CN217108695U - Water separator - Google Patents

Abstract

The utility model discloses a water separator, which comprises a water separator shell with a water inlet channel and more than two water outlet channels and a slide plate with more than two through holes; a water storage cavity is arranged between the water inlet channel and each water outlet channel; the slide plate is slidably disposed in the diverter housing; a sealing valve is arranged in each water storage cavity, and a valve rod of each sealing valve is connected with one button; each valve rod is connected with a driving block, and the hole wall of each through hole is provided with a limiting part and an actuating part. The utility model discloses a water knockout drum can realize two tunnel or multichannel water outlet simultaneously, has satisfied user's different demands, when needing to close, only need press once more can one of them button, convenient operation, the practicality is high.

Description

Water separator

Technical Field

The utility model relates to a go out water auto-change over device technical field, especially relate to a water knockout drum.

Background

In the bathroom industry, the water separator of the existing faucet can only output water in one way, only one button can be pressed at each time, one water way outputs water, and two or more water ways can not output water simultaneously. For the condition of needing multi-path water outlet, the existing water separator can not meet the requirements of users, and the performance of the existing water separator needs to be improved.

In view of the above, it is necessary to provide a water separator capable of simultaneously discharging two or more water streams.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's not enough, provide a can realize two way or multichannel water knockout drum of going out water simultaneously.

The technical scheme of the utility model provides a water separator, which comprises a water separator shell with a water inlet channel and more than two water outlet channels and a slide plate with more than two through holes;

a water storage cavity is arranged between the water inlet channel and each water outlet channel;

the sliding plate is slidably arranged in the water knockout vessel shell, and a sliding plate resetting piece is arranged in the water knockout vessel shell;

a sealing valve is arranged in each water storage cavity, a valve rod of each sealing valve penetrates through one through hole and is connected with a button arranged on the water distributor shell, and a button resetting piece is arranged in the water distributor shell;

each valve rod is connected with a driving block capable of sliding up and down in the through hole, the hole wall of each through hole is provided with a limiting part and an actuating part, and the actuating part is positioned below the limiting part;

when the driving block is positioned below the limiting part and limited by the limiting part, the driving block is separated from the actuating part; when the driving block is matched with the actuating part, the sliding plate moves and drives the limiting part to be separated from the driving block.

In one optional technical scheme, two opposite sides of the hole wall of the via hole are respectively provided with one limiting part, and the actuating part is positioned between the two limiting parts.

In an optional technical solution, the limiting part includes an elastic plate connected with the hole wall.

In an optional technical solution, the elastic plate has an elastic plate protrusion thereon, and a top surface of the elastic plate protrusion is a protrusion inclined surface.

In an alternative embodiment, the actuating portion includes a wedge disposed on the hole wall, and a top surface of the wedge is a wedge slope.

In one optional technical scheme, the driving block comprises a first acting end matched with the limiting part and a second acting end matched with the actuating part.

In an alternative embodiment, the bottom surface of the first active end includes a first inclined surface, and the bottom surface of the second active end includes a second inclined surface.

In an optional technical solution, the water separator housing includes a plurality of mutually independent water outlet channels.

In an alternative solution, a bracket is installed in the water separator shell above the water storage cavity, and the sliding plate is slidably assembled in a top groove of the bracket.

In one optional technical scheme, the bracket is provided with a guide sleeve, and the guide sleeve penetrates through the through hole;

the valve rod penetrates through the guide sleeve, and the valve rod is in clearance fit with the guide sleeve;

the driving block is sleeved on the guide sleeve, and the driving block is in clearance fit with the guide sleeve.

By adopting the technical scheme, the method has the following beneficial effects:

the utility model provides a water knockout drum, when pressing a button for the first time, the drive block moves down and can not upwards reset by the spacing portion of slide spacing, and the seal valve is opened, realizes going out water all the way. At the moment, the driving block is separated from the actuating part of the sliding plate, the sliding plate cannot move, and therefore the rest buttons can be pressed down, and two or more paths of water can be discharged simultaneously. When the waterway needs to be closed, a button which is pressed for the first time is selected to be pressed continuously, the driving block acts on the actuating part, the sliding plate moves and drives the limiting part to be separated from the driving block, after the button is loosened, the button automatically resets under the action of the button resetting piece, the sliding plate automatically resets under the action of the sliding plate resetting piece, all sealing valves are closed, and the water distributor does not discharge water any more.

