Massage mat and multi-functional spa machine
The massage mat and spa machine address the limitation of single-function bubble bath devices by incorporating separate chambers for gas-liquid mixtures and air, enabling diverse functions like deep pore cleansing and massage.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- XIAMEN SOLEX HIGH TECH INDUSTRIES CO LTD
- Filing Date
- 2025-03-06
- Publication Date
- 2026-06-18
AI Technical Summary
Existing bubble bath devices have single functions and fail to meet diverse user needs.
A massage mat with separate first and second accommodation chambers, connected to different fluid supply devices, allowing simultaneous application of gas-liquid mixtures and air for bubble water and bubble massage, respectively, with additional features like microporous materials and one-way valves for enhanced skin cleansing and massage.
The massage mat and spa machine provide diverse functions, including deep pore cleansing and massage, meeting user needs through simultaneous application of bubble water and bubbles, with optional individual operation of fluid supply devices.
Smart Images

Figure 2026099706000001_ABST
Abstract
Description
Technical Field
[0001] The present invention relates to the technical field of spa machines, and particularly to massage mats and multifunctional spa machines.
Background Art
[0002] Bubble bath is one of the most popular spa types in recent years. When a bather takes a bubble bath, they can be surrounded by a large area of water bubbles. The water bubbles in the bath water generate bursting vibrations on the surface of the bather's skin, so it can reduce stress, relax muscles, massage the skin, and promote the microcirculation of blood in the subcutaneous tissue of the human body.
[0003] With the continuous improvement of living standards, people are paying more and more attention to the quality of life. Although bubble bath devices have gradually penetrated into households, existing bubble bath devices have a single function and it is difficult to meet different needs of users.
Summary of the Invention
Problems to be Solved by the Invention
[0004] The purpose of the present invention is to provide a massage mat and a multifunctional spa machine to meet different needs of users.
Means for Solving the Problems
[0005] To achieve this purpose, the present invention adopts the following technical solutions.
[0006] A massage mat, comprising a housing, a cutting material and a microporous material. Inside the housing, a first accommodation chamber and a second accommodation chamber are provided separately. On the housing, a first inlet and a first outlet for communicating the first accommodation chamber with the outside, and a second inlet and a second outlet for communicating the second accommodation chamber with the outside are opened. The first inlet can be connected to a first fluid supply device, and the second inlet can be connected to a second fluid supply device.
[0007] Preferably, the massage mat further comprises a first joint connected to the housing, the first joint having a first channel and a second channel spaced apart from each other, the first channel used to connect the first fluid supply device to the first inlet, and the second channel used to connect the second fluid supply device to the second inlet.
[0008] Preferably, the first outlet is provided on the outer surface of the housing, and the second outlet is provided on the upper surface of the housing.
[0009] Preferably, the second storage chamber is set in a ring shape, and the first and second storage chambers are spaced apart vertically.
[0010] Preferably, the massage mat further comprises a first one-way valve, the first one-way valve allowing fluid to flow only from the second containment chamber to the second outlet.
[0011] Preferably, there is a gap in the height direction between the top wall of the second housing and the top wall of the housing, a second mounting hole is provided through the top wall of the second housing, and the first one-way valve is mounted in the second mounting hole.
[0012] Preferably, the first outlet includes a large-diameter segment and a small-diameter segment, the small-diameter segment being in communication with the first containment chamber, and the large-diameter segment being located at one end of the small-diameter segment away from the first containment chamber.
[0013] Preferably, the housing is further provided with a third housing chamber, and a third inlet and a third outlet that connect the third housing chamber to the outside, and the third outlet is configured to be connected to the inlet end of the first fluid supply device.
[0014] Preferably, the massage mat includes a first joint connected to the housing, the first joint having a first channel and a second channel spaced apart from each other, the first channel used to connect the first fluid supply device to the first inlet, the second channel used to connect the second fluid supply device to the second inlet, and the first joint further having a third channel, the third channel used to connect the third outlet to the inlet end of the first fluid supply device.
[0015] Preferably, a fourth storage chamber is further provided within the housing, and the housing is provided with a first and second passage opening that connects the fourth storage chamber to the outside, and the fourth storage chamber is used for filling with auxiliary materials.
[0016] A multifunctional spa machine comprising a host machine and a massage mat as described in any one of the above items, wherein a first fluid supply device and a second fluid supply device are provided in the host machine, the first fluid supply device is connected to the first inlet, and the second fluid supply device is connected to the second inlet.
