WO2005094623A1 - Procede et dispositif pour controler l'interieur d'une chaussure - Google Patents

Procede et dispositif pour controler l'interieur d'une chaussure Download PDF

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Publication number
WO2005094623A1
WO2005094623A1 PCT/IB2005/000767 IB2005000767W WO2005094623A1 WO 2005094623 A1 WO2005094623 A1 WO 2005094623A1 IB 2005000767 W IB2005000767 W IB 2005000767W WO 2005094623 A1 WO2005094623 A1 WO 2005094623A1
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WO
WIPO (PCT)
Prior art keywords
inflatable body
shoe
pressure
force
inflatable
Prior art date
Application number
PCT/IB2005/000767
Other languages
English (en)
Inventor
Rosetta Lombardo
Original Assignee
Elettrotecnica B.C. S.P.A.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Elettrotecnica B.C. S.P.A. filed Critical Elettrotecnica B.C. S.P.A.
Priority to BRPI0508198-0A priority Critical patent/BRPI0508198A/pt
Priority to EP05718264A priority patent/EP1729606A1/fr
Publication of WO2005094623A1 publication Critical patent/WO2005094623A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43DMACHINES, TOOLS, EQUIPMENT OR METHODS FOR MANUFACTURING OR REPAIRING FOOTWEAR
    • A43D1/00Foot or last measuring devices; Measuring devices for shoe parts
    • A43D1/06Measuring devices for the inside measure of shoes, for the height of heels, or for the arrangement of heels
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43DMACHINES, TOOLS, EQUIPMENT OR METHODS FOR MANUFACTURING OR REPAIRING FOOTWEAR
    • A43D61/00Machines for nail-pulling, nail-cutting, or nail-detecting

