CN207371882U - Go-no go gauge detection device - Google Patents
Go-no go gauge detection device Download PDFInfo
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- CN207371882U CN207371882U CN201720689987.1U CN201720689987U CN207371882U CN 207371882 U CN207371882 U CN 207371882U CN 201720689987 U CN201720689987 U CN 201720689987U CN 207371882 U CN207371882 U CN 207371882U
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Abstract
The utility model discloses a kind of go-no go gauge detection device, including organic frame, feeding device, feeding-distribution device, conveying device, drift detection device, no-go gage detection device and two sorting units;Material-dividing groove and delivery chute are provided in the rack;The feeding device is arranged in rack, one end of the delivery outlet connection material-dividing groove of feeding device, one end of the other end connection delivery chute of material-dividing groove;The feeding-distribution device is arranged in rack and by the side of material-dividing groove;The conveying device is arranged in rack and by the one side of delivery chute.By being equipped with feeding device, feeding-distribution device, conveying device, drift detection device, no-go gage detection device and two sorting units, to realize Automatic-feeding, sub-material, conveying, drift detection, no-go gage detection and sorting, without artificial detection, detection efficiency is effectively increased, accuracy of detection is high, prevents to judge by accident, and use scope is wide, reproducibility, interchangeable production, a tractor serves several purposes.
Description
Technical field
The utility model is related to testing equipment field technologies, refer in particular to a kind of go-no go gauge detection device.
Background technology
One is proposed to the assembly relation of some important occasions in multiple industrial circles such as automobile, navigation and space flight and aviation
The requirement of a little pulling capacities, and generally existing in these assembly relations is threaded in, the tooth of its inner hole thread of the handware of use
The size of type and bottom outlet can all directly affect the pulling capacity size in assembly relation.And metal is directly embedded into during injection
Mold insert is a kind of very widely used technique, and some products are more demanding to the position degree of mold insert, so the positioning to mold insert
The uniformity of feature also proposed higher requirement.
Therefore, hardware mold insert usually requires to be detected after completing, in the prior art, mainly using following several
Mode is realized:
1) manually with drift, no-go gage detection bottom outlet, the defects of this mode, is:Efficiency is low, the size of gimmick and strength because
People and it is different, cause to judge by accident.
2) CCD is detected, and the testing principle of CCD is to compare the analog quantity made by being imaged and judge, product itself it is true
The conditions such as burr and deep hole thread after circularity, tapping can all influence the precision that the detection of CCD judges.
Utility model content
In view of this, in view of the existing deficiencies of the prior art, its main purpose is to provide a kind of go-no go gauge to the utility model
Detection device has the characteristics that detection efficiency is high, will not judge by accident.
To achieve the above object, the utility model is using following technical solution:
A kind of go-no go gauge detection device, including organic frame, feeding device, feeding-distribution device, conveying device, drift detection dress
It puts, no-go gage detection device and two sorting units;Material-dividing groove and delivery chute are provided in the rack;The feeding device is arranged at machine
On frame, one end of the delivery outlet connection material-dividing groove of feeding device, one end of the other end connection delivery chute of material-dividing groove;The sub-material fills
It installs and is placed in rack and by the side of material-dividing groove;The conveying device is arranged in rack and by the one side of delivery chute,
The drift detection device, no-go gage detection device and two sorting units may be contained in rack and by the opposite side of delivery chute,
Drift detection device, no-go gage detection device and two sorting units are arranged at intervals along the conveying direction of delivery chute, two sorting units
It is located at respectively by the side of drift detection device and no-go gage detection device.
As a preferred embodiment, the feeding-distribution device includes material distributing rod and material splitting cylinder, which is located at sub-material
In slot, which is fixed in rack, material splitting cylinder drive material distributing rod be active in back and forth in material-dividing groove, and material-dividing groove with it is defeated
Send slot vertical.
As a preferred embodiment, the conveying device includes slider cylinder and sub-material snap-gauge, which fixes
In in rack, which has multiple claws being intervally arranged, and multiple claws are located at the surface of delivery chute, the slide unit gas
Cylinder drives sub-material snap-gauge movable back and forth along the conveying direction of delivery chute.
As a preferred embodiment, the drift detection device includes slide, lower air cylinder, drift, drift sensing chip
And photoelectric sensor;The slide can be arranged in rack up and downly, which is arranged in rack and drives slide
Up and down, which elastic can be arranged in slide up and downly, and the lower end of drift extends downwardly slide and positioned at conveying
The surface of slot, one end of the drift sensing chip are fixedly connected with the upper end of drift, and the other end of drift sensing chip stretches out slide
Outside, which is arranged at the lateral surface of slide and by the side of drift sensing chip.
