CN104790482A - Water division mechanism for reducing energy consumption and noise and toilet bowl - Google Patents

Abstract

Disclosed are a water division mechanism for reducing energy consumption and noise and a toilet bowl. The water division mechanism comprises a water division body, the water division body is provided with a water inlet, at least two water outlets and a water division cavity, and the water inlet and the water outlets are communicated with the water division cavity. A first one-way valve assembly and a second one-way valve assembly in the water division cavity are further included, the first one-way valve assembly is opposite to the water inlet to open or seal the water inlet, and the second one-way valve assembly is opposite to one water outlet to open or seal the corresponding water outlet. According to the water division mechanism and the toilet bowl, when the water inlet is sealed, one water outlet is isolated from outside air, a pipeline communicated with the corresponding water outlet does not need to be filled with water at the next water input time, and therefore energy losses in the flowing process of water can be greatly reduced. Meanwhile, air in the pipeline communicated with the corresponding water outlet is greatly reduced, and the noise is reduced.

Description

A kind of hydroseparator structure and toilet reducing energy consumption and noise

Technical field

The present invention relates to sanitaryware field, particularly a kind of hydroseparator structure and toilet reducing energy consumption and noise.

Background technology

As shown in Figure 1 and Figure 2, be the existing toilet flushing machine of one, this flushing machine can be converted into the hydraulic pressure energy of pipeline the elastic potential energy of spring.After flushing machine valve open, the water stored in water tank is extruded by Compress Spring, enter hydroseparator structure and be divided into two strands of water, one water enters lavatory seat and scrubs, and another strand of water enters and sprays water channel (or being called secondary water channel) and carry out injection and wash away.As shown in Figure 3, communicate with ambient atmosphere owing to spraying water channel, therefore after current have washed away toilet body, spray water channel and there is highly identical waterline (law of connected vessels) with water seal, namely spray water channel and be full of air more than this waterline.And flushing machine is again after draining, flush water first will be driven away and be sprayed water channel part air and then enter blow-off line.So in this case, the transmission of energy exists loss greatly, and be full of in the process of spraying water channel, part water can overflow from the peak of toilet trap and form waste.In addition, water under high pressure enters air, then enters water channel, makes the flowing of water mix too many air thus produces larger noise.

Summary of the invention

Main purpose of the present invention is to overcome above-mentioned shortcoming of the prior art, proposes a kind of the hydroseparator structure and the toilet that reduce energy consumption and noise.

The present invention adopts following technical scheme:

A kind of hydroseparator structure reducing energy consumption and noise, comprise a point water body, this point of water body is provided with a water inlet, at least two delivery ports and one point of water cavity, this water inlet and delivery port are all communicated with a point water cavity, it is characterized in that: also comprise and be arranged at the first check valve assembly in point water cavity and the second check valve assembly, this first check valve assembly and water inlet are oppositely arranged with this water inlet of opening and closing of fault, and the second check valve assembly and wherein a delivery port are oppositely arranged with this delivery port of opening and closing of fault.

Preferably, described first check valve assembly is provided with one and is sheathed on gangbar on described second check valve assembly, to make the described delivery port corresponding with the second check valve assembly synchronous opening and closing of fault together with described water inlet.

Preferably, described first check valve assembly comprises one first plug and a gangbar, relative with described water inlet bottom first plug, first plug side is provided with described gangbar, first plug top has upwards extended to form one first guide peg, and described point of water body correspondence offers accommodation and the first chute of this first guide peg spacing.

Preferably, described second check valve assembly comprises one second plug and one second guide peg, delivery port with described bottom this second plug is relative, this second guide peg is connected with the second plug top, this second guide peg is also formed with back-up ring near the periphery at the second plug top, and this back-up ring and this second plug top are formed with the dead slot holding described gangbar; Described point of water body correspondence offers accommodation and the second chute of this second guide peg spacing.

Preferably, described point of water cavity comprises one first chamber, a connected entrance and the second chamber, and this connected entrance is communicated with the first chamber and the second chamber; The described delivery port relative with the second check valve assembly is communicated with this second chamber; Described second check valve assembly to be arranged in this second chamber and can to open connected entrance and the delivery port relative with described second one way valve to open and being communicated with of the first chamber simultaneously, or closes connected entrance and the delivery port relative with described second one way valve to close and being communicated with of the first chamber simultaneously; This first chamber is communicated with other delivery port with described water inlet, and described first check valve assembly is positioned at this first chamber.

