CN218078455U - Granule gondola water faucet that jet power is strong - Google Patents

Abstract

The utility model discloses a granule gondola water faucet that jet power is strong, including epitheca and inferior valve, be equipped with the water inlet on the epitheca, be equipped with the delivery port in the inferior valve, go up out the water cavity and go out the water cavity down including the mutual correspondence of position in the inferior valve, the cross-sectional area that goes up out the water cavity is greater than go out the cross-sectional area in water cavity down, go up to be equipped with the diversion subassembly in the water cavity, the diversion subassembly is including the reposition of redundant personnel piece, the one end of reposition of redundant personnel piece is equipped with the water diversion mouth, and the other end is equipped with the mouth of converging, the cross section size of water diversion mouth is greater than the cross section size at the mouth of converging, the water diversion mouth with be equipped with the rectification chamber between the mouth of converging, water can follow the diversion mouth gets into the rectification chamber is followed the mouth spouts. Adopt the utility model discloses, the granule splash that can the jet power is strong, and it sprays the impact force big, and jet distance is far away, the scope is wide, can spout the fine and close granule splash of granule moreover, can reach better massage effect.

Description

Granule gondola water faucet that jet power is strong

Technical Field

The utility model relates to a bathroom technical field especially relates to a granule gondola water faucet that jet power is strong.

Background

The shower head is a common bathroom accessory. The traditional shower head is only provided with a single spraying function generally, the water spray pattern is simple, the existing shower head is added with the function of spraying particle water on the basis of the traditional shower head, for example, chinese patent with the application number of CN201520434216.9 discloses a particle water shower head, the shower head is provided with a water outlet cover, the inner side of the water outlet cover is provided with a first water outlet area, a plurality of water outlet hole groups which are distributed concentrically are arranged in the first water outlet area, each water outlet hole group comprises an outer ring water outlet hole and an inner ring water outlet hole, the water outlet directions generated by the outer ring water outlet hole and the inner ring water outlet hole are inclined relative to a central shaft and opposite to the inclined directions, and the water flow of the inner ring water outlet hole and the outer ring water outlet hole generate interlacing collision and form particle water through the rotation of a water flow impact rotor. However, the impact force of the water flow of the particle shower head is weakened by components such as a rotor, the spraying distance of the sprayed particle water is small, the spraying range is also small, and the granularity of the shower head is small, so that the massage effect is difficult to achieve.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a granule gondola water faucet that jet power is strong is provided, granule splash that can jet power is strong, and its jet impact power is big, and jet distance is far away, the scope is wide, can spout the fine and close granule splash of granule moreover, can reach better massage effect.

In order to solve the technical problem, the utility model provides a granule gondola water faucet that jet power is strong, including epitheca and inferior valve, be equipped with the water inlet on the epitheca, be equipped with the delivery port in the inferior valve, hydroenergy can be followed the water inlet gets into and follows spout in the delivery port.

Still include the upper water cavity and the lower water cavity that the position corresponds each other in the inferior valve, the upper water cavity with the lower water cavity intercommunication of going out, the cross-sectional area in upper water cavity is greater than the cross-sectional area in lower water cavity, be equipped with the water diversion subassembly in the upper water cavity, the water diversion subassembly includes the reposition of redundant personnel piece, the one end of reposition of redundant personnel piece is equipped with the distributive port, and the other end is equipped with the mouth of converging, the distributive port is located and is close to the one end of water inlet, the mouth of converging is located and is close to the one end of delivery port, the distributive port with be equipped with the rectification chamber between the mouth of converging, water can follow the distributive port gets into the rectification chamber and follow the mouth of converging spouts, the cross section size of distributive port is greater than the cross section size of the mouth of converging, the mouth of converging with the delivery port intercommunication.

As an improvement of the scheme, one end of the lower water outlet cavity close to the upper water outlet cavity is cylindrical, one end of the lower water outlet cavity close to the water outlet is spherical, the water outlet is arranged in the spherical wall surface of the lower water outlet cavity, and the cross sectional area of the water outlet is smaller than that of the lower water outlet cavity.