[0017] Preferably, the first fluid supply device is a gas-liquid mixing supply device, and the second fluid supply device is an air supply device. [Effects of the Invention]
[0018] The beneficial effects of this invention are as follows:
[0019] The massage mat and multi-functional spa machine according to the present invention provide a first and second containment chamber separated within the massage mat, allowing two different fluids to act on the human body simultaneously through the massage mat, thereby satisfying the diverse needs of users. [Brief explanation of the drawing]
[0020] [Figure 1] This is a schematic perspective view of the structure of a multi-functional spa machine according to an embodiment of the present invention. [Figure 2]It is a perspective structural schematic diagram of a massage mat according to an embodiment of the present invention. [Figure 3] It is a side view of a massage mat according to an embodiment of the present invention. [Figure 4] It is a cross-sectional view of a massage mat according to an embodiment of the present invention. [Figure 5] It is a flow path diagram of gas in a massage mat according to an embodiment of the present invention. [Figure 6] It is a flow path diagram of a gas-liquid mixture in a massage mat according to an embodiment of the present invention. [Figure 7] It is an enlarged schematic diagram of location A in Figure 6. [Figure 8] It is a liquid reflux path diagram according to an embodiment of the present invention. [Figure 9] It is an exploded structural schematic diagram of a massage mat according to an embodiment of the present invention. [Figure 10] It is a structural schematic diagram of one angle of the surrounding sheet. [Figure 11] It is a structural schematic diagram of another angle of the surrounding sheet. [Figure 12] It is a structural schematic diagram of one angle of the shunt tray. [Figure 13] It is a structural schematic diagram of another angle of the shunt tray. [Figure 14] It is a structural schematic diagram of one angle of the pedestal. [Figure 15] It is a structural schematic diagram of another angle of the pedestal. [Figure 16] It is a fitting structural schematic diagram of the auxiliary material cover and the cover body. [Figure 17] It is a plan view of a multi-functional spa machine according to an embodiment of the present invention. [Figure 18] It is a cross-sectional view of a multi-functional spa machine according to an embodiment of the present invention. [Figure 19] It is another cross-sectional view of a multi-functional spa machine according to an embodiment of the present invention. [Figure 20] It is a structural schematic diagram of one angle of the connection between the first fluid supply device and the massage mat according to an embodiment of the present invention. [Figure 21]This is a schematic diagram of the connection between the first fluid supply device and the massage mat at another angle according to an embodiment of the present invention. [Figure 22] This is a schematic diagram illustrating the principle of a multifunctional spa machine according to an embodiment of the present invention, which provides a gas-liquid mixture and a gas. [Modes for carrying out the invention]
[0021] The present invention will be described in more detail below based on the drawings and examples. The specific examples described herein are for interpretation purposes only and should not be understood as limiting the present invention. For the sake of clarity, the drawings show only the parts relevant to the present invention, not all structures.
[0022] In the description of this invention, unless otherwise explicitly defined and limited, the terms “connect,” “join,” and “fix” should be understood in a broad sense, for example, a fixed connection, a removable connection, or a single unit, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediate medium, or an internal communication between two elements or an interaction relationship between two elements. A person skilled in the art may understand the specific meaning of the above terms in this invention in the context of specific situations.
[0023] In the present invention, unless otherwise explicitly defined and limited, the presence of a first feature "above" or "below" a second feature may include direct contact between the first and second features, or it may include contact between them via another feature between them without direct contact. Furthermore, the presence of a first feature "above," "above," and "on the top surface" of a second feature may include the first feature being directly above or diagonally above the second feature, or simply indicating that the horizontal height of the first feature is greater than that of the second feature. The presence of a first feature "below," "below," and "on the bottom surface" of a second feature may include the first feature being directly below or diagonally below the second feature, or simply indicating that the horizontal height of the first feature is lower than that of the second feature.
[0024] In the description of this embodiment, terms such as "up," "down," "left," and "right," which refer to directions or positional relationships, are based on the directions or positional relationships shown in the drawings and are merely used to facilitate description and simplify operation. They do not indicate or suggest that such devices or elements necessarily have a specific direction, or must be composed of and operated in a specific direction, and therefore should not be understood as limiting the present invention. Furthermore, the terms "first" and "second" are merely used for distinction in the description and have no special meaning.
[0025] In this embodiment, a massage mat and a multifunctional spa machine are provided. The multifunctional spa machine comprises a host machine 20 and a massage mat 10 according to this embodiment. The host machine 20 further comprises a first fluid supply device 21 and a second fluid supply device 22. The first fluid supply device 21 and the second fluid supply device 22 are capable of supplying a first fluid and a second fluid to the massage mat 10, respectively, and the first fluid and the second fluid have different effects when acting on the human body.
