CN113267450A

CN113267450A - Continuous detection processing device for machining center

Info

Publication number: CN113267450A
Application number: CN202110461228.0A
Authority: CN
Inventors: 林会清
Original assignee: Individual
Current assignee: Shanghai Deqishun Precision Machinery Equipment Co ltd
Priority date: 2021-04-27
Filing date: 2021-04-27
Publication date: 2021-08-17
Anticipated expiration: 2041-04-27
Also published as: CN113267450B; CN117129417A

Abstract

The invention discloses a continuous detection processing device for a machining center, which comprises a detection shell and is characterized in that: the detection device comprises a detection shell, a finished product detection mechanism, an appearance detection mechanism, a judging roller, a sliding rod, a sand plate bearing and a triggering rotating wheel.

Description

Continuous detection processing device for machining center

Technical Field

The invention relates to the technical field of detection, in particular to a continuous detection processing device for a machining center.

Background

In the production process of the cylindrical steel pipe, problems are easy to occur, if the problems cannot be detected in real time and the operation is continued, large loss is easy to generate, the existing continuous detection processing device for the machining center cannot detect and process the tiny shape defects of the cylindrical steel pipe, and the existing continuous detection processing device for the machining center has large cost in detecting the appearance, so that the continuous detection processing device for the machining center is necessary to design the continuous detection processing device for the machining center, which can detect the tiny shape defects of the cylindrical steel pipe, process the tiny shape defects and facilitate the detection of the appearance shape.

Disclosure of Invention

The present invention is directed to a continuous inspection and processing apparatus for a machining center, which solves the above problems of the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a continuous type detects processing apparatus for machining center, is including detecting the casing, its characterized in that: the inside of detecting the casing is provided with preliminary treatment detection mechanism, the inside of detecting the casing is provided with finished product detection mechanism, the downside of detecting the casing is provided with outward appearance detection mechanism.

According to the technical scheme, preliminary treatment detection mechanism includes the shell body, the inside of shell body is provided with interior casing, all evenly be provided with the deformation ball on shell body and the interior casing, one side elastic connection of deformation ball has the judgement gyro wheel, the inboard elastic connection who judges the gyro wheel has the slide bar, the outside bearing of slide bar is connected with the sand board, the sand board bearing is connected on judging the gyro wheel, the inside of judging the gyro wheel is provided with the trigger runner.

According to the technical scheme, the outer side of the trigger rotating wheel is uniformly provided with the compression bag, one side of the compression bag is connected with the compression rod in a sliding mode, the other end of the compression rod is connected with the coating layer in a bearing mode, and the inner pipeline of the compression bag is connected with the stop bag.

According to the technical scheme, every two equal pipe connections of deformation ball on the interior casing have the balanced valve, the one end pipe connection of balanced valve has the friction shell, the balanced valve passes through the flexible membrane and connects on the deformation ball, the inside of friction shell is provided with the friction membrane, the inside of friction membrane is provided with the stop switch.

According to the technical scheme, the finished product detection mechanism comprises a finished product detection shell, one side of the finished product detection shell is provided with a clamping cylinder, a coating tank is arranged on one side of the clamping cylinder, a pressure permeable membrane is arranged on one side of the coating tank, one side of the paint tank is connected with a first connecting rod through a bearing, the first connecting rod is connected with a fixed shaft through a bearing, one end of the first connecting rod is connected with a rotating gear through a bearing, one side of the rotating gear is connected with a centrifugal wheel in a meshing way, the pipeline of the centrifugal wheel is connected with the paint tank, the pipeline at one side of the centrifugal wheel is connected with a density ball, the outer side of the density ball is connected with a density shell in a sliding way, the upper pipeline of the density shell is connected with a stop shell, the inner bearing of the stop shell is connected with a rotating needle, resistance tops are uniformly arranged on the rotating needle, and a pipeline on one side of the stop shell is connected with a coating sprayer.