Definitions

  • the present invention relates to a method for inspecting the inside of a shoe (or a footwear) and a device for implementing the same method.
  • a shoe i.e. a footwear
  • a shoe i.e. a footwear
  • various components such as the upper (or vamp), reinforcements, arch support, sole, heel and footstraps (or insole).
  • this assembly is carried out using a support last, which by reproducing a user's foot allows to assemble the various parts before they are definitely fixed to each other.
  • the upper is first temporarily fastened to the support, then the footstraps is usually removably fixed to the last, and then the arch support is fixed to the upper, and the sole to the arch support.
  • These operations of fixing the last to the support, or optionally fixing the various parts of the shoe to each other in a non-definitive manner are usually carried out by means of mechanical clamping means, which are thin pointed in order to penetrate the various parts of the shoe; normally, they are nails, brads, clips, fasteners, hobnails or the like, either made of plastic or metal.
  • These mechanical clamping elements are usually removed prior to the soling, and however prior to the final finishing of the shoe.
  • a quality check on the shoe is normally carried out, which also comprises the inspection of the inside of the shoe, which may be visual, tactile and/or at least partially carried out by a detection device.
  • This inspection of the inside of the shoe has the double task of checking for any mechanical clamping elements that may be unduly present and may have escaped removal, or other contusive elements, and checking the geometrical conditions, i.e. the shape, the mutual arrangement and position of the various parts inside the shoe, such as the upper, reinforcements and footstraps defining the "instep" (or “fitting") of the shoe, i.e. the comfort of use of the same.
  • the inspection of the shape, position and mutual arrangement of the upper, reinforcements, footstraps and the other inner parts of the shoe it is a common practice to resort to a skilled operator, who is capable of identifying any misshapes or assembly errors according to his tactile sensations by putting his hand or foot inside the shoe.
  • EMF electro-magnetic field
  • This solution though being automated, cannot be used in the case where the mechanical clamping elements are made of plastic and is also poorly reliable in the event that the shoe is provided with decorative or structural accessories made of metal, such as buckles, rings or eyelets.
  • MOLYNEUX describes a device for identifying and removing hobnails in a shoe, which provides optical means facilitating the visual inspection of the inside of the shoe by an operator.
  • the MOLYNEUX device provides the use of a light source and a mirror that are arranged such as to be inserted within the shoe for an operator to carry out a visual inspection of the interior of the shoe in an easy manner.
  • An object of the present invention is to provide a method and a device for inspecting the inside of a shoe that does not suffer from the prior art drawbacks such as stated above.
  • Another object of the present invention is to provide a method and device for inspecting the inside of a shoe which allows to carry out an accurate and reliable detection of any mechanical clamping elements, either made from metal or plastic, or other contusive elements that may be present within the shoe, and either alternatively or simultaneously, allows to identify the geometrical conditions of the different inner parts of the shoe.
  • Another object of the present invention is to provide a device for inspecting the inside of a shoe which is structurally non-complicated and easy to use.
  • a further object of the present invention is to provide a method for inspecting the inside of a shoe that is reliable and easily feasible and does not provide any tactile inspection by an operator.
  • the method for inspecting the inside of a shoe comprises the following steps: a. arranging at least one inflatable body within the shoe; b. inflating, by means of a controlled amount of fluid, said inflatable body within the shoe until the inflatable body, or a part thereof, is substantially rested on at least a portion of an inner wall of the shoe. c. after inflation, measuring and/or evaluating the internal pressure of the inflatable body and/or the force applied by said portion of an inner wall of the shoe against said inflatable body, or vice versa.
  • any anomalies within the shoe such as the presence of mechanical clamping elements or wrong arrangements or shapes of the different parts of the shoe can be identified by measuring the internal pressure, and/or the force applied by the inner wall/s of the shoe against the inflatable body, or vice versa, possibly by carrying out a comparison with the expected pressure and/or force values.
  • inflatable body is meant herein and below a generally closed body, except for at least one inlet/outlet nozzle for a fluid, which is provided with at least one membrane, either non-elastic or elastic, being capable of changing its spatial layout, and/or capable of being elastically deformed when a fluid, either a liquid or gas, being fed within the body tends to occupy a greater volume than that available when the membrane is in its starting condition, or non-deformed condition.
