CN203612574U - Single-layer paper conveying and detecting device - Google Patents
Single-layer paper conveying and detecting device Download PDFInfo
- Publication number
- CN203612574U CN203612574U CN201320817630.9U CN201320817630U CN203612574U CN 203612574 U CN203612574 U CN 203612574U CN 201320817630 U CN201320817630 U CN 201320817630U CN 203612574 U CN203612574 U CN 203612574U
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- leatheroid
- base plate
- rod
- short straight
- straight rod
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Abstract
The utility model discloses a single-layer paper conveying and detecting device. A detecting rod is mounted on a fixed bottom plate and is composed of a long straight rod and a short straight rod which are firmly connected in a certain angle, and the corner thereof is hinged to the bottom plate; a position sensor is mounted at the end of the long straight rod, and a rotating bearing is mounted at the end of the short straight rod and is propped against the surface of the paper on a paper feeding mechanism in rolling mode. The single-layer paper conveying and detecting device is simple in structure, is low in cost, is capable of guaranteeing the production stability and production efficiency, improving the detection precision and meeting the detection requirements of different thicknesses of paper, and enables the equipment adaptability to be improved.
Description
Technical field
The utility model relates to a kind of detecting device, particularly relates to whether the leatheroid that a kind of detection carries is the individual layer leatheroid transportation and detection apparatus of individual layer.
Background technology
Leatheroid or carton are the conventional packing of packaging field.Need in process of production the packing leatheroid to piling up in a large number together to carry out packing, traditional method for filling is to adopt artificial packing, this needs a large amount of human resources and production space, and production efficiency is low, simultaneously manual operation influence factor is numerous and be difficult to control, cause difficult management, manpower and handling cost are high.
In automatic production lines, packing leatheroid is one by one sent in manufacturing line by load transfer device, and for guaranteeing that packing leatheroid carries one by one, detecting device need to be set on manufacturing line.Existing detecting device is Photoelectric Detection, and photoelectric sensor is set on manufacturing line, and the distance between this photoelectric sensor and manufacturing line transporting flat is a bit larger tham the thickness of individual layer leatheroid.When packing leatheroid individual layer while sending into manufacturing line, can photoelectric sensor not formed and be stopped; When send into the unnecessary one deck of packing leatheroid time, its thickness is higher than photoelectric sensor, and photoelectric sensor is formed and stopped, photoelectric sensor forms detection signal and delivers to control mechanism, control mechanism is reported to the police and is stopped load transfer device.But detecting device can be realized automated production, but in actual production, packing leatheroid, particularly leatheroid packing chest is carried after need to launching and flatten, be convenient to like this transportation and reduce shared space, and in the time that the leatheroid packing chest flattening is freely positioned on manufacturing line, it easily heaves under the deformation restitution of leatheroid packing chest folding position, the leatheroid packing chest height of heaving is higher than the setting height(from bottom) of photoelectric sensor, cause device Errors report to the police and stop, and then stability and production efficiency that greatly impact is produced.Moreover photoelectric sensor volume is small and light, it is fixed by screws on manufacturing line, easily because external force extruding walks, and readjusts complicated operation, length consuming time, causes production stability poor, and efficiency is low.
Summary of the invention
The utility model aims to provide a kind of detection accurately and the individual layer leatheroid transportation and detection apparatus of working stability, to improve the accuracy of detection and the stability of equipment, and then enhances productivity.
Individual layer leatheroid transportation and detection apparatus described in the utility model, comprise hard-wired base plate, the test rod that long straight-bar is fixedly connected with at a certain angle with short straight rod, the long and short straight-bar junction of test rod is articulated with on base plate, the end of long straight-bar is equipped with the position sensor of detection position side-play amount, the end of short straight rod is equipped with rolling bearing and the level height hinged place lower than test rod and base plate, there is the paper advance mechanism of carrying the scraps of paper below of rolling bearing, and rolling bearing rollably pushes against the surface of the leatheroid on paper advance mechanism.
