EP1610354A1 - Montage für einen tellerförmigen Bimetallauslöser - Google Patents

Montage für einen tellerförmigen Bimetallauslöser Download PDF

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Publication number
EP1610354A1
EP1610354A1 EP05017465A EP05017465A EP1610354A1 EP 1610354 A1 EP1610354 A1 EP 1610354A1 EP 05017465 A EP05017465 A EP 05017465A EP 05017465 A EP05017465 A EP 05017465A EP 1610354 A1 EP1610354 A1 EP 1610354A1
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EP
European Patent Office
Prior art keywords
bimetallic actuator
control
spring
bimetallic
bimetal
Prior art date
Legal status (The legal status 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 status listed.)
Granted
Application number
EP05017465A
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English (en)
French (fr)
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EP1610354B1 (de
Inventor
Paul Boundy
Mark John Walford
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Otter Controls Ltd
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Otter Controls Ltd
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Filing date
Publication date
Application filed by Otter Controls Ltd filed Critical Otter Controls Ltd
Priority claimed from EP03786157A external-priority patent/EP1586102B1/de
Publication of EP1610354A1 publication Critical patent/EP1610354A1/de
Application granted granted Critical
Publication of EP1610354B1 publication Critical patent/EP1610354B1/de
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H37/00Thermally-actuated switches
    • H01H37/02Details
    • H01H37/04Bases; Housings; Mountings
    • H01H37/043Mountings on controlled apparatus
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H37/00Thermally-actuated switches
    • H01H37/02Details
    • H01H37/32Thermally-sensitive members
    • H01H37/52Thermally-sensitive members actuated due to deflection of bimetallic element
    • H01H37/54Thermally-sensitive members actuated due to deflection of bimetallic element wherein the bimetallic element is inherently snap acting
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H37/00Thermally-actuated switches
    • H01H37/02Details
    • H01H37/32Thermally-sensitive members
    • H01H37/52Thermally-sensitive members actuated due to deflection of bimetallic element
    • H01H37/54Thermally-sensitive members actuated due to deflection of bimetallic element wherein the bimetallic element is inherently snap acting
    • H01H37/5409Bistable switches; Resetting means

