CN211636978U - Waterway control mechanism with integrated control key and shower head - Google Patents

Abstract

The utility model discloses a water route control mechanism with integral type control switch, include: the main body of the waterway control mechanism is provided with a water inlet channel and at least two water outlet channels; the pressing type waterway switching component is movably arranged on the main body; the flow control assembly is rotatably arranged on the main body and controls the size of the inflow water when rotating; the control switch can be rotatably and slidably arranged on the main body, and when the control switch is pressed, the control switch drives the pressing type waterway switching component to perform switching action; when the control switch is rotated, the control switch drives the flow control assembly to rotate; the technical scheme of the utility model press or the rotary control switch in order to control corresponding function, simple structure is compact, and it is very convenient to operate.

Description

Waterway control mechanism with integrated control key and shower head

Technical Field

The utility model relates to a water route control mechanism especially relates to a water route control mechanism and have this water route control mechanism's gondola water faucet with integral type control key.

Background

Various waterway control mechanisms are usually provided on the shower head to control various water sprays or control water flow rate. The traditional waterway control mechanism on the shower head generally comprises a button type waterway control mechanism and a knob type waterway control mechanism, and the traditional waterway control mechanism only has a single control function, for example, the button type waterway control mechanism can only control the corresponding function by pressing a button, and cannot realize the function controlled by rotating the button; the knob type waterway control mechanism can only control the corresponding function by rotating the knob, and cannot realize the function control by pressing the knob. If need water route control mechanism simultaneously can press control also can rotary control, need set up a button and a knob respectively, the structure is more complicated, and occupation space is great to the operation is inconvenient.

In view of the above, how to combine the button of the button-type waterway control mechanism and the knob of the knob-type waterway control mechanism for control is a technical problem to be solved.

Disclosure of Invention

The invention aims to provide a water path control mechanism with an integrated control switch and a shower head with the water path control mechanism, which can control corresponding functions by pressing the control switch and rotating the control switch, and has simple and compact structure and very convenient operation.

In order to achieve the above object, according to the utility model discloses an aspect, the utility model provides a water route control mechanism with integral type control switch, include:

the main body of the waterway control mechanism is provided with a water inlet channel and at least two water outlet channels;

the pressing type waterway switching assembly is movably arranged on the main body, and when being pressed, the pressing type waterway switching assembly controls the water inlet channel to be communicated with or cut off from each water outlet channel in a switching manner;

the flow control assembly is rotatably arranged on the main body and controls the through-flow sectional area of the water inlet channel when rotating;

the control switch can be rotatably and slidably arranged on the main body, and when the control switch is pressed, the control switch drives the pressing type waterway switching component to perform switching action; when the control switch is rotated, the control switch drives the flow control assembly to rotate;

the push type waterway switching assembly and the flow control assembly are staggered in the sliding direction of the control switch, namely, the projections of the push type waterway switching assembly and the flow control assembly in the sliding direction of the control switch are not overlapped or only partially overlapped

Preferably, be formed with on the main part with the chamber of dividing that inhalant canal is linked together, divide the intracavity be formed with at least two with the discharge canal one-to-one discharge hole that communicates, push type water route switching module with the discharge hole cooperatees and opens or closes the discharge hole.

Preferably, push type water route switching module includes switching piece, roof pressure piece, the elastic component that resets, be equipped with the ratchet on the switching piece, be equipped with on the roof pressure piece with ratchet matched with ratchet, control switch drives roof pressure piece is relative when the main part slides the effect of ratchet and ratchet makes under the switching piece rotates to a direction and predetermines the angle, the switching piece is opened with switching when rotating the discharge orifice.

