• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a method for producing a handle subassembly intended to be assembled with a cap (2) to form a cooking vessel (1), said subassembly comprising a handle (20), a sensor (30) ), in particular a temperature sensor, provided with at least one flexible and insulated conductor element (31, 32) which is connected to a connection member (17) of a control circuit (28), said sub-component assembly comprising a zone (49) for receiving the conductive element (31, 32), a portion (49b) of which is arranged in the handle (20). According to the invention, the method comprises successively the following steps: a) Performing the establishment and the tensioning of the conductive element (31, 32) in the receiving zone (49) by exerting a traction on the connection member (17) and / or on the conductive element (31, 32) after placing said conductive element (31, 32) in a brake device (60) arranged in the handle (20), the brake (60) allowing displacement of the conductive element (31, 32) in the direction of traction when the tensile force exceeds a predetermined threshold, b) Performing the establishment of the connecting member (17) and / or the conductive element (31, 32) in the handle (20), the handle (20) having a receiving housing (72) in which a residual portion of the conductive element (31, 32) is disposed in forming at least one loop, the brake device (60) thereby preventing movement of the conductive element (31, 32 ) in the direction opposite to the direction of traction during the formation of the loop.
    公开号:FR3042105A1
    申请号:FR1559692
    申请日:2015-10-12
    公开日:2017-04-14
    发明作者:Guy Magnouloux
    申请人:SEB SA;
    IPC主号:
    专利说明:

    METHOD FOR PRODUCING A HANDLE SUBASSEMBLY OF A COOKING CONTAINER
    The present invention relates to a method for producing a handle subassembly intended to be assembled on a cap to form a cooking vessel, more particularly a handle subassembly comprising a temperature sensor. The invention also relates to a handle subassembly and a cooking vessel comprising the handle subassembly, resulting from such a method. The cooking vessel is intended to be arranged on a cooking plate, a burner or the like for cooking food including a pan, a saucepan, a saute pan, a Dutch oven or a pressure cooker.
    Document DE202004009968 discloses a method of producing a handle subassembly intended to be assembled with a cap to form a cooking vessel, the subassembly comprising a handle, a temperature sensor provided with two insulated conducting elements which are connected to a connection member of a control circuit, the subassembly comprising a receiving region of the conductive elements, a portion of which is arranged in the handle.
    The conductive elements are formed by flexible wires. The conductive elements comprise a first portion arranged in the reception zone and a second free portion to which the sensor is connected. When assembling the handle subassembly on the cap, the second flexible and free portion must be carefully positioned and maintained, especially when screwing the handle so that the conductive elements are not pinched.
    Thus, the attention of the person performing the assembly must be supported and there is a significant risk that the conductive elements are pinched, which can cause a cut of one or both conductive elements. As a result, the cooking vessel may no longer include the features provided by the sensor.
    The object of the present invention is to overcome the aforementioned drawbacks and to provide a method of making a handle subassembly that is simple and economical to implement.
    Another object of the invention is to provide a subset handle provided with a sensor, all assembled on a cooking vessel which has a reliable and repetitive operation, durable over time.
    These objects are achieved with a method of producing a handle subassembly intended to be assembled with a cap to form a cooking vessel, said subassembly comprising a handle, a sensor, in particular a temperature sensor, provided with at least one flexible and insulated conductive element which is connected to a connection member of a control circuit, said subassembly comprising a receiving zone of the conductive element, part of which is arranged in the handle, characterized in that it comprises successively the following steps: a) Carrying out the setting up and tensioning of the conductive element in the receiving zone by exerting traction on the connection member and / or on the conductive element after having placed said conductive element in a brake device arranged in the handle, the brake device allowing movement of the conductive elements in the direction of traction when the tensile force exceeds a predetermined threshold, b) Perform the establishment of the connecting member and / or the conductive element in the handle, the handle having a receiving housing in which a residual portion of the conductive element is arranged forming at least one loop, the brake device then preventing the displacement of the conductive element in the direction opposite to the direction of traction during the formation of the loop.
    Thus, the flexible conductive element is tensioned in the receiving zone which is designed so that the position of the flexible conductive element is fixed, once it is put in tension. As a result, the person who assembles the grip subassembly on the cap does not have to worry about the position of the conductive element.
