CN111795181A

CN111795181A - Structure of faucet

Info

Publication number: CN111795181A
Application number: CN202010702755.1A
Authority: CN
Inventors: 何开忠; 张大俊; 张登尧
Original assignee: Chenglin Enterprise Co ltd
Current assignee: Chenglin Enterprise Co ltd
Priority date: 2020-07-21
Filing date: 2020-07-21
Publication date: 2020-10-20
Anticipated expiration: 2040-07-21
Also published as: CN111795181B

Abstract

The invention provides a faucet structure, comprising: a faucet housing having a body portion and a water nozzle portion extending from the body portion; the valve component comprises a valve seat and a valve core arranged in the valve seat, and an embedding space is arranged on the valve seat; a joint piece which can be radially arranged in the embedding space, is limited between the valve seat and the inner peripheral wall of the body part and is provided with a mixed water outlet flow passage with a flow guide inlet jointed with the valve seat; the water outlet pipe is arranged in the water nozzle part and is provided with a water inlet end connected with a diversion outlet of the connecting piece, and the diversion outlet is positioned at the junction of the body part and the water nozzle part. Therefore, the requirement of assembly space can be reduced, unnecessary design of a guide angle is avoided, the manufacturing cost can be reduced, and the quality and the aesthetic feeling of the product can be improved.

Description

Structure of faucet

Technical Field

The invention relates to a faucet, in particular to a faucet structure.

Background

Many water taps made of copper materials and other metals not only have high production and manufacturing costs, but also are easy to generate lead precipitation, therefore, more and more faucets use the built-in plastic water outlet pipe and the plastic valve component as the water passing part to avoid the water pollution caused by lead, however, in order to make the internal outlet pipe smoothly connect with the valve seat installed in the body part of the faucet shell, the outlet pipe is usually bent, so that the faucet shell must provide a relatively large assembly space, and a large lead angle structure must be formed at the connection part of the body part of the faucet shell and the water nozzle part to allow the outlet pipe and the valve assembly to be smoothly installed and accommodated therein, due to the structural design, the die sinking and the material cost of the faucet shell are high, the integral appearance and the size are limited, and the texture and the aesthetic feeling of the appearance of a product are difficult to improve.

Chinese grant publication No. CN203384565U utility model discloses a fixed knot of outlet pipe joint and outlet pipe constructs, utilize to install a return bend between the disk seat of outlet pipe and control valve subassembly, thereby shared space when reducing the outlet pipe connection, but can clearly see, install the one end that the return bend that is used for linking up the outlet pipe in the disk seat, its opening direction is not up, but an oblique extension angle, in order to match the outlet pipe molding of crooked molding, therefore, the tap casing that is used for installing and holds outlet pipe and control valve subassembly still must provide great assembly space, and the body position of tap casing still has great lead angle molding with the continuous department of water injection well choke position, improve very limitedly to the known art.

The patent application of the invention with the Chinese application publication number CN110345278A discloses a water outlet device, wherein a joint is used for connecting the bottom of a valve seat of a valve component with a water outlet pipe, so that the effects of small assembly space and small appearance limitation can be realized compared with the utility model. However, the joint is directly connected to the bottom of the valve seat, which means that the joint occupies the bottom space of the valve seat, and the valve seat is affected when assembling the cold water inlet pipe and the hot water inlet pipe, which is not favorable for assembling the water inlet pipe, and at the same time, the joint provides the end for connecting the water outlet pipe, which is also limited by the structure of the valve seat, and cannot extend upwards to the junction of the first space and the second space, so that the water outlet pipe still has to form a bending structure shape to smoothly extend from the second space to the first space to be connected with the joint, however, the bent water outlet pipe structure not only has to be installed more difficultly, but also has to provide a larger assembling space inside the housing, and provides a larger guide angle structure at the junction of the first space and the second space of the housing, so as to allow the water outlet pipe to be installed and accommodated smoothly therein, in addition, the bent outlet pipe is usually limited to be a circular pipe due to various reasons, such as whether the outlet pipe is easy to butt joint, and is difficult to be designed into a flat structure, so that when the outlet pipe needs to extend to the first space, the occupied space cannot be reduced, and overall, there is still a great improvement space for reducing the assembly space inside the housing.

In addition, since the outlet pipe of the bent pipe shape is not easily assembled in the housing originally, when the extension angle of the second space is changed, for example, when the included angle of the second space extending from the first space is smaller, that is, the bending angle of the outlet pipe must be larger, the outlet pipe is relatively not easily installed in the housing, and therefore, only the housing suitable for the first space with a specific extension angle or a larger extension angle can be installed, and the applicable housing shape is greatly limited.

Disclosure of Invention

The main objective of the present invention is to provide a faucet structure, which can greatly reduce the volume of the main body part of the faucet housing in the radial direction, and eliminate the large lead angle structure that must be formed at the joint of the main body part and the faucet part, so as to improve the appearance and aesthetic feeling of the faucet housing, and effectively reduce the mold opening and material cost of the faucet housing. In addition, even if other included angles are formed between the water nozzle part of the faucet shell and the body part, such as any included angle between 75 and 105 degrees, the above purpose can still be effectively achieved without any influence.

In order to achieve the above object, the present invention provides a faucet structure including:

a faucet housing having a body portion and a spout portion extending from a peripheral wall of the body portion;

the valve assembly comprises a valve seat and a valve core which can be arranged in the valve seat; the valve seat can be installed and positioned in the body part of the faucet shell and is provided with a peripheral wall and a bottom end wall connected to the bottom of the peripheral wall, at least one water inlet port is formed in the bottom wall of the bottom end wall, and a water outlet port is formed in the peripheral wall of the bottom end wall;

the connecting piece is provided with a flow guide inlet, a flow guide outlet and a flow guide channel communicated between the flow guide inlet and the flow guide outlet; the flow guide inlet is communicated with the water outlet interface of the valve seat; the diversion outlet is positioned at the communication position of the body part of the tap shell and the water nozzle part;

a water outlet pipe which is arranged and positioned in the water nozzle part of the tap shell and is provided with a water inlet end and a water outlet end; the water inlet end corresponds to the opening direction of the diversion outlet of the connecting piece, so that the water inlet end is connected with the diversion outlet at the junction of the body part and the water nozzle part.

