阅读说明：本技术 一种方便收纳隐藏的饮用水管道阀门 (Conveniently accomodate hidden drinking water pipeline valve ) 是由 不公告发明人 于 2020-06-17 设计创作，主要内容包括：本发明涉及阀门领域,具体的说是一种方便收纳隐藏的饮用水管道阀门,包括驱动结构、隐藏结构、阀门本体、导流结构、调节结构、限位结构和传动结构；驱动结构连接于隐藏结构的内部的用于传动的传动结构；驱动结构上设有用于对驱动结构和隐藏结构进行限位的限位结构,进而便于通过驱动结构对传动结构提供动力,使传动结构驱动调节结构上的阀门本体的隐藏或外露,进而便于对阀门本体进行隐藏,进而大大提高了空间利用效率,调节结构设于用于对阀门本体进行隐藏的隐藏结构的内部,调节结构与隐藏结构之间滑动连接,进而便于通过调节结构调节阀门本体的高度,便于对不同高度的器皿添加水,且便于降低阀门本体与器皿之间的高度,有效的防止水源飞溅。(The invention relates to the field of valves, in particular to a drinking water pipeline valve convenient to store and hide, which comprises a driving structure, a hiding structure, a valve body, a flow guide structure, an adjusting structure, a limiting structure and a transmission structure, wherein the valve body is arranged on the valve body; the driving structure is connected with a transmission structure used for transmission in the hiding structure; the drive structure is provided with a limiting structure for limiting the drive structure and the hidden structure, and then the drive structure is convenient to provide power for the transmission structure, the valve body on the drive structure adjusting structure is hidden or exposed, and then the valve body is convenient to hide, and further the space utilization efficiency is greatly improved, the adjusting structure is arranged in the hidden structure for hiding the valve body, the adjusting structure is connected with the hidden structure in a sliding manner, and further the height of the valve body is convenient to adjust through the adjusting structure, the water is convenient to be added to vessels with different heights, and the height between the valve body and the vessels is convenient to reduce, and the water source is effectively prevented from splashing.)

1. The utility model provides a conveniently accomodate hidden drinking water pipeline valve, its characterized in that: the valve comprises a driving structure (1), a hiding structure (2), a valve body (3), a flow guide structure (4), an adjusting structure (5), a limiting structure (6) and a transmission structure (7); the valve body (3) used for controlling the opening and closing of water flow is connected with the adjusting structure (5) used for adjusting the height, the adjusting structure (5) is communicated with the flow guide structure (4) used for guiding the flow, the adjusting structure (5) is arranged in the hidden structure (2) used for hiding the valve body (3), the adjusting structure (5) is connected with the hidden structure (2) in a sliding mode, and the flow guide structure (4) is arranged in the hidden structure (2); the hidden structure (2) is provided with the driving structure (1) for providing power, and the driving structure (1) is connected with the transmission structure (7) which is arranged in the hidden structure (2) and used for transmission; the driving structure (1) is provided with a limiting structure (6) used for limiting the driving structure (1) and the hiding structure (2).

2. A drinking water pipeline valve convenient to store and hide as claimed in claim 1, wherein: hide structure (2) including accomodating frame (21), slide bar (22), shielding plate (23) and drive stopper (24), be used for pre-buried the inside of accomodating frame (21) is equipped with water conservancy diversion structure (4), the both ends symmetry slip of accomodating frame (21) have slide bar (22) with drive stopper (24), be used for accomodating and shelter from valve body (3) the both ends of shielding plate (23) are fixed in respectively slide bar (22) with drive stopper (24), accomodate frame (21) with the opposite face of shielding plate (23) is for falling T shape structure.

3. A drinking water pipeline valve convenient to store and hide as claimed in claim 2, wherein: drive structure (1) includes actuating lever (11), guide ring (12), two band pulleys (13), pivot (14), belt (15), guiding axle (16) and cam (17), pivot (14) through connection in accomodate frame (21) with actuating lever (11), guide ring (12) with rotate between actuating lever (11) and be connected, actuating lever (11) are fixed in pivot (14), the tip of pivot (14) is equipped with one band pulley (13), guiding axle (16) through connection in another band pulley (13) with cam (17), guiding axle (16) with accomodate and rotate between frame (21) and connect, belt (15) twine in band pulley (13).

