A bacterium-inhibiting block feeding module, control disc seat and washing machine of a washing machine
By setting a support structure and staggered water inlets in the antibacterial block dispensing module of the washing machine, the problem of slow dissolution of probiotic blocks is solved, realizing the rapid release and uniform dispersion of antibacterial substances, thus improving washing effect and user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO HAIER DRUM WASHING MACHINE CO LTD
- Filing Date
- 2025-05-30
- Publication Date
- 2026-07-07
AI Technical Summary
In existing washing machines, probiotic blocks dissolve too slowly in the probiotic box, affecting release efficiency and washing effect, resulting in resource waste and extended washing cycles.
A washing machine antibacterial block dispensing module is designed. By setting a support structure on the inside of the box cover to form a gap with the antibacterial block, and setting staggered water inlet holes on the box cover, the water flow is evenly distributed to improve the dissolution speed.
It improves the dissolution speed and release efficiency of the antibacterial blocks, ensuring that the antibacterial substances are fully dispersed in the washing water, thereby enhancing the washing effect and user experience.
Smart Images

Figure CN224468093U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of clothing washing, specifically, it relates to an antibacterial block dispensing module, a control panel base, and a washing machine. Background Technology
[0002] In modern family life, washing machines are an indispensable household appliance, and the continuous optimization of their performance and functions has always been a key focus of industry research. With the increasing demand from consumers for healthy washing, adding antibacterial modules to washing machines has become a trend. Among these technologies, the use of probiotics for antibacterial treatment has attracted much attention due to its natural, environmentally friendly, and effective characteristics.
[0003] Currently, some washing machines have added antibacterial (such as probiotic) dispensing modules. These modules are designed to introduce probiotics into the washing process through a specific device, thereby inhibiting bacterial growth and improving hygiene. Specifically, these washing machines are usually equipped with a dedicated probiotic container where users can place probiotic blocks. During the wash cycle, the water inlet system rinses the probiotic blocks from the container, and then adds an aqueous solution containing probiotics to the washing tub, washing the clothes together to achieve the antibacterial effect.
[0004] However, in practical applications, existing technologies have a significant drawback: when probiotic blocks come into contact with the inner wall of the probiotic container, the tight adhesion often leads to a slow dissolution rate. This not only affects the release efficiency of probiotics, making it difficult for the concentration of probiotics in the wash water to reach an effective antibacterial level in a short time, but may also cause some probiotics to be discharged from the washing machine before fully dissolving, resulting in resource waste. Furthermore, slow dissolution may prolong the washing cycle, affecting the user experience.
[0005] Therefore, how to solve the problem of slow dissolution of probiotic blocks in the probiotic container and improve the release efficiency and washing effect of probiotics has become a pressing technical challenge in the field of antibacterial technology for washing machines. This patent aims to address this technical background by proposing an innovative solution to optimize the dissolution process of probiotic blocks in the washing machine and enhance its antibacterial performance.
[0006] In view of this, this utility model is hereby proposed. Utility Model Content
[0007] The primary objective of this invention is to solve the aforementioned technical problems by providing an antibacterial block dispensing module for a washing machine. This module features a lid with an openable and closable antibacterial block dispensing chamber, facilitating user access to and placement of the antibacterial blocks. Simultaneously, a first support structure is provided on the inner side of the lid. When the lid is closed, this first support structure contacts the antibacterial block, maintaining a certain gap between the antibacterial block and the lid. This ensures that at least the top of the antibacterial block can smoothly contact water, thereby increasing the dissolution rate of the antibacterial block.
[0008] The second objective of this invention is to provide a control panel base.
[0009] The third objective of this invention is to provide a washing machine.
[0010] To solve the above-mentioned technical problems, the basic concept of the technical solution adopted by this utility model is as follows: The first aspect provides an antibacterial block dispensing module for a washing machine, comprising:
[0011] Water box, wherein the water box has an antibacterial block dispensing chamber;
[0012] A lid, which can open and close the opening of the antibacterial block dispensing chamber;
[0013] The inner side of the lid is provided with a first support structure to maintain the gap between the antibacterial block and the lid.
[0014] Furthermore, the lid is provided with multiple water inlet holes, which are staggered with the first support structure.
[0015] Furthermore, the first support structure includes a first support column, which extends onto the lid, or multiple first support columns are spaced apart and arranged on the lid.
