CN116921252A - Automatic dust cover height detection equipment - Google Patents

Abstract

The application discloses automatic dust cover height detection equipment, which relates to the technical field of dust cover detection and comprises a vibrating disc, wherein a guide channel is arranged at the output end of the vibrating disc and is obliquely arranged, a limiting assembly is arranged on the guide channel, a first conveying wheel, a second conveying wheel and a clamping conveying wheel are arranged on the side edge of the limiting assembly, a conveying belt is arranged on the first conveying wheel, the second conveying wheel and the clamping conveying wheel in a transmission manner, and a detection mechanism is arranged on the side edge of the guide channel. According to the application, the dust cover is placed on the vibration disc, then the dust cover can be sequentially put into the position of the detection mechanism by utilizing the limiting function of the limiting component, and at the moment, the dust cover is directly contacted with the first conveying wheel and the position for clamping the conveying wheel to support the dust cover, and then the dust cover is conveyed to the position of the detection mechanism by utilizing the conveying of the conveying belt.

Description

Automatic dust cover height detection equipment

Technical Field

The application relates to the technical field of dust cover detection, in particular to dust cover height automatic detection equipment.

Background

The dust cover rubber sleeve is a cover for protecting equipment or tools and the like from invasion of external substances such as dust, pollutants and the like, is generally made of rubber materials, has the characteristics of oil stain resistance, wear resistance, high temperature resistance, corrosion resistance and the like, and is used in the fields of automobiles and the like.

The application number is: 202121911133.6 discloses a rubber sleeve detection tool, and specifically discloses that rubber sleeves to be detected are orderly arranged in a detection station, a top plate is jacked by a jacking handle, a profiling thimble can jack up a rubber sleeve workpiece in the detection station, and a compacting handle is used for laminating and compacting a compacting plate and a compacting supporting plate and fixing the compacting plate in the detection station.

Because dust cover rubber cover can produce the uneven finished product of part height in the production process, wherein the finished product is confused together, in order to guarantee the yield, so need detect the finished product, separate out the unqualified finished product of detection, in above-mentioned technical scheme, need carry out self-alignment with the dust cover rubber cover, this in-process, the arrangement of dust cover rubber cover can not be quick carry out the altitude test, if adopt when evenly arranging the dust cover rubber cover on same water flat line, the dust cover rubber cover is because mutual contact for can produce between the dust cover rubber cover and pile up or incline, lead to the dust cover rubber cover to highly detect when detecting and appear the deviation.

Disclosure of Invention

The application aims to provide dust cover height automatic detection equipment.

The technical problems solved by the application are as follows: the problem of among the prior art, because carry out high detection to the dust cover finished product, dust cover rubber cover is because contact each other for can produce between the dust cover rubber cover and pile up or incline, lead to the dust cover rubber cover to highly detect when detecting and appear the deviation is solved.

The application can be realized by the following technical scheme: the utility model provides a dust cover height automatic checkout equipment, includes the vibration dish, the output of vibration dish is provided with the guide way, just the guide way sets up for the slope, be provided with spacing subassembly on the guide way, spacing subassembly side is provided with first transfer wheel, second transfer wheel and centre gripping transfer wheel, the transmission is provided with the conveyer belt on first transfer wheel, second transfer wheel and the centre gripping transfer wheel, first transfer wheel and centre gripping transfer wheel are movable, guide way side is provided with detection mechanism.

The application further technically improves that: the clamping conveying wheel is arranged at the output end of the adjusting air cylinder, the adjusting air cylinder is fixedly arranged on the guide channel, the first conveying wheel is arranged at the output end of the transverse screw rod assembly, and the moving direction of the first conveying wheel and the moving direction of the clamping conveying wheel are ninety degrees.

The application further technically improves that: the limiting assembly comprises a limiting support frame which is fixedly arranged on the guide channel, and the limiting support frame is U-shaped, and a limiting bottom plate is longitudinally arranged on the limiting support frame in a sliding manner.

The application further technically improves that: the limiting support frame is fixedly provided with a limiting cylinder, the limiting bottom plate is arranged at the output end of the limiting cylinder, and the limiting bottom plate is fixedly provided with a limiting baffle.

The application further technically improves that: the detection mechanism comprises an infrared sensor which is arranged at the side edge of the guide channel.

