CN108708442B

CN108708442B - Water replenishing device structure for improving overflow

Info

Publication number: CN108708442B
Application number: CN201810565330.3A
Authority: CN
Inventors: 周洪文; 王志忠; 蓝晨龙; 王兴东
Original assignee: Xiamen R&T Plumbing Technology Co Ltd
Current assignee: Xiamen R&T Plumbing Technology Co Ltd
Priority date: 2018-06-04
Filing date: 2018-06-04
Publication date: 2024-04-16
Anticipated expiration: 2038-06-04
Also published as: CN108708442A

Abstract

The invention discloses a water replenishing device structure for improving overflow, which comprises a water replenishing body, wherein the water replenishing body is provided with a water inlet and a water outlet, the water inlet is communicated with a water replenishing inlet pipe, water flow from the water outlet flows into an overflow pipe and out of the overflow pipe in a splitting way, and the overflow pipe guides the water flow into a toilet water seal for replenishing water, so that under the condition that the water replenishing proportion of the overflow pipe supplied by the water inlet valve is not changed, matched water replenishing quantity is obtained by splitting the water replenishing flow, the structure is simpler and more reliable, the influence of water pressure fluctuation of a water supply source on the water replenishing quantity is greatly reduced, the water replenishing quantity is more stable, and the water replenishing quantity is more convenient and reliable to adjust; and the water supplementing body is also provided with a gas blocking structure for reducing the air quantity from the water supplementing body when the overflow pipe overflows, so that the air quantity entering the overflow pipe can be further reduced, and the overflow effect is improved.

Description

Water replenishing device structure for improving overflow

Technical Field

The invention relates to a water compensator structure for improving overflow.

Background

Most of the existing toilets can properly supplement water to the water seal through the water supplementing device after flushing, so that the water seal water quantity is enough to prevent odor in the sewage draining pipe from being leaked from the sewage draining outlet of the toilet to pollute indoor air. The existing water replenishing device generally comprises a water inlet and a water outlet, water at the water outlet flows to a closestool through an overflow pipe to replenish water for a water seal of the closestool, the water inlet is generally connected with a water replenishing port of a water inlet valve through a water replenishing hose, when overflow occurs, if the water replenishing hose is pulled out of the water replenishing port of the water inlet valve, the water inlet of the water replenishing device has a suction phenomenon, and gas sucked by the water replenishing device flows into an overflow pipe to cause poor overflow capacity of the overflow pipe.

Disclosure of Invention

The present invention is directed to solving the above-mentioned problems, and provides a water compensator structure for improving overflow, which reduces the amount of air entering the overflow pipe by providing a gas blocking structure, thereby improving the overflow effect.

The invention adopts the technical scheme that:

the utility model provides an improve moisturizing ware structure of overflow, includes moisturizing body (11), moisturizing body (11) are equipped with water inlet (111) and delivery port (112), water inlet (111) are put through with moisturizing inlet tube, the rivers reposition of redundant personnel of delivery port (112) are flowed into overflow pipe (20) and outside overflow pipe (20), overflow pipe (20) are leading into the closestool water seal with the rivers and are moisturizing; and, the moisturizing body (11) is also provided with a gas blocking structure for reducing the air quantity from the moisturizing body (11) when the overflow pipe (20) overflows.

Preferably, the water replenishing body (11) is further provided with a water tank water outlet channel (1121) and a water replenishing water outlet channel (1122) which are communicated with the water outlet (112); when replenishing water, the water of the water outlet (112) flows into the water tank through the water tank water outlet channel (1121) and/or flows into the overflow pipe through the water replenishing water outlet channel (1122).

Further, a communication port (1120) is arranged between the water tank water outlet channel (1121) and the water replenishing water outlet channel (1122); when overflow, water in the water tank flows to the water replenishing outlet channel (1122) through the water tank outlet channel (1121) and the communication port (1120), the water flow of the communication port (1120) forms a barrier to reduce the air amount from the water replenishing body (11) into the overflow pipe (20), and the communication port (1120) forms the air blocking structure.