Definitions

  • This invention concerns improvements relating to the control of electric heating elements and, more particularly, is concerned with overtemperature controls for switching off the supply of electricity to an electric heating element in the event of the heating element temperature rising above a safe level, such controls commonly being referred to as element-protector controls.
  • Element protector controls are commonly used in domestic water heating appliances, such as kettles and hot water jugs for example, but are also used widely in other domestic and industrial applications. In the following, the invention will be described with particular reference to the control of electric heating elements in domestic kettles and hot water jugs, but it is to be well understood that the invention has wider application.
  • Electric heating elements for domestic kettles and hot water jugs have conventionally been of the type comprising a resistance heating wire housed within an elongate tubular sheath packed with a mineral insulating material, and such sheathed heating elements were most commonly utilised in an immersion heating configuration where the heating element proper was affixed to a head plate enabling the heating element to be affixed in a vessel wall with the heating element proper immersed in the vessel contents.
  • Planar or underfloor heating element configurations have also been known which comprised a plate, commonly of aluminium, having a sheathed heating element as aforementioned clamped or clenched to the undersurface thereof, and heating elements of this kind have been employed both as integral parts of water heating appliances and also as hot plates for use with separate water vessels, for example in coffee making machines.
  • thick film heating elements comprising an electrically insulating substrate having a resistance heating track or layer formed thereon have attracted the attention of manufacturers of domestic electric water heating appliances, inter alia on account of the increased power density of such heating elements as compared to the more conventional heating elements abovementioned which means that water can be heated much more quickly.
  • Bimetallic element-protector controls have commonly been utilized for the protection of conventional sheathed heating elements, both of the immersion heating type and of the planar or underfloor type, and bimetallic element-protector controls have also been proposed to be used with thick film heating elements.
  • Such bimetallic element-protector controls have commonly comprised a bimetallic switch-actuating element arranged to be held in close heat transfer relationship with the electric heating element and to operate a pair of switch contacts via a push rod.
  • Proposals have been made to provide more than one bimetallic switch-actuating element in close heat transfer relationship with the electric heating element, the rationale for this being two fold, namely to provide primary and secondary (or back-up) levels of protection such that safety is assured even in the unlikely event of failure of the primary control to operate, and/or to provide thermal sensing at multiple locations of the heating element in an endeavour to ensure safety even if an appliance is operated on an inclined surface, a domestic draining board for example, so that if the appliance boils dry a specific part (the higher part) will boil dry and overheat whilst the remainder of the heating element surface is still covered with water and thus is at a normal operating temperature.
  • Element-protection controls as described hereinbefore have been proposed to be used with both corded and cordless water heating appliances, corded appliances, as is well known, having an integral electricity supply cord or cable and cordless appliances comprising a base unit and an appliance proper, the base unit being corded and co-operating electrical connectors being provided on the appliance proper and on the base to enable a heating element in the appliance proper to be powered via the base when the appliance proper is appropriately seated with respect to the base.
  • Cordless appliances and their co-operating electrical connectors were originally such that in order to effect proper connection, the appliance proper had to be set down onto its base in a predetermined relative orientation with respect to the base, but the disadvantages and inconveniences of this were appreciated and led to the development of 360° connector sets, that is to say cooperating base and appliance proper connectors which enabled the appliance proper to be set down on its base irrespective of its rotational orientation relative to the base.
  • the Russell Hobbs Millenium kettle is an example of a recently launched and highly successful product which combines thick film heating element and 360° cordless technology with bimetallic heating element protection.
  • the X2 element protector control which is described in our British Patent Applications Nos 2 315 366 and 2 248 724 utilizes a snap-acting bimetallic switch actuator for providing a primary level of protection and has the bimetal mounted in a collapsible thermoplastics carrier for providing a secondary or back-up level of protection operative in the event of failure of the primary protection.
  • X4 series of element protector controls were developed as a successor to the X2 controls and are currently enjoying significant commercial success.
  • the X4 controls are substantially as described in British Patent Application No 2 339 088.