Preferably, described first check valve assembly comprises one first plug, relative with described water inlet bottom first plug, the first plug top has upwards extended to form one first guide peg, and described point of water body correspondence offers accommodation and the first chute of this first guide peg spacing.

Preferably, described second check valve assembly comprises one first valve block and one second valve block, and described first valve block is positioned at described connected entrance place, and its one end is flexibly connected with described second cavity wall, and the other end is connected with bottom described second valve block; This second valve block is positioned at above described relative with the second check valve assembly delivery port, and its one end is flexibly connected with described second cavity wall.

Preferably, described first check valve assembly comprises one first valve block and the second valve block, this first valve block is positioned at above water inlet and its one end and is flexibly connected with opening and closing of fault water inlet with described point of water cavity inwall, second valve block is positioned at above another delivery port and its one end and is flexibly connected with described point of water cavity inwall, and described point of water cavity inwall is also respectively equipped with the stop recess of this first valve block other end spacing and the second valve block other end.

Preferably, described second check valve assembly comprises a moving casing, and described point of water body correspondence is provided with this moving casing spacing and the chute be slidably matched, and this chute is be arranged at vertically directly over described relative with the second check valve assembly delivery port.

Preferably, described moving casing comprises pipe and an outer tube in one, the equal opening in top of this outer tube and interior pipe, and the bottom end seal of this interior pipe and outer tube is also connected with a base plate, this base plate can be relative with the second check valve assembly described in opening and closing of fault delivery port, this outer tube is limited in described chute.

Preferably, two delivery ports are included.

There is the toilet of the hydroseparator structure reducing energy consumption and noise, comprise flushing machine, spray water channel and seat ring water channel, it is characterized in that: also include the hydroseparator structure that above-mentioned any reduces energy consumption and noise, wherein, described water inlet is connected with the drainage pipe of this flushing machine, one delivery port connects seat ring water channel, and the described delivery port relative with the second check valve assembly is connected with described injection water channel.

From the above-mentioned description of this invention, compared with prior art, the present invention has following beneficial effect:

1, the present invention arranges the first check valve assembly and the second check valve assembly in point water cavity, be respectively used to opening and closing of fault water inlet and a wherein delivery port, with when closed water inlet, by this, wherein a delivery port and outside air are isolated, when making to intake next time, without the need to refilling the pipeline be communicated with this delivery port, like this, not only the energy loss of water in flow process can significantly be reduced; Meanwhile, substantially reduce the number the gas in the pipeline that is communicated with this delivery port, suitably reduce noise;

2, the first check valve assembly of the present invention and the second valve block assembly can be arranged to the structure of linkage structure or each self-separation be connected to each other, first check valve assembly can rise or fall under water under high pressure or Action of Gravity Field, second check valve assembly can rise or fall under the first check valve assembly or hydraulic pressure or buoyancy, implementation is various, can set according to actual needs;

3, the water inlet of hydroseparator structure is connected the drainage pipe of flushing machine by toilet of the present invention, the delivery port relative with the second check valve assembly is connected and sprays water channel, another delivery port is connected seat ring water channel, not only significantly can reduce the energy loss of water in flow process, also water can be avoided when filling injection water channel, and part water overflows from stench trap highest point and causes waste; Meanwhile, reduce in a large number owing to spraying gas in water channel, the gas that water mixes in flow process reduces, and therefore suitably can reduce noise.