Preferably, one end of the water distribution cavity forms an opening, the other end of the water distribution cavity forms a bottom wall of the water distribution cavity, the push type water path switching assembly is arranged in the water distribution cavity through the opening, the push type water path switching assembly further comprises a fastening cover connected to the opening in a sealing mode, the overflowing hole is formed in the bottom wall of the water distribution cavity, the switching piece is of a sheet structure and is matched with the bottom wall of the water distribution cavity in a relative rotating mode, a sleeve communicated with the water distribution cavity extends outwards from the bottom wall of the water distribution cavity, a ratchet wheel on the switching piece is matched with a ratchet wheel on the jacking piece in the sleeve, one end of the jacking piece extends outwards from the sleeve and is matched with the control switch in a linkage mode, the jacking piece is matched with the inner wall of the sleeve in a dynamic sealing mode and in a circumferential limiting mode, a rotating shaft is further arranged in the water distribution cavity, the switching piece rotates around the rotating shaft, and the first reset elastic piece is sleeved outside, and the first reset elastic piece is elastically propped between the switching piece and the buckle cover.

Preferably, a flow regulating cavity communicated with the water inlet channel is further formed in the main body, the flow control assembly comprises a flow control valve core, the flow control valve core is provided with a regulating part extending into the flow regulating cavity and a driving part located outside the flow regulating cavity, and the regulating part changes the cross-sectional flow area of the flow regulating cavity when rotating in the flow regulating cavity, so that the cross-sectional flow area of the water inlet channel is changed.

Preferably, the control switch is provided with a first tooth portion, the driving portion of the flow control valve core is provided with a second tooth portion meshed with the first tooth portion, and the control switch drives the flow control valve core to rotate through the meshing of the first tooth portion and the second tooth portion when rotating, so that the flow cross-sectional area of the flow regulation cavity is changed.

Preferably, the flow rate adjustment chamber is located upstream of the water diversion chamber.

Preferably, the control switch further comprises a limiting structure for limiting rotation of the control switch, and the limiting structure controls the control switch to rotate within a preset range; and a second reset elastic piece which resets after the control switch is pressed is also arranged between the control switch and the body.

Preferably, the control switch further comprises a positioning structure for rotationally positioning the control switch, and the positioning structure controls the control switch to be positioned at the adjusting position.

According to the utility model discloses an on the other hand, the utility model discloses still provide a gondola water faucet, including the handle and the gondola water faucet head that are connected, still include above-mentioned arbitrary water route control mechanism, water route control mechanism sets up on the handle, control switch follows the radial slip of handle, push type water route switching module with flow control subassembly is followed the axial of handle sets up side by side.

Preferably, waterway control mechanism's main part cover is established in the inner chamber of handle, the through-hole has been seted up on the lateral wall of handle, still includes a mounting, the mounting borrows by the through-hole stretches into in the inner chamber of handle and with main part detachably fixed connection, the mounting will the main part is spacing in the inner chamber of handle, control switch wears to locate the through-hole.

The utility model has the advantages that:

the utility model discloses a press the play water splash function of control switch in order to switch the gondola water faucet, simultaneously accessible rotary control switch adjusts discharge (can realize the mode of dripping at minimum), realizes pressing down and can control water route control mechanism rotatoryly again with a control switch, combines together the regulatory function of the switching function of function water and discharge, easy operation, convenience, easy realization to control switch's rotation is felt well, and overall structure is laborsaving convenient, very simple, compact.

The utility model discloses a with control switch along the radial slide of handle, push type water route switching module and flow control subassembly set up side by side along the axial of handle, and the radial space that rivers control mechanism occupy the handle is little, can realize like this that water route control mechanism sets up on the handle of more thin gondola water faucet, but singlehanded when the handheld handle of user press or rotation operation, more person's of facilitating the use operation.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is an overall perspective view of a shower head according to an embodiment of the present invention;

fig. 2 is a schematic perspective exploded view of a part of a shower head according to an embodiment of the present invention;

fig. 3 is another exploded perspective view of the shower head according to an embodiment of the present invention;

fig. 4 is one of cross-sectional views of a showerhead according to an embodiment of the present invention;

FIG. 5 is an enlarged view of A in FIG. 4;

fig. 6 is a second cross-sectional view of the shower head according to an embodiment of the present invention;

fig. 7 is a third cross-sectional view of the shower head according to an embodiment of the present invention;

fig. 8 is a partial cross-sectional view of a showerhead of an embodiment of the present invention, with the flow area of the flow control chamber being at a minimum;

fig. 9 is a partial cross-sectional view of another angle of the sprinkler of the embodiment of the present invention in the state of fig. 8;

fig. 10 is a partial cross-sectional view of a showerhead of an embodiment of the present invention, wherein the flow-regulating chamber has the largest cross-sectional area;

fig. 11 is a partial sectional view of another angle of the sprinkler according to an embodiment of the present invention in the state of fig. 10.