[0026] Referring to Figures 2 to 16, the massage mat 10 comprises a housing 11, which contains a first accommodation chamber 11a and a second accommodation chamber 11b spaced apart. The housing 11 also includes a first inlet 11e and a first outlet 11f communicating with the first accommodation chamber 11a, and a second inlet 11g and a second outlet 11h communicating with the second accommodation chamber 11b. The first fluid supply device 21 can supply a first fluid to the first accommodation chamber 11a via the first inlet 11e, and the second fluid supply device 22 can supply a second fluid to the second accommodation chamber 11b via the second inlet 11g. The housing 11 may be circular, square, or other shapes depending on the needs. In this embodiment, the housing 11 is circular to prevent scratches on the human body caused by the massage mat 10.
[0027] The massage mat 10 described above can perform different functions and meet the diverse needs of users. In this embodiment, the first fluid supply device 21 is a gas-liquid mixing supply device, i.e., the first fluid is a gas-liquid mixture, and the second fluid supply device 22 is an air supply device, i.e., the second fluid is a gas. Thus, the massage mat 10 can simultaneously form bubble water and bubbles in the water. Of these, the bubble water can clean deep into the user's pores, and the bubbles can perform a massage effect, thus meeting the diverse needs of users. It should be understood that bubble water and bubbles may be formed simultaneously, or the second fluid supply device 22 or the first fluid supply device 21 may be turned off to form bubble water or bubbles individually, depending on the user's needs.
[0028] In other embodiments, the first or second fluid may further be a bubble source, which can serve to cleanse the surface of the skin.
[0029] Referring to Figures 7 and 9, the massage mat 10 further comprises a cutting material 12 and / or a microporous material 13, of which the cutting material 12 is provided at the first outlet 11f and is used to further cut the gas in the gas-liquid mixture to form microbubble water and enhance the skin cleansing effect, and the microporous material 13 is provided at the second outlet 11h and is used to further divide the gas that has been injected into the liquid through the second outlet 11h into several small bubbles.
[0030] Specifically, the cutting material 12 comprises a first filter screen and a first mounting seat, the first mounting seat having a first mounting hole through which it is provided, and the first mounting seat is fixed to the first outlet 11f by a removable form including but not limited to screwing, inserting, etc., the first filter screen is provided in the first mounting hole of the first mounting seat and its pore size is between 40 and 500 mesh, the pore size of the microporous material 13 is between 50 and 300 μm, and the microporous material 13 may specifically be an air stone or another structure with voids. By fixing the cutting material 12 to the housing 11 in a removable connection form, future cleaning and replacement of the cutting material 12, especially the first filter screen, will be made easier.
[0031] In other embodiments, the cutting material 12 and the microporous material 13 may be provided at other locations on the massage mat 10, for example, the cutting material 12 may be provided at the first inlet 11e and the microporous material 13 at the second inlet 11g, or the cutting material 12 and the microporous material 13 may be provided in areas where a gas-liquid mixture and gas can flow, respectively.
[0032] In this embodiment, the massage mat 10 further comprises a first joint 14 connected to the housing 11. In order to reduce the volume of the massage mat 10, a first flow path and a second flow path, spaced apart from each other, are provided within the first joint 14. One end of the first flow path is connected to a first fluid supply device 21, and the other end communicates with a first containment chamber 11a via a first inlet 11e. One end of the second flow path is connected to a second fluid supply device 22, and the other end communicates with a second containment chamber 11b via a second inlet 11g.
[0033] At the same time, in order to rationally utilize the space on the surface of the housing 11 and improve the coverage area of the bubble water and bubbles, one of the first outlet 11f and the second outlet 11h is provided on the outer surface of the housing 11, and the other is provided on the top surface of the housing 11.
[0034] In this embodiment, multiple first outlets 11f are provided at intervals along the circumferential direction of the housing 11 on the outer surface of the housing 11, and multiple second outlets 11h are provided in a honeycomb pattern on the upper surface of the housing 11. Based on this, the first containment chamber 11a is connected to the first outlets 11f via a first flow guide passage 11m that extends radially, and the multiple first flow guide passages 11m correspond one-to-one with each first outlet 11f. More specifically, the first outlet 11f includes a large-diameter segment and a small-diameter segment, of which the small-diameter segment is connected to the first containment chamber 11a via the first flow guide passage 11m, and the large-diameter segment is located at one end of the small-diameter segment away from the first containment chamber 11a, and the cutting material 12 is provided within the large-diameter segment. The provided small-diameter segment increases the flow velocity of the gas-liquid mixture flowing to the cutting material 12, allowing the gas-liquid mixture to flow to the cutting material 12 quickly.
[0035] In other embodiments, only one second outlet 11h may be provided, and the microporous material 13 is attached to the second outlet 11h to break the gas that flows out through the second outlet 11h into small bubbles.
