the equipment for accurately detecting the thickness of the coating of the anticorrosive steel pipe is provided. The utility model provides a following technical scheme:

the utility model provides an accurate check out test set of anticorrosive steel pipe coating thickness, is used for detecting the unloading subassembly that the steel pipe unloading was removed after the coating detection subassembly, be used for and puts in the automatic feeding mechanism of single steel pipe in to coating detection subassembly including being used for detecting the coating detection subassembly of the different position coating thicknesses of single steel pipe, automatic feeding mechanism sets up side by side with coating detection subassembly, unloading subassembly sliding connection is on coating detection subassembly.

Further, coating detecting element is including the coating thickness detector that is used for detecting steel pipe coating thickness, be used for supporting the test rack of the steel pipe that awaits measuring and be used for driving the steel pipe pivoted rotating assembly that awaits measuring, the test rack is V font support body, rotating assembly sets up in the tip that unloading one side was kept away from to the test rack, the mobilizable setting in test rack top of coating thickness detector.

Furthermore, the rotating assembly comprises a rotating motor and a telescopic supporting rod fixed on an output shaft of the rotating motor.

Furthermore, the blanking assembly comprises a push rod used for contacting the steel pipe, a driving motor used for driving the push rod to move and a moving assembly used for limiting the moving direction of the push rod, the coating thickness detector is fixed on a machine box of the driving motor, the push rod is hinged to one side of the driving motor, and the moving assembly is fixed below the driving motor.

Furthermore, the moving assembly comprises a sliding rail fixed on the feeding frame, a sliding block fixed at the bottom of the driving motor and a rack fixed on the side face of the feeding frame, the sliding block is connected with the sliding rail in a sliding mode, a gear is fixed on an output shaft of the driving motor, and the gear is meshed with the rack.

Furthermore, the detection frame is also provided with rollers for assisting the rotation of the steel pipe.

Further, automatic feeding mechanism is including the support frame that is used for supporting many steel pipes, be used for the material stopping frame of spacing steel pipe position and be used for lifting the material loading subassembly of steel pipe material loading, material stopping frame is fixed in the tip of support frame, and material loading subassembly is fixed in on the support frame.

Further, the material loading subassembly is including the bracket that is used for lifting the steel pipe and the cylinder that is used for driving bracket up-and-down motion, the bracket is fixed in the output of cylinder, the cylinder is fixed in the support frame below, it is provided with spacing hole to correspond the bracket on the support frame, and the steel pipe is lifted in spacing downthehole upper and lower slip of bracket.

Furthermore, the feeding assembly is provided with at least two groups along the axial direction of the steel pipe.

Further, support frame, bracket and fender material frame all set up downwards along automatic feeding mechanism's material loading direction slope, the bracket with it is the same to keep off material frame inclination, the inclined plane below and the fender material frame inclined plane top after the bracket jack-up meet.

Has the advantages that:

1. the automatic feeding operation of single feeding is realized through the automatic feeding mechanism, the coating thickness condition of a single steel pipe is comprehensively detected through the coating detection assembly, the detected steel pipe is finally removed from the coating detection assembly through the blanking assembly, a detection position is vacated, the automatic detection of the next steel pipe is facilitated, the automation of the whole steel pipe detection process is realized, the manual operation process is reduced, and the production efficiency of enterprises is improved;

2. the inner wall of each steel pipe is fixed through the telescopic support rods, so that the rotating assembly drives the steel pipes to rotate, spiral constant-speed detection of the steel pipes is realized by matching with a coating thickness detector in linear motion, the coating thickness of the steel pipes is reflected more comprehensively, time and labor are saved, the detection efficiency is improved, and the quality qualification rate of finished steel pipes is improved;

3. through the mutual cooperation of support frame, material stopping frame and material loading subassembly, utilize less drive power just to realize the material loading one by one of steel pipe, it is rational in infrastructure effective, reduce enterprise's production energy loss.