4. A potable water pipeline valve convenient to store and hide as claimed in claim 3, wherein: the transmission structure (7) comprises a sliding groove (71), a pressurizing chamber (72), a pressurizing plug (73) and a second reset spring (74), the cam (17) abuts against the pressurizing plug (73), the pressurizing plug (73) is in sliding connection with the containing frame (21), the second reset spring (74) is arranged between the pressurizing plug (73) and the containing frame (21), the pressurizing plug (73) is arranged between the pressurizing plug (21) and the containing frame (21), the pressurizing chamber (72) is arranged between the pressurizing plug (73) and the containing frame (21), the sliding groove (71) is arranged between the driving plug (24) and the containing frame (21), and the sliding groove (71) is communicated with the pressurizing chamber (72).

5. A potable water pipeline valve convenient to store and hide as claimed in claim 3, wherein: the limiting structure (6) comprises a push block (61), a pull rope (62), a limiting hole (63), a first reset spring (64), a stop block (65) and a limiting post (66), the push block (61) is connected with the driving rod (11) in a sliding mode, one end of the pull rope (62) penetrates through the driving rod (11) and is connected with the push block (61), the other end of the pull rope (62) penetrates through the first reset spring (64) and is fixed on the limiting post (66), the limiting post (66) is connected with the driving rod (11) in a sliding mode, the sliding direction of the limiting post (66) is perpendicular to that of the push block (61), the pull rope (62) is connected with the stop block (65) in a sliding mode, two ends of the first reset spring (64) respectively abut against the limiting post (66) and the stop block (65), the distance between the limiting column (66) and the axis of the rotating shaft (14) is equal to the distance between the limiting hole (63) and the axis of the rotating shaft (14).

6. A drinking water pipeline valve convenient to store and hide as claimed in claim 2, wherein: the water conservancy diversion structure (4) includes sleeve pipe (41), leading wheel (42), water pipe (43), bracing piece (44) and torque spring (45), bracing piece (44) are located accomodate the inside cavity that holds of frame (21), bracing piece (44) with accomodate and rotate between the frame (21) and be connected, torque spring (45) both ends are fixed in respectively bracing piece (44) with accomodate frame (21), leading wheel (42) with rotate between bracing piece (44) and be connected, sleeve pipe (41) twine in leading wheel (42), two water pipe (43) run through in sleeve pipe (41), just sleeve pipe (41) hose of the structure of falling V-arrangement.

7. A drinking water pipeline valve convenient to store and hide as claimed in claim 2, wherein: the adjusting structure (5) comprises a sliding sleeve (51), a screw rod (52), a flow guide pipe (53) and a driving sleeve (54), the cross section of the adjusting structure is of a T-shaped structure, the sliding sleeve (51) is in sliding connection with the shielding plate (23), the valve body (3) is fixed on the sliding sleeve (51), the screw rod (52) is in through connection with the shielding plate (23) and the sliding sleeve (51), the screw rod (52) is in rotating connection with the shielding plate (23), the screw rod (52) is in threaded connection with the sliding sleeve (51), two flow guide pipes (53) which are communicated with the valve body (3) and are respectively used for controlling hot water inflow and cold water inflow are symmetrically arranged at two ends of the sliding sleeve (51), the other ends of the flow guide pipes (53) are in sliding connection with the shielding plate (23) and are respectively communicated with the two water pipes (43), the driving sleeve (54) is connected with the end part of the screw rod (52) in a sliding way.

Technical Field

The invention relates to the field of valves, in particular to a drinking water pipeline valve convenient to store and hide.

Background

The valve is a pipeline accessory used for opening and closing a pipeline, controlling the flow direction, and adjusting and controlling parameters (temperature, pressure and flow) of a conveying medium; according to its function, can divide into shut-off valve, check valve, governing valve etc. can set up a cold and hot valve door on the washing pond in dining room kitchen, discharges through the different water sources of cold and hot valve door controlled temperature for wash kitchen utensils and appliances and vegetables and fruits, cold and hot valve door is most rotatable, makes to rotate cold and hot valve door just can add the water source to the inside in two washing ponds one by one.

However, the cold and hot valve that uses in kitchen department locates to wash that occupation space is great on the pond, and sewage splashes easily on the cold and hot valve in the washing kitchen utensils and appliances in-process, makes the junction in cold and hot valve and washing pond be not convenient for clear up, and the highly unable regulation of cold and hot valve, is not convenient for use the cold and hot valve to add the water source in the higher bucket of height.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a drinking water pipeline valve which is convenient to store and hide.

