TW202200873A - Water discharging device having ozone supply inner pipe including a water outlet part, a mixing part, a supporting ring seat part and a foaming part - Google Patents

Abstract

The invention includes a water outlet part, a mixing part, a supporting ring seat part and a foaming part. The water outlet part includes a water outlet channel and an ozone supply inner pipe. The mixing part is connected to the water outlet channel and the ozone supply inner pipe. The supporting ring seat part is connected with the mixing part and includes an annular inner wall and a plurality of concave air holes. The foaming part is disposed in the supporting ring seat part and includes an annular outer wall and a plurality of air guide holes. The air guide holes correspond to the concave air holes. A uniform airflow channel is formed between the annular outer wall and the annular inner wall. Water can enter the foaming part through the water outlet channel and the supporting ring seat part. Ozone can be supplied into the foaming part through the ozone supply inner pipe, the plurality of concave air holes, the uniform airflow channel and the plurality of air guide holes. Water and ozone may be discharged from the foaming part after mixing uniformly at the foaming part. The invention has good mixing effects of ozone and water. The ozone supply inner pipe is built-in and more beautiful in appearance.

Description

Water outlet with ozone supply inner pipe

The present invention relates to a water outlet device with an ozone supply inner pipe, especially a water outlet device with an ozone supply inner pipe which has good mixing effect of ozone and water, and the ozone supply inner pipe is a built-in and more beautiful.

Referring to Figure 8, the first known ozone faucet mainly includes: A water outlet 61 is used for supplying the water liquid 91 . A mixing part 62 is connected to the water outlet part 61 . An ozone supplying part 63 is connected to the mixing part 62 laterally, and is used for supplying an ozone 92 to the mixing part 62 . Thereby, the mixed liquid of the water liquid 91 and the ozone 92 is supplied from the mixing part 62 . However, the ozone 92 is supplied from the "side" of the mixing part 62, that is, when it starts to be supplied into the mixing part 62, and before it is evenly mixed with the water liquid 91, it may have been absorbed by the water liquid 91 The mixing portion 62 is punched out. In addition to the uneven mixing, the design of the horizontal link is rather unsightly. Especially if the supply device for ozone 92 (not shown in the figure) is installed in the inner space below the kitchen countertop, drilling is required during construction to lead out the conduit to the ozone supply portion 63, and finally along the faucet and the flow The surface (or wall) of the table is fixed, which seriously damages the aesthetics and greatly reduces the overall texture. Referring to Figure 9, the second known ozone faucet mainly includes: A water outlet 71 is used for supplying the water liquid 91 . A mixing part 72 is connected to the water outlet part 71, and the mixing part 72 has an inner curved channel 721 (rightward, downward and leftward in FIG. 9). An ozone supplying part 73 is connected to the water outlet 71 and the mixing part 72 , and supplies an ozone 92 to the mixing part 72 through the inner curved channel 721 . The point is that although the ozone supply part 73 is arranged in the water outlet part 71 , when approaching the mixing part 72 , the ozone 92 still passes through the inner curved channel 721 and is on one side (the right side in FIG. 9 ) ) directly into the nearest hole (722), so that when mixed with the water 91, the solubility (or mixing degree) of the ozone 92 in the right area Z1 is better, as opposed to the ozone 92 in the left area Z2 The solubility (or mixing degree) is poor. In addition to the problem of uneven mixing. In addition, the inner curved channel 721 is provided inside the mixing portion 72, which is not only difficult to manufacture, but also has a high overall cost. In view of this, it is necessary to develop a technology that can solve the above-mentioned conventional shortcomings.

