CN202809755U - Water draining air-exhausting water-saving system of closestool - Google Patents

Abstract

A water draining air-exhausting water-saving system of a closestool is provided with a defecation basin, a blowdown pipe (49) and a water inlet valve (34). An upper trap (50), a lower trap (51) and an air storing blowdown channel (52) between the upper trap (50) and the lower trap (51) are arranged on the blowdown pipe (49). The water draining air-exhausting water-saving system comprises a water tank (43), an air sucking barrel (35), a drain valve, an air sucking pipe (55), an air discharge valve plate (15) and an air discharge valve cover (17). A water draining valve hole (45), an air guide pipe (47), a T-shaped convex hook (44) and a water inlet valve hole (46) are arranged on the water tank (43), a water pipe (38), an air guiding barrel (39), a T-shaped groove (36) and a fixed pipe hole (37) are arranged on the air sucking barrel (35), and an air sucking port (53) is arranged on the air storing blowdown channel (52). When water flows into the water tank (43), air in the air sucking barrel (35) is pushed and extruded out. When the water is drained out of the water tank (43), the air in the air storing blowdown channel (52) is sucked towards the air sucking barrel (35).

Description

Toilet drainage air suction water-saving system

Technical field

The utility model relates to a kind of toilet drainage air suction water-saving system, relates in particular to a kind of two water seal toilet drainage air suction water-saving system that trap is up and down arranged.

Background technology

Only have water seal of a trap on the blow-off line of existing common closet, crossing bulb diameter above in the situation of 5cm, be difficult to make closet when water supply volume is 3 liters, still can rinse well.

Surpass the large problem of water supply volume in the situation of 5cm in order to solve the above-mentioned this bulb diameter of crossing at blow-off line, proposed in Chinese patent 200620147411.4 claims 1, between the trap " pressurized air pipeline " being arranged up and down, has a kind of water closet of " compression system " in the water tank;

Proposed in Chinese patent 200880020357.9 claims 1, " pressurized air source (42); it is bonded to described blowdown channel to form the positive air pressure that is higher than atmospheric pressure in described blowdown path before each flushing " arranged, with " described container upper chamber partly be bonded to described blowdown path with to described blowdown path pressurised air ", and a kind of toilet of " wherein said container chamber has the upper end (100) that is in the same with the full up water level of described water tank (52) at least high the second water level place ";

Claims, manual and accompanying drawing in conjunction with above-mentioned two parts of patents, its described " pressurized air pipeline " and " blowdown path " is the same position in the blowdown channel in fact, be the title difference, " pressurized air pipeline " before each flushing in above-mentioned two parts of patents has the positive air pressure that is higher than atmospheric pressure with " blowdown path ";

" compression system " in its described water tank also is much the same similar device for pressurization with " pressurized air source (42) " in fact, is mainly used in to " pressurized air pipeline " and " blowdown path " pressurization;

It is described " wherein said container chamber has the upper end (100) that is in the same with the full up water level of described water tank (52) at least high the second water level place ", and the upper end that container chamber is described is not the protection domain of Chinese patent 200880020357.9 when being lower than the full up water level of water tank.

From current water closet water-saving technology, above-mentioned binomial utility model is the most advanced practical, domestic have many large-scale specialized factories that this is studied, also again applied for patent, it is 201120004086.7 and 201120131690.6 patent such as the patent No., 201120004086.7 is all the same with 200620147411.4 and 200880020357.9 patents with the essence of 201120131690.6 patents in fact, only changed a kind of written form, do not have new utility model point at all.

Although 200620147411.4 and 200880020357.9 patents are current the most advanced practical from water saving and the developing result of water closet, but also there is the slight defective of part, install cumbersome such as accessory, volume is excessive, cause the water tank volume also excessive, affect the overall appearance design of water closet, in addition, although having solved a small amount of water such as urine by the container volume that strengthens pressurized air source (42) in 200880020357.9 patents adds when making cistern water-discharging in the bedpan and don't by the draining button, the problem that water in upper trap and the water tank is siphoned off, but when the water of volume is slightly directly poured in the bedpan and don't is made cistern water-discharging by the draining button, water in upper trap and the water tank also can be siphoned off gradually, cause water intaking valve to be opened, water tank is unawares always water inlet on the one hand, water in the water tank is another is on the other hand directly siphoned off, and this state is difficult to find as layman's domestic consumer, thereby wastes a large amount of water.