    Advantageously, the brake device comprises a silicon stud provided with a calibrated slot, the conductive element being arranged in the slot.
    The pad made of silicone makes it possible to obtain a flexible piece. The slot has a calibrated width less than the width of the conductive element, which may in particular be a diameter if the conductive element is round. Thus, the friction of the conductive element in the slot ensures that the conductive element remains in position as long as the traction force on the conductive element does not exceed a predetermined threshold. Advantageously, the stud is arranged in the handle to maintain the width of the slot.
    Preferably, the handle extends in a longitudinal direction, the portion of the receiving region of the conductive member arranged in the handle extending predominantly in the longitudinal direction and the slot being aligned with the portion of the receiving zone. and the tensile stress on the conductive element made in step a) is applied in the longitudinal direction.
    Thus, the tensioning of the conductive element allows its implementation in the portion of the receiving zone arranged in the handle, the slot which holds the conductive element being aligned with the portion of the receiving zone.
    Preferably, the force to push the residual portion of the conductive element into the receiving housing is applied in the longitudinal direction.
    Thus, once the conductive element is tensioned in the receiving zone and held by the brake device, the residual portion is pushed back into the receiving housing in the longitudinal direction. The conductive element is dimensioned to bend under the application of a thrust force less than the predetermined threshold of the tensile force of the brake device which allows a displacement of the conductive element.
    Advantageously, the handle has a free end which comprises a receiving opening of the connecting member, the connecting member being assembled in the longitudinal direction to push the residual portion of the conductive element in the receiving housing.
    Advantageously, the handle comprises a cover and the method comprises the following step before step a): c) fixing the cover on the handle, said cover closing the part of the receiving zone of the conductive element arranged in the handle and / or ensuring the holding in position of the brake device.
    Thus, the cover makes it possible to perform two functions: to close the part of the receiving zone of the conductive element arranged in the handle and to hold the brake device in position, which is particularly economical.
    Preferably, the handle subassembly comprises a support comprising a first end attached to the handle and a second end to which the sensor is attached, the support forming a part of the conductive element receiving zone and the method comprises the following steps before step a): - place the support on the handle, - place the sensor on the support, - arrange the conductive element in the part of the reception area.
    Thus, the handle subassembly comprises a rigid support which makes it possible to position the sensor in the space in a known and repetitive manner. During the step of tensioning the conductive element, the position of the flexible conductive element is fixed in the part of the receiving zone of the conductive element formed in the support, at the same time as in the of the receiving area of the conductive element formed in the handle. The position of the components of the handle subassembly being fixed, in particular that of the conductive element, the assembly of the subassembly on the cap can therefore be easily achieved.
    Particularly advantageously, from a set of common components, including the handle, the sensor, the conductive element, the connection member, the brake device, the cover, a family of subassemblies can be realized. handle intended to be assembled on a family of caps, for example of different sizes, using a specific support for each cap. The specific support makes it possible to adapt the position of the sensor with respect to the position of the handle which may be different at each cap size.
    A standard handle pre-subassembly can thus be produced for a family of cooking containers and can be personalized just before assembly with the support adapted to the size of the cap. The conductive element of the subassembly then has a length suitable for mounting the largest support of a family. The receiving housing is dimensioned to contain the residual portion of the conductive element corresponding to the mounting of the smallest of the supports of the family.
    Advantageously, the support is made of a metallic material, in particular a non-ferromagnetic austenitic stainless steel.
    The support made of a metallic material is adapted to withstand high temperatures, especially near the bottom of the cap. A support made of a non-ferromagnetic austenitic stainless steel makes it possible, during use of the cooking vessel with an induction heating means, to obtain a support which does not couple with the induction heating means.
    Advantageously, the sensor and a part of the conductive element are encapsulated in a metal tubular casing, the support comprising two tabs forming a housing for receiving the tubular casing, and the method comprises at the stage of placing the sensor on the support, a force inserting operation of the tubular casing in the receiving housing, the two fixing lugs having a spring effect of maintaining the tubular casing on the support.
    This arrangement makes it possible to assemble the sensor on the support without adding additional parts, which is particularly economical.
