CN218107323U - Replaceable guide chemical medicament siphon mixed foam generating valve - Google Patents
Replaceable guide chemical medicament siphon mixed foam generating valve Download PDFInfo
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- CN218107323U CN218107323U CN202222162470.0U CN202222162470U CN218107323U CN 218107323 U CN218107323 U CN 218107323U CN 202222162470 U CN202222162470 U CN 202222162470U CN 218107323 U CN218107323 U CN 218107323U
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Abstract
The utility model discloses a replaceable guide chemical agent siphon mixed foam generating valve, which relates to the technical field of liquid medicine mixing valve products and comprises a high-pressure clear water guide conversion valve and a siphon nozzle fixing cavity, wherein one end of the siphon nozzle fixing cavity is fixedly connected with a foam liquid compressed air mixing cavity cover, the other end of the siphon nozzle fixing cavity is fixedly connected with a high-pressure clear water guide conversion valve, and a mounting groove is arranged at the joint of the siphon nozzle fixing cavity and the high-pressure clear water guide conversion valve; the utility model provides a, compare with traditional one way siphon valve, the mixed foam of interchangeable guide chemical agent siphon takes place the valve and adopts the sealed equipment of combination formula, and sealing performance is good, has assembled three siphon runner and a clear water runner, can switch the mixed three kinds of chemical liquid of siphon and a clear water runner through knob conversion runner, has the air intlet simultaneously and can be mixed liquid production foam, compact structure convenient to use reduces the loaded down with trivial details of traditional many pipelines of connecting.
Description
Technical Field
The utility model relates to a liquid medicine mixing valve articles for use technical field especially relates to a foam generating valve is mixed to interchangeable guide chemical agent siphon.
Background
In modern life, the venturi siphon used in the dilution field of industrial and commercial cleaning liquid medicines is a common mixing tool for chemical liquid and liquid medicines. The traditional T-shaped Venturi siphon can only suck one independent chemical liquid and liquid medicine, the liquid sucking port of the Venturi tube can only suck one chemical liquid after high-pressure clear water passes through the inlet at one end, and the chemical liquid is directly sprayed out from the outlet for use after being mixed and diluted.
However, in practical application, two or three chemical liquids and liquid medicines are often mixed respectively, and the traditional T-shaped venturi siphon cannot meet the requirements of users in use, so that the complicated trouble of switching two or three pipelines is faced, sometimes clear water is needed, the four or more pipelines are faced to use simultaneously, the application and management are complicated, and the use efficiency is relatively low.
SUMMERY OF THE UTILITY MODEL
The utility model provides a changeable guide chemical agent siphon mixes foam generating valve has solved the above-mentioned technical problem who proposes.
In order to solve the technical problem, the utility model provides a changeable guide chemical agent siphon mixed foam generating valve, including high-pressure clear water diversion conversion valve and siphon nozzle fixed cavity, siphon nozzle fixed cavity one end fixedly connected with foam liquid compressed air mixed cavity cover, and siphon nozzle fixed cavity other end fixedly connected with high-pressure clear water diversion conversion valve, the mounting groove has been seted up with high-pressure clear water diversion conversion valve junction to siphon nozzle fixed cavity, and has seted up switching-over flow path hole one, switching-over flow path hole two, switching-over flow path hole three and switching-over flow path hole four in the mounting groove, and link up siphon nozzle fixed cavity with the siphon nozzle fixed cavity, and switching-over flow path hole one, switching-over flow path hole two and switching-over flow path hole three internally mounted inlay respectively and install siphon nozzle and coupler one, siphon nozzle and coupler two and coupler three, siphon nozzle and coupler two, siphon nozzle and coupler three, siphon nozzle fixed cavity outer end still fixed mounting has chemical liquid check valve import one, chemical liquid check valve import two and chemical liquid check valve import three, and chemical liquid check valve import three respectively with switching-over flow path hole one, chemical liquid check valve import two and chemical liquid check valve import three respectively with switching-over flow path hole one, three sides and switching-over flow path hole two, mix the foam compressed air mixed cavity, the mixed foam liquid inlet covers with the switching-over flow chamber, three sides, the mixed cavity, the mixed liquid compressed air mixed cavity, the mixed liquid inlet three mixed cavity is provided with the switching-over flow hole, the switching-over flow chamber, the mixed cavity, the switching-over flow hole is provided with the mixed liquid inlet three mixed cavity;