The utility model content

The purpose of this utility model is to provide a kind of toilet drainage air suction water-saving system, the bulb diameter of crossing that reaches at blow-off line surpasses in the situation of 5cm, need not still can economize on water to depositing gas blowdown channel (" pressurized air pipeline " or " blowdown path ") pressurization, and the peak level in the water tank is higher than the upper surface of suction muffler (" container chamber " of " pressurized air source "), when a large amount of water is directly poured in the bedpan and don't is made cistern water-discharging by the draining button, the closet that the water in upper trap and the water tank can not be siphoned off.

To achieve these goals, the toilet drainage air suction water-saving system that the utility model provides, bedpan is arranged, blow-off line (49), water intaking valve (34), upper trap (50) is arranged on the described blow-off line (49), lower trap (51) and deposit gas blowdown channel (52) between trap (50) and the described lower trap (51) on described, it is characterized in that: comprise water tank (43), aspiration column (35), draining valve, admission pipe (55), exhaust valve plate (15), exhaust valve cap (17), at water tank (43) draining valve opening (45) is arranged, wireway (47), T shape is protruding colludes (44), water inlet valve opening (46), at described aspiration column (35) overflow pipe (38) is arranged, gas cylinder (39), T connected in star (36), fixedly pore (37) has air entry (53) in the described gas blowdown channel (52) of depositing;

Described draining valve comprises valve seat (29), valve body (1), valve gap (24), floating drum (11), spool (19), wherein, and the unidirectional opening of described floating drum (11);

At described valve body (1) base plate (2), locating hole (4), rotary axis groove (5), guide pipe (6), the end button (9), cover buckle groove (10) are arranged, at described base plate (2) drain hole (3) is arranged, in described guide pipe (6) inside gathering sill (7) is arranged, between described guide pipe (6) bottom and described base plate (2), have control to collude groove (8);

At described floating drum (11) rotating shaft (12), control panel (13) are arranged, there are overflow pipe (20), control to collude (22), water shutoff offset plate (23) at described spool (19), at described overflow pipe (20) guiding projection (21) is arranged, at described valve gap (24) cover buckle (25), stationary pipes (26) are arranged;

At described gas cylinder (39) exhaust valve pocket (40) is arranged, steam vent (41), anti-sealing projection (42) are arranged in described exhaust valve pocket (40) bottom, exhaust plug (16) is arranged on the exhaust valve plate (15), wherein, described exhaust valve plate (15) is soft colloid;

Described floating drum (11) is installed in described valve body (1) inside, and described valve gap (24) is installed in described valve body (1) top, and described valve body (1) is installed in described valve and sits on (29); Wherein, described floating drum (11) opening down, described stationary pipes (26) is up;

Described exhaust valve plate (15) is installed on the described exhaust valve pocket (40), and an end of described exhaust plug (16) is on described anti-sealing projection (42); Wherein, described exhaust plug (16) can close described steam vent (41) downwards when being out of shape, not exclusively sealing of described steam vent (41) when described exhaust plug (16) is not out of shape downwards;

Described aspiration column (35) is installed in described valve gap (24) top, described overflow pipe (38) down, described wireway (47) is in described overflow pipe (38), the upper end of described wireway (47) is in described gas cylinder (39), described stationary pipes (26) is in described fixedly pore (37), described overflow pipe (20) is in described stationary pipes (26), described overflow pipe (20) can be up and down in described stationary pipes (26), and described draining valve is installed on the described draining valve opening (45) on the described water tank (43);

One end of described admission pipe (55) is connected with the lower end of described wireway (47), the other end connects described air entry (53), described water intaking valve (34) is installed on the described water inlet valve opening (46), is used for intaking in described water tank (43);

The inner upper surface (d) of described gas cylinder (39) is higher than the peak level (b) in the described water tank (43), the peak level (b) of described water tank (43) is higher than the upper surface (a) of described aspiration column (35), and the upper end (c) of described wireway (47) is higher than the peak level (b) in the described water tank (43);

When described water tank (43) was intake, the air in the described aspiration column (35) was urged out, and when described water tank (43) draining, the described air of depositing in the gas blowdown channel (52) is attracted to described aspiration column (35).

Improvement as toilet drainage air suction water-saving of the present utility model system, its further feature is: also comprise fixed fastener (31), in described stationary pipes (26) draw-in groove (27), moisturizing tube seat (28) are arranged, described fixed fastener (31) is stuck in the described draw-in groove (27).

Improvement as toilet drainage air suction water-saving of the present utility model system, its further feature is: also comprise exhaust elbow (32), exhaust hose (56), at described water tank (43) stack (48) is arranged, exhaust elbow hole (18) is arranged on the described exhaust valve cap (17), between described lower trap (51) and blowdown outlet, exhaust opening (54) is arranged; One end of described exhaust elbow (32) connects described exhaust elbow hole (18), the other end connects the upper end of described stack (48), one end of described exhaust hose (56) connects the lower end of described stack (48), and the other end connects described exhaust opening (54).