    Preferably, the portion of the receiving region of the conductive element is formed by a holding portion of the conductive element having a substantially constant cross-section, in particular in the form of a flattened U, and by holding tabs of the conductive element and the method comprises in the step of storing the conductive elements in the part of the receiving zone a folding operation of the tabs to close the U-shaped and form the part of the receiving area.
    This arrangement makes it possible to achieve the part of the receiving zone of the conductive element in a simple and economical way, especially when the support is made from a metal strip cut to include the tabs and U-shaped by striking. The invention also relates to a handle subassembly intended to be assembled with a cap to form a cooking vessel, said subassembly comprising a handle, a sensor, in particular a temperature sensor, provided with at least one flexible conductive element and isolated which is connected to a connection member of a control circuit, the subassembly comprising a receiving zone of the conductive element, a part of which is arranged in the handle, the subassembly being produced by the method previously described. The invention also relates to a cooking vessel comprising a handle subassembly assembled on a cap, said subassembly comprising a handle, a sensor, in particular a temperature sensor, provided with at least one flexible and isolated conductive element which is connected to a connection member of a control circuit, said subassembly comprising a receiving zone of the conductive element, a part of which is arranged in the handle, said cap having a side wall and a bottom in which is arranged a receiving housing of the sensor, the handle being fixed to the cap by fixing means, the handle subassembly being in accordance with the subset handle described above.
    Thus, the cooking vessel is derived from the assembly of the handle subassembly on the cap, in particular following the installation of the sensor in its housing and the fixing of the handle on the cap.
    Preferably, the means for fixing the handle on the cap comprise a stud welded to the cap, said stud cooperating with a housing in the handle.
    Preferably, the culinary article is a pan, a saucepan, a sauté pan, a Dutch oven or a pressure cooker. The invention will be better understood from the study of the embodiments taken in no way limiting and illustrated in the accompanying figures in which: - Figure 1 illustrates an exploded perspective view of a cooking vessel according to a particular embodiment of the invention. FIG. 2 illustrates a perspective view of the handle subassembly of the cooking vessel of FIG. 1. FIG. 3 illustrates an exploded perspective detail view of the handle subassembly of FIG. 2. FIG. a perspective view of the support which is in an intermediate assembly position to form the handle subassembly of Figure 2. - Figure 5 illustrates an exploded perspective view of the handle subassembly of Figure 2. - The figure 6 illustrates a detail view of the top of the free end of the handle without the cover of the handle subassembly of FIG. 2.
    It should be noted that, in this document, the terms "horizontal", "vertical", "lower", "upper", "longitudinal", "transverse", "high", "low", used to describe the cooking vessel, refer to this cooking vessel in use situation, when placed on a horizontal plane.
    As seen in Figures 1 and 2, a cooking vessel 1 comprises a cap 2 comprising a bottom 3 and a side wall 4. The cap 2 is made of aluminum, for example by striking a disk or by a foundry operation . The bottom 3 has a thickness in which is arranged a receiving housing 11 of a sensor 30. The receiving housing 11 forms a tunnel which has an opening 12 in the side wall 4 and which extends from this opening 12, radially towards the center of the bottom 3.
    The cooking vessel 1 comprises a handle 20 which extends radially to the cap 2 in a longitudinal direction. The handle 20 is arranged on the side wall 4 of the cap 2 by fixing means 6, 22. The cap 2 comprises a portion of the fastening means formed by a welded stud 6. The stud 6 has a general shape of a rectangular parallelepiped which comprises a first end 7 adapted to be fixed to the cap 2, and a second end 8 comprising a threaded blind hole 9.
    The handle 20 has an end 21 provided with a part of the fixing means which is formed by a housing 22 for receiving the stud 6. The end 21 of the handle 20 comprises two protuberances 23, 24 and a base 25 surrounding the two protuberances 23, 24 which form the housing 22 for receiving the stud 6. The end 21 of the handle 20 comprises a through-stepped orifice 26, formed in the extension of the housing 22. The orifice 26 is intended to receive a screw 27 fit to cooperate with the threaded blind hole 9 of the stud 6.
