CN218971975U - Induction tap of rotatory switching mode - Google Patents

Abstract

The utility model discloses a rotary switching mode induction tap, which comprises a tap body, a valve seat, a two-in two-out temperature regulating valve core, an electromagnetic valve and an induction switch, wherein the valve seat is arranged on the tap body; the valve seat is arranged in the tap body; the two-in two-out temperature regulating valve core is arranged on the valve seat, the cold water inlet, the hot water inlet and the first water outlet of the two-in two-out temperature regulating valve core are respectively connected and communicated with the cold water inlet channel, the hot water inlet channel and the induction water outlet channel of the valve seat, the second water outlet of the two-in two-out temperature regulating valve core is communicated with the water outlet nozzle of the faucet body, and the rotation of the valve rod of the two-in two-out temperature regulating valve core controls whether the water outlet of the first water outlet and the second water outlet of the valve rod is out or not; the electromagnetic valve is matched with the valve seat, the induction switch is electrically connected with the electromagnetic valve, and the induction switch controls whether the electromagnetic valve is communicated with the induction water outlet channel and the water outlet nozzle of the faucet body. The utility model has the sensing water outlet mode and the manual water outlet mode, and the switching mode of the two water outlet modes does not need the intervention of electronic devices, so that the switching is very convenient and reliable.

Description

Induction tap of rotatory switching mode

Technical Field

The utility model relates to the field of taps, in particular to a rotary switching mode induction tap.

Background

The existing conventional faucet is generally controlled manually, and water outlet control is realized by operating a valve core; with the development of society, the induction tap is inoculated, and the non-contact control of water outlet adopted by the induction tap is convenient and practical, and is easy to operate and popular with users. However, the existing induction taps are all supplied with water in series, and when the induction units fail or the power supply device is powered off, the induction taps cannot be used continuously, so that the use pain points exist; in addition, the existing induction faucet generally adopts time delay water shutoff, can not realize continuous water outlet, and has use limitation.

Disclosure of Invention

The utility model aims to provide a rotary switching mode induction faucet which is provided with an induction water outlet mode and a manual water outlet mode, and the two water outlet modes can be independently used.

In order to achieve the above object, the solution of the present utility model is:

a rotary switching mode induction tap comprises a tap body, a valve seat, a two-in two-out temperature regulating valve core, an electromagnetic valve and an induction switch; the tap body is provided with a water outlet nozzle; the valve seat is arranged in the tap body and is provided with a cold water inlet channel, a hot water inlet channel and an induction water outlet channel; the two-in two-out temperature regulating valve core is arranged on the valve seat, the cold water inlet, the hot water inlet and the first water outlet of the two-in two-out temperature regulating valve core are respectively connected and communicated with the cold water inlet channel, the hot water inlet channel and the induction water outlet channel of the valve seat, the second water outlet of the two-in two-out temperature regulating valve core is communicated with the water outlet nozzle of the faucet body, and the rotation of the valve rod of the two-in two-out temperature regulating valve core controls whether the water outlet of the first water outlet and the second water outlet of the valve rod is out or not; the electromagnetic valve is matched with the valve seat and is used for controlling whether the induction water outlet channel of the valve seat is communicated with the water outlet nozzle of the faucet body or not; the induction switch is electrically connected with the electromagnetic valve, and the induction switch controls whether the electromagnetic valve is communicated with the induction water outlet channel and the water outlet nozzle of the faucet body.

The valve seat is also provided with an induction water channel and an induction water passing channel, an induction water outlet and an induction water passing port which are respectively communicated with the induction water outlet channel and the induction water passing channel are arranged in the induction water channel, and the induction water passing channel is communicated with a water outlet nozzle of the faucet body; the electromagnetic valve is arranged on the valve seat, the electromagnetic valve seals the opening of the induction water tank, and the valve head of the electromagnetic valve stretches into the induction water tank and movably plugs the induction water passing port.

A public water outlet is formed in the side wall of the valve seat and is communicated with the induction water channel and a second water outlet of the two-inlet two-outlet temperature regulating valve core; the water outlet nozzle of the tap body is in butt joint communication with the public water outlet.

