CN212429908U - Multi-magnetic circuit induction pull faucet - Google Patents

Abstract

The utility model discloses a multi-magnetic circuit induction pull-push faucet, which comprises a faucet body with a manual valve core, a control module, a water outlet pipeline, a cold water inlet pipeline, a hot water inlet pipeline, a pull-push hose, a shower head and a magnetic induction device; the water outlet pipeline, the cold water inlet pipeline and the hot water inlet pipeline are all connected to a manual valve core in the faucet body, and a water inlet and a water outlet of an electromagnetic valve of the control module are respectively connected with the water outlet pipeline and the drawing hose; the magnetic induction device is used for inducing the movement of the drawing hose. The utility model discloses can realize automatic water when the pull gondola water faucet uses, the function of automatic water of closing when the gondola water faucet resets is very convenient in the use.

Description

Multi-magnetic circuit induction pull faucet

Technical Field

The utility model relates to a tap field especially relates to a many magnetic circuit response pull tap.

Background

Conventional desk faucets are typically designed to the appearance of the faucet, typically being manually mechanically operated. With the continuous emergence of electronic induction faucets, induction faucets have become a popular trend. The induction tap obtains signals through the human body induction sensor and transmits the signals to the control module, and then the control module controls the water to be switched on and off through the electromagnetic valve so as to be used by people. At present, most of the conventional induction faucets (including pull-out faucets) are controlled in a mode that a control module obtains an on-off signal through an infrared inductor. The pull-type faucet has a unique structure, and in the conventional structure, the positions needing to be cleaned are far and near and are in a water outlet state, and the pull-type faucet washes a remote place through the pull-type shower.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a convenient to use's many magnetic circuit response pull tap.

In order to achieve the above object, the technical solution of the present invention is:

a multi-magnetic circuit induction pull faucet comprises a faucet body with a manual valve core, a control module, a water outlet pipeline, a cold water inlet pipeline, a hot water inlet pipeline, a pull hose, a shower head and a magnetic induction device, wherein the hot water inlet pipeline is connected with the water outlet pipeline; one end of the water outlet pipeline, one end of the cold water inlet pipeline and one end of the hot water inlet pipeline are connected to a manual valve core in the faucet body; the control module comprises an electromagnetic valve and a controller for controlling the on-off of the electromagnetic valve; the water inlet and the water outlet of the electromagnetic valve are respectively connected with the other end of the water outlet pipeline and one end of the drawing hose; a drawing channel is formed in the faucet body, the drawing hose can be movably arranged in the drawing channel in the faucet body in a penetrating mode, and the other end of the drawing hose is connected with the shower head; the magnetic induction device comprises a magnet and a magnetic induction assembly, and the magnetic induction assembly comprises at least two magnetic induction sensors for sensing the magnet; the magnet is matched with the drawing hose, each magnetic induction sensor of the magnetic induction assembly is matched with the drawing channel of the faucet body, and each magnetic induction sensor is electrically connected with the controller; the position of each magnetic induction sensor of magnet and magnetic induction subassembly sets up to: when the drawing hose retracts to the initial position in the faucet body, the magnet is located at a position which can be sensed by each magnetic induction sensor of the magnetic induction assembly; when at least one magnetic induction sensor in the magnetic induction sensors of the magnetic induction assembly senses the magnet, the controller controls the electromagnetic valve to be closed; and when the magnet can not be sensed by each magnetic induction sensor of the magnetic induction assembly, the controller controls the opening of the electromagnetic valve.

An installation area arranged along the up-down direction is arranged in the drawing channel; the magnetic induction assembly's magnetic induction sensor is two, and two magnetic induction sensors set up in the installation area and two magnetic induction sensors misplace from top to bottom.

When the drawing hose retracts to the initial position of the faucet body, the magnet is located between the upper portion and the lower portion of the two magnetic induction sensors of the magnetic induction assembly.

The two magnetic induction sensors of the magnetic induction assembly are arranged on a circuit board, the circuit board is fixed in a mounting area of a drawing channel of the faucet body, and the circuit board is electrically connected with the controller through a signal transmission line.

The magnet is annular and is sleeved and fixed on the drawing hose.

The drawing hose is formed by connecting a first hose and a second hose; a metal male joint is fixed at the connecting end of the first hose through a steel sleeve, a metal female joint is fixed at the connecting end of the second hose through a steel sleeve, and the metal male joint is in butt joint with the metal female joint; the metal male connector is provided with an inward-contracting neck; the magnet is sleeved on the metal male connector and adsorbs the metal male connector.

The pull hose is matched with a protective sleeve which is sleeved with a metal male connector, a metal female connector and a magnet.