Therefore, the utility model provides a water knockout drum can realize two way or multichannel and go out water simultaneously, has satisfied user's different demands, when needing to close, only need press once more one of them button can, convenient operation, the practicality is high.

Drawings

The disclosure of the present invention will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present disclosure. In the figure:

fig. 1 is a perspective view of a water separator according to an embodiment of the present invention;

FIG. 2 is an exploded view of the water knockout vessel shown in FIG. 1;

FIG. 3 is a perspective view of the skateboard;

FIG. 4 is a cross-sectional view of the slider shown in FIG. 3 taken along the length thereof;

FIG. 5 is a cross-sectional view of the slide shown in FIG. 3 taken along the width direction;

FIG. 6 is a perspective view of the drive block at a first viewing angle;

FIG. 7 is a perspective view of the drive block at a second viewing angle;

FIG. 8 is a perspective view of the bracket;

FIG. 9 is a cross-sectional view of the water diverter shown in FIG. 1;

FIG. 10 is an enlarged view of a portion of FIG. 9;

fig. 11 is a sectional view of the sealing valve in a closed state with the driving block above the stopper portion;

fig. 12 is a cross-sectional view of the sealing valve in an open state with the driving block positioned below the stopper and stopped by the stopper.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that as used in the following description, the terms "front," "back," "left," "right," "upper" and "lower" refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1-7 and fig. 9-12, an embodiment of the present invention provides a water separator, which includes a water separator housing 1 having a water inlet channel 13 and two or more water outlet channels 14, and a sliding plate 3 having two or more through holes 31.

A water storage cavity 15 is arranged between the water inlet channel 13 and each water outlet channel 14.

The slide 3 is slidably arranged in the diverter housing 1, and a slide return 6 is arranged in the diverter housing 1.

A sealing valve 4 is arranged in each water storage chamber 15, the valve stem 42 of each sealing valve 4 passes through one through hole 31 and is connected with one button 2 arranged on the water knockout vessel shell 1, and the button reset piece 7 is arranged in the water knockout vessel shell 1.

Each valve rod 42 is connected with a driving block 5 capable of sliding up and down in the through hole 31, the hole wall 311 of each through hole 31 is provided with a limiting part 32 and an actuating part 33, and the actuating part 33 is positioned below the limiting part 32.

Wherein, when the driving block 5 is under the limiting part 32 and limited by the limiting part 32, the driving block 5 is kept separated from the actuating part 33. When the driving block 5 is matched with the actuating part 33, the sliding plate 3 moves and drives the limiting part 32 to separate from the driving block 5.

The utility model provides a water knockout drum includes water knockout drum casing 1, button 2, slide 3, seal valve 4, drive block 5, slide reset 6 and button reset 7.

The water knockout vessel housing 1 includes a housing main body 11 and a housing upper cover 12 detachably connected to the housing main body 11. The main body 11 has a water inlet channel 13 and more than two water outlet channels 14. The top surface of the shell body 11 is provided with more than two water storage cavities 15, and the number of the water storage cavities 15 corresponds to the number of the water outlet channels 14. Each water storage cavity 15 is communicated with the water inlet channel 13, and each water outlet channel 14 is communicated with one water storage cavity 15. The slide plate 3 has more than two through holes 31, and the number of the through holes 31 corresponds to the number of the water storage cavities 15. The skid 3 is between the diverter body 11 and the diverter upper cover 12, and the skid 3 can slide over the diverter body 11. A slide return 6, which may be selected from elastic elements such as springs or the like, is mounted in the diverter housing 1. After the sliding plate 3 is driven to move, the sliding plate 3 can be driven to reset under the action of the sliding plate resetting piece 6.

The slide return member 6 is selectively connected between the housing upper cover 12 and the slide 3.

The upper part of each water storage cavity 15 is correspondingly configured with a through hole 31. If necessary, a cover plate 9 may be provided on the bottom surface of the housing upper cover 12 so as to cover the upper side of the slide plate 3.