The induction water outlet and the induction water passing port of the induction water tank are opposite to the opening of the induction water tank.

The faucet body comprises a faucet main body and the water outlet nozzle connected with the side wall of the faucet main body, and the faucet main body is arranged in a penetrating way up and down; the two-in two-out temperature regulating valve core, the valve seat and the electromagnetic valve are sequentially arranged in the tap main body from top to bottom.

The cold water inlet and the hot water inlet of the two-in two-out temperature regulating valve core are arranged on the bottom end surface of the two-in two-out temperature regulating valve core; the cold water inlet channel and the hot water inlet channel of the valve seat are vertically penetrated.

And the cold water inlet channel and the hot water inlet channel of the valve seat are internally provided with one-way valves.

The first water outlet of the two-inlet two-outlet temperature regulating valve core is arranged at the bottom end surface of the two-inlet two-outlet temperature regulating valve core; the induction water outlet channel, the induction water tank and the induction water passing channel of the valve seat are arranged below the two-in and two-out temperature regulating valve core.

The second water outlet of the two-in two-out temperature regulating valve core is arranged on the side surface of the two-in two-out temperature regulating valve core.

The valve seat is provided with a valve sleeve sleeved with a two-inlet and two-outlet temperature regulating valve core, and a water passing cavity communicated with a second water outlet of the two-inlet and two-outlet temperature regulating valve core is formed between the inner wall of the valve sleeve and the outer wall of the two-inlet and two-outlet temperature regulating valve core; the valve sleeve is connected with a hollow valve cover, and the valve cover presses the two-in and two-out temperature regulating valve cores; the water outlet nozzle of the tap body is communicated with the water passing cavity.

After the scheme is adopted, when a user rotates the valve rod of the two-inlet two-outlet temperature regulating valve core forward relative to the initial position, the first water outlet of the two-inlet two-outlet temperature regulating valve core is discharged, and the second water outlet is not discharged, so that the induction faucet in the rotary switching mode enters an induction water outlet control mode, and at the moment, whether a user stretches hands or other objects to an induction area of an induction switch or not to control the electromagnetic valve to communicate an induction water outlet channel with a water outlet nozzle of the faucet body or not, and whether the water outlet nozzle of the faucet body is discharged or not is controlled; and people can control the water outlet temperature of the water outlet nozzle of the faucet body by controlling and adjusting the positive rotation angle of the valve rod of the two-inlet and two-outlet temperature regulating valve core. When a user reversely rotates the valve rod of the two-in and two-out temperature regulating valve core relative to the initial position, the first water outlet of the two-in and two-out temperature regulating valve core cannot discharge water and the second water outlet of the two-in and two-out temperature regulating valve core discharges water, so that the induction faucet in the rotary switching mode enters a manual water discharge control mode, and people control the water discharge temperature of the water outlet nozzle of the faucet body by controlling and regulating the reverse rotation angle of the valve rod of the two-in and two-out temperature regulating valve core.

From the above, the induction tap with the rotary switching mode has an induction water outlet mode and a manual water outlet mode which can be independently used, so that different water use demands of people can be met; the two water outlet modes, namely the induction water outlet mode and the manual water outlet mode, are switched by rotating the valve rod of the two-inlet and two-outlet temperature regulating valve core, electronic device intervention is not needed during switching, the switching mode is very convenient and reliable, and meanwhile, a complex waterway is not needed to be arranged in the tap body, so that the whole volume of the tap is reduced; in addition, the two water outlet modes can realize the adjustment of the water temperature of the water outlet, and are more convenient for users to use.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an exploded view of the structure of the present utility model;

FIG. 3 is a schematic view of a valve seat according to the present utility model;

FIG. 4 is a second schematic diagram of the valve seat according to the present utility model;

FIG. 5 is a schematic diagram of a two-in two-out temperature regulating valve core according to the present utility model;

FIG. 6 is a combined cross-sectional view of the present utility model;

