GB2588993A - Thermally insulated joint of thermostatic faucet - Google Patents

Abstract

A thermally insulated joint of a thermostatic faucet, wherein a hot water inlet of a faucet shell 1 is provided with an internal thread, and a fixing nut, a heat insulation gasket, a fixing joint, a plastic water inlet joint, a check valve and a hot water pipe fixing member are further provided at the hot water inlet. Through a layered design, the incoming hot water having a higher temperature is reasonably spaced apart so that an outward heat transfer effect of the hot water is moderate, and the entire faucet shell will feel warm when touched, (which will neither burn the user nor make the user suddenly feel cold during use, thus greatly improving the feeling of use).

Description

TT TERMAIIN INSULATED JOINT OF THERMOSTATIC FAUCET

The present disclosure relates to the field of sanitary ware, and more particularly, the present disclosure relates to a thermally insulated joint of a thermostatic faucet.

All existing mixed water faucet have an anti-scald design in practical applications.

In order to prevent the operator from unintentionally touching the hot water inlet pipe during use, the designer often adopts a completely isolated design between the hot water inlet pipe and the faucet shell. However, during use in winter, especially in regions with low temperatures, if the operator accidentally touches the faucet shell, the body will obviously feel cold, and the use experience needs to he improved.

An object of the present disclosure is to provide a thermally insulated joint which enables a shell of a thermostatic faucet to have a suitable somatosensory contact temperature during use.

In order to achieve the above object, the present disclosure provides the following solution: a thermally insulated joint of a thermostatic faucet, wherein a faucet shell is made of metal material and has a hollow inner cavity; at least one hot water inlet extends outward from an outer wall of the faucet shell, and the hot water inlet has a screw connection port; at the same time, a plastic water-passing assembly is inserted into the inner cavity of the faucet shell, the plastic water-passing assembly has at least more than one water passages, and a water-passing through hole in communication with the water passages is disposed in an outer wall of the plastic water-passing assembly at a position corresponding to the hot water inlet of the faucet shell; the thermally insulated joint further includes a fixing nut, a heat insulation gasket, a fixing joint and a plastic water inlet joint; the fixing joint is a hollow cylindrical joint made of metal, a front end of which is provided with a screw portion, and a rear end of which is provided with an outward stop rim; the fixing joint is screwed and fixed to the screw connection port of the hot water inlet; the fixing nut is made of metal, and is provided at a bottom thereof with an inward flange; the fixing nut is sleeved over an outer end of the fixing joint, and the stop rim can be supported and limited by the flange; the heat insulation gasket is disposed between the flange of the fixing nut and the fixing joint to ensure that there is no direct abutting contact between the fixing nut and the fixing joint; a plastic water inlet joint passes through the fixing nut and the fixing joint in order until it is sealingly inserted into the water-passing through hole of the plastic water-passing assembly. The thermally insulated joint further includes a water inlet joint which is made of metal and which is provided with a water passage inside, and a faucet screw joint with an external thread is disposed at a front end of the water inlet joint so that the faucet screw joint is screwed into the fixing nut for compressing and fixing the plastic water inlet joint.

After the above solution is adopted, since the hot water flows into the plastic water inlet joint through the water inlet joint and filially flows into the water passages of the plastic water-passing assembly, the heat of the hot water flowing through the plastic water inlet joint cannot be conducted to the fixing joint since the heat transfer efficiency between the plastic material with the metal material is low. The heat of the hot water is mainly transmitted to the fixing nut through the water inlet joint. Since a heat insulation gasket is disposed between the fixing nut and the fixing joint, the heat of the fixing nut can only he inefficient transmitted to the fixing joint and finally to the faucet shell through the fixing joint. Through the effective layered heat design described above, the entire faucet shell will feel warm, which will neither burn the user nor make the user suddenly feel cold during use, thus greatly improving the feeling of use.

FIG. I is a schematic exploded view of an embodiment of the present disclosure; FIG. 2 is a schematic partial cross-sectional view of an embodiment of the present disclosure; FIG. 3 is a schematic structural view of a fixing nut in an embodiment of the

present disclosure;

F1G. 4 is a schematic view of a plastic water inlet joint and a check valve in an embodiment of the present disclosure before assembly; FIG. 5 is a schematic structural view of the plastic water inlet joint and the check valve in the embodiment of the present disclosure when assembled; FIG. 6 is a schematic cross-sectional view of the plastic water inlet oint and the check valve in the embodiment of the present disclosure when assembled; FTG. 7 is a schematic structural view of a heat insulation gasket in an embodiment of the present disclosure; and FIG. 8 is a schematic cross-sectional view of an embodiment of the present

disclosure.