As the improvement of toilet drainage air suction water-saving of the present utility model system, its further feature is: the volume of described aspiration column (35) is no less than the described volume of depositing gas blowdown channel (52).

The beneficial effects of the utility model are: simple in structure, and manufacturing, easy for installation, volume is little, water saving does not affect the overall appearance design of water closet, is that the bulb diameter of crossing of 3 liters of blow-off lines surpasses in the situation of 5cm in water supply volume, still can rinse well, and the water in the water tank can not siphoned off.

Description of drawings

Fig. 1 (a) is the valve body front left view of toilet drainage air suction water-saving of the present utility model system.

Fig. 1 (b) is the valve body front right view of toilet drainage air suction water-saving of the present utility model system.

Fig. 1 (c) is the valve body reverse side schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Fig. 2 (a) is the floating drum front left view of toilet drainage air suction water-saving of the present utility model system.

Fig. 2 (b) is the floating drum front right view of toilet drainage air suction water-saving of the present utility model system.

Fig. 2 (c) is the floating drum reverse side schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Fig. 3 (a) is the location fourth left view of toilet drainage air suction water-saving of the present utility model system.

Fig. 3 (b) is the location fourth right view of toilet drainage air suction water-saving of the present utility model system.

Fig. 4 is the exhaust valve plate schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Fig. 5 is the exhaust valve cap schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Fig. 6 (a) is the spool front view of toilet drainage air suction water-saving of the present utility model system.

Fig. 6 (b) is the spool schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Fig. 7 (a) is the valve gap schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Fig. 7 (b) is the valve gap front view of toilet drainage air suction water-saving of the present utility model system.

Fig. 8 is that the valve of toilet drainage air suction water-saving of the present utility model system is sat schematic diagram.

Fig. 9 is the fixed fastener schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Figure 10 is the exhaust elbow schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Figure 11 is the refill hose schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Figure 12 is the water intaking valve schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Figure 13 (a) is the aspiration column front schematic view of toilet drainage air suction water-saving of the present utility model system.

Figure 13 (b) is the aspiration column reverse side schematic diagram of toilet drainage air suction water-saving of the present utility model system.

Figure 14 (a) is the water tank schematic internal view of toilet drainage air suction water-saving of the present utility model system.

Figure 14 (b) is the outside schematic diagram of the water tank of toilet drainage air suction water-saving of the present utility model system.

Figure 15 is closet top view of the present utility model.

Figure 16 is the A--A generalized section among Figure 15 of relative position of each critical piece of toilet drainage air suction water-saving of the present utility model system.

Figure 17 (a) is toilet drainage air suction water-saving system of the present utility model A--A generalized section among Figure 15 when cistern water-discharging.

Figure 17 (b) is the partial enlarged drawing of the circle g section among Figure 17 (a).

Figure 18 is toilet drainage air suction water-saving system of the present utility model A--A generalized section among Figure 15 when cistern water-discharging will finish.

Figure 19 is toilet drainage air suction water-saving system of the present utility model A--A generalized section among Figure 15 when cistern water-discharging finishes.

Figure 20 is toilet drainage air suction water-saving system of the present utility model A--A generalized section among Figure 15 when water tank water intake.

Figure 21 is toilet drainage air suction water-saving system A--A generalized section among Figure 15 when water tank water intake finishes full water of the specific embodiment one of the present utility model.

Figure 22 is the B--B generalized section in cistern water-discharging initial stage Figure 15 of closet of the present utility model.

Figure 23 is the B--B generalized section in cistern water-discharging Figure 15 in mid-term of closet of the present utility model.

Figure 24 is the B--B generalized section in cistern water-discharging later stage Figure 15 of closet of the present utility model.

Figure 25 is the B--B generalized section among initial stage Figure 15 after cistern water-discharging finishes of closet of the present utility model.

Figure 26 is the B--B generalized section of the mid-term after cistern water-discharging finishes among Figure 15 of closet of the present utility model.

Figure 27 is the B--B generalized section among later stage Figure 15 after cistern water-discharging finishes of closet of the present utility model.

Figure 28 is the B--B generalized section in water tank water intake initial stage Figure 15 of closet of the present utility model.

Figure 29 is the B--B generalized section in water tank water intake later stage Figure 15 of closet of the present utility model.

