CN117983438A - Urinal nozzle mechanism and urinal - Google Patents

Abstract

The application relates to the technical field of nozzles, and particularly discloses a urinal nozzle mechanism and a urinal, wherein the urinal nozzle mechanism comprises: the air suction assembly is integrated in the nozzle shell, so that a larger installation space is provided for the air suction assembly, peculiar smell generated during urination can be quickly and effectively sucked away, the air suction efficiency is improved, and the air suction effect is enhanced; the deodorizing function of the urinal is realized by connecting a deodorizing device in the air suction channel or outside the nozzle shell; by integrating the double water outlet channels for independent water outlet on the nozzle shell, the water flushing function of the nozzle mechanism is realized, and meanwhile, the sterilizing water can be sprayed and the sterilizing function is realized; therefore, the urinal nozzle mechanism can be used as an independent module, is convenient to detach, replace and maintain, can realize the cleaning, sterilizing and deodorizing effects of the urinal in an omnibearing manner, and further improves the environmental sanitation and the use experience of users.

Description

Urinal nozzle mechanism and urinal

Technical Field

The application relates to the technical field of nozzles, in particular to a urinal nozzle mechanism and a urinal.

Background

The urinal is a special urinal for men, which is arranged on a toilet wall, and a nozzle device is arranged on a urinal body in general so as to realize the purposes of flushing and cleaning.

In the related art, the urinal nozzle is only provided with the jet orifice, when a man uses the urinal, the odor of urine still exists, bacteria and viruses are easy to breed, the urinal has poor deodorizing and sterilizing effects, and the environmental sanitation and the use experience of people are seriously influenced.

Disclosure of Invention

In view of the above problems, the application provides a urinal nozzle mechanism and a urinal, so as to integrate an air suction assembly and a double water outlet channel on a nozzle, effectively suck off odor generated during urination while realizing a nozzle flushing function, improve air suction efficiency, enhance air suction effect, facilitate disassembly, replacement and maintenance, and realize the technical effects of a sterilization function and a deodorization function.

According to a first aspect of the present application, there is provided a urinal nozzle mechanism comprising: the device comprises a nozzle shell, an air suction assembly and a deodorizing device, wherein the air suction assembly is arranged in the nozzle shell;

The air suction assembly includes: a first air suction channel and an air suction device,

The air suction device is communicated with the first air suction channel, so that air sucked by the air suction device is introduced from the air inlet end of the first air suction channel, and the air outlet end of the first air suction channel extends out of the nozzle shell;

The deodorizing device is arranged in the first air suction channel and is used for purifying the gas in the first air suction channel.

Optionally, a water outlet channel is arranged on the inner side of the nozzle shell, the water outlet channel comprises a first water outlet channel and a second water outlet channel, and water is independently discharged between the first water outlet channel and the second water outlet channel;

The nozzle housing is integrated with a first injection port communicated with the first water outlet channel and a second injection port communicated with the second water outlet channel.

Optionally, the first water outlet channel is used for introducing tap water and spraying out through the first spraying port, and the second water outlet channel is used for introducing sterilizing water and spraying out through the second spraying port;

wherein the water inlet of the first water outlet channel and the water inlet of the second water outlet channel extend outwards from the back of the nozzle shell;

The opening directions of the first and second injection ports are the same.

Optionally, the air suction assembly further includes: an air suction fixing seat for installing the air suction device,

The air suction fixing seat is arranged at the bottom of the nozzle shell, and the nozzle shell and the air suction fixing seat can form a containing space, so that the first air suction channel and the air suction device are arranged in the containing space.

Optionally, the air suction assembly further includes: an air suction outer cover, a plurality of air suction holes are arranged on the air suction outer cover,

The bottom of the air suction fixing seat forms an upward convex air guide end face,

The air suction outer cover is arranged at the bottom of the air suction fixing seat and forms an air guide cavity together with the air guide end face at the bottom of the air suction fixing seat;

and the air suction fixing seat and the air suction outer cover are also provided with avoiding structures which enable the first jet opening and the second jet opening to pass through.

Optionally, the method comprises: a deodorizing fixing seat, a side end mounting hole is arranged on one side of the first air suction channel,

One end of the deodorizing fixing seat is connected with the nozzle shell, the other end of the deodorizing fixing seat is connected with one end of the deodorizing device, and the other end of the deodorizing device can be inserted into the first air suction channel through the side end mounting hole.

Optionally, the method further comprises: and one end of the exhaust pipe is communicated with the air outlet end of the first air suction channel, so that the purified gas treated by the deodorizing device is discharged from the other end of the exhaust pipe.

According to a second aspect of the present application, there is provided another urinal nozzle mechanism comprising: the deodorizing device comprises a nozzle shell, an air suction assembly, a deodorizing device and an air suction connecting pipe, wherein the air suction assembly is arranged in the nozzle shell;

the air suction assembly comprises a second air suction channel and an air suction device,

The air suction device is communicated with the second air suction channel, so that air sucked by the air suction device is introduced from the air inlet end of the second air suction channel, and the air outlet end of the second air suction channel extends out of the nozzle shell;

the deodorizing device is arranged outside the nozzle shell, and the air outlet end of the second air suction channel is communicated with the air suction inlet of the deodorizing device through the air suction connecting pipe, so that purified gas treated by the deodorizing device is discharged from the air outlet of the deodorizing device.

Optionally, a water outlet channel is arranged on the inner side of the nozzle shell, the water outlet channel comprises a first water outlet channel and a second water outlet channel, and water is independently discharged between the first water outlet channel and the second water outlet channel;

The nozzle housing is integrated with a first injection port communicated with the first water outlet channel and a second injection port communicated with the second water outlet channel.