The invention has the following beneficial effects:

the faucet structure of the invention can be arranged on the peripheral wall by the water outlet interface of the valve seat, and the embedding space is radially arranged on the valve seat, even the opening is communicated with the embedding space and the installation valve slot, so that the connecting piece assembled in the embedding space can be connected with the water outlet interface in a water flow communication way, and can be radially fused into the original wall thickness space of the valve seat to the maximum extent, the radial volume of the combined two is minimized, meanwhile, the design that the connecting piece is naturally limited between the valve seat and the relative inner peripheral wall of the body part after installation can reduce the arrangement of any fastening piece or limiting piece, is beneficial to simple and rapid assembly and positioning, and can ensure that the radial volume of the body part is minimized, thereby greatly reducing the body diameter of the body part of the faucet shell and obtaining a slimmer appearance, and effectively reduces the die sinking and material cost.

The invention utilizes the design that the connecting piece is arranged on the side around the valve seat, and can also lead the connecting piece to be capable of directly and longitudinally extending to the junction of the body part and the water nozzle part without any bending structure design, and simultaneously, the diversion outlet assembled and connected by the water inlet end of the water outlet pipe on the connecting piece is skillfully designed and positioned at the junction, so that the water outlet pipe can be directly assembled and connected to the diversion outlet only by extending along the extending direction of the water nozzle part or even extending in a straight line without any bending structure design, thus the two can carry out the assembly and connection of a specific angle by utilizing the narrow space existing at the junction of the body part and the water nozzle part with the minimum space requirement, and further ensure that the junction of the body part and the water nozzle part does not need to be additionally designed with any redundant and space-occupying diversion angle structure, thereby improving the appearance modeling texture and aesthetic feeling of, can also effectively reduce the mould opening and material cost.

The invention utilizes the design that the connecting piece is arranged on the peripheral side of the valve seat, and the flow guide inlet and the flow guide outlet of the connecting piece do not occupy any space of the mounting chamber, and the rest parts can be in a flat and thin design in the radial direction, so the space occupied in the radial direction can be effectively reduced under the same or even larger water cross section area, in other words, the mounting chamber can meet the mounting requirement of the connecting piece in the radial direction only by providing smaller radial space, and the body diameter of the body part can be further reduced.

The invention utilizes the horizontal part of the connecting piece to be designed into a joint shape, so that the connecting piece can be directly and hermetically inserted into the water outlet joint of the valve seat, and the connecting piece is provided with a clamping block which can be elastically clamped and positioned in each opposite clamping groove of the valve seat, therefore, the connecting piece can be accurately and quickly installed and positioned on the valve seat and cannot be moved along the longitudinal direction, and the connecting piece can be subsequently limited between the valve seat and the installation cavity of the body part to prevent the connecting piece from being radially separated from the valve seat, therefore, the connecting piece can be quickly and firmly installed on the valve seat and in the body part without using any fasteners such as bolts and special tools, and the connecting piece can achieve the effects of simple, quick and firm assembly.

The invention can be assembled and inserted on the first plastic forming part in a telescopic and adjustable way by utilizing the second plastic forming part of the connecting piece, so that the flow guide outlet of the connecting piece can be correspondingly adjusted in length along with the height position of the water nozzle part on the body part, and the connecting pieces with different lengths are not required to be designed to match with the faucet shell, thereby reducing the die sinking and material preparation cost of the connecting piece.

The water outlet pipes of the invention can be installed on various tap shells with the included angle between the water nozzle part and the body part between 75 and 105 degrees by utilizing the design of two different extending directions, and are not limited to the shape vertical to 90 degrees.

The invention can also utilize the design of spherical assembly structure between the connecting piece and the water outlet pipe, so that the water outlet pipe can be correspondingly adjusted along with the extension direction of the water nozzle part without designing various water outlet pipes, thereby reducing the die sinking and material preparing cost of the water outlet pipe.

Drawings

Fig. 1 is an external combination view of a faucet structure according to a first embodiment of the present invention;

FIG. 2 is a partial side sectional view of a faucet construction provided in accordance with a first embodiment of the present invention;

FIG. 3 is a partial exploded perspective view of a faucet construction according to a first embodiment of the present invention;

FIG. 4 is a perspective cross-sectional view of a faucet housing provided in accordance with a first embodiment of the present invention;

FIG. 5 is a bottom view of the faucet housing with the lower cover portion removed in accordance with the first embodiment of the present invention;

FIG. 6 is a perspective view of a valve seat provided in accordance with a first embodiment of the present invention;

FIG. 7 is another perspective view of the valve seat provided by the first embodiment of the present invention;

FIG. 8 is a perspective cross-sectional view, taken along the longitudinal direction, of a valve seat provided in accordance with a first embodiment of the present invention;

FIG. 9 is a perspective cross-sectional view, taken along a transverse plane, of a valve seat provided in accordance with a first embodiment of the present invention;

FIG. 10 is a side plan view of a link provided in accordance with a first embodiment of the present invention;

FIG. 11 is a side cross-sectional view taken along section line 1-1 of FIG. 10 in accordance with the first embodiment of the present invention;

fig. 12 is a perspective external view of a water outlet pipe according to a first embodiment of the present invention;

FIG. 13 is an enlarged view of a portion of FIG. 2 in accordance with a first embodiment of the present invention;

FIG. 14 is a perspective view of a second embodiment of a fastener assembly of the present invention, showing a latch member;

fig. 15 is an exploded perspective view of a joint member according to a second embodiment of the present invention;

FIG. 16 is a side sectional view of a second embodiment of a splice provided in accordance with the present invention;

FIG. 17 is another side cross-sectional view of a second embodiment of a splice member in accordance with the present invention;

fig. 18 is a side sectional view of a joint member according to a third embodiment of the present invention;

fig. 19 is another side sectional view of a joint member according to a third embodiment of the present invention;

fig. 20 is a perspective view of a fastener assembly according to a fourth embodiment of the present invention;

fig. 21 is a side sectional view of a joint member according to a fourth embodiment of the present invention;

FIG. 22 is a partial side sectional view of a faucet construction provided in accordance with a fourth embodiment of the present invention;

FIG. 23 is an enlarged fragmentary view of FIG. 22 provided in accordance with a fourth embodiment of the invention;

FIG. 24 is a side sectional view of a water outlet pipe according to a fourth embodiment of the present invention;

FIG. 25 is a sectional side view of an outlet pipe according to another embodiment of the present invention;

FIG. 26 is a sectional side view of a water outlet pipe according to a fourth embodiment of the present invention;

fig. 27 is a partial side sectional view showing a combination state of a coupling member and a water outlet pipe according to a fifth embodiment of the present invention.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

As shown in fig. 1 to 3, the present invention provides a first embodiment of a faucet structure, the faucet 1 mainly includes a faucet housing 10, a valve assembly 20, a coupling member 30 and an outlet pipe 40; wherein:

the faucet housing 10, as shown in FIGS. 4 and 5, has a body portion 11 and a spout portion 12 extending laterally from a peripheral wall 111 of the body portion 11 adjacent the upper side thereof.

