CN205446918U - Flow regulator and water economizer and water flow regulation ware - Google Patents

Abstract

The utility model relates to a flow regulator and water economizer and water flow regulation ware, flow regulator wherein, including flexible water conservation piece, the interval is equipped with a plurality of water holes of crossing on the water conservation piece, be equipped with the projection on the first surface of water conservation piece, follow the periphery of water conservation piece is equipped with first flange, the high less than or equal to of projection the height of first flange. The water economizer includes the base, strain the lid and flow regulator. The water flow regulation ware includes tubbiness casing, water economizer and efflux decollator. The utility model discloses a flow regulator who constitutes by two parts of water conservation piece and sealing washer among the substituting prior art of part of water conservation piece, it is sensitive to the water pressure change, adjust the sensitivity height to the water pressure fluctuation range of adaptation is wide, can obtain stable flow after the adjustment, and long service life, assembly efficiency height, and rivers effect of cutting has further been stablized to a body coupling of jet cutting ware and base, and assembly efficiency is high.

Description

Flow regulator, water economizer and water flow regulator

Technical Field

The utility model relates to a flow regulator subassembly specifically indicates a flow regulator and uses this flow regulator's water economizer and uses this water economizer's flow regulator.

Background

In order to obtain better water saving effect and body feeling, a water flow regulator for regulating the water flow jet form is generally installed in the water faucet. The water flow regulator generally comprises a barrel-shaped shell, wherein a plurality of through flow holes are formed in the bottom surface of the shell, air holes are formed in the side wall of the shell, a water economizer is arranged at a port of the shell, and a jet flow decomposer is arranged in a cavity between the water economizer and the shell; the jet flow decomposer is provided with a plurality of cutting through holes at intervals for cutting water flow. The water saving device comprises a barrel-shaped base arranged on the port of the shell, a plurality of flow-limiting through holes for limiting the flow rate are arranged on the bottom surface of the base, a conical filter cover is arranged on the port of the base, and a plurality of water-permeable holes are arranged on the filter cover at intervals; a water-saving pressurizing sheet is arranged in a cavity between the filter cover and the base, a convex column is arranged in the middle of the water-saving pressurizing sheet, an annular water through hole is formed in the water-saving pressurizing sheet and positioned on the periphery of the convex column, and an O-shaped ring is sleeved on the convex column and partially covers the water through hole.

Water flow carries out cutting and current-limiting for the first time through each hole of permeating water when straining the lid, then passes through in the space in O type circle and the cyclic annular water hole of crossing, carries out pressure boost and secondary current-limiting, then passes in the current-limiting through-hole on the base and goes into the casing after cutting for the second time, again in proper order through the cutting of efflux decomposer and cutting through-hole, flows out in the follow pipeline.

The flow regulator consisting of the water-saving pressurizing sheet and the O-shaped ring can only change the water permeable area of the water through hole through the deformation of the O-shaped ring when the water inlet pressure is changed, thereby adapting to the change of the water pressure. However, the water pressure adjusting range of the existing flow regulator is limited by the size of the O-shaped ring, the O-shaped ring is easy to age and short in service life, and meanwhile, the assembly of the O-shaped ring and the water-saving pressurizing sheet occupies one assembly process, so that the assembly efficiency can be further improved.

Disclosure of Invention

The utility model aims to solve the technical problem that the current situation to prior art provides a flow regulator that adaptation water pressure fluctuation range is wide, flow stability and long service life, assembly efficiency are high.

The utility model discloses another technical problem that will solve provides a water economizer that adaptation water pressure fluctuation range is wide, flow stability and long service life, assembly efficiency are high to prior art's current situation.

The utility model discloses still another technical problem that will solve provides a water flow regulator that adaptation water pressure fluctuation range is wide, flow stability and long service life, assembly efficiency are high to prior art's current situation.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the flow regulator is characterized by comprising a flexible water-saving piece, wherein a plurality of water through holes are formed in the water-saving piece at intervals, a convex column is arranged on the first surface of the water-saving piece, a first flange is arranged along the periphery of the water-saving piece, and the height of the convex column is smaller than or equal to that of the first flange.