FIG. 7 is a sectional view of a second embodiment of the present utility model;

description of the reference numerals:

a tap body 1, a water outlet nozzle 11, a tap main body 12,

the valve seat 2 is provided with a valve seat,

the cold water inlet passage (21),

the hot water inlet passage 22 is provided with a water inlet,

the sensed water outlet waterway 23, the first sensed waterway 231, the second sensed waterway 232,

a sensing water tank 24, a sensing water outlet 241, a sensing water passing port 242,

a water passing channel 25 is induced to pass,

the valve housing 26, the water passing chamber 260,

a common water outlet 27,

a two-in two-out temperature regulating valve core 3,

a cold water inlet 31,

a hot water inlet 32,

a first water outlet 33 is provided for the water,

a second water outlet 34 is provided for receiving the water,

the valve stem 35 is provided with a valve opening,

the valve body 41 of the solenoid valve 4,

the inductive switch 5 is arranged to be operated,

valve cover 6, knob 7, check valve 8, end cap 9.

Description of the embodiments

In order to further explain the technical scheme of the utility model, the utility model is explained in detail by specific examples.

As shown in fig. 1 to 7, the present utility model discloses a rotary switching mode induction faucet, which comprises a faucet body 1, a valve seat 2, a two-in two-out temperature regulating valve core 3, an electromagnetic valve 4 and an induction switch 5; wherein, the tap body 1 is provided with a water outlet nozzle 11; the valve seat 2 is arranged in the tap body 1, and the valve seat 2 is provided with a cold water inlet channel 21, a hot water inlet channel 22 and an induction water outlet channel 23; the two-in two-out temperature regulating valve core 3 is arranged on the valve seat 2, the cold water inlet 31, the hot water inlet 32 and the first water outlet 33 of the two-in two-out temperature regulating valve core 3 are respectively connected and communicated with the cold water inlet channel 21, the hot water inlet channel 22 and the induction water outlet 23 water channels of the valve seat 2, and the second water outlet 34 of the two-in two-out temperature regulating valve core 3 is communicated with the water outlet nozzle 11 of the faucet body 1; the electromagnetic valve 4 is matched with the valve seat 1, and the electromagnetic valve 4 is used for controlling whether a water channel of the induced water outlet 23 of the valve seat 2 is communicated with the water outlet nozzle 11 of the tap body 1 or not; the induction switch 5 is electrically connected with the electromagnetic valve 4, and the induction switch 5 controls whether the electromagnetic valve 4 communicates the induction water outlet channel 23 with the water outlet nozzle 11 of the faucet body 1.

In the utility model, the two-in two-out temperature regulating valve core 3 can control whether the water is discharged from the first water outlet 33 and the second water outlet 34 of the two-in two-out temperature regulating valve core 3 by rotating the valve rod 35; when the valve rod 35 of the two-inlet and two-outlet temperature regulating valve core 3 is at the initial position, no water is discharged from the first water outlet 33 and the second water outlet 34 of the two-inlet and two-outlet temperature regulating valve core 3; when the valve rod 35 of the two-in two-out temperature regulating valve core 3 rotates forward relative to the initial position, the first water outlet 33 of the two-in two-out temperature regulating valve core 3 discharges water and the second water outlet 34 does not discharge water, and the larger the forward rotation angle of the valve rod 35 is, the higher the water temperature of the first water outlet 33 of the two-in two-out temperature regulating valve core 3 is; when the valve rod 35 of the two-in two-out temperature regulating valve core 3 rotates reversely relative to the initial position, the first water outlet 33 of the two-in two-out temperature regulating valve core 3 does not discharge water and the second water outlet 34 discharges water, and the larger the reverse rotation angle of the valve rod 35 is, the higher the water temperature of the second water outlet 34 of the two-in two-out temperature regulating valve core 3 is. The specific structure of the two-in two-out temperature regulating valve core 3 is a two-in two-out mixing water valve core with the model A35-001 of Kaiping Hansen bathroom Limited company, which is adopted in the prior art, and the specific structure of the two-in two-out temperature regulating valve core 3 is not repeated here.