The technical scheme adopted by the invention for solving the technical problems is as follows: a drinking water pipeline valve convenient to store and hide comprises a driving structure, a hiding structure, a valve body, a flow guide structure, an adjusting structure, a limiting structure and a transmission structure; the valve body for controlling the opening and closing of water flow is connected with the adjusting structure for adjusting the height, the adjusting structure is communicated with the flow guide structure for guiding flow, the adjusting structure is arranged in the hiding structure for hiding the valve body, the adjusting structure is connected with the hiding structure in a sliding mode, and the flow guide structure is arranged in the hiding structure; the hidden structure is provided with the driving structure for providing power, and the driving structure is connected with the transmission structure which is arranged in the hidden structure and used for transmission; the driving structure is provided with a limiting structure used for limiting the driving structure and the hiding structure.

The valve body is provided with a hidden structure, the hidden structure comprises an accommodating frame, a sliding rod, a shielding plate and a driving plug, the accommodating frame is embedded, the inside of the accommodating frame is provided with a flow guide structure, the two ends of the accommodating frame symmetrically slide to form the sliding rod and the driving plug, the two ends of the shielding plate are respectively fixed to the sliding rod and the driving plug, and the opposite surface of the accommodating frame and the shielding plate is of an inverted T-shaped structure.

Specifically, the drive structure includes actuating lever, uide ring, two band pulleys, pivot, belt, guiding axle and cam, the pivot through connection in accomodate the frame with the actuating lever, the uide ring with rotate between the actuating lever and be connected, the actuating lever is fixed in the pivot, the tip of pivot is equipped with one the band pulley, the guiding axle through connection in another the band pulley with the cam, the guiding axle with accomodate and rotate between the frame and connect, the belt twine in the band pulley.

Specifically, transmission structure includes spout, pressurizing chamber, pressurizing plug and second reset spring, the cam contradict in the pressurizing plug, the pressurizing plug with sliding connection between the storage frame, the pressurizing plug with be equipped with between the storage frame second reset spring, the pressurizing plug with be equipped with between the storage frame the pressurizing chamber, the driving plug with be equipped with between the storage frame the spout, just the spout with switch on between the pressurizing chamber.

Specifically, limit structure includes ejector pad, stay cord, spacing hole, first reset spring, dog and spacing post, the ejector pad with sliding connection between the actuating lever, the one end of stay cord run through in the actuating lever connect in the ejector pad, the other one end of stay cord run through in first reset spring is fixed in spacing post, spacing post with sliding connection between the actuating lever, the slip direction of spacing post with the slip direction of ejector pad is perpendicular, the stay cord with sliding connection between the dog, first reset spring's both ends contradict respectively in spacing post with the dog, spacing post distance the axle center of pivot with spacing hole distance the distance in the axle center of pivot equals.

Specifically, the water conservancy diversion structure includes sleeve pipe, leading wheel, water pipe, bracing piece and torque spring, the bracing piece is located accomodate the inside cavity that holds of frame, the bracing piece with accomodate and rotate between the frame and be connected, torque spring's both ends are fixed in respectively the bracing piece with accomodate the frame, the leading wheel with rotate between the bracing piece and be connected, the sleeve pipe twine in leading wheel, two the water pipe run through in the sleeve pipe, just the hose of sleeve pipe shape of falling V-arrangement structure.

The adjusting structure comprises a sliding sleeve, a screw rod, a flow guide pipe and a driving sleeve, the cross section of the adjusting structure is of a T-shaped structure, the sliding sleeve is connected with the shielding plates in a sliding mode, the valve body is fixed on the sliding sleeve, the screw rod is in through connection with the shielding plates and the sliding sleeve, the screw rod is connected with the shielding plates in a rotating mode, the screw rod is connected with the sliding sleeve in a threaded mode, two ends of the sliding sleeve are symmetrically provided with the flow guide pipe, the two ends of the sliding sleeve are communicated with the valve body and are respectively used for controlling hot water inflow and cold water inflow, the other end of the flow guide pipe is connected with the shielding plates in a sliding mode and is respectively communicated with the water pipe, and the driving sleeve is connected with the end.