Figure 30 is the B--B generalized section among Figure 15 when water tank water intake finishes full water of closet of the present utility model.

Figure 31 (a) is not when to be toilet drainage air suction water-saving of the present utility model system there being water to pour in the bedpan wash by water, and outside air is mended the A--A generalized section among Figure 15 when depositing the gas blowdown channel.

Figure 31 (b) is the partial enlarged drawing of the circle h section among Figure 31 (a).

The specific embodiment

The specific embodiment one

Consult Fig. 1 (a), Fig. 1 (b), Fig. 1 (c), at valve body 1 base plate 2, locating hole 4, rotary axis groove 5, guide pipe 6, end button 9, cover buckle groove 10 are arranged, at base plate 2 drain hole 3 is arranged, in guide pipe 6 inside gathering sill 7 is arranged, between guide pipe 6 bottoms and base plate 2, have control to collude groove 8;

Consult Fig. 2 (a), Fig. 2 (b), Fig. 2 (c), at the floating drum 11 of unidirectional opening rotating shaft 12, control panel 13 are arranged;

Consult Fig. 4, exhaust plug 16 is arranged on the exhaust valve plate 15, exhaust plug 16 is soft colloid;

Consult Fig. 5, exhaust elbow hole 18 is arranged on the exhaust valve cap 17;

Consult Fig. 6 (a), Fig. 6 (b), have at spool 19 that overflow pipe 20, control collude 22, water shutoff offset plate 23, at overflow pipe 20 guiding projection 21 is arranged;

Consult Fig. 7 (a), Fig. 7 (b), at valve gap 24 cover buckle 25, stationary pipes 26 are arranged, in stationary pipes 26 draw-in groove 27, moisturizing tube seat 28 are arranged;

Consult Fig. 8, sitting 29 at valve has end catching groove 30;

Consult Figure 10, exhaust elbow 32 borings;

Consult Figure 11, refill hose 33 borings;

Consult Figure 12, water intaking valve 34 is at existing common water intaking valve, is existing known technology;

Consult Figure 13 (a), Figure 13 (b), at aspiration column 35 T connected in star 36, fixedly pore 37, overflow pipe 38, gas cylinder 39 are arranged, at gas cylinder 39 exhaust valve pocket 40 is arranged, steam vent 41, anti-sealing projection 42 are arranged in exhaust valve pocket 40 bottoms;

Consult Figure 14 (a), Figure 14 (b), have at water tank 43 that T shape protrudingly colludes 44, a draining valve opening 45, water inlet valve opening 46, wireway 47, stack 48;

Consult Figure 30, trap 50, lower trap 51 and between upper trap 50 and lower trap 51, deposit gas blowdown channel 52 on blow-off line 49 has, air entry 53 is arranged depositing gas blowdown channel 52, between lower trap 51 and blowdown outlet, exhaust opening 54 is arranged;

Wherein, the volume of aspiration column 35 is no less than the volume of depositing gas blowdown channel 49.

Consult Fig. 1 (a), Fig. 1 (b), Fig. 1 (c), Fig. 2 (a), Fig. 2 (b), Fig. 2 (c), Fig. 3 (a), Fig. 3 (b), the opening down of floating drum 11 is installed in the valve body 1, make rotating shaft 12 on rotary axis groove 5, again location fourth 14 is inserted in the locating hole 4 and covered rotating shaft 12, floating drum 11 can freely be rotated;

Consult Fig. 6 (a), Fig. 6 (b), Fig. 7 (a), Fig. 7 (b), valve gap 24 is covered on valve body 1, cover buckle 25 is snapped in the cover buckle groove 10, again in the stationary pipes 26 that is inserted into after spool 19 is from the bottom insertion guide pipe 6 of valve body 1 on the valve gap 24 always, make guiding projection 21 on the overflow pipe 20 in gathering sill 7, and make control collude 22 to collude groove 8 with control and align;

Consult Fig. 8, again said modules is installed to valve and sits on 29, end button 9 is snapped in the end catching groove 30; So just be assembled into draining valve;

Consult Figure 14 (a), Figure 14 (b), Figure 15, Figure 30, water tank 43 is fixedly installed on the closet, the valve of draining valve is sat on the 29 draining valve openings 45 that are fixedly installed on the water tank 43;