Accompanying drawing explanation

Fig. 1 is prior art toilet sectional drawing;

Fig. 2 is prior art hydroseparator structure schematic diagram;

Fig. 3 is prior art toilet water level schematic diagram;

Fig. 4 is the hydroseparator structure view (closedown water inlet) of the embodiment of the present invention one;

Fig. 5 is the hydroseparator structure view (unlatching water inlet) of the embodiment of the present invention one;

Fig. 6 is the toilet sectional drawing (water level signal) of the embodiment of the present invention one;

Fig. 7 is the hydroseparator structure view (closedown water inlet) of the embodiment of the present invention two;

Fig. 8 is the hydroseparator structure view (unlatching water inlet) of the embodiment of the present invention two;

Fig. 9 is the toilet sectional drawing (water level signal) of the embodiment of the present invention two;

Figure 10 is the hydroseparator structure view (closedown water inlet) of the embodiment of the present invention three;

Figure 11 is the hydroseparator structure view (unlatching water inlet) of the embodiment of the present invention three;

Figure 12 is the toilet sectional drawing (water level signal) of the embodiment of the present invention three.

Detailed description of the invention

Below by way of detailed description of the invention, the invention will be further described.

Embodiment one

With reference to Fig. 4, Fig. 5, a kind of hydroseparator structure reducing energy consumption and noise, comprises a point water body 10, and this point of water body 10 is provided with water inlet 11, two delivery port 12 and one point of water cavity 13, and this water inlet 11 and two delivery ports 12 are all communicated with a point water cavity 13.The first check valve assembly 20 and the second check valve assembly 30 is also provided with in point water cavity 13, this first check valve assembly 20 is oppositely arranged with this water inlet 11 of opening and closing of fault with water inlet 11, second check valve assembly 30 and wherein a delivery port 12 are oppositely arranged with this delivery port 12 of opening and closing of fault, this first check valve assembly 20 and second check valve assembly 30 synchronous interaction.

Wherein, the first check valve assembly 20 comprises and is provided with sealing ring bottom one first plug 21 and gangbar 22, first plug 21 and relative with water inlet 11, and the first plug 21 side connects gangbar 22.First plug 21 top has upwards extended to form one first guide peg 23, water body 10 correspondence is divided to offer accommodation and the first chute 14 of this first guide peg 23 spacing, this the first chute 14 is positioned at the top of point water cavity 13, and the first guide peg 23 vertically can slide and open or cut out water inlet 11 in this first chute 14.

Second check valve assembly 30 comprises one second plug 31 and one second guide peg 32, sealing ring is provided with and the delivery port 12 relative with the second check valve assembly 30 with delivery port 12(bottom this second plug 31) relatively, this second guide peg 32 is connected with the second plug 31 top, this second guide peg 32 is also formed with back-up ring 33 near the periphery at the second plug 31 top, this back-up ring 33 is formed with this second plug 31 top the dead slot holding gangbar 22, and gangbar 22 end correspondence is provided with installing hole.Divide water body 10 correspondence to offer accommodation and the second chute 15 of this second guide peg 32 spacing, this second chute 15 is also positioned at above point water cavity 13.First chute 14 is parallel with the second chute 15.Divide in water cavity 13 and be also provided with guide strip, this second plug 31 can along guide plate slides.

With reference to Fig. 6, hydroseparator structure of the present invention can be applicable in water closet, water inlet 11 is connected the drainage pipe of flushing machine, is connected by the delivery port 12 relative with the second check valve assembly 30 and sprays water channel 50, another delivery port 12 is connected seat ring water channel 60.When flushing machine is washed by water, the first plug 21 that water under high pressure promotes the first check valve assembly 20 opens water inlet 11, first check valve assembly 20 drives the second plug 31 of the second check valve assembly 30 also to open the delivery port 12(delivery port 12 corresponding with the second check valve assembly 30 simultaneously), water under high pressure enters point water cavity 13 from water inlet 11, divide the water in water cavity 13 to be divided into two strands of current by two delivery ports 12 to flow out, one flows into and sprays water channel 50, and one flows into seat ring water channel 60.

When bath closes to an end, water under high pressure reduces the pressure of the first check valve assembly 20, first check valve assembly 20 is under gravity by water inlet 11 shutoff, simultaneously the second check valve assembly 30 also shutoff and delivery port 12 spraying water channel 50 and be connected, now, spray water channel 50 to be isolated from the outside and the water seal water surface contact air only having close jet.If spray the water level decreasing in water channel 50, then above water level, there will be negative pressure, under atmospheric action, this water spraying water channel 50 is full of substantially.When upper once draining, water under high pressure does not need to refill injection water channel 50, like this, not only significantly can reduce the energy loss of water in flow process, and water also can be avoided when filling injection water channel 50, and part water overflows from stench trap highest point and causes waste.Meanwhile, reduce in a large number owing to spraying gas in water channel 50, the gas that water mixes in flow process reduces, and therefore suitably can reduce noise.