As a preferred embodiment, the photoelectric sensor is trough type photoelectric sensor, has a groove, the groove
Opening up, under reset condition, the drift sensing chip is in the grooves.
As a preferred embodiment, the no-go gage detection device includes slide, lower air cylinder, no-go gage, no-go gage sensing chip
And photoelectric sensor;The slide can be arranged in rack up and downly, which is arranged in rack and drives slide
Up and down, which elastic can be arranged in slide up and downly, and the lower end of no-go gage extends downwardly slide and positioned at conveying
The surface of slot, one end of the no-go gage sensing chip are fixedly connected with the upper end of no-go gage, and the other end of no-go gage sensing chip stretches out slide
Outside, which is arranged at the lateral surface of slide and by the side of no-go gage sensing chip.
As a preferred embodiment, the photoelectric sensor is trough type photoelectric sensor, has a groove, the groove
Opening down, under reset condition, which is located at below the opening of groove.
As a preferred embodiment, two defective products blanking holes are provided in the delivery chute, each sorting unit includes
Sideboard and sorting cylinder, the sideboard cover corresponding defective products blanking hole, which is fixed in rack, point
Cylinder is selected to drive sideboard movable back and forth and open or close corresponding defective products blanking hole.
A kind of go-no go gauge detection device includes slide, lower air cylinder, logical/no-go gage, logical/no-go gage sensing chip and photoelectric transfer
Sensor;The slide can be arranged in rack up and downly, which is arranged in rack and drives slide up and down,
Logical/the no-go gage elastic can be arranged in slide up and downly, and the lower end of logical/no-go gage extends downwardly slide, logical/no-go gage sensing
One end of piece is fixedly connected with the upper end of logical/no-go gage, and the other end of logical/no-go gage sensing chip is stretched out outside slide, the photoelectric sensor
It is arranged at the lateral surface of slide and by the side of logical/no-go gage sensing chip.
As a preferred embodiment, the photoelectric sensor is trough type photoelectric sensor, has a groove, the groove
It is opening down or upward.
The utility model has clear advantage and advantageous effect compared with prior art, specifically, by above-mentioned technology
Scheme is understood:
By be equipped with feeding device, feeding-distribution device, conveying device, drift detection device, no-go gage detection device and
Two sorting units, to realize Automatic-feeding, sub-material, conveying, drift detection, no-go gage detects and sorting, without artificial detection, effectively
Detection efficiency is improved, accuracy of detection is high, prevents to judge by accident, and use scope is wide, reproducibility, interchangeable production, a machine
It is multi-purpose.
More clearly to illustrate the structure feature of the utility model and effect, come below in conjunction with the accompanying drawings with specific embodiment pair
The utility model is described in detail.
Description of the drawings
Fig. 1 is the top view of the preferred embodiment of the utility model;
Fig. 2 is the sectional perspective schematic diagram of the preferred embodiment of the utility model.
Attached drawing identifier declaration:
10th, rack 11, material-dividing groove
12nd, delivery chute 13, certified products blanking groove
20th, feeding device 30, feeding-distribution device
31st, material distributing rod 32, material splitting cylinder
40th, conveying device 41, slider cylinder
42nd, sub-material snap-gauge 421, claw
50th, drift detection device 51, slide
52nd, lower air cylinder 53, drift
54th, drift sensing chip 55, photoelectric sensor
551st, groove 56, knob
60th, no-go gage detection device 61, slide
62nd, lower air cylinder 63, no-go gage
64th, no-go gage sensing chip 65, photoelectric sensor
651st, groove 66, knob
70th, sorting unit 71, sideboard
72nd, cylinder 80, hardware mold insert are sorted.
Specific embodiment
It refer to shown in Fig. 1 and Fig. 2, that show the concrete structures of the preferred embodiment of the utility model, include
Rack 10, feeding device 20, feeding-distribution device 30, conveying device 40, drift detection device 50, no-go gage detection device 60 and two points
Screening device 70.
Material-dividing groove 11 and delivery chute 12 are provided in the rack 10;In the present embodiment, the material-dividing groove 11 and delivery chute 12
Vertically.
The feeding device 20 is arranged in rack 10, one end of the delivery outlet connection material-dividing groove 11 of feeding device 20, sub-material
One end of the other end connection delivery chute 12 of slot 11;In the present embodiment, the feeding device 20 is vibrating disk.
