CN205102733U - A cylinder actuating mechanism for detecting synchronous ware tooth hub groove width and big footpath of annular - Google Patents
A cylinder actuating mechanism for detecting synchronous ware tooth hub groove width and big footpath of annular Download PDFInfo
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- CN205102733U CN205102733U CN201520667439.XU CN201520667439U CN205102733U CN 205102733 U CN205102733 U CN 205102733U CN 201520667439 U CN201520667439 U CN 201520667439U CN 205102733 U CN205102733 U CN 205102733U
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- 238000001514 detection method Methods 0.000 claims abstract description 12
- 238000000034 method Methods 0.000 abstract description 3
- 238000009434 installation Methods 0.000 abstract 2
- 238000004519 manufacturing process Methods 0.000 description 8
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
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Abstract
The utility model discloses a cylinder actuating mechanism for detecting synchronous ware tooth hub groove width and big footpath of annular, the first cylinder of forward -mounted (2) at frame (1) roof (1a), the piston rod of these first cylinder (2) is vertical downwards, and be connected with the middle part of locating plate (3), at the bottom of locating plate (3) installation revolving cylinder (4), the piston rod of revolving cylinder (4) is vertical downwards, and be connected with the upper end of revolving rotary die (5), at the bottom installation and measuring mould (6) that revolves rotary die (5), be equipped with under the detection mould (6) and treat backing strap board (7), treat the piston rod support of the central authorities of backing strap board (7) bottom by second cylinder (8). The utility model has the advantages of simple and compact structure, small in size drives through two cylinders and revolving cylinder to combine detecting that the mould can detect tooth hub groove width and whether the big footpath of annular meets the requirements, not only detecting fastly, the testing process is stable moreover, and the testing result is accurate, reliable.
Description
Technical field
The utility model relates to a kind of synchronizer production line, the tooth hub groove width particularly on synchronizer Assembly and inspect line and annular groove great Jing testing agency.
Background technology
At present, before the tooth hub of synchronizer, tooth are enclosed within trap assembling, need to carry out the large footpath of tooth hub female spline to detect, the large footpath of tooth hub groove width, annular groove is detected, a series of detection of tooth cover fork slot position detection etc., all detection operations and the assembly manipulation after detecting are all by manually carrying out, each class of needs 20 people like this, not only human cost is high, the inefficiency detecting and assemble, and detect, assembling accuracy be difficult to ensure, the requirement of uniform production can not be met.
If design an automatic production line, the detection of tooth hub, tooth cover and assembling are all put and automatically carries out on a production line, will greatly improve the production efficiency of synchronizer, and guarantee product quality.But how building the synchronizer automatic production line of content with funtion requirement, is technical matters just urgently to be resolved hurrily in industry.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of air cylinder driven mechanism for detecting synchromesh gear hub groove width and the large footpath of annular groove.
The technical solution of the utility model is as follows: a kind of air cylinder driven mechanism for detecting synchromesh gear hub groove width and the large footpath of annular groove, in the front portion of frame (1) top board (1a), the first cylinder (2) is installed, the piston rod of this first cylinder (2) straight down, and be connected with the middle part of location-plate (3), location-plate (3) is positioned at the below of top board (1a), in the bottom of location-plate (3), rotary cylinder (4) is installed, the piston rod of described rotary cylinder (4) straight down, and be connected with the upper end of rotating mould (5), install in the bottom of rotating mould (5) and detect mould (6), be provided with immediately below described detection mould (6) and treat backing strap plate (7), treat that the central authorities of backing strap plate (7) bottom are supported by the piston rod of the second cylinder (8), the second cylinder (8) and the first cylinder (2) are positioned on same vertical curve.
Adopt above technical scheme, tooth hub workpiece to be detected is sent on a production line treats backing strap plate, and is positioned at immediately below detection mould, now the second cylinder action, the piston rod of the second cylinder protrudes upward, and makes to treat backing strap plate and tooth hub workpiece upwards rapid movement, until tooth hub workpiece is near detecting mould; The piston rod of the first cylinder stretches out downwards, makes location-plate, rotary cylinder, rotating mould and detect mould to move downward, and enters in tooth hub workpiece, restart rotary cylinder until detect die sleeve, makes rotating mould and detect mould to rotate relative to tooth hub workpiece.If tooth hub groove width and the large footpath of annular groove meet the requirements, aforesaid operations can carry out smoothly; Otherwise, can judge that detected tooth hub workpiece is undesirable.The utility model not only structure is simple, compact, takes up room little, and whole testing process need not manual intervention, and automaticity is high, testing result accurately, reliable.