As an improvement of the scheme, a water-collecting chamfer is arranged at the joint of the upper water outlet cavity and the lower water outlet cavity, and the water-collecting chamfer gradually narrows from the outlet of the upper water outlet cavity to the inlet of the lower water outlet cavity.

As an improvement of the scheme, a water inlet cavity is arranged between the upper shell and the lower shell, the water inlet is communicated with the upper water outlet cavity through the water inlet cavity, a water inlet chamfer is arranged between the water inlet cavity and the upper water outlet cavity, and the water inlet chamfer gradually narrows from an outlet of the water inlet cavity to an inlet of the upper water outlet cavity.

As an improvement of the above scheme, a plurality of upper water distribution plates are arranged on the flow distribution member, the upper water distribution plates are transversely arranged on the water distribution opening, an upper water distribution channel is formed in a gap between every two adjacent upper water distribution plates, and water can enter the upper water distribution channel along the side wall surface of each upper water distribution plate.

As an improvement of the above scheme, the upper water distribution plate is divided into a plurality of rows, the plurality of rows of upper water distribution plates are arranged in the middle and the upper part of the rectification cavity, 2 adjacent rows of upper water distribution plates are arranged in a staggered manner, a gap between two adjacent upper water distribution plates in each row can form the upper water distribution channel, and the upper water distribution plate in the next row is arranged below the upper water distribution channel in the previous row.

As the improvement of the scheme, the two sides of the middle part of the rectifying cavity are provided with a left side water diversion plate and a right side water diversion plate which are symmetrically arranged, the left side water diversion plate and the right side water diversion plate are positioned below the upper water diversion plate, the side wall of the left side water diversion plate and the side wall of the rectifying cavity form a left side water diversion channel in a surrounding manner, the side wall of the right side water diversion plate and the side wall of the rectifying cavity form a right side water diversion channel in a surrounding manner, and a gap between the left side water diversion plate and the side part of the right side water diversion plate forms a side water diversion channel in a surrounding manner.

As an improvement of the above scheme, a middle water diversion plate is further arranged below the side middle water diversion channel, the water converging port is arranged below the middle water diversion plate, 2 side surfaces of the middle water diversion plate are provided with symmetrically arranged inclined surfaces, and the inclined surfaces and the side left water diversion plate and the side right water diversion plate respectively form a middle left water diversion channel and a middle right water diversion channel.

As an improvement of the above scheme, the flow dividing member is further provided with a lower left water dividing plate and a lower right water dividing plate, the lower left water dividing plate and the lower right water dividing plate are respectively connected with the side walls on two sides of the rectification cavity, the lower left water dividing plate and the lower right water dividing plate are both protruded towards the direction of the middle shaft of the rectification cavity, and the side walls of the lower left water dividing plate and the lower right water dividing plate respectively enclose a lower left water dividing channel and a lower right water dividing channel with the side walls of the side left water dividing plate and the side right water dividing plate.

As an improvement of the above scheme, the water outlet device further comprises a water outlet groove, wherein the water outlet groove comprises an upper groove opening, a lower groove opening and a flow guide surface, the upper groove opening is connected with the water outlet, the lower groove opening is connected with the outer end surface of the lower shell, the flow guide surface is connected between the upper groove opening and the lower groove opening, and water can be sprayed to the lower groove opening from the upper groove opening along the flow guide surface.