The present disclosure will be described in detail below with reference to the drawings and specific embodiment.

As shown in FTGS. 1-8, a thermally insulated joint of a thermostatic faucet is provided, wherein a faucet shell 1 is made of metal material and has a hollow inner cavity; at least one hot water inlet 2 extends outward from an outer wall of the faucet shell 1, the water inlet 2 has a screw connection port 21 that protrudes outward, and the screw connection port 21 is provided with an internal thread; at the same time, a plastic water-passing assembly 10 is inserted into the inner cavity of the faucet shell 1, the plastic water-passing assembly 10 has two water passages 101 spaced apart and disposed in parallel along the length direction of the faucet shell, and a water-passing through hole 102 is disposed in an outer wall of the plastic water-passing assembly 10 at a position corresponding to the hot water inlet 2 of the faucet shell 1; a fixing nut 3, a C-shaped heat insulation gasket 4, a fixing joint 5, a plastic water inlet joint 6, a check valve 7, a C-shaped circlip 8 and a hot water pipe fixing member 9 are further provided at the hot water inlet 2, wherein the fixing joint 5 is a hollow cylindrical joint made of metal, a front end of which is provided with a screw portion 51, and a rear end of which is provided with an outward stop rim 52; the fixing joint 5 utilizes the screw portion 51 at the front end thereof to be screwed and fixed to the screw connection port 21 of the hot water inlet 2; the fixing nut 3 is made of metal, and is provided at a bottom thereof with an inward flange 31; an inner wall of the fixing nut 3 is provided with a thread 32, and there is redundant space 33 left between the thread 32 and the inward flange 31 at the bottom.

As shown in FIGS. 4-6, an outwardly extending hanging rim 61 is disposed at the top of the plastic water inlet joint 6, and the plastic water inlet joint 6 has a through cavity 62 inside. The through cavity is divided into an upper through cavity 621 and a lower through cavity 622. The inner diameter of the upper through cavity 621 is larger, and the inner diameter of the lower through cavity 622 is smaller. The check valve 7 is placed in the upper through cavity 621, and the check valve 7 is supported by an upper end 623 of the lower through cavity 622.

The plastic water inlet joint 6 passes through the fixing nut 3 and the fixing joint 5 in order until it is inserted into the water-passing through hole 102 of the plastic water-passing assembly 10. A sealing ring 60 is sleeved over an outer wall at the insertion end of the plastic water inlet joint 6. The sealing ring 60 allows the plastic water inlet joint 6 to be inserted into the water-passing through hole 102, and the water flow will not overflow to the outside through a gap between the plastic water inlet joint 6 and the water-passing through hole 102; the plastic water inlet joint 6 is supported by a stop rim 52 of the fixing joint 5 in the fixing nut 3 by using the hanging rim 61. The upper through cavity 621 is provided with a groove 6211 in the inner wall above the check valve 7, and a C-shaped circlip 8 is placed in the groove 6211 to fix the check valve 7 in the upper through cavity 621.

An upward raised rim 63 is further disposed above the plastic water inlet joint 6.

When the plastic water inlet joint 6 is supported by the outward stop rim 52 at the rear end of the fixing joint 5, an annular installation cavity 631 is formed by the raised rim 63 above the outwardly extending hanging rim 61.

The hot water pipe fixing member 9 is composed of a water inlet joint 91 and a joint shell 92 combined together. In the water inlet joint 91, a middle eccentric pipe 911 is connected to a faucet screw joint 912 and a water pipe screw joint 913 respectively at both ends, and the water inlet joint 91 is internally provided with a water passage penetrating the water inlet joint 91. The faucet screw joint 912 is provided with an external thread, and the water pipe screw joint 913 is also provided with an external thread; the joint shell 92 is a flat ring-like body with a perforation 921 at the center. The perforation 921 is provided with an internal thread, and the water pipe screw joint 913 of the water inlet joint 91 passes through the perforation 921 of the joint shell 92; then the joint shell 92 is screwed outside the faucet screw joint 912, and a part of the joint shell 92 encloses the outside of the middle eccentric pipe 911.