As preferably, described location-plate (3) is rectangular flat structure.
The cylinder body of described second cylinder (8) is fixed on installing plate (11), in the symmetria bilateralis of the second cylinder (8), the second guide pillar (12) is set, second guide pillar (12) parallels with the piston rod of the second cylinder (8), the upper end of the second guide pillar (12) and the bottom of installing plate (11) fix, pass in second guide pin bushing (13) of lower end setting-in from installing plate (11) of the second guide pillar (12), the second guide pillar (12) and the second guide pin bushing (13) are slidably matched.Above structure second guide pillar, with treating that backing strap plate moves up and down, plays guiding, to guarantee to treat that backing strap plate and tooth hub workpiece are only at vertical in-plane moving.Second guide pin bushing plays a part wear-resisting, to prevent the second guide pillar from wearing and tearing, and can guarantee that the second guide pillar motion is smooth and easy.
The top of described second guide pin bushing (13) is formed with head disk, this head disk is supported by the end face of installing plate (11), head disk is fixed by screw and installing plate (11), and the bottom of the second guide pin bushing (13) exceeds the bottom surface of installing plate (11).The moulding of above structure second guide pin bushing is simple, and it is convenient to install on a mounting board, is connected firmly.
Beneficial effect: the utility model structure is simple, compact, compact, is driven by two cylinders and rotary cylinder, and combination detection mould can detect tooth hub groove width and whether the large footpath of annular groove meets the requirements, not only detection speed is fast, and testing process is stablized, and testing result accurately, reliably.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Embodiment
Below in conjunction with drawings and Examples, the utility model is described in further detail:
As shown in Figure 1, frame 1 is made up of top board 1a, base plate 1b and pillar 1c, and top board 1a and base plate 1b is all preferably rectangular flat.Top board 1a is positioned at the top of base plate 1b, and both are parallel to each other.Between the rear portion of top board 1a and base plate 1b, arrange three pillar 1c distributed by isosceles triangle, each pillar 1c is all perpendicular with top board 1a.Upper end and the top board 1a of pillar 1c fix, and lower end and the base plate 1b of pillar 1c fix.
As shown in Figure 1, install cylinder 2 in the front portion of frame 1 top board 1a, the piston rod of this cylinder 2 straight down, and is connected with the middle part of location-plate 3.Location-plate 3 is rectangular flat structure, and this location-plate 3 is positioned at the below of top board 1a, and location-plate 3 parallels with top board 1a.At four angles place of location-plate 3 end face, the first guide pillar 9 is set, first guide pillar 9 is perpendicular to location-plate 3, lower end and the location-plate 3 of the first guide pillar 9 are fixed, pass in first guide pin bushing 10 of upper end setting-in from top board 1a of the first guide pillar 9, first guide pillar 9 and the first guide pin bushing 10 are slidably matched, and the upper end of the first guide pillar 9 exceeds the end face of the first guide pin bushing 10.Be formed with square boss at the top of the first guide pin bushing 10, this square boss is supported by top board 1a, is fixed between the two by screw, and the bottom of the first guide pin bushing 10 exceeds the bottom surface of top board 1a.
As shown in Figure 1, install rotary cylinder 4 in the bottom of location-plate 3, rotary cylinder 4 is positioned at immediately below the first cylinder 2.The piston rod of rotary cylinder 4 straight down, and is connected with the upper end of rotating mould 5, installs detect mould 6 in the bottom of rotating mould 5.Be provided with immediately below detection mould 6 and treat backing strap plate 7, treat that backing strap plate 7 is preferably rectangular flat structure, treat that backing strap plate 7 parallels with location-plate 3.Treating immediately below backing strap plate 7, to arrange the second cylinder 8, second cylinder 8 and the first cylinder 2 is positioned on same vertical curve.The cylinder body of the second cylinder 8 is fixed on installing plate 11, and installing plate 11 is parallel to treats that the piston rod of backing strap plate 7, second cylinder 8 stretches out straight up, and is fixedly connected with the central authorities treated bottom backing strap plate 7.
As shown in Figure 1, arrange the second guide pillar 12, second guide pillar 12 in the symmetria bilateralis of the second cylinder 8 to parallel with the piston rod of the second cylinder 8.The upper end of the second guide pillar 12 and the bottom of installing plate 11 fix, and pass in the second guide pin bushing 13 of lower end setting-in from installing plate 11 of the second guide pillar 12, the second guide pillar 12 and the second guide pin bushing 13 are slidably matched.Be formed with head disk at the top of the second guide pin bushing 13, this head disk is supported by the end face of installing plate 11, and head disk is fixed by screw and installing plate 11, and the bottom of the second guide pin bushing 13 exceeds the bottom surface of installing plate 11.
