TWM517762U - Faucet water-saving device - Google Patents

Description

Faucet water saving device

The invention relates to a water saving device, in particular to a water saving device installed on a faucet.

The faucet is a hardware device that is indispensable in daily life. It is used to control the supply of water, which brings convenience to the operator's life, and can be used according to the location where it is used, such as: Baths are used to classify faucets into various forms.

Today, when environmental awareness is rising, water conservation has become a problem that must be addressed. For the control of water consumption, the current practice is to use a water wave 80, as shown in Figure 8, installed at the outlet of a faucet 70. By the arrangement of the filter screen inside the water waver 80, the water flow leaving the water outlet of the faucet 70 and flowing through the water waver 80 can be mixed with the air to generate a water flow containing the foam water flow, thereby replacing the portion of the air. Therefore, the water saving effect can be achieved. However, the water saving effect obtained by installing the water wave device 80 only at the outlet of the faucet 70 is limited, which not only contributes to the saving of water consumption, but also causes the general household to use water. burden.

At the same time, although there are other forms of water-saving devices on the market, the operator manually operates the water-saving device when the water consumption demand is large, so that the water flow rate of the faucet becomes larger, and vice versa. Hours, that is, the water saving device is reversely adjusted to the original position, thereby controlling the water flow to return to the original water supply amount. However, it is not easy to control the water supply of the water saving device by manually adjusting the water supply amount of the water saving device by the operator. The degree also causes inconvenience to the operator.

The purpose of the novel is to improve the water consumption in the prior art by using a water wave device, and the water saving effect is not good, and the current water saving device cannot be automatically returned to the home, resulting in inconvenience in operation, etc., and the implementation of the novel technical means In order to obtain a limited and quantitative water flow when using water normally, the water consumption can be increased when there is demand, and after the faucet is closed, it can be automatically returned to a small water supply.

In order to achieve the above-mentioned creative purposes, the technical means adopted by the present invention is to design a faucet water-saving device, which has a receiving seat, a flow control member, a flow blocking member, a plurality of positioning balls and an actuating member; The device has a device slot, a set of a seat, a flange, an assembly hole and a plurality of through slots. The device slot is formed on the top surface of the receiving seat, and the set of seats is protruded and formed in the center of the bottom surface of the device slot. And forming a first-class hole, the flange is formed in a radial direction of the outer edge of the bottom of the receiving seat, and the assembly hole is formed on the bottom end of the receiving seat and communicates with the flow hole. The plurality of through grooves are spaced apart and radially penetrated from the peripheral wall surface of the accommodating seat, and communicate with the device slot, the forming position of the through groove can correspond to the set of seats; the flow control member has a consistent hole a first through hole and a plurality of second through holes formed at a center of a top surface of the flow control member, the first through hole being formed at a center of a bottom surface of the flow control member, the second pass Hole spacing is set and arranged in a ring shape Formed on the bottom surface of the flow control member, the first through hole and the second through hole communicate with the through hole, the flow control member is disposed inside the device slot of the receiving seat, and the bottom surface abuts against the receiving seat The inner wall surface of the device slot, the through hole and the first through hole are correspondingly located corresponding to the flow holes of the set of seats; the flow blocking member has a set of holes and a guide hole, the set hole The through-hole is formed on the bottom of the baffle, and the reciprocating member is reciprocally movable and sealed in the device slot of the receiving seat and the set of seats. The top surface of the flow blocking member can abut against the bottom surface of the flow control member to enclose the plurality of second through holes, and the set of holes is sleeved on the outer wall surface of the set of seats; The positioning balls are respectively disposed in the plurality of through slots of the receiving seat, and the portion of the positioning ball can abut against the guiding portion of the blocking member; the actuating member has a mounting hole, a first receiving slot and a first a second receiving groove, the mounting hole is formed in the actuating member, and the first receiving groove and the second receiving groove are formed in the recess Forming the inner wall surface of the mounting hole, and each is located at the bottom end and the top end of the actuating member, and the actuating member is reciprocally sleeved on the outer wall surface of the receiving seat, and the bottom surface of the first receiving groove can abut A portion of the positioning ball can be received in the second receiving groove at the flange of the receiving seat.