The valve assembly 20, as shown in fig. 6 to 9, includes a valve seat 21, and a valve element 22 capable of being installed in the valve seat 21; the valve seat 21 is adapted to be installed and positioned in the body portion 11 of the faucet housing 10, and has a peripheral wall 211 and a bottom wall 212 connected to the bottom of the peripheral wall 211, the peripheral walls of the peripheral wall 211 and the bottom wall 323 are recessed with an insertion space 213 along the radial direction, and the bottom wall of the bottom wall 212 is formed with at least one water inlet port 214, and the peripheral wall thereof is formed with a water outlet port 215.

The connecting piece 30, as shown in fig. 10 and 11, is radially installed and inserted into the insertion space 213 of the valve seat 21, and has a flow guide inlet 31, a flow guide outlet 32, and a flow guide channel 33 which communicates between the flow guide inlet 31 and the flow guide outlet 32 and extends at least mostly in the longitudinal direction; the guide inlet 31 is communicated with the water outlet port 215 of the valve seat 21; the tap outlet 32 is located at the intersection of the body portion 11 and the nozzle portion 12 of the faucet housing 10. The joining member 30 of the present embodiment has a widened configuration in the circumferential direction and a thinned configuration in the radial direction, so that the entire joining member is long and flat.

A water outlet pipe 40, as shown in fig. 12, installed and positioned in the water nozzle portion 12 of the faucet housing 10, and having a water inlet end 41 and a water outlet end 42; the water inlet end 41 corresponds to the opening direction of the diversion outlet 32 of the connecting piece 30, so that the water inlet end and the water outlet end can be in butt joint with each other at the junction of the body part 11 and the water nozzle part 12.

In the embodiment, a fixed bottom wall 112 is disposed inside the body portion 11, so as to define an installation chamber 113 above the fixed bottom wall 112 inside the body portion 11, and an inlet 114 is formed at a top end of the installation chamber 113, so that the valve seat 21 can be received in the installation chamber 113 from the inlet 114; the water nozzle portion 12 is formed with an accommodating space 121 therein, which communicates with the mounting chamber 113, and the accommodating space 121 can accommodate and position the water outlet pipe 40 therein.

Of course, the valve assembly 20 can fix the valve core 22 in the installation cavity 113 of the valve seat 21 by screwing the valve core cover 51 onto the top end of the valve seat 21, and then seal the valve core cover 51 and the valve seat 21 in the main body portion 11 by screwing the decoration cover 52 onto the valve core cover 51, so as to ensure the aesthetic property, and at the same time, the valve core 22 is connected with the control handle 53 for operating the valve core 22.

In the present embodiment, as shown in fig. 4 and 5, two arc-shaped positioning blocks 216 protrude from the bottom wall 212 of the valve seat 21; the fixed bottom wall 112 of the body part 11 defines a penetrating slot 115, and two opposite arc-shaped positioning walls 116 are formed on the slot wall of the penetrating slot 115, so that the arc-shaped positioning blocks 216 can be respectively placed in the penetrating slot 115 and then abutted against each other for positioning. Accordingly, the valve seat 21 can be positioned on the fixed bottom wall 112 of the body part 11 more accurately and quickly during assembly, thereby improving the assembly efficiency.

In the present embodiment, as shown in fig. 3, 9 and 13, a nut positioning groove 217 is concavely provided on the outer peripheral wall of the valve seat 21 near the bottom end, and the nut 23 can be inserted and positioned in the nut positioning groove in a rotation-limited manner; the fixed bottom wall 112 of the body portion 11 is provided with a through hole 117, and the bolt 13 can be screwed and locked with the nut 23 after passing through the through hole 117, so as to lock the valve seat 21 on the fixed bottom wall 112.

In the embodiment, the valve seat 21 is formed with an installation valve groove 218, in which the valve plug 22 can be installed and positioned, and two water inlet ports 214 are formed on the bottom wall 212 of the valve seat 21, the water inlet ports 214 are respectively communicated with the installation valve groove 218 through a cold water inlet channel 218a and a hot water inlet channel 218b, so that cold water and hot water respectively coming from the water inlet ports 214 can be guided into the installation valve groove 218, and a user can operate the valve plug 22 through the control handle 53 to switch and control the cold water and the hot water to flow from the installation valve groove 218 to the water outlet port 215 or control the mixing ratio of the cold water and the hot water.

In the present embodiment, the peripheral wall 211 of the valve seat 21 is formed with a water outlet 215, the water outlet 215 can be connected to the mounting valve seat 218 via a mixed water outlet channel 219, the mixed water outlet channel 219 includes a longitudinal channel part 219a and a transverse channel part 219b which are connected to each other, an inlet end of the longitudinal channel part 219a is connected to the mounting valve seat 218, and an outlet end of the transverse channel part 219b is formed with the water outlet 215.

In this embodiment, as shown in fig. 3 and 6, the faucet 1 further includes a cold water inlet pipe 61, a hot water inlet pipe 62 and a locking piece 63; the cold water inlet pipe 61 and the hot water inlet pipe 62 are respectively provided with a plug connector 611 and a plug connector 621 which can be respectively inserted and positioned in each corresponding water inlet interface 214, and the

plug connectors

611 and 621 are respectively provided with

annular clamping grooves

612 and 622 in a concave manner; two positioning slots 219c are concavely formed on the outer peripheral wall 212 of the bottom end wall of the valve seat 21 and are respectively communicated with the water inlet port 214, as shown in fig. 6; the locking piece 63 is formed with two positioning pins 631, which can be respectively inserted into the positioning slots 219c and then locked in the

annular locking grooves

612, 622 of the corresponding

connectors

611, 621, so as to limit the separation of the cold water inlet pipe 61 and the hot water inlet pipe 62 from the valve seat 21.