According to the technical scheme, the upside of finished product detection shell is provided with the pressure membrane, the centre of pressure membrane is provided with the slider, the inside sliding connection of slider has the slider pole, the one end of slider pole is provided with drags the ball, drag ball elastic connection on the slider, one side pipe connection who drags the ball is on the density shell, one side pipe connection who drags the ball has the pressure valve, one side pipe connection of pressure valve has the inflation shell, the inside of inflation shell is provided with the inflation ball, the resistance top evenly sets up on the inflation ball.

According to the technical scheme, the right side of a centre gripping section of thick bamboo is provided with the top, one side fixedly connected with sliding ball of top, one side elastic connection of sliding ball has the piston, the outside sliding connection of piston has explosion chamber, the other end sliding connection of explosion chamber has the power stopper, one side of power stopper is provided with the spark ball, one side elastic connection of spark ball has the friction ball, the opposite side of power stopper is provided with the second connecting rod, two third connecting rods are connected to the one end bearing of second connecting rod, two the third connecting rod upper bearing is connected with the lever shaft, the other end bearing of third connecting rod is connected with the power rod, the other end of power rod is fixed on the top.

According to the technical scheme, the appearance detection mechanism comprises an appearance shell, an inner side bearing of the appearance shell is connected with a rotating shaft, one end of the rotating shaft is provided with a speed reduction disc, an outer side bearing of the rotating shaft is connected with a vibration rod, one end of the vibration rod is provided with a detection bag, the upper side of the detection bag is uniformly provided with the speed reduction rod, the outer side of the lower end of the rotating shaft is provided with a friction block, and the outer side of the friction block is provided with an elastic film.

According to the technical scheme, the deformation ball is made of elastic materials.

According to the technical scheme, friction force does not exist between the sliding block and the sliding block rod approximately.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) by arranging the pretreatment detection mechanism, the detection of fine shape defects such as burr cracks and the like on the inner side and the outer side of the cylindrical steel pipe can be realized, corresponding treatment measures can be made, and the mass distribution condition in the steel pipe can be detected;

(2) the finished product detection mechanism can detect the smoothness degree of the outer side surface of the cylindrical steel pipe, corresponding treatment measures can be taken according to different smoothness degrees, and the oxidation resistance and the impact resistance of the cylindrical steel pipe can be detected;

(3) through being provided with outward appearance detection mechanism, can realize detecting the outward appearance of a cylinder section of thick bamboo through simple means to can find out the place that the deviation appears in the outward appearance, can also detect the seal of a cylinder steel section of thick bamboo.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the pretreatment detection mechanism of the present invention;

FIG. 2 is an enlarged partial view of portions A and B of FIG. 1;

FIG. 3 is a schematic structural view of a finished product inspection mechanism of the present invention;

FIG. 4 is a schematic view of the appearance inspection mechanism of the present invention;

in the figure: 1. detecting the shell; 2. a pretreatment detection mechanism; 21. an outer housing; 22. an inner housing; 23. a deformation ball; 24. judging a roller; 25. a balancing valve; 26. rubbing the shell; 27. a cut-off switch; 28. a sand plate; 29. a coating layer; 210. a pressure lever; 211. a cut-off capsule; 212. triggering the rotating wheel; 213. compressing the bladder; 3. a finished product detection mechanism; 31. a finished product detection shell; 32. a clamping cylinder; 33. a paint tank; 34. a pressure permeable membrane; 35. a fixed shaft; 36. a rotating gear; 37. a centrifugal wheel; 38. a density shell; 39. a density ball; 310. a cut-off shell; 312. rotating the needle; 313. resistance jacking; 314. an expansion ball; 315. a pressure valve; 316. pulling the ball; 317. a slider; 318. a paint sprayer; 319. ejecting the head; 320. a sliding ball; 321. an explosion chamber; 322. a lever shaft; 323. a spark ball; 324. a friction ball; 4. an appearance detection mechanism; 41. a reduction disk; 42. a vibration rod; 43. an appearance shell; 44. detecting the capsule; 45. a speed reduction lever; 46. and rotating the shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a continuous type detects processing apparatus for machining center, is including detecting casing 1, its characterized in that: a pretreatment detection mechanism 2 is arranged inside the detection shell 1, a finished product detection mechanism 3 is arranged inside the detection shell 1, and an appearance detection mechanism 4 is arranged on the lower side of the detection shell 1; through being provided with preliminary treatment detection mechanism, can realize detecting the slight shape defect such as burr crack of the inside and outside of drum type steel pipe, and can make corresponding treatment, can also detect the inside quality distribution condition of steel pipe, through being provided with finished product detection mechanism, can realize detecting the level and smooth degree of drum type steel pipe outside face, and make corresponding treatment according to the level and smooth degree of difference, and can detect the oxidation resistance and the shock resistance of drum type steel pipe, through being provided with outward appearance detection mechanism, can realize detecting the outward appearance of a cylinder section of thick bamboo through simple means, and can find out the place that the deviation appears in the outward appearance, can also detect the leakproofness of a cylinder section of thick bamboo.