As an improvement of the scheme, the water outlet groove is gradually enlarged from the water outlet to the outer side of the water outlet, the cross sectional area of the lower notch is larger than that of the upper notch, and the longitudinal section of the water outlet groove is in a shape of Chinese character 'ba'.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses granule gondola water faucet that jet power is strong is equipped with epitheca and inferior valve, be equipped with in the inferior valve and go out the water cavity down, and go up to be equipped with in the water cavity and divide the water subassembly, divide the water subassembly including reposition of redundant personnel piece, be close to in the reposition of redundant personnel piece the one end of water inlet is equipped with the mouth of catchmenting, and rivers can follow scattered water and follow catchment mouth blowout, and the cross section size of branch mouth is greater than the cross section size at the mouth of catchmenting, therefore rivers are in obtain the pressurization in the reposition of redundant personnel piece, promoted the rivers impact force, simultaneously the cross-sectional area in last water cavity is greater than go out the cross-sectional area in water cavity down, rivers follow go out the water cavity and get into after the pressurization again during the water cavity down, rivers can obtain further pressurization to further reinforcing rivers impact force obtains the spray distance farther, the bigger granule splash of spray range.

In addition, still be equipped with a plurality of water diversion plates in the reposition of redundant personnel piece, like last water diversion plate, side left water diversion plate, side right water diversion plate, well water diversion plate, lower left water diversion plate and lower right water diversion plate, under the effect that blocks of these water diversion plates, rivers can collide on each water diversion plate to produce the granule splash that the granule is fine and close, combine stronger injection force, can play better impact massage effect.

Drawings

FIG. 1 is a schematic view of the disassembled structure of the upper visual angle of the first embodiment of the granular sprinkler with strong spraying force;

FIG. 2 is a schematic sectional view showing a part of a first embodiment of a granular shower head with a strong spraying force according to the present invention;

fig. 3 is a schematic sectional view of a lower case according to a first embodiment of the present invention;

FIG. 4 is a partial view of A of FIG. 3;

fig. 5 is a schematic structural view of a second embodiment of the flow divider of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings. Only this statement, the utility model discloses the upper and lower, left and right, preceding, back, inside and outside etc. position words that appear or will appear in the text only use the utility model discloses an attached drawing is the benchmark, and it is not right the utility model discloses a concrete restriction.

Referring to fig. 1 and 2, the first embodiment of the present invention discloses a granular shower head with strong spraying force, which comprises an upper shell 1 and a lower shell 2, wherein the upper shell 1 is provided with a water inlet 11, the lower shell 2 is provided with a water outlet 21, and water can enter from the water inlet 11 and be sprayed out of the water outlet 21. The lower shell 2 further comprises an upper water outlet cavity 22 and a lower water outlet cavity 23, the positions of the upper water outlet cavity 22 and the lower water outlet cavity 23 are corresponding to each other, the upper water outlet cavity 22 is communicated with the lower water outlet cavity 23, water can continuously enter the upper water outlet cavity 22 after entering the water inlet 11, then enters the lower water outlet cavity 23, and finally can be sprayed out from the water outlet 21, the cross-sectional area of the upper water outlet cavity 22 is larger than that of the lower water outlet cavity 23, so that the flow cross-section of the water can be greatly reduced when the water enters the lower water outlet cavity 23 from the upper water outlet cavity 22, the pressure of the water is unchanged, the stress area is reduced, the local pressure is increased, and the pressurizing effect is achieved, the flow rate of the water is greatly increased, and the impact force of the water flow is improved.

Before water flows out of the upper water outlet cavity 22, a water diversion component 3 is arranged in the upper water outlet cavity 22, the water diversion component 3 comprises a water diversion part 31, the water flows through the water diversion part 31, a water diversion port 311 is arranged at one end of the water diversion part 31, a water collection port 312 is arranged at the other end of the water diversion part 31, the water diversion port 311 is arranged at one end close to the water inlet 11, the water collection port 312 is arranged at one end close to the water outlet 21, and a rectification cavity 313 is arranged between the water diversion port 311 and the water collection port 312, so that water can enter the rectification cavity 313 from the water diversion port 311 and can be sprayed out from the water collection port 312. Because the cross section of the water diversion port 311 is larger than the cross section of the water collection port 312, and the water collection port 312 is communicated with the water outlet 21, when water enters the water collection port 312 from the water diversion port 311, the flow cross section is reduced, the water pressure is increased, the impact force of the water flow is increased, and the water flow is ejected to the lower water outlet cavity 23 from the water collection port 312 and then undergoes a pressurization process, so that the finally ejected water flow has a large impact force, the ejection distance is long, and the range is wide.