[0036] Furthermore, if the first containment chamber 11a and the second containment chamber 11b are in the same plane, assuming that the fluid flow area of the second containment chamber 11b is made as large as possible (to improve the bubble massage range), the second containment chamber 11 is set in an annular shape, the first containment chamber 11a is located inside the second containment chamber 11b, and the first flow guide passage 11m cuts off the second containment chamber 11b along the radial direction. As a result, it becomes difficult for the gas to flow sequentially through each second outlet 11h. Therefore, in this embodiment, the first containment chamber 11a and the second containment chamber 11b are provided separated vertically, thereby avoiding the first flow guide passage 11m affecting the flow of gas within the second containment chamber 11b. The fact that the first containment chamber 11a and the second containment chamber 11b are provided separated vertically should be understood to include two possibilities: that the first containment chamber 11a is located below the second containment chamber 11b, and that the first containment chamber 11a is located above the second containment chamber 11b.
[0037] The term "ring" here is a broad concept; it could be a square ring or a circular ring, and its specific shape should be understood to be adapted to the shape of the enclosure 11. For example, the enclosure 11 is set to be circular, and the second housing chamber 11b is set to be circular.
[0038] To prevent the liquid from flowing back to the second fluid supply device 22 via the second containment chamber 11b, the massage mat 10 further comprises a first one-way valve 17, which allows the fluid to flow only from the second containment chamber 11b to the second outlet 11h, and the first one-way valve 17 may be fitted into the second outlet 11h. In this embodiment, in order to reduce the manufacturing cost of the massage mat 10, the second containment chamber 11b is located below the first containment chamber 11a, so that there is a gap in the height direction between the top wall of the second containment chamber 11b and the top wall of the housing 11, and a plurality of second mounting holes are opened through the top wall of the second containment chamber 11b, and the first one-way valve 17 is installed in each second mounting hole in a one-to-one correspondence, and microporous material 13 is provided in the gap corresponding to all of the second outlets 11h. Exemplarily, the second mounting holes are distributed in an annular array of six.
[0039] Referring to Figures 4 and 8, in order to make full use of the environment in which the massage mat 10 is located, such as a bathtub or a bath bucket containing water or other liquids mixed with chemicals, the housing 11 is further provided with a third containment chamber 11c, and a third inlet 11i and a third outlet 11j communicating with the third containment chamber 11c. The third containment chamber 11c is not connected to either the first containment chamber 11a or the second containment chamber 11b. The third outlet 11j is used to connect to the inlet end of the first fluid supply device 21. The first fluid supply device 21 can create negative pressure in the third containment chamber 11c, and the liquid in the environment enters the third containment chamber 11c via the third inlet 11i, flows to the inlet end of the first fluid supply device 21 via the third outlet 11j, and supplies liquid to the first fluid supply device 21.
[0040] Specifically, in order to prevent foreign matter from entering the third containment chamber 11c along with the liquid through the third inlet 11i and flowing through the third containment chamber 11c to the first fluid supply device 21 and affecting the first fluid supply device 21, a first filter material 18 is provided at the third inlet 11i.
[0041] In this embodiment, the first filter material 18 comprises a second mounting seat 181 and a second filter screen 182. The second mounting seat 181 has a third mounting hole through which it passes, the second filter screen 182 is provided within the third mounting hole, and the second mounting seat 181 is fixed within the third inlet 11i by means of screwing, but not limited to screwing, thereby facilitating replacement or cleaning of the first filter material 18.
[0042] Based on the fact that the massage mat 10 further comprises a first joint 14 connected to the housing 11, a third flow path is further provided within the first joint 14, the third flow path having one end connected to a third containment chamber 11c via a third outlet 11j and the other end connected to the inlet end of the first fluid supply device 21, the third outlet 11j being located at the bottom of the housing 11.
[0043] Specifically, referring to Figures 3 and 4, the second joint 15 and the third joint 16 are inserted into the first joint 14, the first flow path is formed inside the second joint 15, the third flow path is formed inside the third joint 16, and the gap between the first joint 14 and the second joint 15 and the third joint 16 is the second flow path.
[0044] Preferably, the housing 11 is further provided with a fourth storage chamber 11d that does not communicate with any of the first storage chambers 11a, second storage chamber 11b, and third storage chamber 11c, and the housing 11 is provided with a first opening 11k and a second opening 11l that communicate with the fourth storage chamber 11d, and the setting of the first opening 11k and the second opening 11l allows the fourth storage chamber 11d to communicate with the external environment, and the fourth storage chamber 11d can be filled with auxiliary materials having different functions according to the needs, and the auxiliary materials are hydrogen-rich stones, VC balls, carbonate tablets, sulfur dioxide This includes, but is not limited to, the use of one or more types of calcium filter media and KDF filter media. Among these, hydrogen-rich stones have antioxidant and anti-inflammatory effects on the skin; VC balls, carbonate tablets, calcium sulfite filter media, and KDF filter media can remove heavy metals and residual chlorine from the water; volcanic stones and maifan stone can promote blood circulation; PP cotton and activated carbon filter media can remove residual chlorine impurities and improve water quality; and aromatic essential oils can provide fragrance during massage and improve the massage atmosphere.