In the present embodiment, as shown in fig. 3 to 5, the water nozzle portion 12 of the faucet housing 10 includes an upper housing portion 12a and a lower housing portion 12 b; the upper housing portion 12a is formed by extending the main body portion 11 and is formed with a recess 122, at least one inner positioning wall 123 is formed on the inner end side of the recess 122, and a plurality of positioning posts 124, two studs 125 and two positioning slots 126 are formed on the two side sides; the outlet pipe 40 can be accommodated in the recess 122 of the upper housing portion 12a, and a pair of spaced ribs 43 are protruded from both sides of the middle section, so that a through groove 431 is formed between each pair of ribs 43, and the bolt 44 can be screwed and locked with each opposite stud 125 after passing through the through groove 431, respectively, thereby fixing the outlet pipe 40 in the recess 122. The lower housing part 12b is an independent cover plate, an inner side latch 127 is formed at the inner end of the cover plate, and two hooks 128 are formed at two sides, so that the cover plate can be mutually latched and positioned with the inner positioning wall 123 of the upper housing part 12a by the inner side latch 127, and simultaneously mutually abutted and positioned with the positioning posts 124 by two sides of the top wall surface, and mutually latched and positioned with the positioning slots 126 by the hooks 128, thereby firmly fixing the lower housing part 12b to the upper housing part 12 a.

By using the design of forming the lower housing portion 12b with an independent cover plate, after the joint member 40 and the valve assembly 20 are mounted and positioned in the mounting chamber 113 of the body portion 11, the water outlet pipe 40 can be conveniently assembled in the diversion outlet 32 of the joint member 30 and the recess 122 of the upper housing portion 12a by detaching the cover plate from the space formed by the upper housing portion 12a in advance, and then the lower housing portion 12b is returned, so that the mounting operation of the water outlet pipe 40 can be easily and quickly completed.

In the present embodiment, the opening 218c formed on the peripheral wall of the installation valve slot 218 of the valve seat 21 is communicated with the insertion space 213, as shown in fig. 6 and 13, so that the adaptor 30 installed and positioned in the insertion space 213 is abutted against and abutted against the outer peripheral wall of the valve core 22 installed in the installation valve slot 218, and by the design of the opening 218c, the adaptor 30 can be skillfully integrated into the original wall thickness space of the valve seat 21, and the space occupied by the adaptor 30 in the installation chamber 113 of the body portion 11 is greatly reduced, therefore, only the body portion 11 with a smaller body diameter is required to meet the requirement of the installation space, and the material cost of the body portion 11 can be reduced, especially when the faucet housing 10 is made of copper material or other material with higher cost.

In this embodiment, as shown in fig. 10 and 11, the connecting member 30 has a longitudinal portion 301 and a transverse portion 302; most of the flow guide channels 33 and flow guide outlets 32 are formed in the longitudinal part 301, a small part of the flow guide channels 33 and flow guide inlets 31 are formed in the transverse part 302, and the transverse part 302 is designed as a joint and can be hermetically inserted into the water outlet port 215 of the valve seat 21; the longitudinal portion 301 is formed with an arc-shaped stopper wall 300 capable of abutting against the opposite inner circumferential wall 110 of the body portion 11 so that the link 30 is restricted between the opposite inner circumferential wall 110 of the body portion 11 and the fitting space 213 of the valve seat 21 to prevent the link 30 from being radially separated from the fitting space 213. In other words, the joint member 30 can be quickly and firmly assembled to the valve seat 21 positioned in the body portion 11 without using any fastener such as a bolt or a special tool.

In the present embodiment, as shown in fig. 6 and 10, the valve seat 21 is formed with the catching grooves 213a on both sides of the fitting space 213; the engaging pieces 30 are provided with engaging blocks 34 at both sides thereof, which are elastically engaged and positioned in the corresponding engaging grooves 213a, so that the engaging pieces 30 can be prevented from moving in the longitudinal direction, and the assembly is relatively easy, fast and reliable.

In this embodiment, the connecting element 30 is an integrally formed plastic molded part, a longitudinal flow channel 331 is formed inside the connecting element, the bottom end of the longitudinal flow channel 331 is connected to a transverse flow channel 332, a flow guide inlet 31 is formed at the other end of the transverse flow channel 332, a flow guide outlet 32 is formed at the top end of the longitudinal flow channel 331, an opening direction of the flow guide outlet 32 faces the water inlet end 41 of the water outlet pipe 40, and meanwhile, the longitudinal flow channel 331 and the transverse flow channel 332 can define the flow guide channel 33 together.

As shown in fig. 14 to 17, the present invention also provides a second embodiment of a faucet construction, the faucet 1 being substantially identical to the first embodiment with the only differences being:

the connecting piece 30a of the present embodiment is slightly different from the connecting piece 30 of the first embodiment in terms of manufacturing and molding, that is, the connecting piece 30 of the first embodiment is completely formed by integrally injecting plastic, but in consideration of mold drawing, the mold design is relatively complex, and relatively, by adopting the structure of the connecting piece 30a of the present embodiment, the problem of high difficulty in mold drawing can be overcome.

Further, the connecting member 30a of the present embodiment includes an integrally formed plastic molding member 303, and a plug 304; a longitudinal flow channel 303a is formed in the plastic forming part 303, a transverse flow channel 303b is communicated with the position, close to the lower part, of the longitudinal flow channel 303a, a flow guide inlet 31 is formed at the other end of the transverse flow channel 303b, a section of die drawing hole 303c is formed at the bottom end of the longitudinal flow channel 303a, two opposite side edges of the outer peripheral wall of the plastic forming part 303 are respectively provided with a cutting groove 303d communicated with the die drawing hole 303c, a flow guide outlet 32 is formed at the top end of the longitudinal flow channel 303a, the opening direction of the flow guide outlet 32 faces to the water inlet end 41 of the water outlet pipe 40, and most of the longitudinal flow channel 303a and the transverse flow channel 303; the plug 304 can be used for plugging and sealing the drawing hole 303c, and clamping grooves 304a are formed on two sides of the outer peripheral wall and are respectively exposed at the cutting groove 303 d; the locking piece 63 has two spaced locking legs 632 formed thereon, which can be respectively locked and positioned in the corresponding locking slots 304a of the plug 304 to prevent the plug 304 from being separated from the mold-drawing hole 303 c. Accordingly, although the present embodiment has more plug 304 components and the stopper 304 must be fixed by the latch 63, the problem of high difficulty in drawing the engaging member 30 of the first embodiment is solved, and the original latch 63 is skillfully utilized to fix the plug 304, so that no other fixing structure or fixing member needs to be additionally designed. Of course, if the present embodiment does not have the locking piece 63 of the first embodiment, it is also possible to design another locking piece instead of the locking piece 63, and is not limited to the locking piece 63 of the first embodiment.