  • the design of the X4 controls lends itself to the controls being embodied in a number of different forms, all of which integrate heating element overtemperature protection with a 360° power input connector designed to co-operate with a complementary power output connector of a cordless appliance base.
  • spaced apart bimetallic actuators determine the condition of switch contact sets provided in the control so as to determine whether or not power can be supplied through the control to a heating element via the power input connector.
  • one of the bimetallic actuators is replaced by a fusible component.
  • FIGs 4A to 4D of our British Patent Application No 2 339 088 show the mechanism whereby a bimetal, once actuated, has to be reset in order that the control can supply power through to the accompanying heating element.
  • the bimetal 16 is mounted in a spring metal carrier, see Figures 3A and 3B, which serves also as an overcentre mechanism for a push rod 26.
  • a camming member 41 is accommodated within a chamber 40 that is formed in the 360° power input connector part of the control and is free to move within the chamber.
  • An opening 42 in a wall of the power input connector part allows the camming member 41 to protrude from its accommodating chamber into an annular passageway 43 that exists within the power input connector and which is occupied by a complementary part 44 of the base unit power output connector when the two connectors are properly engaged.
  • the push-rod 26 is associated with the bimetal 16 for operating a leaf spring 14 to determine the condition of a set of switch contacts.
  • the special shape of the camming member 41 and its arrangement in the control ensures that it does not interfere with operation of the bimetal 16 and of the overcentre mechanism and push-rod 26 in response to a heating element overtemperature condition.
  • the removal of the power output connector part from the power input connector part of the control enables the camming member 41 to adjust its position and orientation within its accommodating chamber to such an extent that, when the appliance proper is then set back down onto its base, the part 44 of the power output connector part entering the annular passageway 43 of the power input connector part of the control encounters the camming member 41, drives it into engagement with the push-rod 26 and drives the push-rod so as to reset the overcentre mechanism and reset the bimetal 16 if it has not auto-reset as its temperature cools.
  • a control similar to our X4 control is manufactured and sold by Strix Limited as their U18 control. This is described in International Patent Publication No WO 95/34187.
  • the U18 control has two spaced-apart bimetals each responsive to the temperature of a heating element with which the control is associated, each bimetal determining the status of a respective set of switch contacts in the control. The two bimetals are coupled to an overcentre mechanism which has a manually accessible reset.
  • the U18 control has also seen considerable commercial success.
  • the present invention in one of its aspects, replaces the camming mechanism abovedescribed by an alternative mechanism which, whilst still relying for resetting upon removal of the appliance proper of a cordless appliance from its base, no longer relies upon the specially-shaped camming member of the X4 control, but rather makes use of a more simple camming mechanism, still dependent upon decoupling of the respective 360° connector parts, to operate a spring-wire latching mechanism in which the response of a bimetal to a heating element overtemperature condition causes a switch-operating member to move relative to a spring wire such that the wire moves to a position whereat it inhibits the return of the switch-operating member, and in which, for resetting, a cam mechanism moves the spring wire and enables the switch-operating member to reset in response to removal of the appliance proper from its base.
  • a snap-acting bimetal is arranged to operate the moving contact of a set of switching contacts via a pivotal trip lever, and the spring wire aforementioned is biassed towards contact with the trip lever, the arrangement being such that, in response to an overtemperature situation and with the cordless appliance seated on its power base, the bimetal will cause the trip lever to move, thereby causing the spring wire to move relative to the trip lever into a position where it blocks movement of the trip lever back to its initial position.
  • the trip lever is latched in switch-actuated, contacts open condition as regards the status of the control.
  • a simple camming member is provided which projects into the appliance power input connector part and is released when the appliance is lifted off its power base thereby enabling the spring wire to resile out of its blocking position thereby to allow the pivotal trip lever to reset to its original position under the action of the switch contacts.
  • a further feature of the present invention resides in a simplification of the bimetal(s).
  • the bimetals are specially-formed, generally-rectangular, dished, snap-acting bimetallic elements having a generally X-shaped cut-out in their middle
  • the present invention proposes to make use of a much more simple dished bimetallic disk.
  • the dished bimetallic disc as described, has a small central aperture which receives a mounting finger at one end of a mounting spring, the other end of the spring being captive in a formation provided in a moulded plastics body part of the control.