Optionally, the first water outlet channel is used for introducing tap water and spraying out through the first spraying port, and the second water outlet channel is used for introducing sterilizing water and spraying out through the second spraying port;

wherein the water inlet of the first water outlet channel and the water inlet of the second water outlet channel extend outwards from the back of the nozzle shell;

The opening directions of the first and second injection ports are the same.

Optionally, the air suction assembly further includes: an air suction fixing seat for installing the air suction device,

The air suction fixing seat is arranged at the bottom of the nozzle shell, and the nozzle shell and the air suction fixing seat can form a containing space, so that the second air suction channel and the air suction device are arranged in the containing space.

Optionally, the air suction assembly further includes: an air suction outer cover, a plurality of air suction holes are arranged on the air suction outer cover,

The bottom of the air suction fixing seat forms an upward convex air guide end face,

The air suction outer cover is arranged at the bottom of the air suction fixing seat and forms an air guide cavity together with the air guide end face at the bottom of the air suction fixing seat;

and the air suction fixing seat and the air suction outer cover are also provided with avoiding structures which enable the first jet opening and the second jet opening to pass through.

According to a third aspect of the present application, there is provided a urinal comprising: a urinal body, and a urinal nozzle mechanism according to the first aspect or any one of the second aspects, the urinal nozzle mechanism being mounted above a urine receiving region of the urinal body.

Optionally, the method comprises: a sterilization module, a first connecting pipe, a second connecting pipe and a third connecting pipe,

The first water outlet channel of the urinal nozzle mechanism is communicated with one path of an external water source pipeline through the first connecting pipe;

The other path of the external water source pipeline is communicated with the water inlet of the sterilization module through the third connecting pipe, and the water outlet of the sterilization module is communicated with the second water outlet channel of the urinal nozzle through the second connecting pipe, so that the sterilization water treated by the sterilization module flows into the second water outlet channel;

Electromagnetic valves for controlling water source on-off are respectively arranged at the connection positions of the first connecting pipe, the third connecting pipe and the external water source pipeline; the back of the urinal body is also provided with an electric control module.

From the above, it can be seen that the above at least one technical solution adopted in the embodiment of the present application can achieve the following beneficial effects: the air suction assembly is integrated in the nozzle shell of the nozzle mechanism, so that a larger installation space can be provided for the air suction assembly, the volume of the air suction channel is increased, peculiar smell generated during urination can be quickly and effectively sucked away, the air suction efficiency is improved, and the air suction effect is enhanced; the deodorizing function of the urinal is realized by connecting a deodorizing device in the air suction channel or outside the nozzle shell; by integrating the double water outlet channels for independently discharging water on the nozzle shell of the nozzle mechanism, the water flushing function of the nozzle mechanism is realized, and meanwhile, the sterilization water can be sprayed and the sterilization function is realized; therefore, the urinal nozzle mechanism can be used as an external independent module, is convenient to detach, replace and repair, can realize the cleaning, sterilizing and deodorizing effects of the urinal in an omnibearing manner, further improves the environmental sanitation and the use experience of users, and meets the application requirements of high-end places.

The foregoing description is only an overview of the present application, and is intended to be implemented in accordance with the teachings of the present application in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present application more readily apparent.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

FIG. 1 is a schematic view showing a split structure of a urinal nozzle mechanism according to a first embodiment of the present application;

FIG. 2 is a schematic diagram of an air suction passage (front view) in accordance with a first embodiment of the present application;

FIG. 3 is a second schematic view of an air suction passage (top view) in accordance with the first embodiment of the present application;

FIG. 4 is a schematic view showing the internal structure of a nozzle housing according to a first embodiment of the present application;

FIG. 5 is a schematic view showing the external structure of a nozzle housing (back) according to a first embodiment of the present application;

FIG. 6 is a schematic side view of a dual outlet channel according to a first embodiment of the present application;

fig. 7 is a schematic view showing an internal structure of a urinal nozzle mechanism according to a second embodiment of the present application;

fig. 8 is a schematic diagram of an air suction passage (front view) in a second embodiment of the present application;

fig. 9 is a schematic view showing the overall structure of a urinal according to a third embodiment of the present application;

FIG. 10 is a schematic view of a back pipe connection of a urinal according to a third embodiment of the present application;

FIG. 11 is a schematic view of a back pipe installation of a urinal according to a third embodiment of the present application;

FIG. 12 is a schematic view showing the overall structure of another urinal according to the fourth embodiment of the present application;

FIG. 13 is a schematic view of the back piping connection of the urinal according to the fourth embodiment of the present application;

In the figure: 110. a nozzle housing; 111. a water outlet channel; 1111. a first water outlet channel; 1112. a second water outlet channel; 112. a first ejection port; 113. a second ejection port; 114. a limit groove; 115. a water inlet of the first water outlet channel; 116. a water inlet of the second water outlet channel;

120. an air suction assembly; 121. a first suction passage; 1211. an air inlet end of the first air suction channel; 1212. an air outlet end of the first air suction channel; 122. an air suction device; 123. a second suction passage; 1231. an air inlet end of the second air suction channel; 1232. an air outlet end of the second air suction channel; 124. the air suction fixing seat; 1241. avoidance structure of the air suction fixing seat; 125. an air suction outer cover; 1251. an avoidance structure of the air suction outer cover; 126. an air guide cavity; 127. an exhaust pipe; 128. an induced draft connecting pipe;

130. A deodorizing device; 131. deodorization fixing base; 132. an air suction inlet of the deodorizing device;

10. The urinal nozzle mechanism in the first embodiment; 20. the urinal nozzle mechanism in the second embodiment; 30. a urinal body; 310. a sterilization module; 311. a first connection pipe; 312. a second connection pipe; 313. a third connection pipe; 320. an external water source pipe; 330. an electromagnetic valve; 340. and an electric control module.