The reference signs are:

100-a waterway control mechanism;

10-a body; 11-a water inlet channel; 12-a first water outlet channel; 13-a second water outlet channel; 14-a water diversion cavity; 141-open mouth; 142-the bottom wall of the water diversion cavity; 1421 — first overflow aperture; 1422 — second overflow aperture; 15-buckling a cover; 16-a sleeve; 17-a rotating shaft; 18-a flow regulating cavity;

20-pressing type waterway switching assembly; 21-a switch; 211-ratchet wheel; 22-a top pressing piece; 221-ratchet; 23-a first return spring;

30-a flow control assembly; 31-flow control valve core; 311-an adjusting part; 3111-adjusting holes; 312-a drive section; 3121-second tooth;

40-a control switch; 41-switch body; 411 — first tooth; 412-a pin; 42-screwing; 421-anti-slip ribs;

50-arc limiting hole (limiting structure);

60-a second return spring;

70-a positioning structure; 71-a positioning groove; 72-elastic buckle;

200-a shower head; 210-a handle; 220-the shower head; 230-a through hole; 240-a fixture; 250-screw.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention clearer and more obvious, the following description of the present invention with reference to the accompanying drawings and embodiments is provided for further details. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1 to 11, a waterway control mechanism 100 with an integrated control switch according to an embodiment of the present invention includes a main body 10 of the waterway control mechanism, a pressing type waterway switching assembly 20, a flow control assembly 30, and a control switch 40. In the present embodiment, the water path control mechanism is used in the shower head 200 as an example for detailed description, the water outlet mode of the shower head 200 can be controlled by pressing the control switch 40 of the water path control mechanism, and the water outlet flow rate of the shower head 200 can also be controlled by rotating the control switch 40 of the water path control mechanism.

The main body 10 of the waterway control mechanism has a water inlet channel 11 and at least two water outlet channels, in this embodiment, two water outlet channels are provided, which are a first water outlet channel 12 and a second water outlet channel 13, and the water outlet mode of the first water outlet channel 12 is different from the water outlet mode of the second water outlet channel 13, for example, the first water outlet channel 12 discharges shower water, the second water outlet channel 13 discharges flake water, and the like, which is not limited thereto.

The pressing waterway switch assembly 20 is movably disposed on the body 10, and when the pressing waterway switch assembly 20 is pressed, the water inlet channel 11 is controlled to be switched to be communicated with or cut off from each water outlet channel. When the pressing type waterway switching assembly 20 is pressed, the water inlet channel 11 is controlled to be communicated or cut off with each water outlet channel in a switching manner, wherein the communication can mean that the water inlet channel is communicated with one water outlet channel, or is communicated with a plurality of water outlet channels, or is simultaneously communicated with all the water outlet channels; the term "cut-off" may mean that the water inlet channel 11 is cut off from one of the water outlet channels, or from a plurality of the water outlet channels, or from all the water outlet channels at the same time. In this embodiment, the waterway switching assembly 20 has 4 positions, and in the 1 st position, the water inlet channel 11 is communicated with the first water outlet channel 12 and is cut off from the second water outlet channel 13; in the 2 nd position, the water inlet channel 11 is communicated with the first water outlet channel 12 and the second water outlet channel 13 simultaneously; in the 3 rd position, the water inlet channel 11 is cut off from the first water outlet channel 12 and is communicated with the second water outlet channel 13; in the 4 th position, the water inlet channel 11 is simultaneously cut off from the first water outlet channel 12 and the second water outlet channel 13. The waterway switching assembly 20 is rotatably switched between the above-mentioned 4 positions, and the specific switching structure thereof will be described later.