The screw portion 51 at the front end of the fixing joint 5 passes through the C-shaped heat insulation gasket 4 and the inward flange 31 at the bottom of the fixing nut 3 in order so that the stop rim 52 is supported and limited by the flange 31; further, the screw portion 51 at the front end passes through a sealing ring 40 and screwed to the screw connection port 21 of the hot water inlet 2 of the faucet shell 1; the redundant space 33 between the thread 32 and the inward flange 31 at the bottom of the fixing nut 3 can be just used to place the C-shaped heat insulation gasket 4 to ensure that the fixing nut 3 and the fixing joint 4 do not directly abut against each other. The C-shaped heat insulation gasket 4 has a L-shaped section, and an end surface of the C-shaped heat insulation gasket 4 on a side close to the inward flange 31 at the bottom of the fixing nut 3 is provided with a plurality of anti-skid grooves 41 which are used to: i) reduce the contact area of the C-shaped heat insulation gasket 4 and the fixing nut 3, and reduce the heat transfer efficiency; and ii) avoid a rotation of the C-shaped heat insulation gasket 4 in the circumferential direction, improve a stable connection between the fixing nut 3 and the fixing joint 5, and improve a stable connection of the C-shaped heat insulation gasket 4.

The plastic water inlet joint 6 and the check valve 7 arc placed into the fixing nut 3 in order, so that the plastic water inlet joint 6 and the check valve 7 are supported by the stop rim 52 at the rear end of the fixing joint 5 in the fixing nut 3; further, the hot water pipe fixing member 9 is screwed into the fixing nut 3 through the faucet screw joint 912 to press the plastic water inlet joint 6 and the check valve 7 tightly; at the same time, the outer wall of the faucet screw joint 912 is tightly surrounded by the fixing nut 3, and a sealing ring 60 is sleeved over the outer periphery of the front end of the plastic water inlet joint 6 to seal the water-passing through hole 102 penetrating the plastic water-passing assembly 10 to achieve the communication of the hot water passages; a screen gasket 601 is provided between the faucet screw joint 912 at the front end of the hot water pipe fixing member 9 and the plastic water inlet joint 6. The screen gasket 601 is just placed in the annular installation cavity 631 and fixed on a water inlet end surface of the plastic water inlet joint 6.

As shown in FlGS. 2 and 8, a hot water pipe A is screwed to the water pipe screw joint 913 of the water inlet joint 91, and hot water flows in from the water pipe screw joint 913, sequentially flows through the middle eccentric pipe 911, the faucet screw joint 912 and the plastic water inlet joint 6, and finally flows into the water passages 101 of the plastic water-passing assembly 10 in the inner cavity of the faucet shell 1. Since the plastic water inlet 6 is made of plastic material, which is not advantageous for heat conduction, the heat of the hot water flowing through the plastic water inlet joint 6 can only he conducted to the fixing joint 5 at a low conversion rate. The heat of the hot water is mainly transmitted to the fixing nut 3 through the faucet screw joint 912 of the water inlet joint 91. Since both the water inlet joint 91 and the fixing nut 3 are metal components, the heat transfer efficiency between the two is relatively high, but when the heat of the fixing nut 3 is to be transmitted to the fixing joint 5, although the two objects are still made of metal, since the heat insulation gasket 4 is added between the fixing nut 3 and the fixing joint 5 so that there is no abutting contact (physical contact) between the fixing nut 3 and the fixing joint 5, the heat of the thing nut 3 can only be transmitted to the fixing joint 5 through the air medium and the heat insulation gasket between the two, causing a great heat loss; the heat finally transmitted to the fixing joint 5 is directly transmitted to the faucet shell 1 again. Since the materials of the fixing joint 5 and the faucet shell 1 arc also metal, although the heat transfer efficiency between the two is high, due to the large heat dissipation area of the whole faucet shell 1, the heat finally transmitted to the faucet shell 1 through the fixing joint 5 is limited; at the same time, a more preferred design is to also provide a heat insulation gasket 13 between a fixing nut 11 and a fixing joint 12 at the cold water pipe B end. The materials and assembly relationships of the above components are the same as those at the hot water pipe A end, and will not be described again. With this arrangement, the heat of the fixing joint 12 at the cold water pipe B end is also alleviated from being easily transmitted to the fixing nut 11; as such, the temperature of the faucet shell 1 can be maintained between 20° and 35°(depending on the temperature of the incoming water heat source of the water inlet joint 9) after the water circulates in the hot water pipe A for a period of time, so that the faucet shell 1 feels warm when touched; even if the user accidentally touches the faucet shell 1 during the shower, he/she will not suddenly feel cold, thus greatly improving the shower experience.