[0016] Furthermore, a protruding second support structure is provided on the bottom wall and / or side wall of the antibacterial block delivery cavity.
[0017] Furthermore, the second support structure includes a plurality of second support columns, which are spaced apart on the bottom wall of the antibacterial block dispensing cavity, and the water outlet of the antibacterial block dispensing cavity is disposed between two adjacent second support columns.
[0018] Furthermore, the second support structure includes a plurality of vertically extending support ribs, which are circumferentially spaced on the side wall of the antibacterial block delivery cavity.
[0019] Furthermore, the mounting end of the lid is rotatably disposed above the second support structure on the side wall of the antibacterial block dispensing cavity, and the opening and closing end of the lid can be inserted into the inner side of the second support structure on the side wall of the antibacterial block dispensing cavity after being rotated closed.
[0020] Furthermore, it also includes
[0021] A detergent dispenser, wherein the water dispenser is removable and disposed within the detergent dispenser;
[0022] The water box has a handle at one end and a detergent dispensing chamber inside, which is arranged sequentially with the antibacterial block dispensing chamber along the horizontal direction of the handle.
[0023] A second aspect of this utility model provides a control tray, including a tray body and any of the above-described antibacterial block dispensing modules.
[0024] The inner peripheral wall of the clothing dispensing port of the tray body is provided with an installation port, and the antibacterial block dispensing module is installed in the tray body through the installation port.
[0025] The third aspect of this utility model provides a washing machine, including the control panel base described above.
[0026] By adopting the above technical solution, this utility model has the following beneficial effects compared with the prior art.
[0027] (1) The lid of this utility model can open and close the first opening of the antibacterial block dispensing chamber, making it convenient for users to take out and place the antibacterial block. At the same time, when the lid is closed, it can fix the antibacterial block to a certain extent, preventing the antibacterial block from shifting during the operation of the washing machine, and ensuring that the antibacterial block can be stably dissolved in the dispensing chamber. A first support structure is provided on the inner side of the lid. When the lid is closed, the first support structure on the inner side of the lid contacts the antibacterial block, so that a certain gap is maintained between the antibacterial block and the lid. This ensures that water flows smoothly through the gap between the top of the antibacterial block and the lid, thereby improving the dissolution speed of the antibacterial block.
[0028] (2) The lid has multiple water inlets, which are staggered with the first support structure inside the lid, allowing water to enter the dispensing chamber from different directions and positions. Simultaneously, due to the gap between the lid and the antibacterial block, the water flow can be more dispersed around the antibacterial block, greatly increasing the contact area between water and the antibacterial block, enabling the antibacterial block to dissolve more fully and improving the release efficiency of the antibacterial substance. The staggered arrangement of the water inlets and the first support structure ensures that they do not interfere with each other while fully utilizing their respective functions.
[0029] (3) By setting a second support structure on the bottom wall and / or side wall of the antibacterial block dispensing cavity, the present invention creates a gap between the antibacterial block and the inner wall of the antibacterial block dispensing cavity. Water can enter from the top and come into full contact with the antibacterial block along these gaps, which further improves the dissolution efficiency of the antibacterial block and allows the antibacterial substance to be released into the washing water more quickly and fully.
[0030] The specific embodiments of this utility model will be described in further detail below with reference to the accompanying drawings. Attached Figure Description
[0031] The accompanying drawings, as part of this utility model, are used to provide a further understanding of the present utility model. The illustrative embodiments and descriptions of the present utility model are used to explain the present utility model, but do not constitute an undue limitation of the present utility model. Obviously, the drawings described below are merely some embodiments; those skilled in the art can obtain other drawings based on these drawings without creative effort. In the drawings:
[0032] Figure 1 This is a schematic diagram of an antibacterial block dispensing module for a washing machine according to this utility model;
[0033] Figure 2 This is a utility model Figure 1 A sectional view;
[0034] Figure 3 This is a schematic diagram of a water box for an antibacterial block dispensing module according to this utility model;
[0035] Figure 4 This is a utility model Figure 3 A sectional view;
[0036] Figure 5 This is a schematic diagram of the lid of an antibacterial block dispensing module according to the present invention;
[0037] Figure 6 This is a utility model Figure 5 A diagram from another angle;
[0038] Figure 7 This is a utility model Figure 5 A sectional view;
[0039] Figure 8 This is a schematic diagram of a control panel base according to the present invention;
[0040] Figure 9 This is a utility model Figure 8 A sectional view.