Embodiment two

With reference to Fig. 7, Fig. 8, a kind of hydroseparator structure reducing energy consumption and noise, comprises a point water body 10, and this point of water body 10 is provided with water inlet 11, two delivery port 12 and one point of water cavity 13, and this water inlet 11 and two delivery ports 12 are all communicated with a point water cavity 13.The first check valve assembly 20 and the second check valve assembly 30 is also provided with in point water cavity 13, this first check valve assembly 20 and water inlet 11 are oppositely arranged and are oppositely arranged with this delivery port 12 of opening and closing of fault with this water inlet 11, second check valve assembly 30 of opening and closing of fault and a wherein delivery port 12.

Wherein, a point water cavity 13 comprises one first chamber 13a, a connected entrance 13b and the second chamber 13c, and this connected entrance 13b is communicated with the first chamber 13a and the second chamber 13c.The delivery port 12 relative with the second check valve assembly 30 is communicated with this second chamber 13c, second check valve assembly 30 to be arranged in the 13c of this second chamber and can to open connected entrance 13b and the delivery port 12 relative with the second one way valve to open and being communicated with of the first chamber 13a simultaneously, or simultaneously closedown connected entrance 13b and the delivery port 12 relative with the second one way valve with closed being communicated with the first chamber 13a.This first chamber 13a is communicated with other delivery port 12 with water inlet 11, and the first check valve assembly 20 is positioned at this first chamber 13a.

First check valve assembly 20 comprises one first plug 21, sealing ring is provided with and relative with water inlet 11 bottom first plug 21, first plug 21 top has upwards extended to form one first guide peg 23, divide water body 10 correspondence to offer accommodation and the first chute 14 of this first guide peg 23 spacing, this first chute 14 is positioned at above the first chamber 13a.

Second check valve assembly 30 comprises one first valve block 31 and one second valve block 32, first valve block 31 is positioned at connected entrance 13b place, and its one end and the second chamber 13c inwall are rotationally connected, the other end be connected bottom the second valve block 32 and link; This second valve block 32 is positioned at above the delivery port 12 relative with the second check valve assembly 30, and its one end and the second chamber 13c inwall are rotationally connected, and this first valve block 31 and the second valve block 32 junction are being rotatably connected of sealing.

With reference to Fig. 9, hydroseparator structure of the present invention can be applicable in water closet, water inlet 11 is connected the drainage pipe of flushing machine, is connected by the delivery port 12 relative with the second check valve assembly 30 and sprays water channel 50, another delivery port 12 is connected seat ring water channel 60.When flushing machine is washed by water, the first plug 21 that water under high pressure promotes the first check valve assembly 20 opens water inlet 11, water under high pressure enters in the first chamber 13a of point water cavity 13 from water inlet 11, the first valve block 31 that connected entrance 13b goes out under the effect of hydraulic pressure is opened, second valve block 32 is mentioned simultaneously, thus by connected entrance 13b and with spray the delivery port 12 that is connected of water channel 50 open make all delivery port 12, first chamber 13a, the second chamber 13c is all communicated with, divide the water in water cavity 13 to be divided into two strands of current to flow out, one flows into and sprays water channel 50, and one flows into seat ring water channel 60.

When bath closes to an end, water under high pressure reduces the pressure of the first check valve assembly 20, first check valve assembly 20 is under gravity by water inlet 11 shutoff, the hydraulic pressure that first valve block 31 is subject to also dies down until closed communicating mouth 13b, second valve block 32 falls to closing the delivery port 12 be connected with injection water channel 50 under the first valve block 31 drives simultaneously, now, spray water channel 50 to be isolated from the outside and the water seal water surface contact air only having close jet.If spray the water level decreasing in water channel 50, then above water level, there will be negative pressure, under atmospheric action, this water spraying water channel 50 is full of substantially.When upper once draining, water under high pressure does not need to refill injection water channel 50, like this, not only significantly can reduce the energy loss of water in flow process, and water also can be avoided when filling injection water channel 50, and part water overflows from stench trap highest point and causes waste.Meanwhile, reduce in a large number owing to spraying gas in water channel 50, the gas that water mixes in flow process reduces, and therefore suitably can reduce noise.

