FR3013417A1 - COLD BODY THERMOSTATIC MIXER TAP - Google Patents

Abstract

Mixer tap comprising an elongated body (1) of generally cylindrical shape, which comprises, towards one of its ends, a hot water inlet (2) and, towards its other end, a cold water inlet (3) and a control member (6) of the mixed water temperature, as well as a mixed water outlet (4) disposed rather towards the cold water inlet (3), said control member (6) of the temperature cooperating in known manner with a mitigating cartridge (7). This tap has, next to the hot water inlet (2), a valve head (5a) for opening and regulating the flow of hot water; the mitigating cartridge (7) comprises, towards its end opposite to the temperature control member (6), radial channels (9) in which the cold water flows and which give access to an internal groove of which the one of the faces constitutes the cold water seat (10) of the mixer tap; and the body (1) axially contains a narrow channel (13) of insulating material, one end of which is in relation to the valve head (5a) and the other end (14) of which is flared to enclose the bottom (15). ) of the mitigating cartridge (7) which bottom (15) has, at its periphery, radial orifices (16) through which the hot water of the channel (13) flows and accesses a groove located inside of the bottom (15), one of the faces of this groove being the hot water seat, between the radial channels (9) and the radial orifices (16), a first seal being placed on the outer wall of the cartridge (7) in contact with the inner wall of the flared end (14) of the channel (13) such that the hot water is forced to flow through the radial openings (16). Application in the field of faucets.

Description

The present invention relates to a thermostatic mixing valve cold body and without non-return valve for dispensing water including sanitary facilities such as shower, sink, sink. The thermostatic mixing valves have the advantage of guaranteeing a stability of the temperature of the delivered water despite fluctuations in the pressure of hot and cold water and variations in flow rate: they thus provide comfort and safety against scalding in particular . Most thermostatic mixing valves for domestic use have a faucet water outlet side mixed to open and then close the flow of water, which requires to have the check valves to the hot and cold water inlets for 10 avoid hot water / cold water intercommunication when the mixed water tap is closed. Thus, in document US Pat. No. 4,669,653 - A, a mixing valve is provided comprising check valves for cold water and hot water inlets. Similarly, the document FR-2 356 068 relates to a mixing valve provided with 15 non-return valves, but whose structure is such that a large volume of water is stagnant: this can only promote bacterial proliferation. In addition, according to this document, the mixed water circulates against the outer wall of the mixing valve, which, therefore, may be raised to the same temperature as the mixed water. To guarantee the closure of the check valves, it is necessary to have a filter upstream of the inflow of cold water and hot water so as to retain the solid particles brought by the water such as grains of sand, pieces limestone, sealing tape, metal particles, etc. In hospital facilities, hygienists prefer to avoid the installation of filters, because they make it more difficult to disinfect the networks. It is also an object of the present invention to provide a thermostatic mixing valve which obviates the disadvantages mentioned above. Another object of the present invention is to provide such a thermostatic mixer of simple construction by avoiding the presence of complex shaped cavities in which water can stagnate, thereby promoting bacterial proliferation. These goals, as well as others that will appear thereafter, are achieved by a thermostatic mixing valve comprising an elongate body of generally cylindrical shape, which comprises, towards one of its ends, a hot water inlet, and to its other end, a cold water inlet and a controller for the temperature of the mixed water, and a mixed water outlet arranged rather towards the inlet of cold water, this temperature control member cooperating in known manner with a mitigating cartridge, which mixing valve is, according to the present invention, characterized in that it comprises, next to the arrival of hot water, a valve head for opening and adjust the flow of hot water, that this mitigating cartridge comprises, towards its end opposite the temperature control member, radial channels in which the cold water flows and which give access to an internal groove which one of The faces constitute the cold water seat of the mixing valve, and this body axially contains a narrow channel made of an insulating material, one end of which is in relation with the valve head and the other end of which is flared to enclose the bottom of the valve. mitigating cartridge, the bottom of this mitigating cartridge having, at its periphery, radial orifices through which the hot water of the channel flows and accesses a groove located inside the bottom of this cartridge, one faces of this groove being the hot water seat, a first seal being disposed between the radial channels and the radial orifices on the outer wall of the cartridge in contact with the inner wall of the flared end of the channel so that that the hot water is forced to flow through the radial orifices. Advantageously, a second seal is disposed between the valve body and the flared end of the channel surrounding the mitigating cartridge. Preferably, the mitigating cartridge comprises a shuttle inside which is located a wax capsule and which has joints facing the hot and cold water seats, the hot and cold water mix with the Heart of the shuttle around the wax cell, then, the mixed water passing through radial orifices arranged in the wall of the cartridge to gain the water outlet. Advantageously, the mixing valve comprises a ring which is arranged between the body of the mixer and the outer wall of the cartridge facing the mixed water outlet, and which comprises peripheral channels for passing cold water and a channel radial for passing the mixed water, a sleeve being screwed into the mixed water outlet and penetrating into the radial channel to immobilize the ring. Preferably, two seals are arranged between the mitigating cartridge and the ring, on the one hand, and a seal between the ring and the screwed socket, on the other hand. Advantageously, the hot water inlet comprises a heat insulating sleeve in relation to a hollow body which is made of an insulating material and which receives the valve head, this insulating hollow body being made prisoner in the body of the mixer. by a threaded support nut which cooperates with a tapping in this body.