Consult Fig. 4, Fig. 5, Fig. 9, Figure 13 (a), Figure 13 (b), Figure 14 (a), Figure 16, Figure 17 (a), Figure 17 (b), Figure 31 (b), aspiration column 35 make overflow pipe 38 down gas cylinder 39 put into up on the valve gap 24 of water tank 43, and make that T shape is protruding colludes 44 and insert in the T connected in stars 36, wireway 47 is in overflow pipe 38, and make the upper end of wireway 47 in gas cylinder 39, fixedly pore 37 is enclosed within on the stationary pipes 26, fixed fastener 31 is snapped in the draw-in groove 27 again;

Exhaust valve plate 15 is installed on the exhaust valve pocket 40 on the gas cylinder 39, and make an end of exhaust plug 16 on anti-sealing projection 42, in the exhaust elbow hole 18 on an end of the exhaust elbow 32 insertion exhaust valve cap 17, the other end inserts in the upper end of stack 48 again;

Can close steam vent 41 when wherein exhaust plug 16 is out of shape downwards, air can not flow in the gas cylinders 39, shown in Figure 17 (b) from exhaust elbow 32; Steam vent 41 did not exclusively seal when exhaust plug 16 was not out of shape downwards, and air can flow in the gas cylinder 39, shown in Figure 31 (b) from exhaust elbow 32;

Consult Figure 11, Figure 12, again water intaking valve 34 is installed to the water inlet valve opening 46 of water tank 43, at last refill hose 33 1 ends are connected water intaking valve 34 other ends and snap in the moisturizing tube seat 28;

Consult Figure 16, Figure 17 (a), Figure 30, the lower end of wireway 47 is connected air entry 53 with admission pipe 55, the lower end of stack 48 is connected exhaust opening 54 with exhaust hose 56.

All installations of all parts of the present utility model like this.

Lower mask body is introduced the course of work of the present utility model

All anhydrous in water tank and closet at first, it is all anhydrous with lower trap 51 namely to go up trap 50, when external water source flows to water intaking valve 34, water tank 43 is interior to begin water inlet, when water inlet to certain the time, water intaking valve 34 stops into water, on move spool 19 and make water tank 43 drainings, upper trap 50 all begins water with lower trap 51, and as shown in figure 30, the air of depositing at that time in the gas blowdown channel 52 firmly is hedged off from the outer world by the water seal in upper trap 50 and the lower trap 51;

Water intaking valve 34 restarts into water, has again filled water in the water tank 43, as shown in figure 21; Peak level b in the water tank 43 was higher than the upper surface a of aspiration column 35 at that time, the upper surface d of gas cylinder 39 inside is higher than the peak level b in the water tank 43, the upper end c of wireway 47 is higher than the peak level b in the water tank 43, there is not air in the aspiration column 35, be full of air in gas cylinder 39 and the wireway 47, floating drum 11 and control panel 13 were all presented and were turned state at that time;

Consult Figure 17 (a), upwards spur overflow pipe 20, make on the spool 19 and move, water shutoff offset plate 23 leaves valve and sits 29, and control is colluded and moved on to control panel 13 tops on 22, and control is colluded 22 and tangled by control panel 13, water tank 43 interior water level fast-descendings, water intaking valve 34 is opened, and water tank 43 begins water inlet immediately, and the small part current flow to overflow pipe 20 rear inflow closets by refill hose 33;

Consult Figure 17 (b), at that time, because one-way exhaust spool 16 is soft colloid, when the water level express delivery in aspiration column 35 descended, one-way exhaust spool 16 downwards distortion sealed steam vent 41;

Consult Figure 22, simultaneously, the air of depositing in the gas blowdown channel 52 are attracted in the aspiration column 35 by air entry 53, admission pipe 55, wireway 47, gas cylinder 39, and the water in upper trap 50 and the lower trap 51 at first is attracted to be deposited gas blowdown channel 52 and flow;

Consult Fig. 1 (a), Fig. 1 (b), Fig. 1 (c), Figure 18, Figure 19, when the water in the water tank 43 when drained, water in the valve body 1 colludes groove 8 and controls the gap of colluding between 22 also with drained by the drain hole 3 on the base plate 2 and control, floating drum 11 and control panel 13 all turn down, control panel 13 is separated from control and colludes 22, thereby spool 19 is moved down, water shutoff offset plate 23 covers at valve to be sat on 29, water tank 43 drainings finish, be full of air in the aspiration column 35, the lower end f of overflow pipe 38 was lower than the lowest water level e in the water tank 43 at that time;

Consult Figure 23, after air in depositing gas blowdown channel 52 is sucked, the water and the water junction posterior restoration blow-off line 49 the lower trap 51 that get off from upper trap 50 almost all are filled completely, thereby go into siphon fast, and finally the whole siphons of dirt are gone out closet;