Embodiment three

With reference to Figure 10, Figure 11, a kind of hydroseparator structure reducing energy consumption and noise, comprises a point water body 10, and this point of water body 10 is provided with water inlet 11, two delivery port 12 and one point of water cavity 13, and this water inlet 11 and two delivery ports 12 are all communicated with a point water cavity 13.The first check valve assembly 20 and the second check valve assembly 30 is also provided with in point water cavity 13, this first check valve assembly 20 and water inlet 11 are oppositely arranged and are oppositely arranged with this delivery port 12 of opening and closing of fault with this water inlet 11, second check valve assembly 30 of opening and closing of fault and a wherein delivery port 12.

Wherein, first check valve assembly 20 comprises one first valve block 21 and one second valve block 22, this first valve block 21 is positioned at above water inlet 11 and its one end and is rotatably connected with opening and closing of fault water inlet with point water cavity 13 inwall, second valve block 22 is positioned at above another delivery port 12 and its one end and is rotatably connected with point water cavity 13 top inner wall, and point water cavity 13 inwall is also respectively equipped with the stop recess 14 of this first valve block 21 other end spacing and second valve block 21 other end.

Second check valve assembly 30 comprises a moving casing, and point water body 10 correspondence is provided with this moving casing spacing and the chute 15 be slidably matched, and this chute 15 is be arranged at vertically directly over the delivery port 12 relative with the second check valve assembly 30.This moving casing can be arranged to comprise pipe 31 and an outer tube 32 in one, the equal opening in top of this outer tube 32 and interior 31 pipes, the bottom end seal of this interior pipe 31 and outer tube 32 is also connected same base plate 33, this base plate 33 can the opening and closing of fault delivery port 12 relative with the second check valve assembly 30, and this outer tube 32 is limited in chute 15.

With reference to Figure 12, hydroseparator structure of the present invention can be applicable in water closet, water inlet 11 is connected the drainage pipe of flushing machine, is connected by the delivery port 12 relative with the second check valve assembly 30 and sprays water channel 50, another delivery port 12 is connected seat ring water channel 60.When flushing machine is washed by water, water under high pressure promotes the first valve block 21 of the first check valve assembly 20 and the second valve block 22 opens water inlet 11 and another delivery port 12 respectively, water under high pressure enters point water cavity 13 from water inlet 11, moving casing is opened and the delivery port 12 spraying water channel 50 and be connected at the effect float downward of buoyancy, divide the water in water cavity 13 to be divided into two strands of current to flow out, one flows into and sprays water channel 50, and one flows into seat ring water channel 60.

When bath closes to an end, water under high pressure reduces the pressure of the first check valve assembly 20, first valve block 21 of the first check valve assembly 20 and the second valve block 22 are under gravity respectively by water inlet 11 and another delivery port 12 shutoff, when dividing the buoyancy in water cavity 13 to be less than moving casing gravity, this delivery port 12 of moving casing whereabouts shutoff, now, spray water channel 50 to be isolated from the outside and the water seal water surface contact air only having close jet.If spray the water level decreasing in water channel 50, then above water level, there will be negative pressure, under atmospheric action, this water spraying water channel 50 is full of substantially.When upper once draining, water under high pressure does not need to refill injection water channel 50, like this, not only significantly can reduce the energy loss of water in flow process, and water also can be avoided when filling injection water channel 50, and part water overflows from stench trap highest point and causes waste.Meanwhile, reduce in a large number owing to spraying gas in water channel 50, the gas that water mixes in flow process reduces, and therefore suitably can reduce noise.

Above are only three detailed description of the invention of the present invention, but design concept of the present invention is not limited thereto, all changes utilizing this design the present invention to be carried out to unsubstantiality, all should belong to the behavior of invading scope.