[0041] In the diagram: 1. Water box; 11. Antibacterial block dispensing chamber; 111. First opening; 112. Water outlet; 113. Second support structure; 1131. Support rib; 1132. Second support column; 114. Shaft hole; 115. Slot; 12. Detergent dispensing chamber; 121. Second opening; 122. Water outlet; 13. Handle; 2. Cover; 21. First support structure; 211. First support column; 22. Water inlet; 23. Hinge; 231. Hinge plate; 232. Rotating shaft; 24. Snap-fit part; 25. Cover; 3. Antibacterial block; 4. Detergent box; 5. Control panel base; 51. Clothing dispensing port; 52. Installation port.
[0042] It should be noted that these accompanying drawings and textual descriptions are not intended to limit the scope of the present invention in any way, but rather to illustrate the concept of the present invention to those skilled in the art by referring to specific embodiments. Detailed Implementation
[0043] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings. The following embodiments are used to illustrate this utility model, but are not intended to limit the scope of this utility model.
[0044] In the description of this utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", and "outer" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do 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. Therefore, they should not be construed as limitations on this utility model.
[0045] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0046] like Figures 1 to 9 As shown, this utility model provides an antibacterial block dispensing module for a washing machine. The antibacterial block 3 refers to a block-shaped substance containing antibacterial substances, such as a block containing effective antibacterial components like probiotics, which is used to release antibacterial substances during the water intake process of the washing machine to achieve the purpose of inhibiting bacterial growth, removing mites, or disinfecting.
[0047] The antibacterial block dispensing module includes a water box 1 and a box lid 2.
[0048] The water box 1 has an antibacterial block dispensing cavity 11, which is used to hold the antibacterial block 3 and is the place where the antibacterial block 3 is dispensed after the water enters and dissolves. The box lid 2 can open and close the first opening 111 of the antibacterial block dispensing cavity 11, and is used to open the box lid 2 to place or remove the antibacterial block 3 when needed. The inner side of the box lid 2 is provided with a first support structure 21 to maintain the gap between the antibacterial block 3 and the box lid 2.
[0049] The lid 2 of this invention allows for opening and closing of the first opening 111 of the antibacterial block dispensing chamber 11, facilitating user access to and placement of the antibacterial block 3. Simultaneously, when closed, the lid 2 provides a degree of fixation for the antibacterial block 3, preventing displacement during washing machine operation and ensuring its stable dissolution within the dispensing chamber. A first support structure 21 is provided on the inner side of the lid 2. When the lid 2 is closed, this first support structure 21 contacts the antibacterial block 3, maintaining a certain gap between the antibacterial block 3 and the lid 2. This gap ensures water flows smoothly through the gap between the top of the antibacterial block 3 and the lid 2, thereby increasing the dissolution rate of the antibacterial block 3.
[0050] The first support structure 21 includes recessed structures of varying degrees on the inner wall of the lid 2. When the lid 2 is closed, specific portions of the lid 2 are embedded in the recessed structures of the antibacterial block 3, naturally creating a gap between the antibacterial block 3 and the lid 2. The first support structure 21 also includes protruding structures on the inner wall of the lid 2. When the lid 2 is closed, these protruding structures work together with the antibacterial block 3 to ensure a gap between the antibacterial block 3 and the lid 2.
[0051] The cover 2 is provided with multiple water inlet holes 22, which are staggered with the first support structure 21.
[0052] The lid 2 has multiple water inlet holes 22, which are staggered with the first support structure 21 inside the lid 2. This allows water to enter the dispensing chamber from different directions and positions when it enters through the multiple water inlet holes 22. Simultaneously, due to the gap between the lid 2 and the antibacterial block 3, the water flow can be more dispersed around the antibacterial block 3, greatly increasing the contact area between water and the antibacterial block 3. This allows the antibacterial block 3 to dissolve more fully, improving the release efficiency of the antibacterial substances. The staggered arrangement of the water inlet holes 22 and the first support structure 21 ensures that they do not interfere with each other while fully utilizing their respective functions.
[0053] The water inlet holes 22 are radially distributed on the lid 2, radiating outward from the center of the lid 2, and are staggered with the first support structure 21 which is distributed in a ring, so that water flows in from different directions and comes into contact with the antibacterial block 3.