Drawings

FIG. 1 is a schematic structural view of an apparatus for accurately detecting the thickness of a coating of an anticorrosive steel pipe according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an apparatus for accurately detecting a thickness of a coating of an anticorrosive steel pipe according to an embodiment of the present invention;

FIG. 3 is a schematic view of the bottom structure of an apparatus for accurately detecting the thickness of a coating of an anticorrosive steel pipe according to an embodiment of the present invention;

FIG. 4 is a schematic top view of an apparatus for accurately detecting the thickness of a coating of an anticorrosive steel pipe according to an embodiment of the present invention;

FIG. 5 is a schematic sectional view taken along the line A-A in FIG. 4 according to an embodiment of the present invention;

in the drawings: 1. a detection frame; 2. a push rod; 3. a drive motor; 4. a slide rail; 5. a slider; 6. a rack; 7. a gear; 8. a support frame; 9. a bracket; 10. a material blocking frame; 11. a cylinder; 12. a steel pipe; 13. a coating thickness detector; 14. a rotating electric machine; 15. a telescopic support rod; 16. and a roller.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the following description, together with the drawings of the present invention, clearly and completely describes the technical solution of the present invention, and based on the embodiments in the present application, other similar embodiments obtained by those skilled in the art without creative efforts shall all belong to the protection scope of the present application. In addition, directional terms such as "upper", "lower", "left", "right", etc. in the following embodiments are directions with reference to the drawings only, and thus, the directional terms are used for illustration and not for limitation of the present invention.

As shown in fig. 1-5, an accurate detection equipment for the coating thickness of an anticorrosive steel pipe comprises a coating detection assembly for detecting the coating thickness of different parts of a single steel pipe 12, a blanking assembly for removing the blanking of the detected steel pipe 12 and an automatic feeding mechanism for feeding the single steel pipe 12 into the coating detection assembly, wherein the automatic feeding mechanism and the coating detection assembly are arranged side by side, and the blanking assembly is slidably connected onto the coating detection assembly. Realize the automatic operation of single material loading through automatic feeding mechanism, recycle the coating detection subassembly and detect the coating thickness condition of single steel pipe 12 comprehensively, finally will detect steel pipe 12 through unloading subassembly remove the coating detection subassembly in, vacate and detect the position, convenient automated inspection to next steel pipe 12.

Further, coating detecting element is including the coating thickness detector 13 that is used for detecting the 12 coating thickness of steel pipe, be used for supporting the testing stand 1 of the steel pipe 12 that awaits measuring and be used for driving the steel pipe 12 pivoted rotating assembly that awaits measuring, testing stand 1 is V font support body, rotating assembly sets up in testing stand 1 and keeps away from the tip of unloading one side, coating thickness detector 13 is mobilizable to be set up in testing stand 1 top. The detection frame 1 is designed into a V-shaped frame body, the V shape can form a self-centering structure, and the steel pipe 12 can be conveniently and automatically positioned, so that the steel pipe 12 automatically falls into the center of the detection frame 1 under the action of gravity.

Further, the rotating assembly includes a rotating motor 14 and a telescopic support rod 15 fixed to an output shaft of the rotating motor 14. Realize the fixed to every steel pipe 12 inner wall through scalable bracing piece 15 to make rotating assembly drive steel pipe 12 and rotate, cooperation linear motion's coating thickness detector 13 realizes steel pipe 12's spiral at the uniform velocity and detects, thereby more comprehensive reflection steel pipe 12's coating thickness, labour saving and time saving improves detection efficiency, promotes the off-the-shelf quality qualification rate of steel pipe 12.

Further, the blanking assembly comprises a push rod 2 used for contacting the steel pipe 12, a driving motor 3 used for driving the push rod 2 to move and a moving assembly used for limiting the moving direction of the push rod 2, the coating thickness detector 13 is fixed on a machine box of the driving motor 3, the push rod 2 is hinged to one side of the driving motor 3, and the moving assembly is fixed below the driving motor 3. The driving motor 3 comprises a push rod 2 rotating motor 14 for rotating the push rod 2 to move to the axle center of the steel pipe 12 and a gear 7 rotating motor 14 for driving the gear 7 in the moving assembly to rotate. The coating thickness detector 13 is fixed on the chassis of the driving motor 3, so that the coating thickness detector 13 can move along with the movement of the driving motor 3, thereby facilitating the overall detection along the length direction of the steel pipe 12.

