CN204085469U - A kind of axial workpiece tolerance batch detecting device - Google Patents

A kind of axial workpiece tolerance batch detecting device Download PDF

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Publication number
CN204085469U
CN204085469U CN201420606497.7U CN201420606497U CN204085469U CN 204085469 U CN204085469 U CN 204085469U CN 201420606497 U CN201420606497 U CN 201420606497U CN 204085469 U CN204085469 U CN 204085469U
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CN
China
Prior art keywords
cylinder
axial workpiece
slideway
drives
plate
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CN201420606497.7U
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Chinese (zh)
Inventor
庄汉男
罗志伟
黄晶
邓海星
余宽
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厦门理工学院
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Priority to CN201420606497.7U priority Critical patent/CN204085469U/en
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Publication of CN204085469U publication Critical patent/CN204085469U/en

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Abstract

The utility model discloses a kind of axial workpiece tolerance batch detecting device, comprise feed mechanism, testing agency, mechanism for sorting and control gear, this feed mechanism has vibrating disk, slideway and pusher cylinder, this vibrating disk has the discharging opening outwards carrying axial workpiece successively, the entrance of this slideway is connected with the discharging opening of vibrating disk, this testing agency has monitor station and the detection components for detection axis class part tolerance, this monitor station is positioned at the exit of slideway, the axial workpiece skidded off from slide egress to push on monitor station and stops next axial workpiece by this pusher cylinder, this control gear is all connected with mechanism for sorting with detection components.Compared with prior art, the utility model can realize automatically sequentially detecting and batch detection, but also the axial workpiece of different margin tolerance can be transported to different sorting areas.