[0054] Alternatively, multiple water inlets 22 are arranged in a matrix on the lid 2, interspersed with the first support structure 21 which is distributed in strips, to ensure that the water flows evenly into the dispensing chamber and makes full contact with the antibacterial block 3.
[0055] The water inlet hole 22 can be a circular hole, an elongated hole, an irregular radial hole, etc.
[0056] The first support structure 21 includes a first support column 211, which extends onto the cover 2, or multiple first support columns 211 are spaced apart on the cover 2.
[0057] The first support column 211 of the first support structure 21 is staggered with the water inlet 22, so that when the water flows into the antibacterial block dispensing chamber 11, it can avoid the first support column 211 and be more smoothly dispersed around the antibacterial block 3. At the same time, the reasonable layout of the first support column 211 can guide the water flow to form a more uniform flow around the antibacterial block 3, further increasing the contact area and contact time between the water and the antibacterial block 3, thereby dissolving the antibacterial block 3 more fully and improving the antibacterial effect.
[0058] Preferably, a plurality of first support columns 211 are arranged at intervals on the cover 2.
[0059] Multiple first support columns 211 are arranged in a crisscross grid pattern on the cover 2, and water inlet holes 22 are set in the blank spaces between the nodes of the grid. This layout can ensure that multiple water inlet holes 22 are evenly distributed on the entire cover 2, so that the water flow is evenly distributed. It can also improve the structural strength of the cover 2 by setting the first support columns 211.
[0060] The first support column 211 includes cylindrical or square columns, arranged in a rectangular interval on the box cover 2, and staggered with the water inlet 22 to ensure that the water flows evenly into the antibacterial block dispensing chamber 11.
[0061] Furthermore, a protruding second support structure 113 is provided on the bottom wall and / or side wall of the antibacterial block dispensing cavity 11 to form a gap between the antibacterial block 3 and the inner wall of the antibacterial block dispensing cavity 11, thereby assisting in the flow of water and the dissolution of the antibacterial block 3.
[0062] This invention provides a second support structure 113 on the bottom and / or side walls of the antibacterial block dispensing cavity 11, creating gaps between the antibacterial block 3 and the inner wall of the antibacterial block dispensing cavity 11. Water entering from the top can then come into more full contact with the antibacterial block 3 along these gaps, further improving the dissolution efficiency of the antibacterial block 3 and enabling the antibacterial substance to be released into the washing water more quickly and fully.
[0063] When the lid 2 is closed, the antibacterial block 3 is supported by the first support structure 21, maintaining a gap with the lid 2. Simultaneously, a gap is also formed between the antibacterial block 3 and the side wall and / or bottom wall of the antibacterial block dispensing cavity 11 due to the second support structure 113. Water enters the antibacterial block dispensing cavity 11 through the water inlet 22 on the lid 2, first contacting the top of the antibacterial block 3, then flowing downwards along the gap between the antibacterial block 3 and the side wall, and finally flowing out through the gap between the antibacterial block 3 and the bottom wall, thereby achieving complete dissolution of the antibacterial block 3.
[0064] The second support structure 113 includes a plurality of second support columns 1132, which are spaced apart on the bottom wall of the antibacterial block dispensing cavity 11, and the water outlet 112 of the antibacterial block dispensing cavity 11 is disposed between two adjacent second support columns 1132.
[0065] The second support columns 1132 are arranged at certain intervals on the bottom wall of the antibacterial block dispensing cavity 11. When the antibacterial block 3 is placed into the antibacterial block dispensing cavity 11, the second support columns 1132 support it, ensuring that there is a gap between the antibacterial block 3 and the bottom wall of the antibacterial block dispensing cavity 11. The water outlet 112 of the antibacterial block dispensing cavity 11 is arranged between two adjacent second support columns 1132, so that the water can flow in the antibacterial block dispensing cavity 11 along a specific path, making more sufficient contact with the antibacterial block 3, improving the dissolution efficiency of the antibacterial block 3, and ensuring that the dissolved liquid flows out smoothly.
[0066] Preferably, the second support columns 1132 are arranged in a crisscrossing grid pattern on the bottom wall of the antibacterial block dispensing cavity 11. Two water outlets 112 are provided between two adjacent second support columns 1132. The number of water outlets 112 is greater than the number of second support columns 1132.
