Cleaning a frother

By designing a simplified cleaning foam pot structure and using a screw-on adjustment sleeve to adjust the water pattern, the operation is simplified, production costs are reduced, and assembly efficiency is improved. This solves the problems of inconvenient operation and numerous parts in existing cleaning foam pots, and achieves a highly efficient cleaning effect.

CN224409189UActive Publication Date: 2026-06-26SHANGHAI PEAKPOWER MANUFACTURING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI PEAKPOWER MANUFACTURING CO LTD
Filing Date
2025-07-04
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing car wash foam sprayers require holding both ends of the nozzle simultaneously when adjusting the water pattern, which is inconvenient to operate. Furthermore, their complex structure and numerous parts result in low production and assembly efficiency and high costs.

Method used

A foam cleaning pot was designed, including a foaming body and a nozzle. The nozzle consists of a mixing tube, a support sleeve, an adjusting sleeve, and a water pattern adjusting clamp. The water pattern is adjusted by turning the adjusting sleeve on the adjusting sleeve, simplifying the operation. The support sleeve and the mixing tube are fixed by a positioning rod and a positioning component, reducing production costs. The foaming body is equipped with an air inlet, a water inlet, and a water outlet, reducing the number of parts and improving assembly efficiency.

Benefits of technology

It enables simple and convenient water pattern adjustment, reduces production costs and assembly difficulty, and improves cleaning effect and production efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224409189U_ABST
    Figure CN224409189U_ABST
Patent Text Reader

Abstract

The utility model relates to cleaning technical field especially relates to a kind of cleaning foam kettle for generating cleaning foam.For the convenience of adjusting the output water type of cleaning foam kettle, the utility model provides a kind of cleaning foam kettle, it includes foaming body and nozzle, in nozzle, the mixing inlet of mixing pipe is connected with the fluid output end of foaming body;Supporting sleeve is fixed on mixing pipe, and foaming ball is arranged between the fluid outlet on supporting sleeve and the mixing outlet on mixing pipe;In adjusting sleeve, positioning sleeve is fixed on supporting sleeve and is close to foaming body;Adjusting sleeve is peripherally fixed on supporting sleeve and is connected with positioning sleeve screw, adjusting inner ring is provided on the inner wall of adjusting sleeve, two center-symmetrical reducing grooves are provided on adjusting inner ring;Water type adjusting clamp is installed and fixed at the fluid outlet on supporting sleeve, and two adjusting clamps are stretched out from adjusting inner ring and are clamped in reducing groove.The utility model is simple and convenient for the output water type adjustment of cleaning foam kettle.
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Description

Technical Field

[0001] This utility model relates to the field of cleaning technology, and in particular to a cleaning foam pot for generating cleaning foam. Background Technology

[0002] Existing car wash foam sprayers require holding both ends of the adjusting sleeve on the nozzle simultaneously to adjust the water pattern, which is inconvenient and affects usability. Furthermore, existing foam sprayers have a complex structure and numerous parts, leading to low production and assembly efficiency and difficulties in controlling production costs. Utility Model Content

[0003] To facilitate the adjustment of the output water pattern of a foaming pot, this utility model proposes a foaming pot, which includes a foaming body and a nozzle. The nozzle includes a mixing tube, a support sleeve, an adjusting sleeve, and a water pattern adjusting clamp. The mixing inlet of the mixing tube is connected to the fluid output end of the foaming body.

[0004] The support sleeve is fixed on the mixing pipe, and a foaming ball is provided between the fluid outlet on the support sleeve and the mixing outlet on the mixing pipe.

[0005] The adjusting sleeve includes a positioning sleeve and an adjusting sleeve. The positioning sleeve is fitted onto and fixed to the supporting sleeve, and the positioning sleeve is close to the foam body. The adjusting sleeve is fitted onto the outer periphery of the supporting sleeve and is threadedly connected to the positioning sleeve. An adjusting inner ring is provided on the inner wall of the adjusting sleeve. The adjusting inner ring is close to the adjusting port on the adjusting sleeve and is located between the adjusting port and the fluid outlet on the supporting sleeve. The adjusting inner ring is provided with two centrally symmetrical variable diameter grooves.