Detailed Description

Exemplary embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the application to those skilled in the art.

The application has the technical conception that the urinal nozzle mechanism with better air suction effect and convenient disassembly and maintenance is designed, the air suction assembly is integrated on the urinal nozzle mechanism and is used for sucking peculiar smell generated when a urinal is sucked nearby from a source, and a larger installation space is provided for the air suction assembly, so that the volume of an air suction channel is larger, the air suction efficiency is improved, and the air suction effect is enhanced; the implementation way is that the nozzle mechanism is arranged on the front surface of the urinal, and a deodorizing device is arranged in an air suction channel of the nozzle mechanism, so that the odor gas is sucked into the air suction channel and is discharged after being purified by the deodorizing device; in another implementation way, the nozzle mechanism is arranged on the front surface of the urinal, and the deodorizing device is arranged on the back of the urinal, so that the odor gas is sucked into the deodorizing device through the air suction channel and is discharged after being purified; therefore, the deodorizing function of the urinal can be quickly and effectively realized through the two implementation modes; meanwhile, the nozzle mechanism is integrated with a double water outlet channel for independent water outlet and respectively sprays tap water and sterilizing water, so that the cleaning and sterilizing capacities of the urinal can be improved, and the technical effects of improving the environmental sanitation of a toilet and improving the use experience of a user are achieved.

The following describes in detail the technical solutions provided by the embodiments of the present application with reference to the accompanying drawings.

Example 1

Referring to fig. 1 to 6, the present embodiment proposes a urinal nozzle mechanism including: a nozzle housing 110, an air suction assembly 120, and a deodorizing means 130, the air suction assembly 120 being disposed inside the nozzle housing 110; the suction assembly 120 includes: a first air suction channel 121 and an air suction device 122, wherein the air suction device 122 is communicated with the first air suction channel 121, so that the air sucked by the air suction device 122 is introduced from an air inlet end 1211 of the first air suction channel, and an air outlet end 1212 of the first air suction channel extends to the outside of the nozzle housing 110; the deodorizing device 130 is disposed in the first suction passage 121, and is used for purifying the gas in the first suction passage 121.

Specifically, as shown in fig. 1, in the present embodiment, the air suction assembly 120 and the deodorizing device 130 are integrated in the nozzle mechanism, that is, the accommodating space for placing the air suction assembly 120 is formed in the nozzle housing 110, and the deodorizing device 130 is disposed in the first air suction channel 121, so that under the action of the air suction device 122, the odor gas generated during urination can be sucked into the first air suction channel 121 and discharged from the air outlet end 1212 of the first air suction channel after being purified by the deodorizing device 130, so that the urinal nozzle mechanism according to the present embodiment can be installed as an external independent module, and only the nozzle mechanism itself needs to be disassembled during replacement without affecting the ceramic body of the urinal; meanwhile, the nozzle housing in the embodiment can provide a larger installation space for the air suction assembly, so that the volume of the air suction channel can be increased, the air suction effect is further improved, peculiar smell generated by urine can be eliminated from the source, the deodorizing function of the urinal is realized, and the flow path of gas in the nozzle mechanism can be shown by referring to curves and arrows in fig. 2 and 3.

Preferably, the air suction device 122 comprises a fan; the deodorizing device 130 may be implemented by using a deodorizing manner such as an ultraviolet lamp, ozone, activated carbon, etc.; of course, the present application is not particularly limited in the type of the air suction device, and the implementation manner and principle of the deodorizing device.

Further, as shown in fig. 4 and 5, the inside of the nozzle housing 110 is provided with a water outlet passage 111; in some embodiments, the water outlet channel 111 includes one, two or more water outlet channels, and when the water outlet channel 111 is one water outlet channel, the water outlet channel is used for introducing tap water; preferably, the water outlet channel 111 includes a first water outlet channel 1111 and a second water outlet channel 1112, and water is independently discharged between the first water outlet channel 1111 and the second water outlet channel 1112 and used for respectively introducing tap water and sterilizing water; of course, the number of the water outlet passages is not limited in this embodiment.

The nozzle housing 110 is integrated with a first injection port 112 communicating with the first water outlet passage 1111 and a second injection port 113 communicating with the second water outlet passage 1112; preferably, the back of the nozzle housing 110 is provided with a limiting slot 114, and the air outlet end 1212 of the first air suction channel can penetrate through the limiting slot 114 and extend out of the nozzle housing 110.

Specifically, in this embodiment, the nozzle housing 110 is an integrated structure, two independent water outlet channels are further integrated on the nozzle housing 110, and the two water outlet channels can be respectively communicated with different waterways, and tap water and sterilizing water are respectively sprayed through two spraying ports, so that the cleaning capability of the urinal is improved, and meanwhile, a better sterilizing effect can be achieved.

In addition, the outer wall of the water inlet 115 of the first water outlet channel is also provided with external threads, and the external threads at the water inlet 115 of the first water outlet channel are used for realizing fixed connection with the connecting pipe. The outer edge of the junction of the water inlet 116 of the second water outlet passage is tightened inward to be fixedly connected with the connection pipe.

