CN220727199U

CN220727199U - Water outlet device with multiple water outlet modes

Info

Publication number: CN220727199U
Application number: CN202322332741.7U
Authority: CN
Inventors: 周腾计; 黄琼生
Original assignee: Fujian Intercom Building Materials Co ltd
Current assignee: Fujian Intercom Building Materials Co ltd
Priority date: 2023-08-30
Filing date: 2023-08-30
Publication date: 2024-04-05
Anticipated expiration: 2033-08-30

Abstract

The utility model provides a water outlet device with a plurality of water outlet modes, wherein in the structure of the water outlet device, a water distributor can be rotated to a water outlet hole below a connecting pipe to be communicated with a first flow passage or a second flow passage through rotating a shell. When the water outlet hole is communicated with the first flow channel, the shell forms a horizontal state, so that water directly flows downwards from the first water outlet piece; when the water outlet hole is communicated with the second flow channel, the connecting pipe is adaptively embedded in the yielding groove of the shell, so that a structure with the connecting pipe and the shell being vertical is formed, water flows downwards from the second water outlet piece, and in the state, the flow direction of the water in the valve cavity can be changed by pressing a key on the surface of the shell, so that the water flows out from the water outlet hole of the shell or flows out from the second water outlet piece. Therefore, the utility model has three water outlet modes, so that people can select when using the water tap, the convenience of domestic water is improved, the position of the surface of the counter basin is not occupied, and the reasonable utilization of space is facilitated.

Description

Water outlet device with multiple water outlet modes

Technical Field

The utility model relates to the field of water valve structures, in particular to a water outlet device with a plurality of water outlet modes.

Background

Most of existing water outlets of the water tap are only one, the water outlet mode is controlled through a rotary knob, but because the water outlet is only one, no matter what type of water outlet mode can only flow out in one hole, the practicability of the water tap is reduced, and the operation of a user is inconvenient.

In view of this, related art has developed a faucet with multiple water discharge modes, such as a dual water discharge pull faucet disclosed in application No. 202210872707.6 and a toilet paper water discharge head disclosed in application No. 202320121160.6, as a kitchen faucet. Taking a double-outlet drawing water tap as an example, the water tap is respectively provided with a straight water outlet nozzle and a shower head in two water outlet modes, but the shower head is transversely fixed on one side of the rotary seat, so that the space on the upper surface of a basin for installing the water tap is occupied, other objects cannot be placed, and the water tap is inconvenient to use.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present utility model provides a water outlet device having a plurality of water outlet modes.

The utility model adopts the following technical scheme:

the water outlet device that possesses multiple play water mode, its characterized in that, this water outlet device includes:

the connecting pipe is connected with a pivoting piece, the connecting pipe is connected to a water outlet pipeline, the end part of the pivoting piece is a cylinder, and a water outlet hole of the pivoting piece penetrates through the cylinder and is communicated with the connecting pipe;

the water separator is connected with a first water outlet piece and a second water outlet piece, one end of the water separator is provided with a limit groove, the limit groove is provided with a first flow channel and a second flow channel, the first water outlet piece is communicated with the first flow channel, the second water outlet piece is communicated with the second flow channel, and the first water outlet piece and the second water outlet piece are provided with water outlet holes in different water outlet modes;

the cylinder is adaptively embedded in the limiting groove, so that the water distributor is limited to rotate relative to the pivoting piece, and the water distributor can rotate to the water outlet hole to be communicated with the first flow channel or the second flow channel.

In one possible implementation manner, the water outlet device further comprises a shell, the water separator is fixed in the shell, and the first water outlet piece and the second water outlet piece are respectively fixed on two perpendicular sides of the shell.

In one possible implementation manner, the casing is provided with a yielding groove, and when the water separator rotates to the state that the water outlet hole is communicated with the first flow passage or the second flow passage, the connecting pipe is adaptively embedded in the yielding groove.

In one possible implementation manner, the shell is provided with a water flowing hole at one side of the second water outlet piece, the water separator is provided with a valve cavity at one end of the second flow passage far away from the limiting groove, and is further provided with a third flow passage and a fourth flow passage, wherein the second flow passage, the third flow passage and the fourth flow passage are communicated with the valve cavity, the third flow passage is communicated with the second water outlet piece, and the fourth flow passage is communicated with the water flowing hole; and a valve core is further arranged in the valve cavity and closes the port of the third flow passage or the fourth flow passage.