  • a mounting for a dished bimetallic switch actuator comprises a spring metal component having a first part adapted to extend through an opening in the dished bimetallic actuator and a second part adapted to contact the bimetallic actuator at or adjacent to an edge thereof on one side thereof, the arrangement being such that, with the bimetallic actuator mounted so as in its cold condition to have its concave surface facing a surface whose temperature is to be monitored, said second part biases the circumference of the bimetallic actuator into contact with said surface whereby, when the bimetallic actuator changes to its oppositely dished state in response to a rise in the temperature of said surface, said one side of the bimetallic actuator will be biassed by said second part of said spring metal component towards said surface with the opposite side of the bimetal rising above said surface.
  • the first part of the spring metal component serves to locate the bimetallic disc relative to the second part of the spring metal mounting component and could in principle simply be a plain metal finger engaged with the opening in the bimetal. With such an arrangement, however, there would be nothing to stop the bimetallic disc from detaching from the spring metal mounting component before assembly of the whole with respect to a surface whose temperature was to be controlled, a heating element surface for example.
  • the first part of the spring metal component is preferably hooked at its free end so as to hold the bimetallic disc in place. This has the added advantage that when the bimetallic disc switches to its oppositely dished configuration, the hooked part is between the bimetal and the heated surface and acts as a fulcrum so increasing the movement available from the actuator.
  • a steam control can be part of the control, the steam control, as in the Strix Limited U18 control, comprising a further bimetallic element coupled to an overcentre yoke mechanism arranged to operate the set of switching contacts associated with the or each heating element overtemperature protection bimetal. Where two or more such bimetals are provided, it is preferred that one set of switching contacts associated with a respective one of the bimetals is operated by the steam control mechanism before the other. By virtue of this arrangement, the neutral side of the power supply to an appliance heating element can be switched out before the line side is switched.
  • the embodiment of the invention illustrated therein is an integrated heating element overtemperature control (otherwise known as a dry boil control) and 360° appliance power input connector.
  • the embodiment is intended to be used with a cordless appliance, particularly a cordless electric kettle or hot water jug, and serves as a power input connector for the appliance proper, taking its power from a complementary 360° power output connector provided on a power base of the cordless appliance, and as a control for switching off the supply of power to the appliance heating element in a sensed heating element overtemperature condition caused, for example, by switching on the appliance without first filling it with water.
  • the embodiment comprises a plastics material body moulding 1 having on one side thereof, the side shown uppermost in Figure 1, mounting for first and second bimetallic switch-actuating elements 2 and 3 and on the other side thereof a 360° power input connector 4, the bimetallic elements 2 and 3 being symmetrically arranged one on each side of the power input connector 4.
  • each of the bimetallic elements 2 and 3 has associated therewith a set of switch contacts comprising a fixed contact 5 and a movable contact 6 which is mounted at one end of a leaf spring 7.
  • a pivotally-mounted trip lever 8 is associated with each of the bimetallic elements 2 and 3 and at one end the trip lever 8 has an integrally-formed push-rod 9 which serves to transmit switch-operating movement of the respective one of the bimetallic elements 2 and 3 to the respective leaf spring 7 for determining the condition, open or closed, of the respective switch contacts 5,6.
  • the leaf springs 7 extend, within the control, from the locations of the bimetallic elements 2 and 3 and their associated switch contacts 5,6 to the 360° power input connector 4.
  • the power input connector 4 has inner and outer cylindrical walls 10 and 11 defining a central chamber 12 and a surrounding annular passageway 13.
  • One of the leaf springs 7 extends, as shown, within a first recess 14 in the inner wall 10 and has adjacent to its lower (as viewed in Figure 4) end a contact 15 which projects into the central chamber 12, and the other of the leaf springs 7 similarly extends within a second recess 16 in the inner wall 10 and has adjacent to its lower end a contact 17 which projects into the annular passageway 13.
  • the complementary 360° power base output connector is not shown in any of the accompanying drawings, but it will be readily understood that it is substantially as described in our British Patent Application No 2 285 716 and has a central cylindrical part which is adapted to fit into the central chamber 12 of the power input connector 4 abovedescribed and a surrounding, spaced-apart annular cylindrical part which is adapted to fit into the annular passageway 13, the central cylindrical part carrying on its external surface a ring contact adapted for contacting the contact 15 and the surrounding annular cylindrical part carrying on its internal surface a ring contact adapted for contacting the contact 17.
  • control power input connector 4 further includes a central earth pin 18 which is mounted to a metal mounting plate 19 of the control and the central cylindrical part abovementioned of the power output connector has an accommodating central recess with contacts adapted to make electrical contact with the earth pin 18.
  • each of the springs 20 is arranged to provide a latching function whereby, when a respective one of the bimetallic elements 2,3 responds to a heating element overtemperature condition by depressing the push-rod 9 of its associated pivotally-mounted trip lever 8, the respective spring 20 moves to a position where it prevents the trip-lever 8 from resetting.
  • Figure 1 shows the rest condition of the control, namely the condition that it would adopt with the appliance proper not subject to any heating element overtemperature situation and removed from its power base.
  • the spring wires 20 are associated with the adjacent corners of the generally-rectangular extension parts 22 of the trip-levers 8; as can be seen, the wires 20 bend around and are spaced apart from the abovementioned comers of the trip levers 8.
  • the power base output connector When the appliance proper is set down onto its power base, the power base output connector enters into the annular passageway 13 of the power input connector 4 where it encounters a pivotally-mounted cam member 23 (see Figure 5), the head portion 24 of which can be seen in Figures 1, 2 and 3.
  • the cam member 23 is coupled to the spring wires 20 by virtue of the wires being bent around upstands 25 formed on the head portion 24 of the cam member.
  • the action of the power base output connector on the cam member 23 causes the upstands 25 to be pulled back, pulling the wires 20 with them and bringing the bent parts of the wires 20 into contact with the abovementioned corners of the trip-lever parts 22. In this condition, the wires 20 are urged inwardly towards each other by the edges of the corner parts of the trip lever parts 22. This is shown in Figure 2.
  • the bimetallic elements 2 and 3 are not of the commonly-used type comprising a dished disc having a C-shaped or U-shaped cut-out defining a released tongue which serves, as in WO95/34187 aforementioned, for mounting of the elements. Rather, and as described more fully hereinafter, the bimetallic elements 2 and 3 in the described embodiment are dished discs which are slightly frustoconical, as is indicated by the inner circles 30 shown in Figures 1, 2 and 3, and which in their cold condition have their concave surface facing upwards (as viewed in Figures 1, 2 and 3).
  • a small aperture 31 is formed centrally and receives a mounting finger at one end of a mounting spring 32 (see Figure 4), the other end of which is captured in a formation provided in the moulded body part 1.
  • the mounting springs provide a degree of compliance to ensure correct positioning of the bimetallic elements with one point of their periphery in contact with the undersurface of a heating element so that, when the bimetallic elements snap to their oppositely dished configuration in response to a heating element overtemperature condition, the diametrically opposite points of their peripheries drive the push rods 9 to operate their associated switch contacts 5,6.
  • this arrangement provides double the amount of bimetal movement for operating the push rods than would be available with a more conventional bimetal mounting arrangement.
  • the terminal strips 35 provide spade terminals 36 for connection by means of electrical conductors to the terminations of sheathed underfloor heating elements, for example, and, for use of the control with a thick film heating element, provide for the connection thereto of spring terminals 37 for contacting terminal pads provided on the underside of the heating element.
  • the control as illustrated in Figures 1, 2 and 3 does not have an associated steam control adapted to cause the supply of power to the heating element of an associated vessel to be switched off in response to the generation of steam when the vessel contents are boiled.
  • Figure 5 shows a modification which does incorporate such a steam control as an integral part of the overall control.
  • the steam control could alternatively be a separate component arranged to be detachably connected to the dry boil control by means of appropriate plug and socket connectors in the manner of our X4 and Z5 controls.
  • the body moulding 1 is formed with an extension 50 which carries a trip-lever 51 mounted by an overcentre arrangement which provides for pivotal movement of the trip lever between two stable positions.
  • the trip lever 51 and the extension 50 have complementary parts of a pivotal V-shaped bearing and that a compression spring acting between spaced-apart but facing abutments of the trip lever and the extension holds the bearing intact whilst permitting pivotal movement of the trip lever relative to the extension between two extremes, one on each side of the centre line of the overcentre mounting.
  • a snap-acting bimetal 52 for example a simple dished bimetallic disc, provides the impetus for movement of the trip lever between its opposite positions and may be arranged so as in use of the control to be exposed to steam generated when the vessel contents boil, as is well known.
  • the movements of the trip lever 51 are transferred to the leaf springs 7 of the control for determining the condition, open or closed, of the contacts 5, 6 and thereby determining whether or not an associated heating element will be powered.
  • This is accomplished by providing the trip lever 51 with a bifurcated end or yoke 53 having end portions 54 arranged to co-operate with the end portions of leaf springs 7 which extend beyond the contacts 6.
  • the end portions 54 of the yoke 53 act upon the leaf springs 7 so as to open the contact sets 5 and 6.
  • the yoke 53 may be asymmetrically constructed so that one of its end portions opens its associated switch contacts before the other. This facility has importance as regards compliance with official standards.
  • the ends 54 of the trip lever 51 do not interfere with the normal operation of the dry boil bimetallic elements 2 and 3 upon the switch contacts 5 and 6 and their associated leaf springs 7.
  • the trip lever 51 can open the contacts 5 and 6 and may be connected to a manual control serving as an ON/OFF switch, but the dry boil mechanism, that is to say the mechanism whereby the control switches OFF in response to a heating element overtemperature condition, does not act on the trip lever 51 in any way.
  • the mounting spring 1' is shown in side view and is a spring metal strip of approximately 6mm width. It is located to the body moulding of the control at its end 2'. A hook 3' is released from the plane of the mounting spring 1' and the spring extends a leg 4' which acts as a backstop for the snap-acting bimetal disk 5'.
  • the bimetal disk shown in its cold condition in Figure 6, sits on the surface of a planar heating element 6' which is to be protected.
  • the element may be a thick film type, or the surface 6' may be the heat diffusion plate of an underfloor sheathed heating element type.
  • the hook 3' is passed through a central hole 7' in the bimetal disk.
  • the bimetal disk In the cold state, shown in Figure 6, the bimetal disk is mounted with its concave surface facing the element 6'.
  • the hook 3' rests against the element surface and the extended leg 4' presses the bimetal 5' against the surface.
  • the centre of the bimetal is clear of the hook in this case, to ensure that the edges of the bimetal disk remain in contact with the element surface for efficient heat transfer.
  • the backstop leg 4' rests on the bimetallic blade 5'a distance in from the edge of the blade so that sufficient force is applied to the blade to give it a good thermal contact with the element surface.
  • FIG 8 the bimetal 5' is shown in its hot condition, having reversed its curvature.
  • the extended leg 4' exerts sufficient force to ensure that the edge 8' of the bimetal is urged against the element surface.
  • the opposite edge 9' of the bimetal is urged away from the element surface with the hook 3' acting as a fulcrum to gain maximum movement across the diameter of the bimetal.
  • the edge 9' of the bimetal engages the respective pivoted push rod hereinbefore described, causing it to move so that the contacts open and the manual reset latch mechanism engages.
  • the backstop force is maintained well above the force required to open the contacts and operate the manual reset.
  • the bimetal disk 5' is shown as having an almost flat central area surrounded by a frustoconical surface. This is an alternative form of tooling the bimetal, but the described mounting arrangement works equally well with a bimetal disk of spherical form.
  • this mounting method ensures the rim of the bimetal is pressed against the element for more efficient heat transfer, right up to the point of snap.
  • the spring mounting of the bimetal ensures that inaccuracy, deformation and movement of the heating element do not affect the operation of the control, a feature which is well known.
  • a resilient mounting has not previously been applied in such a manner as to give extra movement from a bimetal edge, particularly by providing a fulcrum at the centre of the bimetal disk and restraining the opposite edge.
  • the part 3' of the spring 1' Whilst it is convenient to provide the part 3' of the spring 1' with a hooked end serving as a fulcrum for movement of the switch-operating side 9' of the bimetallic actuator 5', the fulcrum could alternatively be provided as a formation on the surface of the heating element 6', for example.
  • a control in accordance with the present invention could comprise but a single dry boil control mechanism or could comprise more than two dry boil control mechanisms.
  • a different kind of steam control could also be used and, where plural dry boil thermally-responsive switch actuators are provided, one of them could be a fusible element.
  • the bimetals could be arranged to operate all nominally at the same temperature or there could be different temperature bimetals providing primary and secondary levels of protection and, furthermore, not all of the bimetals need be provided with an associated latching mechanism though this is preferred.
  • the embodiment provides an integrated power input connector and heating element overtemperature protection control for a cordless liquid heating appliance, wherein the overtemperature protection control comprises a thermally-responsive switch actuator arranged to determine the condition of a set of switch contacts and a spring latch arrangement is provided for holding the switch contacts in contacts-open condition after operation of said thermally-responsive switch actuator, said spring latch arrangement being such as to be reset by removal of the appliance proper part of said appliance from its power base.
  • the overtemperature protection control comprises a thermally-responsive switch actuator arranged to determine the condition of a set of switch contacts and a spring latch arrangement is provided for holding the switch contacts in contacts-open condition after operation of said thermally-responsive switch actuator, said spring latch arrangement being such as to be reset by removal of the appliance proper part of said appliance from its power base.
  • the thermally responsive switch actuator is arranged to determine the condition of the set of switch contacts by way of an intermediate member movable between first and second positions corresponding to closed and open conditions of said switch contacts, and said spring latch arrangement is arranged to cooperate with said intermediate member.
  • said intermediate member comprises a pivotally-mounted trip lever and said spring latch arrangement is such as to inhibit movement of said trip lever from its contacts-open position back to its contacts-closed position.
  • said spring latch arrangement comprises a spring element arranged to interfere physically with the movement of said trip lever between its contacts-open and contacts-closed conditions.
  • said spring element comprises a wire spring.
  • said power input connector includes a part which is coupled to said spring latch arrangement for determining the operability of the same dependent upon the presence or absence of a power base power output connector in operative relationship with said power input connector.
  • the said part comprises a cam element located within the power input connector so as to be moved when the power output connector is engaged with the power input connector, such movement being transferred to the spring latch arrangement for bringing the same into operable condition and subsequent disengagement of the power input and output connectors enabling the spring latch arrangement to resile to an inoperable condition.
  • the spring element comprises an elongate spring mounted to be movable by said cam element generally in the direction of its elongation, the spring having a portion which is adapted to interfere physically with said trip lever only when the spring latch arrangement is in its operable condition, and the said portion being capable of a limited amount of transverse movement whereby to be capable of movement to inhibit resetting of the trip lever once the trip lever has moved to its contacts-open position.
  • a control as described in any one of the last eight preceding paragraphs comprises a plurality of said thermally-responsive switch actuators arranged in the control so as, in use, to be subject to the temperature of a heating element at different locations thereof.
  • each of said thermally-responsive switch actuators has associated therewith a respective set of switch contacts and spring latch arrangement.
  • the or each said thermally responsive switch actuator comprises a bimetallic element.
  • said bimetallic element comprises a snap-acting, dished, bimetallic disc.
  • said dished bimetallic disc is, to an extent, frustoconical.
  • said bimetallic disc is apertured at its centre and is mounted in the control by means of a spring mounting including a finger engaged with said aperture.
  • control described in any one of the last fourteen preceding paragraphs further comprises a further thermally-responsive switch arrangement adapted for switching off the liquid heating appliance when liquid boils in the appliance.
  • said further thermally-responsive switch arrangement comprises a further thermally-responsive switch actuator arranged to be exposed to hot vapour when liquid boils in the appliance, and means associated with said further thermally-responsive switch actuator for determining the condition of said switch contacts of the heating element overtemperature protection part of the control.
  • the said means comprises a trip lever having an overcentre mounting arrangement whereby the position of the trip lever in the control is determined by the condition of said further thermally-responsive switch actuator, and the trip lever has apart disposed for operating said switch contacts.
  • the trip lever associated with said further thermally-responsive switch actuator is arranged to open the switch contacts associated with one of said overtemperature protection switch actuators before the other.
  • the or each said overtemperature protection switch actuator is provided on one side of the control adapted to be juxtaposed with the underside of the planar heating element, and said power input connector is provided on the opposite side of the control.
  • said power input connector is a 360° connector.
  • control described in any one of the last twenty-one preceding paragraphs may be combined with a planar heating element.
  • planar heating element of the last preceding paragraph may be a thick film heating element.
  • the embodiment also provides a thermally responsive control comprising a thermally-responsive switch actuator, means for transferring thermally-induced movement of said switch actuator to a set of switch contacts, and a latch arrangement for holding said movement transferring means in a predetermined condition until it is reset, said latch arrangement comprising spring means biassed towards said movement transferring means and movable upon switch operating movement thereof into a position for inhibiting resetting thereof.

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  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Thermally Actuated Switches (AREA)
  • Cookers (AREA)
EP05017465A 2003-01-16 2003-12-22 Montage für einen tellerförmigen Bimetallauslöser Expired - Fee Related EP1610354B1 (de)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
GB0301007A GB0301007D0 (en) 2003-01-16 2003-01-16 Improvements relating to the control of electric heating elements
GB0301007 2003-01-16
GB0303592 2003-02-17
GB0303592A GB0303592D0 (en) 2003-01-16 2003-02-17 Improvements relating to the control of electric heating elements
EP03786157A EP1586102B1 (de) 2003-01-16 2003-12-22 Verbesserung der steuerung elektrischer heizelemente

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
EP03786157A Division EP1586102B1 (de) 2003-01-16 2003-12-22 Verbesserung der steuerung elektrischer heizelemente

Publications (2)

Publication Number Publication Date
EP1610354A1 true EP1610354A1 (de) 2005-12-28
EP1610354B1 EP1610354B1 (de) 2009-11-11

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EP05017465A Expired - Fee Related EP1610354B1 (de) 2003-01-16 2003-12-22 Montage für einen tellerförmigen Bimetallauslöser

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Publication number Priority date Publication date Assignee Title
CN104299847A (zh) * 2014-10-23 2015-01-21 浙江达威电子有限公司 一种温控器
WO2019162689A1 (en) * 2018-02-23 2019-08-29 Strix Limited Thermally sensitive controls
GB2592869A (en) * 2019-11-01 2021-09-15 Otter Controls Ltd Thermal control

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101859663A (zh) * 2010-06-25 2010-10-13 温州康之健电子科技有限公司 液体电加热器的热敏控制器
GB201211196D0 (en) * 2012-06-25 2012-08-08 Strix Ltd Controls
CN103681102B (zh) * 2012-09-24 2015-09-02 吴颂林 一种电热水壶温控器

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US4414529A (en) * 1980-12-10 1983-11-08 Matsushita Electric Works, Ltd. Thermal switch
EP1211708A2 (de) * 2000-12-04 2002-06-05 Texas Instruments Incorporated Hermetischer Einphasenmotorschutz

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WO1999048331A1 (en) * 1998-03-17 1999-09-23 Strix Limited Thermally sensitive controls
GB2372159B (en) * 1998-04-21 2002-10-16 Otter Controls Ltd Improvements relating to the control of electric heating elements

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Publication number Priority date Publication date Assignee Title
US4414529A (en) * 1980-12-10 1983-11-08 Matsushita Electric Works, Ltd. Thermal switch
EP1211708A2 (de) * 2000-12-04 2002-06-05 Texas Instruments Incorporated Hermetischer Einphasenmotorschutz

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104299847A (zh) * 2014-10-23 2015-01-21 浙江达威电子有限公司 一种温控器
WO2019162689A1 (en) * 2018-02-23 2019-08-29 Strix Limited Thermally sensitive controls
GB2576129A (en) * 2018-02-23 2020-02-12 Strix Ltd Thermally sensitive controls
GB2576129B (en) * 2018-02-23 2020-07-29 Strix Ltd Thermally sensitive controls
EP4046550A1 (de) * 2018-02-23 2022-08-24 Strix Limited Wärmeempfindliche steuerungen
GB2592869A (en) * 2019-11-01 2021-09-15 Otter Controls Ltd Thermal control
GB2592869B (en) * 2019-11-01 2022-03-30 Otter Controls Ltd Thermal control

Also Published As

Publication number Publication date
CN101246790A (zh) 2008-08-20
GB0303592D0 (en) 2003-03-19
CN101246790B (zh) 2012-07-04
DE60330062D1 (de) 2009-12-24
EP1610354B1 (de) 2009-11-11
CN1748278A (zh) 2006-03-15
CN100403473C (zh) 2008-07-16
GB0301007D0 (en) 2003-02-19

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