[0045] Specifically, the fourth storage chamber 11d is circular in shape and located inside the first storage chamber 11a. Multiple first passages 11l are provided on the upper surface of the housing 11 and are arranged in a honeycomb pattern overall. Multiple second passages 11k are provided on the lower surface of the housing 11. In this embodiment, the first storage chamber 11a, the second storage chamber 11b, and the fourth storage chamber 11d are arranged coaxially, and the first storage chamber 11a is also set in an annular shape.
[0046] To maintain the stability of the massage mat 10 in water, the massage mat 10 is further equipped with chucks 19, and multiple chucks 19 are provided on the underside of the housing 11 to secure the massage mat 10.
[0047] Referring to Figure 9, the housing 11 comprises a base 111, a fixed lid, a surrounding sheet 114, and a flow distribution tray 115. Of these, an annular separation rib 1121 is provided on one side of the fixed lid facing the base 111. The fixed lid is connected to and surrounds the base 111 by means of insertion, bolt connection, etc., forming an inner chamber. The separation rib 1121 separates the inner chamber into a first inner chamber and a second inner chamber, with the first inner chamber being the fourth storage chamber 11d.
[0048] To facilitate the replacement of auxiliary materials in the fourth containment chamber 11d according to user needs, the fixed lid comprises a lid body 112 and an auxiliary material lid 113. The lid body 112 has an opening for mounting aligned with the separation rib 1121, and the auxiliary material lid 113 is detachably connected to the lid body 112 to close the opening. A second passage 11l is provided in the auxiliary material lid 113.
[0049] Considering that the auxiliary material is a consumable item, it needs to be replaced frequently. In this embodiment, the diameter of the mounting opening is the same as the inner diameter of the separation rib 1121, and the auxiliary material cover 113 is fixed by engaging with the separation rib 1121. Specifically, referring to Figure 16, an L-shaped engaging buckle 1122 is provided on the inner wall of the separation rib 1121, and an L-shaped rotating buckle 1131 is provided on the outer wall of the auxiliary material cover 113. The mutual engagement of the engaging buckle 1122 and the rotating buckle 1131 prevents the auxiliary material cover 113 from detaching upward from the base 111. In order to limit the depth to which the auxiliary material cover 113 enters the fourth storage chamber 11d, a stopper bar 1123 is further provided on the inner wall of the separation rib 1121, and when the upper surface of the auxiliary material cover 113 is flush with the upper surface of the cover body 112, the lower surface of the auxiliary material cover 113 abuts against the stopper bar 1123. More specifically, the engaging buckles 1122 and rotating buckles 1131 are distributed in a ring-shaped array of four.
[0050] When assembling the auxiliary cover 113 to the mounting opening, first place the auxiliary cover 113 in the fourth storage chamber 11d and bring the auxiliary cover 113 into contact with the stopper bar 1123. Then, rotate the horizontally extending end of the rotating buckle 1131 directly below the horizontally extending end of the rotating buckle 1131, thereby preventing the auxiliary cover 113 from detaching upward from the mounting base. If it is necessary to open and replace the auxiliary cover 113, simply rotate the auxiliary cover 113 in the reverse direction.
[0051] Referring to Figures 5, 6, and 9-15, the first outlet 11f is provided on the base 111, and the surrounding sheet 114 is provided on one side of the diversion tray 115 facing away from the base 111, and together with the diversion tray 115, it forms the first containment chamber 11a and the first guide passage 11m, and the diversion tray 115 has a first guide opening 115a that connects the first guide passage 11m and the first outlet 11f, and the base 111 together with the diversion tray 115 The structure encloses the second containment chamber 11b, the third containment chamber 11c, a second guide passage 11n connecting the first entrance 11e and the first containment chamber 11a, and a third guide passage 11o connecting the third exit 11j and the third containment chamber 11c. Below the second guide passage 11n, a fourth guide passage is further provided, and on each of the opposing sides of the fourth guide passage, one exhaust port 111a is provided to connect the second containment chamber 11b and the second entrance 11g. A second guide port 115d is further opened through the flow distribution tray 115 to connect the second guide passage 11n and the first containment chamber 11a.
