Shower assembly with soft light function

Abstract

The utility model discloses a shower subassembly with soft light function, including the space that base and shell cooperation forms for mix water valve and / or water outlet valve contains, base is configured as a transparent material base, and the first transparent installation part that the position of base near left, right two side faces is equipped with respectively for the light emitting component contains, and the front, left, right two side face between first transparent installation part and base forms certain interval, and the front shell is along the front and left, right two side face of base seal installation, the front shell includes the attachment part with transparent shell part, the attachment part with base cooperation is attached, and the attachment part is translucent attachment part, the transparent shell part is covered in translucent attachment part's outer surface, and the power supply component is configured as dry battery group, and the utility model provides a shower subassembly with soft light function, solves the problem that the existing product is not suitable because of strong light in the use process and is easy to highlight light spot and shadow in the light emitting area, and the light experience effect is poor.

Description

Technical Field

[0001] This utility model relates to the field of bathroom product manufacturing and production, specifically a shower component with a soft light function. Background Technology

[0002] With the rapid development of bathroom products, consumers' demands for bathroom products are no longer satisfied with traditional functions. They are more focused on improving other added value and sensory experience, such as storage function, lighting function, and music playback function. In particular, the lighting function and music playback function are important, such as laying a long light strip around the shower seat to ensure that the entire shower seat can be lit.

[0003] The aforementioned functions or modules (i.e., the long light strip and music playback module) are mostly powered by hydroelectric generators, but their power supply effect is poor and cannot meet the power supply requirements of the long light strip and / or music playback module. More importantly, the hydroelectric generator has a short service life due to scale buildup, a problem that has been seriously reported by the market. If the power supply is changed to dry cell batteries, due to the high power of the long light strip, multiple dry cell batteries need to be replaced in less than 3-5 days, which is extremely inconvenient to use.

[0004] Furthermore, using such a long light strip as the light source results in strong light that causes discomfort to consumers during use. Moreover, when the light beam is refracted out of the shower base, it easily projects the internal ribs (such as locking ribs) and water outlet components onto the surface of the shower base, creating strong contrasts of light spots and shadows on the surface, resulting in a poor overall lighting experience.

[0005] In summary, the lighting components of existing shower fixtures need further improvement. Utility Model Content

[0006] The purpose of this utility model is to overcome the above-mentioned defects or problems in the background technology and provide a shower component with soft light function. It has a simple structure, is easy to manufacture, easy to implement and has low cost. It solves the problems of discomfort caused by strong light and the easy prominence of light spots and shadows in the light-emitting area during the use of existing products, resulting in poor lighting experience.

[0007] To achieve the above objectives, the present invention adopts the following technical solution:

[0008] A shower assembly with a soft light function includes a mixing valve and an outlet valve for mixing and distributing hot and cold water to each outlet; characterized in that it further includes a base, a front shell, at least two light-emitting components, and a power supply assembly.

[0009] A base, which cooperates with the housing to form a space for accommodating a mixing valve and / or a water outlet valve; the base is configured as a transparent base; the base has a first transparent mounting part for accommodating the light-emitting component at a position near the left and right sides, and the first transparent mounting part is spaced apart from the front, left and right sides of the base.

[0010] A front shell is sealed along the front and left and right sides of the base; the front shell includes a mounting part and a transparent shell part, the mounting part is fitted and mounted to the base, and the mounting part is a semi-transparent mounting part; the transparent shell part covers the outer surface of the semi-transparent mounting part; the semi-transparent mounting part is configured to be a semi-transparent mounting part formed by applying a light-diffusing coating to the inner surface of the transparent mounting part or a semi-transparent mounting part formed by injection molding after mixing with a light-diffusing agent before molding;

[0011] The two light-emitting components are installed and extend downward into the first transparent mounting portion;

[0012] A power supply component, configured as a dry cell battery pack, is installed in a placement groove formed on the lower surface of the base; the power supply component is electrically connected to each of the light-emitting components.

[0013] Furthermore, the two light-emitting components are lamp beads, and are respectively mounted downwards on the first transparent mounting part; it also includes a light-emitting body, which is disposed on the top surface of the base and close to the front position; the light-emitting body is located between the two light-emitting components, and the light-emitting body irradiates towards the front shell, and intersects with the irradiation area formed by the light of the two light-emitting components.

[0014] Furthermore, the control element of the mixing valve and / or the outlet valve is configured below the base or in the area where the light-emitting body intersects with the irradiation area formed by the two light-emitting components.