The invention has the beneficial effects that:

(1) the drinking water pipeline valve convenient to store and hide is characterized in that a driving structure for providing power is arranged on the hiding structure, and the driving structure is connected with a transmission structure which is arranged in the hiding structure and used for transmission; the limiting structure used for limiting the driving structure and the hidden structure is arranged on the driving structure, so that power can be conveniently provided for the transmission structure through the driving structure, the transmission structure drives the valve body on the adjusting structure to be hidden or exposed, the valve body is conveniently hidden, the space utilization efficiency is greatly improved, and meanwhile, the limiting structure is convenient for limiting the driving structure, so that the driving is more stable; namely: firstly, the forefinger penetrates through the guide ring, the thumb pulls the push block, the push block pulls the pull rope to enable the pull rope to pull the limiting column, the limiting column is pressed against the first reset spring, the limiting column is separated from the limiting hole, the limiting column is not limited to the driving rod, then the forefinger pulls the guide ring, the guide ring and the driving rod rotate, and further the operation is more flexible, the guide ring drives the driving rod to rotate, the driving rod drives the rotating shaft to rotate, the rotating belt wheel drives the belt wheel on the guide shaft to rotate through the belt, the guide shaft drives the cam to gradually abut against the pressurizing plug, the pressurizing plug slides with the containing frame, the pressurizing plug drives the second reset spring to compress, the pressurizing plug enables the space of the pressurizing chamber to be reduced, gas enters the chute from the pressurizing chamber, the gas pushes the driving plug to slide with the chute, then the driving plug drives the shielding plate to slide out of, the shielding plate slides out more stably to expose the valve body, then the push block is loosened, the first reset spring extends to abut against the limit post to be clamped with the limit hole on the receiving frame, so that the driving rod is effectively prevented from rotating, the stability is further improved, when the valve body needs to be received, the push block is pulled by a thumb to pull the pull rope to pull the limit post, the limit post abuts against the first reset spring to be compressed, the limit post is separated from the limit hole, the driving rod is not limited by the limit post, the pressurizing plug drives the second reset spring to extend, the pressurizing plug slides with the receiving frame, the pressurizing plug enlarges the space of the pressurizing chamber, gas enters the pressurizing chamber from the chute, the gas pushes the driving plug to slide with the chute under the action of atmospheric pressure, then the driving plug drives the shielding plate to slide into the receiving frame, so that the valve body is received in the receiving frame, and the valve body is convenient to hide, and then improved space utilization efficiency greatly, the cam is contradicted to the pressure boost stopper simultaneously, and the cam drives the guiding axle and rotates, is convenient for drive structure and resets.

(2) According to the drinking water pipeline valve convenient to store and hide, the adjusting structure is communicated with the flow guide structure for guiding flow, and the flow guide structure is arranged inside the hidden structure, so that the reasonable distribution of pipelines in the hiding and exposing processes of the valve body is facilitated, the use stability is greatly improved, and pipeline wrinkles are effectively avoided, namely: wherein one end of two water pipes is fixed in cold water pipe and hot water inlet tube respectively, then be fixed in the shielding plate with the other one end of two water pipes, and two water pipes switch on between with the honeycomb duct respectively, when the frame is accomodate to the shielding plate roll-off, the shielding plate drives the water pipe, make the water pipe drive the sleeve pipe, the sleeve pipe drives and rotates between leading wheel and the bracing piece, the bracing piece rotates around accomodating the frame, make torsion spring deformation, and then make sheathed tube V-arrangement angle grow gradually, make the sleeve pipe be in the tiling state, when the inside of accomodating the frame is accomodate to the shielding plate, torsion spring drive bracing piece rotates and resets, and then make sheathed tube V-arrangement angle diminish gradually, and then effectual prevention is hidden and is exposed in-process water pipe fold at the shielding plate, and then.

(3) According to the drinking water pipeline valve convenient to store and hide, the valve body for controlling the opening and closing of water flow is connected with the adjusting structure for adjusting the height, the adjusting structure is communicated with the flow guide structure for guiding flow, the adjusting structure is arranged inside the hidden structure for hiding the valve body, the adjusting structure is in sliding connection with the hidden structure, so that the height of the valve body can be adjusted conveniently through the adjusting structure, water can be added to vessels with different heights, the height between the valve body and the vessels can be reduced conveniently, and water source splashing can be effectively prevented; namely: when the frame is accomodate to the shielding plate roll-off, height according to the household utensils, stimulate the drive cover, drive cover roll-off shielding plate, make the drive cover expose, then rotate the drive cover, rotate between drive cover and the lead screw and be connected, make and more be convenient for rotate the lead screw behind the drive cover roll-off lead screw, the lead screw rotates and slides between screw thread drive sliding sleeve and the shielding plate, slide between honeycomb duct and the shielding plate, and then the height of adjusting valve body, be convenient for add the water to the household utensils of co-altitude, and be convenient for reduce the height between valve body and the household utensils, effectually prevent that the water source from splashing, make the interpolation at water source convenient.