Preferably, the water through holes are arranged along the same circumferential line;

the convex columns are multiple and are arranged on the peripheries of the water passing holes respectively corresponding to the water passing holes, and the convex columns are arranged at intervals. The structure has good redistribution property to water flow.

As an improvement, an annular second flange may be disposed on an inner periphery of the water through hole, and a plurality of notches may be spaced apart from the second flange. Therefore, water flow passing through each water passing hole is distributed to the inner side and the outer side of the water passing hole through the gap between the notch and the adjacent convex column, and the water flow is uniform.

Further, each convex column is connected with the second flange through a respective connecting rib; the connecting ribs are connected to the intervals between the adjacent water passing holes. This structure has further consolidated and has supported the water conservation piece, crosses the water flow of permeating water in water hole when fully guaranteeing high water pressure, avoids crossing the jam in water hole.

In order to further stabilize the flow and prevent the water-saving sheet from excessively deforming, a central convex column can be arranged in the middle of the first surface of the water-saving sheet, and the height of the central convex column is less than or equal to that of the convex column.

The water economizer using the flow regulator is characterized by comprising a barrel-shaped base, wherein a plurality of through holes are formed in the bottom surface of the base at intervals; a conical filtering cover is arranged on the port of the base, and a plurality of water permeable holes are uniformly distributed in the conical filtering cover; the water-saving piece is accommodated in a cavity formed by the base and the filter cover, and the first flange abuts against the bottom surface of the base. The base and the filter cover can be any one of the prior art according to the requirement.

The water economizer can be used in various water flow pipelines, such as shower spray pipelines, kitchen pipelines and the like; preferably, the water flow regulator using the water economizer is characterized by comprising a barrel-shaped shell, wherein the bottom surface of the shell is provided with a plurality of water outlet holes, and the side wall of the shell is provided with a plurality of air holes at intervals; the water economizer is arranged on the port of the shell, a jet flow divider is arranged in a cavity formed by the water economizer and the shell, and a plurality of water permeable holes are formed in the jet flow divider. The housing and jet divider may be any of those known in the art as desired.

As a modification, the jet divider can be connected with the base through a connecting rib. This scheme links into an integrated entity jet splitter and base, and two parts can be assembled to a step to because the spacing of splice bar, fixed on the distance between jet splitter and the base, consequently even water pressure through the water flow regulator changes, can not change the relative position between jet splitter and the base yet, the rivers regulation effect is stable, and assembly efficiency is high.

Preferably, there may be a plurality of the connecting ribs, each of the connecting ribs is arranged at intervals, one of the connecting ribs may be connected to the central positions of the base and the jet cutter, and the rest of the connecting ribs are connected to the peripheries of the base and the jet cutter. The structure has small resistance to water flow and cannot influence the working effect of the water flow regulator.

The connecting ribs can be three and positioned on the same diameter line in consideration of the resistance of the connecting ribs to water flow. The structure can meet the connection limit requirement between the jet cutter and the base, and has the minimum influence on water flow.

Compared with the prior art, the flow regulator, the water economizer and the water flow regulator provided by the utility model adopt one part of the water-saving piece to replace the flow regulator consisting of the water-saving piece and the sealing ring in the prior art, are sensitive to the change of water pressure, have high regulation sensitivity, have wide adaptive water pressure fluctuation range, can obtain stable flow after being regulated, and have long service life and high assembly efficiency; and the jet cutter is connected with the base integrally, so that the water flow cutting effect is further stabilized, and the assembly efficiency is high.