Further, an outlet of the water supplementing and discharging channel (1122) is arranged in the overflow pipe, the water supplementing and discharging channel (1122) is separated from the inner cavity of the overflow pipe through a longitudinal partition plate (15), and the longitudinal partition plate (15) forms the air blocking structure.

Further, a space L is arranged between the bottom end of the longitudinal partition plate (15) and the overflow port of the overflow pipe, and the space L is more than or equal to 10mm.

Preferably, the air blocking structure adopts a first one-way valve (1110) arranged on the water inlet (111), the first one-way valve (1110) is in a normally closed state, and the first one-way valve (1110) is opened under the action of water inlet pressure when the water inlet (111) is filled with water.

Preferably, the air blocking structure adopts a water absorbing channel (113) communicated with the water outlet (112), and a second one-way valve (1130) is arranged on the water absorbing channel (113); the second one-way valve (1130) is normally closed; when overflowed, the water in the water tank pushes the second one-way valve (1130) open the water suction channel (113), and the water in the water tank flows to the overflow pipe (20) through the water suction channel (113) and the water outlet (112).

Preferably, the flow area of the water outlet (112) into the overflow pipe (20) and out of the overflow pipe (20) is adjustable, and the flow dividing ratio of the water flow of the water outlet (112) into the overflow pipe (20) and out of the overflow pipe (20) is adjusted by adjusting the ratio of the flow area into the overflow pipe (20) to the flow area out of the overflow pipe (20).

Further, the water supplementing body (11) is provided with a water supplementing adjusting cavity (114) communicated with the water inlet (111) and the water outlet (112), an adjusting valve core (12) is arranged in the water supplementing adjusting cavity (114), and the proportion of the flow area of the water outlet (112) to the inside of the overflow pipe (20) and the outside of the overflow pipe (20) is adjusted through the adjusting valve core (12).

Still further, the top of moisturizing body (11) be equipped with moisturizing regulation chamber (114) be linked together the opening, adjust case (12) from this opening packing into in moisturizing regulation chamber (114), and be equipped with opening matched with gland (14), gland (14) with moisturizing body (11) fixed connection will adjust case (12) spacing in moisturizing regulation chamber (114).

The beneficial effects of the invention are as follows:

(1) According to the invention, by arranging the air blocking structure, the external air sucked into the overflow pipe through the water supplementing body can be greatly reduced, so that the influence of the external air on the overflow effect of the overflow pipe is reduced, and the overflow effect is better.

(2) The invention adopts the connecting port or the longitudinal partition board or the first one-way valve or the water absorption channel provided with the second one-way valve as the gas blocking structure, and has simple structure, reliable function and good effect.

(3) According to the water replenishing device, under the condition that the water replenishing through-flow section is not changed, namely, the water replenishing proportion of the overflow pipe supplied by the water inlet valve is not changed, the matched water replenishing quantity is obtained by splitting the water replenishing flow, so that the structure is simpler and more reliable, the influence of water pressure fluctuation of the water supply source on the water replenishing quantity is greatly reduced, and the water replenishing quantity is more stable;

(4) The diversion proportion of the water supplementing water flow can be adjusted, so that the water supplementing device can randomly adjust the water supplementing quantity according to the needs, and the water supplementing device has good general distribution and wide application range.