Drawings

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

Fig. 1 is a schematic view of an overall structure of a drinking water pipeline valve which is convenient to store and hide provided by the invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of the portion B shown in FIG. 1;

FIG. 4 is a schematic view of the connection structure between the hidden structure and the adjustment structure shown in FIG. 2

FIG. 5 is an enlarged view of the portion C shown in FIG. 4;

FIG. 6 is an enlarged view of the portion D shown in FIG. 4;

FIG. 7 is a schematic view of a connection structure between the diversion structure and the hidden structure shown in FIG. 1;

FIG. 8 is a schematic view of the connection structure of the shielding plate and the driving structure shown in FIG. 1;

FIG. 9 is an enlarged view of section E of FIG. 8;

fig. 10 is a schematic view of a connection structure between the rotating shaft and the shielding plate shown in fig. 8.

In the figure: 1. the device comprises a driving structure, 11, a driving rod, 12, a guide ring, 13, a belt wheel, 14, a rotating shaft, 15, a belt, 16, a guide shaft, 17, a cam, 2, a hidden structure, 21, a storage frame, 22, a sliding rod, 23, a baffle plate, 24, a driving plug, 3, a valve body, 4, a flow guide structure, 41, a sleeve, 42, a guide wheel, 43, a water pipe, 44, a support rod, 45, a torsion spring, 5, an adjusting structure, 51, a sliding sleeve, 52, a screw rod, 53, a flow guide pipe, 54, a driving sleeve, 6, a limiting structure, 61, a push block, 62, a pull rope, 63, a limiting hole, 64, a first reset spring, 65, a stop dog, 66, a limiting column, 7, a transmission structure, 71, a sliding chute, 72, a pressurizing chamber, 73, a pressurizing plug, 74 and a second reset spring.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 10, the drinking water pipeline valve convenient to store and hide comprises a driving structure 1, a hiding structure 2, a valve body 3, a flow guide structure 4, an adjusting structure 5, a limiting structure 6 and a transmission structure 7; the valve body 3 for controlling the opening and closing of water flow is connected with the adjusting structure 5 for adjusting the height, the adjusting structure 5 is communicated with the flow guide structure 4 for guiding flow, the adjusting structure 5 is arranged in the hidden structure 2 for hiding the valve body 3, the adjusting structure 5 is connected with the hidden structure 2 in a sliding manner, and the flow guide structure 4 is arranged in the hidden structure 2; the hidden structure 2 is provided with the driving structure 1 for providing power, and the driving structure 1 is connected with the transmission structure 7 for transmission in the hidden structure 2; the driving structure 1 is provided with the limiting structure 6 for limiting the driving structure 1 and the hiding structure 2.

Specifically, hide structure 2 including accomodating frame 21, slide bar 22, shielding plate 23 and drive stopper 24, be used for pre-buried the inside of accomodating frame 21 is equipped with water conservancy diversion structure 4, the both ends symmetry of accomodating frame 21 slides and has slide bar 22 with drive stopper 24 is used for accomodating and shelters from valve body 3 the both ends of shielding plate 23 are fixed in respectively slide bar 22 with drive stopper 24, accomodate frame 21 with the opposite face of shielding plate 23 is the structure of falling T.

Specifically, drive structure 1 includes actuating lever 11, guide ring 12, two band pulleys 13, pivot 14, belt 15, guiding axle 16 and cam 17, pivot 14 through connection in accomodate frame 21 with actuating lever 11, guide ring 12 with rotate between the actuating lever 11 and be connected, actuating lever 11 is fixed in pivot 14, the tip of pivot 14 is equipped with one band pulley 13, guide shaft 16 through connection in another band pulley 13 with cam 17, guide shaft 16 with accomodate and rotate between the frame 21 and be connected, belt 15 twine in band pulley 13.

