Abstract
The present invention relates to a method for the particularly automated measurement of a closing angle of a lid (110) of a container (100) particularly a bottle lid (110) with a screw thread (120) comprising the following steps: a) Positioning of the container (100) and determining of a starting position, b) Turning of the lid (110) from a closing position (I) into the direction of an open position (II) of the lid (110), c) Detection of an open position (II) of the lid (110) and a corresponding open position angle , d) Calculation of the closing angle of the lid (110) on the basis of the open position angle and particularly, a lid parameter.
Claims
1. A method for the measurement of a closing angle of a lid of a container with a screw thread comprising the following steps: a) Positioning of the container and determining of a starting position, b) Turning of the lid from a closing position into the direction of an open position of the lid, c) Detection of an open position of the lid and a corresponding open position angle , d) Calculation of the closing angle of the lid on the basis of the open position angle .
2. The method according to claim 1, wherein a lid movement in vertical direction is detected during the performance of the steps a) to d).
3. The method according to claim 1, wherein an opening torque, is measured into the direction of the open position.
4. The method according to claim 1, wherein a rupture moment is measured for a sealing of the lid.
5. The method according to claim 1, wherein in a further step 3) the lid is at least turned about 320 exceeding the open position into at least a control position.
6. The method according to claim 1, wherein the lid parameter is a sum from a lid angle and an angle constant.
7. The method according to claim 1, wherein the lid angle is at least a geometric value of the lid and a value of approximately between 1 and 180, preferably between 5 and 50, preferred between 7 and 25.
8. The method according to claim 1, wherein the lid is configured cylindrical, wherein the lid comprises a diameter of approximately 10 mm to 500 mm, preferably between approximately 20 mm and 200 mm, preferred between 25 mm and 150 mm.
9. The method according to claim 1, wherein the turning movement comprises between approximately 0.01 rpm and 100 rpm, preferably between approximately 0.05 rpm and 50 rpm, preferred between approximately 0.08 rpm and 20 rpm.
10. The method according to claim 1, wherein at least the lid or the container comprises at least one marking, wherein the marking is optically recognizable and thereby a lid movement is detectable.
11. A device for the measurement of a closing angle of a lid of a container with a screw thread comprising at least one retaining device for positioning the container at least one grip unit for at least the form or force fitting acceptance of the lid of the container at least one of the following sensors: turning torque sensor at least for measuring an opening torque of the lid, angle sensor for the recognition of a least one open position angle, height sensor for the recognition of at least one lid movement, temperature sensor, pressure sensor for the recognition of at least one inner pressure of at least the container or the lid and at least one electronic unit and at least one drive.
12. The device according to claim 11, wherein the torque sensor is a torque receiver.
13. The device according to claim 11, wherein the angle sensor is a turning angle transmitter.
14. The device according to claim 11, wherein the height sensor is a path sensor.
15. The device according to claim 11, wherein the temperature sensor is at least a NTC thermistor, a PTC thermistor, a semiconductor, a thermocouple, an optical sensor or a bimetal.
16. The device according to claim 11, wherein the pressure sensor is at least a piezoresistive sensor, piezoelectric, a hall element, a capacitive sensor, an optical sensor or an inductive sensor.
17. The device according to claim 11, wherein at least one sensor is integrated into the drive.
18. The device according to claim 11, wherein the electronic unit comprises at least a control element or a display element.
19. The device according to claim 11, wherein the electronic unit comprises a memory in which the method according to the invention is storable.
20. The method according to claim 1 wherein in step d the closing angle of the lid is calculated on the basis of the open position angle and a lid parameter.