[0006] The water-type regulating clamp is installed and fixed at the fluid outlet on the support sleeve, and the two regulating clips in the water-type regulating clamp extend from the regulating inner ring and are locked in the variable diameter slide groove.

[0007] When using this invention to clean a foam pot, the user only needs to twist the adjusting sleeve inside the adjusting sleeve to rotate the inner adjusting ring around the water pattern adjusting clamp. This allows the user to adjust the distance between the two adjusting clips in the water pattern adjusting clamp via the variable-diameter groove on the inner ring, thus adjusting the output water pattern of the foam pot. Therefore, this invention makes adjusting the output water pattern of the foam pot simple and convenient; simply twisting the adjusting sleeve on the adjusting sleeve is all that's needed.

[0008] Preferably, the support sleeve is provided with a positioning through hole, in which a positioning rod is installed, and the middle part of the positioning rod is engaged in a positioning groove on the outer wall of the mixing pipe; a positioning ring plate is clamped around the fluid output end of the mixing pipe and the foam body, and a positioning groove is provided on the positioning ring plate; a positioning blind hole is provided at the positioning end of the support sleeve, in which a positioning element is installed, and one end of the positioning element facing the positioning ring plate is inserted into the positioning groove. In this way, the positioning rod and the positioning element cooperate to fix the support sleeve and the mixing pipe relatively, which is stable and easy to assemble. Further, the positioning element includes a positioning spring and a positioning post. The positioning spring is installed in the positioning blind hole, one end of the positioning post is inserted into the positioning blind hole and abuts against the positioning spring, and the other end of the positioning post is inserted into the positioning groove. In this way, the positioning component consisting of a positioning spring and a positioning post can not only use the elastic tension of the positioning spring to keep the positioning post stable and fixed in the positioning blind hole and positioning groove, but also reduce the accuracy of the dimensional specifications of the positioning post, positioning blind hole and positioning groove, reduce the processing and assembly accuracy requirements of the foam cleaning pot of this utility model, and reduce the production cost of the foam cleaning pot of this utility model.

[0009] Preferably, the support sleeve is provided with an air inlet channel, which is located around the fluid outlet and communicates with the mixing cavity in the mixing pipe through a mixing air inlet hole on the mixing pipe. In this way, during use, air can be supplied to the mixing cavity in the mixing pipe through the air inlet channel on the support sleeve and the mixing air inlet hole on the mixing pipe, allowing the foaming ball to perform secondary foaming on the foam liquid formed after the initial mixing and foaming of the foaming body. This ensures thorough mixing of the cleaning liquid and the supplied air, producing abundant foam output and improving the cleaning effect of the foaming pot of this invention. Furthermore, the support sleeve is provided with multiple air inlets, which are evenly distributed around the fluid outlet. In this way, during use, multiple air inlets can provide sufficient air for the secondary foaming of the foaming ball, thereby ensuring thorough mixing of the cleaning liquid and air, increasing the richness of the foam, and further improving the cleaning effect of the foaming pot of this invention.

[0010] Preferably, a support frame is installed at the fluid outlet of the support sleeve. This support frame includes a support sleeve and a support clamp. The support sleeve is fitted onto the fluid outlet and engages the positioning plate on the water pattern adjusting clamp. The support clamp is attached to the adjusting clamp and clamped between the adjusting clamp and the adjusting inner ring. Thus, by using the support sleeve on the support frame to engage the positioning plate on the water pattern adjusting clamp, the water pattern adjusting clamp is fixed at the fluid outlet of the support sleeve, preventing the adjusting clamp on the water pattern adjusting clamp from shifting or becoming misaligned during the rotation of the adjusting sleeve. The support clamp also supports the adjusting clamp on the water pattern adjusting clamp, preventing deformation of the adjusting clamp under the impact of the output fluid from the foaming pot of this invention. Therefore, in the foaming pot of this invention, the support frame including the support sleeve and the support clamp can prevent the adjusting clamp in the water pattern adjusting clamp from shifting or becoming misaligned and deformed, improving the accuracy of the output water pattern adjustment. Furthermore, a support clamp block is provided at the free end of the support clamp away from the support sleeve, and this support clamp block is located in the variable diameter groove. Thus, when the adjusting sleeve is turned, the variable-diameter slide groove adjusts the distance between the two adjusting clips in the water pattern adjusting clamp via the support clamp, which improves the accuracy of the output water pattern adjustment, allowing the output water pattern of the foam cleaning kettle of this invention to be arbitrarily adjusted between a straight water pattern and a 360° fan-shaped water pattern. More preferably, the support sleeve is provided with a supporting outer ring, which is sandwiched between the support sleeve and the adjusting sleeve; the inner wall of the adjusting sleeve is provided with a limiting rib, which is located between the adjusting inner ring and the supporting outer ring. Thus, when adjusting the output water pattern of the foam cleaning kettle of this invention by turning the adjusting sleeve, the supporting outer ring on the support sleeve and the limiting rib on the inner wall of the adjusting sleeve can be used to limit the rotation depth of the adjusting sleeve, preventing the supporting clamp from sliding out of the variable-diameter slide groove due to excessive rotation depth, which would affect the efficiency of the foam cleaning kettle of this invention.