Specifically, the transmission structure 7 includes a sliding groove 71, a pressurizing chamber 72, a pressurizing plug 73 and a second return spring 74, the cam 17 abuts against the pressurizing plug 73, the pressurizing plug 73 is slidably connected with the receiving frame 21, the second return spring 74 is arranged between the pressurizing plug 73 and the receiving frame 21, the pressurizing plug 73 is arranged between the receiving frame 21 and the pressurizing chamber 72, the sliding groove 71 is arranged between the driving plug 24 and the receiving frame 21, and the sliding groove 71 is communicated with the pressurizing chamber 72.

Specifically, the limiting structure 6 includes a pushing block 61, a pulling rope 62, a limiting hole 63, a first return spring 64, a stopper 65 and a limiting post 66, the pushing block 61 is slidably connected with the driving rod 11, one end of the pulling rope 62 penetrates through the driving rod 11 and is connected to the pushing block 61, the other end of the pulling rope 62 penetrates through the first return spring 64 and is fixed to the limiting post 66, the limiting post 66 is slidably connected with the driving rod 11, the sliding direction of the limiting post 66 is perpendicular to the sliding direction of the pushing block 61, the pulling rope 62 is slidably connected with the stopper 65, two ends of the first return spring 64 respectively abut against the limiting post 66 and the stopper 65, and the distance between the limiting post 66 and the axis of the rotating shaft 14 is equal to the distance between the limiting hole 63 and the axis of the rotating shaft 14; the hidden structure 2 is provided with the driving structure 1 for providing power, and the driving structure 1 is connected with the transmission structure 7 for transmission in the hidden structure 2; the driving structure 1 is provided with the limiting structure 6 for limiting the driving structure 1 and the hiding structure 2, so that the driving structure 1 can provide power for the transmission structure 7, the transmission structure 7 can drive the valve body 3 on the adjusting structure 5 to be hidden or exposed, the valve body 3 can be hidden conveniently, the space utilization efficiency is greatly improved, and meanwhile, the limiting structure 6 can limit the driving structure 1 conveniently, so that the driving is more stable; namely: firstly, the forefinger penetrates through the guide ring 12, the thumb pulls the push block 61, the push block 61 pulls the pull rope 62 to make the pull rope 62 pull the limit post 66, the limit post 66 abuts against the first return spring 64 to be compressed, the limit post 66 is separated from the limit hole 63 to make the limit post 66 not limit the position of the drive rod 11, then the forefinger pulls the guide ring 12, the guide ring 12 rotates with the drive rod 11, so that the operation is more flexible, the guide ring 12 drives the drive rod 11 to rotate, the drive rod 11 drives the rotating shaft 14 to rotate, the belt wheel 13 on the rotating shaft 14 drives the belt wheel 13 on the guide shaft 16 to rotate through the belt 15, the guide shaft 16 drives the cam 17 to gradually abut against the pressurizing plug 73, and the pressurizing plug 73 slides with the receiving frame 21, the pressurizing plug 73 drives the second return spring 74 to compress, the pressurizing plug 73 reduces the space of the pressurizing chamber 72, gas enters the chute 71 from the pressurizing chamber 72, the gas pushes the driving plug 24 and the chute 71 to slide, then the driving plug 24 drives the shielding plate 23 to slide out of the receiving frame 21, meanwhile, the sliding rod 22 on the shielding plate 23 slides out of the receiving frame 21, so that the shielding plate 23 slides out more stably, the valve body 23 is exposed, then the push block 61 is released, the first return spring 64 extends to abut against the limiting column 66 to be clamped with the limiting hole 63 on the receiving frame 21, the driving rod 11 is effectively prevented from rotating, the stability is improved, when the valve body 3 needs to be received, the thumb pulls the push block 61, the push block 61 pulls the pull rope 62 to pull the limiting column 66, the limiting column 66 is pressed against the first return spring 64 for compression, the limiting column 66 is separated from the limiting hole 63, so that the limiting column 66 is not limited to the driving rod 11, the pressurizing plug 73 drives the second return spring 74 to extend, the pressurizing plug 73 slides with the receiving frame 21, the pressurizing plug 73 increases the space of the pressurizing chamber 72, gas enters the pressurizing chamber 72 from the chute 71, the gas pushes the driving plug 24 and the chute 71 to slide under the action of atmospheric pressure, then the driving plug 24 drives the shielding plate 23 to slide into the receiving frame 21, so that the valve body 23 is received in the receiving frame 21, the valve body 3 is hidden conveniently, the space utilization efficiency is greatly improved, meanwhile, the pressurizing plug 73 presses against the cam 17, and the cam 17 drives the guide shaft 61 to rotate, facilitating the resetting of the drive structure 1.