The faucet water-saving device, wherein a convex portion of the inner wall surface of the device slot of the accommodating seat forms a step portion; the flow control member has a drain plate and a restrictor plate; the drain plate has the through hole And a recess formed in the center of the drainage plate, the recess is formed on the bottom surface of the drainage plate and can communicate with the through hole; the current limiting plate has the first through hole and the a plurality of second through holes, the first through holes are formed at a center of the current limiting plate, and the plurality of second through holes are formed at intervals and are formed in an annular shape, and the current limiting plate is formed The top surface abuts against the bottom surface of the drainage plate, and the bottom surface of the current limiting plate abuts against the step portion of the device slot, and the plurality of second through holes are correspondingly located corresponding to the recess of the drainage plate.

The faucet water saving device, wherein the flow blocking member has a closing block, a first spring, a first sealing ring and a second sealing ring; the closing block has the set hole, a fixing groove, and a first a mounting groove, a second mounting groove and the guiding portion, the set hole is formed in the center of the closing block, the fixing groove is formed in an annular recess on the bottom surface of the closing block, and surrounds the The first mounting groove is formed on the outer wall surface of the closing block, and the second mounting groove is formed on the inner wall surface of the closing block forming the assembly hole, and the guiding portion is located in the closing block. The top surface of the closing block can abut against the bottom surface of the current limiting plate to enclose the plurality of second through holes; the first spring is sleeved on the outer edge of the assembly seat of the receiving seat a wall surface, the first end of the first spring abuts against the bottom surface of the device slot, and the other end abuts against the fixing groove of the closing block; the first sealing ring is received inside the first mounting groove and abuts against An inner wall surface of the device slot; the second sealing ring is received in the second installation groove and abuts against Wall outside edge Shezuo group.

The faucet water-saving device, wherein the actuating member has a ring block and a second spring; the ring block has the mounting hole, the first receiving groove and the second receiving groove, wherein the mounting hole is formed through the hole a central portion of the ring block, the first receiving groove is located at a bottom end of the ring block to form an inner edge wall surface of the mounting hole, and the second receiving groove is located at a top end of the ring block to form an inner edge wall surface of the mounting hole; The two springs are disposed inside the first receiving groove, and the second end of the second spring abuts against the flange of the receiving seat, and the other end abuts against the top surface of the first receiving groove.

The faucet water-saving device, wherein the through-groove is tapered toward the inner portion from the outer wall surface of the accommodating seat, and the through-groove communicates with the inside of the device slot; the positioning ball can partially protrude beyond the accommodating seat The edge wall surface is received in the second pocket of the ring block, and the positioning ball can partially protrude from the inner edge wall surface of the device slot of the receiving seat to abut the rounding portion of the flow block.

The faucet water-saving device, wherein the accommodating seat further has a first joint portion, the first joint portion is formed on a top edge outer wall surface of the accommodating seat; and the assembly hole further has a second joint portion. The second joint portion is formed on an inner edge wall surface of the accommodating seat forming the assembly hole.

The faucet water-saving device further has a gasket, the gasket is a hollow annular body, the gasket is disposed on a top surface of the flow control member, and the hollow portion of the gasket corresponds to the through hole and the first Through hole.

The advantage of the novel is that the flow rate of the flow control member and the flow block can be controlled to control the flow of water flowing through the faucet water-saving device of the present invention, and the displacement of the actuating member and the positioning ball can be actuated to drive the flow block. Lifting displacement, thereby controlling the plurality of second through holes of the flow restricting plate of the flow control member to be closed or opened, thereby achieving the purpose of increasing the amount of water used by the operator, and the common water demand when the faucet is opened, positioning the ball and The first spring keeps the blocking block of the flow blocking member against the bottom surface of the current limiting plate to close the second through hole, so that the water flow can only pass through the first through hole of the current limiting plate, thereby restricting the flow of water flowing out of the faucet. In order to obtain the effect of saving water consumption, and when the faucet is closed and the water flow stops, the closing block of the flow blocking member is automatically restored to the original position to seal the limit plate of the current limiting plate due to the elastic force of the first spring. The two-way hole, thereby achieving the effect that the water-saving device of the faucet of the present invention can automatically return to the minimum water supply amount.

The technical means adopted by the present invention for achieving the intended purpose of creation are further explained below in conjunction with the drawings and the preferred embodiments of the present invention.