The utility model discloses first embodiment's beneficial effect as follows:

the utility model discloses granule gondola water faucet that first embodiment jet power is strong is equipped with epitheca 1 and inferior valve 2, be equipped with in the inferior valve 2 and go out water cavity 22 and go out water cavity 23 down, and go up to be equipped with in the play water cavity 22 and divide water subassembly 3, divide water subassembly 3 including reposition of redundant personnel piece 31, be close to in the reposition of redundant personnel piece 31 the one end of water inlet 11 is equipped with branch mouth 311, be close to in the reposition of redundant personnel piece 31 the one end of delivery port 21 is equipped with catchment mouth 312, and rivers can follow scattered water is and is followed catchment mouth 312 blowout, and the cross section size of branch mouth 311 is greater than catchment mouth 312's cross section size, therefore rivers are in obtaining the pressurization in the reposition of redundant personnel piece 31, promoted the rivers impact force, simultaneously go up the cross-sectional area of play water cavity 22 and be greater than down the cross-sectional area of play water cavity 23, rivers follow go up play water cavity 22 and get into after the pressurization down during play water cavity 23, rivers can obtain further pressurization to further reinforcing rivers impact force, obtain the bigger granule gondola water faucet of jet distance, spray range.

Referring to fig. 2, in order to further improve the jet massage effect, one end of the lower water outlet cavity 23 close to the upper water outlet cavity 22 is cylindrical, one end of the lower water outlet cavity 23 close to the water outlet 21 is spherical, the water outlet 21 is arranged in the spherical wall surface of the lower water outlet cavity 23, water enters the lower water outlet cavity 23 from the upper water outlet cavity 22 and needs to be pressurized and converged, when converged in the cylindrical lower water outlet cavity 23, because of pressurization, water flow can collide violently in the lower water outlet cavity 23, and when entering the spherical water outlet 21, collision can be more violent, so that water spray with higher granularity is favorably formed, and because the cross-sectional area of the water outlet 21 is smaller than that of the lower water outlet cavity 23, water can be further pressurized before being ejected, the flow rate of water is increased, so that the jet distance of the water flow is longer, and the jet range is larger.

In order to improve the water outlet effect and prevent the pressurized water flow from generating a large flow resistance, a water collecting chamfer 221 is disposed at a joint of the upper water outlet cavity 22 and the lower water outlet cavity 23, the water collecting chamfer 221 gradually narrows from an outlet of the upper water outlet cavity 22 to an inlet of the lower water outlet cavity 23, and the water collecting chamfer 221 gradually converges the water flow before entering the lower water outlet cavity 23 and smoothly transitions the water flow into the lower water outlet cavity 23. In addition, epitheca 1 with be equipped with intake antrum 12 between the inferior valve 2, water inlet 11 passes through intake antrum 12 with go up out the water cavity 22 intercommunication, intake antrum 12 with go up and be equipped with water inlet chamfer 121 between the water cavity 22, water inlet chamfer 121 follows the exit of intake antrum 12 towards go up the entrance that goes out the water cavity 22 narrows gradually, after the narrowing water inlet chamfer 121 makes intake antrum 12 with go up out the water cavity 22 and begin to produce the difference in height, the hydroenergy can be smoothly, follow fast intake antrum 12 flows in go up out water cavity 22 to improve out water efficiency.

In order to refine water flow particles, a plurality of upper water distribution plates 321 are arranged on the flow dividing member 31, the upper water distribution plates 321 are transversely arranged on the water distribution opening 311, an upper water distribution channel 331 is formed in a gap between every two adjacent upper water distribution plates 321, and water can enter the upper water distribution channel 331 from the side wall surface of each upper water distribution plate 321. Because the number of the upper water distribution plates 321 is multiple, and the number of the formed upper water distribution channels 331 is multiple, after the water flow enters the water distribution opening 311, the water flow is divided into multiple water flows by the multiple upper water distribution plates 321, the water flow is further scattered, the effect of water scattering is achieved, the water flow collides in the upper water distribution plates 321, and therefore more water splash particles are generated. In addition, in the side wall of the upper water diversion plate 321, when water flows through the side wall, sharp point separation can be generated, and the separated water flow can generate vortices at the downstream of the upper water diversion plate 321, so that the water flow can generate violent collision in the downstream area, further the water flow passing through the upper water diversion channel 331 is scattered, and the number of spray particles is increased.