[0067] The second support column 1132 has various alternative options in shape and layout, which can be flexibly selected according to different antibacterial block 3 shapes, sizes and design requirements of antibacterial block delivery cavity 11, and is not limited to the contents recorded in this utility model.
[0068] The second support structure 113, which is provided on the side wall of the antibacterial block delivery cavity 11, is a protruding structure that extends spirally along the side wall, so that an annular gap is formed between the antibacterial block 3 and the side wall, which facilitates the flow of water around the outer periphery of the antibacterial block 3.
[0069] Alternatively, the second support structure 113 set on the side wall of the antibacterial block dispensing cavity 11 is a raised structure that extends vertically along the side wall and is circumferentially spaced, so that water flows downward from two adjacent raised structures.
[0070] Preferably, the second support structure 113 includes a plurality of vertically extending support ribs 1131, which are circumferentially spaced on the side wall of the antibacterial block delivery cavity 11.
[0071] Furthermore, the mounting end of the lid 2 is rotatably disposed above the second support structure 113 on the side wall of the antibacterial block dispensing cavity 11. After the lid 2 is rotated closed, it can be inserted into the inner circumference of a plurality of vertically extending support ribs 1131 on the antibacterial block dispensing cavity 11.
[0072] By rotatably positioning the mounting end of the lid 2 above the second support structure 113, and allowing it to be inserted between the opposing side walls of the second support structure 113 when closed, the distance between the lid 2 and the antibacterial block 3 can be adaptively adjusted according to the height of the antibacterial block 3. Whether the antibacterial block 3 is tall or short, it can be stably supported when the lid 2 is closed, ensuring that the first support structure 21 does not contact the antibacterial block 3, thus improving the versatility and flexibility of the dispensing module.
[0073] The lid 2 includes a lid body 25 and a hinge portion 23. The lid 2 is rotatably mounted on the side wall of the antibacterial block dispensing cavity 11 via the hinge portion 23. The hinge portion 23 includes a pivot 232 and a hinge plate 231. The pivot 232 is rotatably mounted in a shaft hole 114 on the side wall of the antibacterial block dispensing cavity 11. The hinge plate 231 is bent from the pivot 232 toward the side closer to the antibacterial block dispensing cavity 11 and connected to the lid body 25.
[0074] The antibacterial block dispensing module also includes a detergent dispenser 4, and the water dispenser 1 is removably disposed within the detergent dispenser 4. The water outlet 112 communicates with the detergent dispenser 4. Alternatively, an antibacterial block dispensing chamber 11 can be added to the existing detergent dispensing module.
[0075] Furthermore, the water tank 1 also has a detergent dispensing chamber 12 arranged side by side with the antibacterial block dispensing chamber 11. The lid 2 is rotatably mounted on the opening of the antibacterial block dispensing chamber 11, closing only the first opening 111 of the antibacterial block dispensing chamber 11. The second opening 121 at the top of the detergent dispensing chamber 12 is open for dispensing detergent and water.
[0076] A handle 13 is provided at one end of the water box 1. The detergent dispensing chamber 12 and the antibacterial block dispensing chamber 11 are arranged sequentially along the lateral side of the handle 13. The detergent dispensing chamber 12 has a water outlet 122 on the side wall away from the handle 13, which communicates with the detergent box 4, and then the detergent is dispensed into the washing tub of the washing machine through the detergent box 4.
[0077] The hinge portion 23 is installed on the end of the water box 1 away from the handle portion 13. The opening and closing end of the box cover 2 has a snap-fit portion 24, which snaps into the end of the water box 1 with the handle portion 13.
[0078] The locking part 24 is a locking claw, and the antibacterial block dispensing cavity 11 has a locking groove 115 on the side wall near the handle part 13, which can be locked with the locking claw.
[0079] like Figures 8 to 9 As shown, the second aspect of this utility model provides a control plate base 5, which includes a plate base body and any of the above-described antibacterial block dispensing modules.
[0080] The inner peripheral wall of the garment inlet 51 of the tray body is provided with an installation port 52, and the antibacterial block dispensing module is installed in the tray body through the installation port 52. The user can pull out the water box 1 by the handle 13, and then replace the antibacterial block 3 or add detergent.
[0081] The third aspect of this utility model provides a washing machine, including the control panel base 5 described above.