As shown in fig. 18 and 19, the present invention also provides a third embodiment of a faucet construction, the faucet 1 being substantially identical to the first embodiment with the only differences being:

the connecting member 30b of this embodiment is formed by two plastic injection coating, and more specifically, the connecting member 30b includes a first plastic molded member 3051, a plug 306 and a second plastic molded member 3052; the first plastic molded part 3051 is a first plastic injection molded part, a longitudinal flow channel 305a is molded in the first plastic injection molded part, a transverse flow channel 305b is communicated with the position, close to the lower part, of the longitudinal flow channel 305a, a flow guide inlet 31 is formed at the other end of the transverse flow channel 305b, a section of die drawing hole 305c is formed at the bottom end of the longitudinal flow channel 305a, two opposite sides of the outer peripheral wall of the first plastic molded part 3051 are respectively provided with a cut groove 305d communicated with the die drawing hole 305c, a flow guide outlet 32 is formed at the top end of the longitudinal flow channel 305a, the opening direction of the flow guide outlet 32 faces the water inlet end 41 of the water outlet pipe 40, and most of the longitudinal flow channel 305a and the; the plug 306 can be inserted into a part of the space inside the die hole 305c in advance; the second plastic molded part 3053 is formed by the second plastic injection molding in the mold drawing hole 305c of the first plastic molded part 3051 outside the plug 306, and a part of the second plastic molded part is filled in the cut-out groove 305d, so that the first plastic molded part 3051 and the second plastic molded part 3052 can be mutually coated and connected, and the pre-embedded plug 306 can be plugged in the mold drawing hole 305c, therefore, the present embodiment can also form the joint member 30b as an integral member by two times of plastic injection, and simultaneously solve the problem of high mold drawing difficulty of the joint member 30 of the first embodiment, and the plug 306 is not required to be fixed by the clamping piece 63 of the first and second embodiments.

As shown in fig. 20 to 23, the present invention also provides a fourth embodiment of a faucet construction, the faucet 1 being substantially identical to the first embodiment with the only differences being:

the connecting member 30c of the present embodiment can be adjusted correspondingly along with the height of the water nozzle portion 12 on the main body portion 11 to meet the installation requirement, so that the connecting member 30c can meet the installation requirement of more faucet shells 10 with different specifications and sizes in a single or less specification, thereby reducing the cost of opening the mold and preparing materials.

Furthermore, the connecting member 30c of the present embodiment includes a first plastic molding 307 and a second plastic molding 308; the first plastic molding 307 is formed with a part of the flow guide channel 33 and the flow guide inlet 31; the second plastic molding 307 is formed with another part of the flow guide channel 33 and the flow guide outlet 32, and the second plastic molding 308 can adjust the height of the flow guide outlet 32 on the first plastic molding 307 along the longitudinal direction while maintaining the water flow communication state.

To achieve the above-mentioned adjustable purpose, a possible embodiment is that a longitudinal flow channel 307a is formed inside the first plastic molding 307 to form a part of the flow guiding channel 33, and a longitudinal insertion hole 307b with an upward opening is formed at the top end of the longitudinal flow channel 307 a; the bottom end of the second plastic molding 308 is formed with a plug rod 308a capable of being plugged with the longitudinal plug hole 307b and being adjusted and displaced in the longitudinal plug hole 307b in a sealing manner, and a longitudinal flow passage 308b is formed inside the second plastic molding 308 to form a part of the flow guide channel 33, and a part of the longitudinal flow passage 308b is located inside the plug rod 308 a.

In addition, the bottom end of the body portion 11 of the present embodiment has an opening 118, as shown in fig. 22, the opening 118 is formed with an opening direction x 1; the water nozzle portion 12 extends from the main body portion 11 and has an extending direction x2, an included angle theta is formed between the extending direction x2 and the opening direction x1, and the included angle theta is between 75 and 105 degrees; as shown in fig. 24 to 26, at least most of the outlet pipe 40 has an extension direction x3 which coincides with the extension direction x2 of the water nozzle portion 12.

Furthermore, the diversion outlet 32 of the adaptor 30c of the present embodiment has an opening direction s1, and the angle between the opening direction s1 and the opening direction x1 of the bottom end of the body portion 11 is kept at 90 degrees; a cylindrical plug 411 is formed on the outer peripheral wall of the water inlet end 41 of the water outlet pipe 40 and can be embedded into the flow guide outlet 32 of the connecting piece 30c, and a waterproof gasket 412 is nested on the outer peripheral wall of the plug 411 and can be kept to be tightly abutted against the inner peripheral wall 321 of the flow guide outlet 32; a positioning convex ring 413 is formed at the water inlet end 41 of the water outlet pipe 40 and is adjacent to the plug 411 and can be abutted against and positioned on the annular end wall 322 around the flow guide outlet 32 of the connecting piece 30 c; the extending direction x4 of the outer portion of the water outlet pipe 40 at the connecting plug 411 and the positioning convex ring 413 is perpendicular to the opening direction x1 at the bottom end of the body part 11, as shown in fig. 24 to 26, but the extending direction x3 of the outer portion of the water outlet pipe 40 at most other portions than the connecting plug 411 and the positioning convex ring 413 is consistent with the extending direction x2 of the water nozzle part 12. It should be noted that the inner flow passage 45 of the outlet pipe 40 has only one extending direction, and is consistent with the extending direction X3.

As shown in fig. 24, a small portion of the outlet pipe 40 at the plug 411 and the positioning collar 413 has an extending direction x4 consistent with an extending direction x3 of most of the rest positions, that is, the outlet pipe 40, regardless of the extending direction x4 at the small portion position or the extending direction x3 at the most position, is kept at 90 degrees perpendicular to the opening direction x1 of the body portion 11.

As shown in fig. 25, the extension direction x4 of a small portion of the outlet pipe 40 at the connection plug 411 and the positioning collar 413 is not consistent with the extension direction x3 of most other portions, and the extension direction x3 of the large portion of the outlet pipe 40 and the opening direction x1 of the body portion 11 form an angle smaller than 90 degrees, for example, an angle of 75 degrees.

As shown in fig. 26, the extension direction x4 of a small portion of the outlet pipe 40 at the connection plug 411 and the positioning collar 413 is not consistent with the extension direction x3 of most other portions, and the extension direction x3 of the large portion of the outlet pipe 40 and the opening direction x1 of the body portion 11 form an angle larger than 90 degrees, for example, an angle of 105 degrees.