(5) The water replenishing device comprises a water replenishing body, a water replenishing adjusting cavity and an adjusting valve core, the proportion of the water outlet to the inside of the overflow pipe and the proportion of the water outlet to the flow area outside the overflow pipe are adjusted through the adjusting valve core, and the water replenishing device is simple in structure and convenient to adjust.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

FIG. 1 is a schematic diagram showing an exploded structure of a water replenishment device and an overflow pipe according to a first embodiment of the present invention;

FIG. 2 is a schematic diagram showing an assembly structure of a water refill according to a first embodiment of the present invention;

FIG. 3 is a sectional view showing an assembled structure of a water replenishment device and an overflow pipe according to a first embodiment of the present invention;

FIG. 4 is a cross-sectional view showing a water replenishing state of a water replenishing device according to a first embodiment of the present invention;

FIG. 5 is a cross-sectional view showing an overflow state of the structure of the water replenishment device according to the first embodiment of the present invention;

FIG. 6 is a sectional view showing an assembled structure of a water replenishment device and an overflow pipe according to a second embodiment of the present invention;

FIG. 7 is a cross-sectional view showing a water replenishing state of a water replenishing device according to a third embodiment of the present invention;

fig. 8 is a sectional view showing an overflow state of a water replenishment structure according to a fourth embodiment of the present invention.

In the figure:

10-a water supplementing device;

11-a moisturizing body;

111-water inlet; 1110-a first one-way valve;

112-water outlet; 1121-a tank outlet passage; 1122-water replenishing outlet channel; 1120—a communication port;

113-a water absorption channel; 1130-a second one-way valve;

114-a water replenishing regulating cavity;

12-adjusting the valve core; 122-a through-flow port;

13-connecting sleeves; 131-elasticity a buckle;

14-capping; 141-indicating the scale;

15-longitudinal separator plates;

20-overflow pipe; 21-an annular flange.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear and obvious, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

First embodiment (gas-barrier Structure formed by communication ports)

The invention relates to a water replenishing device structure for improving overflow, which comprises a water replenishing body 11, wherein the water replenishing body 11 is provided with a water inlet 111 and a water outlet 112, the water inlet 111 is communicated with a water replenishing inlet pipe (not shown), water flow from the water outlet 112 is shunted into an overflow pipe 20 and out of the overflow pipe 20, and the overflow pipe 20 guides water flow into a toilet water seal for water replenishing; the water replenishing body 11 is further provided with a gas blocking structure for reducing the air amount from the water replenishing body 11 when the overflow pipe 20 overflows, wherein the external air from the water replenishing body 11 can enter the water replenishing body 11 through the water inlet 111 and/or the water outlet 112.

As shown in fig. 3, in this embodiment, the water replenishing body 11 is further provided with a water tank outlet channel 1121 and a water replenishing outlet channel 1122, which are communicated with the water outlet 112; a communication port 1120 is provided between the tank outlet passage 1121 and the refill outlet passage 1122.

As shown in fig. 4, when water is replenished, water of the water replenishing inlet pipe enters from the water inlet 111 and is split at the water outlet 112; the water from the water outlet 112 flows partly into the water tank via the water tank outlet channel 1121 and partly into the overflow pipe via the water replenishment outlet channel 1122, or can be adjusted so that, when replenishing water, the water from the water outlet 112 flows completely into the water tank via the water tank outlet channel 1121, i.e. when no water is actually replenished into the toilet bowl; alternatively, the water from the water outlet 112 may be entirely supplied to the overflow pipe 20 via the water supply outlet passage 1122 during water supply, and may be adjusted as needed.

As shown in fig. 5, when overflowing, water in the water tank flows into the water replenishing outlet passage 1122 and the overflow pipe 20 through the water tank outlet passage 1121 and the communication port 1120, the water flow of the communication port 1120 forms a barrier to reduce the amount of air from the water replenishing body 11 into the overflow pipe 20, and the communication port 1120 forms the air barrier structure. Due to the existence of the communication port 1120, water in the water tank can flow to the water replenishing and discharging channel 1122 through the water tank discharging channel 1121, on one hand, the overflow amount is increased, and on the other hand, the water replenishing and discharging channel 1122 is reduced, because negative pressure is sucked from the water inlet 111, the water flow of the communication port 1120 forms water resistance to block the gas sucked from the water inlet 111, so that the influence of the air flow on the overflow effect of the overflow pipe 20 is greatly reduced.