The application further technically improves that: the output of guide way is provided with the flitch, flitch side is fixed with the side baffle, flitch side is fixed with the unloading telescopic link, the tip of unloading telescopic link is fixed with first push pedal, the detection mechanism side is provided with the unloading cylinder, the output of unloading cylinder is connected with the unloading spout.

The application further technically improves that: the blanking chute comprises a good product outlet, and an inferior product outlet is connected to the good product outlet through a telescopic plate.

The application further technically improves that: the utility model discloses a low quality product outlet side is fixed with articulated connection seat, articulated connection seat's tip rotates and is provided with the second push pedal, second push pedal and scalable board fixed connection, be provided with the articulated seat of second on the second push pedal, the articulated seat of second and promotion cylinder rotate to be connected, the angle of promotion cylinder is adjustable.

Compared with the prior art, the application has the following beneficial effects:

1. according to the application, the dust covers are placed on the vibrating plate, the dust covers can be uniformly arranged on the guide channels by utilizing the action of the vibrating plate, then the dust covers can be sequentially put into the positions of the detection mechanism by utilizing the limiting action of the limiting component, at the moment, the dust covers are directly contacted with the positions of the first conveying wheel and the clamping conveying wheel to support the dust covers, and then the dust covers are conveyed to the positions of the detection mechanism by utilizing the conveying of the conveying belt.

2. According to the application, after detection by the infrared sensor, whether the height of the dust cover is in a proper range is judged, when the dust cover is judged to be good, the dust cover is pushed to be discharged from the position of the good outlet by utilizing the starting of the discharging cylinder, if the dust cover is bad, the second push plate is pushed by utilizing the starting of the pushing cylinder, so that the second push plate rotates around the hinged connection seat, the telescopic plate is rotated to the position above the good outlet to shield the good outlet, and the bad product falls from the discharging groove to the position of the bad product outlet to realize the discharging collection of the bad product.

3. According to the application, the limiting cylinder is started, so that the limiting bottom plate is contacted with the guide channel, the limiting bottom plate is used for shielding and limiting the dust cover, and meanwhile, the inclination of the dust cover caused by collision is avoided, so that the limiting baffle is used for shielding and limiting the upper part of the dust cover, and the inclination of the dust cover possibly generated during use is avoided.

4. The relative positions of the first conveying wheel and the clamping conveying wheel can be moved, namely, when the dust cover loses the limiting effect of the limiting bottom plate, the dust cover can be directly contacted between the first conveying wheel and the clamping conveying wheel, the dust cover is limited by utilizing the conveying of the conveying belt and the clamping conveying belt, the inclination of the dust cover is avoided, the transverse position of the clamping conveying wheel is adjusted, the stable conveying of the dust cover can be ensured under the action of the conveying belt, the dust cover is independently guided and detected in the process, and the dust cover cannot fall under the condition of unstable gravity center.

Drawings

The present application is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic view of the external structure of the present application;

FIG. 2 is a schematic diagram of a dust cover blanking structure of the present application;

FIG. 3 is a schematic view of the position of the retractable plate of the present application;

FIG. 4 is a schematic view of the relative positions of the spacing assembly and the guide assembly of the present application;

FIG. 5 is a schematic view of a guide assembly according to the present application;

FIG. 6 is a schematic view of a limiting assembly according to the present application;

FIG. 7 is a schematic illustration of a second transfer wheel and adjustment cylinder position of the present application;

fig. 8 is a schematic view of the second transfer wheel adjustment position of the present application.

In the figure: 1. a vibration plate; 2. a dust cover; 3. a guide way; 4. blanking a telescopic rod; 5. a blanking plate; 6. a first push plate; 7. a blanking chute; 71. a good product outlet; 72. a retractable plate; 73. a side baffle; 74. discharging groove; 75. a second push plate; 76. an inferior product outlet; 77. a pushing cylinder; 78. a hinged connection seat; 8. a detection mechanism; 81. an infrared sensor; 82. a blanking cylinder; 9. a limit component; 91. a limit cylinder; 92. limiting support frames; 93. a limiting bottom plate; 94. a limit baffle; 10. a guide assembly; 101. a first transfer wheel; 102. clamping the conveying wheel; 103. a second transfer wheel; 104. a conveyor belt; 105. and adjusting the cylinder.

Detailed Description

In order to further describe the technical means and effects adopted by the application for achieving the preset aim, the following detailed description is given below of the specific implementation, structure, characteristics and effects according to the application with reference to the attached drawings and the preferred embodiment.