Two sides of the middle part of the rectifying cavity 313 are further provided with a left side water diversion plate 322 and a right side water diversion plate 323 which are symmetrically arranged, the left side water diversion plate 322 and the right side water diversion plate 323 are positioned below the upper water diversion plate 321, the side wall of the left side water diversion plate 322 and the side wall of the rectifying cavity 313 form a left side water diversion passage 332, the side wall of the right side water diversion plate 323 and the side wall of the rectifying cavity 313 form a right side water diversion passage 333, and a gap between the left side water diversion plate 322 and the side part of the right side water diversion plate 323 forms a middle side water diversion passage 334. Side left side distributive plate 322 with side right side distributive plate 323 can constitute 3 passageways, and rivers pass through after going up the many places reposition of redundant personnel of distributive plate 321, some rivers can be in side left side distributive channel 332 assembles and takes place the collision, and some rivers can be in side right side distributive channel 333 assembles and takes place the collision, and remaining rivers can be in assemble and take place the collision in side water diversion channel 334, and the rivers after the collision can produce more granule. Further, the flow dividing member 31 is further provided with a middle water dividing plate 324, the middle water dividing plate 324 is located below a side water dividing channel 334, the water collecting opening 312 is located below the middle water dividing plate 324, water flows can come out from the side water dividing channel 334 and collide with the middle water dividing plate 324, 2 side surfaces of the middle water dividing plate 324 are symmetrically arranged inclined surfaces and respectively surround a middle left water dividing channel 335 and a middle right water dividing channel 336 with the side left water dividing plate 322 and the side right water dividing plate 323, after the water flows pass through the disturbed flow of the middle water dividing plate 324, the water flows can be divided from the side water dividing channel 334 to enter the middle left water dividing channel 335 and the middle right water dividing channel 336, so that the water flow flowing through the middle of the rectifying chamber 313 collides with the middle water dividing plate 324 again to generate particles, the water flow after collision is divided by the middle left water dividing channel 335 and the middle right water dividing channel 336, the water flow is further dispersed, and the water flow particles are increased.

Meanwhile, in order to continuously break up the water flow on the two sides of the rectifying cavity 313, a lower left water diversion plate 325 and a lower right water diversion plate 326 are further arranged on the flow dividing member 31, the lower left water diversion plate 325 and the lower right water diversion plate 326 are respectively connected with the side walls on the two sides of the rectifying cavity 313, the lower left water diversion plate 325 and the lower right water diversion plate 326 both protrude towards the direction of the center axis of the rectifying cavity 313, and the side walls of the lower left water diversion plate 325 and the lower right water diversion plate 326 and the side walls of the side left water diversion plate 322 and the side right water diversion plate 323 respectively form a lower left water diversion channel 337 and a lower right water diversion channel 338. The water flow rushing out from the side left water diversion channel 332 and the side right water diversion channel 333 collides with the side walls of the lower left water diversion plate 325 and the lower right water diversion plate 326, the collided water flow generates more particles, and then the water flow enters the lower left water diversion channel 337 and the lower right water diversion channel 338 along the protruding side walls of the lower left water diversion plate 325 and the lower right water diversion plate 326. The lower left water diversion channel 337 and the lower right water diversion channel 338 can guide the water flow to gather toward the middle.