[0015] Furthermore, the top surface of the base is recessed downward to form the first transparent mounting portion and the second transparent mounting portion; the second transparent mounting portion is used to mount the light-emitting body, and the light-emitting body is arranged along the length direction of the base and located in the area between the front shell and the front ribs of the base.

[0016] Furthermore, the LED beads are mounted on the first transparent mounting portion with the LEDs facing downwards and parallel to the side of the front housing.

[0017] Furthermore, it also includes a light-transmitting flexible body with a thickness greater than the distance between the lamp bead and the first transparent mounting part, for softening the light of the lamp bead and adjusting the position of the lamp bead in the first transparent mounting part.

[0018] Furthermore, the light-transmitting flexible body is configured as a white sponge.

[0019] Furthermore, it also includes a cover, the sealing cover of which is provided on the top surface of the transparent base and the front shell, for placing items and / or shielding the mixing valve and the outlet valve inside the base.

[0020] Furthermore, the front shell mounting portion and the transparent shell portion are integrally formed by secondary injection molding or plastic coating.

[0021] Furthermore, the two light-emitting components and light-emitting bodies are respectively configured as color-changing light-emitting components and light-emitting bodies.

[0022] As can be seen from the above description of this utility model, compared with the prior art, this utility model has the following beneficial effects:

[0023] (1) The shower assembly with soft light function provided by this utility model has a simple structure, is easy to manufacture, is easy to implement, and has low cost. This utility model uses two low-power light-emitting components as light sources and combines them with a dry battery pack. With a sufficiently long usage time, it utilizes the gap between the light source and the front shell to achieve a wider area of ​​illumination and soft light, breaking the constraints of existing strong light and power consumption. More importantly, combined with the semi-transparent mounting part set on the front shell, the whole is softer and more uniform. This ensures that the front of the entire shower assembly and the left and right sides can present soft light. Moreover, in the combined state of the transparent shell, it presents soft light and has The new design features a three-dimensional light-sensing effect. Furthermore, the front shell employs a double-layer design. The light spots formed by the light-emitting components are softened by the semi-transparent mounting portion, and the light from the light-emitting components dissipates after convergence. Combined with the spacing between the first transparent mounting portion and each surface of the base, there are no light spots when viewed from the outside. The light on the front and left / right sides of the base is soft, non-glaring, and evenly smooth. Even with components such as water outlet valves and mixing valves, their positions are at the convergence points of the light from the light-emitting components, so any shadows are dissolved at the convergence points, achieving a very good soft light effect. This new design uses the simplest structure to achieve the best soft light effect, resulting in a visual effect as beautiful as jade or emerald.

[0024] (2) The present invention uses low power consumption lamp beads as light-emitting components and is installed in the first transparent mounting part, so that its light spreads in all directions. At the same time, a light-emitting body is set on the top surface of the base and near the front, so that the light convergence area is expanded. Even if there are control components such as mixing valves and water outlet valves, they can be dissolved by this convergence area, avoiding the projection of shadows on the front shell, and the overall lighting effect is better.

[0025] (3) The present invention is provided with a first transparent mounting part and a second transparent mounting part, and the light-emitting component and the light-emitting body are respectively placed in corresponding positions. Since the first transparent mounting part and the second transparent mounting part are extended downward from the base, they are blocked from the mixing valve and the outlet valve, thus preventing water vapor and water mist from entering the light-emitting component and the light-emitting body and affecting the service life. At the same time, it prevents water vapor and water stains from directly adhering to the light source to form direct light spots and shadows.

[0026] (4) The present invention installs the lamp beads with the bottom facing down and perpendicular to the top surface of the base, and then covers them with a light-transmitting flexible body. This not only weakens the strong light of the lamp beads, but also allows the lamp beads to be positioned in the first transparent mounting part by means of the light-transmitting flexible body. During the installation process, fine adjustments can be made according to the actual situation to adjust the area where the light-emitting component and the light-emitting body meet, thus achieving the dual effects of soft light and position adjustment.

[0027] (5) This new type of product uses a secondary injection molding or plastic wrapping method to show the integral molding of the assembly part and the transparent shell part, avoiding the formation of water vapor or water stains between the two, and the overall three-dimensional effect and quality of the product are better.