Further, the moving assembly comprises a sliding rail 4 fixed on the feeding frame, a sliding block 5 fixed at the bottom of the driving motor 3 and a rack 6 fixed on the side face of the feeding frame, the sliding block 5 is connected with the sliding rail 4 in a sliding mode, a gear 7 is fixed on an output shaft of the driving motor 3, and the gear 7 is connected with the rack 6 in a meshed mode. The arrangement direction of the sliding rail 4 is the same as that of the rack 6, so that the sliding rail 4 and the rack 6 always keep the same extension direction and the same distance, and the push rod 2 and the coating thickness detector 13 which are fixed above the sliding rail 4 and the rack 6 are always in the linear motion state in the same extension direction. Through the meshing connection of the gear 7 and the rack 6, the rotary displacement of the gear 7 rotating motor 14 is transmitted to the sliding block 5, so that the sliding block 5 is driven to do linear reciprocating motion on the sliding rail 4. The end parts of two sides of the sliding rail 4 are provided with limit switches, the limit switches are in signal connection with the driving motor 3, the driving motor 3 is prevented from being separated from the sliding rail 4 to move, meanwhile, the limit switches are in signal connection with the air cylinder 11 of the automatic feeding mechanism, and the automatic feeding action of the air cylinder 11 is controlled through the position of the motor and the delayed feeding time.

Further, the detection frame 1 is further provided with a roller 16 for assisting the rotation of the steel tube 12. The rollers 16 are respectively arranged on two sides of the bottom of the detection frame 1, so that the resistance of the detection frame 1 to the steel pipe 12 is reduced in the rotating process of the rotating component driving, the power of the rotating motor 14 is reduced, and energy is saved.

Further, automatic feeding mechanism is including the support frame 8 that is used for supporting many steel pipes 12, be used for the material frame 10 that keeps off of spacing steel pipe 12 position and be used for lifting the material loading subassembly of steel pipe 12 material loading, keep off the tip that the material frame 10 is fixed in support frame 8, material loading subassembly is fixed in on the support frame 8. Through the mutual cooperation of support frame 8, material stopping frame 10 and material loading subassembly, utilize less drive power just can realize the material loading one by one of steel pipe 12. The support frame 8 is used for displaying a plurality of steel pipes 12 to be loaded at one time, and the blocking effect of the material blocking frame 10 is used for avoiding the uncontrolled loading of the steel pipes 12, so that the height of the material blocking frame 10 at the joint of the support frame 8 is higher than that of the joint of the support frame 8, and preferably, the height difference of the joint of the material blocking frame 10 and the support frame 8 is larger than the radius of the steel pipes 12.

Further, the material loading subassembly is including the cylinder 11 that is used for lifting the bracket 9 of steel pipe 12 and is used for driving the up-and-down motion of bracket 9, bracket 9 is fixed in the output of cylinder 11, cylinder 11 is fixed in support frame 8 below, support frame 8 is last to correspond bracket 9 and is provided with spacing hole, and bracket 9 slides from top to bottom in spacing downthehole and lifts steel pipe 12. The feeding assembly is a pneumatic assembly, and lifting actions can be conveniently and rapidly controlled.

Further, the feeding assembly is provided with at least two groups along the axial direction of the steel pipe 12. The lifting height and the lifting time of each group of feeding assemblies are the same, synchronous lifting actions of each group of feeding assemblies are guaranteed, the lifting pressure of each group of feeding assemblies is reduced, a group of feeding assemblies are preferably arranged around the position close to the material blocking frame 10 along the axial direction of the steel pipe 12, the two groups of feeding assemblies can lift the front end and the rear end of the steel pipe 12 just, and the steel pipe 12 is prevented from sliding down due to unbalance in the lifting process.