the high-pressure clear water diversion conversion valve comprises a high-pressure clear water diversion reversing valve cover, the high-pressure clear water diversion reversing valve cover is communicated and installed at the installation groove of the siphon nozzle fixing cavity, a knob assembly is fixedly installed on the outer end of the high-pressure clear water diversion reversing valve cover, an adjusting knob is movably connected to the outer end of the knob assembly, a high-pressure clear water diversion reversing base is installed inside the high-pressure clear water diversion reversing valve cover in an embedded mode, four flow passage holes are formed in the outer side of the high-pressure clear water diversion reversing base and correspond to a first reversing flow passage hole, a second reversing flow passage hole, a third reversing flow passage hole and a fourth reversing flow passage hole, one end of the high-pressure clear water diversion reversing base is located at the inner portion of the high-pressure clear water diversion reversing valve cover and is connected with a high-pressure clear water diversion reversing shaft, the middle portion of the high-pressure clear water diversion reversing shaft is connected with a center shaft, the center shaft penetrates through the knob assembly and is fixedly connected with the adjusting knob, a high-pressure clear water diversion reversing chamber is arranged inside the high-pressure clear water diversion reversing valve cover and the knob assembly, and an external interface is communicated with the high-pressure clear water chamber.
Preferably, the knob component comprises a panel locking cover, a diversion panel, a panel base, a panel fixing base and a high-pressure clear water diversion converter sealing cover plate, the high-pressure clear water diversion converter sealing cover plate penetrates through the high-pressure clear water diversion reversing valve cover through a screw, and the outer end of the sealing cover plate of the high-pressure clear water diversion converter is fixedly connected with a panel fixing base which is fixedly connected with a panel base, a diversion panel is arranged at the outer end of the panel base, and a panel locking cover is arranged at the outer side of the diversion panel.
Preferably, a disc at the bottom of the high-pressure clean water diversion reversing shaft is provided with a liquid outlet hole corresponding to the four flow channels Kong Shanyi.
Preferably, the external interface inputs external high-pressure clean water into the high-pressure clean water cavity through a pipeline.
Preferably, the surface of the flow guide panel is provided with four gear marks which are respectively an FOAM gear, a RINSE gear, an FOAM gear and a CLOSE gear.
Compared with the prior art, the utility model provides a pair of interchangeable guide chemical agent siphon mixes foam generating valve has following beneficial effect:
the utility model provides a, this valve mainly comprises high-pressure clear water conservancy diversion change-over valve A and the fixed cavity of siphon nozzle, rotates the regulation through adjust knob, makes during its runner that corresponds the input of high-pressure clear water to mixed chemical liquid flows, just can switch the wherein three kinds of mixed chemical liquid and the high-pressure clear water function that use needs through switching, and is simple and convenient relatively, improves work efficiency.
The utility model provides a, compare with traditional one way siphon valve, the mixed foam of interchangeable guide chemical agent siphon takes place the valve and adopts the sealed equipment of combination formula, and sealing performance is good, has assembled three siphon runner and a clear water runner, can switch the mixed three kinds of chemical liquid of siphon and a clear water runner through knob conversion runner, has the air intlet simultaneously and can be mixed liquid production foam, compact structure convenient to use reduces the loaded down with trivial details of traditional many pipelines of connecting.
Drawings
FIG. 1 is a schematic view of the whole reversible flow-guiding chemical agent siphon mixed foam generating valve of the present invention;
FIG. 2 is a schematic view of the inside perspective of the reversible diversion chemical agent siphon mixed foam generating valve of the present invention;
fig. 3 is an explosion diagram of the direction-changeable chemical agent siphon mixed foam generating valve of the present invention.
