CN212643631U - Waterway sliding switching device and water outlet device - Google Patents

Abstract

The utility model discloses a water route slip auto-change over device and play water installation. The waterway sliding switching device comprises a valve body part and a sliding part, wherein the valve body part is provided with a waterway and two branch waterways, and the sliding part can slide relative to the valve body part so as to switch the two branch waterways to be communicated with the waterway through the sliding; the valve body component is provided with a valve body component, the valve body component is provided with a sliding component and a stressed component, the valve body component is provided with a limiting mechanism for limiting the movement or the movement stroke of the stressed component, the stressed component is arranged in the valve body component and is matched with the two water paths, so that water flow in the two water paths can act on the stressed component to enable the stressed component to be subjected to water acting force, the sliding component and the stressed component can slide relatively, and the valve. It has the following advantages: reduce the sliding part and be received water effort, realize laborsaving switching.

Description

Waterway sliding switching device and water outlet device

Technical Field

The utility model relates to a kitchen guarding technical field especially relates to a water route slip auto-change over device and play water installation.

Background

The existing water path sliding switching device comprises a shell, a main water path, a movable plug, a shifting lever and a water outlet pipe, wherein the main water path is arranged in the shell and forms an upper water outlet channel, the water outlet pipe is arranged below the main water path and forms a lower water outlet channel, the water outlet pipe and the shell form a water inlet channel, the shell and the main water path are respectively provided with a first opening and a second opening, one end of the shifting lever penetrates through the first opening and the second opening and is connected with the movable plug, and the shifting lever drives the movable plug matched with the water outlet pipe to move up and down to enable the water inlet channel to be communicated with the upper water outlet channel or one of the lower water outlet channels. The shower can directly stir the shifting lever of the switching device upwards to realize water outlet, and directly stir the shifting lever of the switching device downwards to realize water outlet. The existing waterway sliding switching device is high in water pressure, is blocked by water power in the mutual switching process between switching positions, has large operating force, is difficult to switch, and even needs to close water to assist in operation switching.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water route slip auto-change over device and play water installation, it has overcome the not enough that water route slip auto-change over device and play water installation exist in the background art.

The utility model provides one of the technical scheme who adopts of its technical problem is:

a waterway sliding switching device comprises a valve body component and a sliding component, wherein the valve body component is provided with a waterway inlet and two branch waterways, and the sliding component can slide relative to the valve body component to switch the two branch waterways to be communicated with the waterway inlet through the sliding; the valve body component is provided with a valve body component, the valve body component is provided with a sliding component and a stressed component, the valve body component is provided with a limiting mechanism for limiting the movement or the movement stroke of the stressed component, the stressed component is arranged in the valve body component and is matched with the two water paths, so that water flow in the two water paths can act on the stressed component to enable the stressed component to be subjected to water acting force, the sliding component and the stressed component can slide relatively, and the valve.

In one embodiment: the force-bearing component isolates two water paths.

In one embodiment: a reset elastic body is arranged between the sliding component and the valve body component.

In one embodiment: the sliding component comprises a sliding sleeve and a sealing part fixedly arranged outside the sliding sleeve, the sliding sleeve drives the sealing part to slide so as to switch the two water diversion paths to be communicated with the water inlet path, and the sliding sleeve is connected outside the stressed component in a sealing and sliding manner; the two water dividing paths are respectively a first water dividing path and a second water dividing path, the first water dividing path is provided with a sleeve inner part positioned in the sliding sleeve, water flow in the first water dividing path can act on the first end face of the stress component to generate water acting force, the second water dividing path is provided with a gap section positioned in the sliding sleeve and the valve body component and a water outlet section communicated with the gap section, and the water flow in the water outlet section can act on the second end face of the stress component to generate water acting force.

In one embodiment: the sliding sleeve is provided with a water through hole penetrating through the inner part and the outer part of the sleeve of the sliding sleeve, and the water outlet section and the inner part of the sleeve are respectively positioned at two sides of the stressed component.

In one embodiment: the valve body component is internally provided with a mounting cavity, the sliding sleeve can be connected in the mounting cavity in a sliding manner, a sealing element is arranged between the inner wall of the mounting cavity and the sliding sleeve, and the sealing element, the water through opening and the stress component are arranged at intervals along the length of the sliding sleeve.

In one embodiment: the water outlet section is formed in the mounting cavity, and the gap section is formed between the inner wall of the mounting cavity and the shaft sleeve.