The flow control assembly 30 is rotatably installed on the body 10, and the flow control assembly 30 controls the flow cross-sectional area of the water inlet passage 11 when rotating.

The control switch 40 is rotatably and slidably mounted on the main body 10, and when the control switch 40 is pressed, the control switch 40 drives the pressing waterway switching assembly 20 to perform a switching operation; when the control switch 40 is rotated, the control switch 40 drives the flow control assembly 30 to rotate.

The projections of the pressing waterway switching assembly 20 and the flow control assembly 30 in the sliding direction of the control switch 40 are not overlapped or only partially overlapped, and in the embodiment, the pressing waterway switching assembly 20 and the flow control assembly 30 are arranged in parallel along the direction perpendicular to the sliding direction of the control switch 40.

Specifically, in the present embodiment, the main body 10 is formed with a water dividing cavity 14 communicated with the water inlet channel 11, at least two overflowing holes correspondingly communicated with the water outlet channel one by one are formed in the water dividing cavity 14, and the pressing type waterway switching assembly 20 is matched with the overflowing holes to open or close the overflowing holes. The overflowing hole communicating with the first outlet passage 12 is a first overflowing hole 1421, the overflowing hole communicating with the second outlet passage 13 is a second overflowing hole 1422, and the first overflowing hole 1421 and the second overflowing hole 1422 are both disposed on the bottom wall 142 of the water distribution chamber 14, which will be described below.

In this embodiment, the pressing waterway switching assembly 20 is a pressing type switching structure similar to that used in a ball-point pen, and includes a switching member 21, a pressing member 22, and a first restoring elastic member 23. The switching piece 21 is provided with a ratchet wheel 211, and the jacking piece 22 is provided with a ratchet 221 matched with the ratchet wheel 211. When the control switch 40 drives the pressing member 22 to slide relative to the main body 10, the switching member 21 is rotated by a predetermined angle in one direction by the ratchet 211 and the ratchet 221, and the switching member 21 switchingly opens the through-flow hole during rotation. In this embodiment, under the action of the ratchet wheel 211 and the ratchet 221, the switching member 21 rotates 90 ° each time, that is, two adjacent positions among the 1 st position, the 2 nd position, the 3 rd position and the 4 th position of the switching member 21 are 90 ° apart, and pressing the control switch 40 4 times will drive the switching member 21 to rotate one turn. Here, since the pressing type waterway switching member 20 is a pressing type switching structure commonly used in the art and similar to a ball-point pen, a detailed operation principle thereof will not be described in detail here.

Specifically, in the present embodiment, one end of the water diversion cavity 14 forms an opening 141, and the other end forms a bottom wall 142 of the water diversion cavity 14. The pressing type waterway switching member 20 is loaded into the water diversion chamber 14 through the opening 141. Also includes a cover 15 for sealing the opening 141. The switching member 21 is of a plate-like structure and is rotatably engaged with the bottom wall 142 of the water diversion chamber 14. The bottom wall 142 of the water distribution cavity 14 extends outwards to form a sleeve 16 communicated with the water distribution cavity 14, the ratchet 211 on the switching piece 21 is matched with the ratchet 221 on the pressing piece 22 in the sleeve 16, one end of the pressing piece 22 extends outwards from the sleeve 16 and is in linkage fit with the control switch 40, and the pressing piece 22 is in dynamic sealing fit with the inner wall of the sleeve 16 and is in circumferential limit fit. The water distribution cavity 14 is also internally provided with a rotating shaft 17, the switching piece 21 rotates around the rotating shaft 17, the first return elastic piece 23 adopts a compression spring and is sleeved outside the rotating shaft 17, and the first return elastic piece 23 is elastically propped between the switching piece 21 and the buckle cover 15.