In one possible implementation manner, a counter bore and a connecting hole are further arranged in the water separator at a position coaxial with the valve cavity in sequence, and the counter bore is communicated with the fourth flow passage; the valve core comprises a valve seat and an adjusting piece, one end of the valve seat is provided with a water inlet hole, the annular surface of the valve seat is hollowed out, the water inlet hole is communicated with the outside of the valve seat, and the valve seat is fixed in the valve cavity; the first sealing ring and the second sealing ring are fixed by the adjusting piece, the adjusting piece moves in a telescopic mode relative to the connecting hole, the second sealing ring is embedded in the connecting hole, and the first sealing ring is located in the valve cavity and moves relative to the water inlet hole and the countersunk hole.

In one possible implementation manner, the adjusting piece comprises a sealing part and an adjusting part, the first sealing ring is embedded and fixed on the annular surface of the adjusting part, the second sealing ring is embedded and fixed on the annular surface of the adjusting part, and the adjusting part penetrates through the connecting hole and moves relative to the connecting hole.

In one possible implementation, the valve seat is embedded in the water inlet hole with a spring, and the elastic force of the spring stretching pushes against the adjusting piece so as to enable the first sealing ring to be kept against the edge of the counter bore.

In one possible implementation, one end of the adjusting member is connected with a key through the connecting hole, and the key is exposed out of the shell.

As can be seen from the above description of the structure of the present utility model, compared with the prior art, the present utility model has the following advantages: in the structure of the utility model, two water outlet modes are formed by rotating the water separator until the water outlet hole below the connecting pipe is communicated with the first flow passage or the second flow passage. When the water outlet hole is communicated with the first flow channel, the water separator is in a horizontal state integrally, so that water can directly flow downwards from the first water outlet piece; when the water outlet hole is communicated with the second flow passage, a structure that the connecting pipe and the water separator are vertical is formed, so that water can flow downwards from the second water outlet piece. Therefore, the utility model does not occupy the position of the surface of the counter basin, can put articles during washing, and is beneficial to reasonable utilization of space.

Drawings

Fig. 1 is a schematic perspective view of the present utility model after the housing is turned to the horizontal.

Fig. 2 is a schematic cross-sectional view of the present utility model after the housing is turned to the horizontal.

FIG. 3 is a schematic perspective view of the present utility model attached to a faucet and with the housing flipped horizontally relative to the connecting tube.

Fig. 4 is a schematic perspective view of the present utility model after the housing is turned over to be vertical to the connection pipe.

Fig. 5 is a schematic cross-sectional structure of the present utility model after the housing is turned over to be vertical to the connection pipe.

Fig. 6 is a schematic perspective view showing the whole structure of the faucet according to the present utility model after the faucet is coupled and the housing is turned over to be vertical to the coupling tube.

Fig. 7 is a schematic perspective view of the housing from the bottom.

Fig. 8 is a schematic perspective view of a connecting pipe fixing pivot.

Fig. 9 is a schematic perspective view of a water separator.

Fig. 10 is a schematic view of a sectional structure in A-A direction in fig. 6.

Fig. 11 is a schematic view of a cross-sectional structure in the direction B-B in fig. 6.

Fig. 12 is a schematic perspective view of the present utility model cut away from the valve cavity of the housing.

Fig. 13 is a schematic perspective view of a valve seat.

Fig. 14 is a schematic perspective view of the adjusting member.

FIG. 15 is a schematic cross-sectional view of the adjusting member after the adjusting member has moved to press the second seal ring against the water inlet.

FIG. 16 is a schematic cross-sectional view of the adjustment member after it has been moved to press the second seal ring against the counterbore.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the present application will be described in further detail with reference to the accompanying drawings.

Hereinafter, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature.

Furthermore, in this application, directional terms "upper", "lower", etc. are defined with respect to the orientation in which the components are schematically disposed in the drawings, and it should be understood that these directional terms are relative concepts, which are used for description and clarity with respect thereto, and which may be varied accordingly with respect to the orientation in which the components are disposed in the drawings.

The water outlet device with various water outlet modes disclosed by the utility model comprises a connecting pipe 21 and a water separator 3 as shown in figures 1 and 4. Wherein the water separator 3 is connected with the first water outlet piece 4 and the second water outlet piece 5.