In one embodiment: the force-bearing part is provided with an extension part which extends out of the sliding sleeve and into the water outlet section, the limiting mechanism is arranged on the water outlet section, and the extension part is matched with the limiting mechanism to realize limitation.

In one embodiment: the extension part is provided with a limiting part, the limiting mechanism comprises a limiting groove concavely arranged on the inner wall of the water outlet section, and the limiting part is inserted into the limiting groove and is matched with the limiting part to realize limiting.

In one embodiment: the inlets of the two water paths are arranged at intervals, the water inlet path is provided with a water diversion cavity which is positioned in the valve body part and between the inlets of the two water paths, the sliding sleeve penetrates through the water diversion cavity and the sealing part is positioned in the water diversion cavity, and the sealing part is used for selecting the inlet of the sealing water diversion to realize switching.

In one embodiment: the valve body part is internally provided with a mounting cavity, the sliding sleeve can be connected in the mounting cavity in a sliding way, the water outlet section is formed in the mounting cavity, and the gap section is formed between the inner wall of the mounting cavity and the shaft sleeve; the valve body component is provided with a water inlet which penetrates through the inside and the outside and is communicated with the water distribution cavity.

In one embodiment: the valve body part comprises a shaft sleeve part and a first joint fixedly connected to the first end of the shaft sleeve part in a sealing mode, the mounting cavity is arranged in the shaft sleeve part, the first joint is communicated with the first port of the shaft sleeve part, and a step facing the shaft sleeve part is arranged on the first joint; the force-bearing part is provided with an extending part extending out of the sliding sleeve, the limiting mechanism comprises a limiting groove formed by a first end face of the shaft sleeve part and a step of the first joint at intervals, the limiting part is inserted into the limiting groove, and the limiting is realized through the matching of the limiting groove and the limiting part.

In one embodiment: the valve body part comprises a shell and a second connector, the shaft sleeve part is fixedly connected in the shell, the second connector is fixedly connected at the second end of the shaft sleeve part, and the second connector is communicated with the second port of the shaft sleeve part.

In one embodiment: the shaft sleeve component comprises a shaft sleeve and a sealing sleeve, wherein the shaft sleeve and the sealing sleeve are fixedly connected in a shell, the shaft sleeve and the sealing sleeve are arranged at intervals, and the shaft sleeve and the sealing sleeve form the two branch waterway inlets towards ports.

In one embodiment: the valve body component comprises a shell, the shaft sleeve component is fixedly connected in the shell, a first through hole penetrating through the shaft sleeve component is formed in the shaft sleeve component, a second through hole penetrating through the shaft sleeve component is formed in the shell, the operating piece extends into the first through hole and the second through hole, and the operating piece is connected with the sliding component in a transmission mode to slide through the sliding component.

In one embodiment: the valve body component comprises a shell and a shaft sleeve fixedly connected in the shell in a sealing mode, the shaft sleeve is matched with the shell and is provided with an installation cavity, the sliding sleeve can be connected in the installation cavity in a sliding mode, a sealing element is arranged between the inner wall of the installation cavity and the sliding sleeve, and the sealing element, the water through opening and the stress component are arranged at intervals along the length of the sliding sleeve.

In one embodiment: the valve body part also comprises a second joint which is fixedly connected in the shell and communicated with the shell, and the shell is provided with a step facing the second joint; the force-bearing component is provided with an extending part extending out of the sliding sleeve, the limiting mechanism comprises a limiting groove formed by the inner end face of the second joint and the step interval of the shell, the limiting part is inserted into the limiting groove, and the limiting is realized through the matching of the limiting groove and the limiting part.

In one embodiment: still including the operating parts of the activity of ability relative valve body part, this valve body part is equipped with and runs through inside and outside hole of stepping down, and this operating parts stretches into and steps down downthehole and the transmission connection sliding part slides with the band energy slip sliding part.

The utility model provides a second of the technical scheme of its technical problem's adoption: a waterway sliding switching device comprises a valve body component and a sliding component, wherein the valve body component is provided with a waterway and two branch waterways, and the sliding component slides relative to the valve body component so as to switch the two branch waterways to be communicated with the waterway through the sliding; the valve body component is provided with a limiting mechanism for limiting the movement or the movement stroke of the stressed component.

The third technical scheme of the utility model for solving the technical problem is: the water outlet device comprises a faucet main body, a control mechanism and the waterway sliding switching device, wherein the faucet main body is provided with a front waterway, the control mechanism is matched with the front waterway to control the waterway, and the front waterway is connected with a waterway of the waterway sliding switching device.