[0052] The gas-liquid mixture enters the housing 11 via the first inlet 11e, then flows sequentially through the second flow passage 11n, the second flow port 115d, the first containment chamber 11a, the first flow passage 11m, and the first flow port 115a before flowing to the first outlet 11f. The gas, on the other hand, enters the housing 11 via the second inlet 11g, then flows sequentially through the fourth flow passage, the exhaust port 111a, the second containment chamber 11b, the first one-way valve 17, and the microporous material 13 before flowing to the second outlet 11h.
[0053] Specifically, referring to Figure 14, the base 111 has annular first blocking rib 1111 and a second blocking rib 1112 provided coaxially. The first blocking rib 1111 and the second blocking rib 1112 are provided sequentially from the inside out, and both the first blocking rib 1111 and the second blocking rib 1112 abut against the flow distribution tray 115, forming a second containment chamber 11b between the first blocking rib 1111 and the second blocking rib 1112. At the same time, the base 111 is further provided with an annular third blocking rib 1113, which is located inside the first blocking rib 1111. The outer surface of the separation rib 1121 on the lid body 112 is in close contact with the inner surface of the third blocking rib 1113, thereby improving the accuracy when assembling the lid body 112 to the base 111.
[0054] More specifically, in order to improve the strength of the structure, reinforcing ribs may be provided between the first blocking rib 1111 and the second blocking rib 1112, and between the second blocking rib 1112 and the third blocking rib 1113, with the reinforcing ribs extending along the radial direction of the first blocking rib 1111. The reinforcing rib provided between the second blocking rib 1112 and the third blocking rib 1113 is provided in only one location, and this reinforcing rib separates the second containment chamber 11b into two subcavities, each connected to a separate exhaust port 111a.
[0055] Continuing to refer to Figure 14, the base 111 is further provided with a fourth blocking rib 1114, a fifth blocking rib 1115, and a sixth blocking rib 1116. One end of each of the two fourth blocking ribs 1114 is connected to the second blocking rib 1112 and engages with the flow diversion tray 115 to form a second flow guide passage 11n. The fifth blocking rib 1115 is provided on the outside of the second blocking rib 1112 and engages with the second blocking rib 1112 and the flow diversion tray 115 to form a third containment chamber 11c. The two sixth blocking ribs 1116 engage with the flow diversion tray 115 to form a third flow guide passage 11o that communicates with the third containment chamber 11c.
[0056] In this embodiment, the base 111 and the flow divider tray 115 are welded together, and in order to improve the stability of the weld between the base 111 and the flow divider tray 115, welded ribs 1151 are provided on one side of the flow divider tray 115 facing the base 111, at positions corresponding to each of the blocking ribs on the base 111. However, this will not be explained in detail here. At the same time, a mounting sleeve for attaching the first one-way valve 17 is further provided on one side of the flow divider tray 115 facing the base 111, and a positioning column 1152 and a positioning sleeve 1117 that fit together with each other are further provided on the flow divider tray 115 and the base 111, with the positioning sleeve 1117 being inserted into the positioning column 1152.
[0057] Referring to Figures 10 to 12, on one side of the flow distribution tray 115 facing the surrounding sheet 114, there is an annular mounting groove 115b and a water passage groove 115c extending radially along the mounting groove 115b, and the first flow guide port 115a is located outside the mounting groove 115b and communicates with the mounting groove 115b.
[0058] Specifically, the surrounding sheet 114 comprises a surrounding body 1141, a flow guide section 1142, and a connecting section 1143. Of these, the surrounding body 1141 is annular, and an annular storage groove 114c is provided on one side of the surrounding body 1141 facing the flow distribution tray 115. The flow guide section 1142 protrudes radially from the surrounding body 1141, and one side of the flow guide section 1142 facing the flow distribution tray 115 is connected to the storage groove 114c. A flow groove 114b is provided, the connecting portion 1143 protrudes from the outer surface of the surrounding body 1141, a connecting groove 114a is opened on one side of the connecting portion 1143 facing the diversion tray 115, the surrounding body 1141 is inserted into the mounting groove 115b to form the first containment chamber 11a, the guide portion 1142 is inserted into the water passage groove 115c to form the first guide passage 11m, and the connecting portion 1143 is inserted into the second guide port 115d.
[0059] More specifically, the surrounding sheet 114 and the flow divider tray 115 are similarly welded together. To ensure proper positioning during welding of the surrounding sheet 114 and the flow divider tray 115, the flow divider tray 115 is provided with an annular seventh blocking rib 1153, which is located on one side of the flow divider tray 115 facing the surrounding sheet 114 and inside the storage groove 114c. The inner wall surface of the surrounding sheet 114 is attached to the outer surface of the seventh blocking rib 1153.