Further, as shown in fig. 4 and 6, the first water outlet channel 1111 is used for supplying tap water and spraying out through the first spraying port 112, and the second water outlet channel 1112 is used for supplying sterilizing water and spraying out through the second spraying port 113;

Wherein the water inlet 115 of the first water outlet channel and the water inlet 116 of the second water outlet channel protrude outward from the back of the nozzle housing 110, and the water inlet 116 of the second water outlet channel is formed above the water inlet 115 of the first water outlet channel; preferably, the second injection port 113 is formed at a front end surface of the first injection port 112, the opening directions of the first injection port 112 and the second injection port 113 are the same, and the size of the first injection port 112 is not smaller than the size of the second injection port 113.

Specifically, since the urinal nozzle mechanism of the present application may be installed directly above the urine receiving region in the urinal body, the first and second injection ports 112 and 113 are identical in opening direction and all face down with respect to the urinal body, but the opening shapes of the first and second injection ports 112 and 113 are not limited in this embodiment.

Preferably, as shown in fig. 4, the injection caliber of the first injection port 112 increases in the injection direction, and the second injection port 113 is an oblate injection port. Since the water amount required for flushing urine is large, in the present embodiment, the size of the opening of the first jet port 112 for jetting tap water should be larger than the size of the second jet port 113 for jetting sterilizing water; correspondingly, the size of the water inlet 115 of the first water outlet channel should be larger than the size of the water inlet 116 of the second water outlet channel, and the pipe diameter size of the first water outlet channel 1111 should be larger than the pipe diameter size of the second water outlet channel 1112; thus, by forming independent tap water passage and sterilizing water passage, the flushing and sterilizing functions of the urinal can be realized.

Of course, the above matters about the position and communication manner of the water outlet passage, the size and position of the injection port, etc. are only for easy understanding and simplified description, and are not to be construed as limiting the present application.

Preferably, the suction assembly 120 further includes: the air suction fixing base 124 is used for installing the air suction device 122, the air suction fixing base 124 is arranged at the bottom of the nozzle housing 110, and the nozzle housing 110 and the air suction fixing base 124 can be assembled to form a containing space, so that the first air suction channel 121 and the air suction device 122 are arranged in the containing space.

Specifically, referring to fig. 1 and 2, a mounting through hole is formed at a central position of the air suction fixing seat 124, the air suction device 122 is mounted in the mounting through hole of the air suction fixing seat 124, the first air suction channel 121 is mounted above the air suction device 122, and meanwhile, an air inlet end 1211 of the first air suction channel is communicated with the air suction device 122, so that the odor in the urinal can be sucked into the first air suction channel 121 by the air suction device.

Further, the suction assembly 120 further includes: the air suction cover 125 is provided with a plurality of air suction holes, the bottom of the air suction fixing seat 124 forms an upward convex air guide end face, and the air suction cover 125 is arranged at the bottom of the air suction fixing seat 124 and forms an air guide cavity 126 together with the air guide end face at the bottom of the air suction fixing seat 124; therefore, under the action of the air suction device 122, the odor in the urinal can be sucked from the air suction holes on the air suction housing 125, and is guided by the air guide cavity 126 and then pumped into the air suction device 122 and the first air suction channel 121.

Preferably, the air suction fixing seat 124 and the air suction outer cover 125 are further provided with avoiding structures for allowing the first injection port 112 and the second injection port 113 to pass through, that is, an avoiding structure 1241 of the air suction fixing seat is formed at a contact position of the air suction fixing seat 124 and the injection port, and an avoiding structure 1251 of the air suction outer cover is formed at a contact position of the air suction outer cover 125 and the injection port, so that the first injection port 112 and the second injection port 113 can extend to perform injection.

Further, as shown in fig. 2, the urinal nozzle mechanism includes: the deodorizing fixing base 131, a side end mounting hole is formed at one side of the first suction channel 121, one end of the deodorizing fixing base 131 is connected with the nozzle housing 110, the other end of the deodorizing fixing base 131 is connected with one end of the deodorizing device 130, and the other end of the deodorizing device 130 can be inserted into the first suction channel 121 through the side end mounting hole, thereby deodorizing and purifying the gas sucked into the first suction channel 121 by the deodorizing device 130.

Further, the urinal nozzle mechanism further includes: and an exhaust pipe 127, wherein one end of the exhaust pipe 127 is communicated with the air outlet end 1212 of the first air suction channel, so that the purified gas treated by the deodorizing device 130 is exhausted from the other end of the exhaust pipe 127.

Referring to fig. 10 specifically, after the installation of the urinal nozzle mechanism is completed, the nozzle housing 110 and its internal components are all installed on the ceramic front surface of the urinal, that is, above the urine receiving area of the urinal body, and the air outlet end 1212 of the first air suction channel, the water inlet 115 of the first water outlet channel and the water inlet 116 of the second water outlet channel are all inserted into the ceramic inside of the urinal body, and the ceramic on the inner and outer sides of the ceramic is locked by nuts to fix the nozzle mechanism, so that the exhaust pipe 127 is also located inside the ceramic and is communicated with the air outlet end 1212 of the first air suction channel.

Preferably, an induction module and a light module (not shown) may be further disposed in the nozzle housing 110 of the nozzle mechanism according to this embodiment, for example, when the human body is induced to stand for 20S at a distance of 0.3 m from the urinal, it can be determined that the human body is urinating, and at this time, the air suction device may be started to suck air to quickly suck in odor gas for purification, and then operations such as flushing and sterilization are performed; meanwhile, the light module is used for prompting atmosphere lamps according to different processing operations, for example, when a human body urinates, the color or the lighting mode of the light can be changed to prompt related functions of the urinal. Of course, the shape, number, installation position, and the like of the light module and the sensing module are not particularly limited in this embodiment.