  • This inflatable body can then comprise, for example, only elastically qeformable walls, and be thus similar to a latex balloon, or comprise non-el ⁇ stic ⁇ lly deform ⁇ ble walls, for example from a folded condition to a stretched condition and vice versa, or still comprise one or more completely non-deformable walls that are fastened to at least one elastically or non-elastically deformable membrane, or any suitable combination of the above walls.
  • fluid is meant herein to designate not only those materials in the liquid or gaseous state, but also those materials with a fluidic behaviour, such as foams or powders dispersed in a fluid bed.
  • the inflatable body is at least partially made of a material having a low tear strength, such as nylon, polyvinylchloride (PVC) or polyethylene, such that when following inflation this tearable part comes in contact with one or more inner walls of the shoe, the mechanical clamping elements, or other contusive elements that may be present can cause the tearing of the inflatable body and a sudden pressure drop within the same.
  • a material having a low tear strength such as nylon, polyvinylchloride (PVC) or polyethylene
  • PVC polyvinylchloride
  • polyethylene such as polyvinylchloride
  • the method of the present invention provides that the integrity of the inflatable body can be checked for the presence of these clamping elements or other contusive elements.
  • the method provides that the measurement of the pressure, or force being applied against the inflated body, or by the inflated body, is carried out locally, such as to identify any undue gradients of pressure, or force, which may be present within the inflatable body, after it has been inflated.
  • these gradients when they do not fall within a range of expected values, may indicate the presence of misshaping, wrong mutual arrangements or positions of the various parts making up the inside of the shoe.
  • this inflatable body can advantageously consist of a number of fluidically separated and hence individually inflatable compartments, each being provided with a sensor for detecting the pressure or force being applied by the external environment or by the inflatable body on the external environment. By this configuration the inflatable body can closely match the shape of the inner region of the shoe to be inspected.
  • a device comprising at least one inflatable body and a device for inflating the inflatable body, by means of a predetermined fluid.
  • the device also comprises means for detecting the internal pressure of said inflatable body after inflation and/or the force applied by the external environment against said inflatable body, when inflated, or vice versa.
  • this also comprises a control apparatus, either manual or automatic, for adjusting the inflating device.
  • the inflatable body which may either be replaceable or have a replaceable portion, is made of a material having a low tear strength, such as nylon, PVC or polyethylene, such that, when inflated, this inflatable body coming in contact with a contusive element may tear off, thereby causing a sudden drop of the measured pressure. After the inflatable body has been restored, one can restart inspecting the inside of other shoes.
  • Figure 1 is a diagram of a device according to a particular aspect of the present invention
  • Figure 2 is a three-dimensional, partially cut-away view of a shoe with an inflatable body of the type employed in the device from Figure 1 being placed therein
  • Figure 3 is a partially sectional, and partially cut-away side view of a shoe, with an inflatable body to be employed with the device from Figure 1 being placed therein
  • Figure 4 is a partial sectional view of a shoe with an inflatable body configured according to a particular aspect of the present invention being placed therein
  • Figure 5 is a simplified block diagram of a preferred embodiment of the method according to the present invention
  • Figure 6 is a simplified block diagram of another particular embodiment of the method according to the present invention
  • Figure 7 is a diagram of a particular fluid circuit that can be implemented in a device according to the present invention.
  • Figures 1-3 illustrate a particular embodiment of a device for inspecting the inside of a shoe according to the present invention.
  • the device shown in Figure 1 comprises an inflatable body 1 , 4, an inflating device 2 for said body 1 , 4 with a determined fluid, and preferably though not necessarily, an apparatus 1 1 for controlling, either manually or automatically, the inflation parameters as carried out by the device 2 (such as flow rate and/or pressure and/or volume of the fluid being delivered).
  • the device 2 can simply consist of a pump with an inflow section vented to the atmosphere, whereas the device 2 can consist of a suitable pump connected to a reservoir (not shown) for the inflation fluid when a different fluid, for example an inert gas such as helium or nitrogen, or a liquid such as water is used.
  • a suitable pump connected to a reservoir (not shown) for the inflation fluid when a different fluid, for example an inert gas such as helium or nitrogen, or a liquid such as water is used.
  • This device 2 can alternatively comprise means for producing and delivering a foam (for example expanded polyurethanes) or simply comprising a valve nozzle for manual inflation.
  • the device according to the present invention also comprises means 3 for detecting the internal pressure of the inflatable body 1 , 4, such as a common manostat.