Principle of work of the present utility model is as follows:
Tooth hub workpiece 14 to be detected is sent on a production line treats backing strap plate 7, and be positioned at immediately below detection mould 6, and now the second cylinder 8 action, the piston rod of the second cylinder 8 protrudes upward, make to treat backing strap plate 7 and tooth hub workpiece 14 upwards rapid movement, until tooth hub workpiece 14 is near detecting mould 6; The piston rod of the first cylinder 2 stretches out downwards, makes location-plate 3, rotary cylinder 4, rotating mould 5 and detect mould 6 to move downward, and is inserted in tooth hub workpiece 14, restarts rotary cylinder 4 until detect mould 6, makes rotating mould 5 and detect mould 6 to rotate relative to tooth hub workpiece 14.If tooth hub groove width and the large footpath of annular groove meet the requirements, aforesaid operations can carry out smoothly; Otherwise, can judge that detected tooth hub workpiece is undesirable.
Claims (4)
1. one kind for detecting the air cylinder driven mechanism in synchromesh gear hub groove width and the large footpath of annular groove, it is characterized in that: in the front portion of frame (1) top board (1a), the first cylinder (2) is installed, the piston rod of this first cylinder (2) straight down, and be connected with the middle part of location-plate (3), location-plate (3) is positioned at the below of top board (1a), in the bottom of location-plate (3), rotary cylinder (4) is installed, the piston rod of described rotary cylinder (4) straight down, and be connected with the upper end of rotating mould (5), install in the bottom of rotating mould (5) and detect mould (6), be provided with immediately below described detection mould (6) and treat backing strap plate (7), treat that the central authorities of backing strap plate (7) bottom are supported by the piston rod of the second cylinder (8), the second cylinder (8) and the first cylinder (2) are positioned on same vertical curve.
2. the air cylinder driven mechanism for detecting synchromesh gear hub groove width and the large footpath of annular groove according to claim 1, is characterized in that: described location-plate (3) is rectangular flat structure.
3. the air cylinder driven mechanism for detecting synchromesh gear hub groove width and the large footpath of annular groove according to claim 1 and 2, it is characterized in that: the cylinder body of described second cylinder (8) is fixed on installing plate (11), in the symmetria bilateralis of the second cylinder (8), the second guide pillar (12) is set, second guide pillar (12) parallels with the piston rod of the second cylinder (8), the upper end of the second guide pillar (12) and the bottom of installing plate (11) fix, pass in second guide pin bushing (13) of lower end setting-in from installing plate (11) of the second guide pillar (12), second guide pillar (12) and the second guide pin bushing (13) are slidably matched.
4. the air cylinder driven mechanism for detecting synchromesh gear hub groove width and the large footpath of annular groove according to claim 3, it is characterized in that: the top of described second guide pin bushing (13) is formed with head disk, this head disk is supported by the end face of installing plate (11), head disk is fixed by screw and installing plate (11), and the bottom of the second guide pin bushing (13) exceeds the bottom surface of installing plate (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520667439.XU CN205102733U (en) | 2015-08-31 | 2015-08-31 | A cylinder actuating mechanism for detecting synchronous ware tooth hub groove width and big footpath of annular |
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CN201520667439.XU CN205102733U (en) | 2015-08-31 | 2015-08-31 | A cylinder actuating mechanism for detecting synchronous ware tooth hub groove width and big footpath of annular |
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CN205102733U true CN205102733U (en) | 2016-03-23 |
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CN201520667439.XU Expired - Fee Related CN205102733U (en) | 2015-08-31 | 2015-08-31 | A cylinder actuating mechanism for detecting synchronous ware tooth hub groove width and big footpath of annular |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105180756A (en) * | 2015-08-31 | 2015-12-23 | 重庆豪能兴富同步器有限公司 | Cylinder driving mechanism for detecting synchronizer gear hub groove width and ring groove major diameter |
-
2015
- 2015-08-31 CN CN201520667439.XU patent/CN205102733U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105180756A (en) * | 2015-08-31 | 2015-12-23 | 重庆豪能兴富同步器有限公司 | Cylinder driving mechanism for detecting synchronizer gear hub groove width and ring groove major diameter |
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C14 | Grant of patent or utility model | ||
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160323 |
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CF01 | Termination of patent right due to non-payment of annual fee |