[0028] (6) The light-emitting component and the light-emitting body of this invention are respectively configured as color-changing light-emitting component and light-emitting body, so that the light color is richer, and the light intersection area is not only free of light spots and shadows, but can also be integrated to form new colors, turning the existing defective position into a soft visual experience, and raising the quality of the entire light-emitting shower component product to a new level. Attached Figure Description

[0029] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the following description of the embodiments will be briefly introduced. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0030] Figure 1 This is a three-dimensional exploded view of the shower assembly described in this utility model;

[0031] Figure 2 This is a three-dimensional structural diagram of the shower assembly described in this utility model. Figure 1 ;

[0032] Figure 3 This is a three-dimensional structural diagram of the shower assembly described in this utility model. Figure 2 ;

[0033] Figure 4 This is a cross-sectional view of the shower assembly described in this utility model. Detailed Implementation

[0034] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are preferred embodiments of the present utility model and should not be considered as excluding other embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0035] Unless otherwise expressly defined, the use of terms such as "first," "second," or "third" in the claims, description, and drawings of this utility model is for distinguishing different objects and not for describing a specific order.

[0036] Unless otherwise expressly defined, in the claims, description, and accompanying drawings of this utility model, the use of directional terms such as "center," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," and "counterclockwise" to indicate orientation or positional relationships is based on the orientation and positional relationships shown in the accompanying drawings and is only for the convenience of describing this utility model and simplifying the description. It does not indicate or imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore should not be construed as limiting the specific protection scope of this utility model.

[0037] Unless otherwise expressly defined, the terms "fixed connection" or "fixed connection" used in the claims, description and drawings of this utility model shall be interpreted broadly to refer to any connection in which there is no displacement or relative rotation relationship between the two parties, including non-removable fixed connection, detachable fixed connection, integral connection and fixed connection through other devices or components.

[0038] In the claims, description and accompanying drawings of this utility model, the terms "comprising", "having", and variations thereof are used to mean "including but not limited to".

[0039] See Figures 1-4 This embodiment describes a shower assembly with a soft light function, which is used to mix water and distribute water flow to each water outlet. This embodiment takes a shower assembly with storage and light-emitting functions as an example, and the light-emitting function presents a soft and uniform visual experience.

[0040] The shower assembly of this embodiment includes a base 1, a front shell 2, at least two light-emitting components 3, and a power supply component 4;

[0041] The base 1, which cooperates with the shell to form a space 11 for accommodating the mixing valve 5 and / or the outlet valve 6; the base 1 is configured as a transparent base 1, that is, the base 1 is injection molded from a transparent material, and its top surface is recessed to form a first transparent mounting part 12 and a second transparent mounting part 13 for mounting the light-emitting component 3 and the light-emitting body, that is, the first transparent mounting part 12 is respectively opened on the base 1 near the left and right sides for accommodating the light-emitting component 3, and a certain distance H is formed between the first transparent mounting part 12 and the front, left and right sides of the base 1; the second transparent mounting part 13 is used to mount the light-emitting body 7, and the light-emitting body 7 is arranged along the length direction of the base 1 and located in the area between the front shell 2 and the front ribs of the base 1;

[0042] In addition, a space 11 is formed for assembling and accommodating water supply and outlet valves 6, mixing valves 5, etc.

[0043] The front shell 2 is sealed along the front and left and right sides of the base 1;

[0044] The front shell 2 described in this embodiment includes a mounting portion 21 and a transparent shell portion 22;

[0045] The mounting part 21 is fitted and connected to the base 1, and the mounting part 21 is a semi-transparent mounting part 21;

[0046] The transparent shell 22 covers the outer surface of the mounting portion 21; in this embodiment, the transparent shell 22 is injection molded from transparent TPU material;

[0047] The translucent mounting portion 211 is configured such that after the transparent mounting portion is formed, a light-diffusing coating is applied to its inner surface to form the translucent mounting portion 211, or the translucent mounting portion 211 is mixed with a light-diffusing agent before injection molding.

[0048] It should be noted that the surface coating here refers to the application of white or off-white paint using a spray gun or spraying robot, so that the originally transparent joint has a white translucent coating. This is not limited to white; any light-colored translucent coating falls within this scope, such as light blue, light green, etc., and can be selected according to the user's actual needs.

[0049] The material containing the light-diffusing agent before molding is mixed before injection molding and then injection molded to form a semi-transparent assembly part 211.

[0050] After the semi-transparent assembly part 211 is formed, a transparent shell part 22 is wrapped around the outer surface of the semi-transparent assembly part 211 by secondary injection molding or plastic coating, so that the entire front shell 2 has a semi-transparent three-dimensional effect when viewed from the outside.