In this embodiment, the water inlet 111 is connected to a water inlet valve disposed in the water tank through a water supplementing inlet pipe (not shown), the water supplementing inlet pipe is a hose, the water flow of the water supplementing inlet pipe is controlled to be on-off through the water inlet valve, and the water of the water supplementing inlet pipe enters from the water inlet 111 and is split at the water outlet 112; during diversion, according to the preset diversion ratio, a part of water flows into the overflow pipe 20 through the water replenishing outlet channel 1122 to replenish water for the toilet water seal, and the other part of water flows to the toilet water tank outside the overflow pipe 20 through the water tank outlet channel 1121 for flushing or flows into other components for hydraulic control and the like. The water replenishing device obtains the matched water replenishing quantity by the water replenishing flow splitting way under the condition that the water replenishing through-flow section is not changed, namely, the water replenishing proportion of the water inlet valve to the overflow pipe 20 is not changed, so that the structure is simpler and more reliable, the influence of water pressure fluctuation of the water supply source on the water replenishing quantity is greatly reduced, and the water replenishing quantity is more stable.

In order to adjust the split ratio as needed after the product leaves the factory, it is preferable to design the split ratio of the water replenishment device to be adjustable, that is, the flow area of the water outlet 112 into the overflow pipe 20 and out of the overflow pipe 20 is adjustable, and the split ratio of the water flow from the water outlet 112 into the overflow pipe 20 and out of the overflow pipe 20 is adjusted by adjusting the ratio of the flow area into the overflow pipe 20 to the flow area out of the overflow pipe 20.

In this embodiment, the water replenishing body 11 is provided with a water replenishing adjusting cavity 114 communicated with the water inlet 111 and the water outlet 112, and an adjusting valve core 12 is disposed in the water replenishing adjusting cavity 114, the adjusting valve core 12 can be driven by a driving device, the proportion of the flow area of the water outlet 112 to the inside of the overflow pipe 20 and the outside of the overflow pipe 20 is adjusted by the adjusting valve core 12, the driving device is a knob, the knob and the adjusting valve core 12 can be integrally formed or separately formed and then fixed together, the knob drives the adjusting valve core 12 to move, the adjusting valve core 12 can adopt a rotary or sliding structure, the adjusting valve core 12 is rotationally adjusted in this embodiment, and of course, the knob can be omitted, and a part of the adjusting valve core 12 is exposed out of the water replenishing adjusting cavity 114 for a person to directly operate the adjusting valve core 12. As one of the preferred embodiments, the regulating valve core 12 includes a regulating plate, the water outlet 112 is formed at a through-flow port 122 provided on the regulating plate, and the water flow is split by using the relative positional relationship between the through-flow port 122 and the overflow pipe 20; operating the regulator valve spool 12 causes the regulator valve spool 12 to switch between: the overflow port 122 is staggered from the overflow pipe 20 so that the water replenishing device does not replenish water, the overflow port 122 corresponds to the overflow pipe 20 so that the water replenishing device supplements water greatly, and part of the overflow port 122 corresponds to the overflow pipe 20 so that the water replenishing device supplements water little. In addition, the adjusting valve core 12 can also adopt a swing type guide plate to split, and the guide plate swings left and right to lead all or part of water flow into the overflow pipe 20.