  • the device illustrated can comprise suitable means for detecting the force applied by the inflatable body 1 , 4 against the inner walls of a shoe 9 or 10, or vice versa, for detecting the force applied by the inner walls of the shoe 9 or 10 against the inflatable body 1 , 4, when the latter is inflated.
  • the detecting means 3 can thus comprise manostats, force sensors, pressure gauges, load cells and weight transducers, and can be arranged on the inflatable body along one or more of the inner and/or outer walls of the latter.
  • these detecting means 3 can comprise a flowmeter being interposed between said inflating device 2 and the inflatable body 1 , 4.
  • FIG. 7 shows a particular diagram of a fluid circuit providing the use of a flowmeter for detecting a pressure drop within the inflatable body 1 , 4.
  • the particular device from Figure 1 also comprises means 5, such as a display, that are capable of showing the pressure and/or force values detected by the detecting means 3 to an operator, or showing a signal related to at least one preset force/pressure value being detected.
  • the display 5 can only warn the operator about the presence of anomalous conditions of pressure and/or force, by signalling that values have been detected which are below the lower threshold value such as defined through a previous calibration of the device, or it can signal these detected pressure/force values immediately after the inflatable body 1 , 4 has been inflated.
  • the means 5 can simply consist of an analogue dial (not illustrated) of the indicator of a common pressure gauge 3.
  • the device for inspecting the inside of a shoe as illustrated in Figure 1 also comprises a processing system 6 for the data supplied by the detecting means 3.
  • this processing system 6 which can be easily programmed by the operator, the pressure and/or force values detected by the means 3 can be compared with corresponding preset expected values (for example, obtained by a previous calibration of the device and stored in the system 6), or can automatically adjust, by means of the control equipment 1 1 , the inflation of the body 1 , 4, or still it can determine which information based on the pressure and/or force values being detected by the means 3 should be sent to the display 5.
  • the inflatable body employed by the device described so far is of the type comprising a single inflatable section consisting of a deformable membrane 1 being fixed to a rigid support structure 4, which carries an inflation nozzle 12, and a manostat 3 inside the membrane 1.
  • the manostat 3 is operatively connected to the display 5 (shown in Figure 1 ) and/or the data processing system 6 (not shown) by means of electric cables 7, whereas the nozzle 12 is fluidically connected to the inflating device 2 by means of duct 8.
  • the deformable membrane 1 which can be made of any elastic material, such as latex, nylon, EPR, or substantially non-elastic material, such as polyethylene, is shaped such that, when inflated, it comes in contact with at least one portion of an inner wall of the shoe 9 or 10, and is thereby subjected to a force being applied by said portion of the inner wall (even the simple constraint reaction).
  • the membrane 1 is preferably shaped such that, after it has been inserted within the shoe 9 or 10 and suitably inflated, it abuts at least on the whole lower wall of the inside of the shoe, for example the footstraps or arch support .
  • the membrane 1 can be made of any elastically or non-elastically deformable material, such as latex, nylon, polyethylene, polyvinylchloride (PVC), polyurethane, EPR (ethylene-propylene rubber), synthetic and natural rubbers that are capable to match the shape of the inner region of the shoe to be inspected.
  • any elastically or non-elastically deformable material such as latex, nylon, polyethylene, polyvinylchloride (PVC), polyurethane, EPR (ethylene-propylene rubber), synthetic and natural rubbers that are capable to match the shape of the inner region of the shoe to be inspected.
  • PVC polyvinylchloride
  • EPR ethylene-propylene rubber
  • a membrane 1 made of a substantially non-elastic material allows to give a particular desired shape to the inflatable body 1 , i.e. the shape considered as the one that the inner region of the shoe 9 or 10 should have in order to obtain, by means of said detecting means 3, pressure and/or force values which are more precisely related to the geometrical conditions of the inside of the shoe 9 or 10, hence to the "instep" thereof.
  • the material making up the deformable membrane 1 can be selected such as to have a low tear strength, such that, when the membrane 1 comes in contact with a contusive element, for example the tip of a temporary clamping element, such as a nail, hobnail, or clip, this material tears off, thereby causing a sudden pressure drop within the inflatable body 1 , 4.
  • a contusive element for example the tip of a temporary clamping element, such as a nail, hobnail, or clip
  • this material tears off thereby causing a sudden pressure drop within the inflatable body 1 , 4.
  • this is a basic requirement for implementing a particular operating mode of the method for inspecting the inside of a shoe 9 or 10 according to the present invention.
  • This low tear strength of the membrane 1 can be obtained, as is known in the art, by carefully selecting the thickness and material of the membrane 1.