The purpose of the present invention is to provide a water outlet device with an ozone supply inner pipe, which has the advantages of good mixing effect of ozone and water, and a built-in ozone supply inner pipe, which is more beautiful. In particular, the problem to be solved by the present invention is that the known ozone faucet has problems such as uneven mixing of ozone and water, and the design of horizontal connection is rather unsightly. The technical means to solve the above problem is to provide a water outlet device with an ozone supply inner pipe, which includes: A water outlet has a water inlet end and a water outlet end, the water outlet has a water outlet channel and an ozone supply inner pipe, the water outlet channel and the ozone supply inner pipe are arranged in the water outlet part and between the water inlet between the end and the outlet end; A mixing part is connected to the water outlet, the mixing part has a water guiding channel, an air guiding channel, a first fixing part and an accommodating space; the water guiding channel is connected with the water outlet channel, and the air guiding channel is connected with the an ozone supply inner pipe; the accommodating space communicates with the water guiding channel, the air guiding channel and the first fixing part; a support ring seat part, which is connected to the mixing part, the support ring seat part has a second fixing part, an annular inner wall, a plurality of concave air holes, a ring seat water inlet end and a ring seat water outlet end; the The second fixing portion is used for connecting the supporting ring seat portion to the first fixing portion. The plurality of concave air holes are evenly distributed along the annular inner wall and penetrate through the annular inner wall. The water inlet end of the ring seat is communicated with the water guiding channel, and the water outlet end of the ring seat is communicated with the plurality of concave air holes; A bubbling part is erected in the supporting ring seat part, and the bubbling part has an annular outer wall, a plurality of air guide holes, a supply end and a supply end; each air guide hole communicates with the corresponding inner concave The air hole and the air guide channel, an average airflow channel is formed between the annular outer wall and the annular inner wall, the supply end is connected to the water inlet end of the ring seat, and the supply end is connected to the water outlet end of the ring seat; Thereby, when a water liquid is supplied to the water outlet channel, the water liquid enters the supporting ring seat portion and the foaming through the water guiding channel, the accommodating space, the feeding end and the water inlet end of the ring seat part, and when an ozone is supplied to the inner ozone supply pipe, the ozone enters the average airflow channel through the air guide channel and the plurality of concave air holes, and is evenly distributed between the annular inner wall and the annular outer wall , and then supplied into the foaming part through the plurality of air guide holes, and the water liquid and the ozone are uniformly mixed in the foaming part and then supplied. The above objects and advantages of the present invention can be easily understood from the detailed description and accompanying drawings of the following selected embodiments. Hereinafter, the present invention will be described in detail with the following examples and accompanying drawings:

Referring to Figures 1, 2, 3 and 4, the present invention is a water outlet device with an ozone supply inner pipe, which includes: a water outlet 10 having a water inlet end 10A and a water outlet end 10B, the water outlet The part 10 has a water outlet channel 11 and an ozone supply inner pipe 12, the water outlet channel 11 and the ozone supply inner pipe 12 are arranged in the water outlet part 10, and between the water inlet end 10A and the water outlet end 10B . A mixing part 20 is connected to the water outlet 10B. The mixing part 20 has a water guiding channel 21 , an air guiding channel 22 , a first fixing part 23 and an accommodating space 24 . The water guiding channel 21 communicates with the water outlet channel 11 , the air guiding channel 22 communicates with the ozone supply inner pipe 12 ; the accommodating space 24 communicates with the water guiding channel 21 , the air guiding channel 22 and the first fixing portion 23 . A support ring seat portion 30 is connected to the mixing portion 20 . The support ring seat portion 30 has a second fixing portion 31 , an annular inner wall 33 , a plurality of concave air holes 34 , and a ring seat water inlet 35 . And a ring seat outlet 36 (as shown in Figure 5). The second fixing portion 31 is used for connecting the supporting ring seat portion 30 to the first fixing portion 23 ; the plurality of concave air holes 34 are evenly distributed along the annular inner wall 33 (at the same height), and penetrate through the The annular inner wall 33 , the water inlet end 35 of the ring seat is connected to the water guiding channel 21 , and the water outlet end 36 of the ring seat is connected to the plurality of concave air holes 34 . A bubbling portion 40 is erected in the supporting ring seat portion 30, and the bubbling portion 40 has an annular outer wall 42, a plurality of air guide holes 43, a supply end 44 and a supply end 45 (as shown in FIG. 6). Show). Each air guide hole 43 communicates with the corresponding concave air hole 34 and the air guide channel 22 , an average air flow channel A is formed between the annular outer wall 42 and the annular inner wall 33 , and the supply end 44 is communicated with The water inlet end 35 of the ring seat, and the supply and outlet end 45 are connected to the water outlet end 36 of the ring seat. Thereby (as shown in FIG. 4 ), when a water liquid 91 is supplied to the water outlet channel 11 , the water liquid 91 enters through the water guide channel 21 , the accommodating space 24 , the supply end 44 and the ring seat. The water end 35 enters the supporting ring seat portion 30 and the bubbling portion 40, and when an ozone 92 is supplied to the ozone supply inner pipe 12, the ozone 92 passes through the air guide channel 22 and the plurality of concave air holes 34. Enter the average airflow channel A, and evenly distribute between the annular inner wall 33 and the annular outer wall 42, and then pass through the plurality of air guide holes 43, and feed into the bubbling part 40, the water liquid 91 and the ozone 92 is uniformly mixed in the foaming part 40 and then supplied. In practice, the support ring seat portion 30 may further include a support flange 32, the support flange 32 is protruded from the inside of the support ring seat portion 30 toward the center position, and the annular inner wall 33 is protruded from the support ring seat portion 30. The support flange 32 extends downward. The bubbling portion 40 corresponds to the supporting flange 32 , and has an erecting flange 41 , and the erecting flange 41 is for the bubbling portion 40 to be erected on the supporting flange 32 . The feeding end 44 can be a mesh filter structure. The feed-out end 45 can be a mesh filter structure (as shown in FIG. 7 ). The key point of the present invention is (refer to Figures 4, 5, 6 and 7) that the ozone 92 can be uniformly supplied and distributed in the bubbling part 40 through the following paths: [a] Straight path: the The ozone 92 is linearly supplied into the air guide passage 22 from the ozone supply inner pipe 12 . [b] Annular air intake path: The ozone 92 enters from the horizontal direction of the air guide channel 22 , first hits the annular outer wall 42 to form an annular air intake, and then flows in through the plurality of concave air holes 34 . [c] Turning downward average distribution path: The ozone 92 enters the average airflow channel A (annular gap) from the plurality of concave pores 34, and then flows vertically downward, and is evenly distributed on the annular inner wall 33 and the between the annular outer walls 42 . [d] Air supply path in the center direction: the ozone 92 is uniformly supplied and distributed toward the center direction of the bubbling part 40 from the average air flow channel A through the plurality of air guide holes 43 . Thereby, the uniformity of mixing the ozone 92 with the aqueous liquid 91 in the foaming portion 40 can be improved. Further, refer to Table 1 below: Table 1 faucet style Water pressure (kg/cm ² ) Measured value of ozone concentration in water after effluent (ppm) Commercial style one 1.5 0.27 Commercial style two 1.5 0.34 this case 1.5 0.40 It can be seen from Table 1 that under the same water pressure, the measured value (ppm) of ozone concentration in the water in this case is significantly higher than that of the commercially available models 1 and 2, so the sterilization effect of this case is better. The advantages and effects of the present invention are as follows: [1] The mixing effect of ozone and water is good. The ozone of the present invention is supplied and distributed in the bubbling part in a fairly uniform state after passing through the straight path, the annular air inlet path, the turning downward average distribution path and the central direction air supply path, and then mixed with the water-liquid , so that the bubbles of the water are uniform, and the sterilization effect of ozone is improved. Therefore, the mixing effect of ozone and water is good. [2] The inner tube of ozone supply is built-in and more beautiful. Generally, water supply devices with sterilization function are installed, which are basically medium-to-high-level interior design, which is not only functionally oriented, but may also include aesthetic orientation. Aiming at this part, the present invention not only improves the ozone sterilization effect, but also hides the ozone supply inner pipe in the water outlet pipe, so that a single water outlet pipe can provide ozone mixed water. Therefore, the inner tube of ozone supply is more beautiful. The above is only to describe the present invention in detail by means of preferred embodiments, and any simple modifications and changes made to the embodiments do not depart from the spirit and scope of the present invention.