Therefore, in the embodiment, on one hand, the air suction assembly and the deodorizing device are integrated in the nozzle shell, so that peculiar smell generated during urination can be effectively sucked away, and the deodorizing function is realized; on the other hand, by integrating the double water outlet channels of independent water outlet on the nozzle shell, the water flushing function of the nozzle is realized, and meanwhile, the sterilizing water can be sprayed and the sterilizing function is realized; meanwhile, the urinal nozzle mechanism has the advantages of simple structure, high integration level, attractive appearance and convenience in installation and maintenance, and therefore, the urinal nozzle mechanism meets the application requirements of high-end places.

Example two

Parts of the second embodiment that are the same as or correspond to parts of the first embodiment are given the same reference numerals as in the first embodiment. For simplicity, only the points of distinction between the second embodiment and the first embodiment will be described. As shown in fig. 7 to 8, the present embodiment is different from the first embodiment in that the deodorizing means in the present embodiment is provided outside the nozzle housing and is mounted on the back of the urinal body.

The present embodiment proposes another urinal nozzle mechanism including: a nozzle housing 110, an air suction assembly 120, a deodorizing device 130, and an air suction connection pipe 128, the air suction assembly 120 being disposed inside the nozzle housing 110; the air suction assembly 120 includes a second air suction channel 123 and an air suction device 122, and the air suction device 122 is preferably a fan;

The air suction device 122 is communicated with the second air suction channel 123, so that the air sucked by the air suction device 122 is introduced from the air inlet end 1231 of the second air suction channel, and the air outlet end 1232 of the second air suction channel extends to the outside of the nozzle housing 110; the deodorizing device 130 is disposed outside the nozzle housing 110, and the air outlet end 1232 of the second air suction channel is communicated with the air suction inlet 132 of the deodorizing device through the air suction connection pipe 128, so that the purified gas treated by the deodorizing device 130 is discharged from the air outlet of the deodorizing device 130.

Specifically, as shown in fig. 7 and 8, in the present embodiment, the suction assembly 120 is integrated inside the nozzle mechanism, that is, a receiving space for placing the suction assembly 120 is formed inside the nozzle housing 110, the deodorizing means is communicated with the second suction passage 123, and the deodorizing means 130 is installed at the back of the urinal; accordingly, the odor gas generated during urination is sucked into the second suction passage 123 by the suction device 122, then is introduced into the deodorizing device 130 through the suction connection pipe 128, and is purified by the deodorizing device 130 and then is discharged from the air outlet (not shown) of the deodorizing device 130.

It will be appreciated that since the deodorizing means 130 in the present embodiment is disposed outside the nozzle housing 110, and the deodorizing means 130 in the first embodiment is disposed inside the first suction passage 121, the size of the second suction passage 123 in the present embodiment is smaller than that of the first suction passage 121 in the first embodiment, and the size of the nozzle housing 110 in the present embodiment is also smaller than that of the nozzle housing 110 in the first embodiment; meanwhile, the shape and model of the deodorizing device 130 in the first embodiment and the deodorizing device 130 in the second embodiment may be designed to be the same or different, and the present application is not limited thereto. Therefore, the odor generated by urine can be eliminated from the source, the deodorizing function of the urinal can be realized, and the flow path of the gas in the nozzle mechanism can be shown by referring to the arrow in fig. 8.

Further, a water outlet channel 111 is provided on the inner side of the nozzle housing 110, and the water outlet channel 111 includes one, two or more water outlet channels; preferably, the water outlet channel 111 includes a first water outlet channel 1111 and a second water outlet channel 1112, and water is independently discharged between the first water outlet channel 1111 and the second water outlet channel 1112; the nozzle housing 110 is integrated with a first injection port 112 communicating with the first water outlet passage 1111 and a second injection port 113 communicating with the second water outlet passage 1112; preferably, the back of the nozzle housing 110 is provided with a limiting groove 114, and the air outlet end 1232 of the second air suction channel can penetrate through the limiting groove 114 and extend out of the nozzle housing 110.

Further, the first water outlet channel 1111 is used for introducing tap water and spraying out through the first spraying port 112, and the second water outlet channel 1112 is used for introducing sterilizing water and spraying out through the second spraying port 113; wherein the water inlet 115 of the first water outlet channel and the water inlet 116 of the second water outlet channel protrude outward from the back of the nozzle housing 110, preferably, the water inlet 116 of the second water outlet channel is formed above the water inlet 115 of the first water outlet channel; the second injection port 113 is formed in a front end face of the first injection port 112, the opening directions of the first injection port 112 and the second injection port 113 are the same and both face downward, and the size of the first injection port 112 is not smaller than the size of the second injection port 113.

It should be noted that, in the present embodiment, the dual water outlet channels may be set with reference to the first embodiment, and particularly, may be shown with reference to fig. 4 to 6, which are not repeated herein.

Preferably, as shown in fig. 7 and 8, the air suction assembly 120 further includes: the air suction fixing base 124 is used for installing the air suction device 122, the air suction fixing base 124 is disposed at the bottom of the nozzle housing 110, and the nozzle housing 110 and the air suction fixing base 124 can be assembled to form a containing space, so that the second air suction channel 123 and the air suction device 122 are disposed in the containing space.