Consult Figure 24, after the water major part in the upper trap 50 is gone out by siphon, have air to enter blow-off line 49 from upper trap 50, fall after rise trap 50 bottoms thereby the water that small part is not gone out by siphon makes progress, shown in arrow j among Figure 24;

Consult Figure 25, Figure 26, Figure 27, water and the dirt deposited in gas blowdown channel 52 and the lower trap 51 continue by siphon, and are finally gone out blow-off line 49 by siphon, have at last the downward trap of part water 51 bottoms to fall after rise, shown in arrow k among Figure 27;

Consult Figure 28, time trap 51 has been lived in the water seal of falling;

Consult Figure 20, Figure 28, Figure 29, water tank 43 interior continuation water inlets, current continue to flow to overflow pipe 20 rear inflow closets by refill hose 33, trap 50 is sealed, so far, the air of depositing in the gas blowdown channel 52 firmly is hedged off from the outer world by the water seal in upper trap 50 and the lower trap 51, as shown in figure 28; Along with the water level in water tank 43 and the aspiration column 35 rises gradually, air in the aspiration column 35 makes upwards distortion of exhaust plug 16 by gas cylinder 39, steam vent 41, flow to the blowdown outlet by exhaust elbow 32, stack 48, exhaust hose 56, exhaust opening 54 again, shown in part arrow among the figure;

Along with current constantly flow into closet from crossing refill hose 33, water level in the upper trap 50 also rises gradually, rely on the air of depositing 52 ones of gas blowdown channels in the upper trap 50 and also make upwards distortion of exhaust plug 16 by depositing gas blowdown channel 52, air entry 53, admission pipe 55, wireway 47, gas cylinder 39, steam vent 41, flow to the blowdown outlet by exhaust elbow 32, stack 48, exhaust hose 56, exhaust opening 54 again, shown in part arrow among the figure;

Again consult Figure 21, Figure 30, again after a period of time, water intaking valve 34 is closed, water level in the water tank 43 arrives peak level b, upper trap 50 also arrives peak level, peak level b in the water tank 43 is higher than the upper surface a of aspiration column 35, the upper surface d of gas cylinder 39 inside is higher than the peak level b in the water tank 43, the upper end c of wireway 47 is higher than the peak level b in the water tank 43, there is not air in the aspiration column 35, be full of air in gas cylinder 39 and the wireway 47, floating drum 11 and control panel 13 were all presented and were turned state at that time, the air of depositing in the gas blowdown channel 52 firmly is hedged off from the outer world by the water seal in upper trap 50 and the lower trap 51, has entered the circulation of next round, can carry out flushing next time.

Consult Figure 13 (a), Figure 31 (a), Figure 31 (b), under actual conditions, often someone will forget bath after the urine, or sewage poured in the bedpan and do not wash by water, because anti-sealing projection 42 is arranged in exhaust valve pocket 40 bottoms, one end of exhaust plug 16 can be withstood by anti-sealing projection 42, so steam vent 41 can complete closed when exhaust plug 16 is not out of shape downwards at ordinary times, air can flow in the gas cylinder 39 from exhaust elbow 32, as shown by arrows in FIG., the air of also namely depositing in the gas blowdown channel 52 passes through air entry 53, admission pipe 55, wireway 47, gas cylinder 39, steam vent 41, exhaust elbow 32, stack 48, exhaust hose 56, exhaust opening 54, blowdown outlet etc. is connected with the external world, so when there being water to pour Shi Buhui in the bedpan water in trap 50 and the water tank 43 is siphoned off;

If not anti-sealing projection 42, steam vent 41 can be covered fully at exhaust plug 16 at ordinary times and its complete closed may be made, thereby make and deposit gas blowdown channel 52 and be not communicated with the external world, the air of depositing in the gas blowdown channel 52 is squeezed out by lower trap 51, thereby make the pressure of depositing in the gas blowdown channel 52 be lower than atmospheric pressure, water in the trap 50 is siphoned off, when the water in pouring bedpan into is abundant, will make the water in the water tank 43 pass through gas cylinder 39, wireway 47, admission pipe 55, air entry 53 flows to deposits gas blowdown channel 52, lower trap 51, the blowdown outlet, will continue marginally to intake in the water tank 43 like this, and finally continue to flow out from the blowdown outlet, because flow less, so layman's domestic consumer is difficult to find, thereby wastes a large amount of water.