Referring to FIG. 1 to FIG. 3 , the faucet water saving device of the present invention has a receiving seat 10 , a flow control member 20 , a spoiler 30 , a plurality of positioning balls 40 , an actuating member 50 , and a washer 60 .

As shown in FIG. 3 to FIG. 4 , the accommodating base 10 has a device slot 11 , a set of seats 12 , a first joint portion 13 , a flange 14 , an assembly hole 15 , and a plurality of through slots 100 .

The device slot 11 is recessed on the top surface of the receiving base 10 and has a stepped portion 111. The stepped portion 111 is formed in a radial direction on the inner wall surface of the device slot 11.

The axial extension of the set of seats 12 is formed at the center of the bottom surface of the device slot 11, and a first-class hole 121 is formed through the center.

The first joint portion 13 is formed on the outer peripheral wall surface of the accommodating seat 10, and specifically, the first joint portion 13 has an external thread.

The flange 14 is formed in a radial direction on the outer edge wall surface of the bottom end of the receiving seat 10.

The assembly hole 15 is recessed and formed on the bottom end surface of the accommodating base 10, and has a second joint portion 151. The second joint portion 151 is located at the inner wall surface of the accommodating seat 10 to form the assembly hole 15. Specifically, The second joint portion 151 has an internal thread; the second joint portion 151 communicates with the flow hole 121 of the assembly seat 12 .

The plurality of through grooves 100 are formed in the circumferential wall of the accommodating seat 10, and the through grooves 100 are tapered from the outer wall surface of the accommodating seat 10 toward the inside of the accommodating seat 10; The through groove 100 communicates with the inside of the device slot 11, and the forming position of the through groove 100 can correspond to the set of seats 12.

As shown in FIG. 3 and FIG. 4 , the spoiler 30 has a plurality of holes 311 and a circular guide portion 310 . The set hole 311 is formed through the spoiler 30 , and the guide portion 310 is formed thereon. The bottom rim of the baffle member 30; the baffle member 30 is reciprocally movable and sealed between the device slot 11 of the accommodating seat 10 and the assembly seat 12, and the set of holes 311 is sealed. The sleeve is disposed on the outer wall surface of the set of seats 12.

Specifically, the spoiler 30 has a closing block 31, a first spring 32, a first sealing ring 33 and a second sealing ring 34.

The closing block 31 has the set hole 311, a fixing groove 312, a first mounting groove 313, a second mounting groove 314 and the guiding portion 310. The closing block 31 is mounted on the receiving seat 10. Inside the device slot 11.

The set of holes 311 is formed through the center of the closing block 31.

The fixing groove 312 has an annular recess formed on the bottom surface of the closing block 31 and surrounds the set hole 311.

The first mounting groove 313 is recessed on the outer wall surface of the closing block 31, and the second mounting groove 314 is recessed in the inner wall surface of the closing block 31 forming the assembly hole 311.

The rounding portion 310 is located at the bottom edge of the closing block 31.

One end of the first spring 32 abuts against the fixing groove 312 of the closing block 31; the first spring 32 is sleeved on the outer wall surface of the assembly seat 12 of the receiving seat 10, and the first spring 32 is further One end abuts against the bottom surface of the device slot 11.

The first sealing ring 33 is received inside the first mounting groove 313 of the closing block 31 and abuts against the inner wall surface of the device slot 11 .

The second sealing ring 34 is disposed inside the second installation groove 314 and abuts against the outer wall surface of the assembly seat 12 .

Referring to FIG. 3 , FIG. 4 and FIG. 6 , the flow control member 20 has a constant hole 211 , a first through hole 221 and a plurality of second through holes 222 . The through hole 211 is formed through the flow control member 20 . The first through hole 221 is formed in the center of the bottom surface of the flow control member 20, and the second through holes 222 are formed in a ring shape and formed in a ring shape on the bottom surface of the flow control member 20. The first through hole 221 and the second through hole 222 are communicated with the through hole 211; the flow control member 20 is disposed inside the device slot 11 of the receiving base 10, and the bottom surface abuts against the inner wall surface of the device slot 11. The through hole 211 and the first through hole 221 are correspondingly located corresponding to the flow hole 121 of the set of seats 12, and the top surface of the flow block 30 can abut against the bottom surface of the flow control member 20 for sealing The plurality of second through holes 222.