    As can be seen in FIG. 3, the temperature sensor 30 can be formed by a CTN or a thermocouple. By CTN, a thermistor with a negative temperature coefficient is included. The temperature sensor 30 is provided with two insulated conductor elements 31, 32 which are arranged in a tubular envelope 33 made of stainless steel, closed at one end 34. The temperature sensor 30 is positioned at the bottom of the tubular envelope 33, near the end 34 closed. The tubular casing 33 is adapted to be inserted completely into the receiving housing 11 so that the sensor 30 is held in position in an adjusted manner, almost without play. The conductive elements 31, 32 are electrically connected to a control circuit 28 (FIG. Fig. 2) able to process the quantity measured by the temperature sensor. The control circuit 28 is arranged in the handle 20 and may comprise, for example, processing and display means and / or communication means with a heating means.
    According to Figure 3, the cooking vessel 1 comprises a support 40 comprising, at a first end, a fixing portion 41 adapted to cooperate with a housing 29 arranged at the end 21 of the handle 20. The housing 29 has a parallelepipedal shape and has a rectangular opening 15. The housing 29 is arranged under the receiving housing 22 of the stud 6. The support 40 has a holding portion 42 of the tubular casing and conductive elements. The holding portion 42 has a holding portion 42a of the tubular casing 33 and a holding portion 42b of the conductive members 31, 32. The holding portion 42a is arranged at a second end of the support 40.
    The support 40 is made from a metal strip, cut and shaped by striking. The holding portion 42 of the tubular casing and the conductive members has a flattened U-shaped cross section, substantially constant. The cross section has a flat face 43 and two lateral edges 44a, 44b each comprising a free end 45a, 45b.
    The holding portion 42a of the tubular casing 33 comprises two tabs 46a, 46b which extend from the free ends 45a, 45b of the lateral edges 44a, 44b, above the plane face 43 to form a receiving housing 47 of the tubular casing 33. The two brackets 46a, 46b of attachment have a spring effect of maintaining the tubular casing 33 on the flat face 43 of the support 40.
    The holding portion 42b of the conductive elements 31, 32 includes tabs 48 which extend from the free end 45a of the lateral edge 44a, above the flat face 43 to form a portion 49a of a receiving zone 49 conductive elements 31, 32.
    The support 40 comprises a programmed deformation zone 50 which has an S shape. The S shape is connected by a first end 51 to the holding portion 42 of the tubular casing and the conductive elements and by a second end 52 to the fixing portion 41 of the support 40 which is connected to the handle 20. The S shape has a rectangular cross section.
    Thus, the holding portion 42 of the tubular casing and the conductive elements is movable relative to the handle 20, in particular in a substantially vertical direction, perpendicular to the plane in which is included the S-shape.
    The attachment portion 41 of the support 40 has a flattened U-shaped cross-section which has a planar face 53 and two lateral edges 54a, 54b. The flattened U-shaped portion of the attachment portion 41 is sized to be inserted into the housing 29 of the handle 20. Two flexible tabs 55a, 55b extend longitudinally from the two side edges 54a, 54b, outwardly of the housing. The support 40 comprises a programmed deformation zone formed by the flexible tongues 55a, 55b arranged in opposition on the fixing portion 41. The flexible tongues 55a, 55b comprise two free ends 56a, 56b which cooperate with two faces 16a, 16b of opposite the housing 29 of the handle 20. The flat face 53 of the flattened U is in the plane in which is included the S-shape.
    The fixing portion 41 of the support 40 can move in its housing 29 transversely to the longitudinal direction, in a substantially horizontal direction. Thus, the holding portion 42 of the tubular casing and the conductive members is movable relative to the handle 20 in a horizontal direction perpendicular to the vertical direction.
    The support 40 comprises in the flat face 43 a perforation 57. The perforation 57 is arranged at the end of the holding portion 42b of the conductive elements 31, 32, close to the programmed deformation zone 50. The conductive elements 31, 32 are positioned in the perforation 57 to move from the portion 49a to a portion 49b of the zone 49 for receiving the conductive elements 31, 32.
    The side wall 4 has a groove 5 (Fig. 1) extending from the opening 12 of the receiving housing 11 of the sensor 30, upwardly from the side wall 4 to below the stud 6. The groove 5 is intended to receive the support 40, once the tubular sheath 33 introduced into the receiving housing 11.
    As can be seen in FIGS. 3 and 4, the conductive elements 31, 32 are arranged in the support 40 in the portion 49a of the receiving zone 49 and in the handle 20 in the portion 49b of the zone 49 for receiving the conductive elements 31 , 32. The portion 49b extends in the handle mainly in the longitudinal direction. The portion 49b has at the end 21 a duct 70 (FIG. 3) and a channel 73 for guiding the conductive elements arranged next to the protuberance 23.
