Disclosure of utility model
The utility model aims to overcome the defects of the prior art, and provides a bathroom faucet structure, wherein a water diversion module can be independently designed into two paths of water diversion modules or three paths of water diversion modules according to the needs, a faucet base, a faucet panel, a water diversion valve and a control module can be respectively and commonly used with the two paths of water diversion modules and the three paths of water diversion modules, when the bathroom faucet structure is manufactured, the water diversion modules of proper waterways are selected according to different waterway requirements, so that the universality of the water diversion modules is improved, and the cost of products is reduced.
The technical scheme of the utility model provides a bathroom faucet structure, which comprises a faucet base with an installation groove, a faucet panel detachably connected with the faucet base, a water diversion valve connected with the faucet base, a control module detachably connected with the faucet base and a water diversion module detachably installed in the installation groove;
The water diversion module is provided with a module water inlet and a water diversion flow passage, a water outlet of the control module is inserted into the module water inlet, and a valve body of the water diversion valve is inserted into the water diversion flow passage;
The water diversion module comprises two paths of water diversion modules or three paths of water diversion modules;
The two-way water diversion module is provided with a first water outlet for supplying water to the overhead shower and a second water outlet for supplying water to the handheld shower, or is provided with the second water outlet and a third water outlet for supplying water to the bathtub, or is provided with the first water outlet and the third water outlet;
The three-way water diversion module is provided with the first water outlet, the second water outlet and the third water outlet.
In one optional technical scheme, the first water outlet is arranged at the top of the water diversion module, and a panel through hole for extending out of the first water outlet is formed in the faucet panel.
In one optional technical scheme, the second water outlet is arranged at the side part of the water diversion module, and an adapter tube connected with the second water outlet is arranged in the faucet base.
In one optional technical scheme, the module water inlet and the second water outlet are arranged on two opposite sides of the water diversion module.
In one optional technical scheme, the third water outlet is arranged at the bottom of the three-way water diversion module, and a through hole for the third water outlet to extend out of the bottom plate is arranged on the bottom plate of the faucet base.
In one optional technical scheme, the third water outlet is provided with a bubbler.
In one optional technical scheme, the faucet panel is connected with the faucet base through a first buckle in a clamping mode or through a first pin.
In one optional technical scheme, the water diversion module is connected with the faucet base through a second buckle in a clamping mode or through a second pin.
In one optional technical scheme, the water diversion module is provided with a plurality of reinforcing ribs.
In one alternative, the control module includes a regulating valve for regulating flow and water temperature or a thermostatic valve for maintaining water temperature within a preset range.
By adopting the technical scheme, the method has the following beneficial effects:
The bathroom faucet structure provided by the utility model comprises a faucet base, a faucet panel, a water diversion valve, a control module and a water diversion module. The water diversion module can be designed into two paths of water diversion modules or three paths of water diversion modules, the faucet base, the faucet panel, the water diversion valve and the control module are respectively universal with the two paths of water diversion modules or the three paths of water diversion modules, when the faucet is manufactured, the control modules with different functions can be replaced according to actual needs, and a user can select the water diversion module with a proper water path according to different water path requirements, so that the universality of the water diversion module is improved, and the cost of products is reduced.
Detailed Description
Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.
As shown in fig. 1 to 14, an embodiment of the present utility model provides a bathroom faucet structure including a faucet base 1 having a mounting groove 11, a faucet panel 2 detachably coupled to the faucet base 1, a water diversion valve 3 coupled to the faucet base 1, a control module 4 detachably coupled to the faucet base 1, and a water diversion module 5 detachably mounted in the mounting groove 11.
The water diversion module 5 is provided with a module water inlet 51 and a water diversion flow passage 52, the water outlet 43 of the control module 4 is inserted into the module water inlet 51, and the valve body 31 of the water diversion valve 3 is inserted into the water diversion flow passage 52.
Wherein the water diversion module 5 comprises a two-way water diversion module 5-1 or a three-way water diversion module 5-2.
The two-way water diversion module 5-1 is provided with a first water outlet 53 for supplying water to the overhead shower and a second water outlet 54 for supplying water to the hand shower, or the two-way water diversion module 5-1 is provided with a second water outlet 54 and a third water outlet 55 for supplying water to the bathtub, or the two-way water diversion module 5-1 is provided with the first water outlet 53 and the third water outlet 55.
The three-way water diversion module 5-2 is provided with a first water outlet 53, a second water outlet 54 and a third water outlet 55.