Referring to FIG. 3 to FIG. 5 , specifically, the flow control member 20 has a drain plate 21 and a restrictor plate 22 .

The drain plate 21 has the through hole 211 and a recess 212.

The through hole 211 is formed at the center of the drainage plate 21 . The recess 212 is recessed on the bottom surface of the drainage plate 21 and can communicate with the through hole 211 .

The current limiting plate 22 has the first through hole 221 and the plurality of second through holes 222.

The first through hole 221 is formed at a center of the restrictor plate 22; the first through hole 221 and the through hole 211 are correspondingly located corresponding to the flow hole 121 of the set of seats 12.

The plurality of second through holes 222 are formed in a ring-shaped arrangement and are formed in an annular shape. The top surface of the current limiting plate 22 abuts against the bottom surface of the drainage plate 21, and the bottom surface of the current limiting plate 22 The plurality of second through holes 222 are correspondingly located to the recess 212, and the top surface of the closing block 31 can abut the restrictor plate. The bottom surface of 22 is configured to enclose the plurality of second through holes 222.

As shown in FIG. 2 to FIG. 4 , the plurality of positioning balls 40 are respectively received in the plurality of through slots 100 of the receiving base 10 , and the positioning balls 40 can partially protrude from the device slot 11 of the receiving seat 10 . The inner edge wall surface abuts against the guide portion 310 of the spoiler 30, and the positioning ball 40 can partially protrude from the outer edge wall surface of the receiving seat 10.

As shown in FIG. 2 and FIG. 4 , the actuating member 50 has a mounting hole 510 , a first receiving slot 511 and a second receiving slot 512 . The mounting hole 510 is formed through the actuating member 50 . The recesses of the slot 511 and the second recess 512 are formed on the inner wall surface of the mounting member 510, and are respectively located at the bottom end and the top end of the actuating member 50. The movable member 50 can be reciprocally moved. The bottom surface of the first receiving groove 511 can abut against the flange 14 of the receiving seat 10, and the second receiving groove 512 can accommodate the protruding portion of the receiving seat 10 positioning ball 40 on the outer edge wall.

Specifically, the actuating member 50 has a ring block 51 and a second spring 52. The actuating member 50 is reciprocally sleeved on the outer wall surface of the receiving seat 10.

The ring body 51 has the mounting hole 510, the first receiving groove 511 and the second receiving groove 512. The ring block 51 is sleeved on the outer wall surface of the receiving seat 10 to form the end of the flange 14.

The mounting hole 510 is formed through the center of the ring block 51.

The first pocket 511 is recessed on the inner wall surface of the ring block 51 forming the mounting hole 510 and is located at the bottom end of the ring block 51.

The second pocket 512 is recessed in the inner wall surface of the ring block 51 forming the mounting hole 510 and is located at the top end of the ring block 51.

The second spring 52 is disposed inside the first receiving slot 511. The second end of the second spring 52 abuts against the flange 14 of the receiving seat 10, and the other end abuts against the top of the first receiving slot 511. surface.

As shown in FIG. 2 and FIG. 4 , the gasket 60 is a hollow annular body. The gasket 60 is disposed on the device slot 11 of the receiving seat 10 and is located on the top surface of the drainage plate 21 of the flow control member 20 . The hollow portion of the gasket 60 corresponds to the through hole 211 of the drain plate 21 and the first through hole 221 of the restrictor plate 22.

The faucet water-saving device of the present invention is installed at the water outlet of the faucet, and the operation method of using the faucet water-saving device is as follows. First, the operator opens the faucet to provide water flow to the faucet water-saving device of the present invention.

Referring to FIG. 4, the water flow will sequentially flow through the hollow portion of the gasket 60, the through hole 211 of the drainage plate 21 of the flow control member 20, and the first through hole 221 of the restrictor plate 22, the choke. The assembly hole 311 of the block 31 of the piece 30 and the flow hole 121 of the set seat 12 of the accommodating seat 10 further leave the faucet water-saving device of the present invention, so that the operator can obtain a limited and quantitative water. flow.