Individual layer leatheroid transportation and detection apparatus described in the utility model, test rod comprises long straight-bar and short straight rod, and both are fixedly connected with certain angle, therefore test rod forms a corner in this junction.When test rod is in the time that rotate its hinged place, in same rotational angle range, the length of the path of motion of long straight-bar end is longer than the length of the path of motion of short straight rod end, i.e. the movement travel of position sensor is greater than the movement travel of rolling bearing.Before equipment work, adjust the distance between base plate and paper advance mechanism, making the distance between the transporting flat of rolling bearing and paper advance mechanism is the thickness of individual layer leatheroid, and now, the current position of position sensor is zero position.When work, when the individual layer scraps of paper are carried from paper advance mechanism, the rolling bearing on short straight rod rollably pushes against above these scraps of paper on setting horizon, test rod does not rotate, the position sensor on long straight-bar is not subjected to displacement, and can not produce induced signal, equipment normal operation; The leatheroid of sending into when paper advance mechanism is more than one deck, its thickness is greater than the thickness of individual layer leatheroid, gap between rolling bearing and paper advance mechanism is not enough to by multilayer leatheroid, so multilayer leatheroid is by up jack-up of rolling bearing, and then driving test rod to rotate around its hinged place, the position sensor on long straight-bar is subjected to displacement, and this displacement amplifies through long and short straight-bar, position sensor produces detection signal and delivers to control mechanism, and control mechanism is reported to the police and stopped load transfer device.This detecting device can be realized detection by test rod, rolling bearing and position sensor, and it is simple in structure, with low cost; Test rod has larger deadweight, can compress the leatheroid packing chest of heaving, and avoids it to affect testing result, guarantees stability and the production efficiency of producing; In the time that test rod exerts an influence because of external force, only need to eliminate the effect of external force, it can be turned back to initial condition under the effect of deadweight, cannot additionally adjust, and has greatly reduced the operation easier of adjusting, and strengthens the stability of equipment, enhances productivity; Test rod, by the cooperation of long and short straight-bar, is enlarged into leatheroid thickness the displacement of position sensor, has greatly improved its accuracy of detection, meets the testing requirement of different-thickness leatheroid, has improved the comformability of equipment.
Accompanying drawing explanation
Fig. 1 is the structural representation of individual layer leatheroid transportation and detection apparatus.
Fig. 2 is the partial top view of the leatheroid of individual layer shown in Fig. 1 transportation and detection apparatus.
Fig. 3 is the partial enlarged drawing of the leatheroid of individual layer shown in Fig. 1 transportation and detection apparatus.
Fig. 4 is the partial enlarged drawing of the leatheroid of individual layer shown in Fig. 2 transportation and detection apparatus.
The specific embodiment
A kind of individual layer leatheroid transportation and detection apparatus, comprise hard-wired base plate 1, the test rod 2 that long straight-bar 21 is fixedly connected with at a certain angle with short straight rod 22, the long and short straight-bar junction of test rod 2 is articulated with on base plate 1, the end of long straight-bar 21 is equipped with the position sensor 3 of detection position side-play amount, the end of short straight rod 22 be equipped with rolling bearing 4 and level height lower than test rod 2 hinged place with base plate 1, there is the paper advance mechanism 5 of carrying the scraps of paper below of rolling bearing 4, and rolling bearing 4 rollably pushes against the surface of the leatheroid 100 on paper advance mechanism 5.This detecting device can be realized detection by test rod, rolling bearing and position sensor, and it is simple in structure, with low cost; Test rod has larger deadweight, can compress the leatheroid packing chest of heaving, and avoids it to affect testing result, guarantees stability and the production efficiency of producing; In the time that test rod exerts an influence because of external force, only need to eliminate the effect of external force, it can be turned back to initial condition under the effect of deadweight, cannot additionally adjust, and has greatly reduced the operation easier of adjusting, and strengthens the stability of equipment, enhances productivity; Test rod, by the cooperation of long and short straight-bar, is enlarged into leatheroid thickness the displacement of position sensor, has greatly improved its accuracy of detection, meets the testing requirement of different-thickness leatheroid, has improved the comformability of equipment.
Described individual layer leatheroid transportation and detection apparatus, short straight rod 22 is arranged at the hinged place of test rod 2 and base plate 1 along a side of paper advance mechanism 5 throughput directions.As shown in Figure 1, the throughput direction of paper advance mechanism is for from left to right, and short straight rod is arranged at the right side of the hinged place of test rod and base plate.If short straight rod is arranged at the left side of hinged place, in the time that leatheroid is sent into, short straight rod is applied to the power of pointing to hinged place, have and cause leatheroid by the stuck short straight rod possibility on paper advance mechanism, and short straight rod is arranged to the right side of hinged place, and can avoid occurring paper jam phenomenon, guarantee the normal operation of equipment.