The pretreatment detection mechanism 2 comprises an outer shell 21, an inner shell 22 is arranged inside the outer shell 21, deformation balls 23 are uniformly arranged on the outer shell 21 and the inner shell 22, one side of each deformation ball 23 is elastically connected with a judgment roller 24, the inner side of each judgment roller 24 is elastically connected with a slide rod, the outer side of each slide rod is in bearing connection with a sand plate 28, the sand plate 28 is in bearing connection with the judgment roller 24, and a trigger rotating wheel 212 is arranged inside each judgment roller 24; when there is tiny burr in the inside and outside of cylinder steel cylinder, make and judge that the gyro wheel is moved by the top, and then drive deformation ball and be extruded, and then lead to the inside pressure increase of deformation ball, and then drive and trigger the runner corotation, the surface of the steel pipe is polished to the surface of judging the gyro wheel with the external world, and along with the effort increase of burr to judging the gyro wheel, the pressure that deformation ball inside produced just is big more, and then the rate of rotation that leads to triggering the runner just is big more, the effect of polishing to the drum type steel pipe just is better, and when the rotational speed reaches a definite value better, centrifugal force can overcome elasticity and then drive the slide bar roll-off, and drive the sand board of being connected with the slide bar bearing and form the spine, be used for cleaing away great burr, avoid great burr to clear away and need consume too much time, the beneficial effect of this step does: judge whether burr exists on the inside and outside surface of drum type steel pipe, when the cylinder was pushed up, judge that there is the burr, make the inside pressure increase of deformation bag, it rotates and then drives the judgement gyro wheel to drive to trigger the runner, a surface for polishing centre of a circle steel cylinder, and when the slide bar was overcome elasticity and is thrown away, it is great to judge the burr this moment, the sharp thorn that uses slide bar and sand plate to form removes the burr, it is too low to avoid the efficiency of polishing with great burr, can realize through the above-mentioned step, automatically judge whether there is the burr on the inside and outside surface of steel pipe, and adopt the roll to polish or sharp thorn to hit eliminating burr means such as beating according to the size of burr and remove the burr, guaranteed not to produce the purpose of fish tail to the surface of drum type steel pipe when having guaranteed the efficiency of burring.