Reference numbers in the figures: A. high-pressure clear water diversion conversion valve; 1. adjusting a knob; 2. a panel locking cover; 3. a flow guide panel; 4. a panel base; 6. a panel fixing base; 7. a sealing cover plate of the high-pressure clear water diversion converter; 9. A high-pressure clear water diversion reversing valve cover; 10. a high-pressure clear water diversion reversing shaft; 11. a high-pressure clear water diversion reversing base; 12. a siphon nozzle and a first coupler; 13. a siphon nozzle and a coupler II; 14. a siphon nozzle and a coupler III; 15. a siphon nozzle fixing cavity; 16. a foam liquid compressed air mixing cavity cover; 17. an inlet I of the chemical liquid one-way valve; 18. a second chemical liquid check valve inlet; 19. a chemical liquid one-way valve inlet III; 20. A compressed air inlet check valve; B. an external interface; d1, reversing a first flow channel hole; d2, reversing a second flow passage hole; d3, reversing a flow channel hole III; d4, reversing flow channel holes IV; F. and (5) discharging the mixed liquid.
Detailed Description
In the first embodiment, as shown in fig. 1-3, a replaceable guide chemical agent siphon mixed foam generating valve comprises a high-pressure clean water diversion conversion valve a and a siphon nozzle fixing cavity 15, one end of the siphon nozzle fixing cavity 15 is fixedly connected with a foam liquid compressed air mixing cavity cover 16, the other end of the siphon nozzle fixing cavity 15 is fixedly connected with the high-pressure clean water diversion conversion valve a, a mounting groove is formed at the joint of the siphon nozzle fixing cavity 15 and the high-pressure clean water diversion conversion valve a, a first reversing flow passage hole D1, a second reversing flow passage hole D2, a third reversing flow passage hole D3 and a fourth reversing flow passage hole D4 are formed in the mounting groove, the siphon nozzle fixing cavity 15 is communicated with the siphon nozzle fixing cavity 15, a first siphon nozzle and a first coupler 12 are respectively embedded in the first reversing flow passage hole D1, a second reversing flow passage hole D2 and the third reversing flow passage hole D3, a second siphon nozzle and a second coupler 13 and a third siphon nozzle and a third coupler 14 are respectively installed in the mounting grooves, a first chemical liquid inlet one-way valve 17, a second chemical liquid one-way valve inlet 18 and a chemical liquid one-way valve 19 are respectively installed in the outer end of the siphon nozzle fixing cavity 15, a third reversing flow passage hole D2, a chemical liquid inlet hole D2 is respectively communicated with a third coupler, a third coupler 4, a chemical liquid compressed air mixing cavity 16 is respectively installed in the mixing cavity, a reversing hole D16 and a reversing hole D4, a reversing hole D3, a reversing hole D, a reversing hole 19 is respectively installed in the mixing cavity, a reversing hole D3, and is communicated with the mixing cavity.
Specifically, the adjusting knob 1 is screwed to the FOAM1 (chemical liquid 1) position to guide high-pressure clean water to the reversing flow channel hole three D3, the high-pressure clean water enters the siphon nozzle fixing cavity 15 through the reversing flow channel hole three D3, the siphon nozzle and the coupler three 14 are installed in an embedded mode, the siphon nozzle and the coupler three 14 form vacuum at the embedding position of the siphon nozzle fixing cavity 15, chemical liquid is sucked through a chemical liquid one-way valve inlet three 19 (connected with an external chemical liquid pipeline), meanwhile, the chemical liquid and the high-pressure clean water are mixed and enter the FOAM liquid compressed air mixing cavity cover 16, the water pressure is smaller than compressed air through the siphon nozzle and the coupler three 14 at the moment, the compressed air enters the FOAM liquid compressed air mixing cavity cover 16 through the compressed air inlet one-way valve 20, and the chemical liquid and the high-pressure clean water mixed liquid are mixed in the FOAM liquid compressed air mixing cavity cover 16 and then are sprayed out through the mixed liquid outlet F; the adjusting knob 1 is screwed to the FOAM2 (chemical liquid 2) position to guide high-pressure clean water to a reversing flow channel hole II D2, the high-pressure clean water enters a siphon nozzle fixing cavity 15 through the reversing flow channel hole II D2, a siphon nozzle and a coupler II 13 are installed in an embedded mode, the siphon nozzle and the coupler