Referring again to fig. 8, one end of the connection pipe 21 is fixed with the pivot piece 22, the other end of the connection pipe 21 is fixed to the water outlet pipe, and the end of the pivot piece 22 at the outer end of the connection pipe 21 is a cylinder 222. Referring to fig. 2 and 5 again, the water outlet 201 of the pivot member 22 penetrates the cylinder 222, so that a structure is formed in which the lower part of the connection pipe 21 is communicated with the water outlet 201 of the pivot member 22. The structure of the connection pipe 21 fixed to the water outlet pipe may be as shown in fig. 3 and 6, the water outlet pipe is a faucet, and the connection pipe 21 is installed at the water outlet of the faucet 1, so that the circulation or cut-off of water in the connection pipe 21 can be controlled by controlling the on-off of the valve 11 of the faucet 1. Preferably, the end of the connection pipe 21 may be provided with an internal thread, through which the connection is screwed with an external thread of the water outlet of the tap 1, achieving the fixation.

As shown in fig. 8 and 9, a limiting groove 305 is formed at one end of the water separator 3, and the cylinder 222 is fit in the limiting groove 305, so that the water separator 3 is limited to rotate relative to the connecting pipe 21. Specifically, the two ends of the limiting groove 305 of the water separator 3 are recessed inwards to form an inward sinking space (not shown in the drawing), and when the cylinder 222 is embedded in the limiting groove 305, the two ends of the cylinder 222 are respectively clamped in the two inward sinking spaces, so that the limitation on the water separator 3 is formed, and the water separator 3 can only rotate relative to the cylinder 222. Further, protruding rotation portions 223 are disposed at two ends of the cylinder 222, through rotation holes 309 are disposed at bottom walls of the two countersunk spaces, and after the cylinder 222 is embedded in the limiting groove 305, the two rotation portions 223 respectively fit through the continuous rotation holes 309, so as to improve the connection stability of the water separator 3 and the pivot 22.

With continued reference to fig. 2 and 5, the side wall of the limiting groove 305 is further provided with a first flow channel 301 and a second flow channel 302, the first water outlet member 4 is communicated with the first flow channel 301, and the second water outlet member 5 is communicated with the second flow channel 302. When the water separator 3 rotates, the water outlet 201 can be rotated to be communicated with the first flow channel 301 or the second flow channel 302, so that water flows out from the first water outlet piece 4 or the second water outlet piece 5. Further, the first water outlet member 4 and the second water outlet member 5 are provided with water outlets of different water outlet modes, for example, as shown in fig. 7, the first water outlet member 4 is provided with a panel with water outlets distributed in an array to form a shower water outlet mode, and the second water outlet member 5 is a bubbler to form a water outlet mode of a bubbling water flow. Therefore, the water outlet mode can be changed by rotating the water separator 3, and the operation is very convenient.

With continued reference to fig. 2 and 5, the present utility model further includes a housing 6, the water separator 3 is fixed in the housing 6, and the first water outlet member 4 and the second water outlet member 5 are respectively fixed on two perpendicular sides of the housing 6, where the fixing structures in this embodiment may be screw-threaded or snap-fit. The connection through the shell 6 can play a role in protecting the water separator 3, the first water outlet piece 4 and the second water outlet piece 5, and the appearance of the utility model is simpler and more attractive as a whole. In addition, the surface of the casing 6 is further provided with a concave yielding groove 601, and when the casing 6 is rotated in the direction indicated by the arrow in fig. 2 to drive the water separator 3 to rotate and the water outlet 201 is communicated with the first flow channel 301 or the second flow channel 302, the connecting pipe 21 is adaptively embedded in the yielding groove 601. In this embodiment, when the water separator 3 rotates and rotates until the water outlet 201 and the second flow channel 302 are communicated, the connecting pipe 21 is fittingly embedded in the yielding groove 601, that is, a structure of the connecting pipe 21 and the housing 6 shown in fig. 3 to 6 is formed vertically as a whole; when the water separator 3 rotates to the state that the water outlet hole 201 is communicated with the first flow channel 301, the shell 6 is integrally formed in a horizontal state as shown in fig. 1 to 3, so that the water outlet mode of the shower head of the first water outlet piece 4 can directly flow downwards.