Description
[0041] Further, measures improving the invention result from the subsequent description to some embodiments of the invention, which are schematically shown in the figures. Thereby, it has to be noted that the figures have only descriptive character and are not intended to limit the invention in any manner. The previous description of the embodiments describes the present invention only within the scope of examples. Naturally, single features of the embodiments as far as technically meaningful can be freely combined with one another without leaving the scope of the invention. It is shown schematically:
[0042] FIG. 1 a first embodiment of the device according to the invention, wherein the container is in the closing position I,
[0043] FIG. 2 the embodiment of the device according to the invention from FIG. 1, wherein the container is in the open position II,
[0044] FIG. 3 a flow diagram of the method according to the invention,
[0045] FIG. 4 a detection according to the invention of the closing angle , which is graphically represented.
[0046] FIG. 1 is an embodiment of the device 10 according to the invention for measuring a closing angle of the lid 110, which is shown in the closing position I on the container 100. The container 100 is hereby a fluid container in form of a bottle 100, which comprises a container neck or bottle neck in the upper area of the container 100, an opening 113 through which for example a liquid can be inserted or emptied. In FIG. 1, the lid 110 is positioned at the bottle neck or the opening 113 such that in the shown closing position I the lid closes the opening 113 of the bottle mostly fluid-tight. Thereby, the lid 110 is screwed to a thread 120 in the area of the opening 113 of the container 100. Likewise, in the area of the container neck the grip unit 20 of the measurement device 10 is arranged at the guidance element 50, wherein a part of the grip unit 20 extends via the container neck and, particularly via the lid 110 such that the lid 110 is enclosed from the grip unit 20. The grip unit 20 can thereby be configured, for example cylinder-like and comprise an inner diameter, which is greater than the diameter of the lid 110. Therewith, it is achieved that the grip unit 20 can receive the lid 110 and the open process is initiated. Therefore, on the inner side of the grip unit 20 a mechanism 22 is provided with which the lid 110 is fixed and form fittingly and/or force fittingly retained. The mechanism 22 can for example be a conically tapered form of the grip unit 20 and a moveable mechanism like shown here, which encloses the lid 110 after an actuation such that a form and/or force fit is only reached after actuation (FIG. 2). The grip unit 20 is in FIG. 1 pivotably mounted, wherein an opening process of the lid 110 is achieved by a turning movement of the grip unit 20 from the drive 70 in the corresponding open direction the leading to moving the lid 110 or via the thread 120 in direction of the open position II. At the lid 110 a sealing 111 is arranged, which entirely is in its in the lower area of the lid 110, where the opening of the lid 110 is arranged, configured from one material with the lid 110. The sealing 111 indicates if the closure is already opened, wherein in FIG. 1 the sealing is not yet damaged, thus the lid is not opened. Further, an angle sensor 21 is arranged at the grip unit 20 via which the turning movement of the grip unit 20 is detected and measured. The angle sensor 21 is in signal connection with the electronic unit 60 and can be provided with energy from the electronic unit 60. The electronic unit 60 serves for the processing of the data detected by the sensors 21, 31 and 41 and further the device can be actuated and controlled via the actuating element 61. Via the display element 62 of the electronic unit 60 can, for example a torque course of the turning angle or among others information of the height sensor 40 a measurement data of the sensors particularly with each turning angle be shown or displayed. Naturally, the correct closing of the container can be determined and displayed via the display element 62 using the measured and the partially provided values. The height sensor 40 is in FIG. 1 arranged, positioned at the guidance element 50 and signal connected with the electronic unit 60, in a way that the height sensor 40 is in the area of the lid 110 and the opening of the container 100. This enables an exact measurement of the movement of the lid 110 in a vertical direction and in direction of the open position II and in direction of the closing position I and container bottom 130. In the area of the container bottom 130 the retaining device 30 is arranged in which the container 100 can be positioned and/or fixed via the retaining device 30. Therefore, the retaining device 30 in FIG. 1 comprises four retaining elements 32, which position and form and/or force fittingly fixate at the container 100 at four positions in the area of the container bottom 130. The container 100 is fixed in its position by the four retaining elements 32 such that during an open movement of the grip unit 20 the container does not leave its starting position. The torque performed by the turning movement to the container 100 is measured by the torque sensor 31. Likewise, the torque sensor 31 is in signal connection with the electronic unit 60 and can as needed be provided with energy from the electronic unit 60. Likewise, the retaining device 30 is arranged at the guidance element 50 such that a compact measurement device results with which all components 20, 30, 40, 50, 60 are connected. Further, FIG. 1 shows a temperature sensor 63 and a pressure sensor 64, which are arranged both at the guidance element 50.