Compared with the background technology, the technical scheme has the following advantages:

the forced component is arranged in the valve body component and is matched with the two water paths, so that water flow in the two water paths can act on the forced component to enable the forced component to be subjected to water acting force, water pressure borne by the forced component is limited by the limiting mechanism of the valve body component, the sliding component can slide relative to the forced component, the sliding component is reduced in water acting force, and labor-saving switching is achieved.

The forced component is arranged in the valve body component and isolates the two water paths, water flow in the two water paths can act on the forced component to enable the forced component to be subjected to water acting force, water pressure borne by the forced component is limited by the limiting mechanism of the valve body component, the sliding component can slide relative to the forced component, the sliding component is reduced to be subjected to the water acting force, and labor-saving switching is achieved.

A reset elastic body is arranged between the sliding component and the valve body component, and the sliding component is driven to reset through the reset elastic force so as to realize the effect of closing water and resetting the initial state.

The sliding sleeve is connected outside the stressed part in a sealing and sliding mode, the first water dividing path is provided with the inner portion, located in the sliding sleeve, of the sliding sleeve, water flow in the first water dividing path can act on the first end face of the stressed part to generate water acting force, the second water dividing path is provided with a gap section, located in the sliding sleeve and the valve body part, and a water outlet section communicated with the gap section, the water flow in the water outlet section can act on the second end face of the stressed part to generate water acting force, the structure is simple and compact, switching is stable and.

The sliding sleeve is provided with a water through hole penetrating through the inner part and the outer part of the sleeve body of the sliding sleeve, the water outlet section and the inner part of the sleeve body are respectively positioned on two sides of the stressed part, the water path layout is reasonable, the structure is compact, and the external water outlet mechanism is convenient to connect.

The stressed part is provided with an extending part which extends out of the sliding sleeve and into the water outlet section, the limiting mechanism is arranged on the water outlet section, the extending part is matched with the limiting mechanism to realize limitation, the layout is reasonable, the realization of limitation and water path switching is not influenced, and the structure is compact.

The limit is realized through the matching of the limit groove and the limit part, and the structure is simple, and the limit is stable and reliable.

The spacing of the end surface of the shaft sleeve part and the step of the joint forms a limiting groove, or the spacing of the end surface in the joint and the step of the shell forms a limiting groove, so that the structure is simple and compact, and the external water outlet mechanism is convenient to connect.

The shaft sleeve and the sealing sleeve are fixedly connected in the shell, the shaft sleeve and the sealing sleeve are arranged at intervals, and the facing ports of the shaft sleeve and the sealing sleeve form two water path inlets.

The valve body part comprises a shell and a shaft sleeve fixedly connected in the shell in a sealing mode, the shaft sleeve is matched with the shell and is provided with an installation cavity, and the sliding sleeve can be connected in the installation cavity in a sliding mode.

Drawings

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Fig. 1 is a perspective view of a waterway sliding switching device according to an embodiment.

Fig. 2 is an exploded perspective view of the waterway slide switching device according to the embodiment.

Fig. 3 is a schematic perspective cross-sectional view of a waterway sliding switching device according to an embodiment, at this time, water is drained.

Fig. 4 is a second schematic perspective sectional view of the waterway sliding switching device according to the first embodiment, at this time, water is discharged from the waterway.

Fig. 5 is a schematic perspective view of a water outlet device according to a first embodiment of the application.

Fig. 6 is a schematic perspective exploded view of a water outlet device according to a first embodiment.

Fig. 7 is a schematic sectional view of a water outlet device according to the first embodiment.

Fig. 8 is a perspective view of the second waterway slide switching device in accordance with the embodiment.

Fig. 9 is a schematic perspective exploded view of a second waterway slide switching device according to the embodiment.

Fig. 10 is a schematic perspective sectional view of a second waterway sliding switching device according to an embodiment, at this time, water is drained.

Fig. 11 is a second schematic perspective sectional view of the second waterway sliding switching device according to the second embodiment, at this time, water is discharged from the upper part.

Fig. 12 is a schematic perspective view of a water outlet device according to a second embodiment.

Fig. 13 is a schematic perspective exploded view of a water outlet device according to a second embodiment.

Fig. 14 is a schematic sectional view of a water outlet device according to a second embodiment.