Description

A kind of axial workpiece tolerance batch detecting device
Technical field
The utility model belongs to checkout equipment field, and what be specifically related to is a kind of axial workpiece tolerance batch detecting device, and axial workpiece can successively detect by it, and places, the difference of the axial workpiece of the different grade of tolerance to facilitate follow-up use.
Background technology
Axial workpiece is one of typical part often run in Hardware fitting, and it is mainly used to supporting transmission parts, transmitting torque and bearing load.Because axial workpiece is common components, it is generally that batch machining forms, and detects after machining to processing the axial workpiece obtained again, to confirm whether axial workpiece meets actual use needs.
Current various pick-up unit is a lot, such as Chinese invention patent CN103090793A discloses a kind of batch detector methods of small clevis pin with head class part bulk, or a kind of part concentricity detecting device disclosed in Chinese utility model patent CN202599319U, although it can detect axial workpiece, in detection mode, automatic sequentially detection and batch detection etc., all there is the defect that applicable surface is little and actual effect is poor.
For the problems referred to above, the present inventor, for the above-mentioned defect further investigation of prior art, has this case to produce then.
Utility model content
The purpose of this utility model is to provide a kind of axial workpiece tolerance batch detecting device, and it can realize automatically sequentially detecting and batch detection, but also the axial workpiece of different margin tolerance can be transported to different sorting areas.
In order to reach above-mentioned purpose, solution of the present utility model is:
A kind of axial workpiece tolerance batch detecting device, wherein, comprise feed mechanism, testing agency, mechanism for sorting and control gear, this feed mechanism has vibrating disk, slideway and pusher cylinder, this vibrating disk has the discharging opening outwards carrying axial workpiece successively, the entrance of this slideway is connected with the discharging opening of vibrating disk, this testing agency has monitor station and the detection components for detection axis class part tolerance, this monitor station is positioned at the exit of slideway, the axial workpiece skidded off from slide egress to push on monitor station and stops next axial workpiece by this pusher cylinder, this control gear is all connected with mechanism for sorting with detection components.
Further, this vibrating disk has hopper, chassis, controller, impulse mgnet, vertical axes and spring leaf, this impulse mgnet is positioned to drive hopper to vibrate at vertical direction below hopper, and this hopper is rotatably on a vertical axis sheathed and spring leaf via inclination drives generation to rotate.
Further, this slideway has the deep gouge for axial workpiece feeding one by one, these deep gouge two ends are formed with the first side plate for separating out deep gouge and the second side plate, this slideway also has and to be positioned at bottom slideway and the end plate be all connected with the second side plate with the first side plate, this first side plate is formed with the first opening in the exit of slideway, this second side plate forms the second opening in the exit of slideway, the cylinder head of this pusher cylinder is also formed with scraping wings and striker plate, this scraping wings is connected with striker plate and is L shape structure, this pusher cylinder drive scraping wings by the first opening to the second harness motion so that axial workpiece is pushed monitor station, this striker plate seals deep gouge outlet to block next axial workpiece when axial workpiece is pushed monitor station by scraping wings.
Further, this detection components comprises detection base, first drives cylinder, second drives cylinder and detection head, this the first driving cylinder is fixed on and detects on base for generation of horizontal shift, this the second driving cylinder and first drives the cylinder head of cylinder to be fixedly linked for generation of vertical displacement, this detection head is then fixed on the cylinder head of the second driving cylinder, this detection head has detecting groove, be formed in several ventholes of detecting groove end and the pressure transducer for air pressure in detecting groove, these several ventholes are connected with source of the gas, this pressure transducer, first drives cylinder and second to drive cylinder to be all connected with control gear, the xsect semicircular in shape of this detecting groove.
Further, this mechanism for sorting has sorting base, the 3rd and drives cylinder, four-wheel drive cylinder and sucker, 3rd drives cylinder to be fixed on sorting base for generation of horizontal shift, this four-wheel drive cylinder and the 3rd drives the cylinder head of cylinder to be fixedly linked for generation of vertical displacement, this sucker is fixed on the cylinder head of four-wheel drive cylinder, this sucker is formed several suction holes, these several suction holes are connected with negative pressure generating device, 3rd drives cylinder to be all connected with control gear with four-wheel drive cylinder, the xsect semicircular in shape of this sucker.
After adopting said structure, the utility model relates to a kind of axial workpiece tolerance batch detecting device, axial workpiece is placed in feed mechanism in a large number, under the effect of feed mechanism vibrating disk, axial workpiece can, one by one from the outside feeding of slideway, namely be delivered on monitor station one by one, obtains testing result in detection components to current axis class piece test is complete, under the control of control gear, current axial workpiece is transported to different sorting areas by this mechanism for sorting.
Compared with prior art, the utility model can realize automatically sequentially detecting and batch detection, but also the axial workpiece of different margin tolerance can be transported to different sorting areas.
Accompanying drawing explanation
Fig. 1 is the perspective view that the utility model relates to a kind of axial workpiece tolerance batch detecting device.
Figure 1A is the A portion enlarged drawing in Fig. 1.
Fig. 2 is the structural representation of feed mechanism in Fig. 1.
Fig. 3 is the structural representation of Tu1Zhong testing agency.
Fig. 4 is the structural representation of detection head.
Fig. 5 is the structural representation of mechanism for sorting in Fig. 1.
Fig. 6 is the structural representation of sucker.
In figure:
Feed mechanism-1; Vibrating disk-11; Hopper-111;
Chassis-112; Impulse mgnet-113; Slideway-12;
Deep gouge-121; First side plate-122; Second side plate-123;
End plate-124; First opening-125; Second opening-126;
Pusher cylinder-13; Scraping wings-131; Striker plate-132;
Testing agency-2; Monitor station-21; Detection components-22;
Detect base-221; First drives cylinder-222; Second drives cylinder-223;