[0011] Preferably, the foaming body is provided with an air inlet, a water inlet, and a feeding end. The air inlet is provided with an air inlet regulating hole for connecting an air inlet regulating valve. The air inlet regulating hole communicates with the central mixing chamber in the middle of the foaming body, and an air inlet hole is provided on the side wall of the air inlet regulating hole. The water inlet is provided with a water inlet hole communicating with the central mixing chamber. The water inlet is connected to a water inlet pipe and is positioned opposite to the fluid output end. The feeding end is provided with a feeding hole communicating with the central mixing chamber. The feeding end is connected to the kettle body and is positioned opposite to the air inlet. The feeding end is connected to a straw that extends into the kettle body. Thus, the foaming body of this invention's foam cleaning pot is equipped with an air inlet, a water inlet, and a feeding end. This allows for direct connection between the air inlet regulating valve, the water inlet pipe, and the pot body and the foaming body, reducing the number of parts, improving production and assembly efficiency, and lowering production costs. A straw is connected to the feeding end for easy extraction of cleaning solution from the pot during use. Furthermore, a gravity suction ball is connected to the end of the straw furthest from the feeding end. This gravity suction ball allows for easy adjustment of the straw's position within the pot to ensure complete extraction of the cleaning solution and minimize waste. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of the foam cleaning pot of this utility model;

[0013] Figure 2 This is a first-view structural diagram of the foam cleaning kettle of this utility model when the kettle body is removed.

[0014] Figure 3 for Figure 2 A schematic diagram of the AA cross-sectional structure in the diagram;

[0015] Figure 4 for Figure 3 A magnified diagram of Q in the diagram;

[0016] Figure 5 for Figure 2 Schematic diagram of the BB cross-sectional structure in the middle;

[0017] Figure 6 This is a second-view structural diagram of the foam cleaning kettle of this utility model when the kettle body is removed;

[0018] Figure 7 for Figure 6 A schematic diagram of the CC cross-sectional structure. Detailed Implementation

[0019] Below, in conjunction with Figures 1 to 7 This invention provides a detailed description of the foam cleaning pot.

[0020] like Figures 1 to 7 As shown, the cleaning foam pot of this utility model includes a foaming body 1 and a nozzle 2. The foaming body 1 is provided with an air inlet 11, a water inlet 12, a feed inlet 13, and a fluid output end 14. An air inlet regulating valve 3 is installed on the air inlet 11. The water inlet 12 is connected to a water inlet pipe 4. The feed inlet 13 is connected to the pot body 5. The fluid output end 14 is connected to the nozzle 2. In use, the air inlet regulating valve 3 is opened to input air into the central mixing chamber 101 in the middle of the foaming body 1. The water inlet pipe 4 inputs water into the central mixing chamber 101. The feed inlet 13 draws cleaning liquid from the pot body 5 and delivers it to the central mixing chamber 101. Thus, the cleaning liquid, water, and air are initially mixed in the central mixing chamber 101 and then delivered to the nozzle 2 through the fluid output end 14, from which the liquid is sprayed out. Preferably, the fluid output end 14 is provided with a fluid output hole 141 communicating with the nozzle 2; the air inlet end 11 is provided with an air inlet regulating hole 111 for connecting to the air inlet regulating valve 3, the air inlet regulating hole 111 communicating with the middle mixing chamber 101, and an air inlet hole 112 is provided on the side wall of the air inlet regulating hole 111; the water inlet end 12 is provided with a water inlet hole (not shown in the figure) communicating with the middle mixing chamber 101, and the water inlet end 12 is connected to the water inlet pipe 4 and is arranged opposite to the fluid output end 14; the feed end 13 is provided with a feed hole 131 communicating with the middle mixing chamber 101, the feed end 13 is connected to the pot body 5 and is arranged opposite to the air inlet end 11, and the feed end 13 is connected to the suction pipe 51 extending into the pot body 5. Thus, the foaming body 1 of this invention's foam cleaning pot is equipped with an air inlet 11, a water inlet 12, and a feeding end 13. This allows the air inlet regulating valve 3, water inlet pipe 4, and pot body 5 to be directly connected to the foaming body 1, reducing the number of parts in the foam cleaning pot, improving production and assembly efficiency, and lowering the production cost. A straw 51 is connected to the feeding end 13 for convenient extraction of cleaning liquid from the pot body 5 during use. Preferably, a gravity suction ball 52 is connected to the end of the straw 51 furthest from the feeding end 13. This allows for easy adjustment of the straw 51's position within the pot body 5 to extract the cleaning liquid completely, reducing waste.