[0082] The washing machine is a top-loading washing machine. The washing machine casing includes a main body and a control panel 5. The control panel 5 is located on the top of the main body. The washing tub is located inside the casing, below the control panel 5, and the opening of the washing tub is vertically opposite to the clothing loading port 51 of the control panel 5.
[0083] The mounting port 52 is located on the rear side of the clothing loading port 51 of the control panel base 5.
[0084] The washing machine includes a main water inlet, branch water inlets, and a control valve.
[0085] The main water inlet and branch water inlet are connected to the detergent dispensing chamber 12 and the antibacterial block dispensing chamber 11, respectively. The control valve is connected to the main water inlet and the branch water inlet, switching the connection or disconnection between the branch water inlet and the main water inlet.
[0086] The washing process includes: the main water inlet valve is opened, the control valve and the drain valve are closed, the washing machine takes in water and adds detergent through the detergent dispensing chamber 12; after the water inlet is completed, the water inlet valve is closed, and the drive motor drives the washing tub to run intermittently at low speed, generally the speed of the washing tub is 60rpm to 200rpm.
[0087] Preferably, the washing tub includes an outer tub and an inner tub arranged coaxially.
[0088] The antibacterial substance of this invention can be added during the washing process or during the rinsing process. The preferred method is to add the antibacterial substance during the rinsing process.
[0089] One specific solution is that when the washing machine is performing the final rinse, the control valve is connected, the water inlet branch is connected to the main water inlet, and the water is introduced into the water box 1. The antibacterial block 3 in the water box 1 dissolves to produce antibacterial substances, which enter the washing machine with the water flow.
[0090] You can also choose to add a soaking function at the end of the rinsing and washing process, so that the antibacterial substances can be fully integrated into the fabric fibers to play an antibacterial or fragrance-retaining role.
[0091] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any way. Although the present utility model has been disclosed above with reference to preferred embodiments, it is not intended to limit the present utility model. Any person skilled in the art can make some modifications or alterations to the above-described technical content to create equivalent embodiments without departing from the scope of the present utility model. The implementation schemes in the above embodiments can also be further combined or replaced. Any simple modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present utility model without departing from the scope of the present utility model shall still fall within the scope of the present utility model.
Claims
1. A washing machine antibacterial block dispensing module, characterized in that, include: Water box, wherein the water box has an antibacterial block dispensing chamber; A lid, which can open and close the opening of the antibacterial block dispensing chamber; The inner side of the lid is provided with a first support structure to maintain the gap between the antibacterial block and the lid.
2. The antibacterial block dispensing module according to claim 1, characterized in that, The lid has multiple water inlet holes, which are staggered with the first support structure.
3. The antibacterial block dispensing module according to claim 2, characterized in that, The first support structure includes a first support column, which extends onto the lid, or multiple first support columns are spaced apart and arranged on the lid.
4. The antibacterial block dispensing module according to any one of claims 1-3, characterized in that, The antibacterial block delivery cavity has a protruding second support structure on the bottom wall and / or side wall.
5. The antibacterial block dispensing module according to claim 4, characterized in that, The second support structure includes a plurality of second support columns, which are spaced apart on the bottom wall of the antibacterial block dispensing cavity, and the water outlet of the antibacterial block dispensing cavity is located between two adjacent second support columns.
6. The antibacterial block dispensing module according to claim 5, characterized in that, The second support structure includes a plurality of vertically extending support ribs, which are circumferentially spaced on the side wall of the antibacterial block delivery cavity.
7. The antibacterial block dispensing module according to claim 4, characterized in that, The mounting end of the lid is rotatably disposed above the second support structure on the side wall of the antibacterial block dispensing cavity. After the lid is rotated closed, the opening and closing end can be inserted into the inner side of the second support structure on the side wall of the antibacterial block dispensing cavity.
8. The antibacterial block dispensing module according to claim 1, characterized in that, Also includes A detergent dispenser, wherein the water dispenser is removable and disposed within the detergent dispenser; The water box has a handle at one end and a detergent dispensing chamber inside, which is arranged sequentially with the antibacterial block dispensing chamber along the horizontal direction of the handle.
9. A control panel base, characterized in that, Includes a tray body and an antibacterial block dispensing module as described in any one of claims 1-8. The inner peripheral wall of the clothing dispensing port of the tray body is provided with an installation port, and the antibacterial block dispensing module is installed in the tray body through the installation port.
10. A washing machine, characterized in that, Includes the control panel base as described in claim 9.