CN208816771U - Division box in a kind of embedded box - Google Patents

Abstract

Division box in a kind of embedded box, including pre-buried valve seat and shunt valve mechanism；Pre-buried valve seat includes pre-buried valve chamber, water inlet, first water outlet, second water outlet and third water outlet, shunt valve mechanism includes shunt valve chamber and valve core case, pre-buried valve chamber is equipped with the first discharge mechanism and the first water intake mechanism, shunt valve chamber is equipped with the second water intake mechanism corresponding with pre-buried valve chamber and the second discharge mechanism, mixing water flows into pre-buried valve chamber by water inlet, mixing water flows into the second water intake mechanism by the first discharge mechanism, into after shunt valve chamber, the first water intake mechanism is flowed to from the second discharge mechanism, into after pre-buried valve chamber, from the first water outlet, second water outlet or the outflow of third water outlet.The purpose of this utility model is that proposing division box in a kind of embedded box, guarantee to reduce water flow while water supply, save water, while can replace shunt valve mechanism according to user's needs, increase or decrease the quantity of water outlet.

Description

Division box in a kind of embedded box

Technical field

The utility model relates to division boxs in bath articles technical field more particularly to a kind of embedded box.

Background technique

In the prior art, the waterway structure of the division box in embedded box is relatively simple, by the control of spool directly from Water inlet flows to water outlet, causes waste.Meanwhile the quantity of water outlet is fixed value, can not be increased according to the needs of users Or it reduces.

Utility model content

Utility model aims to solve the above problems to propose division box in a kind of embedded box.

In order to achieve this goal, the utility model uses following technical scheme:

Division box in a kind of embedded box, including pre-buried valve seat and shunt valve mechanism；

The shunt valve mechanism is set to the pre-buried valve seat by mounting hole；

The pre-buried valve seat includes pre-buried valve chamber, water inlet, the first water outlet, the second water outlet and third water outlet, institute State one end that water inlet is set to the pre-buried valve chamber, first water outlet, second water outlet and third water outlet Mouth is set to the other end of the pre-buried valve chamber；

The shunt valve mechanism includes shunt valve chamber and valve core case, and the valve core case is set to the shunt valve chamber；

The pre-buried valve chamber be equipped with the first discharge mechanism and the first water intake mechanism, the shunt valve chamber be equipped with it is described pre-buried Corresponding second water intake mechanism of valve chamber and the second discharge mechanism, mixing water flow into the pre-buried valve chamber by the water inlet, Mixing water flows into second water intake mechanism by first discharge mechanism, into after the shunt valve chamber, from described second Discharge mechanism flows to first water intake mechanism, into after the pre-buried valve chamber, from first water outlet, second water outlet Mouth or the outflow of third water outlet.

More preferably, the pre-buried valve chamber includes mixing water cavity, the first water chamber, the second water chamber and third water chamber, described Mixed water cavity is connected to the water inlet, and first water chamber is connected to first water outlet, second water chamber and institute The connection of the second water outlet is stated, the third water chamber is connected to the third water outlet.

More preferably, the shunt valve chamber includes the first intake antrum, the second intake antrum and third intake antrum, first water inlet Chamber, second intake antrum and the third intake antrum are disconnected with each other.

More preferably, first discharge mechanism include the first apopore, the second apopore and third apopore, described first Apopore, second apopore and the third apopore are respectively arranged at the top of the mixed water cavity.

More preferably, second water intake mechanism include the first inlet opening, the second inlet opening and third inlet opening, described first Inlet opening is set to the bottom of first intake antrum, and second inlet opening is set to the bottom of second intake antrum, institute State the bottom that third inlet opening is set to the third intake antrum.

More preferably, second discharge mechanism include the 4th apopore, the 5th apopore and the 6th apopore, the described 4th Apopore is set to the bottom of first intake antrum and is located at the side of first inlet opening, the 5th apopore setting Bottom in second intake antrum and the side positioned at second inlet opening, the 6th apopore are set to the third The bottom of intake antrum and the side for being located at the third inlet opening.

More preferably, first water intake mechanism include the 4th inlet opening, the 5th inlet opening and the 6th inlet opening, the described 4th Inlet opening is set to the top of first water chamber, and the 5th inlet opening is set to the top of second water chamber, institute State the top that the 6th inlet opening is set to the third water chamber.