The feeding-distribution device 30 is arranged in rack 10 and by the side of material-dividing groove 11;In the present embodiment, the sub-material
Device 30 includes material distributing rod 31 and material splitting cylinder 32, which is located in material-dividing groove 11, which is fixed on
In rack 10, material splitting cylinder 32 drives material distributing rod 31 to be active in back and forth in material-dividing groove 11.
The conveying device 40 is arranged in rack 10 and by the one side of delivery chute 12, in the present embodiment, described defeated
Device 40 is sent to include slider cylinder 41 and sub-material snap-gauge 42, which is fixed in rack 10, the sub-material snap-gauge 42
With multiple claws 421 being intervally arranged, multiple claws 421 are located at the surface of delivery chute 12, which, which drives, divides
Expect that snap-gauge 42 is movable back and forth along the conveying direction of delivery chute 12, also, in the present embodiment, claw 421 is four.
The drift detection device 50,60 and two sorting unit 70 of no-go gage detection device may be contained in rack 10 and positioned at defeated
By the opposite side for sending slot 12, drift detection device 50,60 and two sorting unit 70 of no-go gage detection device are along the defeated of delivery chute 12
Direction is sent to be arranged at intervals, two sorting units 70 are located at respectively by the side of drift detection device 50 and no-go gage detection device 60.
Specifically, the drift detection device 50 includes slide 51, lower air cylinder 52, drift 53, drift sensing chip
54 and photoelectric sensor 55;The slide 51 can up and downly be arranged in rack 10, which is arranged at rack 10
Go up and drive slide 51 up and down, the drift 53 can elasticity be arranged at up and downly in slide 51, the lower end of drift 53 to
Lower to stretch out slide 51 and positioned at the surface of delivery chute 12, one end of the drift sensing chip 54 is fixed with the upper end of drift 53 to be connected
It connects, the other end of drift sensing chip 54 is stretched out outside slide 51, which is arranged at the lateral surface of slide 51 and is located at
By the side of drift sensing chip 54.In the present embodiment, the photoelectric sensor 55 is trough type photoelectric sensor, has a groove
551, the groove 551 it is opening up, under reset condition, which is located in groove 551.Also, on slide 51
It is provided with to adjust the knob 56 of elastic force.
The no-go gage detection device 60 includes slide 61, lower air cylinder 62, no-go gage 63, no-go gage sensing chip 64 and photoelectric transfer
Sensor 65;The slide 61 can up and downly be arranged in rack 10, which is arranged in rack 10 and drives cunning
Seat 61 is up and down, which elastic can up and downly be arranged in slide 61, and the lower end of no-go gage 63 extends downwardly slide
61 and positioned at the surface of delivery chute 12, one end of the no-go gage sensing chip 64 is fixedly connected with the upper end of no-go gage 53, and no-go gage senses
The other end of piece 64 is stretched out outside slide 61, which is arranged at the lateral surface of slide 61 and positioned at no-go gage sensing chip 64
Side by.In the present embodiment, the photoelectric sensor 65 is trough type photoelectric sensor, has a groove 651, the groove
651 it is opening down, under reset condition, which is located at below the opening of groove 651, also, is set on slide 61
It is equipped with to adjust the knob 66 of elastic force.
And two defective products blanking holes are provided in the delivery chute 12(Do not show in figure), each sorting unit 70 includes
There are sideboard 71 and sorting cylinder 72, which covers corresponding defective products blanking hole, which fixes
In in rack 10, sorting cylinder 72 drives sideboard 71 movable back and forth and opens or closes corresponding defective products blanking hole.With
And the tail end of the delivery chute 12 is connected with certified products blanking groove 13.
The operation principle that the present embodiment is described in detail is as follows:
During work, the control system of equipment is to feeding device 20, feeding-distribution device 30, conveying device 40, drift detection device
50th, 60 and two sorting unit 70 of no-go gage detection device carries out pool control, first, hardware mold insert 80 to be detected is placed in feed dress
In putting 20, under the action of feeding device 20, hardware mold insert 80 is sequentially exported and entered in material-dividing groove 11, then, is filled in sub-material
Under the action of putting 30, hardware mold insert 80 is sent into delivery chute 12 one by one, then, is acted on by conveying device 40, by hardware mold insert
80 send one by one to drift detection device 50,60 and two sorting unit 70 of no-go gage detection device, are passing through 50 He of drift detection device
During no-go gage detection device 60, drift detection device 50 and no-go gage detection device 60 carry out drift and no-go gage to hardware mold insert 80 respectively
Detection, is realized by set drift and no-go gage, and the principle of detection is led to only according to being " drift leads to, and no-go gage stops " principle
Rule are respectively assembled in trough type photoelectric sensor on slide, connect the drift sensing chip 54 of drift 53 under the action of spring is set
It senses trough type photoelectric sensor, the indicator light of photoelectric sensor 55 is made to be in connected state(Lamp is bright), when measuring product, bottom outlet
Aperture is qualified, and indicator light connects always(Lamp is bright), when product bottom outlet aperture is too small, drift 53 can overcome the pressure of spring up
Contracting once drift sensing chip 54 departs from the sensing section of photoelectric sensor 55, then judges that the detection of this product drift is unqualified.No-go gage
Detection process substantially and drift detection as, unique difference is exactly to connect 64 original state of no-go gage sensing chip of no-go gage 63
It is not sense photoelectric sensor 65(Indicator light does not work), when measuring product, bottom outlet aperture is qualified, and no-go gage can overcome spring
Pressure up contracts, and when sensing section of the no-go gage sensing chip 64 into photoelectric sensor 65, photoelectric sensor 65 voluntarily connects
(Lamp is bright), differentiate that product no-go gage is qualified, if fruit product bottom outlet aperture is excessive, no-go gage one leads to bottom, and photoelectric sensor 65 is protected always
It holds the state of turning off the light and then judges that the inspection of product no-go gage is unqualified.This equipment bottom outlet leads to the transport that the key technology only detected is product
It is not on the basis of the center of circle of product, and the outer diameter tolerance of product is usually all in ± 0.1mm, and the tolerance of bottom outlet is+0.03mm,
If cannot clearly meet the needs of test position with the shape of product to position, this equipment with product 0.1mm plane
In space can it is horizontal freely movably, the head of go-no go gauge with fall 80 ° the inclination angle with circular arc come realize go-no go gauge from
Row correcting detects.
The design focal point of the utility model is:By being equipped with feeding device, feeding-distribution device, conveying device, drift
Detection device, no-go gage detection device and two sorting units, to realize that Automatic-feeding, sub-material, conveying, drift detection, no-go gage are examined
It surveys and sorts, without artificial detection, effectively increase detection efficiency, accuracy of detection is high, prevents to judge by accident, and use scope is wide,
Reproducibility, interchangeable production, a tractor serves several purposes.
The above descriptions are merely preferred embodiments of the present invention, and not the technical scope of the utility model is made
Any restrictions, therefore every any trickle amendment made according to the technical essence of the utility model to above example, equivalent change
Change and modification, in the range of still falling within technical solutions of the utility model.
Claims (8)
1. a kind of go-no go gauge detection device, it is characterised in that:Including organic frame, feeding device, feeding-distribution device, conveying device, logical
Advise detection device, no-go gage detection device and two sorting units;Material-dividing groove and delivery chute are provided in the rack;The feeding device
It is arranged in rack, one end of the delivery outlet connection material-dividing groove of feeding device, one end of the other end connection delivery chute of material-dividing groove;
The feeding-distribution device is arranged in rack and by the side of material-dividing groove;The conveying device is arranged in rack and positioned at delivery chute
By one side, the drift detection device, no-go gage detection device and two sorting units may be contained in rack and positioned at the another of delivery chute
By one side, drift detection device, no-go gage detection device and two sorting units are arranged at intervals along the conveying direction of delivery chute, two points
Screening device is located at respectively by the side of drift detection device and no-go gage detection device.
2. go-no go gauge detection device according to claim 1, it is characterised in that:The feeding-distribution device include material distributing rod and
Material splitting cylinder, the material distributing rod are located in material-dividing groove, which is fixed in rack, and material splitting cylinder drives material distributing rod to live back and forth
It moves in material-dividing groove, and material-dividing groove is vertical with delivery chute.
3. go-no go gauge detection device according to claim 1, it is characterised in that:The conveying device includes slider cylinder
With sub-material snap-gauge, which is fixed in rack, which has multiple claws being intervally arranged, multiple claw positions
In the surface of delivery chute, which drives sub-material snap-gauge movable back and forth along the conveying direction of delivery chute.
4. go-no go gauge detection device according to claim 1, it is characterised in that:The drift detection device includes cunning
Seat, lower air cylinder, drift, drift sensing chip and photoelectric sensor;The slide can be arranged in rack up and downly, the pushing
Cylinder is arranged in rack and drives slide up and down, which elastic can be arranged in slide up and downly, drift
Lower end extends downwardly slide and positioned at the surface of delivery chute, and one end of the drift sensing chip is fixedly connected with the upper end of drift,
The other end of drift sensing chip is stretched out outside slide, which is arranged at the lateral surface of slide and positioned at drift sensing chip
By side.
5. go-no go gauge detection device according to claim 4, it is characterised in that:The photoelectric sensor is groove profile photoelectric transfer
Sensor, have a groove, the groove it is opening up, under reset condition, the drift sensing chip is in the grooves.
6. go-no go gauge detection device according to claim 1, it is characterised in that:The no-go gage detection device includes cunning
Seat, lower air cylinder, no-go gage, no-go gage sensing chip and photoelectric sensor;The slide can be arranged in rack up and downly, the pushing
Cylinder is arranged in rack and drives slide up and down, which elastic can be arranged in slide up and downly, no-go gage
Lower end extends downwardly slide and positioned at the surface of delivery chute, and one end of the no-go gage sensing chip is fixedly connected with the upper end of no-go gage,
The other end of no-go gage sensing chip is stretched out outside slide, which is arranged at the lateral surface of slide and positioned at no-go gage sensing chip
By side.
7. go-no go gauge detection device according to claim 6, it is characterised in that:The photoelectric sensor is groove profile photoelectric transfer
Sensor, have a groove, the groove it is opening down, under reset condition, the no-go gage sensing chip be located at groove opening lower section.
8. go-no go gauge detection device according to claim 1, it is characterised in that:Two defective products are provided in the delivery chute
Blanking hole, each sorting unit include sideboard and sorting cylinder, which covers corresponding defective products blanking hole,
The sorting cylinder is fixed in rack, and sorting cylinder drives sideboard movable back and forth and opens or closes under corresponding defective products
Expect hole.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720689987.1U CN207371882U (en) | 2017-06-14 | 2017-06-14 | Go-no go gauge detection device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720689987.1U CN207371882U (en) | 2017-06-14 | 2017-06-14 | Go-no go gauge detection device |
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| Publication Number | Publication Date |
|---|---|
| CN207371882U true CN207371882U (en) | 2018-05-18 |
Family
ID=62298807
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201720689987.1U Active CN207371882U (en) | 2017-06-14 | 2017-06-14 | Go-no go gauge detection device |
Country Status (1)
| Country | Link |
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| CN (1) | CN207371882U (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109059707A (en) * | 2018-05-30 | 2018-12-21 | 石云 | A kind of buckle automated detection system |
| CN109827492A (en) * | 2019-01-16 | 2019-05-31 | 东莞长盈精密技术有限公司 | Inner diameter measurement system |
| CN111672770A (en) * | 2020-04-27 | 2020-09-18 | 深圳市富优驰科技有限公司 | Automatic gauge passing machine for waterproof ring support of lifting camera |
| CN112246684A (en) * | 2020-10-22 | 2021-01-22 | 浙江大学台州研究院 | Automatic detection sorting machine for plug screws |
-
2017
- 2017-06-14 CN CN201720689987.1U patent/CN207371882U/en active Active
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109059707A (en) * | 2018-05-30 | 2018-12-21 | 石云 | A kind of buckle automated detection system |
| CN109059707B (en) * | 2018-05-30 | 2024-06-14 | 艾姆精密机械泰州有限公司 | Automatic detection system for buckles |
| CN109827492A (en) * | 2019-01-16 | 2019-05-31 | 东莞长盈精密技术有限公司 | Inner diameter measurement system |
| CN111672770A (en) * | 2020-04-27 | 2020-09-18 | 深圳市富优驰科技有限公司 | Automatic gauge passing machine for waterproof ring support of lifting camera |
| CN112246684A (en) * | 2020-10-22 | 2021-01-22 | 浙江大学台州研究院 | Automatic detection sorting machine for plug screws |
| CN112246684B (en) * | 2020-10-22 | 2022-03-01 | 浙江大学台州研究院 | Automatic detection sorting machine for plug screws |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20230512 Address after: Room 101, No. 1, East Ring Third Street, Jicigang, Huangjiang Town, Dongguan City, Guangdong Province Patentee after: Guangdong Zhengyang Sensor Technology Co.,Ltd. Address before: Taiwan Zhongbei District, Zhongshan Road, China is in the middle of the 29 quarter of the two adjacent section, 523 Lane 33, third floor. Patentee before: Gu Genglun |
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| TR01 | Transfer of patent right |