The specific embodiment two

In the specific embodiment one, stack 48 is arranged in water tank 43, between lower trap 51 and blowdown outlet, exhaust opening 54 is arranged, in water tank 43 water inlet processes, the air in the aspiration column 35 flows to the blowdown outlet by exhaust elbow 32, stack 48, exhaust hose 56, exhaust opening 54 after by steam vent 41 again; In this specific embodiment two, in water tank 43, there is not stack 48, between lower trap 51 and blowdown outlet, there is not exhaust opening 54 yet, in water tank 43 water inlet processes, air in the aspiration column 35 is by the steam vent 41 rear external worlds that directly flow to, remaining part in this specific embodiment two all with the specific embodiment one in striking resemblances, so operating principle and process are also the same, no longer repeat the way here and state.

In the utility model, at aspiration column 35 T connected in star 36 is set, arrange at water tank 43 that T shape is protruding colludes 44, and make that T shape is protruding colludes 44 and insert in the T connected in stars 36, be because when in water tank 43, advancing full water because the pressure of water can expand outwardly distortion, such design can make water tank 43 be caught on by aspiration column 35, thereby also can not expand outwardly distortion owing to the pressure of water when making water tank 43 usefulness plastic or other material do very thinly;

The structure of aspiration column 35 and water tank 43 also can be carried out various deformation, as long as the principle of utility model does not change, all various distortion all belong to protection domain of the present utility model.

The utility model cardinal principle is, in the cistern water-discharging process, utilize the decline of aspiration column 35 interior water levels the air sucking-off of depositing in the gas blowdown channel 52, make the water and the full whole piece blow-off line 49 of the rear Fast Filling of the junction of the water the lower trap 51 that get off from upper trap 50, thereby go into fast siphon, and finally the whole siphons of dirt are gone out closet, rather than the rising that resembles in 200620147411.4 and 200880020357.9 patents water level in " the container upper chamber " of utilizing " compression system " or " pressurized air source (42) " in the water tank water intake process makes generation in " pressurized air pipeline " or " blowdown path " be higher than the positive air pressure of atmospheric pressure;

In the utility model, deposit the positive air pressure that is not higher than all the time atmospheric pressure in gas blowdown channel 52 and the aspiration column 35, the every flushing of air of depositing in gas blowdown channel 52 and the aspiration column 35 is once all replaced once with outside air, and in 200620147411.4 and 200880020357.9 patents, " pressurized air pipeline " or " blowdown path " reaches " container upper chamber " the interior air of " compression system " or " pressurized air source (42) " and do not replace with outside air, shifts between " pressurized air pipeline " and " compression system " or " blowdown path " and " pressurized air source (42) " " container upper chamber ";

In 200620147411.4 and 200880020357.9 patents, because " compression system ", " the container upper chamber " of " pressurized air pipeline " or " pressurized air source (42) ", " blowdown path " and outside air sealing, and the positive air pressure that is higher than atmospheric pressure is arranged, so when the water of volume is slightly directly poured in the bedpan and don't is made cistern water-discharging by the draining button, because air is squeezed out " pressurized air pipeline " or " blowdown path ", pressure in " the container upper chamber " of " compression system " or " pressurized air source (42) " can reduce, water level is raise, when water level surpasses " conduit " upper end, water in the water tank is siphoned off by " conduit " gradually, water intaking valve is opened, water tank is unawares always water inlet on the one hand, water in the water tank is another is on the other hand directly siphoned off, and this state is difficult to find as layman's domestic consumer, thereby wastes a large amount of water;

In a plurality of specific embodiment of the present utility model, be provided with the steam vent 41 that not exclusively seals at ordinary times, thereby when a large amount of water is directly poured in the bedpan and don't is made cistern water-discharging by the draining button, although also can being squeezed out, air deposits gas blowdown channel 50, but outside air can add to by steam vent 41 and deposit in the gas blowdown channel 52, the pressure decreased of depositing in the gas blowdown channel 52 is temporary transient, though can slightly having, aspiration column 35 interior water levels raise but at once recovery, water level in the aspiration column 35 can not surpass the upper end c of wireway 47, just can not cause the water in the water tank to be siphoned off yet.

In 200880020357.9 claims 1, proposed, " wherein said container chamber has the upper end (100) that is in the same with the full up water level of described water tank (52) at least high the second water level place " arranged, and in a plurality of specific embodiment of the present utility model, the peak level b in the water tank 43 is higher than the upper surface a of aspiration column 35;

Above-mentioned these all are the differences of the utility model and 200620147411.4 and 200880020357.9 patents.