Referring to fig. 3 and 4, the granular shower head with strong jetting force further includes a water outlet groove 24, the water outlet groove 24 includes an upper groove 242, a lower groove 243 and a flow guiding surface 241, the upper groove 242 is connected to the water outlet 21, the lower groove 243 is connected to the outer end surface of the lower shell 2, the flow guiding surface 241 is connected between the upper groove 242 and the lower groove 243, so that when the shower head is jetted, a part of the water flow is jetted along the flow guiding surface 241 due to the action of surface tension, the water can be jetted from the upper groove 242 to the lower groove 243 along the flow guiding surface 241, the water outlet groove 24 is gradually enlarged from the water outlet 21 to the outer side of the water outlet 21, the cross-sectional area of the lower groove 243 is larger than that of the upper groove 242, and the longitudinal section of the water outlet groove 24 is "eight" shaped, so that when the water flow is jetted along the flow guiding surface 241, a sheet-shaped water flow gradually enlarged from the water outlet 21 is formed, which not only forms a good visual effect, but also enlarges the jetting range, and a better water flow massage effect can be achieved in cooperation with higher-degree water sprays.

Referring to fig. 5, the present invention further discloses a second embodiment, which is different from the first embodiment in that, in the second embodiment, a plurality of rows of the upper water diversion plate 321 are provided on the flow dividing member 31, the upper water diversion plate 321 of the first row is transversely arranged on the water diversion port 311 in the same manner as the upper water diversion plate 321 of the first embodiment, and water can enter the flow dividing member 31 from the upper water diversion plate 321, but the second embodiment does not have the left side water diversion plate 322, the right side water diversion plate 323 and the middle water diversion plate 324, instead, a plurality of rows of the upper water diversion plate 321 are arranged in sequence downward along the upper water diversion plate 321 of the first row, and a gap between two adjacent upper water diversion plates 321 in each row can form the upper water diversion channel 331, so that the upper water diversion plate 331 also has a plurality of rows, and the upper water diversion plates 321 are arranged in the middle and upper part of the flow rectification chamber 313, and 2 adjacent rows of the upper water diversion plates 321 are arranged, that is the lower water diversion plate 331 of the upper water diversion plate 321 arranged in the next row, i.e., the upper water diversion plate 331 of the next row is staggered below the upper water diversion plate 321. The arrangement of the multiple rows of the upper water distribution plates 321 also has good rectification and turbulence effects, water enters the upper water distribution channels 331 in the first row and then collides with the upper water distribution plates 321 in the second row, the water is distributed by the upper water distribution channels 331 in the second row, the distributed water flow continuously collides with the upper water distribution plates 321 in the third row downwards and is distributed by the upper water distribution channels 331 in the third row, wherein the collision effect of the water flow in the multiple rows of the upper water distribution plates 321 and the upper water distribution channels 331 can be sufficient, the collided water flow is beneficial to generating more particles, so that the water flow is further dispersed, and the water flow particles are increased.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (11)

1. A particle water shower head with strong injection force is characterized by comprising an upper shell and a lower shell, wherein a water inlet is formed in the upper shell, a water outlet is formed in the lower shell, and water can enter from the water inlet and be sprayed out from the water outlet;

still include the upper water cavity and the lower water cavity that the position corresponds each other in the inferior valve, the upper water cavity with the lower water cavity intercommunication of going out, the cross-sectional area in upper water cavity is greater than the cross-sectional area in lower water cavity, be equipped with the water diversion subassembly in the upper water cavity, the water diversion subassembly includes the reposition of redundant personnel piece, the one end of reposition of redundant personnel piece is equipped with the distributive port, and the other end is equipped with the mouth of converging, the distributive port is located and is close to the one end of water inlet, the mouth of converging is located and is close to the one end of delivery port, the distributive port with be equipped with the rectification chamber between the mouth of converging, water can follow the distributive port gets into the rectification chamber and follow the mouth of converging spouts, the cross section size of distributive port is greater than the cross section size of the mouth of converging, the mouth of converging with the delivery port intercommunication.