Description of reference numerals: the waterway slide switching device A comprises a waterway slide switching device A, a valve body component 1, a slide component 2, a force-bearing component 3, a reset elastic body 4 and an operating piece 5; the water inlet channel 11, the water distribution cavity 111, the water inlet 112, the first water distribution channel 12, the second water distribution channel 12', the limiting mechanism 13, the limiting groove 131, the installation cavity 14, the gap section 141, the water outlet section 142, the sealing element 143, the first joint 15, the first step 151, the first shell 16, the second through hole 161, the second joint 17, the shaft sleeve 18, the first through hole 181, the outer flange 182 and the sealing sleeve 19; a sliding sleeve 21, a sleeve inner part 211, a water passage 212, a corresponding slot 213 and a sealing part 22; an extension 31, a stopper 32; a shift lever 51, a locking piece 52 and an insertion part 521; the faucet comprises a faucet body 6, a control mechanism 61, a handle 611, a hard pipe 62, a shower head 621, a hose 63 and a hand shower head 631.

The waterway slide switching device a ', the second housing 16 ', the second step 162, the outer sleeve 53, the inner sleeve 54, the insertion piece 541, and the handle 611 '.

Detailed Description

Example one

Referring to fig. 1 to 4, the water flow direction is shown by the dotted arrow lines. The waterway slide switching device A comprises a valve body component 1, a slide component 2, a force-bearing component 3, a reset elastic body 4 and an operating piece 5. The valve body part 1 is provided with a water inlet channel 11 and two water dividing channels 12 and 12 ', the sliding part 2 can be connected in the valve body part 1 in a sliding way so as to switch the two water dividing channels 12 and 12' to be communicated with the water inlet channel 11 through the sliding way; the stressed part 3 is arranged in the valve body part 1, and separates two water paths 12 and cooperates with the two water paths 12 and 12 'to ensure that water flows in the two water paths 12 and 12' can act on the stressed part 3 to cause the stressed part to be stressed by water, the sliding part 2 and the stressed part 3 can relatively slide, the valve body part 1 is provided with a limiting mechanism 13 which limits the movement or the movement stroke of the stressed part 3, the movement of the stressed part 3 can be limited through the limiting mechanism 13, or the stressed part 3 can only be limited to slide on a small sliding stroke, and the small sliding stroke is specific to the sliding stroke of the sliding part 2, such as the proportion of the two parts is 1: (5-10). A reset elastic body 4 is arranged between the sliding part 2 or the operating part 5 and the valve body part 1, so that the waterway sliding switching device A can be automatically reset to an initial state when the front waterway is closed through the reset elastic body 4. The operating member 5 is drivingly connected to the slide member 2 to drive the slide member 2 to slide, i.e., up and down, in the drawing.

The valve body component 1 is internally provided with a mounting cavity 14; the sliding component 2 comprises a sliding sleeve 21 and a sealing part 22 fixedly arranged outside the sliding sleeve 21, the sealing part 22 is a sealing ring, the sliding sleeve 21 can be connected in the installation cavity 14 in a sliding manner, the sliding sleeve 21 can slide up and down in the drawing, the sealing part 22 is driven by the sliding sleeve 21 to slide so as to switch the two water dividing paths 12 and 12' to be communicated with the water inlet path 11, and the sliding sleeve 21 is connected outside the force bearing component 3 in a sealing and sliding manner; the two water dividing paths 12 are respectively a first water dividing path 12 and a second water dividing path 12 ', the first water dividing path 12 has a sleeve inner part 211 positioned in the sliding sleeve 21, and water flow in the first water dividing path can act on a first end surface of the force-bearing part 3 to generate water acting force, as shown in the figure, can act on an upper end surface of the force-bearing part 3, the second water dividing path 12' has a gap section 141 positioned between the sliding sleeve 21 and the valve body part 1 and a water outlet section 142 communicated with the gap section 141, as shown in the figure, the gap section 141 is formed between the inner wall of the installation cavity 14 and the shaft sleeve 211, the water outlet section 142 is a region of the installation cavity 14 positioned below the force-bearing part 3, and water flow in the water outlet section 142 can act on a lower end surface of. The first end face and the second end face of the stress component 3 are arranged oppositely. The water outlet section 142 and the inner part 211 of the sleeve are respectively positioned at two sides of the force bearing part 3. The sliding sleeve 21 is provided with a water passage 212 penetrating the inside and outside of the sleeve inner part 211 of the sliding sleeve, a sealing member 143 is provided between the inner wall of the installation chamber 14 and the sliding sleeve 21, the sealing member, the water passage and the force receiving member are arranged at intervals along the length of the sliding sleeve, and the force receiving member 3 does not block the water passage 212 because the force receiving member 3 does not slide or the sliding stroke is short.