As shown in fig. 1 and 7, the housing 6 is further provided with a water flow hole 602 at one side of the second water outlet member 5. The water separator 3 is provided with a valve cavity 306 at one end of the second flow channel 302 far away from the limiting groove 305, and a valve core 7 is arranged in the valve cavity 306. Referring again to fig. 9 to 11, the water separator 3 is further provided with a third flow passage 303 and a fourth flow passage 304, the second flow passage 302, the third flow passage 303 and the fourth flow passage 304 are all communicated with the valve chamber 306, wherein the third flow passage 303 is communicated with the second water outlet member 5, and the fourth flow passage 304 is communicated with the water flow hole 602.

As shown in fig. 12, the spool 7 includes a valve seat 71 and an adjuster 72. One end of the valve seat 71 is a water inlet 701, and the annular surface of the valve seat 71 is hollowed out into the water inlet 701, so that the water inlet 701 is communicated with the outside of the valve seat 71, specifically, the upper part and the lower part of the valve seat 71 are connected through a plurality of connecting columns 712 to form a structure of communicating the inside and the outside of the valve seat 71. The valve seat 71 is fixed in the valve cavity 306, and the fixing manner may be that one end of the valve cavity 306 is penetrated as shown in fig. 9 and 11, two opposite L-shaped connecting parts 31 are arranged at the end of the valve cavity 306, and connecting lugs 713 are arranged at two sides of the bottom of the valve seat 71 as shown in fig. 13, when the valve seat 71 is installed, the valve seat 71 is inserted along the bottom of the valve cavity 306, and then the valve seat 71 is rotated until the two connecting lugs 713 are respectively inserted between the two connecting parts 31 and the end face of the water separator 3, namely, the structure shown in fig. 16, so that the valve seat 71 can be fixed in the valve cavity 306. Furthermore, the two ends of the valve seat 71 outside the hollowed-out part are respectively nested with a fixed sealing ring, so that the two ends of the valve seat 71 outside the hollowed-out part and the side wall of the valve cavity 306 are sealed, and meanwhile, the positions of joints to be sealed in the utility model can be sealed by assembling the sealing rings.

Referring again to fig. 11, a counter bore 307 and a connecting hole 308 are further provided in the water separator 3 at a position concentric with the valve chamber 306 in sequence, wherein the counter bore 307 is communicated with the fourth flow passage 304. And the bore diameter of the counter bore 307 is smaller than the bore diameter of the valve chamber 306, and the bore diameter of the counter bore 307 is larger than the bore diameter of the connecting hole 308.

As shown in fig. 14, the adjuster 72 includes a sealing portion 721 and an adjusting portion 722, the first seal ring 723 is fitted and fixed to the annular surface of the adjusting portion 722, and the second seal ring 724 is fitted and fixed to the adjusting portion 722. Referring again to fig. 15 and 16, the adjustment member 72 is inserted into the connection hole 308, and the adjustment member 72 is telescopically moved relative to the connection hole 308, so that the second seal ring 724 remains embedded in the connection hole 308 to prevent water in the water separator 3 from seeping out, and the first seal ring 723 is positioned in the valve chamber 306 to move relative to the water inlet hole 701 and the counter bore 307 of the valve seat 71. As shown in fig. 15, when the regulator 72 moves until the first seal 723 presses against the water inlet 701, the regulator 72 seals the water inlet 701 to seal the third flow passage 303, and water entering the valve chamber 306 flows out of the water flow hole 602 through the fourth flow passage 304; when the regulator 72 moves until the first seal 723 presses against the counterbore 307, as shown in fig. 16, the regulator 72 seals the counterbore 307 to seal the fourth flow passage 304, and water entering the valve chamber 306 flows out of the second water outlet member 5 through the third flow passage 303.

With continued reference to fig. 15 and 16, the valve seat 71 is further embedded with a spring 73 in the water inlet hole 701, and the elastic force of the spring 73 is stretched to push the adjusting member 72 against the edge of the counter bore 307, that is, the valve cavity 306 is communicated with the third flow passage 303 through the water inlet hole 701 of the valve seat 71 in the normal state inside the water separator 3, so that water flows out from the second water outlet member 5. The first sealing ring 723 of the regulator 72 seals the water inlet hole 701 by pressing the regulator 72 to seal the third flow passage 303, and the counter bore 307 and the fourth flow passage 304 are opened to allow water to flow out of the water flow hole 602.