In this embodiment, the main body 10 further forms a flow regulating cavity 18 communicated with the water inlet channel 11, the flow control assembly 30 includes a flow control valve core 31, the flow control valve core 31 has a regulating portion 311 extending into the flow regulating cavity 18 and a driving portion 312 located outside the flow regulating cavity 18, the regulating portion 311 is provided with a regulating hole 3111 penetrating in the radial direction, and the regulating portion 311 changes the flow cross-sectional area of the flow regulating cavity 18 and further changes the flow cross-sectional area of the water inlet channel 11 by changing the size of the opening of the regulating hole 3111 when rotating in the flow regulating cavity 18.

Specifically, in this embodiment, the control switch 40 includes a switch main body 41 and a rotating sleeve 42, and the rotating sleeve 42 is sleeved on the periphery of the switch main body 41 and is in circumferential limit fit with the switch main body 41. The switch body 41 is provided with a first tooth portion 411, the driving portion 312 of the flow control valve core 31 is provided with a second tooth portion 3121 engaged with the first tooth portion 411, and when the control switch 40 rotates, the flow control valve core 31 is driven to rotate by the engagement of the first tooth portion 411 and the second tooth portion 3121, so as to change the flow cross-sectional area of the flow regulation cavity 18. The outer wall of the rotary sleeve 42 is provided with an anti-slip rib 421, so that the rotary operation of the control switch 40 is facilitated.

In this embodiment, the flow regulating chamber 18 is located upstream of the water diversion chamber 14.

In this embodiment, the limiting structure 50 is further included for directly or indirectly limiting the rotation of the control switch 40, and the limiting structure 50 controls the control switch 40 to rotate within a predetermined range, specifically, the limiting structure 50 is an arc-shaped limiting hole 50 provided on a fixing member 240 described below. A second reset elastic element 60 which resets after the control switch 40 is pressed is further arranged between the control switch 40 and the body 10, and the second reset elastic element 60 specifically adopts a compression spring or an elastic sheet and the like. The switch main body 41 of the control switch 40 is provided with a fastening pin 412, and the fastening pin 412 is fastened to the fixing member 240 so that the control switch 40 cannot be separated from the main body 10 under the action of the second elastic return member 60. And the buckling feet 412 can slide in the arc-shaped limiting hole 50 along the circumferential direction, and the buckling feet 412 are limited by the two end parts of the arc-shaped limiting hole 50 in the circumferential direction, so that the control switch 40 is directly limited by the arc-shaped limiting hole 50 in a rotating manner. Alternatively, the limiting structure 50 may be used to limit the rotation of the flow control valve core 31, and since the control switch 40 is rotationally coupled to the flow control valve core 31, the limiting structure 50 that directly limits the rotation of the flow control valve core 31 will indirectly limit the rotation of the control switch 40.

In this embodiment, a positioning structure 70 for directly or indirectly rotationally positioning the control switch 40 is further included, and the positioning structure 70 controls the control switch 40 to be positioned at the adjusting position. The positioning structure 70 indirectly performs rotational positioning on the control switch 40 in this embodiment, specifically, a plurality of positioning grooves 71 are disposed on the body 10, an elastic buckle 72 is disposed on the flow control valve core 31, when the flow control valve core 31 rotates in the flow regulation cavity 18, the elastic buckle 72 on the flow control valve core 31 sequentially engages with the positioning grooves 71, so that the flow control valve core 31 can be positioned at a regulation position, and since the control switch 40 and the flow control valve core 31 are rotationally linked, the positioning structure 70 that directly performs rotational positioning on the flow control valve core 31 indirectly performs rotational positioning on the control switch 40. Alternatively, a resilient latch 72 may be provided on the control switch 40 such that the positioning structure 70 will directly rotationally position the control switch 40.

In this embodiment, the shower head 200 includes a handle 210 and a shower head 220 connected to each other, the waterway control mechanism 100 is disposed on the handle 210, the control switch 40 slides in a radial direction of the handle 210, and the pressing waterway switching assembly 20 and the flow control assembly 30 are disposed in parallel in an axial direction of the handle 210. In this way, the radial space occupied by the water flow control mechanism 100 on the handle 210 is small, so that the water path control mechanism 100 can be arranged on the handle 210 of the thinner shower head 200, and a user can press or rotate the control switch 40 with one hand while holding the handle 210, thereby facilitating the operation of the user.