As can be seen from the above, in the present embodiment, the corresponding water outlet pipe 40 components can be manufactured along with the design of the included angle θ between the water nozzle portion 12 and the main body portion 11, except for the case that the included angle θ is 90 degrees, the remaining included angles θ are between 75 to 105 degrees, and the extending directions x3 and x4 of the water outlet pipe 40 are not consistent, but all the water outlet pipes can be assembled on the diversion outlet 32 of the linking member 30c, so that the water outlet pipes 40 with different included angles θ can share the same linking member 30c, thereby reducing the die sinking and material preparation costs of the linking member 30 c.

It should be noted that the structural features of the joint 30c and the outlet pipe 40 of the present embodiment are also applicable to the first to third embodiments.

As shown in fig. 27, the present invention also provides a fifth embodiment of a faucet construction, the faucet 1 being substantially the same as the fourth embodiment, except that:

the outlet pipe 40a of this embodiment can be directly adjusted in the extension angle on the connection pipe 30d to be consistent with the extension direction of the water nozzle portion 12. Further, the flow guide outlet 32 of the joint 30d is provided in the shape of a spherical groove; the water inlet end 41 of the water outlet pipe 40a is provided with a spherical joint, so that the spherical joint can be hermetically nested in the spherical groove, the water outlet pipe 40a can be rotated within an included angle range of 75-105 degrees to adjust the angle, and the extending direction of the water outlet pipe 40a is consistent with the extending direction of the water nozzle part 12, therefore, compared with the fourth embodiment, the water outlet pipe 40a is only required to be the same in the embodiment, namely, the water outlet pipe 40a can be freely rotated and adjusted to the required extending direction on the connecting piece 30d to be consistent with the extending direction of the water nozzle part 12, and the die sinking and material preparation cost of the water outlet pipe 40a is further reduced.

As can be seen from the above description, the faucet structure of the present invention has several important features and advantages:

first, the design of the present invention that the outlet 215 of the valve seat 21 is disposed on the peripheral wall 211 is different from the known structure mostly disposed on the bottom wall, and by using such structural features, it is ensured that the joint member 30 is completely disposed around the valve seat 21, i.e. on the opposite side of the valve seat 21 near the water nozzle portion 12, but not on the bottom of the valve seat 21, therefore, when the present invention further radially arranges the embedding space 213 on the valve seat 21, and even communicates the embedding space 213 with the valve installation groove 218 by using the opening 218c, the joint member 30 can be radially merged into the original wall thickness space of the valve seat 21 to the maximum extent, so that the two are skillfully combined with each other, and by such combination, the radial volume of the two after combination can be minimized, and at the same time, the joint member 30 is naturally limited between the valve seat 21 and the opposite inner peripheral wall 110 of the main body portion 11 after installation, in addition to reducing the number of any fasteners or stoppers, the assembly and positioning are easy and quick, and it is important to ensure that the inner space of the body 11 is almost equal to the outer volume of the valve seat 21 and the joint 30, in other words, the radial volume of the body 11 is minimized, so as to greatly reduce the diameter of the body 11 of the faucet housing 10, to obtain a slimmer appearance, and to effectively reduce the mold opening and material cost.

Secondly, as mentioned above, the present invention utilizes the design that the connecting member 30 is disposed at the peripheral side of the valve seat 21, and the connecting member 30 can directly and longitudinally extend to the junction between the main body 11 and the water nozzle 12 without any bending structure design, and at the same time, the diversion outlet 32 assembled and connected by the water inlet end 41 of the water outlet pipe 40 on the connecting member 30 is skillfully designed and located at the junction, so that the water outlet pipe 40 can be directly assembled and connected to the diversion outlet 32 by only extending along the extending direction of the water nozzle 12 without any bending structure design, and thus, both can be assembled and connected at a specific angle by utilizing the originally existing narrow space at the junction between the main body 11 and the water nozzle 12 with minimum space requirement, for example, the mutual assembly and connection at an included angle of 75 to 105 degrees, and further ensure that the junction between the main body 11 and the water nozzle 12 does not need to additionally design any redundant diversion angle structure occupying space, compared with the prior art, the faucet shell 10 of the present invention can obtain a more straight and slim appearance, so as to improve the overall texture and aesthetic feeling, reduce the above redundant and space-consuming corner guiding structure, and effectively reduce the mold opening and material cost.

Thirdly, as mentioned above, the present invention utilizes the design that the connecting member 30 is disposed at the peripheral side of the valve seat 21, since the flow guiding inlet 31 of the connecting member 30 can be designed as a joint and directly inserted into the water outlet 215 of the valve seat 21, it will not occupy any space of the installation chamber 113, and in addition, the flow guiding outlet 32 of the connecting member 30 can be designed as an insertion hole, it will not form any outward protruding structure in the radial direction, and the insertion hole is located at the boundary of the body part 11 and the water nozzle part 12, which originally forms a communication space, and therefore, it will not occupy any space of the installation chamber 13, so the present invention adopts the flat and thin design in the radial direction for the parts other than the flow guiding inlet 31 and the flow guiding outlet 32 of the connecting member 30, and can effectively reduce the occupied space in the radial direction under the same or even larger water cross-sectional area, in other words, the installation chamber 113 only needs to provide, that is, the radial installation requirement of the joint member 30 can be satisfied, and the body diameter of the body portion 11 can be further reduced.

Fourthly, the horizontal portion 302 of the joint 30 can be designed into a joint shape so as to be directly inserted into the outlet 215 of the valve seat 21 in a sealing manner, and at the same time, the joint 30 can be elastically locked and positioned in the corresponding locking slots 213a of the valve seat 21 by the locking blocks 34 designed on the joint 30, so that the joint 30 can be accurately and quickly installed and positioned on the valve seat 21 and limited from moving in the longitudinal direction, and the joint 30 can be subsequently installed in the installation chamber 113 of the body part 11 along with the valve assembly 20 and naturally limited between the valve seat 21 and the inner peripheral wall 110 of the installation chamber 113 of the body part 11 so as to prevent the joint 30 from being radially separated from the valve seat 21, so that the joint 30 can be quickly and firmly installed on the valve seat 21 and in the body part 11 without using any fastening members such as bolts and special tools, and the assembling operation of the joint 30 is simple, and easy, Fast and firm.

Fifth, the links of the present invention have a variety of molding or assembly configurations to choose from. For example, a single integrally molded plastic part may be used as the joining member 30. Or respectively forming the plastic molding member 303 and the plug 304, and then assembling the plug 304 in the mold drawing hole 303c of the plastic molding member 303 to form the connection member 30a, wherein the plug 304 can be skillfully fixed by the original locking piece 63 for fixing the cold and hot

water inlet pipes

61 and 62 or another locking piece. It can be readily appreciated that the adapter 30b can also be molded using two shots of plastic. More specifically, a first plastic molding 307 and a second plastic molding 308 can be molded separately, and the second plastic molding 308 can be assembled and inserted into the first plastic molding 307 in a telescopic manner to form the connecting member 30 c. Accordingly, the present invention provides a variety of alternative connectors of different shaped or assembled configurations that can be used to achieve the desired results.