The inlets of the two water paths 12, 12 ' are arranged facing each other at intervals, the water inlet 11 has a water dividing cavity 111 located in the valve body 1 and between the inlets of the two water paths 12, 12 ', and the water dividing cavity is the region of the installation cavity 14 between the inlets of the two water paths 12, 12 '. The sliding sleeve 21 passes through the water distribution cavity 111, the sealing part 22 is positioned in the water distribution cavity 111, and the switching is realized by selectively sealing the inlet of the water distribution channel through the sealing part. The valve body part 1 is provided with a water inlet 112 penetrating through the inside and the outside of the installation cavity 14, the water inlet 112 is communicated with the water diversion cavity 111, and the water inlet path comprises the water inlet and the water inlet cavity.

The force-bearing component 3 has a matching portion capable of being connected in a sliding manner in the sliding sleeve 21 in a sealing manner and an extending portion 31 fixedly connected to the matching portion, if the extending portion 31 includes an extending column, the extending column extends out of the sliding sleeve 21 and extends into the water outlet section 142, the extending portion 31 further includes a limiting part 32, and if the limiting part 32 is a circular ring, the circular ring surrounds the extending column and is fixedly connected to the tail end of the extending column through spokes, and a channel for water flow to pass through is formed between adjacent spokes. The limiting mechanism 13 includes a limiting groove 131 concavely formed on the inner wall of the water outlet section 142, and the ring is inserted into the limiting groove 131 to realize limiting through the matching of the limiting groove and the limiting member.

The valve body assembly 1 includes a boss member, a first joint 15, a first housing 16, and a second joint 17. The shaft sleeve component comprises a shaft sleeve 18 and a sealing sleeve 19, the shaft sleeve 18 and the sealing sleeve 19 are fixedly connected in a first shell 16 and are matched to form the mounting cavity 14, the shaft sleeve and the sealing sleeve are arranged at intervals up and down, facing ports of the shaft sleeve and the sealing sleeve form the two water dividing channel inlets, and the separated areas form the water dividing cavity 111. The first joint 15 is fixedly connected in the lower port of the first shell 16, and the first joint 15 and the lower end of the sealing sleeve 19 are relatively fixedly connected and communicated; the second joint 17 is fixed in the upper port of the first housing 16, so that the second joint 17 is fixed and connected with the upper end of the shaft sleeve 18. The first housing 16 is provided with the above-mentioned water inlet 112 penetrating inside and outside to introduce water to the water-dividing chamber 111. The first joint 15 is provided with a first step 151 facing the sealing gland 19; the first end surface of the sealing sleeve 19 and the first step of the first joint face each other at a distance and form the above-mentioned limiting groove.

The shaft sleeve 18 is provided with a first through hole 181 penetrating through the inside and outside, the first housing 16 is provided with a second through hole 161 penetrating through the inside and outside, and the operating member 5 extends into the first through hole 181 and the second through hole 161 and is fixedly connected with the sliding sleeve 21 so as to drive the sliding member to slide. The seal 143 is provided between the first through hole 181 and the water passage port 212 to prevent water from flowing from the water passage port 212 into the first through hole 181. Further, the operating device 5 includes a shift lever 51 and a locking member 52, the shift lever 51 is fixed to the sliding sleeve 21 through the locking member 52, the locking member 52 includes an arc-shaped sleeve, the opening of the inner wall of the arc-shaped sleeve is provided with an inserting portion 521, the sliding sleeve 21 is provided with a corresponding slot 213, the inserting portion is inserted into the corresponding slot, and the shift lever 51 is locked to the arc-shaped sleeve. The return elastic body 4 is, for example, a spring, which is sleeved on the sliding sleeve 21 and abuts between the locking member 52 and an outer flange 182 protruding from the sleeve 18. In the present embodiment, the return elastic body is provided between the operation element and the valve body member 1, and may be directly provided between the sliding portion and the valve body member as necessary.