Referring to fig. 1-8, the dust cover height automatic detection device includes a vibration disc 1, wherein the vibration disc 1 is configured to vibrate and feed, so that the dust cover 2 can be uniformly arranged on a guide channel 3, that is, the guide channel 3 is mounted at an output end of the vibration disc 1, at this time, the dust cover 2 is limited on the guide channel 3, and the dust cover 2 on the guide channel 3 is pushed to move due to the fact that the dust cover 2 continuously enters into the guide channel 3, and meanwhile, the guide channel 3 is inclined downwards, so that guiding and blanking of the dust cover 2 can be facilitated until the dust cover 2 moves to a position of a detection mechanism 8, the height of the dust cover 2 is detected by the detection mechanism 8, and the dust cover 2 is blanked after detection.

In the application, in order to realize the blanking of the dust cover 2 after detection, the output end of the guide channel 3 is provided with a blanking plate 5, wherein a blanking telescopic rod 4 is fixedly arranged on the blanking plate 5, a side baffle 73 is also fixedly arranged on the side of the blanking plate 5, a first push plate 6 is arranged at the power end of the blanking telescopic rod 4, namely, when in use, the dust cover 2 is pushed to the position of the side baffle 73, at the moment, the blanking telescopic rod 4 is started according to the detection result of the detection mechanism 8, so that the blanking telescopic rod 4 can be utilized to drive the blanking plate 5 to move, and the blanking plate 5 is utilized to push the dust cover 2, so that the blanking of the dust cover 2 after detection is realized.

Wherein the blanking board 5 side is connected with blanking spout 7, and wherein the slope of blanking spout 7 sets up downwards for realize detecting the normal unloading of back dust cover 2.

In the present application, the infrared sensor 81 used in the detection means 8 detects the height of the dust cover 2 on the guide path 3, and determines whether the height of the dust cover 2 meets the requirement.

A blanking cylinder 82 is fixedly arranged at the bottom of the infrared sensor 81, wherein a moving plate is arranged at the output end of the blanking cylinder 82 and is used for pushing the dust cover 2 from the blanking plate 5 to the position of the blanking chute 7.

Specifically, the blanking chute 7 includes a good product outlet 71 and a retractable plate 72, wherein the good product outlet 71 is arranged on the blanking plate 5, the retractable plate 72 is arranged on the good product outlet 71, when the retractable plate 72 moves, a blanking groove 74 is arranged on the good product outlet 71, namely, after the retractable plate 72 moves away from the blanking groove 74, the blanking of inferior products is realized, when the retractable plate 72 shields the blanking groove 74, the blanking is realized from the good product outlet 71, and in the process, the good products and the inferior products can be placed in a classified manner.

In order to realize the movement of the telescopic plate 72, namely, the shielding control of the blanking groove 74, in the application, the good product outlet 71 and the bad product outlet 76 are fixedly connected, a hinged connection seat 78 is fixedly arranged on the side edge of the bad product outlet 76, the end part of the hinged connection seat 78 is rotatably provided with a second push plate 75, the second push plate 75 is fixedly connected with the telescopic plate 72, the second push plate 75 is further provided with a second hinged seat, the second hinged seat is rotatably connected with a pushing cylinder 77, and the angle of the pushing cylinder 77 is adjustable.

In the book, the second push plate 75 is pushed by the actuation of the pushing cylinder 77, so that the second push plate 75 rotates around the hinged connection seat 78, the retractable plate 72 is rotated above the good product outlet 71 to shield the good product outlet 71, and the inferior product falls from the blanking groove 74 to the position of the inferior product outlet 76 to realize the blanking collection of the inferior product.

In order to detect the dust cover 2 alone, the stacking of the dust cover 2 when moving on the guide way 3 is avoided, so that the guide way 3 is provided with a limiting component 9 and a guide component 10, namely the dust cover 2 is limited by the limiting component 9, and then the dust cover 2 is moved by the guide component 10, so that the dust cover 2 can be prevented from moving to the position of the infrared sensor 81 when not being pushed by extrusion.

Specifically, the spacing subassembly 9 includes spacing support frame 92, and wherein spacing support frame 92 fixed mounting is on guide way 3, and spacing support frame 92 is "U" type, and when dust cover 2 moved through guide way 3, it sheltered from by spacing subassembly 9 promptly is fixed with spacing cylinder 91 on spacing support frame 92, and wherein spacing cylinder 91's output fixed mounting has spacing bottom plate 93, wherein is fixed with limit baffle 94 on the spacing bottom plate 93.