Sixth, as mentioned above, the joint member 30c according to the fourth embodiment of the present invention can be assembled and inserted onto the first plastic molding 307 by the second plastic molding 308 in a telescopic adjustable manner, so that the diversion outlet 32 of the joint member 30c can be adjusted in length along with the height position of the water nozzle portion 12 on the main body portion 11, and there is no need to design a plurality of joint members 30c with different lengths to match the faucet housing 10, thereby reducing the mold opening and material preparation cost of the joint member 30 c.

Seventh, the water outlet pipe 40 of the present invention can be applied not only to the faucet housing 10 with the water nozzle portion 12 extending vertically at 90 degrees to the main body portion 11, but also to the faucet housing 10 with the water nozzle portion 12 forming an angle with the main body portion 11 ranging from 75 to 105 degrees. For example, by adopting the technical means disclosed in the fourth embodiment, that is, a small portion of the water outlet pipe 40 close to the water inlet end 41 and the rest of the water outlet pipe are respectively formed with two different extending directions x4, x3, the water outlet pipe 40 can conform to the extending direction of the water nozzle portion 12 by the extending direction x3 of the rest of the water outlet pipe 40, and the extending direction x4 of the small portion close to the water inlet end 41 ensures that the water inlet end 41 can be simultaneously provided with the connecting piece 30c suitable for sharing, so that various matching connecting pieces are not required, and the mold opening and material preparation costs of the connecting piece 30c can be reduced. The technical means disclosed in the fifth embodiment can also be adopted, and the spherical assembly structure design is adopted between the connecting piece 30d and the water outlet pipe 40, so that the water outlet pipe 40 can be correspondingly adjusted along with the extending direction x2 of the water nozzle part 12, and a plurality of water outlet pipes are not required to be additionally designed like the fourth embodiment, therefore, the die sinking and material preparation cost of the water outlet pipe 40 can be reduced.

While the invention has been described in detail and with reference to specific embodiments thereof, it will be apparent to one skilled in the art that various alternatives and modifications can be made therein in light of the above teachings; accordingly, all such alterations and modifications are intended to be included within the spirit and scope of the invention.

Claims

1. A faucet construction, comprising:

2. The faucet structure according to claim 1, wherein the body portion is internally provided with a fixed bottom wall, whereby a mounting chamber is defined above the fixed bottom wall inside the body portion, and the mounting chamber is formed at a top end thereof with an inlet port from which the valve seat is received in the mounting chamber; the water injection well choke position is inside to be formed with accommodation space communicate in the installation cavity, just accommodation space can supply the outlet pipe holds the location in.

3. The faucet structure of claim 2, wherein two arcuate locating blocks project from the bottom wall of the valve seat; the body part is characterized in that a penetrating groove is defined on the fixed bottom wall of the body part, two opposite arc-shaped positioning walls are formed on the groove wall of the penetrating groove and can respectively supply the arc-shaped positioning blocks to be placed into the penetrating groove and then abutted against and positioned.

4. The faucet structure according to claim 2, wherein a nut positioning groove is concavely formed on the peripheral wall of the valve seat near the bottom end, and a nut can be embedded and positioned in the nut positioning groove in a rotation-limited manner; the fixed bottom wall of the body part is provided with a through hole, a bolt can penetrate through the through hole and then is screwed with the nut for locking, and therefore the valve seat is locked on the fixed bottom wall.

5. The faucet structure of claim 1, wherein the valve seat is formed with a mounting valve slot for the valve plug to be mounted and positioned therein, and two water inlet ports are formed on a bottom wall of the valve seat, and are respectively communicated with the mounting valve slot through a cold water inlet channel and a hot water inlet channel.

6. The faucet structure according to claim 1, wherein the valve seat is formed with a mounting valve groove for the valve cartridge to be mounted and positioned therein, and the peripheral wall of the valve seat is formed with the outlet port, the outlet port is capable of communicating with the mounting valve groove via a mixed water outlet channel, and the mixed water outlet channel comprises a longitudinal channel portion and a transverse channel portion communicating with each other, an inlet end of the longitudinal channel portion communicates with the mounting valve groove, and an outlet end of the transverse channel portion is formed with the outlet port.

7. The faucet structure of claim 5, further comprising a cold water inlet pipe, a hot water inlet pipe and a latch piece; the cold water inlet pipe and the hot water inlet pipe are respectively provided with a plug-in connector which can be respectively inserted and positioned at each opposite water inlet interface, and the plug-in connectors are respectively provided with an annular clamping groove in a concave manner; two positioning slots are concavely arranged on the peripheral wall of the bottom end wall of the valve seat and are respectively communicated with the water inlet connector; the clamping piece is provided with two positioning plug pins which can be respectively and transversely embedded into the positioning slots and then clamped in the annular clamping grooves of the corresponding plug connectors so as to limit the cold water inlet pipe and the hot water inlet pipe from being separated from the valve seat.

8. The faucet structure of claim 1, wherein the faucet body portion comprises an upper body portion and a lower body portion; the upper shell part is formed by integrally extending the body part and is provided with a recess, at least one inner side positioning wall is formed on the inner end side of the recess, and a plurality of positioning columns, two studs and two positioning clamping grooves are formed on two side edges; the water outlet pipe can be accommodated in the recess of the upper shell part, and a pair of mutually spaced convex ribs are respectively arranged on two sides of the middle section part in a protruding manner, so that a through groove is formed between each pair of convex ribs, and a bolt can be respectively screwed and locked with each opposite stud after penetrating through the through groove, so that the water outlet pipe is fixed in the recess; the lower casing cover part is an independent cover plate, an inner side fixture block is formed at the inner end side of the cover plate, two clamping hooks are formed at two side sides of the cover plate, so that the cover plate can be clamped and positioned by the inner side fixture block and the inner side positioning wall of the upper casing part, meanwhile, the two side sides of the top wall surface are abutted and positioned by the positioning columns, and the lower casing cover part is firmly fixed on the upper casing part by the mutual hooking and positioning of the clamping hooks and the positioning clamping grooves.