Referring to fig. 5 to 7, the water flow direction is indicated by the dotted arrow lines. The water outlet device comprises a faucet body 6, a control mechanism 61 and a waterway sliding switching device A, wherein the faucet body 6 is provided with a front end waterway, the control mechanism 61 is matched with the front end waterway to control the waterway, the front end waterway comprises a cold waterway, a hot waterway and a mixed waterway, the control mechanism 61 is provided with a control mechanism with water temperature, flow regulation and switch, the water temperature, the switch and the flow can be controlled through a handle 611 of the control mechanism 61, and the control mechanism can refer to the prior art. The control mechanism is arranged in the middle of the tap main body 6, and the handle is positioned in front of the middle of the tap main body 6. The water passage slide switching device A is installed in the faucet body 6, the front end water passage is connected with the water inlet passage 11 of the water passage slide switching device A, and the upper part of the valve body part 1 extends out of the faucet body 6. The first water dividing path of the water path sliding switching device A is connected with a hard pipe 62 fixedly connected with the faucet main body 6 through a second joint, the end of the hard pipe 62 is connected with a shower head 621, the second water dividing path is connected with a hose 63 through the first joint, and the end of the hose 63 is connected with a handheld shower head 631. The operating member 5 is located above the faucet body 6. The appearance of the water outlet device of the embodiment can be simplified to be consistent with that of the lower support pipe, and the appearance is simplified and attractive.

In the initial water outlet state of the water outlet device, as shown in fig. 3: when the control mechanism is opened, water flows enter along the side edge of the water path sliding switching device, the sliding sleeve 21 seals an upper water diversion channel water diversion port (an upper water outlet sealing surface) of the shaft sleeve by a sealing part on the sliding sleeve 21 under the spring force action of the reset elastic body, the water outlet of the head shower is closed at the moment, water flows from the inner cavity of the sealing sleeve, and the hand shower discharges water. Closing water and resetting: when the top-spraying shower head discharges water, the control mechanism of the main body of the faucet is closed, the faucet stops water supply, the water pressure above the sealing part of the sliding sleeve 21 disappears, the sliding sleeve 21 moves upwards under the elastic action of the reset elastic body, the upper water diversion opening of the shaft sleeve is sealed, the lower water diversion opening of the sealing sleeve is opened, and the default water discharge of the handheld shower head is recovered; when the hand-held shower head discharges water, the sliding sleeve 21 is kept at the position under the elastic force of the reset elastic body when the water is closed, and the initial state is kept. In the switching process, the deflector rod slides, the deflector rod drives the sliding sleeve 21 to slide, and the sealing part switches and plugs the water distribution port of the upper water distribution path and the lower water distribution path; secondly switch the in-process, the operating force needs mainly to overcome the pressure of water pressure effect at sliding sleeve 21 and sealing, because of sets up the through-hole in the middle of the sliding sleeve 21, the through-hole sets up the stress component, and the water pressure that the stress component received is restricted by the limiting mechanism of valve body part, and the sliding sleeve can slide by the stress component relatively, consequently does not act on sliding sleeve 21, has reduced the area of receiving the water pressure on the sliding sleeve 21 greatly, receives the water pressure less this moment, realizes laborsaving switching.

Example two

Referring to fig. 8 to 11, the water flow direction is indicated by the dotted arrow lines. It differs from the first embodiment in that: the valve body part 1 of the waterway slide switching device A ' comprises a second shell 16 ' and a shaft sleeve 18 which is hermetically and fixedly connected in the second shell 16 ', the lower section of the second shell 16 ' is hermetically and fixedly connected with the upper section of the shaft sleeve 18, and the shaft sleeve 18 is matched with the second shell 16 ' and is provided with the installation cavity 14. The second joint 17 is fixedly connected in the second housing 16 'and the second joint is communicated with the second housing, and the second housing 16' is provided with a second step 162 facing the second joint; the lower end face of the second joint is spaced from the second step of the second shell, and the spacing is matched to form a limiting groove. The first water dividing path 12 has a sleeve inner part 211 located in the sliding sleeve 21 and water flow therein can act on the first end face of the force receiving component 3 to generate water acting force, as shown in the figure, the second water dividing path 12' has a gap section 141 located between the sliding sleeve 21 and the second housing and a water outlet section 142 connected with the gap section 141, as shown in the figure, the gap section 141 is formed between the inner wall of the second housing 4 and the shaft sleeve 211, the water outlet section 142 is the region of the mounting cavity 14 located on the force receiving component 3, and water flow in the water outlet section 142 can act on the upper end face of the force receiving component 3 to generate water acting force.