Specifically, the flow guide structure 4 includes a sleeve 41, a guide wheel 42, a water pipe 43, a support rod 44 and a torsion spring 45, the support rod 44 is disposed in a containing cavity inside the containing frame 21, the support rod 44 is rotatably connected with the containing frame 21, two ends of the torsion spring 45 are respectively fixed to the support rod 44 and the containing frame 21, the guide wheel 42 is rotatably connected with the support rod 44, the sleeve 41 is wound around the guide wheel 42, the two water pipes 43 penetrate through the sleeve 41, and the sleeve 41 is a hose with an inverted V-shaped structure; adjust structure 5 with be used for the water conservancy diversion structure 4 switches on, water conservancy diversion structure 4 is located hide the inside of structure 2, and then be convenient for hide and expose the rational distribution of in-process pipeline of valve body 3, and then improved the stability of using greatly, the effectual pipeline fold of having avoided, promptly: one end of each of the two water pipes 43 is fixed to the cold water pipe and the hot water inlet pipe, the other end of each of the two water pipes 43 is fixed to the shielding plate 23, the two water pipes 43 are communicated with the flow guide pipe 53, when the shielding plate 23 slides out of the accommodating frame 21, the shielding plate 23 drives the water pipes 43, the water pipes 43 drive the sleeves 41, the sleeves 41 drive the guide wheels 42 and the support rods 44 to rotate, the support rods 44 rotate around the accommodating frame 21, the torsion springs 45 deform, the V-shaped angles of the sleeves 41 are gradually increased, the sleeves 41 are in a flat state, when the shielding plate 23 is accommodated in the accommodating frame 21, the torsion springs 45 drive the support rods 44 to rotate and reset, and the V-shaped angles of the sleeves 41 are gradually decreased, and further effectively preventing the water pipe 43 from being folded in the process of hiding and exposing the shielding plate 23, so that the water source conveying is more stable.

Specifically, the adjusting structure 5 includes a sliding sleeve 51, a screw rod 52, a flow guide tube 53 and a driving sleeve 54, the sliding sleeve 51 and the shielding plate 23 are slidably connected, the valve body 3 is fixed to the sliding sleeve 51, the screw rod 52 is connected to the shielding plate 23 and the sliding sleeve 51 in a penetrating manner, the screw rod 52 is rotatably connected to the shielding plate 23, the screw rod 52 is in threaded connection with the sliding sleeve 51, two flow guide tubes 53 which are respectively communicated with the valve body 3 and used for controlling hot water inflow and cold water inflow are symmetrically arranged at two ends of the sliding sleeve 51, the other end of the flow guide tube 53 is slidably connected to the shielding plate 23 and respectively communicated with the two water pipes 43, and the driving sleeve 54 is slidably connected to the end of the screw rod 52; the valve body 3 for controlling the opening and closing of water flow is connected with the adjusting structure 5 for adjusting the height, the adjusting structure 5 is communicated with the flow guide structure 4 for guiding flow, the adjusting structure 5 is arranged in the hiding structure 2 for hiding the valve body 3, the adjusting structure 5 is in sliding connection with the hiding structure 2, so that the height of the valve body 3 can be adjusted through the adjusting structure 5, water can be added to vessels with different heights, the height between the valve body 3 and the vessels can be reduced, and water source splashing can be effectively prevented; namely: when the shielding plate 23 slides out of the containing frame 21, the driving sleeve 54 is pulled according to the height of the vessel, the driving sleeve 54 slides out of the shielding plate 23, the driving sleeve 54 is exposed, then the driving sleeve 54 is rotated, the driving sleeve 54 is rotatably connected with the screw rod 52, the screw rod 52 is more convenient to rotate after the driving sleeve 54 slides out of the screw rod 52, the screw rod 52 rotates to drive the sliding sleeve 51 and the shielding plate 23 to slide, the guide pipe 53 and the shielding plate 23 to slide, and further the height of the valve body 3 is adjusted, so that water can be added to the vessels with different heights, the height between the valve body 3 and the vessel can be conveniently reduced, the splashing of the water source is effectively prevented, and the addition of the water source is more convenient and rapid.