10, 61, 71: Water outlet 10A: water inlet 10B: Water outlet 11: Outlet channel 12: Ozone supply inner pipe 20, 62, 72: Mixed Department 21: water channel 22: Air guide channel 23: The first fixed part 24: accommodating space 30: Support ring seat 31: Second fixed part 32: Support flange 33: annular inner wall 34: Concave air hole 35: Water inlet end of ring seat 36: Water outlet of ring seat 40: Foaming part 41: Erection flange 42: annular outer wall 43: Air guide hole 44: Feeding end 45: Supply and output end 63, 73: Ozone supply part 721: Internal curved channel 722: Hole 91: water liquid 92: Ozone A: Average airflow channel Z1: Right area Z2: left area

Figure 1 is an exploded schematic view of the present invention Figure 2 is a schematic diagram of the present invention Fig. 3 is a partial cross-sectional view of Fig. 2 Figure 4 is a partially enlarged schematic diagram of Figure 3 Figure 5 is a schematic diagram of the support ring seat of Figure 4 Fig. 6 is a schematic diagram of the bubbling part of Fig. 4 Figure 7 is a schematic diagram of the uniform mixing of water and ozone in Figure 6 Figure 8 is a schematic diagram of the first known ozone faucet Fig. 9 is a schematic diagram of the second known ozone faucet

10: Water outlet

10B: Water outlet

11: Outlet channel

12: Ozone supply inner pipe

20: Mixing Department

21: water channel

22: Air guide channel

23: The first fixed part

24: accommodating space

30: Support ring seat

31: Second fixed part

32: Support flange

33: annular inner wall

34: Concave air hole

35: Water inlet end of ring seat

36: Water outlet of ring seat

40: Foaming part

41: Erection flange

42: annular outer wall

43: Air guide hole

44: Feeding end

45: Supply and output end

91: water liquid

92: Ozone

A: Average airflow channel

Claims (4)

A water outlet device with an ozone supply inner pipe, comprising: A water outlet has a water inlet end and a water outlet end, the water outlet has a water outlet channel and an ozone supply inner pipe, the water outlet channel and the ozone supply inner pipe are arranged in the water outlet part and between the water inlet between the end and the outlet end; A mixing part is connected to the water outlet, the mixing part has a water guiding channel, an air guiding channel, a first fixing part and an accommodating space; the water guiding channel is connected with the water outlet channel, and the air guiding channel is connected with the an ozone supply inner pipe; the accommodating space communicates with the water guiding channel, the air guiding channel and the first fixing part; a support ring seat part, which is connected to the mixing part, the support ring seat part has a second fixing part, an annular inner wall, a plurality of concave air holes, a ring seat water inlet end and a ring seat water outlet end; the The second fixing portion is used for connecting the supporting ring seat portion to the first fixing portion. The plurality of concave air holes are evenly distributed along the annular inner wall and penetrate through the annular inner wall. The water inlet end of the ring seat is communicated with the water guiding channel, and the water outlet end of the ring seat is communicated with the plurality of concave air holes; A bubbling part is erected in the supporting ring seat part, and the bubbling part has an annular outer wall, a plurality of air guide holes, a supply end and a supply end; each air guide hole communicates with the corresponding inner concave The air hole and the air guide channel, an average airflow channel is formed between the annular outer wall and the annular inner wall, the supply end is connected to the water inlet end of the ring seat, and the supply end is connected to the water outlet end of the ring seat; Thereby, when a water liquid is supplied to the water outlet channel, the water liquid enters the supporting ring seat portion and the foaming through the water guiding channel, the accommodating space, the feeding end and the water inlet end of the ring seat part, and when an ozone is supplied to the inner ozone supply pipe, the ozone enters the average airflow channel through the air guide channel and the plurality of concave air holes, and is evenly distributed between the annular inner wall and the annular outer wall , and then supplied into the foaming part through the plurality of air guide holes, and the water liquid and the ozone are uniformly mixed in the foaming part and then supplied. The water outlet device with an ozone supply inner pipe as described in claim 1, wherein: The support ring seat portion includes a support flange, the support flange protrudes from the inside of the support ring seat portion toward the center position, and the annular inner wall extends downward from the support flange; The bubbling part corresponds to the supporting flange and has a erecting flange, and the erecting flange is for the bubbling part to be erected on the supporting flange. The water outlet device with an ozone supply inner tube as claimed in claim 1, wherein the supply end is a mesh filter structure. The water outlet device with an ozone supply inner pipe as claimed in claim 1, wherein the supply and outlet end is a mesh filter structure.

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