Detection head-224; Detecting groove-225; Venthole-226;
Mechanism for sorting-3; Sorting base-31; 3rd drives cylinder-32;
Four-wheel drive cylinder-33; Sucker-34.
Embodiment
In order to explain the technical solution of the utility model further, below by specific embodiment, the utility model is elaborated.
As shown in Figures 1 to 6, a kind of axial workpiece tolerance batch detecting device that the utility model relates to, comprises feed mechanism 1, testing agency 2, mechanism for sorting 3 and control gear.
This feed mechanism 1 has vibrating disk 11, slideway 12 and pusher cylinder 13, and this vibrating disk 11 has the discharging opening outwards carrying axial workpiece successively, and the entrance of this slideway 12 is connected with the discharging opening of vibrating disk 11.
This testing agency 2 has monitor station 21 and the detection components 22 for detection axis class part tolerance, this monitor station 21 is positioned at the exit of slideway 12, this pusher cylinder 13 to push exporting the axial workpiece skidded off from slideway 12 on monitor station 21 and to stop next axial workpiece, and this control gear is all connected with mechanism for sorting 3 with detection components 22.
Like this, the utility model relates to a kind of axial workpiece tolerance batch detecting device, axial workpiece is placed in feed mechanism 1 in a large number, under the effect of feed mechanism 1 vibrating disk 11, axial workpiece can one by one from slideway 12 outwards feeding, namely delivered to one by one on monitor station 21, obtain testing result detection components 22 pairs of current axis class piece test are complete, this testing result can be sent to control gear, after control gear analyzing and processing, judge which kind of margin tolerance current axial workpiece is in, control mechanism for sorting 3 again and current axial workpiece is transported to different sorting areas.
As depicted in figs. 1 and 2, as a kind of preferred embodiment of vibrating disk 11, this vibrating disk 11 has hopper 111, chassis 112, controller, impulse mgnet 113, vertical axes and spring leaf, this impulse mgnet 113 is positioned at below hopper 111 to drive hopper 111 to vibrate at vertical direction, this hopper 111 is rotatably on a vertical axis sheathed and via the spring leaf drive generation rotation of tilting, this controller is then for controlling the speed of feeding.So, under the control of impulse mgnet 113, this hopper 111 meeting up-down vibration, and then under the effect of spring leaf, hopper 111 presents rotation, the axial workpiece so in hopper 111 can produce centrifugal motion, and then outwards skids off feeding from slideway 12.It should be noted that, for this feed mechanism 1, also there is other a large amount of structures in prior art, it all can be suitable in the present case, is specifically then not described in detail.
As shown in figs. 1 and ia, this slideway 12 has the deep gouge 121 for axial workpiece feeding one by one, these deep gouge 121 two ends are formed with the first side plate 122 and the second side plate 123 for separating out deep gouge 121, this slideway 12 also has and to be positioned at bottom slideway 12 and the end plate 124 be all connected with the second side plate 123 with the first side plate 122, this first side plate 122 is formed with the first opening 125 in the exit of slideway 12, this second side plate 123 forms the second opening 126 in the exit of slideway 12, the cylinder head of this pusher cylinder 13 is also formed with scraping wings 131 and striker plate 132, this scraping wings 131 is connected with striker plate 132 and is L shape structure, this pusher cylinder 13 drives scraping wings 131 to move that axial workpiece is pushed monitor station 21 by the first opening 125 to the second opening 126, this striker plate 132 seals deep gouge 121 and exports to block next axial workpiece when axial workpiece is pushed monitor station 21 by scraping wings 131.By this structure, the utility model achieves and automatically sequentially detects, and greatly reduces human cost.
As Fig. 1, shown in Fig. 3 and Fig. 4, this detection components 22 comprises detection base 221, first drives cylinder 222, second drives cylinder 223 and detection head 224, this the first driving cylinder 222 is fixed on and detects on base 221 for generation of horizontal shift, this the second driving cylinder 223 and first drives the cylinder head of cylinder 222 to be fixedly linked for generation of vertical displacement, this detection head 224 is fixed on the cylinder head of the second driving cylinder 223, this detection head 224 has detecting groove 225, be formed in several ventholes 226 of detecting groove 225 end and the pressure transducer for air pressure in detecting groove 225, these several ventholes 226 are connected with source of the gas, this pressure transducer, first drives cylinder 222 and second to drive cylinder 223 to be all connected with control gear, the xsect semicircular in shape of this detecting groove 225.So, under the driving of source of the gas, air-flow can be injected in detecting groove 225, based between size meeting in gap between axial workpiece and detecting groove 225 and the pressure of air-flow in cubic relationship, therefore the margin tolerance of axial workpiece can be derived by the size of detection air-flow air pressure; When specifically detecting, first cylinder 222 is driven to be placed in above axial workpiece by detection head 224 by first, under driving the effect of cylinder 223 second again, axial workpiece is inserted in the groove of detection head 224, to realize the detection to axial workpiece, after having detected current axial workpiece again, this the first driving cylinder 222 and second drives cylinder 223 to need to reset, so that the aftermentioned 3rd drives cylinder 32 and four-wheel drive cylinder 33 action.
As Fig. 1, shown in Fig. 5 and Fig. 6, this mechanism for sorting 3 has sorting base 31, 3rd drives cylinder 32, four-wheel drive cylinder 33 and sucker 34, 3rd drives cylinder 32 to be fixed on sorting base 31 for generation of horizontal shift, this four-wheel drive cylinder 33 and the 3rd drives the cylinder head of cylinder 32 to be fixedly linked for generation of vertical displacement, this sucker 34 is fixed on the cylinder head of four-wheel drive cylinder 33, this sucker 34 forms several suction holes, these several suction holes are connected with negative pressure generating device, 3rd drives cylinder 32 to be all connected with control gear with four-wheel drive cylinder 33, the xsect semicircular in shape of this sucker 34.This sucker 34 utilizes the negative pressure produced to capture axial workpiece, then realizes locating, sorting action under the 3rd effect driving cylinder 32 and four-wheel drive cylinder 33.
In sum, compared with prior art, the utility model can realize automatically sequentially detecting and batch detection, but also the axial workpiece of different margin tolerance can be transported to different sorting areas.
Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present utility model.