  • the membrane 1 of the inflatable body 1 , 4 is shaped such as to be easily replaced in the event it tears off during an inspection, or when the shape of the inflatable body 1 , 4 requires to be changed for being adapted to another shoe 9, 10 to be inspected.
  • the device illustrated can comprise suitable means (not illustrated) for facilitating the replacement of the whole inflatable body 1 as a function of the various inspection requirements that may occur while using the device.
  • a circuit diagram as illustrated in Figure 7 can be employed, in combination with the use of an easily tearable material for the membrane 1 , in order to identify any tearing of the inflatable body 1 , 4.
  • the detecting means 3 can comprise a reservoir 222 and a flowmeter 203 placed downstream of the inflating device 2, which can in turn comprise an air compressor 202 and a solenoid valve (i.e. an electically operated valve) 220.
  • a solenoid valve i.e. an electically operated valve
  • the inflow line of the inflating air for the body 1 bifurcates immediately downstream of the solenoid valve 220 due to a T-shaped union 221 , in order to deviate the air from the compressor 202 towards said inflatable body 1 , and also towards the reservoir 222, and said flowmeter 203 is interposed between the reservoir 222 and the inflatable body 1 , 4.
  • the solenoid valve 220 allows to isolate the circuit tract comprising the reservoir 222, flowmeter 203 and inflatable body 1 , 4.
  • the smaller tearing of the inflatable body 1 in its inflated state, would result in a pressure drop within said body 1 which would cause a sudden air flow from the reservoir 222 (at a higher pressure than the ambient pressure) to the body 1 (which is torn and accordingly at ambient pressure), this air flow being immediately detected by the flowmeter 203 and the operator as well.
  • the operator when after a suitable time nothing has been detected by the flowmeter 203, the operator could deflate the body 1 and carry on inspecting another shoe.
  • Figure 4 shows an alternative embodiment of an inflatable body 101 a, 101 b, 101 c, 104 suitable to be inserted in the shoe 10 from Figure 3.
  • the inflatable body from Figure 4 consists of a plurality of deformable compartments 101 a, 101 b, 101 c hold by the same rigid support 104, which are fluidically separated, each being provided with an inflating nozzle connected to a corresponding bundle 108 of ducts directed towards an inflating device (not shown).
  • Each compartment 101 a, 101 b, 101 c is also provided with its own force sensor 103a, 103b, 103c, which by being placed after inflating the compartments 101 a, 101 b, 101 c between the inner wall of the shoe 10, against which the compartments 101 a, 101 b, 101c are rested and the latter, has the function of detecting the force (pressure) being applied by the corresponding compartment 101 a, 101 b, 101 c against the inner rest wall of the shoe 10, or vice versa.
  • the sensors 103a, 103b, 103c are load cells or weight transducers.
  • the signals from the sensors 103a, 103b, 103c are then sent, by means of cable 107, to a display or data processing system (not shown).
  • a display or data processing system not shown.
  • the local detection of the force applied by the inflatable body on at least one inner wall of the shoe, or vice versa is associated with the presence of fluidically separated compartments of the inflatable body
  • this local detection can be carried out by simply arranging several sensors on the contact surface between the inflatable body and said at least one inner wall of the shoe, without any inner separation of the inflatable body being required.
  • the division of the inflatable body into fluidically separated sectors has the main function of adapting the shape of the inflatable body within the shoe in a simple manner by changing the inflation pressure of the individual compartments, and allowing more accurate detections of the force applied by the body against the inner wall of the shoe, or vice versa, in the case of sensible geometric variations of the inner wall of the shoe to be inspected.
  • sensors for detecting the internal pressure such as in the embodiment from Figures 1-3
  • an inflatable body consisting of several fluidically separated compartments such as in the embodiment from Figure 4
  • the use of sensors for detecting the internal pressure is not only contemplated within the scope of the present invention, but can also be particularly advantageous due to the high adaptability of the inflatable body to the shoe shape.
  • the method for inspecting the inside of a shoe comprises the following steps: a) arranging an inflatable body 1 , 4; 101 a, 101 b, 101 c, 104, inside a shoe 9; 10 b) inflating with a controlled amount of a fluid, such as air, helium or nitrogen, said inflatable body 1 , 4; 101 a, 101 b, 101 c, 104 until at least one part of the inflatable body 1 , 4; 101 a, 101 b, 101 c, 104 rests on at least one portion to be inspected of an inner wall of the shoe 9, 10; c) after inflation, measuring or evaluating the internal pressure of the inflatable body 1 , 4; 101a, 101 b, 101 c, 104, or the force applied against the inflatable body by said portion to be inspected of an inner wall of the shoe 9; 10, or vice versa.
  • a fluid such as air, helium or nitrogen