[0051] The two light-emitting components 3 are installed and extend downward into the first transparent mounting portion 12. Taking a lamp bead as an example, the lamp bead 3A is installed downwards and parallel to the sides (i.e., the left and right sides) of the front shell 2 in the first transparent mounting portion 12. Before installation, a layer of light-transmitting flexible material 3B is wrapped around the outer surface of the lamp bead 3A, with a thickness greater than the distance between the lamp bead 3A and the first transparent mounting portion 12, to soften the light from the lamp bead 3A and to adjust the position of the lamp bead 3A in the first transparent mounting portion 12. In this embodiment, the light-transmitting flexible material 3B is configured as a white sponge, but it can also be other light-transmitting flexible materials.

[0052] It also includes a light-emitting element 7, which is disposed on the top surface of the base 1 and close to the front. In this embodiment, a flexible light sheet is used as the light-emitting element 7 as an example, which has a small size and low power consumption. The light-emitting element 7 is located between the two light-emitting components 3 and illuminates the front shell 2, and intersects with the illumination area formed by the light of the two light-emitting components 3. The control of the mixing valve 5 and / or the outlet valve 6 is disposed below the base 1 or in the area C where the light-emitting element 7 intersects with the illumination area formed by the two light-emitting components 3.

[0053] The power supply component 4 is configured as a dry cell battery pack and installed in the placement groove 10 formed on the lower surface of the base 1; the power supply component 4 is electrically connected to each of the light-emitting components 3; the combination of dry cell battery pack and LED beads 3A avoids the problems of easy damage and insufficient power generation of the hydroelectric generator, and also solves the shortcomings of short service life and the need for frequent battery replacement.

[0054] More specifically, it also includes a cover 8, which is a sealing cover on the top surface of the transparent base 1 and the front shell 2, for placing items and / or shielding the internal mixing valve 5 and the outlet valve 6.

[0055] More specifically, the two light-emitting components 3 and light-emitting bodies 7 are respectively configured as color-changing light-emitting components 3 and light-emitting bodies 7, so that more colors can be changed and the light-sensing effect is better.

[0056] In actual production and use: see Figures 1-4 ,

[0057] (1) A base 1 is formed by molding a transparent plastic injection mold. The upper surface of the base 1 is recessed to form a first transparent mounting part 12 and a second transparent mounting part 13. The two first transparent mounting parts 12 are columnar and extend along the height direction of the base 1. The second transparent mounting part 13 forms a recessed groove and is arranged along the length direction of the base 1. In addition, an assembly position for placing the power supply component 4 (i.e., dry battery pack) is provided on the lower surface of the base 1.

[0058] (2) The front shell 2 is prepared by secondary injection molding. In this embodiment, a material mixed with a light-diffusing agent is used as an example. The light-diffusing agent (such as titanium dioxide, zinc oxide, styrene polymer, acrylate copolymer, etc.) is mixed into transparent plastic and stirred evenly in the molten state. Then, it is injection molded by an injection molding machine to form a semi-transparent assembly part 211. Then, the mold is directly replaced and transparent plastic is used to inject onto the semi-transparent assembly part 211. After secondary injection molding, an integrally formed front shell 2 is obtained. It should be noted that the semi-transparent assembly part 211 is also provided with a number of holes 212 for assembly and fixation with the base 1.

[0059] (3) Two LED beads 3A are used as the light-emitting components 3, and a light-transmitting flexible body 3B (i.e., white sponge or foam) is wrapped around their outer periphery. Then, the wrapped LED beads 3A and the light-transmitting flexible body 3B are inserted into the first transparent mounting part 12 for subsequent height adjustment. The light-emitting body 7 (i.e., flexible lamp sheet) is attached or fixed to the front side of the second transparent mounting part by adhesion or other means, and the light emitted is directed towards the front shell 2. After assembling the light-emitting components 3 and the light-emitting body 7, they are connected to a driving circuit board (existing technology) through electrical wires. The driving circuit board is then electrically connected to the dry battery pack located on the lower surface of the base 1. It should be noted that the driving circuit board is connected to the control switch circuit. The control switch here can be a contact induction switch (i.e., touch type), a button switch, a remote induction switch, etc. This is existing technology and will not be described in detail.