[0047] FIG. 2 shows a device 10 according to the invention in the embodiment of FIG. 1, wherein the lid 110 is in the open position II. In the open position II it is possible to remove the lid 110 from the container 100 since the inner thread of the lid 110 is no longer in active connection with the thread 111 of the container 100. The grip unit 20 has turned the lid 110 in the direction indicated by the arrow about at least the open position angle by a force fitting connection with the lid 110, which is achieved by a mechanism 22, such that the lid 110 has moved in the represented open position II via the thread 111. Thereby, the lid 110 following a rotational movement of the lid 110 performs a vertical movement upwards, namely opposing to the container bottom 130. This results due to the incline of the thread 111 of the container 100 along which the lid 110 is moved in the open position II. This vertical movement is detected and measured by the height sensor 40. Thereby, the amended height of the lid 110 (particularly, for each turning angle) is retained and can be detected by constant measurement of the movement form. In parallel, the performed angle of the lid 110 is measured by the angle sensor 21, which following the turning movement of the grip unit and therewith the lid 110 is performed. In connection with the data of the height sensor 40 it can be determined which movement form of the lid 110 is performed. In case the lid 110 is evenly moved upwards along the thread 111, or in case deviations with the movement form appeared, wherein for example it can be concluded to an error at the thread 111 of the container 100 or at the thread of the lid 110. Further, FIG. 2 shows a temperature sensor 63 and a pressure sensor 64, which are both arranged in the guidance element 50.
[0048] In FIG. 3 an embodiment of the method according to the invention is shown at the flow chart, wherein in step 200 the positioning of the container and the determination of the start position is performed. With the step 201 the turning of the lid from a closing position in the direction of an open position of the lid is represented. In step 202 an open position of the lid and a corresponding open position angle is recognized. The following step 203 characterizes the calculation of the closing angle of the lid on basis of the open position angle and particularly a lid parameter. The order of the steps is thereby not determined to the shown sequence, but can be performed timely one after the other or parallel/simultaneously.
[0049] FIG. 4 shows the height meaning the vertical position of the lid (y-axis) in the course of the turning movement according to the angle (x-axis) schematically in a coordinate system. The open position angle therewith shows a point at which a release of the lid is detected. The release and therewith the vertical movement in the direction of the bottom of the container defines therewith the end point of the incline of the shown graph, wherein an open position angle results. For the determination of the closing angle now from the open position angle the lid parameters are subtracted such that the closing angle results, which is shown along the shown graph by a dotted vertical line.
REFERENCE LIST
[0050] 10 Measuring device [0051] 20 Grip unit [0052] 21 Angle sensor [0053] 22 Mechanism [0054] 30 Retaining device [0055] 31 Torque sensor [0056] 40 Height sensor [0057] 50 Guidance element [0058] 60 Electronic unit [0059] 61 Control element [0060] 62 Display element [0061] 63 Temperature sensor [0062] 64 Pressure sensor [0063] 70 Drive [0064] 100 Container [0065] 110 Lid [0066] 111 Sealing [0067] 112 Marking [0068] 113 Opening [0069] 120 Screw thread [0070] 130 Container bottom [0071] Closing angle [0072] Open position angle [0073] Lid angle [0074] I Closing position [0075] II Open position [0076] 200 Method step a) [0077] 201 Method step b) [0078] 202 Method step c) [0079] 203 Method step d)