The outer side of the trigger rotating wheel 212 is uniformly provided with a compression bag 213, one side of the compression bag 213 is connected with a compression rod 210 in a sliding way, the other end of the compression rod 210 is connected with a coating layer 29 in a bearing way, and the inner pipeline of the compression bag 213 is connected with a stop bag 211; when the trigger rotating wheel rotates forwards, the pressure rod is thrown outwards under the action of centrifugal force, the device does not act at the moment, when the roller is judged to contact the surface of the round steel pipe and extend outwards, the deformation ball is driven to be pulled, the internal pressure of the deformation ball is reduced at the moment and is transmitted to the trigger rotating wheel, so that the trigger rotating wheel rotates backwards, the pressure rod moves towards the center of the circle at the moment, the coating layer is driven to shrink towards the center of the circle, the thickness of the coating bin is known to be unchanged, the volume of the coating layer is reduced, the internal coating is extruded out of external defects, the original defects are filled up with the coating, the situation that the defective parts cannot well coat the coating in the subsequent coating process is avoided, the coating bin approaches the center of the circle more along with the increase of the defects, so that the coating is sprayed more, and when the defects reach a certain degree, the pressure rod starts to contact with the compression bag, so that the internal pressure of the compression bag is increased, the weak local inflation that is close to the drum steel pipe of comparing, and then drive the inside of compression bag entering defect and end the rotation of drum steel pipe, the beneficial effect of this step is: in the process of rotating the steel pipe, whether the inner wall and the outer wall of the steel pipe have defects or not is continuously judged, when the rotating wheel is triggered to start to rotate reversely, the steel pipe is judged to have defects, the coating bin moves towards the direction of the circle center at the moment to further cause the coating to be extruded, the coating bin is closer to the circle center along with the increase of the defects, the more the coating extruded by the coating bin is increased, the larger defects are filled, when the compression rod starts to extrude the compression bag, the defects are judged to be not leveled by the coating and the use of the steel pipe is seriously influenced, the compression bag starts to expand towards the defect position at the moment, finally, the rotation of the steel pipe is stopped inside the defect, and the defect position is located, the defects can be automatically judged, when the defects exist on the inner wall and the outer wall of the steel pipe, the defects are filled by the coating, the more the coating extruded when the defects are larger, the waste of the coating is avoided while the defects are filled, and when the defect is too large, the device can trigger the stopping bag to stop the steel pipe and position the steel pipe.

The deformation balls 23 on each two inner shells 22 are connected with a balance valve 25 through pipelines, one end of each balance valve 25 is connected with a friction shell 26 through a pipeline, the balance valve 25 is connected to the deformation balls 23 through a flexible membrane, a friction membrane is arranged inside each friction shell 26, and a stop switch 27 is arranged inside each friction membrane; when the cylindrical steel pipe rotates, if the mass distribution is not uniform, that is, the bubbles in a certain position are too large, eccentric vibration is generated in the process of rotating the cylindrical steel pipe, when the cylindrical steel pipe is eccentrically vibrated, at least two positions of the balance valve uniformly arranged on the outer side are extruded and stretched, the balance valve connected between the two positions of the pipeline is opened due to the pressure generated in the two extruded deformation balls, the pressure on the outer side of the flexible membrane on the outer side of the balance valve is transmitted to the inner side of the friction membrane through the balance valve, so that the pressure on the outer side of the friction membrane is increased, and then lead to the frictional force that the friction shell received to reduce, and then lead to cylindrical steel pipe acceleration of rotation, if the diaphragm outside pressure intensity continuously increases until extrudeing inside extrusion switch, judge that cylindrical steel pipe is inside to have the eccentric condition of quality, the beneficial effect of this step is: judging that a certain eccentric condition exists in the cylindrical steel pipe through whether any two deformation balls are compressed or pulled simultaneously, at the moment, the balance valve controls the friction force on the friction shell to be reduced, the rotating speed of the cylindrical steel pipe is increased to further judge the eccentric condition of the interior of the cylindrical steel pipe, when the cut-off switch is triggered to cut off the cylindrical steel pipe, the condition that the mass distribution is not uniform greatly exists in the cylindrical steel pipe is judged, when the rotating speed of the cylindrical steel pipe is increased to the maximum and the cut-off switch is not cut off, the condition that the internal mass distribution of the cylindrical steel pipe is not uniform is judged not to be serious, the steps can realize that the mass distribution condition in the cylindrical steel pipe is automatically judged, and the serious condition of the mass distribution condition in the cylindrical steel pipe can be judged with high precision while energy loss is saved.