That is, when the dust cover 2 is guided through the guide channel 3 in use, firstly, the limiting bottom plate 93 is contacted with the guide channel 3 due to the start of the limiting cylinder 91, the dust cover 2 is shielded and limited by the limiting bottom plate 93, in order to avoid the inclination of the dust cover 2 caused by collision, the upper side of the dust cover 2 is shielded and limited by the limiting baffle 94, the dust cover 2 is prevented from entering the other end of the limiting support frame 92, when the dust cover 2 is shielded on the limiting baffle 94, the induction sensor on the limiting baffle 94 is utilized to conduct induction, the start of the limiting cylinder 91 is controlled, the limiting bottom plate 93 is enabled to move upwards, the dust cover 2 enters the other end of the limiting support frame 92 through the limiting support frame 92, then the limiting bottom plate 93 is driven downwards again by the limiting cylinder 91, at this moment, the dust cover 2 is separated and enters the dust cover 2 on the other side of the limiting support frame 92, and is received by the guiding assembly 10, and at this moment, the guiding and limiting of the dust cover 2 can be realized by the guiding assembly 10.

Firstly, in the present application, in order to avoid tilting of the dust cover 2 caused by sudden loss of the leaning force when the limiting base plate 93 moves upwards, the guiding assembly 10 includes a first conveying wheel 101, a second conveying wheel 103 and a clamping conveying wheel 102, wherein the first conveying wheel 101, the second conveying wheel 103 and the clamping conveying wheel 102 are provided with a conveying belt 104 in a transmission manner, when the dust cover 2 loses the limiting action of the limiting base plate 93, the dust cover 2 is directly contacted between the first conveying wheel 101 and the clamping conveying wheel 102, so that the dust cover 2 is limited by the clamping conveying wheel 102 by using the conveying belt 104, the toppling of the dust cover 2 is avoided, then the dust cover 2 is limited by using the conveying belt 104 by adjusting the transverse position of the clamping conveying wheel 102, at this time, the dust cover 2 is not toppled up due to the contact between the dust covers 2, the dust cover 2 is ensured to be conveyed to the position of the infrared sensor 81 by using the conveying belt 104, and the detection accuracy of the infrared sensor 81 is ensured.

In order to realize the position adjustment of the clamping and conveying wheel 102, the clamping and conveying wheel 102 is arranged at the output end of the adjusting cylinder 105, and the first conveying wheel 101 is arranged at the output end of the transverse screw rod assembly, wherein the moving direction of the clamping and conveying wheel 102 and the conveying direction of the first conveying wheel 101 are ninety degrees, namely, when the clamping and conveying wheel 102 is driven to move by the adjusting cylinder 105 in use, in order to adapt to the tightness of the conveying belt 104, the first conveying wheel 101 is controlled to transversely move by the transverse screw rod assembly, so that the use of the dust cover 2 by the conveying belt 104 is convenient to adjust.

When the dust-proof device is used, firstly, the dust cover 2 in the vibration disc 1 can be uniformly arranged at the position of the guide channel 3 in a vibration feeding mode of the vibration disc 1, and at the moment, the limiting bottom plate 93 contacts the guide channel 3 due to the starting of the limiting cylinder 91, the dust cover 2 is shielded and limited by the limiting bottom plate 93, and in order to avoid the inclination of the dust cover 2 caused by impact, the upper part of the dust cover 2 is shielded and limited by the limiting baffle 94;

then, the induction is performed by using an induction sensor on the limit baffle 94, the start of the limit air cylinder 91 is controlled, the limit bottom plate 93 moves upwards, the dust cover 2 enters the other end of the limit support frame 92 through the limit support frame 92, then, the limit bottom plate 93 is driven downwards again by using the limit air cylinder 91, at the moment, the dust cover 2 is further separated by using the limit bottom plate 93, and the dust cover 2 which enters the other side of the limit support frame 92 in a separated mode is received by the guide assembly 10;

when the dust cover 2 loses the limiting effect of the limiting bottom plate 93, the dust cover 2 can directly contact between the first conveying wheel 101 and the clamping conveying wheel 102, so that the dust cover 2 is conveyed by the conveying belt 104, the clamping conveying wheel 102 is utilized to limit the dust cover 2, the dust cover 2 is prevented from toppling over, the dust cover 2 is conveyed and limited by the action of the conveying belt 104 by adjusting the transverse position of the clamping conveying wheel 102, the dust cover 2 cannot topple over at the moment, the dust cover 2 is not stacked due to the contact between the dust covers 2, the dust cover 2 is conveyed to the position of the infrared sensor 81 by the conveying belt 104, and the detection precision of the infrared sensor 81 is ensured;