The operation element 5 comprises an outer sleeve 53 and an inner sleeve 54 fixedly connected with the outer sleeve, the inner sleeve is sleeved outside the shaft sleeve, the inner sleeve 54 is convexly provided with an insertion piece 541, and the insertion piece 541 penetrates through the first through opening and is locked on the sliding sleeve 21. The elastic body 5 is sleeved with the sliding sleeve and is propped between the operating part 5 and the first joint.

Referring to fig. 12 to 14, the water flow direction is indicated by a dotted arrow line. The water outlet device comprises a faucet main body 6, a control mechanism 61 and a waterway sliding switching device A', wherein the faucet main body 6 is provided with a front waterway, and the control mechanism is matched with the front waterway to control the waterway. The control mechanism is arranged in the middle of the tap main body 6, and the handle 611' of the control mechanism is positioned at the side end of the tap main body 6. The water passage slide switching device A is installed in the faucet body 6, and the front end water passage is connected to the water inlet passage 11 of the water passage slide switching device. The first water dividing channel of the water channel sliding switching device is connected with a hose 63 through a lower port of a valve shaft, the tail end of the hose 63 is connected with a handheld shower head 631, the second water dividing channel is fixedly connected with a hard pipe 62 of the faucet body 6 through a second connector, and the tail end of the hard pipe 62 is connected with a head shower head 621. The operating member 5 is located below the tap body 6. The appearance of the water outlet device of the embodiment is simplified to be consistent with that of the lower support pipe, and the appearance is simplified and attractive.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims (20)

1. A waterway sliding switching device comprises a valve body component and a sliding component, wherein the valve body component is provided with a waterway inlet and two branch waterways, and the sliding component can slide relative to the valve body component to switch the two branch waterways to be communicated with the waterway inlet through the sliding; the method is characterized in that: the valve body component is provided with a valve body component, the valve body component is provided with a sliding component and a stressed component, the valve body component is provided with a limiting mechanism for limiting the movement or the movement stroke of the stressed component, the stressed component is arranged in the valve body component and is matched with the two water paths, so that water flow in the two water paths can act on the stressed component to enable the stressed component to be subjected to water acting force, the sliding component and the stressed component can slide relatively, and the valve.

2. The waterway slide switching device of claim 1, wherein: the force-bearing component isolates two water paths.

3. The waterway slide switching device of claim 1, wherein: a reset elastic body is arranged between the sliding component and the valve body component.

4. The waterway slide switching device of claim 1, wherein: the sliding component comprises a sliding sleeve and a sealing part fixedly arranged outside the sliding sleeve, the sliding sleeve drives the sealing part to slide so as to switch the two water diversion paths to be communicated with the water inlet path, and the sliding sleeve is connected outside the stressed component in a sealing and sliding manner; the two water dividing paths are respectively a first water dividing path and a second water dividing path, the first water dividing path is provided with a sleeve inner part positioned in the sliding sleeve, water flow in the first water dividing path can act on the first end face of the stress component to generate water acting force, the second water dividing path is provided with a gap section positioned in the sliding sleeve and the valve body component and a water outlet section communicated with the gap section, and the water flow in the water outlet section can act on the second end face of the stress component to generate water acting force.

5. The waterway slide switching device of claim 4, wherein: the sliding sleeve is provided with a water through hole penetrating through the inner part and the outer part of the sleeve of the sliding sleeve, and the water outlet section and the inner part of the sleeve are respectively positioned at two sides of the stressed component.

6. The waterway slide switching device of claim 5, wherein: the valve body component is internally provided with a mounting cavity, the sliding sleeve can be connected in the mounting cavity in a sliding manner, a sealing element is arranged between the inner wall of the mounting cavity and the sliding sleeve, and the sealing element, the water through opening and the stress component are arranged at intervals along the length of the sliding sleeve.

7. The waterway slide switching device of claim 6, wherein: the water outlet section is formed in the mounting cavity, and the gap section is formed between the inner wall of the mounting cavity and the shaft sleeve.

8. The waterway slide switching device of claim 4, wherein: the force-bearing part is provided with an extension part which extends out of the sliding sleeve and into the water outlet section, the limiting mechanism is arranged on the water outlet section, and the extension part is matched with the limiting mechanism to realize limitation.

9. The waterway slide switching device of claim 8, wherein: the extension part is provided with a limiting part, the limiting mechanism comprises a limiting groove concavely arranged on the inner wall of the water outlet section, and the limiting part is inserted into the limiting groove and is matched with the limiting part to realize limiting.