The finished product detection mechanism 3 comprises a finished product detection shell 31, a clamping cylinder 32 is arranged on one side of the finished product detection shell 31, a coating tank 33 is arranged on one side of the clamping cylinder 32, a pressure permeable membrane 34 is arranged on one side of the coating tank 33, a first connecting rod is connected to one side of the coating tank 33 through a bearing, a fixed shaft 35 is connected to the first connecting rod through a bearing, a rotating gear 36 is connected to one end of the first connecting rod through a bearing, a centrifugal wheel 37 is connected to one side of the rotating gear 36 in a meshed mode, the centrifugal wheel 37 is connected to the coating tank 33 through a pipeline, a density ball 39 is connected to one side of the centrifugal wheel 37 through a pipeline, a density shell 38 is connected to the outer side of the density ball 39 in a sliding mode, a stop shell 310 is connected to the upper side of the density shell 38 through a pipeline, a rotating needle 312 is connected to an inner bearing of the stop shell 310, resistance tops 313 are uniformly arranged on the rotating needle 312, and a coating nozzle 318 is connected to one side of the stop shell 310 through a pipeline; the clamping cylinder clamps the cylindrical steel pipe, the pressure permeable membrane is tightly attached to the cylindrical steel pipe, the friction force on the surface of the cylindrical steel pipe is judged, and then the distribution condition of the coating on the surface of the cylindrical steel pipe is judged, when the friction force on the pressure permeable membrane exceeds the standard, the coating tank is driven to deflect under the action of the friction force, the first connecting rod is driven to rotate, the rotating gear is driven to rotate, the centrifugal wheel meshed and connected with the rotating gear is driven to rotate, the friction force on the centrifugal bin can be judged according to the rotating speed of the centrifugal wheel, after the centrifugal wheel rotates to throw out liquid, the internal pressure intensity of the coating tank is controlled to increase, and further the coating is exuded by the pressure permeable membrane, and as the pressure of the coating tank increases, the pressure of the pressure permeable membrane on the cylindrical steel pipe is larger, the change of the friction force on the cylindrical steel pipe is more sensitive, and when the rotating speed of the centrifugal wheel exceeds a certain numerical value, the density that leads to the density ball is less than a definite value, and then drives the liquid of density shell upside and is extruded to ending in the shell, and when the internal pressure who ends the shell increased certain numerical value, the messenger began to switch on by the shell, and then starts the coating shower nozzle, carries out secondary application to the cylinder type steel pipe, and the beneficial effect of this step is: judging the coating effect of the cylindrical steel pipe through the friction force of the outer surface of the cylindrical steel pipe, when the coating has tiny defects, rotating the first connecting rod under the action of the friction force to further cause the centrifugal wheel to start rotating at a lower speed, controlling the centrifugal wheel to throw out liquid and controlling the internal pressure of the centrifugal tank to increase so as to enable the internal coating to overflow, increasing the force of the pressure permeable membrane attached to the cylindrical steel pipe to further increase the judgment precision of the pressure permeable membrane on the friction factors, judging that the coating effect of the surface of the cylindrical roller is poor at the moment when the stop shell is opened due to the hydraulic pressure change in the density shell, starting the coating spray head to perform secondary coating on the steel pipe, judging the finish condition of the surface of the cylindrical steel pipe through the friction factors, and enabling the pressure permeable membrane to seep out the coating when the tiny coating defects exist on the surface, and the judgment precision of the coating condition of the cylindrical steel pipe is increased, and when the condition that the coating is finished is judged to be poor, the coating nozzle is started to perform secondary coating on the cylindrical steel pipe.