[0060] (4) Install the inlet valve, mixing valve 5, outlet valve 6 and corresponding control components into the space 11 of the base 1. After assembly, screw the front shell 2 to the base 1. It should be noted that the assembled front shell 2 and the light-emitting components 3 and light-emitting body 7 on the base 1 have a certain distance H.

[0061] (5) The dry cell battery pack is then installed under the base 1. It should be noted that the dry cell battery pack of this invention includes a shell and several dry cells. Electrical contact pieces are provided on the shell. Each dry cell battery is installed inside the shell. Then the entire shell is installed on the lower surface of the base 1. In this way, when replacing the batteries, it is not necessary to bend over and replace them one by one. The entire shell can be removed, multiple batteries can be replaced, and then the shell can be installed. After removal, a sealing cover is placed on top for better sealing.

[0062] (6) Conduct a power-on test and finely adjust the position of the two LED beads 3A in the first transparent mounting part 12. After adjustment, the light on the front and left and right sides of the front shell 2 is soft and without light spots, and no shadows are generated on the components at the intersection of light.

[0063] (7) Finally, the cover plate is placed on top of the front shell 2 and the base 1. Before placing the cover plate, seals are arranged around the base 1 and the front shell 2. Then the cover plate is fixed by gluing to complete the assembly of the entire shower assembly, which will be connected to other components later. Here, connection refers to the installation of water pipes, etc.

[0064] When using,

[0065] The system is activated by touch or infrared remote sensing switches, which then drive the controller to power the dry cell battery pack to illuminate the two light-emitting components 3 and the light-emitting body 7. The light from these components 3 diffuses upwards and outwards. Since the light-emitting components are located on the left and right sides of the base 1, and the light is softened by the transparent flexible body 3B, the strong light and light spots are blocked. The soft, three-dimensional light is then emitted through the semi-transparent assembly of the front shell 2. Furthermore, a control element is located on the front shell 2. When the light-emitting body 7 and the light-emitting components 3 shine forward, the light from the control element is reflected onto the front shell 2. The light from the light-emitting components 3 and 7 illuminates the shadows through the intersection area, making any shadows visually imperceptible. Additionally, the light-emitting components 3 and 7 are dynamically changing three- or multi-color light-emitting components 3, allowing the light at the intersection area to display different colors, adding a dynamic color-changing effect to the soft light. Other traditional water inlet and outlet functions remain operational.

[0066] This utility model provides a shower assembly with a soft-light function. Its structure is simple, easy to manufacture, readily achievable, and low-cost. This new model uses two low-power light-emitting components as the light source, combined with a dry-cell battery pack. While maintaining a sufficiently long operating time, the gap between the light-emitting components and the front shell allows for a wider area of ​​illumination and soft light, breaking away from the limitations of existing strong light and high power consumption. More importantly, the semi-transparent mounting part on the front shell makes the overall light softer and more uniform, ensuring that the front and left and right sides of the entire shower assembly are illuminated with soft light. Furthermore, the transparent shell, when in its combined state, presents a soft light effect with a three-dimensional light perception. In addition, this new... The front shell of this model adopts a double-layer design. The light spot formed by the light-emitting components is shielded by the semi-transparent mounting part, creating a soft light effect. Furthermore, the light from the light-emitting components dissipates after converging. Combined with the spacing between the first transparent mounting part and each surface of the base, there are no light spots when viewed from the outside. The light on the front and left and right sides of the base is soft, non-glaring, and evenly smooth. Even with components such as water outlet valves and mixing valves, their positions are at the convergence points of the light from the various light-emitting components, so any shadows are dissolved at the convergence points, achieving a very good soft light effect. This new model uses the simplest structure to achieve the best soft light effect, resulting in a visual effect as beautiful as jade or emerald. This new model uses low-power LEDs as the light-emitting components, and their orientation... The light is diffused outwards by the first transparent mounting section. A light-emitting element is positioned on the top surface of the base, near the front, expanding the light convergence area. Even with control components such as mixing valves and outlet valves, this convergence area neutralizes the light, preventing shadows from being cast on the front casing and resulting in better overall lighting. This new design features a first and a second transparent mounting section, placing the light-emitting component and the light-emitting element in corresponding positions. Since the first and second transparent mounting sections extend downwards from the base, they block the mixing valve and outlet valve, preventing water vapor and mist from entering the light-emitting component and the light-emitting element, thus affecting their lifespan. Moisture and water stains directly adhere to the light source, forming direct light spots and shadows. This new design mounts the LED beads downwards, perpendicular to the top surface of the base, and then covers them with a light-transmitting flexible material. This not only weakens the strong light from the LED beads but also allows for adjustment of the LED bead's position within the first transparent mounting section via the light-transmitting flexible material. During installation, fine adjustments can be made according to the actual situation to adjust the area where the light-emitting component and the light-emitting body meet, achieving both soft light and position adjustment effects. This new design uses a secondary injection molding or plastic coating method to integrally form the mounting section and the transparent shell, avoiding the formation of moisture or water stains between the two, resulting in a better three-dimensional effect and a higher quality feel for the entire product.