II 13 form vacuum at the embedding position of the siphon nozzle fixing cavity 15, chemical liquid is sucked through a chemical liquid one-way valve inlet II (connected with an external chemical liquid pipeline) 18, meanwhile, the chemical liquid and the high-pressure clean water are mixed and enter a FOAM liquid compressed air mixing cavity cover 16, the water pressure is smaller than compressed air through the siphon nozzle and the coupler II 13, the compressed air enters the FOAM liquid compressed air mixing cavity cover 16 through a compressed air inlet one-way valve 20, and the chemical liquid and the high-pressure clean water mixed liquid are mixed in the FOAM liquid compressed air mixing cavity cover 16 and then are sprayed out through a mixed liquid outlet F; the adjusting knob 1 is screwed to the FOAM3 (chemical liquid 3) position to guide high-pressure clean water to a reversing flow channel hole D1, the high-pressure clean water enters a siphon nozzle fixing cavity 15 through the reversing flow channel hole D1, a siphon nozzle and a coupler I12 are installed in an embedded mode, the siphon nozzle and the coupler I12 form vacuum at the embedded position of the siphon nozzle fixing cavity 15, chemical liquid is sucked through a chemical liquid one-way valve inlet I17 (connected with an external chemical liquid pipeline), meanwhile, the chemical liquid and the high-pressure clean water are mixed and enter a FOAM liquid compressed air mixing cavity cover 16, the water pressure is lower than compressed air through the siphon nozzle and the coupler I12 at the moment, the compressed air enters the FOAM liquid compressed air mixing cavity cover 16 through a compressed air inlet one-way valve 20, the chemical liquid and the high-pressure clean water mixed liquid are mixed in the FOAM liquid compressed air mixing cavity cover 16 and then are sprayed out through a mixed liquid outlet F.
In the second embodiment, on the basis of the first embodiment, the high-pressure clean water diversion conversion valve a includes a high-pressure clean water diversion reversing valve bonnet 9, the high-pressure clean water diversion reversing valve bonnet 9 is installed in the installation groove of the siphon nozzle fixing cavity 15 in a penetrating manner, a knob assembly is fixedly installed to the outer end of the high-pressure clean water diversion reversing valve bonnet 9, an adjusting knob 1 is movably connected to the outer end of the knob assembly, a high-pressure clean water diversion reversing base 11 is installed in the high-pressure clean water diversion reversing valve bonnet 9 in an embedded manner, four flow passage holes, a reversing flow passage hole one D1, a reversing flow passage hole two D2, a reversing flow passage hole three D3 and a reversing flow passage hole four D4 correspond to each other, one end of the high-pressure clean water diversion reversing base 11 is connected to the high-pressure clean water diversion reversing shaft 10 inside the high-pressure clean water diversion reversing valve bonnet 9, a central shaft is connected to the middle of the high-pressure clean water diversion reversing shaft 10, the central shaft penetrates through the knob assembly and is fixedly connected to the adjusting knob 1, a high-pressure clean water diversion reversing valve bonnet 9 and the knob assembly are provided with a high-pressure clean water cavity, and an external interface B is arranged outside the knob assembly.
Wherein, high-pressure clear water enters from the external interface B, the high-pressure clear water diversion reversing shaft 10 is axially linked with the adjusting knob 1, and the adjusting knob 1 rotates four gears RINSE, FOAM1, FOAM2 and FOAM3 to divert the high-pressure clear water to the corresponding reversing flow passage hole.
Wherein, the knob component comprises a panel locking cover 2, a diversion panel 3, a panel base 4, a panel fixing base 6 and a high-pressure clear water diversion converter sealing cover plate 7, the high-pressure clear water diversion converter sealing cover plate 7 penetrates through a high-pressure clear water diversion reversing valve cover 9 through a screw, and is fixed on the siphon nozzle fixing cavity 15, and the outer end of the high-pressure clear water diversion converter sealing cover plate 7 is fixedly connected with the panel fixing base 6, the panel fixing base 6 is fixedly connected with the panel base 4, and the panel base 4 is provided with the diversion panel 3 to the outer end, and the panel locking cover 2 is arranged on the outer side of the diversion panel 3.