The bathroom faucet structure provided by the utility model comprises a faucet base 1, a faucet panel 2, a water diversion valve 3, a control module 4, a water diversion module 5 and the like. The tap base 1 and the tap panel 2 form a tap main body, and the water diversion valve 3 and the control module 4 are arranged at the appointed position of the tap main body to form a tap main body component. The two-way water diversion module 5-1 or the three-way water diversion module 5-2 are respectively matched with the main faucet body assembly, and the universality of parts is high. Specifically, the faucet base 1 has a mounting slot 11 for mounting the water diversion module 5. The tap panel 2 is arranged on the top surface of the tap base 1, and the tap panel 2 and the tap base 1 form a tap main body.
The diverter valve 3 comprises a valve body 31 and a knob 32, the diverter valve 3 is mounted on a side plate of the faucet base 1, and the valve body 31 is positioned in the mounting groove 11. The valve body 31 is used for being assembled in the water diversion flow channel 52 of the water diversion module 5 so as to switch different water outlet. The knob 32 is located on the outside of the faucet base 1, and a user can rotate the valve body 31 through the knob 32. The diverter valve 3 may be a diverter valve or a switching valve in the prior art, and the structure and the diversion/water-cutting principle thereof will not be described herein.
The control module 4 is used for controlling the water way to be opened and closed, the water flow, the water temperature and the like. The control module 4 is of modular construction so as to be removably connected to the tap base 1, for example by means of a clasp, pin or the like, in order to replace the control module 4 with a different function.
The control module 4 comprises a main body 41, a handle 42 and a water outlet 43. The control module 4 is detachably mounted on a side plate of the faucet base 1, the main body 41 is positioned in the mounting groove 11, and the water outlet 43 is connected with the main body 41 and is used for controlling water supply into the water diversion module 5. The handle 42 is positioned outside the faucet base 1, and a user can adjust the water path on/off, water temperature, water amount, etc. by operating the handle 42.
The water diversion module 5 is of modular construction so as to fit in the mounting groove 11. The water diversion module 5 has a module water inlet 51 and a water diversion flow passage 52, the module water inlet 51 being located at one side of the water diversion module 5 so as to be connected with the water outlet 43 of the control module 4. The opening of the water diversion flow passage 52 is directed toward the water diversion valve 3 so that the valve body 31 is fitted into the water diversion flow passage 52. The module water inlet 51 is communicated with the water diversion flow passage 52, and water flowing out of the control module 4 enters the water diversion flow passage 52 and is distributed to different water outlets of the water diversion module 5 through the valve body 31.
According to the number of water outlets of the water diversion modules 5, the water diversion modules 5 are divided into two paths of water diversion modules 5-1 or three paths of water diversion modules 5-2. During production and manufacture, two paths of water diversion modules 5-1 can be selectively installed in the installation groove 11 according to the water path requirement of a product, and three paths of water diversion modules 5-2 can also be selectively installed in the installation groove 11.
The two-way water diversion module 5-1 is provided with two water outlets, each water outlet corresponds to a water using end, and the water using end refers to a hand shower, a head shower and a bathtub.
The design scheme of the water outlet of the two-way water diversion module 5-1 is as follows:
1. The two-way water diversion module 5-1 comprises a first water outlet 53 and a second water outlet 54. The first water outlet 53 is for supplying water to the overhead shower. The second water outlet 54 is used to supply water to the hand held shower. The overhead shower is typically mounted on a shower post, the lower end of which is connected to the first water outlet 53, with a water passage in the post to supply water to the overhead shower. The hand shower is typically connected to the second water outlet 54 by a hose.
The scheme is suitable for users who need overhead shower heads and handheld shower heads.
2. The two-way water diversion module 5-1 comprises a second water outlet 54 and a third water outlet 55. The second water outlet 54 is used to supply water to the hand held shower. The third water outlet 55 is for supplying water to the bath, and the third water outlet 55 may directly act as a tap for supplying water to the bath.
The scheme is suitable for users who need bathtubs and hand-held shower heads.
3. The two-way water diversion module 5-1 comprises a first water outlet 53 and a third water outlet 55. The first water outlet 53 is for supplying water to the overhead shower. The third water outlet 55 is for supplying water to the bath, and the third water outlet 55 may directly act as a tap for supplying water to the bath.
The scheme is suitable for users who need bathtubs and overhead showers.
The water inlet ports of the first water outlet 53, the second water outlet 54 and the third water outlet 55 are respectively communicated with the water diversion flow passage 52. The valve body 31 is provided with concave and convex portions on the circumference.
The water inlet ports of the two water outlets of the two-way water diversion module 5-1 are uniformly distributed along the circumferential direction of the water diversion flow channel 52, and when the valve body 31 is rotated so that the concave part is correspondingly configured with one water inlet port, the convex part blocks the other water inlet port, and one water outlet corresponding to the concave part can discharge water.