More preferably, first apopore is correspondingly arranged with first inlet opening and aperture is identical, second water outlet Hole is correspondingly arranged with second inlet opening and aperture is identical, the third apopore and the third inlet opening be correspondingly arranged and Aperture is identical.

More preferably, the 4th apopore is correspondingly arranged with the 4th inlet opening and aperture is identical, the 5th water outlet Hole is correspondingly arranged with the 5th inlet opening and aperture is identical, the 6th apopore and the 6th inlet opening be correspondingly arranged and Aperture is identical.

More preferably, the quantity of the valve core case is not more than 3.

The purpose of this utility model is that proposing division box in a kind of embedded box, water flow stream is reduced while guaranteeing to supply water Amount saves water, while can replace shunt valve mechanism according to user's needs, increase or decrease the quantity of water outlet.

Detailed description of the invention

Fig. 1 is the structure chart of one embodiment of the utility model；

Fig. 2 is the structure chart of one embodiment of the utility model；

Fig. 3 is the structure chart of the pre-buried valve seat of one embodiment of the utility model；

Fig. 4 is the top view of the pre-buried valve seat of one embodiment of the utility model；

Fig. 5 is the sectional view of the pre-buried valve seat of one embodiment of the utility model；

Fig. 6 is the structure chart of the shunt valve mechanism of one embodiment of the utility model；

Fig. 7 is the rearview of the shunt valve mechanism of one embodiment of the utility model；

Fig. 8 is the sectional view of the shunt valve mechanism of one embodiment of the utility model；

Wherein: pre-buried valve seat 1；Pre-buried valve chamber 11；Mixed water cavity 111；First water chamber 112；Second water chamber 113；Third Water chamber 114；Water inlet 12；First water outlet 13；Second water outlet 14；Third water outlet 15；First discharge mechanism 16；First Apopore 161；Second apopore 162；Third apopore 163；First water intake mechanism 17；4th inlet opening 171；5th inlet opening 172；6th inlet opening 173；Shunt valve mechanism 2；Shunt valve chamber 21；First intake antrum 211；Second intake antrum 212；Third water inlet Chamber 213；Valve core case 22；Second water intake mechanism 23；First inlet opening 231；Second inlet opening 232；Third inlet opening 233；Second Discharge mechanism 24；4th apopore 241；5th apopore 242；6th apopore 243；Mounting hole 3.

Specific embodiment

Further illustrate the technical solution of the utility model with reference to the accompanying drawing and by specific embodiment mode.

Division box in a kind of embedded box, including pre-buried valve seat 1 and shunt valve mechanism 2；

The shunt valve mechanism 2 is set to the pre-buried valve seat 1 by mounting hole 3；

The pre-buried valve seat 1 includes pre-buried valve chamber 11, water inlet 12, the first water outlet 13, the second water outlet 14 and third Water outlet 15, the water inlet 12 are set to one end of the pre-buried valve chamber 11, first water outlet 13, second water outlet Mouth 14 and the third water outlet 15 are set to the other end of the pre-buried valve chamber 11；

The shunt valve mechanism 2 includes shunt valve chamber 21 and valve core case 22, and the valve core case 22 is set to the shunt valve Chamber 21；

The pre-buried valve chamber 11 is equipped with the first discharge mechanism 16 and the first water intake mechanism 17, and the shunt valve chamber 21 is equipped with Second water intake mechanism 23 corresponding with the pre-buried valve chamber 11 and the second discharge mechanism 24, mixing water pass through the water inlet 12 The pre-buried valve chamber 11 is flowed into, mixing water flows into second water intake mechanism 23 by first discharge mechanism 16, into institute After stating shunt valve chamber 21, first water intake mechanism 17 is flowed to from second discharge mechanism 24, into the pre-buried valve chamber 11 Afterwards, it is flowed out from first water outlet 13, second water outlet 14 or third water outlet 15.