In this embodiment, the main body 10 of the waterway control mechanism is sleeved in the inner cavity of the handle 210, the side wall of the handle 210 is provided with a through hole 230, the waterway control mechanism further comprises a fixing member 240, the fixing member 240 extends into the inner cavity of the handle 210 by means of the through hole 230 and is detachably and fixedly connected with the main body 10 by a screw 250, the fixing member 240 limits the main body 10 in the inner cavity of the handle 210, and the control switch 40 is arranged in the through hole 230 in a penetrating manner.

The working engineering of this embodiment is briefly described as follows:

referring to fig. 6 and 7, when the switching member 21 is at the 1 st position, the switching member 21 opens the first overflowing hole 1421 and closes the second overflowing hole 1422, so that the water inlet channel 11 is communicated with the first water outlet channel 12 and is cut off from the second water outlet channel 13, and the shower head 200 realizes water outlet from the first water outlet channel 12;

when the control switch 40 is pressed once, the control switch 40 drives the jacking member 22 to slide relative to the main body 10, and the switching member 21 continues to rotate 90 degrees in one direction under the action of the ratchet wheel 211 and the ratchet 221 to switch to the 2 nd position, at this time, the switching member 21 simultaneously opens the first overflowing hole 1421 and the second overflowing hole 1422, so that the water inlet channel 11 is simultaneously communicated with the first water outlet channel 12 and the second water outlet channel 13, and the shower head 200 realizes water outlet from the first water outlet channel 12 and the second water outlet channel 13 simultaneously;

when the control switch 40 is pressed again, the control switch 40 drives the top pressure member 22 to slide relative to the main body 10, and the switching member 21 continues to rotate 90 ° in one direction under the action of the ratchet wheel 211 and the ratchet 221 to switch to the 3 rd position, at this time, the switching member 21 closes the first overflowing hole 1421 and opens the second overflowing hole 1422, so that the water inlet channel 11 is cut off from the first water outlet channel 12 and is communicated with the second water outlet channel 13, and the shower head 200 realizes water outlet from the second water outlet channel 13;

when the control switch 40 is pressed once again, the control switch 40 drives the pressing member 22 to slide relative to the main body 10, and the switching member 21 continues to rotate 90 ° in one direction under the action of the ratchet wheel 211 and the ratchet 221 to switch to the 4 th position, at this time, the switching member 21 simultaneously closes the first overflowing hole 1421 and the second overflowing hole 1422, so that the water inlet channel 11 is simultaneously cut off from the first water outlet channel 12 and the second water outlet channel 13, and the shower head stops water outlet.

The above pressing action is repeated, and the shower head 200 switches the water outlet among the above various water outlet modes.

Referring to fig. 8 and 9, at this time, the opening of the adjusting hole 3111 of the adjusting portion 311 is set to O, and the flow control valve core 31 cuts off the water inlet passage 11, so that the shower head 200 stops water outlet.

In the state shown in fig. 8 and 9, the adjusting portion 311 is rotated to gradually increase the opening of the adjusting hole 3111, so that the cross-sectional area of the water inlet passage 11 is gradually increased, and the water outlet flow of the shower head 200 is correspondingly increased, as shown in fig. 10 and 11, the adjusting hole 3111 is in the maximum opening state. The flow cross-sectional area of the flow regulating cavity 18 is changed by changing the opening of the regulating hole 3111, and then the flow cross-sectional area of the water inlet passage 11 is changed, so that the flow regulation is very simple and convenient.

While the foregoing specification illustrates and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive or to exclude other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (10)

1. The utility model provides a water route control mechanism with integral type control switch which characterized in that includes:

the main body of the waterway control mechanism is provided with a water inlet channel and at least two water outlet channels;

the pressing type waterway switching assembly is movably arranged on the main body, and when being pressed, the pressing type waterway switching assembly controls the water inlet channel to be communicated with or cut off from each water outlet channel in a switching manner;

the flow control assembly is rotatably arranged on the main body and controls the through-flow sectional area of the water inlet channel when rotating;

the control switch can be rotatably and slidably arranged on the main body, and when the control switch is pressed, the control switch drives the pressing type waterway switching component to perform switching action; when the control switch is rotated, the control switch drives the flow control assembly to rotate;

the push type waterway switching assembly and the flow control assembly are staggered in the sliding direction of the control switch.