If the operator wants to adjust the flow rate of the water, please refer to FIG. 5 and FIG. 6 simultaneously, and the operator pulls down the actuator 50 to move the ring block 51 downward against the tension of the second spring 52. The flange 14 of the receiving seat 10 is away from the bottom surface of the first receiving slot 511, and the water flows through the plurality of second through holes 222 of the restrictor plate 22 to impact the closing block 31 of the blocking member 30, so that the The closing block 31 can compress the first spring 32 to be displaced downward to the bottom surface of the device slot 11 and push the guiding portion 310 of the blocking block 31 against the positioning ball 40 in the through slot 100 of the receiving seat 10, The positioning ball 40 is received in the second receiving groove 512 of the ring block 51 to protrude from the outer wall surface of the receiving block 10 .

The water flow of the faucet continues to flow through the through hole 211 of the drainage plate 21, the first through hole 221 of the restrictor plate 22, and the plurality of second through holes 222, so that the closing block 31 is kept in the receiving seat 10. The bottom surface of the groove 11 is opened by the plurality of second through holes 222, so that the water flow rate of the faucet water-saving device of the present invention can be increased, so that the water flow after the increased flow rate passes through the through hole 211 of the drainage plate 21, The first through hole 221 of the restrictor plate 22 and the plurality of second through holes 222, and the flow holes 121 of the set of seats 12, leave the faucet water saving device of the present invention.

Referring to FIG. 4, on the contrary, when the operator closes the faucet to prevent the water from flowing to the faucet water-saving device of the present invention, the first spring 32 pushes the block 31 away from the bottom surface of the device slot 11 and is displaced upward. And closing the plurality of second through holes 222 of the restrictor plate 22, and the positioning ball 40 leaves the second receiving slot 512 of the ring block 51 and retreats into the through slot 100, so that the ring block 51 is subjected to the first When the two springs 52 are pushed up and moved upward, the bottom surface of the first receiving groove 511 abuts against the flange 14 of the receiving seat 10, and the positioning ball 40 protrudes from the inner wall surface of the mounting groove 11 to reach Relying on the rounded portion 310 of the closure block 31.

The water sump of the faucet is installed in a faucet. Referring to FIG. 4 and FIG. 7 , the first joint portion 13 of the accommodating seat 10 is installed at the water outlet of a faucet 70 , and the washer 60 is topped. Between the receiving seat 10 and the water outlet of the faucet 70 to ensure the sealing of the water flow, the second joint portion 151 of the assembling hole 15 of the receiving seat 10 can be used to assemble a prior art water wave 80. In order to produce a mixture of water and air.

In the assembly process of the present invention, the ring block 51 of the actuating member 50 is assembled from the outer wall of the accommodating seat 10 by two symmetrical separating blocks, and the splitting of the two symmetrical separating blocks is performed. The surface is aligned and then ultrasonically coupled to complete the two symmetric separation block joints, thereby obtaining the embodiment of the actuator 50 disposed on the receiving seat 10, and the ultrasonic fusion The process is prior art and will not be described here. At the same time, the specific process of joining the ring block 51 is not limited to the ultrasonic fusion mode.

The guiding portion 310 of the closing block 31 is designed to reduce the contact area between the closing block 31 and the positioning ball 40, thereby reducing the frictional resistance, thereby facilitating the downward displacement of the closing block 31 to push the positioning ball. The action of 40 is carried out.

Through the cooperation of the flow control member 20 and the spoiler 30, the present invention can control the flow of water flowing through the faucet water-saving device of the present invention, and the displacement of the actuating member 50 and the positioning ball 40 can be activated. The lifting and lowering displacement of the spoiler 30, thereby controlling the plurality of second through holes 222 of the restrictor plate 22 of the flow control member 20 to be closed or opened, thereby achieving the purpose of increasing the amount of water for the operator, and The locating ball 40 and the first spring 32 keep the closing block 31 of the spoiler 30 against the bottom surface of the restrictor plate 22 to close the second through hole 222, so that the water flow can only be borrowed. The first through hole 221 passes through, thereby restricting the flow of water flowing out of the faucet, thereby achieving the effect of saving water.