In the utility model, when a user rotates the valve rod 35 of the two-in two-out temperature-regulating valve core 3 forward relative to the initial position, the first water outlet 33 of the two-in two-out temperature-regulating valve core 3 discharges water and the second water outlet 34 does not discharge water, so that the induction tap in the rotary switching mode enters an induction water discharge control mode, at the moment, people control whether the electromagnetic valve 4 communicates the induction water discharge channel 23 with the water outlet 11 of the tap body 1 by extending hands or other objects to the induction area of the induction switch 5, and then control whether the water outlet 11 of the tap body 1 discharges water or not; and people can control the water outlet temperature of the water outlet nozzle 11 of the faucet body 1 by controlling and adjusting the positive rotation angle of the valve rod 35 of the two-inlet and two-outlet temperature regulating valve core 3. When a user reversely rotates the valve rod 35 of the two-in and two-out temperature regulating valve core 3 relative to the initial position, the first water outlet 33 and the second water outlet 34 of the two-in and two-out temperature regulating valve core 3 can not discharge water, so that the induction faucet in the rotary switching mode enters a manual water discharge control mode, and people control the water discharge temperature of the water outlet nozzle 11 of the faucet body 1 by controlling and regulating the reverse rotation angle of the valve rod 35 of the two-in and two-out temperature regulating valve core 3. From the foregoing, the induction faucet with a rotary switching mode has an induction water outlet mode and a manual water outlet mode which can be independently used, so that different water use demands of people can be met; the two water outlet modes, namely the induction water outlet mode and the manual water outlet mode, are switched by rotating the valve rod of the two-inlet and two-outlet temperature regulating valve core, electronic device intervention is not needed during switching, and the switching mode is very convenient and reliable; and the two water outlet modes can realize the adjustment of the water temperature of the water outlet, thereby being more convenient for users to use.

In the present utility model, the faucet body 1 may include a faucet main body 12 and the water outlet 11 connected to a sidewall of the faucet main body 12, the faucet main body 12 is vertically penetrated, and the valve seat 2 is installed in the faucet main body 12. The tap body 1 can be made of metal materials, so that the tap body 1 has high strength; the faucet body 1 is preferably copper.

In the utility model, the valve seat 2 may further be provided with an induction water channel 24 and an induction water passing channel 25, the induction water channel 2 is internally provided with an induction water outlet 241 and an induction water passing port 242 which are respectively communicated with the induction water outlet channel 23 and the induction water passing channel 25, and the induction water passing channel 25 is communicated with the water outlet nozzle 11 of the tap body 1; the electromagnetic valve 4 is arranged on the valve seat 2, the electromagnetic valve 4 seals the opening of the induction water tank 24 to prevent water leakage, the valve head 41 of the electromagnetic valve 4 stretches into the induction water tank 24 and movably plugs the induction water passing port 242, and the electromagnetic valve 4 controls whether the induction water outlet channel 23 is communicated with the water outlet nozzle 11 of the faucet body 1 or not by plugging the induction water passing port 242 or not. The electromagnetic valve 4 is arranged on the valve seat 2, so that the induction tap in the rotary switching mode has a more compact structure and better integration level.