Preferably, a bore is formed in the bearing nut for the housing of the ceramic head which is threaded in said nut. The following description, which is not limiting in nature, should be read with reference to the appended figures, in which: FIG. 1 is a sectional view of a thermostatic mixing valve according to the present invention; and FIG. 2 is a view on a larger scale of part A of FIG.

As can be seen in these figures, a thermostatic mixing valve according to the present invention comprises an elongate body 1 which comprises, towards one of its ends, a hot water inlet 2 and, towards its other end, an inlet of cold water 3, and a mixed water outlet 4 disposed rather towards the cold water inlet 3. The elongated body 1 is of generally cylindrical shape, the inflow of hot water 2 and cold water 3 are substantially on the same generator and the mixed water outlet 4 on a generatrix substantially diametrically opposed to the previous one. But, if necessary, this mixed water outlet 4 may be in orthogonal position relative to the generatrix of hot water inflow 2 and cold water 3.

The mixer tap has, at its end located towards the hot water inlet 2, a handle 5 cooperating with a valve head 5a to open and regulate the flow of hot water, and at its other end, located on the side the inlet of cold water, a control member 6 of the mixed water temperature. This control member 6 of the temperature cooperates in known manner with a mitigating cartridge 7: the cold water admitted by the cold water inlet 3 flows between the mitigating cartridge 7 and the inside wall 8 of the body 1 of the mixer tap. The mitigating cartridge 7 has, towards its end opposite to the temperature control member 6, radial channels 9 into which the cold water flows and which gives access to an internal groove, one of the faces 30 is the cold water seat 10 of the mixer tap. The hot water inlet 2 comprises a heat insulating sleeve 11 which is located in the connection nut. This sleeve 11 penetrates, according to the present embodiment, perpendicularly into a hollow body 12 made of an insulating material. This hollow body 12 receives the valve head 5a, preferably 35 ceramic disks, and is made prisoner of the body 1 of the mixer tap by a threaded support nut 30 which cooperates with a tapping in this body 1. A bore is formed in the bearing nut 30 for the housing of the valve head 5a which is threaded in this bearing nut 30. The hollow body 12 is extended by a narrow channel 13 disposed axially in the body 1, look of the faucet head 5a. Thus, the hot water arriving through the bushing 11 enters the hollow body 12 where the valve head 5a is located. When this valve head 5a is open, the hot water enters the channel 13. The other end 14 of the channel 13 is flared to wrap the bottom 15 of the mitigating cartridge 7. The bottom 15 of the mitigating cartridge 7 comprises, at its periphery, radial orifices 16 through which the hot water of the channel 13 flows and accesses a groove located inside the bottom 15 of this cartridge, one of the faces of this groove being the hot water seat 17. Between the radial channels 9 and the radial orifices 16, a first seal 18 is disposed on the outer wall of the cartridge 7 in contact with the inner wall of the flared end 14 of the channel 13 so that the hot water is forced to flow through the radial orifices 16. A second seal 19 is disposed between the body 1 of the valve and the flared end 14 of the channel 13 surrounding the mitigating cartridge 7: thus the cold water does not can it invade the space around the hollow body 12 In known manner, the mitigating cartridge 7 comprises a shuttle 20 inside which is located a wax capsule 21 and which has seals facing the hot water seats 17 and cold water 10. The hot water and the Cold water mixes in the heart of the shuttle 20 around the wax cell 21. Then, the mixed water passes through radial orifices 22 arranged in the wall of the cartridge 7 to gain the water outlet 4. Advantageously, the mixing valve comprises a ring 23 which is disposed between the body 1 of the mixer and the outer wall of the cartridge 7 facing the mixed water outlet 4; this ring has peripheral channels 24 for passing cold water and a radial channel 25 for passing the mixed water. A bushing 26 is screwed into the mixed water outlet and enters this radial channel 25 to immobilize the ring 23. Two seals 27, 27bis are arranged between the mitigating cartridge 7 and the ring 23, on the one hand, and a seal 28 between the ring 23 and the threaded sleeve 26, on the other hand, to prevent cold water from mixing with the mixed water.