As shown in Fig. 1,2,4,6,7, division box described in this example is installed in embedded box, and division box includes pre-buried valve Seat 1 and shunt valve mechanism 2, shunt valve mechanism 2 are installed on the pre-buried valve seat 1 by the mounting hole 3, the pre-buried valve seat 1 is equipped with pre-buried valve chamber 11, and the pre-buried valve chamber 11 is equipped with the first discharge mechanism 16 and the first water intake mechanism 17, the shunt valve chamber 21 are equipped with second water intake mechanism 23 corresponding with the pre-buried valve chamber 11 and the second discharge mechanism 24, mixing water by it is described into The mouth of a river 12 flows into the pre-buried valve chamber 11, and mixing water flows into second water intake mechanism 23 by first discharge mechanism 16, Into after the shunt valve chamber 21, first water intake mechanism 17 is flowed to from second discharge mechanism 24, into described pre-buried After valve chamber 11, flowed out from first water outlet 13, second water outlet 14 or third water outlet 15.

Further description, the pre-buried valve chamber 11 include mixed water cavity 111, the first water chamber 112, the second water chamber 113 and third water chamber 114, the mixed water cavity 111 be connected to the water inlet 12, first water chamber 112 and described the The connection of one water outlet 13, second water chamber 113 are connected to second water outlet 14, the third water chamber 114 and institute State the connection of third water outlet 15.

As shown in figure 5, pre-buried valve chamber 11 described in this example includes mixed water cavity 111, the first water chamber 112, the second water chamber 113 and third water chamber 114, the capacity of the mixed water cavity 111 is greater than first water chamber 112, second water chamber 113 and the third water chamber 114, the mixed water cavity 111 can accommodate more mixing waters and enter, first water chamber 112, second water chamber 113 and the third water chamber 114 are separately connected first water outlet 13, described second go out The mouth of a river 14 and the third water outlet 15, and the first water chamber 112, the second water chamber 113 and third water chamber 114 do not connect mutually It is logical, mixing water respectively is provided for water outlet, ensure that the water flow of each water outlet is identical.

Further description, the shunt valve chamber 21 include the first intake antrum 211, the second intake antrum 212 and third into Water cavity 213, first intake antrum 211, second intake antrum 212 and the third intake antrum 213 are disconnected with each other.

As shown in figure 8, in this example, first intake antrum 211, second intake antrum 212, the third intake antrum 213 are disconnected with each other, and the mixing water in the mixed water cavity 111 separately flows into first intake antrum 211, second intake antrum 212 and the third intake antrum 213 in, first intake antrum 211, second intake antrum 212 and the third intake antrum 213 provide mixing water to the first water chamber 112, the second water chamber 113 and third water chamber 114 respectively again, because not connecting mutually It is logical, so the water flow provided is identical.

Further description, first discharge mechanism 16 include the first apopore 161, the second apopore 162 and the Three apopores 163, first apopore 161, second apopore 162 and the third apopore 163 are respectively arranged at The top of the mixed water cavity 111.

Three apopores are set as shown in figure 4, being arranged at the top of the mixed water cavity 111 in this example, respectively to described first Intake antrum 211, second intake antrum 212 and the third intake antrum 213 offer mixing water, and first apopore 161, Second apopore 162 is identical with 163 aperture of third apopore, ensure that the identical of water flow.

Further description, second water intake mechanism 23 include the first inlet opening 231, the second inlet opening 232 and the Three inlet openings 233, first inlet opening 231 are set to the bottom of first intake antrum 211, second inlet opening 232 It is set to the bottom of second intake antrum 212, the third inlet opening 233 is set to the bottom of the third intake antrum 213 Portion.

As shown in fig. 7, the first inlet opening 231 described in this example, second inlet opening 232 and the third inlet opening 233 aperture is identical, ensure that and flows into first intake antrum 211, second intake antrum 212 and the third intake antrum 213 water flow is identical.

Further description, second discharge mechanism 24 include the 4th apopore 241, the 5th apopore 242 and the Six apopores 243, the 4th apopore 241 are set to the bottom of first intake antrum 211 and are located at first water inlet The side in hole 231, the 5th apopore 242 are set to the bottom of second intake antrum 212 and are located at second water inlet The side in hole 232, the 6th apopore 243 are set to the bottom of the third intake antrum 213 and are located at the third and intake The side in hole 233.

Further description, first water intake mechanism 17 include the 4th inlet opening 171, the 5th inlet opening 172 and the Six inlet openings 173, the 4th inlet opening 171 are set to the top of first water chamber 112, the 5th inlet opening 172 It is set to the top of second water chamber 113, the 6th inlet opening 173 is set to the top of the third water chamber 114 Portion.