Each water storage cavity 15 is provided with a sealing valve 4, the sealing valve 4 comprises a valve rod 42, and the valve rod 42 upwards passes through the corresponding through hole 31 and is connected with one button 2. The sealing valve 4 is used for controlling the connection and disconnection between the water storage cavity 15 and the water outlet channel 14. When the valve rod 42 is driven by the button 2 to move downwards for a certain distance, the sealing valve 4 is opened, water in the water storage cavity 15 can flow into the water outlet channel 14, and the water separator can discharge water through the water outlet channel 14. When the button 2 is reset, the sealing valve 4 is closed, and the water outlet channel 14 connected with the water storage cavity 15 does not discharge water any more. In the water distributor housing 1, a push button reset 7 is mounted, which can be selected from elastic elements, such as springs or the like. After releasing the push button 2, the push button 2 can be activated to reset by the push button reset 7.

The button return 7 is selectively coupled between a positioning member of the housing body 11 and the button 2.

Each valve rod 42 is connected with a driving block 5, the driving block 5 and the valve rod 42 move integrally, and the driving block 5 can slide up and down in the through hole 31.

The hole wall 311 of each via hole 31 has a position-limiting part 32 and an actuating part 33, and the actuating part 33 is located below the position-limiting part 32. The limiting portion 32 is used for limiting the driving block 5 which has moved down for the first time, so that the driving block cannot be automatically reset, and the sealing valve 4 is kept in an open state. The actuating portion 33 can be driven by the driving block 5 moving downward from the position-limiting portion 32 to drive the sliding plate 3 to move horizontally, so that the position-limiting portion 32 moves horizontally away from the driving block 5 together, at this time, the button 2 is released, the button 2 is not blocked by the position-limiting portion 32 when being reset, the button 2 can be reset to the initial state, and the sealing valve 4 is closed.

Each of the buttons 2 has an initial state, a one-press state, and a two-press state.

When the push button is in the initial state, the driving block 5 is located above the stopper portion 32, and the sealing valve 4 is closed.

When the button 2 is pressed for the first time to be in a pressed state, the button 2 drives the valve rod 42 to move downwards to open the sealing valve 4, meanwhile, the valve rod 42 drives the driving block 5 to move downwards to the lower part of the limiting part 32, the driving block 5 is limited by the limiting part 32, the driving block 5 is kept separated from the actuating part 33, and the sliding plate 3 cannot move. At this time, the rest of the buttons 2 can be continuously pressed to open the corresponding sealing valves 4, so that two or more paths of simultaneous water outlet can be realized.

When the button 2 is pressed again to be in a secondary pressing state, the driving block 5 acts on the actuating part 33, the sliding plate 3 moves and drives the limiting part 32 to be separated from the driving block 5, after the button 2 is loosened, the button 2 automatically resets to an initial state under the action of the button resetting piece 7, the sliding plate 3 automatically resets under the action of the sliding plate resetting piece 6, all the sealing valves 4 are closed, and the water distributor does not discharge water any more.

When the water separator needs to be closed, only one button 2 which is pressed for the first time is selected to be pressed continuously, so that the operation is convenient, and the practicability is high.

In one embodiment, the sealing valve 4 comprises a diaphragm 41, and a valve stem 42 is connected to the middle of the diaphragm 41. The membrane 41 is sealed between the reservoir chamber 5 and the outlet passage 14. When the valve rod 42 is moved downwards for a certain distance, the membrane 41 is driven to move or deform, so that the water storage cavity 5 is communicated with the water outlet channel 14.

In one embodiment, the lower end of stem 42 has a plug 421 and a recessed portion 422. In a normal state, the plug 421 penetrates through the central hole of the diaphragm 41 and seals the central hole, and the groove portion 422 is located above the diaphragm 41. The valve stem 42 is movable relative to the central bore of the diaphragm 41. When the valve rod 42 moves downward for a certain distance relative to the central hole of the membrane 41, the plug 421 extends downward out of the central hole, the groove part 422 is positioned in the central hole, and at the moment, the water storage cavity 5 is communicated with the water outlet channel 14.