Wherein, the disc at the bottom of the high-pressure clean water diversion reversing shaft 10 is provided with a liquid outlet hole corresponding to the four flow passages Kong Shanyi.
Wherein, the external interface B inputs external high-pressure clear water into the high-pressure clear water cavity through a pipeline.
The surface of the diversion panel 3 is provided with four gear marks which are respectively an FOAM1 gear, a RINSE gear, an FOAM2 gear and a CLOSE gear; the adjusting knob 1 is screwed to the RINSE clear water position to guide high-pressure clear water to the reversing flow channel hole IV D4, the adjusting knob 1 is screwed to the FOAM1 (chemical liquid 1) position to guide the high-pressure clear water to the reversing flow channel hole III D3, the adjusting knob 1 is screwed to the FOAM2 chemical liquid 2 position to guide the high-pressure clear water to the reversing flow channel hole II D2, and the adjusting knob 1 is screwed to the FOAM3 chemical liquid 3 position to guide the high-pressure clear water to the reversing flow channel hole I D1.
The working principle is as follows:
the high-pressure clean water diversion conversion valve A is used for allowing high-pressure clean water to enter and plays a role in diversion and reversing: high-pressure clean water enters from an external interface B, the high-pressure clean water diversion reversing shaft 10 is axially linked with the adjusting knob 1, and the adjusting knob 1 rotates four gears RINSE (clean water), FOAM1 (chemical liquid 1), FOAM2 (chemical liquid 2) and FOAM3 (chemical liquid 3) to divert the high-pressure clean water to the corresponding reversing flow passage holes;
the adjusting knob 1 is screwed to the RINSE clear water position to guide high-pressure clear water to the reversing flow channel hole IV D4, the adjusting knob 1 is screwed to the FOAM1 (chemical liquid 1) position to guide high-pressure clear water to the reversing flow channel hole III D3, the adjusting knob 1 is screwed to the FOAM2 chemical liquid 2 position to guide high-pressure clear water to the reversing flow channel hole II D2, and the adjusting knob 1 is screwed to the FOAM3 chemical liquid 3 position to guide high-pressure clear water to the reversing flow channel hole I D1;
the high-pressure clear water passing through the high-pressure clear water diversion conversion valve A is guided to the diversion hole of the corresponding gear by the adjusting knob 1: the reversing flow channel comprises a first reversing flow channel hole D1, a second reversing flow channel hole D2, a third reversing flow channel hole D3 and a fourth reversing flow channel hole D4.
The adjusting knob 1 is screwed to the RINSE (clear water) position to guide high-pressure clear water to the reversing flow channel hole four D4, the high-pressure clear water enters the foam liquid compressed air mixing cavity cover 16 through the reversing flow channel hole four D4, at the moment, the water pressure is supposed to be greater than the compressed air, the compressed air cannot enter the compressed air inlet one-way valve 20 (connected with an external air pump), and the high-pressure water is sprayed out through the mixed liquid outlet F;
the adjusting knob 1 is screwed to the FOAM1 (chemical liquid 1) position to guide high-pressure clean water to the three D3 reversing flow channel holes, the high-pressure clean water enters the siphon nozzle fixing cavity 15 through the three D3 reversing flow channel holes, the siphon nozzle and the coupler three 14 are installed in an embedded mode, vacuum is formed at the embedded position of the siphon nozzle fixing cavity 15 through a chemical liquid one-way valve inlet three 19 (connected with an external chemical liquid pipeline) to suck chemical liquid, meanwhile, the chemical liquid and the high-pressure clean water are mixed and enter the FOAM liquid compressed air mixing cavity cover 16, the water pressure is smaller than that of compressed air through the siphon nozzle and the coupler three 14, the compressed air enters the FOAM liquid compressed air mixing cavity cover 16 through the compressed air inlet one-way valve 20, and the chemical liquid and the high-pressure clean water mixed liquid are mixed in the FOAM liquid compressed air mixing cavity cover 16 and then are sprayed out through a mixed liquid outlet F;