When a user turns the handle 5 to close the hot water inlet, the wax cell 21 retracts and a spring 29 located in the bottom 15 of the cartridge 7 pushes the shuttle 20, which has the effect of closing cold water. A bore is provided in the bearing nut 30 for housing the valve head 5a which is threadably secured therein. It goes without saying that one skilled in the art could easily reverse the arrangement according to the present invention, namely temperature control control hot water side provided that the mitigating system is able to turn off the hot water integrally from the this version has the advantage of favoring a priority opening on cold water. Similarly, it would be possible to arrange the ceramic head facing the hot water inlet, in the extension of the sleeve 11 so that the hot water can emerge laterally through the lateral orifices of the head without it leaving the field of the present invention.

The present invention has the main advantage of not requiring check valves at the hot and cold water inlets, and therefore not requiring a filter. On the other hand, the general arrangement of the mixers is to have the right flow control and the temperature control on the left with a mixed water flow that crosses the flow of cold water which complicates the 20 construction of the mixer, while according to the present invention, it is the hot water flowing from the hot water inlet located conventionally left mixer, to the temperature adjustment mechanism located on the right side This has the advantage of greatly simplifying the construction of the mixer and avoiding complex cavities where stagnant water promotes bacterial proliferation and makes the disinfection programs more difficult or even ineffective.

Claims (7)

REVENDICATIONS1. - Mixer tap comprising an elongated body (1) of generally cylindrical shape, which comprises, towards one of its ends, a hot water inlet (2) and 5 towards its other end, a cold water inlet (3) and a control member (6) for the mixed water temperature, as well as a mixed water outlet (4) disposed rather towards the cold water inlet (3), said control member (6) temperature cooperating in known manner with a mitigating cartridge (7), characterized in that it comprises, next to the hot water inlet (2), a valve head (5a) 10 to open and to regulate the flow of hot water, that said mitigating cartridge (7) has, towards its end opposite to said temperature control member (6), radial channels (9) in which the cold water flows and which give access to an internal groove, one side of which constitutes the cold water seat (10) of the mixer tap, and that said body (1) contains t axially a narrow channel (13) made of an insulating material, one end of which is in relation with the valve head (5a), located on the side of the hot water inlet (2), and the other end (14) is flared to enclose the bottom (15) of said mitigating cartridge (7), which bottom (15) has, at its periphery, radial orifices (16) through which the hot water of the channel (13) s flows and accesses a groove located inside said bottom (15), one of the faces 20 of this groove being the hot water seat (17), between the radial channels (9) and the radial orifices (16) a first seal (18) being disposed on the outer wall of the cartridge (7) in contact with the inner wall of the flared end (14) of the channel (13) so that hot water is forced from the flow through the radial orifices (16). 2. - mixing valve according to claim 1, characterized in that a second seal (19) is disposed between the body (1) of said valve and the flared end (14) of the channel (13) enveloping the cartridge of mitigeage (7). 3. - mixing valve according to one of claims 1 or 2, characterized in that the mitigating cartridge (7) comprises a shuttle (20) inside which is located a wax capsule (21) and has seals next to the 30 seats hot water (17) and cold water (10), hot water and cold water are mixed in the heart of the shuttle (20) around the wax cell (21), then , the mixed water passing through radial orifices (22) arranged in the wall of the cartridge (7) to gain the water outlet (4). 4. - mixing valve according to any one of claims 1 to 3, characterized in that it comprises a ring (23) which is arranged between the body (1) of the mixer and the outer wall of the cartridge (7). ) opposite the mixed water outlet (4), and which comprises peripheral channels (24) for passing cold water and a radial channel (25) for passing the mixed water, a socket (26) being screwed into the mixed water outlet and penetrating into said radial channel (25) to immobilize said ring (23). 5. - mixing valve according to any one of claims 1 to 4, characterized in that two seals (27, 27bis) are arranged between the mitigating cartridge (7) and the ring (23), on the one hand, and a seal (28) between the ring (23) and the screwed socket (26), on the other hand. 6. - mixing valve according to any one of claims 1 to 5, characterized in that the hot water inlet (2) comprises a heat insulating sleeve (11) in relation to a hollow body (12). which is made of an insulating material and which receives the valve head (5a), said hollow body (12) being rendered prisoner in the body (1) of the mixer by a threaded support nut (30) which cooperates with a tapping in this body (1). 7. - mixing valve according to claim 6, characterized in that a bore is formed in the bearing nut (30) for the housing of the ceramic head (5a) which is threaded in said nut.