Claims (9)

1. Cairns 1. A thermally insulated joint of a thermostatic faucet, wherein a faucet shell is made of metal material and has a hollow inner cavity; at least one hot water inlet extends outward from an outer wall of the faucet shell, and the hot water inlet has a screw connection port; at the same time, a plastic water-passing assembly is inserted into the inner cavity of the faucet shell, the plastic water-passing assembly has at least more than one water passages, and a water-passing through hole in communication with the water passages is disposed in an outer wall of the plastic water-passing assembly at a position corresponding to the hot water inlet of the faucet shell; characterized in that the thermally insulated joint further comprises a fixing nut, a heat insulation gasket, a fixing joint and a plastic water inlet joint; the fixing joint is a hollow cylindrical joint made of metal, a front end of which is provided with a screw portion, and a rear end of which is provided with an outward stop rim; the fixing joint is screwed and fixed to the screw connection port of the hot water inlet; the fixing nut is made of metal, and is provided at a bottom thereof with an inward flange; the fixing nut is sleeved over an outer end of the fixing joint, and the stop rim can be supported and limited by the flange; the heat insulation gasket is disposed between the flange of the fixing nut and the fixing joint to ensure that there is no direct abutting contact between the fixing nut and the fixing joint; a plastic water inlet joint passes through the fixing nut and the fixing joint in order and is in communication with the water-passing through hole of the plastic water-passing assembly.
2. 2. The thermally insulated joint of a thermostatic faucet according to claim 1, wherein the thermally insulated joint further comprises a water inlet joint which is made of metal and which is provided with a water passage inside, and a faucet screw joint with an external thread is disposed at a front end of the water inlet joint so that the faucet screw joint is screwed into the fixing nut for compressing and fixing the plastic water inlet joint.
3. 3. The thermally insulated joint of a thermostatic faucet according to claim 2, wherein a screen gasket is additionally disposed at a water inlet end of the plastic water inlet joint, and the screen gasket is fitted to and fixed on a water inlet end surface of the plastic water inlet joint by being pushed by the water inlet joint.
4. 4. The then mils/ insulated joint of a thermostatic faucet according to any preceding claim, wherein an inner wall of the fixing nut is provided with a thread, and there is redundant space left between the thread and the inward flange at the bottom; when the fixing nut is sleeved over the outer end of the fixing joint and the stop rim is supported and limited by the flange, the heat insulation gasket is disposed in the redundant space to ensure that there is no direct abutting contact between the fixing nut and the fixing joint.
5. 5. The thermally insulated joint of a thermostatic faucet according to any preceding claim, wherein the heat insulation gasket has a L-shaped longitudinal section, and an end surface of the heat insulation gasket on a side close to the inward flange at the bottom of the fixing nut is provided with a plurality of anti-skid grooves.
6. 6. The thermally insulated joint of a thermostatic faucet according to claim 5, wherein the heat insulation gasket is a C-shaped gasket.
7. 7. The thermally insulated joint of a thermostatic faucet according to any preceding claim, wherein an outwardly extending hanging rim is disposed at the top of the plastic water inlet joint, and the plastic water inlet joint has a through cavity inside; the through cavity is divided into an upper through cavity and a lower through cavity, the inner diameter of the upper through cavity is larger, and the inner diameter of the lower through cavity is smaller; a check valve is additionally disposed in the upper through cavity, and the check valve is supported by an upper end of the lower through cavity; the plastic water inlet joint is supported by the stop rim at the rear end of the fixing joint in the fixing nut by using the outwardly extending hanging rim, and passes through the fixing joint.
8. 8. The thermally insulated joint of a thermostatic faucet according to claim 7, wherein the upper through cavity is provided with a groove in the inner wall above the check valve, and a C-shaped circlip is placed in the groove to fix the check valve in the upper through cavity.
9. 9. The thermally insulated joint of a thermostatic faucet according to claim 7, wherein an upward raised rim is further disposed above the plastic water inlet joint; and when the plastic water inlet joint is supported by the outward stop rim at the rear end of the fixing joint, an annular installation cavity is formed by the raised rim above the outwardly extending hanging rim.