the adjusting knob 1 is rotated to the FOAM2 (chemical liquid 2) position to guide high-pressure clean water to a second reversing flow channel hole D2, the high-pressure clean water enters a siphon nozzle fixing cavity 15 through the second reversing flow channel hole D2, a siphon nozzle and a second coupler 13 are installed in an embedded mode, vacuum is formed at the embedded position of the siphon nozzle fixing cavity 15 through a second chemical liquid one-way valve inlet (connected with an external chemical liquid pipeline) 18 to suck chemical liquid, meanwhile, the chemical liquid and the high-pressure clean water are mixed and enter a FOAM liquid compressed air mixing cavity cover 16, the water pressure is smaller than that of compressed air through the siphon nozzle and the second coupler 13, the compressed air enters the FOAM liquid compressed air mixing cavity cover 16 through a one-way valve 20, and the chemical liquid and the high-pressure clean water mixed liquid are mixed in the FOAM liquid compressed air mixing cavity cover 16 and then are sprayed out through a mixed liquid outlet F;
the adjusting knob 1 is screwed to the FOAM3 (chemical liquid 3) position to guide high-pressure clear water to the reversing flow channel hole D1, the high-pressure clear water enters the siphon nozzle fixing cavity 15 through the reversing flow channel hole D1, the siphon nozzle and the coupler I12 are installed in an embedded mode, vacuum is formed at the embedding position of the siphon nozzle fixing cavity 15 through the chemical liquid one-way valve inlet I17 (connected with an external chemical liquid pipeline) to suck the chemical liquid, meanwhile, the chemical liquid and the high-pressure clear water are mixed and enter the FOAM liquid compressed air mixing cavity cover 16, the water pressure is smaller than the compressed air through the siphon nozzle and the coupler I12 at the moment, the compressed air enters the FOAM liquid compressed air mixing cavity cover 16 through the compressed air inlet one-way valve 20, and the chemical liquid and the high-pressure clear water mixed liquid are mixed in the FOAM liquid compressed air mixing cavity cover 16 and then are sprayed out through the mixed liquid outlet F.
Claims (5)
1. The utility model provides a changeable leads mixed foam generating valve of flowing chemical agent siphon, includes high-pressure clear water conservancy diversion change-over valve (A) and siphon nozzle fixed cavity (15), its characterized in that: the siphon nozzle fixing cavity comprises a siphon nozzle fixing cavity body (15), a foam liquid compressed air mixing cavity body cover (16) and a siphon nozzle fixing cavity body (15), wherein the other end of the siphon nozzle fixing cavity body (15) is fixedly connected with a high-pressure clear water diversion conversion valve (A), a mounting groove is formed in the joint of the siphon nozzle fixing cavity body (15) and the high-pressure clear water diversion conversion valve (A), a reversing flow channel hole I (D1), a reversing flow channel hole II (D2), a reversing flow channel hole III (D3) and a reversing flow channel hole IV (D4) are arranged in the mounting groove, the siphon nozzle fixing cavity body (15) is communicated, the siphon nozzle and a coupler I (12), the siphon nozzle and a coupler II (13) and the siphon nozzle and a coupler III (14) are respectively embedded in the reversing flow channel hole I (D1), the reversing flow channel hole II (D2) and the reversing flow channel hole III (D3), three sides of the outer end of the siphon nozzle fixing cavity (15) are fixedly provided with a first chemical liquid one-way valve inlet (17), a second chemical liquid one-way valve inlet (18) and a third chemical liquid one-way valve inlet (19), the first chemical liquid one-way valve inlet (17), the second chemical liquid one-way valve inlet (18) and the third chemical liquid one-way valve inlet (19) are communicated with a first reversing flow channel hole (D1), a second reversing flow channel hole (D2) and a third reversing flow channel hole (D3) respectively, and a mixing cavity and the first reversing flow channel hole (D1) and the third reversing flow channel hole (D3) are arranged inside the foam liquid compressed air mixing cavity cover (16), the reversing flow channel hole II (D2), the reversing flow channel hole III (D3) and the reversing flow channel hole IV (D4) are communicated, a mixed liquid outlet (F) is formed in the opposite lower end of the foam liquid compressed air mixing cavity cover (16) and communicated with the mixing cavity, and a compressed air inlet one-way valve (20) is fixedly installed at the outer end of the foam liquid compressed air mixing cavity cover (16) and communicated with the mixing cavity;