After the faucet 70 is closed so that the water flow stops, the closing block 31 of the spoiler 30 is automatically restored to the original position by the elastic force of the first spring 32 to seal the plurality of second through holes of the restrictor plate 22. 222, so that when the operator turns on the water of the faucet 70 next time, the water flow can only flow out from the first through hole 221, so that the faucet water saving device of the present invention supplies a minimum water supply amount, thereby achieving the automatic homing of the present invention. The effect of water flow.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Although the present invention has been disclosed above in the preferred embodiments, it is not intended to limit the present invention, and In general, those skilled in the art can make some modifications or modifications to equivalent embodiments by using the technical content disclosed above, without departing from the scope of the present invention. Any novel modifications, equivalent changes, and modifications made to the above embodiments are still within the scope of the present invention.

10‧‧‧ 容座
11‧‧‧ device slot
111‧‧‧Steps
12‧‧‧ set up
121‧‧‧ orifice
13‧‧‧ First Joint Department
14‧‧‧Flange
15‧‧‧Assembled holes
151‧‧‧Second junction
100‧‧‧through slot
20‧‧‧Flow Controls
21‧‧‧ Drainage board
211‧‧‧through holes
212‧‧‧ recess
22‧‧‧Limitor
221‧‧‧ first through hole
222‧‧‧Second through hole
30‧‧‧Baffle
31‧‧‧closed block
311‧‧‧Set holes
312‧‧‧fixed slot
313‧‧‧First installation ditch
314‧‧‧Second installation ditch
310‧‧‧guides
32‧‧‧First spring
33‧‧‧First seal
34‧‧‧Second seal
40‧‧‧ Positioning ball
50‧‧‧actuation
51‧‧‧ ring block
511‧‧‧first pocket
512‧‧‧Second capacity
510‧‧‧ mounting holes
52‧‧‧Second spring
60‧‧‧Washers
70‧‧‧Water tap
80‧‧‧Water waver

Figure 1 is a front elevational view of the water faucet of the novel faucet. 2 is a first perspective exploded view of the water faucet device of the novel faucet. Figure 3 is a second perspective exploded view of the water faucet device of the novel faucet. Figure 4 is a cross-sectional view of the water faucet device of the novel faucet. Figure 5 is a cross-sectional view of the faucet water saving device of the present invention. Fig. 6 is a schematic cross-sectional view showing the operation of the water eliminator of the novel faucet. Fig. 7 is a front elevational exploded view of the faucet water-saving device installed on the faucet. Figure 8 is a front elevational exploded view of a prior art faucet.

10‧‧‧ 容座

100‧‧‧through slot

11‧‧‧ device slot

111‧‧‧Steps

12‧‧‧ set up

121‧‧‧ orifice

14‧‧‧Flange

15‧‧‧Assembled holes

151‧‧‧Second junction

21‧‧‧ Drainage board

211‧‧‧through holes

22‧‧‧Limitor

221‧‧‧ first through hole

31‧‧‧closed block

311‧‧‧Set holes

312‧‧‧fixed slot

313‧‧‧First installation ditch

314‧‧‧Second installation ditch

310‧‧‧guides

32‧‧‧First spring

33‧‧‧First seal

34‧‧‧Second seal

40‧‧‧ Positioning ball

51‧‧‧ ring block

511‧‧‧first pocket

512‧‧‧Second capacity

52‧‧‧Second spring

60‧‧‧Washers

Claims (7)