Drawings

Fig. 1 and fig. 2 are schematic perspective views of embodiment 1 of the present invention at different angles;

fig. 3 is a schematic perspective view of an assembly structure according to embodiment 2 of the present invention;

fig. 4 is a schematic perspective view of an exploded structure of embodiment 2 of the present invention;

fig. 5 is a longitudinal sectional view of embodiment 2 of the present invention;

fig. 6 is a perspective view of an assembly structure according to embodiment 3 of the present invention;

fig. 7 is a schematic perspective view of an exploded structure according to embodiment 3 of the present invention;

fig. 8 is a longitudinal sectional view of embodiment 3 of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

Example 1

As shown in fig. 1 and 2, the flow regulator includes:

the water-saving sheet 1 is made of flexible silica gel and has a circular sheet structure, and the first flange 13 is arranged on the first surface 17 of the water-saving sheet along the periphery of the water-saving sheet 1.

The water-saving piece 1 is also provided with a plurality of water through holes 11 at intervals, in the embodiment, the water through holes 11 are arranged in the middle of the water-saving piece 1 along the same circumferential line; the first surface 17 of the water-saving sheet is also provided with a plurality of convex columns 12 at intervals, and each convex column 12 is respectively arranged on the same circumference line of the outer side of each water through hole 11 corresponding to each water through hole 11. The height of the stud 12 is slightly less than the height of the first flange 13.

A second flange 14 is arranged on the inner circumference of the water through hole 11, and a plurality of gaps 15 are arranged on the second flange 14 at intervals; four in this embodiment, are evenly distributed on the second flange 14. Each convex column 12 is connected with a second flange 14 through a respective connecting rib 16; the connecting ribs 16 are connected to the spaces between the adjacent water passing holes 11.

The middle part of the first surface and the inner side of the second flange are further provided with a central convex column 18, and the height of the central convex column 18 is smaller than that of the convex column 12 in the embodiment.

The circumferential lines and the first flange are concentric circles.

The flow regulator replaces a flow regulator consisting of a water-saving sheet and an O-shaped ring in the prior art, is wide in adaptive water pressure fluctuation range, high in sensitivity of responding to water pressure change and long in service life.

Example 2

As shown in fig. 3 to 5, the water saver includes a flow regulator of embodiment 1, a base 2 and a filter cover 3; wherein,

the base 2 is a barrel-shaped structure and comprises a bottom surface and a side peripheral wall connected to the periphery of the bottom surface; wherein a plurality of through holes 21 are arranged on the bottom surface of the base 2 at intervals; a conical filtering cover 3 is arranged on the port of the base 2, and a plurality of water permeable holes 31 are uniformly distributed on the conical filtering cover 3; the water-saving sheet 1 is accommodated in a cavity formed by the base 2 and the filter cover 3, and a first flange 13 on the water-saving sheet is abutted against the bottom surface of the base 2.

The base 2 and the filter cover 3 in this embodiment may be any one of the structures in the prior art as required.

The working principle of the water economizer is described as follows:

the water flow firstly enters a cavity between the filter cover and the water-saving piece after being firstly cut through the water permeable holes on the filter cover, and then enters the water-saving piece through the water passing holes, and the water flow is limited and pressurized again because the total area of the water passing holes is smaller; when the water pressure is too high, the water-saving piece is impacted by the water flow pressure, so that the water-saving piece is recessed towards the bottom surface of the base, partial through holes in the base are blocked, and the flow passing through the through holes is reduced. The deformation of the water-saving sheet mainly occurs between the convex column and the first flange, and under the support of the convex column and the second flange, the deformation of the part in the circumferential line of the convex column is small and can be ignored, so that the water flow can be fully ensured to pass through, the water economizer can normally work even under the overhigh water pressure, and the applicable pressure fluctuation range is wide. On the contrary, when the water pressure is lower, the deformation of the water-saving piece is small, the number of the working through holes is large, and the flow rate is kept constant.

Example 3

As shown in fig. 6 to 8, the flow regulator comprises the water economizer of embodiment 2, a housing 4 and a jet divider 5. Wherein,

the shell 4 is a barrel-shaped structure and comprises a bottom surface and a side wall protruding outwards along the periphery of the bottom surface; wherein, the bottom surface of the shell 4 is provided with a plurality of water outlet holes 41, and the side wall of the shell is provided with a plurality of air holes 42 at intervals. The water economizer in embodiment 2 is arranged at the port of the housing 4, a jet flow divider 5 is arranged in a cavity between the water economizer and the housing, and a plurality of water permeable holes 51 are arranged on the jet flow divider 5.