In the utility model, the two-in two-out temperature regulating valve core 3, the valve seat 2 and the electromagnetic valve 4 can be sequentially arranged in the tap main body 12 from top to bottom, so that the upper space and the lower space of the tap main body 12 can be effectively utilized, and the radial dimension of the tap main body 12 can be effectively reduced. The cold water inlet 31 and the hot water inlet 32 of the two-in two-out temperature regulating valve core 3 can be arranged on the bottom end surface of the two-in two-out temperature regulating valve core 3, and the cold water inlet 21 and the hot water inlet 22 of the valve seat 2 are vertically arranged in a penetrating manner to be respectively butted with the cold water inlet 31 and the hot water inlet 32 of the two-in two-out temperature regulating valve core 3, so that the arrangement can facilitate injection molding in the cold water inlet 21 and the hot water inlet 22. The first water outlet 33 of the two-inlet and two-outlet temperature regulating valve core 3 may also be disposed at the bottom end surface of the two-inlet and two-outlet temperature regulating valve core 3, so that the induction water outlet channel 23, the induction water tank 24 and the induction water outlet channel 25 of the valve seat 2 may be disposed below the two-inlet and two-outlet temperature regulating valve core 3, thereby reducing the occupation of the radial space of the valve seat 2 on the tap main body 12 and effectively reducing the radial size of the tap main body 12. The second water outlet 34 of the two-inlet two-outlet temperature regulating valve core 3 is arranged on the side surface of the two-inlet two-outlet temperature regulating valve core 3, so that the second water outlet 34 is communicated with the water outlet nozzle 11 of the tap body 1.

In the utility model, the valve seat 2 can be provided with a valve sleeve 26 sleeved with the two-in two-out temperature regulating valve core 3, and a water passing cavity 260 communicated with the second water outlet 34 of the two-in two-out temperature regulating valve core 3 is formed between the inner wall of the valve sleeve 26 and the outer wall of the two-in two-out temperature regulating valve core 3; the valve sleeve 26 is connected with a hollow valve cover 6, the valve cover 6 is in threaded connection with the valve sleeve 26, the valve cover 6 presses the two-in two-out temperature regulating valve core 3 to position the two-in two-out temperature regulating valve core 3, and a valve rod 35 of the two-in two-out temperature regulating valve core 3 can be connected with a knob 7 with patterns so as to rotate the valve rod 35; the water outlet nozzle 11 of the tap body 1 is communicated with the water passing cavity 260 to realize the communication with the second water outlet 34 of the two-in two-out temperature regulating valve core 3.

In the utility model, the side wall of the valve seat 2 is provided with a public water outlet 27, the public water outlet 27 is communicated with the induction water channel 25, and the public water outlet 27 is communicated with the second water outlet 34 of the two-inlet two-outlet temperature regulating valve core 3 through a water cavity 260; the water outlet nozzle 121 of the tap body 1 is in butt joint communication with the public water outlet 27. And the cold water inlet channel 21 and the hot water inlet channel 22 of the valve seat 2 can be internally provided with the one-way valve 8, so that cold water and hot water are prevented from channeling each other.

In the present utility model, the valve seat 2 may be manufactured by injection molding, wherein the induction water outlet 241 and the induction water passing outlet 242 of the induction water tank 24 are opposite to the opening of the induction water tank 24, so that core pulling can be performed during injection molding of the induction water tank 24; the induction water passing channel 25 and the induction water passing port 242 can be connected in an intersecting manner, and the induction water passing channel 25 penetrates through the outer wall of the valve seat 2, so that the induction water passing channel 25 can conveniently perform core pulling; the induction water outlet channel 23 may include a first induction water channel 231 and a second induction water channel 232 which are communicated with each other, the upper end of the first induction water channel 231 is in butt joint communication with the first water outlet 33 of the two-inlet two-outlet temperature regulating valve core 3, the lower end of the first induction water channel 231 is communicated with the second induction water channel 232, the inner end of the second induction water channel 232 is communicated with the induction water outlet 241 in an intersecting manner, the outer end of the second induction water channel 232 penetrates through the outer wall of the valve seat 2, the outer end of the second induction water channel 232 is closed by the plug 9, and the arrangement can facilitate setting the position of the induction water channel 24, and further facilitate setting the position of the electromagnetic valve 4.

In the present utility model, the sensor switch 5 may be mounted to the faucet body 12 of the faucet body 1, and the sensor switch 5 may be an infrared human sensor switch.

The above examples and drawings are not intended to limit the form or form of the present utility model, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present utility model.