In this embodiment, the water replenishing device is fixedly attached above the overflow pipe 20, and the overflow pipe 20 may be fixedly connected with the drain valve or may be independently disposed on the water tank. In this embodiment, an opening communicating with the water replenishing adjusting cavity 114 is provided at the top of the water replenishing body 11, the adjusting valve core 12 is installed in the water replenishing adjusting cavity 114 from the opening, and a gland 14 matched with the opening is provided, and the gland 14 is fixedly connected with the water replenishing body 11 to limit the adjusting valve core 12 in the water replenishing adjusting cavity 114; in this embodiment, the gland 14 is fastened and fixed with the water replenishing body 11 through a fastening structure, and an indication scale 141 for indicating the rotation angle of the knob is further provided on the top surface of the gland 14. The water replenishing body 11 is fixedly connected with a connecting sleeve 13, the connecting sleeve 13 is in sleeve joint fit with the top of the overflow pipe 20, and the inner cavity of the connecting sleeve 13 is communicated with the inner cavity of the overflow pipe, in the embodiment, an elastic buckle 131 is arranged on the connecting sleeve 13, an annular flange 21 is arranged on the top of the overflow pipe 20, and the connecting sleeve 13 is fixedly connected with the top of the overflow pipe through the clamping fit of the elastic buckle 131 and the annular flange 21; in this embodiment, the connecting sleeve 13 is integrally formed with the water replenishing body 11; the water flow at the water outlet 112 of the water replenishing body 11 is split into the inner cavity of the connecting sleeve 13 and the outside of the connecting sleeve 13, and then flows into the inner cavity of the overflow pipe 20 and the outside of the overflow pipe 20 respectively.

Second embodiment (gas-blocking Structure formed by Water inlet check valve)

As shown in fig. 6, the main difference between this embodiment and the first embodiment is that: in this embodiment, the air blocking structure adopts a first check valve 1110 disposed on the water inlet 111, the first check valve 1110 is in a normally closed state, and the first check valve 1110 is opened under the action of water inlet pressure when the water inlet 111 is in water inlet.

In this embodiment, the first check valve 1110 uses a blocking ball. During overflow, the blocking ball is positioned at the lower position and blocks the water inlet 111, so that air flow cannot enter the water outlet 112 from the water inlet 111, the influence of the air flow from the water supplementing body 11 on overflow water is reduced, and the overflow capacity of the overflow pipe 20 is improved.

Third embodiment (gas-barrier Structure formed by longitudinal partition plates and Water-discharge spacing)

As shown in fig. 7, the main difference between this embodiment and the first embodiment is that: in this embodiment, the connecting sleeve 13 is in sleeved fit with the top of the overflow pipe 20, the inner cavity of the connecting sleeve 13 is communicated with the inner cavity of the overflow pipe 20, the connecting sleeve 13 is used as a part of the overflow pipe 20, that is, the top opening of the connecting sleeve 13 forms the overflow port of the overflow pipe 20, and water in the water tank flows into the inner cavity of the connecting sleeve 13 from the top opening of the connecting sleeve 13 and then flows into the inner cavity of the overflow pipe 20.

In this embodiment, the outlet of the water replenishing outlet passage 1122 is disposed in the overflow pipe 20, the water replenishing outlet passage 1122 is separated from the inner cavity of the overflow pipe 20 by a longitudinal partition 15, and the longitudinal partition 15 forms the air blocking structure. The present embodiment reduces the influence of the air flow from the water outlet 112 on the flow of overflow water by providing the longitudinal partition 15 between the water replenishment water outlet passage 1122 and the overflow port.

Preferably, as shown in fig. 7, a space L is provided between the bottom end of the longitudinal partition 15 and the overflow port (top end opening of the connecting sleeve 13) of the overflow pipe 20, the distance L is greater than or equal to 10mm, and in this embodiment, the longitudinal partition 15 is formed by the water replenishing outlet channel 1122 corresponding to the side wall of the inner cavity of the overflow pipe 20.

Of course, in this embodiment, instead of providing the longitudinal partition 15, other structures may be adopted to enable the water replenishing and discharging channel 1122 to extend into the overflow pipe, and a space L is provided between the outlet of the water replenishing and discharging channel 1122 and the overflow port of the overflow pipe 20, where the space L is greater than or equal to 10mm, so as to form the air blocking structure, and further reduce air blocking formed at the overflow port to improve the overflow efficiency.