[0060] To improve the structural strength of the surrounding sheet 114, the surrounding sheet 114 is further equipped with a reinforcing section, which is set in a triangular shape and connects the flow guide section 1142 and the surrounding body 1141.
[0061] Referring to Figures 1, 17 to 22, the first fluid supply device 21 comprises an ejector 211, a water pump 212, an intake line 213, a mixed gas tank 214, and a solenoid valve 215. The inlet end of the ejector 211 is connected to the third outlet 11j via a return pipe 50, the intake end of the ejector 211 is connected to the intake line 213, and one end of the intake line 213 away from the ejector 211 is connected to the outlet of the solenoid valve 215. A throttle valve 217 is provided at the first inlet end of the solenoid valve 215, which is connected to the port end, and the second inlet end of the solenoid valve 215 is in communication with the outside. The discharge end of the ejector 211 is connected to the inlet end of the water pump 212, the inlet end of the mixing tank 214 is connected to the discharge end of the water pump 212, and the discharge end of the mixing tank 214 is connected to the first inlet 11e of the massage mat 10 via the inlet pipe 40.
[0062] When the water pump 212 is in operation, it pumps liquid from the operating environment where the massage mat 10 is located into the ejector 211. The liquid flows through a narrow segment of the ejector 211 and then accelerates, drawing in air through the solenoid valve 215 and pumping it together with the liquid into the gas tank. The gas-liquid mixture is thoroughly mixed in the gas tank 214, which can be pressurized so that the air dissolves in the water, and finally, bubble water is formed by the cutting material 12 provided at the first outlet 11f of the massage mat 10.
[0063] To prevent liquid from flowing back into the water pump 212 when the gas mixing tank 214 is pressurized, the first fluid supply device 21 is further equipped with a second one-way valve 216, which is located between the water pump 212 and the gas mixing tank 214.
[0064] Continuing to refer to Figures 17 to 24, the second fluid supply device 22 is equipped with a fan 221, which is connected to the second inlet 11g via an inlet pipe 30 to supply gas to the massage mat 10.
[0065] The second fluid supply device 22 further comprises a second filter material 222 and a third one-way valve 223. The second filter material 222 is provided at the intake end of the fan 221 to filter and remove impurities from the air. Specifically, the second filter material 222 may be made of filter cotton. The third one-way valve 223 is provided at the exhaust end of the fan 221 to prevent the recirculation of gas.
[0066] In this embodiment, both the return water pipe 50 and the inlet water pipe 40 are installed through the inlet pipe 30. The inlet pipe 30 is connected to the first joint 14, the inlet water pipe 40 is connected to the second joint 15, and the return water pipe 50 is connected to the third joint 16. Specifically, the inlet water pipe 30 employs a bellows, and both the second joint 15 and the third joint 16 protrude from one end away from the housing 11 of the first joint 14. This reduces the difficulty of connecting the inlet water pipe 40 to the second joint 15 and the return water pipe 50 to the third joint 16.
[0067] The host machine 20 further comprises a host machine casing 23, a control circuit board, and an operation panel. The first fluid supply device 21, the second fluid supply device 22, and the control circuit board are all housed within the host machine casing 23. The operation panel is fitted into the host machine casing 23, and the control circuit board is electrically connected to the operation panel, the first fluid supply device 21, and the second fluid supply device 22. In actual use, the multi-functional spa machine can be controlled by the operation panel.
[0068] Of course, the above embodiments of the present invention are merely for illustrative purposes and do not limit the embodiments of the present invention. Those skilled in the art can make various obvious changes, adjustments, and substitutions without departing from the scope of protection of the present invention. There is no need or method to cover all embodiments here. Any changes, equivalent substitutions, and improvements made within the spirit and principles of the present invention should all be included within the scope of protection of the claims of the present invention. [Explanation of symbols]
[0069] In the diagram: 10...Massage mat, 11...Housing, 111...Base, 1111...First blocking rib, 1112...Second blocking rib, 1113...Third blocking rib, 1114...Fourth blocking rib, 1115...Fifth blocking rib, 1116...Sixth blocking rib, 1117...Positioning sleeve, 111a...Ventilation port, 112...Lid body, 1121...Separation rib, 1122... ...Engaging buckle, 1123...Stopper bar, 113...Auxiliary cover, 1131...Rotating buckle, 114...Enclosure sheet, 1141...Enclosure body, 1142...Flow guide section, 1143...Communicating section, 114a...Communicating groove, 114b...Flow guide groove, 114c...Storage groove, 115...Flow diversion tray, 1151...Welding rib, 1152...Positioning column, 1153... 7th blocking rib, 115a...1st outlet, 115b...mounting groove, 115c...water drainage groove, 115d...2nd outlet, 11a...1st containment chamber, 11b...2nd containment chamber, 11c...3rd containment chamber, 11d...4th containment chamber, 11e...1st entrance, 11f...1st exit, 11g...2nd entrance, 11h...2nd exit, 11i...3rd entrance, 11j... 3 outlets, 11k...1st passage, 11l...2nd passage, 11m...1st guide passage, 11n...2nd guide passage, 11o...3rd guide passage, 12...cut material, 13...microporous material, 14...1st joint, 15...2nd joint, 16...3rd joint, 17...1st one-way valve, 18...1st filter material, 181...2nd mounting seat, 182...2nd filter screen, 19...chuck 20...Host machine, 21...First fluid supply device, 211...Ejector, 212...Water pump, 213...Intake line, 214...Aerosol tank, 215...Solenoid valve, 216...Second one-way valve, 217...Throttle valve, 22...Second fluid supply device, 221...Fan, 222...Second filter material, 223...Third one-way valve, 23...Host machine casing, 30...Air intake pipe, 40...Inlet pipe, 50...Return pipe.