In one embodiment, as shown in fig. 3 to 5, two opposite sides of the hole wall 311 of the via hole 31 are respectively provided with one limiting portion 32, and the actuating portion 33 is located between the two limiting portions 32.

In one embodiment, as shown in FIGS. 3-4, the stop 32 comprises a resilient plate 321 coupled to the aperture wall 311.

In this embodiment, the elastic plate 321 is integrally disposed on the hole wall 311 and extends into the through hole 31. When the driving block 5 moves down, the elastic plate 321 is pushed open to be deformed. When the driving block 5 moves downwards below the elastic plate 321, the elastic plate 321 resets and blocks the driving block 5, so that the driving block 5 can be limited to move upwards.

In one embodiment, as shown in fig. 3-4, the elastic plate 321 has an elastic plate protrusion 322, and a top surface of the elastic plate protrusion 322 is a protrusion slope 3221.

In this embodiment, the elastic plate protrusion 322 is disposed on the inner side of the elastic plate 321, and the top surface of the elastic plate protrusion 322 is disposed as a protrusion inclined surface 3221, and the protrusion inclined surface 3221 is gradually inclined downward along the extending direction from the outer side to the inner side of the via hole 31. When the driving block 5 moves downwards, it will contact with the inclined surface 3221 of the protrusion, and the elastic plate 321 can be opened by the inclined surface 3221 of the protrusion, which is favorable for the driving block 5 to slide downwards smoothly. When the driving block 5 moves down to the lower part of the elastic plate protrusion 322, the elastic plate 321 drives the elastic plate protrusion 322 to reset and block the driving block 5.

In one embodiment, as shown in fig. 4, the actuator 33 includes a wedge 331 disposed on the hole wall 311, and the top surface of the wedge 331 is a wedge ramp 3311.

In this embodiment, the actuating portion 33 is a wedge 331 mounted inside the aperture wall 311. The top surface of the wedge 331 is a wedge ramp 3311, and the wedge ramp 3311 is gradually inclined downward in a direction extending from the outside to the inside of the via 31. When the driving block 5 moving down from the position-limiting portion 32 contacts the actuating portion 33, the actuating portion 33 acts on the wedge block inclined surface 3311, and the wedge block inclined surface 3311 pushes the sliding plate 3 to slide toward the side where the actuating portion 33 is located, so as to drive the position-limiting portion 32 to leave the upper side of the driving block 5. When the driving block 5 moves upward and returns, the stopper 32 no longer restricts the driving block 5.

In one embodiment, as shown in fig. 6-7 and 11-12, the drive block 5 includes a first active end 51 for engaging the limit stop 32 and a second active end 52 for engaging the actuation portion 33.

The first active end 51 and the second active end 52 are arranged at intervals around the drive block 5. The first acting end 51 and the second acting end 52 are protrusions disposed on the driving block 5, and are convenient to cooperate with the limiting portion 32 and the actuating portion 33 of the sliding plate 3.

In one embodiment, as shown in FIGS. 6-7, the bottom surface of the first action end 51 includes a first sloped surface 511 and the bottom surface of the second action end 52 includes a second sloped surface 521.

The first slope 511 is inclined in the following manner: the first inclined surface 511 is inclined gradually downward in the direction from the first acting end 51 to the stem 32, facilitating the pushing away of the stopper portion 33 to fall below the stopper portion 33.

The second inclined surface 521 is inclined in the following manner: the second inclined surface 521 is inclined gradually downwards in the direction from the second acting end 52 to the valve stem 32, facilitating the pushing away of the actuator 33 to drive the slide plate 3 to move.

In one embodiment, as shown in fig. 9, the water separator housing 1 includes a plurality of independent water outlet channels 14, so that multiple simultaneous water outlets can be realized.

In one embodiment, as shown in fig. 2 and 8-10, a bracket 8 is mounted in the water separator housing 1 above the water storage chamber 15, and the slide plate 3 is slidably fitted in a top groove 81 of the bracket 8, so that the mounting stability of the slide plate 3 is improved.

The button reset 7 may be connected between the bracket 8 and the button 2.