Further description, first apopore 161 is correspondingly arranged with first inlet opening 231 and aperture phase Together, second apopore 162 is correspondingly arranged with second inlet opening 232 and aperture is identical, the third apopore 163 with The third inlet opening 233 is correspondingly arranged and aperture is identical.

As shown in figs. 4 and 7, first apopore 161 is correspondingly arranged and aperture phase with first inlet opening 231 Together, second apopore 162 is correspondingly arranged with second inlet opening 232 and aperture is identical, the third apopore 163 with The third inlet opening 233 is correspondingly arranged and aperture is identical, ensure that mixing water is sufficiently fully flowed into from mixed water cavity 111 to described In first intake antrum 211, second intake antrum 212 and the third intake antrum 213, prevent mixing water leakage cause waste and Damage to equipment.

Further description, the 4th apopore 241 is correspondingly arranged with the 4th inlet opening 171 and aperture phase Together, the 5th apopore 242 is correspondingly arranged with the 5th inlet opening 172 and aperture is identical, the 6th apopore 243 with 6th inlet opening 173 is correspondingly arranged and aperture is identical.

As shown in figs. 4 and 7, the 4th apopore 241 described in this example is correspondingly arranged and hole with the 4th inlet opening 171 Diameter is identical, and the 5th apopore 242 is correspondingly arranged with the 5th inlet opening 172 and aperture is identical, the 6th apopore 243 are correspondingly arranged and aperture is identical with the 6th inlet opening 173, ensure that mixing water from first intake antrum 211, described Second intake antrum 212 and the third intake antrum 213 are sufficiently fully flowed into first water chamber 112, second water outlet In chamber 113 and the third water chamber 114, waste and the damage to equipment caused by preventing mixing water from leaking.

The quantity of further description, the valve core case 22 is not more than 3.

As shown in figures 1-8, in one embodiment of the utility model, the quantity of the valve core case 22 is 3, i.e., described 3 shut-off valves are installed in valve core case 22.Mixing water enters in the mixed water cavity 111 after the water inlet 12 inflow.At this time Mix moisture in mixed water cavity 111 provides mixing water to 3 water outlets respectively at three tunnels, and first via mixing water goes out through described first Water hole 161 and the first inlet opening 231 flow into first intake antrum 211, and after shut-off valve is opened, mixing water is through the described 4th Apopore 241 and the 4th inlet opening 171 flow into first water chamber 112, then are flowed out by first water outlet 13； Second road mixing water flows into second intake antrum 212 through second apopore 162 and the second inlet opening 232, cut-off After valve is opened, mixing water flows into second water chamber 113 with the 5th inlet opening 172 through the 5th apopore 242, It is flowed out again by second water outlet 14；Third road mixing water is flowed into through the third apopore 163 and third inlet opening 233 In the third intake antrum 213, after shut-off valve is opened, mixing water is through the 6th apopore 243 and the 6th inlet opening 173 The third water chamber 114 is flowed into, then is flowed out by the third water outlet 15.

In another embodiment of the utility model, as shown in Fig. 2, the quantity of the valve core case 22 is 2, i.e., described 2 shut-off valves are installed in valve core case 22.Mixing water enters in the mixed water cavity 11 after the water inlet 12 inflow, mixes at this time Mix moisture in water cavity 111 supplies water to first water outlet 13 and the third water outlet 15 respectively at two-way.The first via Mixing water flows into first intake antrum 211 through first apopore 161 and the first inlet opening 231, and shut-off valve is opened Afterwards, mixing water flows into first water chamber 112 with the 4th inlet opening 171 through the 4th apopore 241, then by institute State the outflow of the first water outlet 13；Second road mixing water flows into described through the third apopore 163 and third inlet opening 233 In third intake antrum 213, after shut-off valve is opened, mixing water is flowed into through the 6th apopore 243 with the 6th inlet opening 173 The extremely third water chamber 114, then flowed out by the third water outlet 15.

The place different from embodiment 1 of embodiment 2 is, reduces the water outlet of a mixing water, within the unit time The mixing water for flowing into 12 same traffic of water inlet reduces the water outlet that a water outlet increases other two water outlet Flow velocity, and the method for changing flow velocity only needs replacing the shunt valve mechanism 2, mixing water is from the mixed water cavity 111 Just ended after flowing to the shunt valve chamber 21, may not flow into second water chamber 113.