    According to FIGS. 5 and 6, a brake device 60 of the conductive elements 31, 32 is arranged in the handle 20. The brake device is formed by a pad 60 made of silicone which has a slot 61. The conductive elements 31, 32 are positioned in the slot 61 which is oriented in the longitudinal direction. The conductive elements 31, 32 are connected to a connection member 17 of the control circuit 28. The handle 20 has a free end 19 provided with an opening 18 which extends in the longitudinal direction. The connecting member 17 is arranged in the opening 18. The handle 20 comprises a receiving housing 72 of a residual portion of the conductive elements 31, 32 which form at least one loop. The receiving housing 72 is arranged between the silicon pad 60 and the connection member 17. The opening 18 opens into the receiving housing 72.
    A cover 71 is fixed on the handle 20. The cover 71 covers the portion 49b of the zone 49 for receiving the conductive elements 31, 32, the receiving housing 72 of the residual portion of the conductive elements 31, 32 and the stud 60 silicone.
    The cooking vessel 1 comprises two subassemblies that can be independently manufactured and joined in a final assembly operation. A first subassembly called handle subassembly is formed by the handle 20 provided with the receiving housing 22 of the stud 6, the support 40, the conductive elements 31, 32 and the sensor 30 provided with its tubular envelope 33. A second sub-assembly -etembly called subset cap is formed by the cap 2 provided with the stud 6, the receiving housing 11 of the sensor 30 and the groove 5.
    The method of assembling the handle subassembly comprises the following steps: - Assemble the sensor 30 provided with the conductive elements 31, 32 in the tubular sheath 33 and connect the conductive elements 31, 32 to the connection member 17, - Making pass the tubular sheath 33 in the opening 18 of the free end 19 of the handle 20 and then pass the tubular sheath 33 in the conduit 70, - Introduce the conductive elements 31, 32 in the slot 61 of the pad 60 of silicone then position the silicone pad 60 in the handle 20, - Pre-position the conductive elements 31, 32 in the portion 49b of the receiving zone 49 and in the receiving housing 72, a portion of the conductive elements 31, 32 and the connecting member 17 protruding from the opening 18 and a part of the conductive elements 31, 32 and the tubular sheath protruding from the duct 70, then attaching the cover 71 to the handle 20, in particular by gluing.
    It can be considered that at this stage of assembly, a standard handle pre-subassembly has been made for a family of cooking vessels.
    To terminate the handle subassembly, the assembly method comprises the following steps: - Pass the tubular sheath into the perforation 57 of the support 40 (FIG 4) and put in place the fixing portion 41 in the housing 29 of the handle 20, - forcefully insert the tubular casing 33 in the receiving housing 47 to fix the sensor 30 on the support 40, - arrange the conductive elements 31, 32 in the holding portion 42b and fold the tabs 48 to form the portion 49a of the receiving zone 49, Realizing the tensioning of the conductive elements 31, 32 in the receiving zone 49 by exerting traction on the connection member 17 and / or on the conductive elements 31, 32, the brake device formed by the pad 60 allowing a displacement of the conductive elements in the direction of traction, the receiving zone 49 being formed by the portion 49b in the handle 20 and by the portion 49a in the support 40, - Realize the m in place of the connecting member 17 in the opening 18 and the residual portion of the conductive elements 31, 32 in the receiving housing 72 of the handle 20, the residual portion of the conductive elements 31, 32 forming at least one loop, the brake device then preventing the displacement of the conductive elements 31, 32 in the direction opposite to the direction of traction during the formation of the loop.
    During the final assembly operation, the housing 22 of the handle 20 is fitted tightly to the stud 6 and the tubular casing 33 is fitly inserted into the receiving housing 11. During this operation, the programmed deformation zones 50, 55a, 55b make it possible to absorb the dimensional dispersions of the two subassemblies.
    Of course, the invention is not limited to the described and illustrated embodiments which have been given by way of example. Modifications are possible, particularly from the point of view of the constitution of the various elements or by substitution of technical equivalents, without departing from the scope of protection of the invention.