Preferably, the suction assembly 120 further includes: the air suction cover 125 is provided with a plurality of air suction holes, the bottom of the air suction fixing seat 124 forms an upward convex air guide end face, and the air suction cover 125 is arranged at the bottom of the air suction fixing seat 124 and forms an air guide cavity 126 together with the air guide end face at the bottom of the air suction fixing seat 124; the air suction fixing seat 124 and the air suction housing 125 are further provided with avoiding structures (not shown in the figure, and may be provided with reference to the first embodiment) for allowing the first injection port 112 and the second injection port 113 to pass through.

Of course, the sensing module and the light module may also be disposed inside the nozzle housing 110 of the nozzle mechanism in this embodiment, which is not described herein.

Example III

Parts of the third embodiment that are the same as or correspond to parts of the first embodiment are given the same reference numerals as in the first embodiment. As shown in fig. 9 to 11, in this embodiment, the urinal nozzle mechanism in the first embodiment is applied to the urinal body, and the nozzle mechanism is mounted on the front surface of the urinal by integrating the deodorizing device, the air suction assembly and the nozzle on the front surface, and the deodorizing device is disposed in the air suction passage of the nozzle mechanism.

Specifically, the present embodiment proposes a urinal including: a urinal body 30, and a urinal nozzle mechanism 10 according to the first embodiment, the urinal nozzle mechanism being mounted above a urine receiving region of the urinal body 30; preferably, the urinal nozzle mechanism is mounted directly above the urine receiving area of the urinal body 30.

That is, the nozzle housing 110 and its internal components are mounted on the ceramic front surface of the urinal, i.e. above the urine receiving area of the urinal body, and the air outlet end 1212 of the first air suction channel, the water inlet 115 of the first water outlet channel and the water inlet 116 of the second water outlet channel are inserted into the ceramic of the urinal body, and the ceramics on the inner and outer sides are locked by nuts in the ceramic to fix the nozzle mechanism.

Further, as shown in fig. 10, the urinal includes: a sterilization module 310, a first connection pipe 311, a second connection pipe 312, and a third connection pipe 313; preferably, the sterilization module 310 is installed at the back of the urinal body 30;

the back of the urinal body 30 is the inside of the ceramic on the back side of the urinal body, and specifically, as shown in fig. 11.

Preferably, the sterilization module 310 may be implemented by means of electrolytic water sterilization, chemical agent sterilization, etc.; of course, the implementation manner and principle of the sterilization module 310 are not limited in this embodiment; in addition, the length and the material of the first connection pipe 311, the second connection pipe 312, the third connection pipe 313, and the exhaust pipe 127 are not limited in this embodiment.

The first water outlet channel 1111 of the urinal nozzle mechanism is communicated with one of the external water source pipelines 320 through the first connecting pipe 311; the other path of the external water source pipe 320 is communicated with the water inlet of the sterilization module 310 through the third connection pipe 313, and the water outlet of the sterilization module 310 is communicated with the second water outlet channel 1112 of the urinal nozzle through the second connection pipe 312, so that the sterilization water treated by the sterilization module 310 flows into the second water outlet channel 1112.

Further, electromagnetic valves 330 for controlling on/off of the water source are respectively arranged at the connection positions of the first connection pipe 311, the third connection pipe 313 and the external water source pipe 320; an electronic control module 340 is also mounted on the back of the urinal body 30.

As can be seen from the above, in the present embodiment, when the flushing function is started, one of the solenoid valves is controlled to be started, so that the tap water introduced from the external water source pipe 320 flows through the first connecting pipe 311 and the first water outlet channel 1111 in sequence, is injected from the first injection port 112, and is discharged from the liquid discharge pipe of the urinal after flushing the urinal;

When the sterilization function is started, the other solenoid valve is controlled to be started, so that tap water introduced from the external water source pipeline 320 sequentially flows through the third connecting pipe 313 and the sterilization module 310 and then is converted into sterilization water, and then sequentially flows through the second connecting pipe 312 and the second water outlet channel 1112 and is sprayed by the second spraying port 113, and after sterilization is performed on the urinal, the sterilization water is discharged from the liquid discharge pipeline of the urinal.

When the deodorizing function is started, the air suction device 122 is controlled to work, so that the odor gas is sucked from the air suction holes of the air suction housing 125 and sequentially passes through the air guide cavity 126 and the first air suction channel 121, and is discharged to the outside through the air discharge pipe 127 after being subjected to the purifying deodorizing treatment by the deodorizing device 130.

It should be noted that, since the urinal according to the present embodiment uses the urinal nozzle mechanism in the first embodiment, the urinal nozzle mechanism includes all the technical solutions of the urinal nozzle mechanism, and the achieved technical effects are identical, which is not described herein.

Example IV

In the fourth embodiment, the same or corresponding parts as those in the embodiment are denoted by the same reference numerals as those in the embodiment. As shown in fig. 12 to 13, in this embodiment, the urinal nozzle mechanism of the second embodiment is applied to the urinal body, and the nozzle mechanism is mounted on the front surface of the urinal and the deodorizing device is provided on the back of the urinal by integrating the nozzle and the air suction unit on the front surface and providing the deodorizing device on the back surface.

Specifically, this embodiment proposes another urinal different from the third embodiment, including: a urinal body 30, and a urinal nozzle mechanism 20 according to the second embodiment, the urinal nozzle mechanism being mounted above a urine receiving region of the urinal body 30; preferably, the urinal nozzle mechanism is mounted directly above the urine receiving area of the urinal body 30. That is, the nozzle housing 110 and its internal components are mounted on the ceramic front surface of the urinal, i.e. above the urine receiving area of the urinal body, and the air outlet end 1212 of the first air suction channel, the water inlet 115 of the first water outlet channel and the water inlet 116 of the second water outlet channel are inserted into the ceramic of the urinal body, and the ceramics on the inner and outer sides are locked by nuts in the ceramic to fix the nozzle mechanism.