Fourth embodiment (formation of a gas-barrier Structure Using Water-absorbing channel)

As shown in fig. 8, the main difference between this embodiment and the first embodiment is that: in this embodiment, the air blocking structure adopts a water absorbing channel 113 that is communicated with the water outlet 112, and a second one-way valve 1130 is disposed on the water absorbing channel 113; the second check valve 1130 is normally closed; when overflowed, the water in the tank pushes the second check valve 1130 open the water suction passage 113, and the water in the tank flows to the overflow pipe 20 via the water suction passage 113 and the water outlet 112. Therefore, the water flow of the water suction passage 113 can also form a water resistance, blocking the gas sucked from the water inlet 111, thereby greatly reducing the influence of the air flow on the overflow effect of the overflow pipe 20.

It should be noted that the water replenishing device of the invention can be used with a single-discharge drain valve to execute a single-discharge water replenishing scheme; or, can also cooperate the double volume drain valve to use, carry out double moisturizing scheme, each embodiment of above-mentioned is equipped with two moisturizing ware in order to control the moisturizing amount of drain valve big, little row respectively, the moisturizing body 11 integrated into one piece of two moisturizing ware, still be provided with big or small row moisturizing switching mechanism (not shown) simultaneously for when the drain valve is big row, the moisturizing rivers flow to one of them big row of moisturizing of control moisturizing ware through big or small row moisturizing switching mechanism, when the drain valve is little row, the moisturizing rivers flow to one of them another little row of control moisturizing ware through big or small row moisturizing switching mechanism, thereby can realize big, little row moisturizing mutually independent, do not influence each other, it is convenient to adjust.

While the foregoing description illustrates and describes the preferred embodiments of the present invention, as aforesaid, it is to be understood that the invention is not limited to the forms disclosed herein but is not to be construed as excluding other embodiments, and is capable of use in various other combinations, modifications and environments and is capable of modifications that are within the scope of the inventive concept described herein, either by the foregoing teachings or by the art or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims

1. The utility model provides an improve moisturizing ware structure of overflow, includes moisturizing body (11), moisturizing body (11) are equipped with water inlet (111) and delivery port (112), water inlet (111) are put through with moisturizing inlet tube, and moisturizing inlet tube is connected with the water intaking valve that locates in the water tank, and characterized in that, the rivers reposition of redundant personnel of delivery port (112) are flowed into overflow pipe (20) and outside overflow pipe (20), overflow pipe (20) are with the water guide toilet water seal to carry out moisturizing; the water supplementing body (11) is also provided with a gas blocking structure for reducing the air quantity from the water supplementing body (11) when the overflow pipe (20) overflows; the water supplementing body (11) is also provided with a water tank water outlet channel (1121) and a water supplementing water outlet channel (1122) which are communicated with the water outlet (112); a communication port (1120) is arranged between the water tank water outlet channel (1121) and the water supplementing water outlet channel (1122); when overflowed, water in the water tank flows to the water supplementing and discharging channel (1122) through the water tank water discharging channel (1121) and the communication port (1120), the water flow of the communication port (1120) forms a barrier to reduce the amount of air from the water replenishment body (11) into the overflow pipe (20), the communication port (1120) forming the air barrier structure.

2. The utility model provides an improve moisturizing ware structure of overflow, includes moisturizing body (11), moisturizing body (11) are equipped with water inlet (111) and delivery port (112), water inlet (111) are put through with moisturizing inlet tube, and moisturizing inlet tube is connected with the water intaking valve that locates in the water tank, and characterized in that, the rivers reposition of redundant personnel of delivery port (112) are flowed into overflow pipe (20) and outside overflow pipe (20), overflow pipe (20) are with the water guide toilet water seal to carry out moisturizing; the water supplementing body (11) is also provided with a gas blocking structure for reducing the air quantity from the water supplementing body (11) when the overflow pipe (20) overflows; the water supplementing body (11) is also provided with a water tank water outlet channel (1121) and a water supplementing water outlet channel (1122) which are communicated with the water outlet (112); the outlet of the water supplementing and discharging channel (1122) is arranged in the overflow pipe (20), the water supplementing and discharging channel (1122) is separated from the inner cavity of the overflow pipe (20) through a longitudinal partition plate (15), and the longitudinal partition plate (15) forms the air blocking structure.