  • a wrong position taken for example by the footstraps, or the wrong arrangement of the reinforcements relative to the upper, or still the undesired presence of creases or folds on the arch support, or other defects that may be present inside the shoe 9, 10 can be easily detected by analyzing the signals relative to the internal pressure or the force applied by or against the inflatable body by the inspected wall, or the inspected portion thereof, of the shoe 9, 10 and comparing the same with a set of preset acceptable values.
  • the method of the present invention mainly aims at identifying these possible defects of the geometrical conditions of the inner region of a shoe 9, 10, and hence evaluating the "instep" of the latter, then the local detection, i.e.
  • the inflatable body 1 , 4; 101 a, 101 b, 101c, 104 is made, at least partially, of a substantially non-elastic material and has a theoretical shape to which the inner region of the shoe should tend to, then the inflation of said body 1 , 4; 101a, 101 b, 101c, 104 within the shoe 9 or 10 and the local detection of said pressure and/or force values allows to immediately identify any anomaly of the shoe in a highly precise manner.
  • This method of internal inspection which is mainly aimed at analyzing the inner geometry, i.e. the "instep" of a shoe, finds wide application in the field of the inspections carried out on prototypes of pre-series shoes, which aim at identifying any defects in the design and/or manufacture of the shoe.
  • detecting any misshaping of the inner region of the shoe can result in changing the design and/or modifying the structure of the support last or the various parts making up the shoe in order to improve the shoe as a whole and particularly the "instep” (i.e the "fitting") thereof.
  • the material making up the inflatable body 1 , 4; 101 a, 101 b, 101 c, 104 is at least partially selected such as to have a low tear strength
  • This breaking would then cause a sudden pressure drop within the inflatable body 1 , 4; 101 a, 101 b, 101 c, 104 that can be identified, for example, by the detecting means 3; 103a, 103b, 103c of the devices described above, or more simply by means of an elementary visual inspection by the operator.
  • the method of inspection according to the present invention mainly aims at detecting the presence of contusive elements that may be present within a shoe 9, 10, the particular aspect of the method according to the present invention as described above allows to identify the presence of these contusive elements, through a simple visual inspection of an inflatable body, i.e. the visual evaluation of the integrity of the latter.
  • the detecting means 3 for example comprising the flowmeter 203 and the reservoir 222 of the diagram from Figure 7, downstream of the inflating device 2 and upstream of the inflatable body 1 , 4, such that any pressure drop within the inflatable body 1 , 4 can be readily detected.
  • the inflatable body 1 , 4; 101 a, 101 b, 101 c, 104 can have a lower portion that is intended to come in contact with the footstraps lining and/or footstraps and is made of an elastic material, such as latex, of such a thickness having a low tear strength, and an upper portion that is arranged to engage with the side inner walls of the upper, made of a non-elastic material, such as polyethylene, with a higher tear strength and, preferably, having substantially the same shape as the inner region of the shoe.
  • an elastic material such as latex
  • an upper portion that is arranged to engage with the side inner walls of the upper, made of a non-elastic material, such as polyethylene, with a higher tear strength and, preferably, having substantially the same shape as the inner region of the shoe.
  • FIG. 5 schematically illustrates a particular embodiment of the method according to the present invention, which is particularly suitable to detect any contusive elements that may be present inside a shoe 9, 10. This particular embodiment of the method of the present invention will be illustrated below, by way of example, with reference to the device from Figures 1-3 and the diagram from Figure 7.
  • the method from Figure 5 provides a first step (a) of arranging the inflatable body 1 , 4 within the shoe 9 or 10.
  • this step (a) the inflatable body 1 , 4 is deformed, for example it is folded, and accordingly it does not exert any action against the inner walls of the shoe 9 or 10.
  • the subsequent step (b) of inflating the body 1 , 4 in a controlled manner in order to avoid that the latter may involuntarily burst can be preferably carried out by means of the pump 2 (or compressor 202 from Figure 7), which is controlled by the control apparatus 1 1 being, in turn, controlled by the processing system 6.
  • the aim of this inflation step (b) is to cause at least one part of the body 1 , 4 to deform, such that said at least one part of the body 1 , 4 (consisting of the membrane 1 , in the case of Figures 1-3) comes in contact with at least one inner wall, or a portion thereof, of the shoe 9 or 10.
  • the control apparatus 1 1 can allow the air compressor 202 to inflate the body 1 , 4 until the air within the body 1 , and also within the reservoir 222, reaches a higher pressure than the atmospheric pressure, in a preset manner.