A pressure membrane is arranged on the upper side of the finished product detection shell 31, a sliding block 317 is arranged in the middle of the pressure membrane, a sliding block rod is connected in the sliding block 317 in a sliding mode, a pulling ball 316 is arranged at one end of the sliding block rod, the pulling ball 316 is elastically connected to the sliding block 317, a pipeline on one side of the pulling ball 316 is connected to the density shell 38, a pressure valve 315 is connected to a pipeline on one side of the pulling ball 316, an expansion shell is connected to a pipeline on one side of the pressure valve 315, an expansion ball 314 is arranged in the expansion shell, and resistance jacks 313 are uniformly arranged on the expansion ball 314; the pressure membrane of finished product detection shell upside can judge the gas pressure of finished product detection shell, under normal conditions, the pressure membrane can be because the lower side frictional force detects the temperature variation that brings and expand, the device does not move this moment, and when the pressure membrane was in the initial position, the slider will extrude and pull the ball, lead to the increase of extrusion ball internal pressure, and can transmit the pressure of extrusion ball inside to the density shell, transmit to the shell of ending through the density shell, and when the slider had the gliding tendency with the initial position relatively, pull ball internal pressure at this moment and be too big, and then lead to the too big and lead to the expansion membrane compression of expansion shell internal pressure, drive the resistance top and withdraw, lead to the rotation resistance of the self of rotating needle to disappear, and then lead to ending the shell and be opened very easily, the beneficial effect of this step is: when the slide block is positioned at the upper side of the initial position, the device is judged to be in a normal state at the moment, the increased pressure is caused by friction heating, when the slide block is positioned at the initial position, the cylindrical steel pipe is judged to consume a certain amount of oxygen through oxidation, the consumed oxygen and the increased temperature cause that the pressure inside the pressure film does not change, at the moment, the pulling ball outputs a certain pressure to help the density shell to drive the rotating needle to rotate, when the slide block is positioned below the initial position, the cylindrical steel pipe is judged to have a serious oxidation tendency at the moment, the pulling ball controls the rotating needle to lose the rotating resistance thereof, and further, the coating nozzle is started to carry out secondary coating on the cylindrical steel pipe when the pressure permeable film detects that the coating completion degree of the surface of the cylindrical steel pipe is not high, through the steps, the oxygen consumption condition inside the pressure film is judged through the height difference of the slide block relative to the initial position, aiming at different oxygen consumption conditions, the method respectively adopts the method of reducing the hydraulic pressure required by secondary coating or eliminating the pressure required by secondary coating to avoid the cylindrical steel pipe from being easily oxidized.

A top 319 is arranged on the right side of the clamping cylinder 32, a sliding ball 320 is fixedly connected to one side of the top 319, a piston is elastically connected to one side of the sliding ball 320, an explosion chamber 321 is slidably connected to the outer side of the piston, a power plug is slidably connected to the other end of the explosion chamber 321, a spark ball 323 is arranged on one side of the power plug, a friction ball 324 is elastically connected to one side of the spark ball 323, a second connecting rod is arranged on the other side of the power plug, two third connecting rods are connected to one end of the second connecting rod through bearings, a lever shaft 322 is connected to the two third connecting rods through bearings, a power rod is connected to the other end of the third connecting rod through bearings, and the other end of the power rod is fixed to the top 319; the ejector head is supported on the clamping cylinder under the action of the power rods on the two sides to judge the shock resistance of the cylindrical steel pipe, the cylindrical steel pipe is supported by weak force, at the moment, if the sliding ball moves, the shock resistance of the steel pipe at the moment is judged to be possibly problematic, the sliding ball slides to drive the piston to move, so that the pressure inside the explosion chamber is increased, the power plug is driven to move, the second connecting rod is driven to rotate, the third connecting rod is driven to rotate, the rotating force is increased through the lever shaft, the power rods are driven to rotate, the supporting force is increased, the motion condition of the sliding ball is further judged, along with the increase of the motion distance of the sliding ball, the spark is driven to be in contact with the friction ball, the spark is generated in the explosion chamber, the explosion is generated in the explosion chamber, the impact force borne by the ejector head is increased suddenly, and if the steel pipe can not generate plastic deformation under the action of the impact force, the steel pipe is judged to be qualified in impact resistance, and the beneficial effects of the step are as follows: in the initial state, whether the sliding ball moves or not is judged, if the sliding ball does not move, the shock resistance of the steel pipe is judged to be qualified, if the sliding ball moves, the shock resistance of the steel pipe is judged to be in a problem, at the moment, the pushing force of the ejector is increased through the sliding of the power plug, namely the lever shaft, at the moment, if the sliding ball cannot move and the explosion chamber explodes, the shock resistance of the steel pipe is judged to be qualified, if the explosion occurs, whether the plastic deformation occurs to the steel pipe is judged, if the plastic deformation does not occur, the shock resistance of the steel pipe is judged to be qualified, if the plastic deformation occurs, the shock resistance of the steel pipe is judged to be unqualified, through the steps, whether the shock resistance of the steel pipe is qualified or not can be gradually judged, and the energy consumption is reduced on the premise that the judgment accuracy is ensured.