    Thus, in an alternative embodiment, the brake device comprises a fixed part belonging to the handle and a moving part against an elastic return means, the conductive element being arranged between the fixed part and the moving part. . The elastic return means may be formed in particular by a spring.
    权利要求:
    Claims (11)
    [1" id="c-fr-0001]
    1. A method of producing a handle subassembly intended to be assembled with a cap (2) to form a cooking vessel (1), said subassembly comprising a handle (20), a sensor (30), in particular a temperature sensor, provided with at least one flexible and insulated conductive element (31, 32) which is connected to a connection member (17) of a control circuit (28), said subassembly comprising a zone ( 49) for receiving the conductive element (31, 32), a portion (49b) of which is arranged in the handle (20), characterized in that it successively comprises the following steps: a) Carrying out the installation and the tensioning the conductive element (31, 32) in the receiving zone (49) by pulling on the connection member (17) and / or on the conductive element (31, 32) after having placed said conductive element (31, 32) in a brake device (60) arranged in the handle (20), the brake device (60) allowing a displacement of the conductive element (31, 32) in the direction of traction when the tensile force exceeds a predetermined threshold, b) Perform the establishment of the connection member (17) and or the conductive element (31, 32) in the handle (20), the handle (20) having a receiving housing (72) in which a residual portion of the conductive element (31, 32) is disposed forming at least one loop, the brake device (60) then preventing the displacement of the conductive element (31, 32) in the direction opposite to the direction of traction during the formation of the loop.
    [2" id="c-fr-0002]
    2. A method of producing a handle subassembly according to claim 1, characterized in that the brake device comprises a pad (60) of silicone provided with a slot (61) calibrated, the conductive element (31, 32) being arranged in the slot (61).
    [3" id="c-fr-0003]
    3. A method of producing a handle subassembly according to claim 2, characterized in that the handle (20) extends in a longitudinal direction, the portion (49b) of the zone (49) receiving the conductive element (31, 32) arranged in the handle (20) extending predominantly in the longitudinal direction and the slot (61) being aligned with the portion (49b) and in that the tensile force on the conductive element (31, 32) made in step a) is applied in the longitudinal direction.
    [4" id="c-fr-0004]
    4. A method of producing a handle subassembly according to claim 3, characterized in that the force to push the residual portion of the conductive element (31, 32) into the receiving housing (72) is applied according to the longitudinal direction.
    [5" id="c-fr-0005]
    5. A method of producing a handle subassembly according to claim 4, characterized in that the handle (20) has a free end (19) which comprises an opening (18) for receiving the connecting member (17). ), the connecting member (17) being assembled in the longitudinal direction to push the residual portion of the conductive element (31, 32) into the receiving housing (72).
    [6" id="c-fr-0006]
    6. A method of producing a handle subassembly according to any one of the preceding claims, characterized in that the handle (20) comprises a cover (71) and in that it comprises the following step before the step a): c) Realizing the fixing of the cover (71) on the handle (20), said cover (71) closing the portion (49b) of the zone (49) for receiving the conductive element (31, 32) arranged in the handle (20) and / or ensuring the holding of the brake device (60) in position.
    [7" id="c-fr-0007]
    7. A method of producing a handle subassembly according to any one of the preceding claims, characterized in that the handle subassembly comprises a support (40) comprising a first end attached to the handle (20) and a second end to which the sensor (30) is fixed, the support (40) forming part (49a) of the receiving region (49) of the conductive element (31, 32) and comprising the following steps before step a): - place the support (40) on the handle (20), - put the sensor (30) on the support (40), - arrange the conductive element (31, 32) in the portion (49a) of the receiving zone (49).
    [8" id="c-fr-0008]
    8. A method of producing a handle subassembly according to claim 7, characterized in that the sensor (30) and a portion of the conductive element (31, 32) are encapsulated in a tubular casing (33) metal, the support (40) comprising two tabs (46a, 46b) forming a housing (47) for receiving the tubular casing (33), and in that it comprises the step of placing the sensor (30) on the support (40), a force-insertion operation of the tubular casing (33) in the receiving housing (47), the two fixing tabs (46a, 46b) having a spring-holding effect of the tubular casing (33) on the support (40).