  • the shape of the membrane 1 can be advantageously selected such that, following the inflation step (b), it rests on the whole lower portion of the inside of the shoe 9 or 10, for example on the whole footstraps or arch support, or even it rests also on other or all the inner walls of the shoe 9 or 10. Subsequent to the step (b) of inflating the body 1 , 4 there is accordingly a step of measuring or evaluating the internal pressure of the inflatable body 1 , 4.
  • control apparatus 1 1 closes the solenoid valve 220 in order to isolate the circuit consisting of the reservoir 222 and inflatable body 1.
  • the elastically or non-elastically deformable membrane 1 has a low tear strength, i.e. it has a small thickness and is made of a suitable material, such as nylon, PVC, EPR or polyethylene, this membrane 1 coming in contact with a contusive element that may be present inside the shoe 9 or 10 can cause, as it usually does, this membrane to break and a sudden pressure drop within the body 1 , 4.
  • This pressure drop and the tearing of the body 1 , 4 can be then either visually identified by the operator, or as in the device from Figure 1-3, can be measured and displayed to the operator by means of for example a manostat 3 being operatively coupled to a display 5.
  • a manostat 3 being operatively coupled to a display 5.
  • possible defects within the shoe 9 or 10 being inspected can be identified by comparing the internal pressure values of the inflatable body 1 , 4 that are detected for a given shoe 9 or 10 with a set of acceptable values that have been established in advance during setting tests. This comparison can be automatically carried out by the processing system 6 as described above.
  • the device used to implement the particular detection method from Figure 5 provides the use of the fluidic circuit from Figure 7, a tearing in the membrane 1 of the inflatable body will cause a sudden air flow from the reservoir 222 at a higher pressure than ambient pressure, to the torn inflatable body at ambient pressure, because of the pressure difference being created, the flowmeter 203 accordingly detecting this air flow.
  • What has been detected by the flowmeter 203 can either be immediately read by an operator, or it can be sent to a suitable display 5 in case the flowmeter 203 outputs an analogue or digital signal.
  • this particular method can be applied to the next shoe (step (g)), if the pressure detected matches the acceptable values, or to a subsequent examination, or repair, of shoe 9 or 10 being inspected (step (f)) can be carried out, if the membrane 1 of the body 1 , 4 is broken or the detected pressure values do not match the expected acceptable ones.
  • the particular operating mode of the method according to the present invention is particularly suitable to inspect the inner region of a shoe mainly aiming at identifying any geometrical defects of the inner parts of the shoe, and therefore evaluate the "instep" thereof.
  • the method from Figure 6 provides two initial steps (a') and (b') of arranging the inflatable body 101 a, 101 b, 101 c, 104 within the shoe 10, and inflating said body 101 a, 101 b, 101 c, 104, respectively.
  • the step (b') of inflating the inflatable body can provide inflating under varying conditions (for example with a different pressure) for each compartment 101 a, 101 b, 101 c in order to adapt the shape of the inflatable body 101 a, 101 b, 101 c to the inner region of the shoe 10 in an optimum manner.
  • the inflatable body 101 a, 101 b, 101 c, 104, or better the deformable membrane thereof may not have a low tear strength, though, however, this characteristic is obviously preferred, because it scarcely, if at all, affects the detection of the geometrical defects within the shoe 10 and is however used to identify the presence of these contusive elements in a useful manner.
  • the subsequent step (c') of the method depicted in Figure 6 provides that the force applied by the body 101 a, 101 b, 101 c, 104, when inflated, against the contact walls of the inner region of the shoe 10 is locally measured by means of a certain number of suitable sensors 103a, 103b, 103c.
  • step (d') By comparing (step (d')) the detected local values of the force applied by the inflatable body 101a, 101 b, 101c, 104 with corresponding acceptable expected values, which had been previously defined during a calibration step, one can easily find out whether an anomaly is present within the shoe 10.
  • These anomalies which may be due not only to errors made during the manufacture, but also to errors made during the design of the shoe 10, can be then subsequently identified in a precise manner and, if possible, they can be corrected (step (f)), in order to avoid that the shoe 10 is uncomfortable for the end user (i.e., in order to avoid that anomalies or defects may occur in the "instep”).
  • the method from Figure 6 provides that the same method (step (g')) is applied to the next shoe 10 to be inspected.
  • the method for inspecting the inside of a shoe as claimed herein has been found to be particularly effective when the same is performed after the soling, i.e. when the last is removed from an almost completed shoe, and when the same is performed at the end of the subsequent finishing of the shoe, i.e. before the packaging and distribution of the latter. More particularly, the application of the method as described above, either before or after the finishing of the shoe, has been found to be particularly effective in identifying the presence of contusive elements and/or geometric defects that may be present inside the shoe.