The appearance detection mechanism 4 comprises an appearance shell 43, the inner side of the appearance shell 43 is connected with a rotating shaft 46 through a bearing, one end of the rotating shaft 46 is provided with a speed reduction disc 41, the outer side of the rotating shaft 46 is connected with a vibration rod 42 through a bearing, one end of the vibration rod 42 is provided with a detection bag 44, the upper side of the detection bag 44 is uniformly provided with speed reduction rods 45, the outer side of the lower end of the rotating shaft 46 is provided with a friction block, and the outer side of the friction block is provided with an elastic film; the rotating shaft drives the cylindrical steel pipe to rotate, the cylindrical steel pipe is filled with aqueous solution, in the rotating process, if the arc degree of the outer surface of the cylindrical steel pipe has deviation, the distribution of the aqueous solution in the cylindrical steel pipe is uneven, eccentric vibration is easily generated in the high-speed rotating process, in the vibrating process, the vibration rods on the four sides transmit the vibration to the detection bag, the detection bag is stretched and contracted, the outer side friction rod is driven to extrude or leave the cylindrical steel pipe, so that the cylindrical steel pipe is decelerated, in the process of stopping the cylindrical steel pipe, the deviation of the arc degree of the cylindrical steel pipe can be just stopped around any one side of the four friction rods due to the friction rods, and if the steel pipe generates violent vibration, the water is vibrated out or the sealing defect of the steel pipe can cause the pressure intensity outside the elastic membrane to be increased, so that the inner friction block can be quickly stopped rotating, the beneficial effect of this step does: judging the arc degree error of the cylindrical steel pipe through the eccentric vibration condition during rotation, judging that the arc degree error of the cylindrical steel pipe is smaller and negligible when the vibration rod does not generate vibration, judging that the arc degree error of the cylindrical steel pipe exists at the moment when the vibration rod shakes and is transmitted to the detection bag, stopping the rotating shaft by the friction rod at the moment, enabling an area with the arc degree error to be exactly aligned with the friction rod by the friction rod, judging that the cylindrical steel pipe has larger arc degree error or the sealing performance of the steel pipe has problems when the lower end of the rotating shaft detects liquid pressure, stopping the rotating shaft by the friction block immediately and judging whether the rotating shaft is stopped by the larger arc degree error or the sealing performance of the steel pipe through the aqueous solution outside the elastic membrane, and realizing the judgment of the arc degree error through the steps, and judging whether the arc degree error can be repaired or not according to the elastic membrane and the vibration rod, and positioning the arc degree error to a position where the arc degree error is generated.

The deformation ball 23 is made of elastic material; the deformation ball can recover immediately after the outside pressure disappears, and subsequent judgment is prevented from being influenced.

There is approximately no friction between the slider 317 and the slider bar; the judgment of the internal pressure by the pressure membrane is avoided being influenced by the friction force between the sliding block and the sliding rod.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a continuous type detects processing apparatus for machining center, includes detection casing (1), its characterized in that: the inside of detecting casing (1) is provided with preliminary treatment detection mechanism (2), the inside of detecting casing (1) is provided with finished product detection mechanism (3), the downside of detecting casing (1) is provided with outward appearance detection mechanism (4).

2. The continuous inspection and processing apparatus for a machining center according to claim 1, wherein: preliminary treatment detection mechanism (2) are including shell body (21), the inside of shell body (21) is provided with interior casing (22), all evenly be provided with deformation ball (23) on shell body (21) and interior casing (22), one side elastic connection of deformation ball (23) has judgement gyro wheel (24), the inboard elastic connection of judgement gyro wheel (24) has the slide bar, the outside bearing of slide bar is connected with sand board (28), sand board (28) bearing connection is on judging gyro wheel (24), the inside of judging gyro wheel (24) is provided with triggers runner (212).