[0021] like Figures 1 to 7As shown, nozzle 2 includes a mixing pipe 21, a support sleeve 22, an adjusting jacket, and a water-type adjusting clamp 24. The mixing inlet 211 of the mixing pipe 21 is connected to the fluid output end 14 on the foaming body 1, and communicates with the central mixing chamber 101 in the middle of the foaming body 1 through the fluid output hole 141, so that the foam fluid initially formed in the foaming body 1 can be transported to nozzle 2 through the fluid output hole 141. Preferably, the mixing pipe 21 is threaded to the fluid output end 14, making assembly simple and convenient. The support sleeve 22 is fitted and fixed onto the mixing pipe 21, and a foaming ball 25 is provided between the fluid outlet 221 on the support sleeve 22 and the mixing outlet 212 on the mixing pipe 21. In this way, the foaming fluid output from the foaming body 1 undergoes secondary foaming through the foaming ball 25 before flowing out through the fluid outlet 221 on the support sleeve 22, which can improve the richness of the foam.

[0022] Preferably, the support sleeve 22 is provided with a positioning through hole 222, and the outer wall of the mixing pipe 21 is provided with a positioning clamping groove 213. A positioning rod 26 is installed in the positioning through hole, and the middle part of the positioning rod 26 is locked in the positioning clamping groove 213. A positioning ring plate 27 is clamped around the fluid output end 14 of the mixing pipe 21 and the foam 1, and a positioning groove 271 is provided on the positioning ring plate 27. A positioning blind hole 223 is provided at the positioning end of the support sleeve 22 facing the positioning ring plate 27. A positioning component (not shown in the figure) is installed in the positioning blind hole 223, and one end of the positioning component facing the positioning ring plate 27 is inserted into the positioning groove. In this way, by using the positioning rod 26 and the positioning component, the support sleeve 22 and the mixing pipe 21 are relatively fixed, which is stable and easy to assemble. Preferably, the positioning element includes a positioning post 281 and a positioning spring 282. The positioning spring 282 is installed in the positioning blind hole 223, and the positioning post 281 is located between the positioning spring 282 and the positioning groove 271. Thus, by using the positioning post 281 and the positioning spring 282 to form the positioning element, the elastic tension of the positioning spring 282 can be used to keep the positioning post 281 stably fixed in the positioning blind hole 223 and the positioning groove 271. This also reduces the precision requirements of the dimensions of the positioning post 281, the positioning blind hole 223, and the positioning groove 271, thereby reducing the processing and assembly precision requirements of the foam cleaning pot of this invention and lowering the production cost of the foam cleaning pot of this invention. Preferably, the mixing pipe 21 is provided with a mixing air inlet 214, and the support sleeve 22 is provided with an air inlet channel 224. This air inlet channel 224 is located outside the fluid outlet 221 and communicates with the mixing inner cavity 215 in the mixing pipe 21 through the mixing air inlet 214. Thus, during use, air can be supplied to the mixing chamber 215 in the mixing pipe 21 through the air inlet channel 224 on the support sleeve 22 and the mixing air inlet hole 214 on the mixing pipe 21. This allows the foaming ball 25 to perform secondary foaming on the foam liquid formed by the initial mixing and foaming of the foaming body 1, ensuring thorough mixing of the cleaning liquid and air, producing abundant foam output, and improving the cleaning effect of the foaming pot of this invention. Preferably, the support sleeve 22 is provided with multiple air inlet channels 224, which are evenly distributed around the fluid outlet 221. In this way, during use, sufficient air can be provided to the foaming ball 25 for secondary foaming through the multiple air inlet channels 224, allowing the cleaning liquid and supplemented air to mix thoroughly, increasing the richness of the foam, and thus improving the cleaning effect of the foaming pot of this invention. Preferably, the outer wall of the mixing pipe 21 is provided with two sealing ring grooves (not shown in the figure) for installing sealing rings 216, and the two sealing ring grooves are located on both sides of the mixing air inlet 214 and close to the two ends of the mixing pipe 21, so as to prevent the fluid in the mixing cavity 215 from overflowing from the two ends of the mixing pipe 21 after flowing out through the mixing air inlet 214, which would affect the use of the foam cleaning pot of this utility model.