the height of the dust cover 2 is detected by the infrared sensor 81 until whether the dust cover 2 is good or not is judged, if yes, the first push plate 6 is driven to move by the blanking telescopic rod 4 until the dust cover 2 on the blanking plate 5 is pushed to the position of the blanking chute 7 by the first push plate 6, and the dust cover 2 is pushed to be blanked from the position of the good product outlet 71 by the starting of the blanking cylinder 82;

if the dust cover 2 is inferior, then drive first push pedal 6 through unloading telescopic link 4 and remove, until utilize first push pedal 6 to promote the dust cover 2 on the flitch 5, promote to the unloading spout 7 position, through the start-up that utilizes pushing cylinder 77, promote second push pedal 75, make second push pedal 75 rotate around articulated joint seat 78, scalable plate 72 is rotated the top of good product export 71 this moment, shelter from good product export 71, the inferior product drops from unloading groove 74 and enters into the position of inferior product export 76 this moment on, realize collecting the unloading of inferior product.

The present application is not limited to the above embodiments, but is capable of modification and variation in all aspects, including those of ordinary skill in the art, without departing from the spirit and scope of the present application.

Claims (8)

1. Dust cover height automated inspection equipment, including vibration dish (1), the output of vibration dish (1) is provided with guide way (3), just guide way (3) set up its characterized in that for the slope: be provided with spacing subassembly (9) on guide way (3), spacing subassembly (9) side is provided with first transfer wheel (101), second transfer wheel (103) and centre gripping transfer wheel (102), the transmission is provided with conveyer belt (104) on first transfer wheel (101), second transfer wheel (103) and centre gripping transfer wheel (102), first transfer wheel (101) and centre gripping transfer wheel (102) are movable, guide way (3) side is provided with detection mechanism (8).

2. The dust cover height automatic detection device according to claim 1, wherein the clamping and conveying wheel (102) is arranged at the output end of an adjusting cylinder (105), the adjusting cylinder (105) is fixedly arranged on the guide channel (3), the first conveying wheel (101) is arranged at the output end of the transverse screw rod assembly, and the moving direction of the first conveying wheel (101) and the moving direction of the clamping and conveying wheel (102) are ninety degrees.

3. The dust cover height automatic detection device according to claim 1, wherein the limiting assembly (9) comprises a limiting support frame (92), the limiting support frame (92) is fixedly installed on the guide channel (3), the limiting support frame (92) is in a U shape, and a limiting bottom plate (93) is longitudinally arranged on the limiting support frame (92) in a sliding mode.

4. A dust cover height automatic detection device according to claim 3, wherein a limit cylinder (91) is fixed on the limit support frame (92), the limit bottom plate (93) is installed at the output end of the limit cylinder (91), and a limit baffle (94) is fixed on the limit bottom plate (93).

5. The dust cover height automatic detection apparatus according to claim 1, wherein the detection mechanism (8) includes an infrared sensor (81), the infrared sensor (81) being mounted at a side of the guide path (3).

6. The dust cover height automatic detection device according to claim 1, wherein the output end of the guide channel (3) is provided with a blanking plate (5), a side baffle (73) is fixed on the side edge of the blanking plate (5), a blanking telescopic rod (4) is fixed on the side edge of the blanking plate (5), a first push plate (6) is fixed on the end portion of the blanking telescopic rod (4), a blanking cylinder (82) is arranged on the side edge of the detection mechanism (8), and a blanking chute (7) is connected to the output end of the blanking cylinder (82).

7. The dust cover height automatic detection device according to claim 6, wherein the blanking chute (7) comprises a good product outlet (71), and a bad product outlet (76) is connected to the good product outlet (71) through a telescopic plate (72).

8. The dust cover height automatic detection device according to claim 7, wherein a hinge connection seat (78) is fixed on the side edge of the inferior product outlet (76), a second push plate (75) is rotatably arranged at the end part of the hinge connection seat (78), the second push plate (75) is fixedly connected with the telescopic plate (72), a second hinge seat is arranged on the second push plate (75), the second hinge seat is rotatably connected with the pushing cylinder (77), and the angle of the pushing cylinder (77) is adjustable.