Claims (5)

1. an axial workpiece tolerance batch detecting device, it is characterized in that, comprise feed mechanism, testing agency, mechanism for sorting and control gear, this feed mechanism has vibrating disk, slideway and pusher cylinder, this vibrating disk has the discharging opening outwards carrying axial workpiece successively, the entrance of this slideway is connected with the discharging opening of vibrating disk, this testing agency has monitor station and the detection components for detection axis class part tolerance, this monitor station is positioned at the exit of slideway, the axial workpiece skidded off from slide egress to push on monitor station and stops next axial workpiece by this pusher cylinder, this control gear is all connected with mechanism for sorting with detection components.
2. a kind of axial workpiece tolerance batch detecting device as claimed in claim 1, it is characterized in that, this vibrating disk has hopper, chassis, controller, impulse mgnet, vertical axes and spring leaf, this impulse mgnet is positioned to drive hopper to vibrate at vertical direction below hopper, and this hopper is rotatably on a vertical axis sheathed and spring leaf via inclination drives generation to rotate.
3. a kind of axial workpiece tolerance batch detecting device as claimed in claim 1, it is characterized in that, this slideway has the deep gouge for axial workpiece feeding one by one, these deep gouge two ends are formed with the first side plate for separating out deep gouge and the second side plate, this slideway also has and to be positioned at bottom slideway and the end plate be all connected with the second side plate with the first side plate, this first side plate is formed with the first opening in the exit of slideway, this second side plate forms the second opening in the exit of slideway, the cylinder head of this pusher cylinder is also formed with scraping wings and striker plate, this scraping wings is connected with striker plate and is L shape structure, this pusher cylinder drive scraping wings by the first opening to the second harness motion so that axial workpiece is pushed monitor station, this striker plate seals deep gouge outlet to block next axial workpiece when axial workpiece is pushed monitor station by scraping wings.
4. a kind of axial workpiece tolerance batch detecting device as claimed in claim 1, it is characterized in that, this detection components comprises detection base, first drives cylinder, second drives cylinder and detection head, this the first driving cylinder is fixed on and detects on base for generation of horizontal shift, this the second driving cylinder and first drives the cylinder head of cylinder to be fixedly linked for generation of vertical displacement, this detection head is then fixed on the cylinder head of the second driving cylinder, this detection head has detecting groove, be formed in several ventholes of detecting groove end and the pressure transducer for air pressure in detecting groove, these several ventholes are connected with source of the gas, this pressure transducer, first drives cylinder and second to drive cylinder to be all connected with control gear, the xsect semicircular in shape of this detecting groove.
5. a kind of axial workpiece tolerance batch detecting device as claimed in claim 1, it is characterized in that, this mechanism for sorting has sorting base, 3rd drives cylinder, four-wheel drive cylinder and sucker, 3rd drives cylinder to be fixed on sorting base for generation of horizontal shift, this four-wheel drive cylinder and the 3rd drives the cylinder head of cylinder to be fixedly linked for generation of vertical displacement, this sucker is fixed on the cylinder head of four-wheel drive cylinder, this sucker is formed several suction holes, these several suction holes are connected with negative pressure generating device, 3rd drives cylinder to be all connected with control gear with four-wheel drive cylinder, the xsect semicircular in shape of this sucker.
CN201420606497.7U 2014-10-18 2014-10-18 A kind of axial workpiece tolerance batch detecting device CN204085469U (en)

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Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105129120A (en) * 2015-07-22 2015-12-09 四川多联实业有限公司 Automatic insert placing machine
CN105277161A (en) * 2015-11-29 2016-01-27 重庆元创汽车整线集成有限公司 Detecting apparatus used for bearing groove
CN105352973A (en) * 2015-11-29 2016-02-24 重庆元创汽车整线集成有限公司 Detection device for surface of bearing
CN105509674A (en) * 2015-12-30 2016-04-20 大连德迈仕精密科技股份有限公司 Shaft part detecting apparatus
CN105953690A (en) * 2016-07-05 2016-09-21 浙江金盾科技股份有限公司 Spline detection machine

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105129120A (en) * 2015-07-22 2015-12-09 四川多联实业有限公司 Automatic insert placing machine
CN105277161A (en) * 2015-11-29 2016-01-27 重庆元创汽车整线集成有限公司 Detecting apparatus used for bearing groove
CN105352973A (en) * 2015-11-29 2016-02-24 重庆元创汽车整线集成有限公司 Detection device for surface of bearing
CN105277161B (en) * 2015-11-29 2017-11-24 重庆元创汽车整线集成有限公司 Detection means for bearing channel
CN105352973B (en) * 2015-11-29 2018-01-30 重庆元创汽车整线集成有限公司 Detection means for bearing surface
CN105509674A (en) * 2015-12-30 2016-04-20 大连德迈仕精密科技股份有限公司 Shaft part detecting apparatus
CN105509674B (en) * 2015-12-30 2017-12-05 大连德迈仕精密科技股份有限公司 Axial workpiece detection device
CN105953690A (en) * 2016-07-05 2016-09-21 浙江金盾科技股份有限公司 Spline detection machine
CN105953690B (en) * 2016-07-05 2018-07-10 浙江金盾科技股份有限公司 A kind of spline detection machine

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20150107

Termination date: 20171018

CF01 Termination of patent right due to non-payment of annual fee