[0023] The water pattern regulating clamp 24 includes two regulating clamp pieces 241 and a positioning plate 242. The two regulating clamp pieces 241 are arranged opposite each other at both ends of the positioning plate 242 to form a U-shaped structure, and a clearance through hole (not shown in the figure) is provided in the middle of the positioning plate 242. The water pattern regulating clamp 24 is installed and fixed on the fluid outlet 221 on the support sleeve 22, and the clearance through hole on the positioning plate 242 aligns with the fluid outlet 221. In this way, the bubble liquid formed by the secondary foaming of the foaming ball 25 is ejected through the fluid outlet 221 and the clearance through hole, and the output water pattern can be adjusted by adjusting the distance between the two regulating clamp pieces 241 in the water pattern regulating clamp 24. The adjusting sleeve includes a positioning sleeve 231 and an adjusting sleeve 232. The positioning sleeve 231 is fitted and fixed on the support sleeve 22 and is close to the foam body 1. The adjusting sleeve 232 is fitted around the support sleeve 22 and is threadedly connected to the positioning sleeve 231. An adjusting inner ring 2321 is provided on the inner wall of the adjusting sleeve 232. The adjusting inner ring 2321 is located between the adjusting port 2322 of the adjusting sleeve 232 and the fluid outlet 221 on the support sleeve 22. The adjusting inner ring 2321 is provided with two centrally symmetrical variable diameter grooves 23211. The adjusting clip 241 in the water-type adjusting clip 24 extends out from the adjusting inner ring 2321 and is locked in the variable diameter groove 23211. When using this invention to clean a foam pot, the user only needs to turn the adjusting sleeve 232 in the adjusting sleeve 23 to rotate the adjusting inner ring 2321 around the water pattern adjusting clamp 24. This allows the user to adjust the distance between the two adjusting clamps 241 in the water pattern adjusting clamp 24 via the variable diameter groove 23211 on the adjusting inner ring 2321, thus adjusting the output water pattern of the foam pot. Therefore, the output water pattern of this invention can be adjusted simply by turning the adjusting sleeve 232 in the adjusting sleeve 23, making adjustment simple and convenient. Preferably, a positioning ring 225 is provided on the outer wall of the support sleeve 22, and this positioning ring 225 is close to the connection between the positioning sleeve 231 and the adjusting sleeve 232 and engages the positioning sleeve 231. In this way, when turning the adjusting sleeve 232, the positioning ring 225 can engage the positioning sleeve 231, preventing the positioning sleeve 231 from moving or misaligning under the influence of the adjusting sleeve 232, which would affect the convenience and effectiveness of water pattern adjustment for this invention. Preferably, a support frame (not shown in the figure) is installed at the fluid outlet 221 of the support sleeve 22. The support frame includes a support sleeve 61 and a support clip 62. The support sleeve 61 is fitted onto the fluid outlet 221 of the support sleeve 22 and holds the positioning plate 242 on the water-type regulating clip 24. The support clip 62 is attached to the regulating clip 241 and clamped between the regulating clip 241 and the regulating inner ring 2321.In this way, the support sleeve 61 on the support frame locks the positioning plate 242 on the water pattern adjusting clamp 24, fixing the water pattern adjusting clamp 24 at the fluid outlet 221 of the support sleeve 22. This prevents the adjusting clamp 241 on the water pattern adjusting clamp 24 from moving or becoming misaligned during the rotation of the adjusting sleeve 232. The supporting clamp 62 supports the adjusting clamp 241 on the water pattern adjusting clamp 24, preventing the adjusting clamp 241 from deforming under the impact of the output water pattern of the foam cleaning kettle of this utility model. Therefore, in the foam cleaning kettle of this utility model, the support frame including the support sleeve 61 and the supporting clamp 62 can prevent the adjusting clamp 241 in the water pattern adjusting clamp 24 from moving, becoming misaligned, or deformed, thus improving the accuracy of the output water pattern adjustment. Preferably, the free end of the supporting clamp 62 is provided with a supporting clamp block 63, and this supporting clamp block 63 is located in the variable diameter groove 23211. Thus, when the adjusting sleeve 23 is screwed on, the variable diameter slide groove 23211 adjusts the distance between the two adjusting clips 241 in the water pattern adjusting clip 24 through the support clip 63, which can improve the adjustment accuracy of the output water pattern, so that the output water pattern of the foam cleaning kettle of this utility model can be arbitrarily adjusted between a straight water pattern and a 360° fan-shaped water pattern. Preferably, the support sleeve 61 is provided with a support outer ring 611, which is sandwiched between the support sleeve 22 and the adjusting sleeve 232; the inner wall of the adjusting sleeve 232 is provided with a positioning rib 2323, which is located between the adjusting inner ring 2321 and the support outer ring 611. Thus, when adjusting the output water type of the foam cleaning pot of this invention by turning the adjusting sleeve 232, the rotation depth of the adjusting sleeve 232 can be positioned by the supporting outer ring 611 on the supporting sleeve 61 and the positioning ribs 2323 on the inner wall of the adjusting sleeve 23. This prevents the adjusting sleeve 232 from rotating too deeply, which could cause the supporting clamp 63 to slide out of the variable diameter slide groove 23211 and affect the efficiency of the foam cleaning pot of this invention. Preferably, the supporting outer ring 611 is provided with a supporting ring groove (not shown in the figure), and a supporting rubber ring 64 is installed in the supporting ring groove. In this way, the supporting rubber ring 64 installed in the supporting ring groove on the supporting outer ring 611 can support the adjusting sleeve 232, avoiding wear caused by direct contact between the adjusting sleeve 232 and the supporting outer ring 611 during rotation. Moreover, in long-term use, only the supporting rubber ring 64 needs to be replaced to extend the service life of the foam cleaning pot of this invention, resulting in low operating costs.