Claims (10)

1. A rotary switching mode induction tap, characterized by: the valve comprises a tap body, a valve seat, a two-in two-out temperature regulating valve core, an electromagnetic valve and an inductive switch;

the tap body is provided with a water outlet nozzle;

the valve seat is arranged in the tap body and is provided with a cold water inlet channel, a hot water inlet channel and an induction water outlet channel;

the two-in two-out temperature regulating valve core is arranged on the valve seat, the cold water inlet, the hot water inlet and the first water outlet of the two-in two-out temperature regulating valve core are respectively connected and communicated with the cold water inlet channel, the hot water inlet channel and the induction water outlet channel of the valve seat, the second water outlet of the two-in two-out temperature regulating valve core is communicated with the water outlet nozzle of the faucet body, and the rotation of the valve rod of the two-in two-out temperature regulating valve core controls whether the water outlet of the first water outlet and the second water outlet of the valve rod is out or not;

the electromagnetic valve is matched with the valve seat and is used for controlling whether the induction water outlet channel of the valve seat is communicated with the water outlet nozzle of the faucet body or not;

the induction switch is electrically connected with the electromagnetic valve, and the induction switch controls whether the electromagnetic valve is communicated with the induction water outlet channel and the water outlet nozzle of the faucet body.

2. A rotary switched mode induction tap according to claim 1 wherein: the valve seat is also provided with an induction water channel and an induction water passing channel, an induction water outlet and an induction water passing port which are respectively communicated with the induction water outlet channel and the induction water passing channel are arranged in the induction water channel, and the induction water passing channel is communicated with a water outlet nozzle of the faucet body;

the electromagnetic valve is arranged on the valve seat, the electromagnetic valve seals the opening of the induction water tank, and the valve head of the electromagnetic valve stretches into the induction water tank and movably plugs the induction water passing port.

3. A rotary switched mode induction tap according to claim 2 wherein: a public water outlet is formed in the side wall of the valve seat and is communicated with the induction water channel and a second water outlet of the two-inlet two-outlet temperature regulating valve core; the water outlet nozzle of the tap body is in butt joint communication with the public water outlet.

4. A rotary switched mode induction tap according to claim 2 wherein: the induction water outlet and the induction water passing port of the induction water tank are opposite to the opening of the induction water tank.

5. A rotary switched mode induction tap according to claim 2 wherein: the faucet body comprises a faucet main body and the water outlet nozzle connected with the side wall of the faucet main body, and the faucet main body is arranged in a penetrating way up and down;

the two-in two-out temperature regulating valve core, the valve seat and the electromagnetic valve are sequentially arranged in the tap main body from top to bottom.

6. A rotary switched mode induction tap as claimed in claim 5 wherein: the cold water inlet and the hot water inlet of the two-in two-out temperature regulating valve core are arranged on the bottom end surface of the two-in two-out temperature regulating valve core;

the cold water inlet channel and the hot water inlet channel of the valve seat are vertically penetrated.

7. A rotary switched mode induction tap according to claim 1 or 6 wherein: and the cold water inlet channel and the hot water inlet channel of the valve seat are internally provided with one-way valves.

8. A rotary switched mode induction tap as claimed in claim 5 wherein: the first water outlet of the two-inlet two-outlet temperature regulating valve core is arranged at the bottom end surface of the two-inlet two-outlet temperature regulating valve core; the induction water outlet channel, the induction water tank and the induction water passing channel of the valve seat are arranged below the two-in and two-out temperature regulating valve core.

9. A rotary switched mode induction tap as claimed in claim 5 wherein: the second water outlet of the two-in two-out temperature regulating valve core is arranged on the side surface of the two-in two-out temperature regulating valve core.

10. A rotary switched mode induction tap according to claim 1 wherein: the valve seat is provided with a valve sleeve sleeved with a two-inlet and two-outlet temperature regulating valve core, and a water passing cavity communicated with a second water outlet of the two-inlet and two-outlet temperature regulating valve core is formed between the inner wall of the valve sleeve and the outer wall of the two-inlet and two-outlet temperature regulating valve core; the valve sleeve is connected with a hollow valve cover, and the valve cover presses the two-in and two-out temperature regulating valve cores;

the water outlet nozzle of the tap body is communicated with the water passing cavity.

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