2. The strong-spraying granular water sprinkler according to claim 1, wherein one end of the lower water outlet cavity close to the upper water outlet cavity is cylindrical, one end of the lower water outlet cavity close to the water outlet is spherical, the water outlet is arranged in a spherical wall surface of the lower water outlet cavity, and the cross-sectional area of the water outlet is smaller than that of the lower water outlet cavity.

3. The high-injection-force particle water sprinkler as claimed in claim 1, wherein a water-collecting chamfer is formed at the joint of the upper water outlet cavity and the lower water outlet cavity, and the water-collecting chamfer gradually narrows from the outlet of the upper water outlet cavity to the inlet of the lower water outlet cavity.

4. The strong-injection granular water sprinkler as claimed in claim 1, wherein a water inlet chamber is provided between the upper casing and the lower casing, the water inlet is communicated with the upper water outlet chamber through the water inlet chamber, a water inlet chamfer is provided between the water inlet chamber and the upper water outlet chamber, and the water inlet chamfer is gradually narrowed from the outlet of the water inlet chamber to the inlet of the upper water outlet chamber.

5. The high-spraying-force granular water sprinkler as claimed in claim 1, wherein the flow divider is provided with a plurality of upper water dividing plates, the upper water dividing plates are transversely arranged on the water dividing opening, a gap between two adjacent upper water dividing plates forms an upper water dividing channel, and water can enter the upper water dividing channel along the side wall surface of the upper water dividing plate.

6. The shower head as claimed in claim 5, wherein the upper dividing plate is divided into a plurality of rows, the plurality of rows are arranged at the middle and upper parts of the rectifying chamber, 2 adjacent rows of the upper dividing plate are staggered, the upper dividing channel is formed by the gap between two adjacent upper dividing plates in each row, and the upper dividing plate in the next row is disposed under the upper dividing channel in the previous row.

7. The granule gondola water faucet that the injection force is strong of claim 5, characterized in that, the both sides at rectification chamber middle part still are equipped with the left side that the symmetry set up and divide the water board with the side right, divide the water board with the side right and divide the water board to be located the below of going up the water board, the lateral wall that divides the water board with the lateral wall in rectification chamber encloses into the left side and divides the water passageway, the lateral wall that divides the water board with the lateral wall in rectification chamber encloses into the right side and divides the water passageway, the side left divides the water board with the clearance formation side that divides between the water board lateral part of the side right divides the water passageway.

8. The granular water sprinkler with high spraying force as claimed in claim 7, wherein a middle water distributing plate is further disposed below the side middle water distributing channel, the water collecting opening is disposed below the middle water distributing plate, and 2 side surfaces of the middle water distributing plate are symmetrically provided with inclined surfaces and respectively enclose a middle left water distributing channel and a middle right water distributing channel with the side left water distributing plate and the side right water distributing plate.

9. The granule gondola water faucet that jet power is strong of claim 1, characterized in that, still be equipped with down left water diversion board and down right water diversion board on the reposition of redundant personnel piece, down left water diversion board with down right water diversion board respectively with the lateral wall of rectification chamber both sides is connected, down left water diversion board with down right water diversion board all towards the direction of rectification chamber axis department is protruding, down left water diversion board with down right water diversion board's lateral wall respectively with the lateral wall of the left water diversion board of side with the right water diversion board of side encloses into down left water diversion passageway and lower right water diversion passageway.

10. The strong-injection granular water sprinkler according to claim 1, further comprising a water outlet groove, wherein the water outlet groove comprises an upper groove opening, a lower groove opening and a flow guiding surface, the upper groove opening is connected with the water outlet, the lower groove opening is connected with the outer end surface of the lower shell, the flow guiding surface is connected between the upper groove opening and the lower groove opening, and water can be sprayed from the upper groove opening to the lower groove opening along the flow guiding surface.

11. The strong-spraying granular water sprinkler according to claim 10, wherein the outlet channel is gradually enlarged from the outlet port to an outer side of the outlet port, the cross-sectional area of the lower notch is larger than that of the upper notch, and the longitudinal section of the outlet channel is in a shape of "eight".

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