9. The faucet structure according to claim 1, wherein the valve seat is formed with a mounting valve groove for the valve cartridge to be mounted and positioned therein, and a peripheral groove wall of the mounting valve groove is formed with an insertion space opened to communicate with the peripheral walls of the peripheral wall and the bottom end wall and recessed in a radial direction, so that the engagement member mounted and positioned in the insertion space and the opposite peripheral walls of the valve cartridge mounted in the mounting valve groove abut against each other.

10. The faucet structure of claim 9, wherein the adapter has a longitudinal portion and a transverse portion; most of the flow guide channels and the flow guide outlets are formed in the longitudinal part, a small part of the flow guide channels and the flow guide inlets are formed in the transverse part, and the transverse part is a joint and can be inserted into the water outlet port of the valve seat; an arc-shaped limiting wall is formed on the longitudinal portion and can be abutted against the opposite inner peripheral wall of the body portion, so that the joint piece can be limited in the opposite inner peripheral wall of the body portion and the embedding space of the valve seat, and the joint piece is prevented from being separated from the embedding space.

11. The faucet structure according to claim 9, wherein the valve seat is formed with catching grooves at both sides of the insertion space; clamping blocks are arranged on two sides of the connecting piece in a protruding mode and can be elastically clamped and positioned in the opposite clamping grooves.

12. The faucet structure according to claim 1, wherein the connecting member is an integrally formed plastic molded member, a longitudinal flow passage is formed inside the connecting member, a transverse flow passage is connected to a bottom end of the longitudinal flow passage, the other end of the transverse flow passage is formed with the diversion inlet, a diversion outlet is formed at a proper position of the longitudinal flow passage, an opening direction of the diversion outlet faces the water inlet end of the water outlet pipe, and the longitudinal flow passage and the transverse flow passage can jointly define the diversion channel.

13. The faucet structure of claim 1, wherein the coupler comprises an integrally formed plastic molding, and a plug; a longitudinal flow channel is formed in the plastic forming part, a transverse flow channel is communicated with the position, close to the lower part, of the longitudinal flow channel, the flow guide inlet is formed in the other end of the transverse flow channel, a die drawing hole is formed in the bottom end of the longitudinal flow channel, two opposite side sides of the outer peripheral wall of the plastic forming part are respectively provided with a cutting groove communicated with the die drawing hole, the flow guide outlet is formed in the top end of the longitudinal flow channel, the opening direction of the flow guide outlet faces the water inlet end of the water outlet pipe, and the flow guide channel can be defined by the major part of the longitudinal flow channel and the transverse flow channel together; the plug can be used for sealing the die drawing hole by embedding, and clamping grooves are formed on two sides of the outer peripheral wall and are respectively exposed at the cutting grooves; the faucet structure further comprises a clamping piece which can be transversely clamped on the wall around the valve seat, two clamping pins which are spaced from each other are formed on the clamping piece and can be respectively clamped and positioned in the clamping grooves corresponding to the plugs so as to prevent the plugs from being separated from the die drawing holes.

14. The faucet structure of claim 1, wherein the coupler comprises a first plastic molding, a plug, and a second plastic molding; a longitudinal flow channel is formed in the first plastic forming part, a transverse flow channel is communicated with the position, close to the lower part, of the longitudinal flow channel, the flow guide inlet is formed in the other end of the transverse flow channel, a die drawing hole is formed in the bottom end of the longitudinal flow channel, two opposite side sides of the outer peripheral wall of the first plastic forming part are respectively provided with a cutting groove communicated with the die drawing hole, the flow guide outlet is formed in the proper position of the longitudinal flow channel, the opening direction of the flow guide outlet faces the water inlet end of the water outlet pipe, and the flow guide channel can be defined by the major part of the longitudinal flow channel and the transverse flow channel together; the plug can be embedded into a partial space inside the die drawing hole in advance; the second plastic forming part is formed in the drawing die hole, on the outer side of the plug, of the first plastic forming part in an injection molding mode, and the section groove is filled with one part of the second plastic forming part, so that the plug can be plugged in the drawing die hole.

15. The faucet structure of claim 1, wherein the coupler comprises a first plastic molding and a second plastic molding; the first plastic molding part is provided with a part of the flow guide channel and the flow guide inlet; the second plastic forming part is provided with another part of the flow guide channel and the flow guide outlet, and the second plastic forming part can adjust the height of the flow guide outlet on the first plastic forming part along the longitudinal direction under the condition of keeping the water flow communication.

16. The faucet structure according to claim 15, wherein the first plastic molding member has a longitudinal flow passage formed therein to form a part of the flow guide passage, and a longitudinal insertion hole with an upward opening is formed at a proper position of the longitudinal flow passage; the bottom end of the second plastic forming part is provided with an insertion rod which can be mutually inserted into the longitudinal insertion hole and can keep sealed and adjusted to move in the longitudinal insertion hole, a longitudinal flow channel is formed inside the second plastic forming part and used for forming a part of the flow guide channel, and a part of the longitudinal flow channel is positioned inside the insertion rod.

17. The faucet structure of claim 1, wherein the bottom end of the body portion has an opening formed with an opening direction; the water nozzle part extends from the body part and is provided with an extending direction, an included angle is formed between the extending direction and the opening direction, and the included angle is between 75 and 105 degrees; at least most part of the water outlet pipe has the extending direction consistent with the extending direction of the water nozzle part.

18. The faucet structure of claim 17, wherein the spout of the adapter has an opening direction that is perpendicular to the opening direction of the bottom end of the body portion; a cylindrical plug connector is formed on the outer peripheral wall of the water inlet end of the water outlet pipe and can be embedded into the flow guide outlet of the connecting piece, and a waterproof gasket is nested on the outer peripheral wall of the plug connector and can be tightly abutted against the inner peripheral wall of the flow guide outlet; a positioning convex ring is further formed at the water inlet end of the water outlet pipe and is adjacent to the plug connector and can be abutted and positioned on the annular end wall around the flow guide outlet of the connecting piece; the extension direction of the outer part of the water outlet pipe at the position of the plug-in connector and the positioning convex ring is vertical to the opening direction of the bottom end of the body part, and the extension direction of the rest parts of the outer part of the water outlet pipe is consistent with the extension direction of the water nozzle part.

19. The faucet structure of claim 17, wherein the spout outlet of the adapter is provided in the shape of a spherical trough; the water inlet end of the water outlet pipe is provided with a spherical joint, and can be nested in the spherical groove in a sealing manner, so that the water outlet pipe can be rotated within the included angle range to adjust the angle, and the extension direction of the water outlet pipe is consistent with the extension direction of the water nozzle.