3. The continuous inspection and processing apparatus for a machining center according to claim 2, wherein: the outer side of the trigger rotating wheel (212) is uniformly provided with a compression bag (213), one side of the compression bag (213) is connected with a compression rod (210) in a sliding mode, the other end of the compression rod (210) is connected with a coating layer (29) in a bearing mode, and an inner pipeline of the compression bag (213) is connected with a stop bag (211).

4. The continuous inspection and processing apparatus for a machining center according to claim 3, wherein: every two equal pipe connection of deformation ball (23) on interior casing (22) has balanced valve (25), the one end pipe connection of balanced valve (25) has friction shell (26), balanced valve (25) are connected on deformation ball (23) through the flexible membrane, the inside of friction shell (26) is provided with the friction membrane, the inside of friction membrane is provided with stop switch (27).

5. The continuous inspection and processing apparatus for a machining center according to claim 4, wherein: the finished product detection mechanism (3) comprises a finished product detection shell (31), one side of the finished product detection shell (31) is provided with a clamping cylinder (32), one side of the clamping cylinder (32) is provided with a coating tank (33), one side of the coating tank (33) is provided with a pressure permeable membrane (34), one side bearing of the coating tank (33) is connected with a first connecting rod, the upper bearing of the first connecting rod is connected with a fixed shaft (35), one end bearing of the first connecting rod is connected with a rotating gear (36), one side of the rotating gear (36) is meshed with a centrifugal wheel (37), the centrifugal wheel (37) is connected onto the coating tank (33) through a pipeline, one side of the centrifugal wheel (37) is connected with a density ball (39), the outer side of the density ball (39) is connected with a density shell (38) in a sliding manner, the upper side pipeline of the density shell (38) is connected with a stop shell (310), the inner bearing of the cut-off shell (310) is connected with a rotating needle (312), resistance tops (313) are uniformly arranged on the rotating needle (312), and a pipeline on one side of the cut-off shell (310) is connected with a paint spray head (318).

6. The continuous inspection and processing apparatus for a machining center according to claim 5, wherein: the upper side of finished product detection shell (31) is provided with the pressure membrane, the centre of pressure membrane is provided with slider (317), the inside sliding connection of slider (317) has the slider pole, the one end of slider pole is provided with drags ball (316), drags ball (316) elastic connection on slider (317), one side pipe connection of dragging ball (316) is on density shell (38), one side pipe connection of dragging ball (316) has pressure valve (315), one side pipe connection of pressure valve (315) has the inflation shell, the inside of inflation shell is provided with inflation ball (314), resistance top (313) evenly sets up on inflation ball (314).

7. The continuous inspection and processing apparatus for a machining center according to claim 6, wherein: the right side of centre gripping section of thick bamboo (32) is provided with top (319), one side fixedly connected with smooth ball (320) of top (319), one side elastic connection of smooth ball (320) has the piston, the outside sliding connection of piston has explosion room (321), the other end sliding connection of explosion room (321) has the power stopper, one side of power stopper is provided with spark ball (323), one side elastic connection of spark ball (323) has friction ball (324), the opposite side of power stopper is provided with the second connecting rod, two third connecting rods are connected to the one end bearing of second connecting rod, two the bearing is connected with lever axle (322) on the third connecting rod, the other end bearing of third connecting rod is connected with the power pole, the other end of power pole is fixed on top (319).

8. The continuous inspecting and processing apparatus for machining center according to claim 7, wherein: outward appearance detection mechanism (4) are including outward appearance shell (43), the inboard bearing of outward appearance shell (43) is connected with axis of rotation (46), the one end of axis of rotation (46) is provided with speed reduction disc (41), the outside bearing of axis of rotation (46) is connected with vibrations pole (42), the one end of vibrations pole (42) is provided with detects bag (44), the upside that detects bag (44) evenly is provided with speed reduction pole (45), the lower extreme outside of axis of rotation (46) is provided with the clutch blocks, the outside of clutch blocks is provided with the elasticity membrane.

9. The continuous inspecting and processing apparatus for machining center according to claim 8, wherein: the deformation ball (23) is made of elastic materials.

10. The continuous inspecting and processing apparatus for machining center according to claim 9, wherein: there is approximately no friction between the slider (317) and the slider rod.