Technical principle of the utility model has been described above with reference to specific embodiments.These descriptions are intended merely to explain this reality With novel principle, and it cannot be construed to the limitation to scope of protection of the utility model in any way.Based on the explanation herein, Those skilled in the art, which does not need to pay for creative labor, can associate with other specific implementation modes of this utility model, These modes are fallen within the protection scope of the utility model.

Claims (10)

1. division box in a kind of embedded box, it is characterised in that: including pre-buried valve seat and shunt valve mechanism；

The shunt valve mechanism is set to the pre-buried valve seat by mounting hole；

The pre-buried valve seat includes pre-buried valve chamber, water inlet, the first water outlet, the second water outlet and third water outlet, it is described into The mouth of a river is set to one end of the pre-buried valve chamber, and first water outlet, second water outlet and the third water outlet are set It is placed in the other end of the pre-buried valve chamber；

The shunt valve mechanism includes shunt valve chamber and valve core case, and the valve core case is set to the shunt valve chamber；

The pre-buried valve chamber is equipped with the first discharge mechanism and the first water intake mechanism, and the shunt valve chamber is equipped with and the pre-buried valve chamber Corresponding second water intake mechanism and the second discharge mechanism, mixing water flow into the pre-buried valve chamber, mixing by the water inlet Water flows into second water intake mechanism by first discharge mechanism, into after the shunt valve chamber, from second water outlet Mechanism flows to first water intake mechanism, into after the pre-buried valve chamber, from first water outlet, second water outlet or The outflow of third water outlet.

2. division box in a kind of embedded box according to claim 1, it is characterised in that: the pre-buried valve chamber includes mixed water Chamber, the first water chamber, the second water chamber and third water chamber, the mixed water cavity are connected to the water inlet, first water outlet Chamber is connected to first water outlet, and second water chamber is connected to second water outlet, the third water chamber and institute State the connection of third water outlet.

3. division box in a kind of embedded box according to claim 1, it is characterised in that: the shunt valve chamber includes first Intake antrum, the second intake antrum and third intake antrum, first intake antrum, second intake antrum and the third intake antrum are mutual It is not connected to mutually.

4. division box in a kind of embedded box according to claim 2, it is characterised in that: first discharge mechanism includes First apopore, the second apopore and third apopore, first apopore, second apopore and third water outlet Hole is respectively arranged at the top of the mixed water cavity.

5. division box in a kind of embedded box according to claim 4, it is characterised in that: second water intake mechanism includes First inlet opening, the second inlet opening and third inlet opening, first inlet opening are set to the bottom of first intake antrum, institute The bottom that the second inlet opening is set to second intake antrum is stated, the third inlet opening is set to the bottom of the third intake antrum Portion.

6. division box in a kind of embedded box according to claim 5, it is characterised in that: second discharge mechanism includes 4th apopore, the 5th apopore and the 6th apopore, the 4th apopore are set to the bottom of first intake antrum simultaneously Positioned at the side of first inlet opening, the 5th apopore is set to the bottom of second intake antrum and is located at described the The side of two inlet openings, the 6th apopore are set to the bottom of the third intake antrum and are located at the third inlet opening Side.

7. division box in a kind of embedded box according to claim 6, it is characterised in that: first water intake mechanism includes 4th inlet opening, the 5th inlet opening and the 6th inlet opening, the 4th inlet opening are set to the top of first water chamber, institute The top that the 5th inlet opening is set to second water chamber is stated, the 6th inlet opening is set to the top of the third water chamber Portion.

8. division box in a kind of embedded box according to claim 5, it is characterised in that: first apopore with it is described First inlet opening is correspondingly arranged and aperture is identical, and second apopore is correspondingly arranged with second inlet opening and aperture phase Together, the third apopore is correspondingly arranged with the third inlet opening and aperture is identical.

9. division box in a kind of embedded box according to claim 7, it is characterised in that: the 4th apopore with it is described 4th inlet opening is correspondingly arranged and aperture is identical, and the 5th apopore is correspondingly arranged with the 5th inlet opening and aperture phase Together, the 6th apopore is correspondingly arranged with the 6th inlet opening and aperture is identical.

10. division box in a kind of embedded box according to claim 1, it is characterised in that: the quantity of the valve core case is not More than 3.