3. A water refill structure for improving overflow as claimed in claim 2, wherein: a space L is arranged between the bottom end of the longitudinal partition plate (15) and the overflow port of the overflow pipe (20), and the space L is more than or equal to 10mm.

4. The utility model provides an improve moisturizing ware structure of overflow, includes moisturizing body (11), moisturizing body (11) are equipped with water inlet (111) and delivery port (112), water inlet (111) are put through with moisturizing inlet tube, and moisturizing inlet tube is connected with the water intaking valve that locates in the water tank, and characterized in that, the rivers reposition of redundant personnel of delivery port (112) are flowed into overflow pipe (20) and outside overflow pipe (20), overflow pipe (20) are with the water guide toilet water seal to carry out moisturizing; the water supplementing body (11) is also provided with a gas blocking structure for reducing the air quantity from the water supplementing body (11) when the overflow pipe (20) overflows; the air blocking structure adopts a first one-way valve (1110) arranged on the water inlet (111), the first one-way valve (1110) is in a normally closed state, and the first one-way valve (1110) is opened under the action of water inlet pressure when the water inlet (111) is filled with water.

5. The utility model provides an improve moisturizing ware structure of overflow, includes moisturizing body (11), moisturizing body (11) are equipped with water inlet (111) and delivery port (112), water inlet (111) are put through with moisturizing inlet tube, and moisturizing inlet tube is connected with the water intaking valve that locates in the water tank, and characterized in that, the rivers reposition of redundant personnel of delivery port (112) are flowed into overflow pipe (20) and outside overflow pipe (20), overflow pipe (20) are with the water guide toilet water seal to carry out moisturizing; the water supplementing body (11) is also provided with a gas blocking structure for reducing the air quantity from the water supplementing body (11) when the overflow pipe (20) overflows; the air blocking structure adopts a water absorbing channel (113) communicated with the water outlet (112), and a second one-way valve (1130) is arranged on the water absorbing channel (113); the second one-way valve 1130) is normally closed; when overflowed, the water in the water tank pushes the second one-way valve (1130) open the water suction channel (113), and the water in the water tank flows to the overflow pipe (20) through the water suction channel (113) and the water outlet (112).

6. A water refill structure for improving overflow according to claim 1 or 2 or 4 or 5, wherein: the flow area of the water outlet (112) which is communicated into the overflow pipe (20) and is communicated with the outside of the overflow pipe (20) can be adjusted, and the flow dividing proportion of the water flow of the water outlet (112) which flows into the overflow pipe (20) and flows out of the overflow pipe (20) can be adjusted by adjusting the ratio of the flow area which is communicated into the overflow pipe (20) to the flow area which is communicated out of the overflow pipe (20).

7. The water refill structure for improving overflow according to claim 6, wherein: the water supplementing body (11) is provided with a water supplementing adjusting cavity (114) communicated with the water inlet (111) and the water outlet (112), an adjusting valve core (12) is arranged in the water supplementing adjusting cavity (114), and the proportion of the flow area of the water outlet (112) to the inside of the overflow pipe (20) and the outside of the overflow pipe (20) is adjusted through the adjusting valve core (12).

8. The water refill structure for improving overflow according to claim 7, wherein: the top of moisturizing body (11) be equipped with the opening that moisturizing regulation chamber (114) are linked together, regulation case (12) are packed into from this opening in moisturizing regulation chamber (114), and be equipped with opening matched with gland (14), gland (14) with moisturizing body (11) fixed connection is in order to with regulation case (12) are spacing in moisturizing regulation chamber (114).