The water inlet ports of the three water outlets of the three-way water diversion module 5-2 are uniformly distributed along the circumferential direction of the water diversion flow channel 52, and when the valve body 31 is rotated so that the concave part is correspondingly configured with one water inlet port, the convex part blocks the other two water inlet ports, and one water outlet corresponding to the concave part can discharge water.
Corresponding through holes can be formed in the faucet base 1 and the faucet panel 2 in advance according to requirements, so that the first water outlet 53, the second water outlet 54 and the third water outlet 55 can extend out or can be connected through a water supply pipe.
In summary, according to the bathroom faucet structure provided by the utility model, the water diversion module 5 can be designed into a two-way water diversion module 5-1 or a three-way water diversion module 5-2. The faucet base 1, the faucet panel 2, the water diversion valve 3, the control module 4 and the water diversion module 5 are respectively universal with the two-way water diversion module 5-1 or the three-way water diversion module 5-2, when the faucet is manufactured, the control module 4 with different functions can be replaced according to actual needs, the water diversion module 5 with a proper water way is selected according to different water way requirements, the universality of the water diversion module 5 is improved, and the cost of products is reduced.
In one embodiment, as shown in fig. 1-3 and 11-13, the first water outlet 53 is provided at the top of the water diversion module 5, and the faucet panel 2 is provided with a panel through hole 21 for the first water outlet 53 to extend.
In this embodiment, the first water outlet 53 is provided at the top of the water diversion module 5 and passes through the panel through hole 21 in the faucet panel 2so as to be connected with the lower end of the shower post.
In one embodiment, as shown in fig. 2, 4-5, 7, 9, 12 and 14, the second water outlet 54 is provided at a side of the water diversion module 5, and the adapter tube 12 connected to the second water outlet 54 is provided in the faucet base 1.
In this embodiment, the second water outlet 54 is disposed at one side of the water diversion module 5, and a switching tube 12 is disposed in the faucet base 1, one end of the switching tube 12 is connected with the second water outlet 54, and the other end extends out of the side of the faucet base 1 so as to be connected with a hose of the hand shower.
In one embodiment, as shown in fig. 4, the module water inlet 51 and the second water outlet 54 are disposed on opposite sides of the water diversion module 5, and the water diversion channel 52 may be disposed between the module water inlet 51 and the second water outlet 54, so as to facilitate structural arrangement.
In one embodiment, as shown in fig. 10, the third water outlet 55 is provided at the bottom of the three-way water diversion module 5-2, and the bottom plate of the faucet base 1 is provided with a through hole 13 for the third water outlet 55 to extend out of the bottom plate.
In this embodiment, the third water outlet 55 extends directly downwardly through the floor aperture 13 to supply water to the bathtub below.
In one embodiment, as shown in fig. 7 and 12, the third water outlet 55 is provided with a bubbler 56 to reduce splashing of the water flow.
In one embodiment, as shown in fig. 2, the faucet panel 2 is clamped with the faucet base 1 by a first buckle 22 or connected by a first pin, so as to facilitate assembly and disassembly. The first buckle 22 may be provided at an edge of the faucet panel 2, or may be provided at an edge of the faucet base 1. Screw holes may also be provided in the faucet faceplate 2 and connected to the faucet base 1 via a first pin.
In one embodiment, the water diversion module 5 is connected with the faucet base 1 through a second buckle in a clamping manner or through a second pin.
The water diversion module 5 and the tap base 1 are provided with a plurality of connection modes, a second buckle can be arranged at the edge of the water diversion module 5 and is clamped with the tap base 1 through the second buckle, and a screw hole 57 can also be arranged on the water diversion module 5 and is connected with the tap base 1 through a second pin.
In one embodiment, as shown in fig. 3-4, 8-9 and 13-14, the water diversion module 5 is provided with a plurality of reinforcing ribs 58 to enhance the structural strength of the water diversion module 5.
In one of the embodiments, the control module 4 comprises a regulating valve for regulating the flow and the water temperature or a thermostatic valve for maintaining the water temperature within a preset range.
The regulating valve is used for regulating the water way on/off, flow rate and water temperature, and a user can operate the handle 42 to regulate. The regulating valve can be a mechanical valve, an electromagnetic valve, etc.
The constant temperature valve enables the water temperature to be kept in a preset temperature range, a user does not need to specially adjust the water temperature, and the convenience of use is improved. The user can operate the handle 42 to adjust the water temperature to a level within a preset temperature range. The thermostatic valve is a water mixing valve in the prior art, and regarding the principle thereof, reference may be made to the content in the prior art, and the description thereof will not be repeated here.
The above technical schemes can be combined according to the need to achieve the best technical effect.
The foregoing is only illustrative of the principles and preferred embodiments of the present utility model. It should be noted that several other variants are possible to those skilled in the art on the basis of the principle of the utility model and should also be considered as the scope of protection of the present utility model.