The housing 4 and the jet divider 5 may be any one of those known in the art as required.

In the present embodiment, the jet divider 5 is connected to the base 2 by a connecting rib 6. The number of the connecting ribs 6 can be determined according to the requirement, and in the embodiment, three connecting ribs are provided, wherein one connecting rib is arranged on the central positions of the base 2 and the jet cutter 1, the other two connecting ribs are arranged on the peripheries of the base 2 and the jet cutter 1, and the three connecting ribs are positioned on the same diameter line.

The working principle of the water flow regulator is described as follows:

the water flows through the incident flow cutter after being pressurized by the water economizer to be cut again, then the water flows are cut again when passing through the water outlet hole on the bottom surface of the shell, and finally the water flows are sprayed out in a fine foam flow form to obtain soft body feeling. Because the jet cutter is connected with the base, the relative position between the jet cutter and the base cannot be changed due to the change of water pressure and flow, a constant water flow adjusting effect can be obtained, and the assembly is convenient.

Claims (10)

1. Flow regulator, its characterized in that includes flexible water conservation piece (1), the interval is equipped with a plurality of water holes (11) of crossing on water conservation piece (1), be equipped with on water conservation piece's first surface (17) projection (12), follow the periphery of water conservation piece (1) is equipped with first flange (13), the high less than or equal to of projection (12) the height of first flange (13).

2. A flow regulator according to claim 1, wherein the water through holes (11) are arranged along the same circumferential line;

the convex columns (12) are multiple and are arranged on the periphery of the water through holes (11) corresponding to the water through holes (11), and the convex columns (12) are arranged at intervals.

3. The flow regulator according to claim 2, wherein the inner periphery of the water through hole (11) is provided with a second annular flange (14), and the second flange (14) is provided with a plurality of notches (15) at intervals.

4. A flow regulator according to claim 3, characterized in that each of said studs (12) is connected to said second flange (14) by a respective connecting rib (16); the connecting ribs are connected to the intervals between the adjacent water passing holes (11).

5. Flow regulator according to any of claims 1 to 4, characterized in that the central portion of the first surface of the said water-saving sheet is provided with a central boss (18), the height of the said central boss (18) is less than or equal to the height of the said boss (12).

6. The water saver using the flow regulator according to any one of claims 1 to 5, characterized by comprising a barrel-shaped base (2), wherein a plurality of through holes (21) are provided at intervals on the bottom surface of the base (2); a conical filtering cover (3) is arranged at the port of the base (2), and a plurality of water permeable holes (31) are uniformly distributed in the conical filtering cover (3); the water-saving piece (1) is accommodated in a cavity formed by the base (2) and the filter cover (3), and the first flange (13) is abutted against the bottom surface of the base (2).

7. The water flow regulator using the water economizer of claim 6, characterized by comprising a barrel-shaped housing (4), wherein a plurality of water outlet holes (41) are formed in the bottom surface of the housing (4), and a plurality of air holes (42) are formed in the side wall of the housing at intervals; the water economizer is arranged on the port of the shell (4), a jet flow divider (5) is arranged in a cavity formed by the water economizer and the shell, and a plurality of water permeable holes (51) are formed in the jet flow divider (5).

8. Flow regulator according to claim 7, characterized in that said jet divider (5) is connected to said base (2) by means of a connecting rib (6).

9. Flow regulator according to claim 8, characterized in that said connecting ribs (6) are provided in plurality, each of said connecting ribs (6) being arranged at intervals, one of said connecting ribs (6) being connected to a central position of said base (2) and of said jet cutter (1), the remaining of said connecting ribs (6) being connected to a peripheral position of said base (2) and of said jet cutter (5).

10. Flow regulator according to claim 9, characterized in that said connection ribs (6) are three and located on the same diameter line.