Unlike the third embodiment, the second air suction channel 123 in this embodiment does not include the deodorizing device 130, the deodorizing device 130 is disposed outside the nozzle housing 110 and is mounted inside the ceramic on the back side of the urinal, as shown in fig. 13, and the air outlet end 1232 of the second air suction channel is communicated with the air suction inlet 132 of the deodorizing device through the air suction connection pipe 128, so that the purified air treated by the deodorizing device 130 is discharged from the air outlet of the deodorizing device 130.

Further, the sterilization module 310, the first connection pipe 311, the second connection pipe 312, the third connection pipe 313, the electromagnetic valve 330 and the electronic control module 340 are also included in the present embodiment, and the piping connection manner of the sterilization module 310 in the present embodiment can refer to the third embodiment, which is not described herein. Of course, the implementation manner and principle of the sterilization module 310 are not limited in this embodiment; in addition, the length and the material of the first connection pipe 311, the second connection pipe 312, the third connection pipe 313, and the suction connection pipe 128 are not limited in this embodiment.

As can be seen from the above, in the present embodiment, when the flushing function is started, one of the solenoid valves is controlled to be started, so that the tap water introduced from the external water source pipe 320 flows through the first connecting pipe 311 and the first water outlet channel 1111 in sequence, is injected from the first injection port 112, and is discharged from the liquid discharge pipe of the urinal after flushing the urinal;

When the sterilization function is started, the other solenoid valve is controlled to be started, so that tap water introduced from the external water source pipeline 320 sequentially flows through the third connecting pipe 313 and the sterilization module 310 and then is converted into sterilization water, and then sequentially flows through the second connecting pipe 312 and the second water outlet channel 1112 and is sprayed by the second spraying port 113, and after sterilization is performed on the urinal, the sterilization water is discharged from the liquid discharge pipeline of the urinal.

When the deodorizing function is started, the air suction device 122 is controlled to work, so that the odor gas is sucked from the air suction holes of the air suction housing 125 and is discharged to the outside through the air outlet of the deodorizing device 130 after being sequentially passed through the air guide cavity 126, the second air suction channel 123 and the air suction connecting pipe 128 and being subjected to the deodorizing treatment by the deodorizing device 130.

It should be noted that, since the urinal according to the present embodiment uses the urinal nozzle mechanism in the second embodiment, the urinal nozzle mechanism includes all the technical solutions of the urinal nozzle mechanism, and the achieved technical effects are identical, which is not described herein.

It can be seen that in the third and fourth embodiments, the urinal operates as follows:

In the first case, the washing and deodorizing and sterilizing functions. When the sensing module senses that a human body urinates, the air suction device is started to suck air, odor gas in urine is sucked through the air suction holes and the air suction channels, and then the deodorizing device is used for purifying and deodorizing, so that the problem of odor is solved from the source rapidly; when the sensing module senses that the urination of the human body is finished, the electromagnetic valve is opened, tap water is introduced, the tap water flows through the first water outlet channel and is sprayed through the first spraying opening to flush the urinal, then the other battery valve is opened, the tap water flows through the sterilization module, and the sterilization water treated by the sterilization module flows through the second water outlet channel and is sprayed through the second spraying opening to sterilize the urinal.

And in the second case, the deodorizing function is timed. For example, whether or not urine is sensed, the air suction device and the deodorizing device can be started at preset time intervals (such as every one hour), or within preset time periods (such as at night), so that the odor gas is sucked into the deodorizing device and subjected to purification treatment, and deodorizing operation is completed.

And thirdly, a timing sterilization function. For example, whether or not urine is sensed, the electromagnetic valve and the sterilization module on one side of the sterilization water can be started at preset time intervals (such as every two hours) or within preset time periods (such as at night), so that the sterilization water passes through the second water outlet channel and is sprayed by the second spraying port, and the sterilization operation is completed.

It should be noted that the above three cases are only exemplary descriptions, the application does not limit the starting sequence and applicable scene of the deodorizing function, the sterilizing function, the flushing function, etc., and when the urinal starts different functions, the light module can be set to change the color or change the lighting mode to prompt the corresponding functions; of course, the working process of the urinal can be adjusted and specifically set by the person skilled in the art according to the actual situation.

In summary, the technical scheme of the application at least achieves the following technical effects: by integrating the air suction assembly in the nozzle shell of the urinal nozzle mechanism, a larger installation space can be provided for the air suction assembly, so that the volume of an air suction channel is increased, peculiar smell generated during urination can be quickly and effectively sucked away, the air suction efficiency is improved, and the air suction effect is enhanced; the deodorizing function of the urinal is realized by connecting a deodorizing device in the air suction channel or outside the nozzle shell; by integrating the double water outlet channels for independently discharging water on the nozzle shell of the nozzle mechanism, the water flushing function of the nozzle mechanism is realized, and meanwhile, the sterilization water can be sprayed and the sterilization function is realized; therefore, the urinal nozzle mechanism can be used as an external independent module, is convenient to detach, replace and repair, can realize the cleaning, sterilizing and deodorizing effects of the urinal in an omnibearing manner, further improves the environmental sanitation and the use experience of users, and meets the application requirements of high-end places.