2. The waterway control mechanism of claim 1, wherein the body is formed with a water diversion cavity communicated with the water inlet channel, the water diversion cavity is formed with at least two overflowing holes communicated with the water outlet channel in a one-to-one correspondence manner, and the pressing type waterway switching assembly is matched with the overflowing holes to open or close the overflowing holes.

3. The waterway control mechanism of claim 2, wherein the pressing waterway switching assembly comprises a switching member, a pressing member and a first return elastic member, the switching member is provided with a ratchet, the pressing member is provided with a ratchet matched with the ratchet, when the control switch drives the pressing member to slide relative to the main body, the switching member is rotated by a preset angle in one direction under the action of the ratchet and the ratchet, and the switching member switchingly opens the through-flow hole during rotation.

4. The waterway control mechanism of claim 3, wherein an opening is formed at one end of the water diversion cavity, a bottom wall of the water diversion cavity is formed at the other end of the water diversion cavity, the push-type waterway switching assembly is loaded into the water diversion cavity through the opening, the waterway control mechanism further comprises a fastening cover connected with the opening in a sealing manner, the overflowing hole is formed in the bottom wall of the water diversion cavity, the switching piece is of a sheet structure and is matched with the bottom wall of the water diversion cavity in a relatively rotating manner, a sleeve communicated with the water diversion cavity extends outwards from the bottom wall of the water diversion cavity, a ratchet wheel on the switching piece is matched with a ratchet wheel on the jacking piece in the sleeve, one end of the jacking piece extends outwards from the sleeve and is matched with the control switch in a linkage manner, the jacking piece is matched with the inner wall of the sleeve in a dynamic sealing manner and is matched with a circumferential limit manner, and a rotating shaft is further arranged in the water diversion, the switching piece rotates around the rotating shaft, the first reset elastic piece is sleeved outside the rotating shaft, and the first reset elastic piece is elastically ejected between the switching piece and the buckle cover.

5. The waterway control mechanism of claim 2, wherein the main body further forms a flow regulating chamber communicating with the water inlet channel, the flow control assembly comprises a flow control valve core, the flow control valve core is provided with a regulating part extending into the flow regulating chamber and a driving part positioned outside the flow regulating chamber, and the regulating part changes the flow cross-sectional area of the flow regulating chamber when rotating in the flow regulating chamber, so as to change the flow cross-sectional area of the water inlet channel.

6. The waterway control mechanism of claim 5, wherein the control switch is provided with a first tooth portion, the driving portion of the flow control valve core is provided with a second tooth portion engaged with the first tooth portion, and the control switch rotates to drive the flow control valve core to rotate through the engagement of the first tooth portion and the second tooth portion so as to change the flow cross-sectional area of the flow regulation cavity.

7. The waterway control mechanism of claim 5, wherein the flow regulating chamber is located upstream of the diversion chamber.

8. The waterway control mechanism of claim 1, further comprising a limiting structure for limiting rotation of the control switch, wherein the limiting structure controls the control switch to rotate within a predetermined range; and a second reset elastic piece which resets after the control switch is pressed is also arranged between the control switch and the main body.

9. The waterway control mechanism of claim 1, further comprising a positioning structure for rotationally positioning the control switch, the positioning structure controlling the control switch to be positioned at an adjustment position.

10. A shower head comprises a handle and a shower head which are connected, and is characterized by further comprising the waterway control mechanism of any one of claims 1 to 9, wherein the waterway control mechanism is arranged on the handle, the control switch slides along the radial direction of the handle, and the pressing type waterway switching component and the flow control component are arranged in parallel along the axial direction of the handle.

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