In addition, the adjusting portion 722 at one end of the adjusting member 72 passes through the connecting hole 308 to fixedly connect with the key 61, and the key 61 is exposed outside the housing 6. In operation, the adjusting member 72 can be driven to move by pressing the key 61, so that when the housing 6 rotates to communicate the second flow channel 302 of the water separator 3 with the water outlet 201, water can be switched to flow out of the water outlet 602 of the housing 6 or flow out of the second water outlet 5 by triggering the key 61.

In summary, in the structure of the present utility model, the water separator 3 can be rotated by rotating the housing 6 until the water outlet 201 is communicated with the first flow channel 301 or the second flow channel 302. When the water outlet 201 is communicated with the first flow channel 301, the shell 6 is in a horizontal state as a whole, so that water directly flows downwards from the first water outlet piece 4 in a shower water outlet mode; when the water outlet 201 is communicated with the second flow channel 302, the connecting pipe 21 is fitted in the relief groove 601, so that an overall vertical structure of the connecting pipe 21 and the housing 6 is formed, water directly flows downwards from the second water outlet member 5 in a bubbling water outlet manner, and in this state, the flow direction of the water in the valve cavity 306 can be changed by pressing the key 61 on the surface of the housing 6, so that the water flows out from the water outlet 602 of the housing 6 or flows out from the second water outlet member 5. Therefore, the utility model has three water outlet modes, so that people can select when using the tap, and the convenience of domestic water is improved. The utility model does not occupy the position of the surface of the counter basin, can put articles during washing, and is beneficial to the reasonable utilization of space.

The foregoing is merely illustrative of specific embodiments of the present utility model, but the design concept of the present utility model is not limited thereto, and any insubstantial modification of the present utility model by using the design concept shall fall within the scope of the present utility model.

Claims

1. The water outlet device that possesses multiple play water mode, its characterized in that, this water outlet device includes:

2. The water outlet device with multiple water outlet modes as set forth in claim 1, wherein: the water outlet device further comprises a shell, the water separator is fixed in the shell, and the first water outlet piece and the second water outlet piece are respectively fixed on two perpendicular surfaces of the shell.

3. The water outlet device with multiple water outlet modes as claimed in claim 2, wherein: the casing sets up the groove of stepping down, when the water knockout drum rotates to apopore with first runner or the second runner intercommunication, the connecting pipe adaptation is inlayed in the groove of stepping down.

4. A water outlet device having a plurality of water outlet modes as claimed in claim 2 or 3, wherein: the shell is provided with a water flowing hole at one side of the second water outlet piece, the water separator is provided with a valve cavity at one end of the second flow passage far away from the limiting groove, the water separator is further provided with a third flow passage and a fourth flow passage, the second flow passage, the third flow passage and the fourth flow passage are communicated with the valve cavity, the third flow passage is communicated with the second water outlet piece, and the fourth flow passage is communicated with the water flowing hole; and a valve core is further arranged in the valve cavity and closes the port of the third flow passage or the fourth flow passage.

5. The water outlet device with multiple water outlet modes as set forth in claim 4, wherein: a counter bore and a connecting hole are also sequentially arranged in the water separator at a position coaxial with the valve cavity, and the counter bore is communicated with the fourth flow passage; the valve core comprises a valve seat and an adjusting piece, one end of the valve seat is provided with a water inlet hole, the annular surface of the valve seat is hollowed out, the water inlet hole is communicated with the outside of the valve seat, and the valve seat is fixed in the valve cavity; the first sealing ring and the second sealing ring are fixed by the adjusting piece, the adjusting piece moves in a telescopic mode relative to the connecting hole, the second sealing ring is embedded in the connecting hole, and the first sealing ring is located in the valve cavity and moves relative to the water inlet hole and the countersunk hole.

6. The water outlet device with multiple water outlet modes as set forth in claim 5, wherein: the adjusting piece comprises a sealing part and an adjusting part, the first sealing ring is embedded and fixed on the annular surface of the adjusting part, the second sealing ring is embedded and fixed on the annular surface of the adjusting part, and the adjusting part penetrates through the connecting hole and moves relative to the connecting hole.

7. The water outlet device with multiple water outlet modes according to claim 5 or 6, wherein: the valve seat is embedded with a spring in the water inlet hole, and the elastic acting force of the spring is stretched to push the adjusting piece, so that the first sealing ring is kept to be propped against the edge of the countersunk hole.

8. The water outlet device with multiple water outlet modes according to claim 5 or 6, wherein: one end of the adjusting piece penetrates through the connecting hole to be connected with the key, and the key is exposed out of the shell.