[0024] like Figures 2 to 4As shown, the air intake regulating valve 3 includes a valve cover 31, a valve stem 32, and an adjusting head 33. The valve cover 31 is fitted onto the air intake end 11 of the foam body 1, and the valve cover 31 is provided with a valve stem through hole (not shown in the figure). The valve stem 32 passes through the valve stem through hole and is inserted into the air intake regulating hole 111 on the air intake end 11. The connecting end of the valve stem 32 is connected to the adjusting head 33 outside the valve cover 31, and the sealing end of the valve stem 32 is in the air intake regulating hole 111 and located between the air intake hole 112 and the central mixing chamber 101 in the foam body 1. In this way, when adjusting the air intake speed on the air intake end 11 of the foam body 1, it is only necessary to turn the adjusting head 33 to drive the valve stem 32 to rotate, thereby adjusting the cross-sectional area of ​​the communication between the air intake regulating hole 111 and the central mixing chamber 101. The operation is simple and convenient. Preferably, the adjusting head 33 is threadedly connected to the valve stem 32 by a connecting bolt 331. Thus, the connection between the adjusting head 33 and the valve stem 32 is simple and convenient, and stepless adjustment with high precision can be achieved. Preferably, the valve stem 32 is provided with an air inlet sealing ring groove (not shown in the figure) for installing the air inlet sealing ring 34, and the air inlet sealing ring groove is located between the air inlet hole 112 and the central mixing chamber 101. In this way, the air inlet adjusting hole 111 can be sealed by the air inlet sealing ring 34, thereby preventing air from entering the central mixing chamber 101 of the foaming body 1 when the foaming pot of this invention is not in use.