Claims (12)

1. one kind is reduced the hydroseparator structure of energy consumption and noise, comprise a point water body, this point of water body is provided with a water inlet, at least two delivery ports and one point of water cavity, this water inlet and delivery port are all communicated with a point water cavity, it is characterized in that: also comprise and be arranged at the first check valve assembly in point water cavity and the second check valve assembly, this first check valve assembly and water inlet are oppositely arranged with this water inlet of opening and closing of fault, and the second check valve assembly and wherein a delivery port are oppositely arranged with this delivery port of opening and closing of fault.

2. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 1, it is characterized in that: described first check valve assembly is provided with one and is sheathed on gangbar on described second check valve assembly, to make the described delivery port corresponding with the second check valve assembly synchronous opening and closing of fault together with described water inlet.

3. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 2, it is characterized in that: described first check valve assembly comprises one first plug and a gangbar, relative with described water inlet bottom first plug, first plug side is provided with described gangbar, first plug top has upwards extended to form one first guide peg, and described point of water body correspondence offers accommodation and the first chute of this first guide peg spacing.

4. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 2, it is characterized in that: described second check valve assembly comprises one second plug and one second guide peg, delivery port with described bottom this second plug is relative, this second guide peg is connected with the second plug top, this second guide peg is also formed with back-up ring near the periphery at the second plug top, and this back-up ring and this second plug top are formed with the dead slot holding described gangbar; Divide water body correspondence offer accommodation and the second chute of this second guide peg spacing.

5. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 1, is characterized in that: described point of water cavity comprises one first chamber, a connected entrance and the second chamber, and this connected entrance is communicated with the first chamber and the second chamber; The described delivery port relative with the second check valve assembly is communicated with this second chamber; Described second check valve assembly to be arranged in this second chamber and can to open connected entrance and the delivery port relative with described second one way valve to open and being communicated with of the first chamber simultaneously, or closes connected entrance and the delivery port relative with described second one way valve to close and being communicated with of the first chamber simultaneously; This first chamber is communicated with other delivery port with described water inlet, and described first check valve assembly is positioned at this first chamber.

6. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 5, it is characterized in that: described first check valve assembly comprises one first plug, relative with described water inlet bottom first plug, first plug top has upwards extended to form one first guide peg, and described point of water body correspondence offers accommodation and the first chute of this first guide peg spacing.

7. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 5, it is characterized in that: described second check valve assembly comprises one first valve block and one second valve block, described first valve block is positioned at described connected entrance place, its one end is flexibly connected with described second cavity wall, and the other end is connected with bottom described second valve block; This second valve block is positioned at above described relative with the second check valve assembly delivery port, and its one end is flexibly connected with described second cavity wall.

8. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 1, it is characterized in that: described first check valve assembly comprises one first valve block and the second valve block, this first valve block is positioned at above water inlet and its one end and is flexibly connected with opening and closing of fault water inlet with described point of water cavity inwall, second valve block is positioned at above another delivery port and its one end and is flexibly connected with described point of water cavity inwall, and described point of water cavity inwall is also respectively equipped with the stop recess of this first valve block other end spacing and the second valve block other end.

9. a kind of hydroseparator structure reducing energy consumption and noise as described in claim 1 or 8, it is characterized in that: described second check valve assembly comprises a moving casing, described point of water body correspondence is provided with this moving casing spacing and the chute be slidably matched, and this chute is be arranged at vertically directly over described relative with the second check valve assembly delivery port.

10. a kind of hydroseparator structure reducing energy consumption and noise as claimed in claim 9, it is characterized in that: described moving casing comprises pipe and an outer tube in one, the equal opening in top of this outer tube and interior pipe, the bottom end seal of this interior pipe and outer tube is also connected with a base plate, this base plate can be relative with the second check valve assembly described in opening and closing of fault delivery port, this outer tube is limited in described chute.

11. a kind of hydroseparator structures reducing energy consumption and noise as claimed in claim 1, is characterized in that: include two delivery ports.

12. toilets with the hydroseparator structure reducing energy consumption and noise, comprise flushing machine, spray water channel and seat ring water channel, it is characterized in that: any also including described in claim 1 to 11 reduces the hydroseparator structure of energy consumption and noise, wherein, described water inlet is connected with the drainage pipe of this flushing machine, and a delivery port connects seat ring water channel; The described delivery port relative with the second check valve assembly is connected with described injection water channel.