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  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
  • Examining Or Testing Airtightness (AREA)

Abstract

La présente invention concerne un procédé pour contrôler l'intérieur d'une chaussure. Ce procédé consiste a) à installer au moins un corps gonflable à l'intérieur de la chaussure (1, 4, 101a, 101b, 101c, 104), b) à gonfler ledit corps gonflable dans la chaussure (9, 10) au moyen d'une quantité contrôlée de fluide, jusqu'à ce que le corps gonflable ou une partie de celui-ci repose sensiblement sur au moins une partie d'une paroi interne de la chaussure, puis c) à mesurer et/ou à évaluer, après gonflage, la pression interne du corps gonflable et/ou la force appliquée par ladite partie de paroi interne de la chaussure contre le corps gonflable ou vice-versa.
PCT/IB2005/000767 2004-03-30 2005-03-24 Procede et dispositif pour controler l'interieur d'une chaussure WO2005094623A1 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
BRPI0508198-0A BRPI0508198A (pt) 2004-03-30 2005-03-24 método e dispositivo para inspecionar a parte interna de um sapato
EP05718264A EP1729606A1 (fr) 2004-03-30 2005-03-24 Procede et dispositif pour controler l'interieur d'une chaussure

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
ITMI20040620 ITMI20040620A1 (it) 2004-03-30 2004-03-30 Metodo e dispositivo per ispezionare l'interno di una calzatura
ITMI2004A000620 2004-03-30

Publications (1)

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WO2005094623A1 true WO2005094623A1 (fr) 2005-10-13

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EP (1) EP1729606A1 (fr)
CN (1) CN1937932A (fr)
BR (1) BRPI0508198A (fr)
IT (1) ITMI20040620A1 (fr)
WO (1) WO2005094623A1 (fr)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102008155A (zh) * 2010-10-28 2011-04-13 上海欧西玛服装设备有限公司 鞋头检针机
WO2015189222A3 (fr) * 2014-06-12 2016-02-04 Winkler, Edith Outil de mesure
WO2019172492A1 (fr) * 2018-03-06 2019-09-12 이홍규 Appareil servant à générer des informations sur l'intérieur d'une chaussure et procédé l'utilisant
CN111657630A (zh) * 2020-07-08 2020-09-15 中国皮革制鞋研究院有限公司 一种鞋内腔快速取型方法和装置

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106510100A (zh) * 2015-09-14 2017-03-22 欧利速精密工业股份有限公司 鞋体内部容积的三维尺寸测量系统
CN105595530B (zh) * 2016-02-02 2018-09-11 何泽熹 脚部数据采集机及其采集方法
CN105595531B (zh) * 2016-02-02 2018-11-30 何泽熹 鞋内腔数据采集机及其采集方法
CN116929248B (zh) * 2023-07-27 2024-03-22 浙江卓诗尼鞋业有限公司 鞋体全自动检测台及其检测系统

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Publication number Priority date Publication date Assignee Title
US1873532A (en) * 1929-08-31 1932-08-23 Regal Shoe Company Device for measuring cubic capacity of shoes
EP0507709A1 (fr) * 1991-04-05 1992-10-07 Centre Technique Cuir Chaussure Maroquinerie Procédé, dispositif de détermination du chaussant d'un article chaussant et appareil de détermination du chaussant de l'avant-pied dudit article
DE10216475A1 (de) * 2002-04-12 2003-10-23 Robert Massen Optische Erfassung der Raumform von Innenräumen
EP1380831A2 (fr) * 2002-07-09 2004-01-14 Geox S.p.A. Dispositif de mesure de la respirabilité et du confort d'une chaussure
FR2861846A1 (fr) * 2003-10-31 2005-05-06 Rossignol Sa Dispositif de mesure de pression destine a etre interpose entre deux corps

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1873532A (en) * 1929-08-31 1932-08-23 Regal Shoe Company Device for measuring cubic capacity of shoes
EP0507709A1 (fr) * 1991-04-05 1992-10-07 Centre Technique Cuir Chaussure Maroquinerie Procédé, dispositif de détermination du chaussant d'un article chaussant et appareil de détermination du chaussant de l'avant-pied dudit article
DE10216475A1 (de) * 2002-04-12 2003-10-23 Robert Massen Optische Erfassung der Raumform von Innenräumen
EP1380831A2 (fr) * 2002-07-09 2004-01-14 Geox S.p.A. Dispositif de mesure de la respirabilité et du confort d'une chaussure
FR2861846A1 (fr) * 2003-10-31 2005-05-06 Rossignol Sa Dispositif de mesure de pression destine a etre interpose entre deux corps

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102008155A (zh) * 2010-10-28 2011-04-13 上海欧西玛服装设备有限公司 鞋头检针机
WO2015189222A3 (fr) * 2014-06-12 2016-02-04 Winkler, Edith Outil de mesure
WO2019172492A1 (fr) * 2018-03-06 2019-09-12 이홍규 Appareil servant à générer des informations sur l'intérieur d'une chaussure et procédé l'utilisant
US11839267B2 (en) 2018-03-06 2023-12-12 Hong Kyoo LEE Apparatus for generating information on inside of shoe and method using same
CN111657630A (zh) * 2020-07-08 2020-09-15 中国皮革制鞋研究院有限公司 一种鞋内腔快速取型方法和装置

Also Published As

Publication number Publication date
ITMI20040620A1 (it) 2004-06-30
BRPI0508198A (pt) 2007-08-14
CN1937932A (zh) 2007-03-28
EP1729606A1 (fr) 2006-12-13

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