Claims

1. A cleaning froth jug characterised in that, The cleaning foam pot includes a foaming body and a nozzle. The nozzle includes a mixing tube, a support sleeve, an adjusting sleeve, and a water-type adjusting clamp. The mixing inlet of the mixing tube is connected to the fluid output end of the foaming body. The support sleeve is fixed on the mixing pipe, and a foaming ball is provided between the fluid outlet on the support sleeve and the mixing outlet on the mixing pipe. The adjusting sleeve includes a positioning sleeve and an adjusting sleeve. The positioning sleeve is fitted onto and fixed to the supporting sleeve, and the positioning sleeve is close to the foam body. The adjusting sleeve is fitted onto the outer periphery of the supporting sleeve and is threadedly connected to the positioning sleeve. An adjusting inner ring is provided on the inner wall of the adjusting sleeve. The adjusting inner ring is close to the adjusting port on the adjusting sleeve and is located between the adjusting port and the fluid outlet on the supporting sleeve. The adjusting inner ring is provided with two centrally symmetrical variable diameter grooves. The water-type regulating clamp is installed and fixed at the fluid outlet on the support sleeve, and the two regulating clips in the water-type regulating clamp extend from the regulating inner ring and are locked in the variable diameter slide groove.

2. The foam cleaning pot according to claim 1, characterized in that, The support sleeve is provided with a positioning through hole, in which a positioning rod is installed, and the middle part of the positioning rod is engaged in a positioning groove on the outer wall of the mixing pipe; a positioning ring plate is clamped around the fluid output end of the mixing pipe and the foam body, and a positioning groove is provided on the positioning ring plate; a positioning blind hole is provided at the positioning end of the support sleeve, in which a positioning element is installed, and the end of the positioning element facing the positioning ring plate is inserted into the positioning groove.

3. The foam cleaning pot according to claim 2, characterized in that, The positioning component includes a positioning spring and a positioning post. The positioning spring is installed in the positioning blind hole, one end of the positioning post is inserted into the positioning blind hole and abuts against the positioning spring, and the other end of the positioning post is inserted into the positioning groove.

4. The foam cleaning pot according to any one of claims 1-3, characterized in that, The support sleeve is provided with an air inlet channel, which is located around the fluid outlet and communicates with the mixing cavity in the mixing pipe through the mixing air inlet hole on the mixing pipe.

5. The foam cleaning pot according to claim 4, characterized in that, The support sleeve is provided with multiple air inlet channels, and the air inlet channels are evenly distributed around the fluid outlet.

6. The foam cleaning pot according to any one of claims 1-3, characterized in that, A support frame is installed at the fluid outlet of the support sleeve. The support frame includes a support sleeve and a support clip. The support sleeve is fitted onto the fluid outlet and locks the positioning plate on the water-type regulating clip. The support clip is attached to the regulating clip and clamped between the regulating clip and the regulating inner ring.

7. The foam cleaning pot according to claim 6, characterized in that, The free end of the support clamp away from the support sleeve is provided with a support clamp block, and the support clamp block is located in the variable diameter groove.

8. The foam cleaning pot according to claim 7, characterized in that, The support sleeve is provided with a support outer ring, which is sandwiched between the support sleeve and the adjusting sleeve; the inner wall of the adjusting sleeve is provided with a limiting rib, which is located between the adjusting inner ring and the support outer ring.

9. The foam cleaning pot according to any one of claims 1-3, characterized in that, The foaming body is provided with an air inlet, a water inlet, and a feed inlet. The air inlet is provided with an air inlet regulating hole for connecting to an air inlet regulating valve. The air inlet regulating hole is connected to the central mixing chamber in the middle of the foaming body, and an air inlet hole is provided on the side wall of the air inlet regulating hole. The water inlet is provided with a water inlet hole connected to the central mixing chamber, and the water inlet is connected to a water inlet pipe and is positioned opposite to the fluid output end. The feed inlet is provided with a feed inlet hole connected to the central mixing chamber, and the feed inlet is connected to the kettle body and is positioned opposite to the air inlet. The feed inlet is connected to a straw that extends into the kettle body.

10. The foam cleaning pot according to claim 9, characterized in that, The end of the straw away from the feed end is connected to a gravity suction ball.