the high-pressure clear water diversion conversion valve (A) comprises a high-pressure clear water diversion reversing valve cover (9), the high-pressure clear water diversion reversing valve cover (9) is installed at the installation groove of the siphon nozzle fixing cavity (15) in a penetrating mode, a knob component is fixedly installed on the outer end of the high-pressure clear water diversion reversing valve cover (9), an adjusting knob (1) is movably connected to the outer end of the knob component, a high-pressure clear water diversion reversing base (11) is installed inside the high-pressure clear water diversion reversing valve cover (9) in an embedded mode, four flow channel holes are formed in the outer side of the high-pressure clear water diversion reversing base (11) and correspond to a first reversing flow channel hole (D1), a second reversing flow channel hole (D2), a third reversing flow channel hole (D3) and a fourth reversing flow channel hole (D4), one end of the high-pressure clear water diversion reversing base (11) is located inside a high-pressure clear water diversion reversing valve cover (9) and is connected with a high-pressure clear water diversion reversing shaft (10), the middle of the high-pressure clear water diversion reversing shaft (10) is connected with a center shaft, the center shaft penetrates through a knob assembly and an adjusting knob (1) and is fixedly connected with the knob assembly, a high-pressure clear water cavity is formed inside the high-pressure clear water diversion reversing valve cover (9) and the knob assembly, and an external interface (B) is arranged outside the knob assembly and is communicated with the high-pressure clear water cavity.
2. The replaceable guide flow chemical agent siphon mixing foam generating valve according to claim 1, wherein the knob assembly comprises a panel locking cover (2), a guide panel (3), a panel base (4), a panel fixing base (6) and a high-pressure clean water guide converter sealing cover plate (7), the high-pressure clean water guide converter sealing cover plate (7) penetrates through the high-pressure clean water guide converter valve cover (9) through screws and is fixed on the siphon nozzle fixing cavity (15), the outer end of the high-pressure clean water guide converter sealing cover plate (7) is fixedly connected with the panel fixing base (6), the panel fixing base (6) is fixedly connected with the panel base (4), the panel base (4) is provided with the guide panel (3) to the outer end, and the panel locking cover (2) is arranged outside the guide panel (3).
3. The replaceable guide flow chemical reagent siphon mixed foam generating valve according to claim 1, wherein the disc at the bottom of the high-pressure clean water guide reversing shaft (10) is provided with liquid outlet holes corresponding to four flow channels Kong Shanyi.
4. A switchable fluid conducting chemical agent siphon mixing foam generating valve according to claim 1, characterised in that the external port (B) is fed with external high pressure fresh water through a pipe into the high pressure fresh water chamber.
5. A switchable flow guide chemical agent siphon mixing FOAM generating valve according to claim 2, characterised in that the surface of the flow guide panel (3) is provided with four gear marks, namely, the FOAM1 gear, the RINSE gear, the FOAM2 gear and the CLOSE gear.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222162470.0U CN218107323U (en) | 2022-08-17 | 2022-08-17 | Replaceable guide chemical medicament siphon mixed foam generating valve |
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CN202222162470.0U CN218107323U (en) | 2022-08-17 | 2022-08-17 | Replaceable guide chemical medicament siphon mixed foam generating valve |
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CN218107323U true CN218107323U (en) | 2022-12-23 |
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CN202222162470.0U Active CN218107323U (en) | 2022-08-17 | 2022-08-17 | Replaceable guide chemical medicament siphon mixed foam generating valve |
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2022
- 2022-08-17 CN CN202222162470.0U patent/CN218107323U/en active Active
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