It is to be understood that the terms "upper," "lower," "front," "rear," "inner," "outer," and the like indicate or relate to an orientation or position based on that shown in the drawings, and are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the present application, unless explicitly specified and limited otherwise, terms such as "connected," "fixed" and the like are to be construed broadly and include, for example, either fixedly attached, detachably attached, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present application, unless otherwise indicated, the meaning of "plurality" is two or more. It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "examples," and the like, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the application are to be included in the scope of the claims of the present application.

Claims (10)

1. A urinal nozzle mechanism comprising: a nozzle housing (110), an air suction assembly (120) and a deodorizing device (130), the air suction assembly (120) being disposed inside the nozzle housing (110);

the suction assembly (120) includes: a first air suction channel (121) and an air suction device (122),

The air suction device (122) is communicated with the first air suction channel (121) so that air sucked by the air suction device (122) is introduced from an air inlet end (1211) of the first air suction channel, and an air outlet end (1212) of the first air suction channel extends out of the nozzle shell (110);

The deodorizing device (130) is arranged in the first air suction channel (121) and is used for purifying the gas in the first air suction channel (121).

2. The urinal nozzle mechanism according to claim 1, wherein,

A water outlet channel (111) is arranged on the inner side of the nozzle shell (110), the water outlet channel (111) comprises a first water outlet channel (1111) and a second water outlet channel (1112), and water is independently discharged between the first water outlet channel (1111) and the second water outlet channel (1112);

The nozzle housing (110) is integrated with a first injection port (112) communicating with the first water outlet channel (1111), and a second injection port (113) communicating with the second water outlet channel (1112).

3. The urinal nozzle mechanism according to claim 2, characterized in that the first water outlet channel (1111) is for passing tap water and spraying through a first spraying port (112), and the second water outlet channel (1112) is for passing sterilizing water and spraying through a second spraying port (113);

Wherein the water inlet (115) of the first water outlet channel and the water inlet (116) of the second water outlet channel protrude from the back of the nozzle housing (110) towards the outside;

the opening directions of the first injection port (112) and the second injection port (113) are the same.

4. A urinal nozzle mechanism as claimed in claim 3 characterised in that said suction assembly (120) further comprises: a suction fixing seat (124) for installing the suction device (122),

The air suction fixing seat (124) is arranged at the bottom of the nozzle housing (110), and the nozzle housing (110) and the air suction fixing seat (124) can form a containing space, so that the first air suction channel (121) and the air suction device (122) are arranged in the containing space.

5. A urinal nozzle mechanism comprising: a nozzle housing (110), an air suction assembly (120), a deodorizing device (130) and an air suction connection pipe (128), wherein the air suction assembly (120) is arranged inside the nozzle housing (110);

The air suction assembly (120) comprises a second air suction channel (123) and an air suction device (122),

The air suction device (122) is communicated with the second air suction channel (123) so that air sucked by the air suction device (122) is introduced from an air inlet end (1231) of the second air suction channel, and an air outlet end (1232) of the second air suction channel extends out of the nozzle shell (110);

The deodorizing device (130) is arranged outside the nozzle housing (110), and an air outlet end (1232) of the second air suction channel is communicated with an air suction inlet (132) of the deodorizing device through an air suction connecting pipe (128), so that purified gas treated by the deodorizing device (130) is discharged from an air outlet of the deodorizing device (130).

6. The urinal nozzle mechanism according to claim 5, characterized in that the inside of the nozzle housing (110) is provided with a water outlet channel (111), the water outlet channel (111) comprises a first water outlet channel (1111) and a second water outlet channel (1112), and water is independently discharged between the first water outlet channel (1111) and the second water outlet channel (1112);

The nozzle housing (110) is integrated with a first injection port (112) communicating with the first water outlet channel (1111), and a second injection port (113) communicating with the second water outlet channel (1112).

7. The urinal nozzle mechanism according to claim 6, wherein,

The first water outlet channel (1111) is used for introducing tap water and spraying out through the first spraying port (112), and the second water outlet channel (1112) is used for introducing sterilizing water and spraying out through the second spraying port (113);

Wherein the water inlet (115) of the first water outlet channel and the water inlet (116) of the second water outlet channel protrude from the back of the nozzle housing (110) towards the outside;

the opening directions of the first injection port (112) and the second injection port (113) are the same.

8. The urinal nozzle mechanism according to claim 7, wherein said air suction assembly (120) further includes: a suction fixing seat (124) for installing the suction device (122),

The air suction fixing seat (124) is arranged at the bottom of the nozzle housing (110), and the nozzle housing (110) and the air suction fixing seat (124) can form a containing space, so that the second air suction channel (123) and the air suction device (122) are arranged in the containing space.

9. A urinal, comprising: a urinal body (30), and a urinal nozzle mechanism according to any one of claims 1 to 4, or claims 5 to 8, mounted above the urine receiving region of the urinal body (30).

10. The urinal according to claim 9, characterized by comprising: a sterilization module (310), a first connection pipe (311), a second connection pipe (312) and a third connection pipe (313),

The first water outlet channel (1111) of the urinal nozzle mechanism is communicated with one path of an external water source pipeline (320) through the first connecting pipe (311);

The other path of the external water source pipeline (320) is communicated with the water inlet of the sterilization module (310) through the third connecting pipe (313), and the water outlet of the sterilization module (310) is communicated with the second water outlet channel (1112) of the urinal nozzle through the second connecting pipe (312), so that the sterilization water treated by the sterilization module (310) flows into the second water outlet channel (1112);

Electromagnetic valves (330) for controlling water source on-off are respectively arranged at the connection positions of the first connecting pipe (311), the third connecting pipe (313) and the external water source pipeline (320); an electronic control module (340) is also installed on the back of the urinal body (30).