[0067] The light-emitting component and the light-emitting body of this new type are respectively configured as color-changing light-emitting component and light-emitting body, which makes the light colors richer, and the light intersection area not only has no light spots or shadows, but can also merge to form new colors, turning the existing defective position into a soft visual experience, and raising the quality of the entire light-emitting shower component product to a new level.

[0068] The description of the above specification and embodiments is used to explain the scope of protection of this utility model, but does not constitute a limitation on the scope of protection of this utility model.

Claims

1. A shower assembly with a soft-light function, comprising a mixing valve and an outlet valve for mixing hot and cold water and distributing water flow to each outlet; characterized in that: It also includes a base, a front shell, at least two light-emitting components, and a power supply assembly; A base, which cooperates with the housing to form a space for accommodating a mixing valve and / or a water outlet valve; the base is configured as a transparent base; the base has a first transparent mounting part for accommodating the light-emitting component at a position near the left and right sides, and the first transparent mounting part is spaced apart from the front, left and right sides of the base. A front shell is sealed along the front and left and right sides of the base; the front shell includes a mounting part and a transparent shell part, the mounting part is fitted and mounted to the base, and the mounting part is a semi-transparent mounting part; the transparent shell part covers the outer surface of the semi-transparent mounting part; the semi-transparent mounting part is configured to be a semi-transparent mounting part formed by applying a light-diffusing coating to the inner surface of the transparent mounting part or a semi-transparent mounting part formed by injection molding after mixing with a light-diffusing agent before molding; The two light-emitting components are installed and extend downward into the first transparent mounting portion; A power supply assembly, configured as a dry cell battery pack, is installed in a placement groove formed on the lower surface of the base; the power supply assembly is electrically connected to each of the light-emitting components.

2. A shower assembly with a soft-light function as described in claim 1, characterized in that: The two light-emitting components are LED beads, and are respectively mounted downwards on the first transparent mounting part; it also includes a light-emitting body, which is disposed on the top surface of the base and close to the front position; the light-emitting body is located between the two light-emitting components, and the light-emitting body irradiates towards the front shell, and intersects with the irradiation area formed by the light of the two light-emitting components.

3. A shower assembly with a soft-light function as described in claim 2, characterized in that: The control element of the mixing valve and / or the outlet valve is located below the base or in the area where the light-emitting body intersects with the illumination area formed by the two light-emitting components.

4. A shower assembly with a soft-light function as described in claim 2, characterized in that: The top surface of the base is recessed downward to form the first transparent mounting part and the second transparent mounting part; the second transparent mounting part is used to install the light-emitting body, and the light-emitting body is arranged along the length direction of the base and located in the area between the front shell and the front ribs of the base.

5. A shower assembly with a soft-light function as described in claim 4, characterized in that: The LED beads are mounted on the first transparent mounting part with the LEDs facing downwards and parallel to the side of the front shell.

6. A shower assembly with a soft-light function as described in claim 5, characterized in that: It also includes a light-transmitting flexible body with a thickness greater than the distance between the lamp bead and the first transparent mounting part, for softening the light of the lamp bead and adjusting the position of the lamp bead in the first transparent mounting part.

7. A shower assembly with a soft-light function as described in claim 6, characterized in that: The light-transparent flexible body is configured as a white sponge.

8. A shower assembly with a soft-light function as described in claim 1, characterized in that: It also includes a cover, the sealing cover of which is provided on the top surface of the transparent base and the front shell, for placing items and / or shielding the mixing valve and the outlet valve inside the base.

9. A shower assembly with a soft-light function as described in claim 1, characterized in that: The front shell assembly and the transparent shell are integrally formed by secondary injection molding or plastic coating.

10. A shower assembly with a soft-light function as described in claim 2, characterized in that: The two light-emitting components and light-emitting bodies are respectively configured as color-changing light-emitting components and light-emitting bodies.

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