10. The waterway slide switching device of claim 4, wherein: the inlets of the two water paths are arranged at intervals, the water inlet path is provided with a water diversion cavity which is positioned in the valve body part and between the inlets of the two water paths, the sliding sleeve penetrates through the water diversion cavity and the sealing part is positioned in the water diversion cavity, and the sealing part is used for selecting the inlet of the sealing water diversion to realize switching.

11. The waterway slide switch device of claim 10, wherein: the valve body part is internally provided with a mounting cavity, the sliding sleeve can be connected in the mounting cavity in a sliding way, the water outlet section is formed in the mounting cavity, and the gap section is formed between the inner wall of the mounting cavity and the shaft sleeve; the valve body component is provided with a water inlet which penetrates through the inside and the outside and is communicated with the water distribution cavity.

12. A waterway slide switch device according to claim 6 or 11, wherein: the valve body part comprises a shaft sleeve part and a first joint fixedly connected to the first end of the shaft sleeve part in a sealing mode, the mounting cavity is arranged in the shaft sleeve part, the first joint is communicated with the first port of the shaft sleeve part, and a step facing the shaft sleeve part is arranged on the first joint; the force-bearing part is provided with an extending part extending out of the sliding sleeve, the limiting mechanism comprises a limiting groove formed by a first end face of the shaft sleeve part and a step of the first joint at intervals, the limiting part is inserted into the limiting groove, and the limiting is realized through the matching of the limiting groove and the limiting part.

13. The waterway slide switch device of claim 12, wherein: the valve body part comprises a shell and a second connector, the shaft sleeve part is fixedly connected in the shell, the second connector is fixedly connected at the second end of the shaft sleeve part, and the second connector is communicated with the second port of the shaft sleeve part.

14. The waterway slide switch device of claim 13, wherein: the shaft sleeve component comprises a shaft sleeve and a sealing sleeve, wherein the shaft sleeve and the sealing sleeve are fixedly connected in a shell, the shaft sleeve and the sealing sleeve are arranged at intervals, and the shaft sleeve and the sealing sleeve form the two branch waterway inlets towards ports.

15. The waterway slide switch device of claim 12, wherein: the valve body component comprises a shell, the shaft sleeve component is fixedly connected in the shell, a first through hole penetrating through the shaft sleeve component is formed in the shaft sleeve component, a second through hole penetrating through the shaft sleeve component is formed in the shell, the operating piece extends into the first through hole and the second through hole, and the operating piece is connected with the sliding component in a transmission mode to slide through the sliding component.

16. The waterway slide switching device of claim 4, wherein: the valve body component comprises a shell and a shaft sleeve fixedly connected in the shell in a sealing mode, the shaft sleeve is matched with the shell and is provided with an installation cavity, the sliding sleeve can be connected in the installation cavity in a sliding mode, a sealing element is arranged between the inner wall of the installation cavity and the sliding sleeve, and the sealing element, the water through opening and the stress component are arranged at intervals along the length of the sliding sleeve.

17. The waterway slide switch device of claim 16, wherein: the valve body part also comprises a second joint which is fixedly connected in the shell and communicated with the shell, and the shell is provided with a step facing the second joint; the force-bearing component is provided with an extending part extending out of the sliding sleeve, the limiting mechanism comprises a limiting groove formed by the inner end face of the second joint and the step interval of the shell, the limiting part is inserted into the limiting groove, and the limiting is realized through the matching of the limiting groove and the limiting part.

18. The waterway slide switching device of claim 1, wherein: still including the operating parts of the activity of ability relative valve body part, this valve body part is equipped with and runs through inside and outside hole of stepping down, and this operating parts stretches into and steps down downthehole and the transmission connection sliding part slides with the band energy slip sliding part.

19. A waterway sliding switching device comprises a valve body component and a sliding component, wherein the valve body component is provided with a waterway inlet and two branch waterways, and the sliding component can slide relative to the valve body component to switch the two branch waterways to be communicated with the waterway inlet through the sliding; the method is characterized in that: the valve body component is provided with a limiting mechanism for limiting the movement or the movement stroke of the stressed component.

20. Go out water installation, including tap main part and control mechanism, its characterized in that: the slide waterway switching device as recited in claim 1 or 19, wherein the main body of the faucet is provided with a front waterway, the control mechanism is matched with the front waterway to control the waterway, and the front waterway is connected with the waterway of the slide waterway switching device.

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