Described individual layer leatheroid transportation and detection apparatus, has two ends to be separately fixed at the tension spring 6 on base plate 1 and short straight rod 22, and is arranged at the below of the hinged place of test rod 2 and base plate 1; The pin 7 that restriction short straight rod 22 rotates is housed on base plate 1, and pin 7 is arranged at the below of short straight rod.Spring is arranged at the below of hinged place, short straight rod is applied to the application force that points to paper advance mechanism, and rolling bearing is pushed against on the leatheroid of conveying, guarantees the normal operation of equipment, avoids the salient point jack-up rolling bearing of leatheroid projection simultaneously, and warning makes a mistake; The setting of pin can limit rolling bearing and exceedingly press to leatheroid, both can play the position-limiting action of test rod, also can guarantee that leatheroid can not damage because of excessive pressure.
Described individual layer leatheroid transportation and detection apparatus, fixed link 8 is fixedly housed on base plate 1, the middle part of fixed link 8 is provided with annular recess 81, the turning set 9 that can rotate around self axis is housed in annular recess 81, and the diameter of turning set 9 is less than the diameter of fixed link, test rod 2 is fixedly mounted on turning set 9.Turning set is arranged in the annular recess of fixed link, and annular recess can form stopping and position-limiting action radially to it, guarantees that turning set and the test rod on it can not drop, and move equipment more stable.
Claims (5)
1. an individual layer leatheroid transportation and detection apparatus, comprise hard-wired base plate (1), it is characterized in that: the test rod (2) that long straight-bar (21) is fixedly connected with at a certain angle with short straight rod (22), the length of test rod (2), short straight rod junction is articulated with on base plate (1), the end of long straight-bar (21) is equipped with the position sensor (3) of detection position side-play amount, the end of short straight rod (22) be equipped with rolling bearing (4) and level height lower than test rod (2) hinged place with base plate (1), there is the paper advance mechanism (5) of carrying the scraps of paper below of rolling bearing (4), rolling bearing (4) rollably pushes against the surface of the leatheroid on paper advance mechanism (5).
2. individual layer leatheroid transportation and detection apparatus according to claim 1, is characterized in that: short straight rod (22) is arranged at the hinged place of test rod (2) and base plate (1) along a side of paper advance mechanism (5) throughput direction.
3. individual layer leatheroid transportation and detection apparatus according to claim 1, is characterized in that: have two ends to be separately fixed at the tension spring (6) on base plate (1) and short straight rod (22), and be arranged at the below of the hinged place of test rod (2) and base plate (1).
4. according to the individual layer leatheroid transportation and detection apparatus described in claim 1,2 or 3, it is characterized in that: the pin (7) that restriction short straight rod (22) rotates is housed on base plate (1), and pin (7) is arranged at the below of short straight rod (22).
5. individual layer leatheroid transportation and detection apparatus according to claim 1, it is characterized in that: the upper fixed link (8) that is fixedly equipped with of base plate (1), the middle part of fixed link (8) is provided with annular recess (81), the turning set (9) that can rotate around self axis is housed in annular recess (81), and the diameter of turning set (9) is less than the diameter of fixed link, test rod (2) is fixedly mounted on turning set (9).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320817630.9U CN203612574U (en) | 2013-12-13 | 2013-12-13 | Single-layer paper conveying and detecting device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320817630.9U CN203612574U (en) | 2013-12-13 | 2013-12-13 | Single-layer paper conveying and detecting device |
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CN203612574U true CN203612574U (en) | 2014-05-28 |
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CN201320817630.9U Withdrawn - After Issue CN203612574U (en) | 2013-12-13 | 2013-12-13 | Single-layer paper conveying and detecting device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103662734A (en) * | 2013-12-13 | 2014-03-26 | 广州达意隆包装机械股份有限公司 | Single-layer leatheroid conveying and detecting device |
-
2013
- 2013-12-13 CN CN201320817630.9U patent/CN203612574U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103662734A (en) * | 2013-12-13 | 2014-03-26 | 广州达意隆包装机械股份有限公司 | Single-layer leatheroid conveying and detecting device |
CN103662734B (en) * | 2013-12-13 | 2016-08-17 | 广州达意隆包装机械股份有限公司 | A kind of individual layer leatheroid transportation and detection apparatus |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140528 Effective date of abandoning: 20160817 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |