EP0361988A1 - Ski boot with a heating device - Google Patents

Abstract

The present invention relates to an alpine or cross-country ski boot fitted with a heating device, comprising a heating unit accommodated in the sole of the boot, this heating unit comprising a catalytic burner (3) and a plate for diffusion of the heat positioned in the zone of support of the foot of the wearer of the boot, a source of fuel gas (13) connected to the catalytic burner (3) by means of a reducing valve (15), and a heating control device. <??>This boot is characterised in that the source of fuel gas is constituted by an interchangeable gas cartridge (13) and in that means (12) are provided on the upper (11) or the vamp of the boot to receive and hold in position the interchangeable gas cartridge (13) and connect it to the supply circuit of the catalytic burner (3). <IMAGE>

Description

The present invention relates to an alpine or touring ski boot provided with a heating device.

Ski boots are already known in which are incorporated, in order to improve the comfort of the wearer, heating devices either of the electric type, with heating resistance, or of the liquid or gaseous fuel type, which use in this case a fuel tank and a burner housed in the shoe. Liquid or gaseous fuel heating devices have the advantage, compared to electric devices, of obtaining greater autonomy and ensuring, for a relatively long period of time, the desired comfort temperature at inside of the shoe.

Heating devices using liquid fuel, as described, for example, in patents IT-1,136,269 and FR-A-2,080,146, generally include a rechargeable liquid fuel burner, which is arranged under a diffusion plate heat incorporated into the sole of the shoe so as to extend as close as possible to the foot of the wearer of the shoe. Other heating devices which use a gaseous fuel include a gas tank supplying, through a valve, a catalytic burner, all these elements also being housed entirely in the sole of the shoe. Such gaseous fuel heating devices are described, for example, in the Italian utility model 196850 and in the international patent application WO86 / 05663. These gaseous fuel heaters are of the refillable gas tank type and it is therefore necessary to provide, in the sole of the shoe which contains the tank, an orifice through which the internal gas tank can be connected to a external gas recharge source.

All liquid or gaseous fuel heating devices have the drawback of requiring periodic filling of the fuel tank, which constitutes an inconvenient operation and in particular requires have close to a fuel source to be able to reload the tank when the need arises. It is therefore understandable that this operation of filling the reservoir cannot be carried out conveniently, for example when a skier is in the middle of the mountain and it is particularly cold.

The present invention aims to remedy these drawbacks by providing a shoe provided with a heating device of particularly simple design, with high energy efficiency, long service life and particularly convenient use.

To this end, this alpine or touring ski boot provided with a heating device, comprising a heating assembly housed in the sole of the boot, this heating assembly comprising a catalytic burner and a heat diffusion plate placed in the zone d support of the foot of the shoe wearer, and a source of combustible gas connected to the catalytic burner by means of a pressure reducer, and a heating control device, is characterized in that the source of combustible gas is constituted by an interchangeable gas cartridge and in that means are provided on the upper or the upper of the shoe for receiving and holding the interchangeable gas cartridge in position and connecting it to the supply circuit of the catalytic burner.

• La figure 1 est une vue en élévation schématique, partiellement en coupe, d'une chaussure de ski alpin pourvue d'un dispositif de chauffage suivant l'invention.
• La figure 2 est une vue en coupe faite suivant la ligne II-II de la figure 1.
• La figure 3 est une vue en perspective, prise de l'arrière d'une chaussure de ski alpin du type à entrée arrière.
• La figure 4 est une vue en coupe verticale et longi­tudinale de l'ensemble chauffant logé dans la semelle d'une chaussure suivant l'invention.
• La figure 5 est une vue en coupe verticale et longi­tudinale, à plus grande échelle, d'une forme d'exécution du dispositif de commande du dispositif de chauffage, en posi­tion d'ouverture du robinet d'alimentation en gaz.
• La figure 6 est une vue en perspective du dispositif de commande de de la figure 5.
• La figure 7 est une vue en coupe verticale et longi­tudinale d'une variante d'exécution du dispositif de com­mande du dispositif de chauffage.
• La figure 8 est une vue schématique d'une forme d'exécution d'un dispositif de régulation de la température par pilotage de l'ouverture du gaz.
• Les figures 9,9A et 9B sont desvues schématiques d'une variante d'exécution d'un dispositif de régulation de température, au cours de phases opératoires différentes.
• Les figures 10,10A et 10B sont des vues schématiques d'une autre variante d'exécution d'un dispositif de régula­tion de température, au cours de phases opératoires diffé rentes.
• Les figures 11,12 et 13 sont des vues en coupe ver­ticale et transversale illustrant divers dispositifs de visualisation du fonctionnement du brûleur.
• La figure 14 est une vue en plan du système de com­mande par bilame utilisé dans la forme d'exécution illustrée sur la figure 13.

An embodiment of the present invention will be described below, by way of non-limiting example, with reference to the appended drawing in which:

• Figure 1 is a schematic elevational view, partially in section, of an alpine ski boot provided with a heating device according to the invention.
• Figure 2 is a sectional view taken along line II-II of Figure 1.
• Figure 3 is a perspective view, taken from the rear of an alpine ski boot of the rear entry type.
• Figure 4 is a vertical and longitudinal sectional view of the heating assembly housed in the sole of a shoe according to the invention.
• Figure 5 is a vertical and longitudinal sectional view, on a larger scale, of an embodiment of the control device of the heating device, in the open position of the gas supply valve.
• FIG. 6 is a perspective view of the control device of FIG. 5.
• Figure 7 is a vertical and longitudinal sectional view of an alternative embodiment of the heating device control device.
• FIG. 8 is a schematic view of an embodiment of a device for regulating the temperature by controlling the opening of the gas.
• Figures 9.9A and 9B are schematic views of an alternative embodiment of a temperature control device, during different operating phases.
• Figures 10,10A and 10B are schematic views of another alternative embodiment of a temperature control device, during different operating phases.
• Figures 11, 12 and 13 are views in vertical and transverse section illustrating various devices for visualizing the operation of the burner.
• FIG. 14 is a plan view of the bimetal control system used in the embodiment illustrated in FIG. 13.

The alpine ski boot 1 which is shown diagrammatically in FIGS. 1 to 4, comprises, in its sole 1, a heating assembly 2 which essentially consists of a catalytic burner 3 associated with a heat diffusion plate 4. L heating assembly 2 is housed in a suitably shaped recess which is provided in the upper part of the sole 1 of the shoe, this recess being shaped so that the heat diffusion plate 4 which constitutes the upper part of the assembly heating 2, covers most of it of the foot support area. The burner 3 is fixed to the diffusing plate 4 by any appropriate means, in particular by welding and it is solid with the underside of the plate 4, that is to say that which is opposite to that in contact with the inner sole 5 which needs to be heated. The catalytic burner 3 can be of any known type ensuring the combustion of a gas by catalysis. The burner 3 is connected to a gas supply pipe 7. To the burner 3 is associated an electrode 9 forming part of an ignition device, for example of the piezoelectric type.

Furthermore, the upper 11 of the shoe, which can be made in one or more parts, carries, on its rear wall, a housing 12 intended for receiving and maintaining an interchangeable gas cartridge 13. In this form of non-limiting execution the ski boot is of the rear boot type and its upper 11 consists of two parts, namely a front cuff 11a and a rear cover 11b hinged at the bottom, around a horizontal and transverse axis . The receiver housing 12 for the gas cartridge 13 is provided on the rear face of the rear cover 11b and it advantageously comes from molding with the latter, if the latter is made of molded plastic. The receiving housing 12 is preferably made in the form of a prismatic or cylindrical housing open at its upper end and in which the cartridge 13 can be engaged from top to bottom, with its gas outlet orifice directed downwards. Below the housing 12 is disposed an assembly 15 forming a pressure reducer and a valve to which an ambient air inlet device 16 is connected, to form downstream a gas-air mixture suitable for combustion.

The heating device also comprises an ignition device which comprises, for example, a piezoelectric igniter 17 excited by action on a pusher 18 and which is connected by a conductor 19 to the electrode 9 in order to produce a spark of ignition by means of this electrode.

Preferably the upper external end of the gas cartridge 13 is housed in a movable cap 21 which is slidably engaged in the upper part of the housing 12. As can best be seen in FIG. 2, this cap 21 is in abutment on the one hand on the upper bottom of the gas cartridge 13 and on the other hand on the pusher 18 of the piezoelectric igniter 17.

The lower or internal end of the gas cartridge 13 is supported on a piston 22 slidably mounted in the housing 12 and which is pushed elastically upwards by a compression spring 23 disposed between the piston 22 and the bottom of the housing 12 This piston 22 carries, in its central part, the pressure reducing valve 15 whose outlet is connected to the air intake 16. This air intake 16 is advantageously constituted by a venturi in the axis of which the mixture is injected gaseous exiting the regulator 15, in order to cause the suction of air, by induction, from the outside. The venturi constituting the air intake 16 is connected to the pipe 7 which is flexible, at least in part, so as to be able to follow the angular movement of the rear cover 11b during the opening and closing movement of the latter. The space in which the air intake 16 is housed communicates with the outside by means of one or more openings 24 formed in the wall of the housing 12 containing the cartridge 13. Across each inlet opening d 'air 24 extends a filter element made of any material permeable to air but impermeable to foreign bodies from the environment, in particular to snow.

From the above description it can be seen that switching on the heating device according to the invention is particularly simple. In fact, the wearer of the boot first opens the regulator-tap assembly 15, placing it in a start-up or choke position in which a high flow rate of mixture of combustible gas and air is supplied by the hose. 7 to the burner 3. Then the wearer of the shoe presses on the cap 21 so as to push the gas cartridge 13 towards the bottom of the housing 12, against the spring 23. This movement results in the depression of the pusher 18 and consequently by the emission, by the piezoelectric igniter 17, of an electric pulse transmitted to the electrode 9 which then produces a spark. This spark causes the ignition of the combustible gas in the catalytic burner 3 and the formation of a flame. Due to the specific characteristics of the operation of the catalytic burner 3, this flame then disappears and the burner 3 is brought to a high temperature due to the catalytic combustion of the gas-air mixture supplied to it by the tube 7. The heat produced by the burner 3 is transmitted and distributed by the heat diffusion plate 5, so as to heat the foot of the wearer of the shoe.

In the alternative embodiment of the invention shown in Figure 5 the interchangeable gas cartridge 13 is mounted inside the rear wall of the upper 11 of the shoe which, in this embodiment, consists of 'only one part. Below the cartridge 13 is mounted the valve-regulator assembly 15 to which the pipe 7 supplying the burner 3 of the heating assembly 2 is connected. The heating control device comprises a control button 25 which can slide "vertically""outside the rear wall of the rod 11. In the description which follows, the direction of the rear wall of the rod 11 will be considered to be" vertical ", whereas this wall may in fact be slightly inclined forward. The control button 25 is fixed to a tab 26 extending through a vertical slot 27 formed in the rear wall of the rod 11. The tab 26 constitutes the external extension of the upper horizontal wing of a voluntary unlocking plate 28 C-shaped open rearward, extending vertically. The voluntary unlocking plate 28 carries, at its upper end, a bracket 29 which is fixed to the plate by a vertical wing and whose horizontal wing extends a short distance, in the gas closed position, which is shown on Figure 6, above the pusher upper 18 of the piezoelectric igniter 17 fixed to the rod 11. The lower horizontal wing of the voluntary unlocking plate 28 is extended downwards by a bar ending in an unlocking ramp 31 which acts on the core upper horizontal 32a of a locking spring 32 in the form of a loop or an inverted U. This locking spring 32 is fixed to the lower part of the upper 11 or to the bottom of the boot shell.

The heating control device also includes a second locking plate 33 which is attached to the voluntary unlocking plate 28 and which has a C shape open towards the rear. The two plates 28 and 33 are coupled to each other by means of guide pins 34 provided on the core of one of the plates, in this case on that of the voluntary unlocking plate 28, which are engaged in slots 35 formed in the core of the other plate 33, these slots 35 being aligned and elongated vertically. The lower horizontal wing of the locking plate 33 is extended downwards by a bar which ends, by a locking hook 36 capable of coming to grip under the core 32a of the locking spring 32. Furthermore, the plate locking 33 carries, at its lower part, a projecting tab 33a which actuates from below, a finger 15a for controlling the valve 15 controlling the opening and closing of this valve, this finger being urged towards its lower opening position by a spring 15b housed in the valve body.

The two plates 28, 33 as well as the piezoelectric igniter 17 are advantageously mounted on a support 37 fixed inside the rod 11 and which has a support shoulder 38 for a return spring 39. This spring of reminder 39 is a compression spring bearing, at its lower end, on the shoulder 38, and, at its upper end, both under the upper horizontal wings of the plates 28 and 33. The spring 39 thus constantly biases the two plates 28.33 upwards and their movement in this direction is limited by the abutment of the lower wings of the plates 28, 33 under the support shoulder 38.

The control button 25 can occupy, in the lumen 27, three different vertical positions, namely an upper extreme position I, corresponding to the closing of the gas supply, an intermediate position II, corresponding to the opening of the supply. in gas, and a lower extreme position III, corresponding to the actuation of the piezoelectric igniter 17, these three positions I, II, III being indicated in phantom in Figure 5. In the upper closed position I the different parts of the heating control device are in the position illustrated in Figure 6. In this case the two plates 28,33, are in the upper extreme position, being pushed back into this position by the return spring 39, their movement upwards being limited by the abutment of their lower wings against the support shoulder 38. In this position the horizontal wing of the bracket 29 is located at short distance above the pusher 18 of the piezoelectric igniter 17. Furthermore, the unlocking ramp 31 and the locking hook 36 are situated a little above the upper horizontal core 32a of the locking spring 32.

When the skier wishes to turn on the heating device, he presses the control button 25 so as to move it down. In this movement the control button 25 drives with it the voluntary unlocking plate 28 of which it is solid and this in turn immediately drives the locking plate 33, because the guide pins 34 which are integral with the plate 28, are in contact with the lower ends of the openings 35 formed in the plate 33. The two plates 28, 33 are thus moved jointly downwards, against the action of the return spring 39. During this movement the locking hook 36 slides along the core 32a of the spring 32 by pushing it back somewhat, after which it comes to be placed under this core for as secure the lock. The unlocking ramp 31 naturally accompanies this movement. At the same time, the tab 33a of the plate 33 releases the control finger 15a from the tap 15 so that this tap opens. Consequently, as soon as the control button 25 reaches the intermediate position II, the valve 15 is open and the gas contained in the interchangeable cartridge 13 can then flow through the pipe 7 towards the burner of the heating assembly.

To cause the ignition of the gas-air mixture, the skier presses the control button 25 fully so as to bring it into its lower extreme position III. During this complementary downward movement, the horizontal wing of the bracket 29 which was then, in the intermediate position II, just in contact with the upper end of the pusher 18, pushes this pusher downwards and causes l actuation of the piezoelectric igniter 17 which emits an electrical pulse giving rise to an ignition spark produced by the electrode 9. During this additional downward movement the unlocking ramp 31 and the hook 36 are moved slightly below the core 32a of the spring 32. When the control button 25 is released, after ignition of the gas, the two plates 28, 33 are pushed up by the spring 39 until the hook 36 come grip under the core 32a of the spring 32. From this moment the two plates 28,33 are immobilized in the intermediate open position II as shown in Figure 5. In this position the p 33a of the locking plate 33 is located just below the control finger 15a of the valve 15 which is itself in its extreme lower position of opening in a lumen of the body of the valve.

When the skier wishes to stop the heating, he pulls the control button 25 upwards to return it to its extreme upper closed position I. During this closing phase, the control button 25 firstly causes the sole voluntary release plate 28 to slide upwards, due to the delivery. fully produced by the guide pins 34 and the slots 35, these pins 34 then moving alone upwards in the slots 35 remaining stationary. Consequently, only the voluntary unlocking plate 28 is moved upwards and its lower unlocking ramp 31, which slides in contact with the upper core 32a of the spring 32, progressively pushes this soul inwards, thereby progressively removing the spring until the locking hook 36 can escape. The slope of the unlocking ramp 31 and its length are chosen such that the escape of the locking hook 36 occurs before the guide pins 34 reach the upper ends of the lights 35. When the locking hook 36 escapes the spring 32, the plate 33 is released and the two plates 28,33 are pushed together upwards, in the closed position, by the spring 39. In this movement the tab 33a of the plate 33 drives with it upwards the control finger 15a of the tap 15, until the latter comes to be placed in the closed position, at the upper end of its guide light.

In the variant embodiment of the invention shown in FIG. 7, the heating control device also includes the two adjoining vertical plates 28, 33, coupled together by means of the guide pins 34 housed in the elongated slots 35 In this case, the lower horizontal wing of the voluntary unlocking plate 38, which extends below the support shoulder 38, is placed just above the upper pusher 18 of the piezoelectric igniter 17. which is fixed to the lower part of the rod 11, below the support shoulder 38. Furthermore the locking plate 33 carries, at its upper end part, a locking pawl 41 which is pivotally mounted on the plate 33, around a horizontal and transverse axis 42. This pawl 41 comprises two branches, namely a short lower branch 41a with which is in contact the upper end of a vertical tab 28a extending the platinum release 28 upwards. The pawl 41 also has a longer upper branch 41b which extends upwards and which can engage under a tooth 43 provided on the internal face of the rear wall of the rod 11. The pawl 41 is resiliently biased in clockwise, by means of a spring 44 hooked respectively, at its two ends, to the plate 33 and to the pawl 41 so that the upper branch 41b of the pawl 41 is pressed constantly against the rear wall of the upper 11 of the shoe.

In the gas closed position, the control button 25 as well as the two plates 28, 33 are in the extreme upper position I and the pawl 41 is retracted, its upper branch 41b extending freely above the tooth of locking 43. Furthermore, the lower wing of the unlocking plate 28 is situated just below the shoulder 38 with which it is in contact, thus being at a distance from the pusher 18 of the piezoelectric igniter 17.

When the skier wants to turn on the heating device, he presses the control button 25 to move it into the intermediate opening position II which is that shown in FIG. 7. During its downward movement, the plate voluntary unlocking 28 which is driven directly by the control button 25, drives with it the unlocking plate 33 and therefore the pawl 41 carried by the latter. At some point the end of the upper branch 41b of the pawl 41 passes below the tooth 43 and then the pawl swings clockwise around the pivot axis 42, under the action of the return spring 44. From this moment the pawl 41 is engaged under the tooth 43 and it opposes any movement of the plate 33 upwards. By continuing to press the control button 25, this causes the voluntary unlocking plate 28 to descend further, which then acts, by its lower wing, on the pusher 18, by repelling the latter and causing the emission of the pulse electric generating the ignition spark. During this additional downward movement the plate 33 follows the plate 28, as in the case previously described. When the skier releases the control button 25, the two plates go up under the action of the return spring 39 and this upward movement is limited by the abutment of the end of the upper branch 41b of the pawl 41, which slides against the inner face of the rod 11, with the locking tooth 43. The two plates 28,33 are then immobilized in the intermediate opening position II which is shown in FIG. 7.

If the skier wants to switch off the heating of the boot, he pulls up on the control button 25 to bring it back to the extreme upper position I. The force exerted upwards on the control button 25 is transmitted to the plate. 28 and the tab 28a of the latter then acts on the small lower branch 41a of the pawl 41, so as to rotate this pawl anticlockwise. As a result of this movement, the upper branch 41b of the pawl escapes from the tooth 43 and the two plates 28, 33 can then go back to the upper extreme position I under the action of the return spring 39.

The shoe heating device according to the invention can advantageously be provided with an automatic temperature regulation device. Non-limiting embodiments of such a temperature control device are illustrated in FIGS. 8, 9 and 10.

The temperature control device shown in Figure 8 has a closed circuit 45 filled with an expandable fluid. This closed circuit 45 comprises, at one end, a bulb 46 located near the heat source constituted in this case by the catalytic burner 3, an intermediate capillary tube 47, and at its other end, a membrane actuator 48. This actuator is fixed to the internal face of the rear wall of the rod 11, near the finger 15a for controlling the opening and closing of the gas supply valve 15. The actuator 48 comprises a housing in which is formed a chamber separated into two parts by a deformable membrane 49. The tube 47 containing the expandable fluid is connected to a working chamber 51 delimited by the deformable membrane 49 and the bottom of the housing. In the other chamber is housed a spring 52 for returning the diaphragm 49. On this side the diaphragm 49 is also extended by a plunger 53 fixed at the center of the diaphragm and exiting outside the actuator housing 48. At its outer end the plunger 53 is in contact with a lower branch 54a, extending downwards, of a lever 54 in the form of a square which is articulated around a horizontal and transverse axis 55. This lever 54 comprises moreover, a horizontal branch 54b extending in the direction of the interior of the boot and which is in contact under the finger 15a for controlling the opening and closing of the valve 15, which is constantly biased downwards by the spring of reminder 15b incorporated in the valve body 15.

From the above description it can be seen that consequently, when the temperature of the bulb 46 and consequently that of the fluid contained in the closed circuit 45 reach a predetermined threshold value, the expansion of the fluid inside the closed circuit 45 causes an expansion of the volume of the working chamber 51 by displacement of the membrane 49 to the left in FIG. 8. Due to this displacement, the pusher 53 pivots the lever 54 clockwise so well that the upper horizontal branch 54b of this lever 54 pushes the finger 15a upwards, causing the valve 15 to close and the gas supply to the burner 3 to be cut off. When the temperature drops again, the fluid contained in the closed circuit 45 and in particular in the bulb 46 contracts, the membrane 49 and the pusher 53 move to the right and the return spring 15b causes the control finger to return 15a of the tap 15 in the lower open position. The burner 3 is then again supplied in gas and catalytic combustion can resume, the residual heat of the plate being sufficient to re-ignite said combustion.

In the variant embodiment of the invention shown in FIGS. 9.9A and 9B, the plunger 53 of the membrane actuator 48 carries, outside the housing of this actuator, two radially opposite radial fingers 56, 57. In the stopping or closing position of the gas which is shown in FIG. 9, the finger 56 keeps immobilized, between this finger 56 and the wall of the actuator housing 48, a horizontal wing 58a of a control fork 58 comprising a vertical wing 58b extending upwards. This vertical wing 58b is pierced with an opening through which extends the straight branch of a lever 59 articulated around a horizontal axis 60 perpendicular to the plane of the drawing sheet. The left arm of the lever 59 extends above the outer end of the plunger 53, at a distance therefrom. The end of the right arm of the lever 59 is connected to a vertical control slide 61 which is urged upwards by a return spring 62 and which can be applied to a seat 63 located below it, which constitutes the orifice of a gas inlet duct 64. The seat 63 is interposed on the gas flow path from the inlet duct 64 to the burner 3. Furthermore, the regulating device shown in FIG. 9 includes a gas opening control cam 65, returned to the horizontal position by a return spring not shown, which is rotatably mounted about an axis 66, below the radial finger 57 of the plunger 53 extending beyond beyond the housing of the actuator 48, so as to be able to lift this finger 57 and consequently the plunger 53 by manual rotation of the cam 65 in a vertical position.

In the stopped position, as shown in FIG. 9, no pressure is created in the lower working chamber 51, below the membrane 49, because the bulb 46 is not heated by burner 3 then extinguished. The membrane 49 is then pushed down by the spring 52 and the plunger 53 is pulled as far as possible inside the housing of the actuator 48. In this position the plunger 53 keeps the horizontal wing 58a of the control fork 58 trapped between his right finger 56 and the wall of the actuator housing 48. The opening provided in the vertical wing 58b of the fork 58 is located below the pivot axis 60 so that the lever 59 is tilted up and down and from the left to the right. In this position the control slide 61 is pressed against the seat 63 so that the gas supply to the burner 3 is interrupted. In this stop position the cam 65 is elongated in the horizontal direction just below the left finger 57 of the plunger 53.

When the skier wishes to turn on the heating device, he rotates the control cam 65 clockwise around the axis 66, to bring it to the vertical position as shown in the figure 9A. During this rotational movement the cam 65 pushes up the left finger 57, which causes the lifting of the plunger 53 outside the actuator housing 48. During this movement the right finger 56 of the plunger 53 releases the horizontal wing 58a from the fork 58 so that this fork 58 can also move upwards, under the action of the return spring 62 which pushes the control drawer 61 upwards and makes the lever control 59 anticlockwise around the pivot axis 60. The drawer 61 then moves away from the seat 63 so that the gas can flow through this seat and can reach the burner 3 where it is ignited by means of the piezoelectric ignition device as indicated above. In the moderate heating position which is illustrated in FIG. 9A, the membrane 49 extends horizontally, as does the control lever 59 which is then pressed by its left branch against the upper end of the pusher 53.

From this moment the regulating device intervenes to cut off the gas supply when the temperature exceeds a predetermined threshold value. In this case the expansion of the gas contained in the closed circuit 45 is such that the pressure produced in the lower working chamber 51 causes an upward deformation of the membrane 49 as shown in FIG. 9B. The pusher 53 is then pushed further outwards, against the return spring 52 and this vertical upward movement of the pusher 53 causes the control lever 59 to pivot in the clockwise direction around the axis 60. The right arm of this lever 59 then lowers by lowering on the one hand the control fork 58, the horizontal wing 58a of which again comes to bear against the upper wall of the actuator housing 48, and on the other hand the control slide 61 which then closes the seat 63. At this time the gas supply to the burner 3 is cut off.

When the temperature drops below the threshold value, the spring 52 pushes the membrane 49 and the pusher 53 down, the lever 59 is then released and the return spring 62 pushes the drawer 61 upwards, opening the seat 63, to restore the gas supply to the burner 3.

In Figures 10, 10A and 10B is shown an alternative embodiment of the regulating device which uses a bimetallic strip 68 which is anchored at its fixed lower end 68a and which is inclined on one side relative to the vertical, this is that is to say to the left in the drawing, while being in contact, in the stop position shown in FIG. 10, with a closed retaining finger 67a secured to the left end of a horizontal operating rod 67. Furthermore, an actuating cam 65, which can be operated manually, is arranged in the immediate vicinity of the upper part of the bimetallic strip in order to straighten the latter in a rectilinear vertical position. The lower operating rod 67 is mounted with horizontal sliding and its straight end is articulated at the end of the lower branch of a lever 69 articulated around a horizontal axis 71 perpendicular to the plane of the drawing sheet. The upper branch of the lever 69 is connected, at a point along its length, to an upper operating rod 72 mounted with horizontal sliding. The upper branch of the lever 69 is coupled, at its upper end to a piston 73 mounted to slide horizontally in a bore formed in a valve body 74. This piston 73 is constantly biased towards the outside by a return spring 75. The piston 73 carries, on its internal front face, a seal 76 which can close off a valve seat 77 provided at the location of the orifice of a gas inlet duct 78 formed in the body 74, coaxially with the piston 73. In the bore in which this piston 73 slides opens a lateral duct 79 connected to the burner 3.

In the stopped position, as shown in FIG. 10, the bimetallic strip 68 is inclined to the left while being in contact with the finger 67a which is thus pulled to the left. Consequently, the lever 69 maintains the piston 73 against the return spring 75 in its extreme right position in which it applies the seal 76 to the seat 77, thereby blocking the passage of the gas in the direction of the burner 3 which does not is not, therefore, fed.

When the skier wishes to turn on the heating device, he manually rotates the cam 65 by 90 ^o so as to bring it into the horizontal position shown in FIG. 10A. The cam 65 is rotated in the horizontal position just for the period of time necessary for ignition, after which it is returned to the vertical rest position by a suitable return spring, not shown. In the horizontal position the cam 65 pushes the bimetallic strip 68 relative to its rest position, to bring it into a vertical rectilinear position. The bimetallic strip 68 then releases the retaining finger 67a, and consequently the lower operating rod 67 and the lever 69. This results in a pivoting, under the action of the spring 75, of the lever 69 in the counterclockwise direction d 'a watch so that its upper branch moves to the left. Of this fact the piston 73 is pulled outwards, its seal 76 moves away from the seat 77 and a communication is established between the gas inlet pipe 78 and the pipe 79 connected to the burner 3. This burner is then supplied with gas which is ignited by means of the piezoelectric igniter as previously described.

FIG. 10B illustrates the regulation operation. During heating by the burner 3, the bimetallic strip 68 gradually deforms and tilts more and more to the right. When the temperature reaches a predetermined threshold value, the deformation of the bimetallic strip 68 is sufficient for it to push, by its upper part, the upper operating rod 72 to the right. This rod then causes the lever 69 to pivot clockwise, so that the piston 73 is pushed to the right in the bore of the body 74 until its seal 76 comes to close the seat 77 From this moment the gas supply is cut off and the burner 3 goes out.

When the temperature drops, the bimetallic strip 68 deforms in the direction of its vertical position, it then releases the operating rod 72 and the piston 73 can be pushed outwards, under the action of the return spring 75, in then re-establishing communication between the conduits 78 and 79 and the gas supply to the burner 3.

The temperature control device, which has been described with reference to FIGS. 10, 10A and 10B, has the advantage of ensuring an automatic cut-off of the gas supply in the event of a combustion stop. In fact, if the burner 3 goes out, the bimetallic strip 5 cools and it deforms to return to occupy its rest position illustrated in FIG. 10. This is made possible by the fact that the cam 65 has moved to the horizontal position only to cause the initial opening of the gas supply circuit and that it then returns to the vertical position, as shown in FIG. 10B. During the return movement of the bimetallic strip 68 in the rest position, it comes into contact with the retaining finger 67a and then it drives this finger and the lower operating rod 67 to the left. This then causes the lever 69 to pivot clockwise and consequently to close the valve seat 77 by the piston 73.

We will now describe, with reference to FIGS. 11 to 14, various embodiments of devices for visualizing the operation of the burner 3.

The display device shown in FIG. 11 comprises an optical sensor 81 which is arranged next to the burner 3, and which is connected, by an optical fiber 82, to an observation point 83 which is provided on the top of the part anterior of the bottom of the boot shell as shown in FIG. 1 and which constitutes a luminous point due to the incandescence of the gas at the location of the burner. The skier can thus easily check that the burner 3 is indeed in operation.

In the variant embodiment of the invention shown in FIG. 12, the display device comprises, in the immediate vicinity of the burner 3, a bulb 84 which is connected, by a capillary tube 85, to an indicator device 86 provided on the part anterior and superior of the bottom of hull. The bulb 84 and the capillary tube 85 contain an expandable fluid and the expansion of this fluid, when the temperature of the burner 3 is high, causes the displacement of a movable index 86a in front of a window 86b of the indicating device 86.

In the alternative embodiment of the invention shown in Figures 13 and 14 the display device comprises a bimetallic strip 87 extending near the burner 3 so as to be able to be heated by the latter. This bimetal rests on one end of a branch of a lever with two branches 88 articulated around an axis 89 and the other branch of which is connected to one end of a flexible cable 91. This cable can slide in a sheath 92 which extends to an indicating device 93 placed on the upper and anterior part of the shell bottom. In this device indicator the other end of the cable 91 is attached to a mobile indicator 94 which can move in front of a window 93a of the housing of the indicator device 93.

Claims (28)

1.- Alpine or touring ski boot provided with a heating device, comprising a heating assembly housed in the sole of the boot, this heating assembly comprising a catalytic burner (3) and a heat diffusion plate placed in the support zone of the foot of the shoe wearer a source of combustible gas (13) connected to the catalytic burner (3) by means of a pressure reducer (15), and a heating control device, characterized in that that the source of combustible gas is constituted by an interchangeable gas cartridge (13) and in that means (12) are provided on the upper (11) or the upper of the shoe for receiving and maintaining the interchangeable gas cartridge (13) in position and connect it to the catalytic burner supply circuit (3). 2.- Shoe according to claim 1 characterized in that the means for receiving and holding the interchangeable gas cartridge (13) consist of a housing (12) provided on the rear part of the upper (11) of the shoe , outside or inside it. 3. Shoe according to claim 2 characterized in that the receiving housing (12) for the gas cartridge (13) is provided on the rear face of a rear cover (11b) of the rod (11) which is articulated, at its lower part, around a horizontal and transverse axis. 4.- Shoe according to claim 3 characterized in that the receiver housing (12) comes from molding with the rear cover (11b). 5.- Shoe according to any one of claims 2 to 4 characterized in that the receiving housing (12) is made in the form of a prismatic or cylindrical housing open at its upper end and in which the cartridge (13) is engaged from top to bottom, with its gas outlet opening facing down. 6.- Shoe according to any one of claims 2 to 5 characterized in that below the housing (12) is disposed an assembly (15) forming a regulator and valve to which is connected an ambient air inlet device ( 16), to form downstream a gas-air mixture suitable for combustion. 7.- Shoe according to any one of claims 2 to 6 characterized in that the upper outer end of the gas cartridge (13) is housed in a movable cap (21) which is slidably engaged in the upper part of the housing (12), this cap (21) being supported on the one hand on the upper bottom of the gas cartridge (13) and on the other hand on a pusher (18) of an igniter (17) connected to a ignition electrode (9) arranged in the vicinity of the burner (3). 8.- Shoe according to any one of claims 6 and 7 characterized in that the lower or internal end of the gas cartridge (13) is supported on a piston (22) slidably mounted in the housing (12) and which is pushed elastically upwards by a compression spring (23) arranged between the piston (22) and the bottom of the housing (12), this piston (22) carrying, in its central part, a pressure-reducing valve (15) the outlet of which is connected to the air intake device (16). 9.- Shoe according to claim 8 characterized in that the space in which is housed the air intake device (16) communicates with the outside via one or more vents (24) formed in the wall of the housing (12) containing the cartridge (13) and across each air inlet opening (24) extends a filter element made of a material permeable to air but impermeable to foreign bodies coming from the environment, especially in the snow. 10.- Shoe according to claim 1 characterized in that the interchangeable gas cartridge (13) is mounted inside the rear wall of the upper (11) of the shoe and the heating control device comprises a button control (25) which can slide sen so vertically outside the rear wall of the upper (11) of the shoe, this control button (25) being fixed to a lug (26) extending through a vertical light (27) formed in the wall posterior of the rod (11), and being able to occupy, in the lumen (27), three different vertical positions, namely an upper upper position (I), corresponding to the closing of the gas supply, an intermediate position (II) corresponding to the opening of the gas supply, and an extreme lower position (III), corresponding to the actuation of a piezoelectric igniter (17) connected to an ignition electrode (9) disposed in the vicinity of the burner (3). 11.- Shoe according to claim 10 characterized in that the heating control device comprises, inside the upper (11) of the shoe, a voluntary release plate (28) C-shaped open towards rear, extending substantially vertically, the upper horizontal wing of which extends outside the upper (11) of the shoe, by the tab (26) carrying the control button (25), and a plate of lock (33) which is attached to the voluntary unlocking plate (28), has a C shape open towards the rear and extends substantially vertically, the locking plate (33) carries an actuating member (33a) a control finger (15a) of a gas supply tap (15), as well as locking means (36,41) cooperating with hooking means (32,43) provided on the rod ( 11) of the boot to maintain the gas supply valve (15) in the open position, and the two plates (28,33) is pushed up by a spring (39) and they are coupled to each other by means of connecting means (34,35) allowing a vertical movement towards the top, of limited amplitude, of the only voluntary unlocking plate (28) relative to the locking plate (33) remaining fixed. 12.- Shoe according to claim 11 characterized in that the connecting means between the two plates (28,33) are constituted by guide pins (34) provided on the core of one of the plates (28) and which are engaged in slots (35) formed in the core of the other plate (33), these slots (35) being aligned and elongated vertically. 13.- Shoe according to any one of claims 11 and 12 characterized in that the spring (39) of the plates return (28,33) is a compression spring extending between a projection (38) provided on the face inside of the rod (11) and on which bears at the lower end of the spring, and of the upper wings of the two plates (28,33). 14.- Shoe according to claim 13 characterized in that each of the plates (28,33) comprises a lower wing extending under a fixed projection (38) carried by the inner face of the rod (11) and abutting against this projection in the closed position. 15.- Shoe according to any one of claims 11 to 14 characterized in that the member (33a) for actuating the control finger (15a) of the valve (15) for gas supply consists of a tab ( 33a) projecting which actuates the control finger (15a) from below which is biased towards its lower opening position by a spring (15b) housed in the valve body. 16.- Shoe according to any one of claims 11 to 15 characterized in that the two plates (28,33) and the piezoelectric igniter (17) are mounted on a support (37) fixed inside of the rod (11) and which has the projection (38) constituting a support shoulder for the return spring (39). 17.- Shoe according to any one of claims 11 to 16 characterized in that the locking plate (33) is integral, at its lower end, with a locking hook (36) capable of coming to grip under the 'upper horizontal core (32a) of a locking spring (32) in the form of a loop or inverted U, which is fixed to the lower part of the upper (11) or to the bottom of the shoe shell, and the plate voluntary release (28) carries, at its lower end, a ramp of unlocking (31) whose shape is such that, during a movement of the voluntary unlocking plate (28) downwards, this unlocking ramp (31) pushes the core (32a) of the spring (32) to allow the locking hook (36) of the locking plate (33) to disengage from the soul of the locking spring (32). 18.- Shoe according to claim 17 characterized in that the voluntary unlocking plate (28) carries, at its upper end, a bracket (29) which is fixed to the plate by a vertical wing and whose horizontal wing s' extends at a short distance, in the closed gas position, above the upper pusher (18) of the piezoelectric igniter (17) fixed to the rod (11). 19.- Shoe according to any one of claims 11 to 16 characterized in that the lower horizontal wing of the voluntary release plate (28), which extends below the projection (38), is placed just at above the upper pusher (18) of the piezoelectric igniter (17) which is fixed to the lower part of the rod (11), below the support projection (38), and the locking plate ( 33) carries, at its upper end, a locking pawl (41) which is pivotally mounted on the plate (33), around a horizontal and transverse axis (42), this pawl (41) comprising two branches, namely a lower branch (41a) with which is in contact the upper end of a tab (28a) extending the unlocking plate (28) upwards, and an upper branch (41b) which extends upwards and which can be engaged under a tooth (43) provided on the internal face of the rear wall of the rod (11), the pawl (41) being resiliently biased by means of a spring (44) hooked respectively, at its two ends, to the plate (33) and to the pawl (41) so that the upper branch (41b) of the pawl (41 ) is pressed constantly against the rear wall of the upper (11) of the shoe. 20.- Shoe according to any one of the preceding claims, characterized in that it comprises an automatic temperature regulation device. 21.- Shoe according to claim 20 characterized in that the temperature control device comprises a closed circuit (45) filled with an expandable fluid, this closed circuit (45) comprising, at one end, a bulb (46) located near the catalytic burner (3), an intermediate connecting capillary tube (47), and at its other end, a membrane actuator (48), this actuator (48) comprising a housing in which is formed a chamber separated in two part by a deformable membrane (49), the tube (47) containing the expandable fluid being connected to a working chamber (51) delimited by the deformable membrane (49) and the bottom of the housing while in the other chamber is housed a spring (52) for returning the diaphragm (49) as well as a plunger (53) fixed to the diaphragm and emerging outside the actuator housing (48), and a device (54,56-60 ) of connection between the plunger (53) and a movable member (15a, 61) controlling the gas supply. 22.- Shoe according to claim 21 characterized in that the actuator is fixed near a finger (15a) for opening and closing control of a gas supply valve (15) and at its end external the plunger (53) is in contact with a first branch (54a), of a lever (54) which is articulated around an axis (55) which comprises a second branch (54b) extending in the direction of the inside the shoe and which is in contact with the finger (15a) for controlling the opening and closing of the tap (15), which is constantly biased towards the opening position by a return spring (15b) incorporated in the valve body (15). 23.- Shoe according to claim 21 characterized in that the plunger (53) of the diaphragm actuator (48) carries, outside the housing of this actuator, two fingers (56,57) including a first finger ( 56), in the gas stop or close position, keeps immobilized, between this finger (56) and the wall of the actuator housing (48), a horizontal wing (58a) of a control fork (58) comprising a vertical wing (58b) extending upward and which is pierced with an opening through which extends a first branch of a lever (59 ) articulated around a horizontal axis (60) and the other branch of which extends above the external end of the plunger (53), at a distance therefrom, the end of the first branch of the lever (59) is connected to a vertical control drawer (61) which is urged upwards by a return spring (62) and which can be applied to a seat (63) located below it, which constitutes the orifice a gas inlet pipe (64) which is interposed on the gas flow path from the inlet pipe (64) to the burner (3), and the regulating device comprises a cam gas opening control (65), returned to the rest position by a return spring, which is rotatably mounted about an axis (66), below of the second finger (57) of the plunger (53) extending beyond the actuator housing (48), so as to be able to raise this finger (57) and therefore the plunger (53) by manual rotation of the cam (65) in vertical position. 24.- Shoe according to claim 20 characterized in that the temperature control device comprises a bimetallic strip (68) which is anchored at its fixed lower end (68a) and which is inclined on one side relative to the vertical, in being in contact, in the stopped position, with a closed retaining finger (67a) secured to a first end of a horizontal operating rod (67), an actuating cam (65), manually operable, which is placed in the immediate vicinity of the upper part of the bimetallic strip (68) in order to be able to straighten it in a rectilinear vertical position, the lower operating rod (67) is mounted to slide horizontally and its second end is articulated at the end of the lower branch of a lever (69) articulated around a horizontal axis (71) and the upper branch of which is connected, at a point along its length, to an upper operating rod (72) mounted to slide h horizontal, facing the part upper bimetallic strip (68) the upper branch of the lever (69) is coupled to a piston (73) mounted with horizontal sliding in a bore formed in a valve body (74) and into which opens a lateral duct (79) connected to the burner (3), the piston (73) being constantly biased towards the outside by a return spring (75), and carrying, on its internal front face, a seal (76) capable of closing a valve seat (77) provided at the location of the orifice of a gas inlet duct (78) formed in the body (74), coaxially with the piston (73). 25.- Shoe according to any one of the preceding claims, characterized in that it comprises a device for displaying the operation of the burner (3) comprising an indicator device (83,86,93) on the front and upper part of the upper or shell of the shoe. 26.- Shoe according to claim 25 characterized in that the display device comprises an optical sensor (81) which is arranged next to the burner (3), and which connected, by an optical fiber (82), to a point d light observation (83). 27.- Shoe according to claim 25 characterized in that the display device comprises, in the immediate vicinity of the burner (3), a bulb (84) which is connected, by a capillary tube (85), to an indicating device (86 ) the bulb (84) and the capillary tube (85) containing an expandable fluid and the expansion of this fluid, when the temperature of the burner (3) is high, causing the displacement of a movable index (86a) in front of a window ( 86b) of the indicating device (86). 28.- Shoe according to claim 25 characterized in that the display device comprises a bimetallic strip (87) extending near the burner (3) so as to be able to be heated by the latter, this bimetallic strip bearing on one end of '' one branch of a lever with two branches (88) articulated around an axis (89) and the other branch of which is connected to one end of a flexible cable (91) sliding in a sheath (92) which s 'extends to a dis positive indicator (93) in which the other end of the cable (91) is attached to a moving indicator (94) which can move in front of a window (93a) of the housing of the indicating device (93).

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