Claims (5)

1. toilet drainage air suction water-saving system, bedpan is arranged, blow-off line (49), water intaking valve (34), upper trap (50) is arranged on the described blow-off line (49), lower trap (51) and deposit gas blowdown channel (52) between trap (50) and the described lower trap (51) on described, it is characterized in that: comprise water tank (43), aspiration column (35), draining valve, admission pipe (55), exhaust valve plate (15), exhaust valve cap (17), at water tank (43) draining valve opening (45) is arranged, wireway (47), T shape is protruding colludes (44), water inlet valve opening (46), at described aspiration column (35) overflow pipe (38) is arranged, gas cylinder (39), T connected in star (36), fixedly pore (37) has air entry (53) in the described gas blowdown channel (52) of depositing;

Described draining valve comprises valve seat (29), valve body (1), valve gap (24), floating drum (11), spool (19), wherein, and the unidirectional opening of described floating drum (11);

At described valve body (1) base plate (2), locating hole (4), rotary axis groove (5), guide pipe (6), the end button (9), cover buckle groove (10) are arranged, at described base plate (2) drain hole (3) is arranged, in described guide pipe (6) inside gathering sill (7) is arranged, between described guide pipe (6) bottom and described base plate (2), have control to collude groove (8);

At described floating drum (11) rotating shaft (12), control panel (13) are arranged, there are overflow pipe (20), control to collude (22), water shutoff offset plate (23) at described spool (19), at described overflow pipe (20) guiding projection (21) is arranged, at described valve gap (24) cover buckle (25), stationary pipes (26) are arranged;

At described gas cylinder (39) exhaust valve pocket (40) is arranged, steam vent (41), anti-sealing projection (42) are arranged in described exhaust valve pocket (40) bottom, exhaust plug (16) is arranged on the exhaust valve plate (15), wherein, described exhaust valve plate (15) is soft colloid;

Described floating drum (11) is installed in described valve body (1) inside, and described valve gap (24) is installed in described valve body (1) top, and described valve body (1) is installed in described valve and sits on (29); Wherein, described floating drum (11) opening down, described stationary pipes (26) is up;

Described exhaust valve plate (15) is installed on the described exhaust valve pocket (40), and an end of described exhaust plug (16) is on described anti-sealing projection (42); Wherein, described exhaust plug (16) can close described steam vent (41) downwards when being out of shape, not exclusively sealing of described steam vent (41) when described exhaust plug (16) is not out of shape downwards;

Described aspiration column (35) is installed in described valve gap (24) top, described overflow pipe (38) down, described wireway (47) is in described overflow pipe (38), the upper end of described wireway (47) is in described gas cylinder (39), described stationary pipes (26) is in described fixedly pore (37), described overflow pipe (20) is in described stationary pipes (26), described overflow pipe (20) can be up and down in described stationary pipes (26), and described draining valve is installed on the described draining valve opening (45) on the described water tank (43);

One end of described admission pipe (55) is connected with the lower end of described wireway (47), the other end connects described air entry (53), described water intaking valve (34) is installed on the described water inlet valve opening (46), is used for intaking in described water tank (43);

The inner upper surface (d) of described gas cylinder (39) is higher than the peak level (b) in the described water tank (43), the peak level (b) of described water tank (43) is higher than the upper surface (a) of described aspiration column (35), and the upper end (c) of described wireway (47) is higher than the peak level (b) in the described water tank (43);

When described water tank (43) was intake, the air in the described aspiration column (35) was urged out, and when described water tank (43) draining, the described air of depositing in the gas blowdown channel (52) is attracted to described aspiration column (35).

2. toilet drainage air suction water-saving as claimed in claim 1 system, it is characterized in that: also comprise fixed fastener (31), in described stationary pipes (26) draw-in groove (27), moisturizing tube seat (28) are arranged, described fixed fastener (31) is stuck in the described draw-in groove (27).

3. toilet drainage air suction water-saving as claimed in claim 1 or 2 system, it is characterized in that: also comprise exhaust elbow (32), exhaust hose (56), at described water tank (43) stack (48) is arranged, exhaust elbow hole (18) is arranged on the described exhaust valve cap (17), between described lower trap (51) and blowdown outlet, exhaust opening (54) is arranged; One end of described exhaust elbow (32) connects described exhaust elbow hole (18), the other end connects the upper end of described stack (48), one end of described exhaust hose (56) connects the lower end of described stack (48), and the other end connects described exhaust opening (54).

4. toilet drainage air suction water-saving as claimed in claim 1 or 2 system, it is characterized in that: the volume of described aspiration column (35) is no less than the described volume of depositing gas blowdown channel (52).

5. toilet drainage air suction water-saving as claimed in claim 3 system, it is characterized in that: the volume of described aspiration column (35) is no less than the described volume of depositing gas blowdown channel (52).

Images