A faucet water saving device has a receiving seat, a flow control member, a flow blocking member, a plurality of positioning balls and an actuating member; the receiving seat has a device slot, a set of seats, a flange, and an assembly a hole and a plurality of through grooves, wherein the device groove is formed on a top surface of the receiving seat, the set seat is formed at a center of a bottom surface of the device groove, and penetrates to form a first-class hole, and the flange has a radial protrusion Forming on the outer wall surface of the bottom end of the accommodating seat, the assembly hole is recessed on the bottom end surface of the accommodating seat, and is connected to the flow hole, and the plurality of through grooves are spaced apart and the radial penetration is formed in the accommodating a peripheral wall of the seat, and communicating with the device slot, the forming position of the through groove can correspond to the set of seats; the flow control member has a consistent hole, a first through hole and a plurality of second through holes, the through hole The first through hole is formed at a center of a bottom surface of the flow control member, and the second through hole is formed at an interval and is formed in a ring shape and formed in the flow control member. a bottom surface, the first through hole and the second through hole The flow control member is disposed inside the device slot of the accommodating seat, and the bottom surface abuts against the inner wall surface of the device slot of the accommodating seat, and the through hole and the first through hole are in position Corresponding to the flow hole of the set of seats; the flow block has a set of holes and a guide portion, the set of holes is formed through the baffle, and the guide is formed on the bottom surface of the baffle At the rim, the baffle is reciprocally movable and sealed between the device slot of the accommodating seat and the set of seats, and the top surface of the baffle member can abut against the bottom surface of the flow control member Encapsulating the plurality of second through holes, the set of holes is sleeved on the outer wall surface of the set of seats; the plurality of positioning balls are respectively accommodated in the plurality of through grooves of the receiving seat, and the positioning ball The portion of the actuating member has a mounting hole, a first receiving slot and a second receiving slot, the mounting hole is formed through the actuating member, the first receiving slot and The recesses of the second pocket are formed on the inner wall surface of the actuating member forming mounting hole, and are respectively located in the actuating member a bottom end and a top end, the actuating member is reciprocally sleeved on the outer wall surface of the receiving seat, and the bottom surface of the first receiving groove can abut against the flange of the receiving seat, and the portion of the positioning ball can accommodate Located in the second tank. The faucet water-saving device of claim 1, wherein a radial extension of the inner wall surface of the device slot of the accommodating seat forms a step portion; the flow control member has a drainage plate and a current limiting plate; the drainage plate The through hole is formed at a center of the drainage plate, and the recess is formed on a bottom surface of the drainage plate and can communicate with the through hole; the current limiting plate has the first hole a through hole and the plurality of second through holes, the first through hole is formed at a center of the current limiting plate, and the plurality of second through holes are formed at intervals and are formed in an annular shape to form the current limiting plate. The top surface of the current limiting plate abuts against the bottom surface of the drainage plate, and the bottom surface of the current limiting plate abuts against the stepped portion of the device slot, and the plurality of second through holes correspond to the recess of the drainage plate. The faucet water saving device according to claim 2, wherein the flow blocking member has a closing block, a first spring, a first sealing ring and a second sealing ring; the closing block has the set hole and a fixing a groove, a first mounting groove, a second mounting groove and the guiding portion, the set hole is formed through the center of the closing block, and the fixing groove has an annular recess formed on the bottom surface of the closing block And forming a hole around the group, the first mounting groove is formed on the outer wall surface of the closing block, and the second mounting groove is formed on the inner edge wall surface of the closing block forming the grouping hole, the guiding portion Located at the bottom edge of the closing block, the top surface of the blocking block can abut against the bottom surface of the current limiting plate to seal the plurality of second through holes; the first spring is sleeved on the receiving seat The first edge of the first spring is abutted against the bottom surface of the device slot, and the other end is abutted in the fixing groove of the blocking block; the first sealing ring is received in the first installation groove. And abutting against an inner wall surface of the device slot; the second sealing ring is accommodated in the second installation groove And against the outside wall surface of the edge group Shezuo. The faucet water-saving device according to any one of claims 1 to 3, wherein the actuating member has a ring block and a second spring; the ring block has the mounting hole, the first receiving groove and the second capacity a groove, the mounting hole is formed at a center of the ring block, the first groove is located at a bottom end of the ring block to form an inner edge wall surface of the mounting hole, and the second receiving groove is formed at a top end of the ring block The inner wall of the mounting hole; the second spring is received in the first cavity, the one end of the second spring abuts against the flange of the receiving seat, and the other end abuts against the first receiving groove Top surface. The faucet water-saving device according to claim 4, wherein the through-groove is tapered toward the inner portion from the outer wall surface of the accommodating seat, and the through-groove communicates with the inside of the device slot; the positioning ball can partially protrude from the accommodating portion The outer edge wall of the seat is received in the second pocket of the ring block, and the positioning ball can partially protrude from the inner wall surface of the device slot of the receiving seat to abut the spoiler Guide circle. The faucet water-saving device of claim 5, wherein the accommodating seat further has a first joint portion formed on a top edge outer wall surface of the accommodating seat; and the assembly hole further has a first The second joint portion is formed on the inner edge wall surface of the accommodating seat to form the assembly hole. The faucet water saving device according to claim 6, further comprising a gasket, the gasket being a hollow annular body, the gasket being disposed on a top surface of the flow control member, and the hollow portion of the gasket corresponding to the through hole And the first through hole.