Claims
1. A massage mat, wherein the massage mat is The device comprises a housing (11), the housing (11) having a first storage chamber (11a) and a second storage chamber (11b) spaced apart, the housing (11) having a first inlet (11e) and a first outlet (11f) communicating with the first storage chamber (11a), and a second inlet (11g) and a second outlet (11h) communicating with the second storage chamber (11b), the first inlet (11e) being connectable to a first fluid supply device (21), and the second inlet (11g) being connectable to a second fluid supply device (22). A massage mat characterized by the following features.
2. The massage mat further comprises a cut material (12) and / or a microporous material (13), wherein the cut material (12) is provided at the first outlet (11f) and the microporous material (13) is provided at the second outlet (11h). The massage mat according to feature 1.
3. The massage mat further comprises a first joint (14) connected to the housing (11), and within the first joint (14) are provided a first flow path and a second flow path spaced apart from each other, the first flow path being used to connect the first fluid supply device (21) to the first inlet (11e), and the second flow path being used to connect the second fluid supply device (22) to the second inlet (11g). The massage mat according to feature 1.
4. The first outlet (11f) is provided on the outer surface of the housing (11), and the second outlet (11h) is provided on the upper surface of the housing (11). The massage mat according to feature 1.
5. The second storage chamber (11b) is set in a ring shape, and the first storage chamber (11a) and the second storage chamber (11b) are provided separated vertically. The massage mat according to feature 4.
6. The massage mat further comprises a first one-way valve (17), the first one-way valve (17) allowing fluid to flow only from the second containment chamber (11b) to the second outlet (11h). The massage mat according to feature 1.
7. A gap exists in the height direction between the top wall of the second housing chamber (11b) and the top wall of the housing (11), and a second mounting hole is formed by penetrating the top wall of the second housing chamber (11b), and the first one-way valve (17) is installed in the second mounting hole. The massage mat according to feature 6.
8. The first outlet (11f) includes a large-diameter segment and a small-diameter segment, the small-diameter segment being in communication with the first containment chamber (11a), and the large-diameter segment being located at one end of the small-diameter segment away from the first containment chamber (11a). The massage mat according to feature 1.
9. The housing (11) is further provided with a third storage chamber (11c), and a third inlet (11i) and a third outlet (11j) communicating with the third storage chamber (11c), the third outlet (11j) being configured to be connected to the inlet end of the first fluid supply device (21). The massage mat according to feature 1.
10. The massage mat comprises a first joint (14) connected to the housing (11), the first joint (14) having a first channel and a second channel spaced apart from each other, the first channel used to connect the first fluid supply device (21) to the first inlet (11e), the second channel used to connect the second fluid supply device (22) to the second inlet (11g), and the first joint (14) further having a third channel, the third channel used to connect the third outlet (11j) to the pre-filled liquid end of the first fluid supply device (21). The massage mat according to feature 9.
11. A fourth storage chamber (11d) is further provided within the housing (11), and a first access opening (11k) and a second access opening (11l) are provided in the housing (11) that communicate with the fourth storage chamber (11d), and the fourth storage chamber (11d) is used for filling with auxiliary materials. The massage mat according to feature 1.
12. A multifunctional spa machine comprising a host machine (20) and a massage mat according to any one of claims 1 to 10, wherein the host machine (20) is provided with a first fluid supply device (21) and a second fluid supply device (22), the first fluid supply device (21) being connected to the first inlet (11e) and the second fluid supply device (22) being connected to the second inlet (11g), A multi-functional spa machine characterized by its features.
13. The first fluid supply device (21) is a gas-liquid mixing supply device, and the second fluid supply device (22) is an air supply device. The multi-functional spa machine according to feature 12.