    [9" id="c-fr-0009]
    9. A method of producing a handle subassembly according to any one of claims 7 or 8, characterized in that the portion (49a) of the zone (49) for receiving the conductive element (31, 32). is formed by a portion (42b) for holding the conductive element (31, 32) having a substantially constant cross section, in particular in the form of a flattened U, and tabs (48) for holding the conductive element (31, 32) and in that it comprises in the step of storing the conductive element (31, 32) in the portion (49a) of the receiving zone (49), a folding operation of the tabs (48) for close the U-shape and form the portion (49a) of the receiving zone (49).
    [10" id="c-fr-0010]
    10. Subassembly handle intended to be assembled with a cap (2) to form a cooking vessel (1), said subassembly comprising a handle (20), a sensor (30), in particular a temperature sensor, provided with at least one flexible and insulated conductor element (31, 32) which is connected to a connection member (17) of a control circuit (28), said subassembly comprising a zone (49) for receiving the conductive element (31, 32) of which a portion (49b) is arranged in the handle (20), characterized in that it is produced by the method according to any one of the preceding claims.
    [11" id="c-fr-0011]
    Cooking vessel comprising a handle subassembly assembled on a cap (2), said subassembly comprising a handle (20), a sensor (30), especially a temperature sensor, provided with at least one conductive element (31). , 32) flexible and isolated which is connected to a connection member (17) of a control circuit (28), said subassembly comprising a zone (49) for receiving the conductive element (31, 32) of which a portion (49b) is arranged in the handle (20), said cap (2) having a side wall (4) and a bottom (3) in which is arranged a receiving housing (11) of the sensor (30), the handle (20) being fixed to the cap (2) by fixing means (6, 22), characterized in that the handle subassembly is in accordance with claim 10.
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    同族专利:
    公开号 | 公开日
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    JP2017094058A|2017-06-01|
    EP3155939A1|2017-04-19|
    CN106974569A|2017-07-25|
    JP6832669B2|2021-02-24|
    US20170099995A1|2017-04-13|
    FR3042105B1|2017-10-27|
    ES2741850T3|2020-02-12|
    KR20170043088A|2017-04-20|
    EP3155939B1|2019-07-24|
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    USD903413S1|2018-08-09|2020-12-01|Sharkninja Operating Llc|Cooking basket|
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    USD883015S1|2018-08-09|2020-05-05|Sharkninja Operating Llc|Food preparation device and parts thereof|
    USD934027S1|2018-08-09|2021-10-26|Sharkninja Operating Llc|Reversible cooking rack|
    US20190254476A1|2019-02-25|2019-08-22|Sharkninja Operating Llc|Cooking device and components thereof|
    JP1677688S|2019-06-06|2021-01-25|
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    法律状态:
    2016-10-28| PLFP| Fee payment|Year of fee payment: 2 |
    2017-04-14| PLSC| Search report ready|Effective date: 20170414 |
    2017-10-31| PLFP| Fee payment|Year of fee payment: 3 |
    2018-10-30| PLFP| Fee payment|Year of fee payment: 4 |
    2019-10-31| PLFP| Fee payment|Year of fee payment: 5 |
    2021-07-09| ST| Notification of lapse|Effective date: 20210605 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1559692A|FR3042105B1|2015-10-12|2015-10-12|METHOD FOR PRODUCING A HANDLE SUBASSEMBLY OF A COOKING CONTAINER|FR1559692A| FR3042105B1|2015-10-12|2015-10-12|METHOD FOR PRODUCING A HANDLE SUBASSEMBLY OF A COOKING CONTAINER|
    KR1020160129599A| KR20170043088A|2015-10-12|2016-10-07|Method for producing a handle subassembly for a cooking vessel|
    ES16193168T| ES2741850T3|2015-10-12|2016-10-10|Procedure for making a handle subset of a cooking vessel|
    EP16193168.8A| EP3155939B1|2015-10-12|2016-10-10|Method for producing a handle sub-assembly for a cooking vessel|
    US15/290,196| US10390660B2|2015-10-12|2016-10-11|Method for producing a handle subassembly for a cooking vessel|
    JP2016199960A| JP6832669B2|2015-10-12|2016-10-11|How to make a handle subassembly for a cooking container|
    CN201610889098.XA| CN106974569B|2015-10-12|2016-10-12|Method for realizing handle subassembly of cooking container|
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