In one embodiment, as shown in fig. 2 and 6-10, the bracket 8 has a guide sleeve 82 thereon, the guide sleeve 82 passing through the through hole 31 of the slide plate 3. The valve stem 42 passes through the guide sleeve 82 and the valve stem 42 is in clearance fit with the guide sleeve 82. The driving block 5 is sleeved on the guide sleeve 82, and the driving block 5 is in clearance fit with the guide sleeve 82.

The bracket 8 is fixed on the housing main body 11, the guide sleeve 82 passes through the through hole 31 of the sliding plate 3, and the guide sleeve 82 does not obstruct the movement of the sliding plate 3. The valve stem 42 passes through the guide sleeve 82 and is in clearance fit with the guide sleeve 82 to help provide guidance for the raising and lowering of the valve stem 42. The driving block 5 is sleeved on the guide sleeve 82 and is in clearance fit with the guide sleeve 82, so that guidance is provided for lifting and lowering of the driving block 5.

In one embodiment, as shown in fig. 6-10, the drive block 5 is fitted at the top with a sliding sleeve 53, and the first and second active ends 51 and 52 are disposed around the lower end of the sliding sleeve 53. The sliding sleeve 53 is fitted over the guide sleeve 82. The valve rod 42 penetrates through the top plate of the sliding sleeve 53, the top plate of the sliding sleeve 53 is fixedly connected with the valve rod 42, and the valve rod 42 can drive the sliding sleeve 53 to lift. The button return 7 is fitted between the sliding sleeve 53 and the guide sleeve 82.

In one embodiment, the sliding sleeve 53 is provided with a guide rail 54, the wall of the through hole of the cover plate 9 is provided with a guide groove, the sliding sleeve 53 passes through the through hole of the cover plate 9, and the guide rail 54 is in clearance fit in the guide groove to provide a guide aid for the lifting of the sliding sleeve 53.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims (10)

1. A water separator is characterized by comprising a water separator shell with a water inlet channel and more than two water outlet channels and a sliding plate with more than two through holes;

a water storage cavity is arranged between the water inlet channel and each water outlet channel;

the sliding plate is slidably arranged in the water knockout vessel shell, and a sliding plate resetting piece is arranged in the water knockout vessel shell;

a sealing valve is arranged in each water storage cavity, a valve rod of each sealing valve penetrates through one through hole and is connected with a button arranged on the water distributor shell, and a button resetting piece is arranged in the water distributor shell;

each valve rod is connected with a driving block capable of sliding up and down in the through hole, the hole wall of each through hole is provided with a limiting part and an actuating part, and the actuating part is positioned below the limiting part;

when the driving block is positioned below the limiting part and limited by the limiting part, the driving block is separated from the actuating part; when the driving block is matched with the actuating part, the sliding plate moves and drives the limiting part to be separated from the driving block.

2. The water separator according to claim 1, wherein one of the limiting portions is disposed on each of two opposite sides of the wall of the through hole, and the actuating portion is disposed between the two limiting portions.

3. The diverter of claim 1, wherein the stop comprises a resilient plate coupled to the aperture wall.

4. The water knockout vessel of claim 3, wherein the resilient plate has a resilient plate tab thereon, and wherein a top surface of the resilient plate tab is a tab ramp.

5. The water diverter of claim 1, wherein the actuating portion comprises a wedge disposed on the aperture wall, a top surface of the wedge being a wedge ramp.

6. The diverter of claim 1, wherein the drive block includes a first active end for engaging the stop portion and a second active end for engaging the actuating portion.

7. The diverter of claim 6, wherein the bottom surface of the first active end comprises a first ramp and the bottom surface of the second active end comprises a second ramp.

8. The diverter according to any one of claims 1-7, wherein the diverter housing includes a plurality of the outlet channels independent of one another.

9. A diverter according to any one of claims 1 to 7, wherein a bracket is mounted in the diverter housing above the reservoir chamber, the slide plate being slidably fitted in a top recess of the bracket.

10. The diverter of claim 9, wherein the bracket has a guide sleeve thereon, the guide sleeve passing through the aperture;

the valve rod penetrates through the guide sleeve, and the valve rod is in clearance fit with the guide sleeve;

the driving block is sleeved on the guide sleeve, and the driving block is in clearance fit with the guide sleeve.

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