When the device is used, firstly, a forefinger penetrates through the guide ring 12, a thumb pulls the push block 61, the push block 61 pulls the pull rope 62 to make the pull rope 62 pull the limit post 66, the limit post 66 is pressed by abutting against the first return spring 64, the limit post 66 is separated from the limit hole 63, so that the limit post 66 does not limit the driving rod 11, then, the forefinger pulls the guide ring 12, the guide ring 12 rotates with the driving rod 11, and further the operation is more flexible, the guide ring 12 drives the driving rod 11 to rotate, the driving rod 11 drives the rotating shaft 14 to rotate, the belt wheel 13 on the rotating shaft 14 drives the belt wheel 13 on the guide shaft 16 to rotate through the belt 15, the guide shaft 16 drives the cam 17 to gradually abut against the pressurizing plug 73, the pressurizing plug 73 slides with the accommodating frame 21, the pressurizing plug 73 drives the second return spring 74 to compress, the pressurizing plug 73 reduces the space of the pressurizing chamber 72, air enters the chute 71 from the, then the driving plug 24 drives the shielding plate 23 to slide out of the receiving frame 21, and simultaneously the sliding rod 22 on the shielding plate 23 slides with the receiving frame 21, so that the shielding plate 23 slides out more stably, the valve body 23 is exposed, then the push block 61 is released, the first return spring 64 extends to abut against the limit post 66 to be clamped with the limit hole 63 on the receiving frame 21, so as to effectively prevent the driving rod 11 from rotating, and further improve the stability, when the valve body 3 needs to be received, the thumb pulls the push block 61, the push block 61 pulls the pull rope 62 to make the pull rope 62 pull the limit post 66, the limit post 66 abuts against the first return spring 64 to be compressed, the limit post 66 is separated from the limit hole 63, so that the limit post 66 does not limit the driving rod 11, the pressurizing plug 73 drives the second return spring 74 to extend, the pressurizing plug 73 slides with the receiving frame 21, the pressurizing plug 73 enlarges the space of the pressurizing chamber 72, and the gas enters, the gas pushes the driving plug 24 and the chute 71 to slide under the action of atmospheric pressure, then the driving plug 24 drives the shielding plate 23 to slide into the containing frame 21, so that the valve body 23 is contained in the containing frame 21, the valve body 3 is convenient to hide, the space utilization efficiency is greatly improved, meanwhile, the pressurizing plug 73 abuts against the cam 17, the cam 17 drives the guide shaft 61 to rotate, and the driving structure 1 is convenient to reset; one end of each of the two water pipes 43 is fixed to the cold water pipe and the hot water inlet pipe respectively, the other end of each of the two water pipes 43 is fixed to the baffle plate 23, the two water pipes 43 are communicated with the flow guide pipe 53 respectively, when the baffle plate 23 slides out of the storage frame 21, the baffle plate 23 drives the water pipes 43 to enable the water pipes 43 to drive the sleeve 41, the sleeve 41 drives the guide wheel 42 and the support rod 44 to rotate, the support rod 44 rotates around the storage frame 21 to enable the torsion spring 45 to deform, the V-shaped angle of the sleeve 41 is gradually increased, the sleeve 41 is in a flat-laying state, when the baffle plate 23 is stored in the storage frame 21, the torsion spring 45 drives the support rod 44 to rotate and reset, the V-shaped angle of the sleeve 41 is gradually decreased, the water pipes 43 are effectively prevented from being folded in the process of hiding and exposing the baffle plate 23, and water source conveying is more stable; when the shielding plate 23 slides out of the storage frame 21, according to the height of a vessel, the driving sleeve 54 is pulled, the driving sleeve 54 slides out of the shielding plate 23, the driving sleeve 54 is exposed, the driving sleeve 54 is rotated, the driving sleeve 54 is rotatably connected with the screw rod 52, the screw rod 52 is more convenient to rotate after the driving sleeve 54 slides out of the screw rod 52, the screw rod 52 rotates to slide between the threaded driving sliding sleeve 51 and the shielding plate 23, the guide pipe 53 and the shielding plate 23 slide, the height of the valve body 3 is adjusted, water is convenient to be added to vessels with different heights, the height between the valve body 3 and the vessel is convenient to reduce, the water source is effectively prevented from splashing, and the water source is more convenient and faster to add.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.