Further, the support frame 8, the bracket 9 and the material blocking frame 10 are all obliquely and downwards arranged along the feeding direction of the automatic feeding mechanism, the bracket 9 has the same inclination angle with the material blocking frame 10, and the lower part of the inclined plane after jacking up of the bracket 9 is connected with the upper part of the inclined plane of the material blocking frame 10. The support frame 8, the bracket 9 and the material blocking frame 10 are all obliquely and downwards arranged, so that the gravity of the steel pipes 12 can be utilized, the steel pipes 12 can be sequentially and tightly arranged, and the automatic blanking process of a single steel pipe 12 can be realized only by applying smaller longitudinal component force. The design of connecting mutually makes things convenient for cylinder 11 can be smooth and easy rely on self gravity slope to roll downwards after lifting steel pipe 12, realizes automatic feeding process.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (10)

1. The utility model provides an accurate check out test set of anticorrosive steel pipe coating thickness, its characterized in that, including the coating determine module that is used for detecting the different position coating thickness of single steel pipe, be used for detecting the unloading subassembly that the back steel pipe unloading was removed and be used for to the automatic feeding mechanism of putting in single steel pipe in the coating determine module, automatic feeding mechanism sets up side by side with the coating determine module, unloading subassembly sliding connection is on the coating determine module.

2. The accurate detection equipment of anticorrosive steel pipe coating thickness of claim 1, characterized in that, coating determine module is including the coating thickness detector that is used for detecting steel pipe coating thickness, the detection frame that is used for supporting the steel pipe that awaits measuring and be used for driving the steel pipe pivoted rotating assembly that awaits measuring, the detection frame is V font support body, rotating assembly sets up in the tip that unloading one side was kept away from to the detection frame, the mobilizable setting in detection frame top of coating thickness detector.

3. The accurate detection equipment of anticorrosive steel pipe coating thickness according to claim 2, characterized in that, the rotating assembly includes rotating electrical machines and telescopic support rods fixed on the rotating electrical machines output shaft.

4. The accurate detection equipment for the coating thickness of the anticorrosive steel pipe according to claim 2, wherein the blanking assembly comprises a push rod for contacting the steel pipe, a driving motor for driving the push rod to move and a moving assembly for limiting the moving direction of the push rod, the coating thickness detector is fixed on a chassis of the driving motor, the push rod is hinged to one side of the driving motor, and the moving assembly is fixed below the driving motor.

5. The accurate detection equipment for the coating thickness of the anticorrosive steel pipe according to claim 4, wherein the moving assembly comprises a sliding rail fixed on the feeding frame, a sliding block fixed at the bottom of the driving motor and a rack fixed on the side surface of the feeding frame, the sliding block is connected with the sliding rail in a sliding manner, a gear is fixed on an output shaft of the driving motor, and the gear is meshed with the rack.

6. The accurate detection equipment for the coating thickness of the anti-corrosion steel pipe as claimed in claim 2, wherein the detection frame is further provided with rollers for assisting the rotation of the steel pipe.

7. The accurate detection equipment of anticorrosive steel pipe coating thickness of claim 1, characterized in that, automatic feeding mechanism is including the support frame that is used for supporting many steel pipes, is used for the fender material frame of spacing steel pipe position and is used for lifting the material loading subassembly of steel pipe material loading, keep off the material frame and be fixed in the tip of support frame, the material loading subassembly is fixed in on the support frame.

8. The accurate detection equipment of anticorrosive steel pipe coating thickness according to claim 7, characterized in that, the material loading subassembly includes the bracket that is used for lifting the steel pipe and is used for driving the cylinder of bracket up-and-down motion, the bracket is fixed in the output of cylinder, the cylinder is fixed in the support frame below, it is provided with spacing hole to correspond the bracket on the support frame, and the bracket slides from top to bottom in spacing hole and lifts the steel pipe.

9. The accurate detection equipment for the coating thickness of the anti-corrosion steel pipe as claimed in claim 7, wherein the feeding assembly is provided with at least two groups along the axial direction of the steel pipe.

10. The accurate detection equipment of anticorrosive steel pipe coating thickness of claim 7, characterized in that, support frame, bracket and fender material frame all set up along automatic feeding mechanism's material loading direction slope downwards, the bracket with keep off material frame inclination the same, the inclined plane below and the fender material frame inclined plane top after the bracket jack-up meet.

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