After the scheme is adopted, the utility model discloses under the manual valve core of tap body is in the open mode, the user pulls the gondola water faucet, and the gondola water faucet can drive the pull hose and remove and make the magnet that cooperates on the pull hose remove, and when magnet removes to each magnetic induction sensor of magnetic induction subassembly and can not respond to the magnet, the controller control solenoid valve opens, makes the pull hose communicate with the outlet pipe way, and then makes the gondola water faucet go out water; after that, if the gondola water faucet resets, then the pull hose retracts to the internal initial position of tap for at least one magnetic induction sensor senses among each magnetic induction sensor of magnetic induction subassembly magnet, and then controller control solenoid valve closes, makes the gondola water faucet not go out water.

Therefore, the utility model can realize the functions of automatic water outlet when the pull shower head is used and automatic water shut-off when the shower head is reset, and is very convenient to use; and the utility model discloses a magnetic induction device's magnetic induction sensor's quantity is two at least, and when magnet was sensed to at least one magnetic induction sensor among the each magnetic induction sensor of magnetic induction subassembly controller control solenoid valve closed, appears the solenoid valve and is in the open mode always when can avoiding certain magnetic induction sensor to damage like this, has guaranteed the utility model discloses an use reliability.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention (with the pull-out hose retracted to an initial position within the faucet body);

FIG. 3 is a schematic view of the water outlet state of the pull-type shower head of the present invention;

fig. 4 is a schematic view of the sprinkler in a water-off state (the pull hose is retracted to an initial position in the faucet body);

fig. 5 is an exploded view of the pull-out hose of the present invention.

Description of reference numerals:

the faucet body 1, the manual valve cartridge 11, the handle 12, the drawing channel 13, the mounting area 131,

the signal transmission line 2 is provided with a signal transmission line,

the control module (3) is provided with a control module,

a water outlet pipeline 4 is arranged on the water outlet pipeline,

a cold water inlet pipeline 5 is arranged on the water tank,

a hot water inlet pipeline 6 is arranged on the water tank,

the drawn-out hose 7, the first hose 71, the steel sleeve 711, the metal male joint 712, the neck 713, the second hose 72, the steel sleeve 721, the metal female joint 722, the boot 73,

a shower head 8 is arranged on the upper portion of the shower head,

magnetic induction device 9, circuit board 90, magnet 91, magnetic induction sensor 92.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1 to 5, the utility model discloses a many magnetic circuit response pull tap, it includes tap body 1, control module 3, outlet pipe 4, cold water inlet pipe 5, hot water inlet pipe 6, pull hose 7, gondola water faucet 8 and the magnetic induction device 9 of taking manual case 11.

With reference to fig. 1 to 4, one end of the water outlet pipeline 4, one end of the cold water inlet pipeline 5 and one end of the hot water inlet pipeline 6 are all connected to a manual valve core 11 in the faucet body 1; the cold water inlet pipeline 5 and the hot water inlet pipeline 6 are used for conveying cold water and hot water to the manual valve core 11, and the water outlet pipeline 4 is used for discharging water; the water outlet line 4 is used for delivering the water flow output by the manual valve core 11. The manual valve core 11 in the faucet body 1 is operated by a handle 12, and a drawing channel 13 is formed in the faucet body 1 for the drawing hose 7 to pass through.

The control module 3 comprises a solenoid valve (not shown) and a controller (not shown) for controlling the on-off of the solenoid valve; the control of the on-off of the electromagnetic valve by the controller is the prior art and is not described herein again. As shown in figure 1, the water inlet and the water outlet of the electromagnetic valve are respectively connected with the other end of the water outlet pipeline 4 and one end of the drawing hose 7, so that the controller can control the connection or disconnection of the electromagnetic valve to control the connection between the water outlet pipeline 4 and the drawing hose 7.

As shown in fig. 3 and 4, the drawing hose 7 is movably inserted into the drawing channel 13 in the faucet body 1, and the other end of the drawing hose 7 is connected to the shower head 8, so that the controller controls the on/off of the electromagnetic valve to control the shower head 8 to discharge water.

As shown in fig. 2 to 5, the magnetic induction device 9 includes a magnet 91 and a magnetic induction assembly, and the magnetic induction assembly includes at least two magnetic induction sensors 92 for sensing the magnet 91; the magnet 91 is fitted on the pull-out hose 7, the magnetic sensors 92 of the magnetic induction assembly are fitted in the pull-out channel 13 of the faucet body 1, the magnetic sensors 92 are electrically connected to the controller, and a mounting region 131 is disposed along the vertical direction in the pull-out channel 13 for mounting the magnetic sensors 92. As shown in fig. 2, the positions of the magnet 91 and the magnetic induction sensors 92 of the magnetic induction assembly are: when the pull-out hose 7 is retracted to the initial position within the faucet body 1, the magnet 91 is in a position that can be sensed by each of the magnetic induction sensors 92 of the magnetic induction assembly.

The controller of the control module 3 controls the on-off of the electromagnetic valve according to the signal of the magnetic induction sensor 92, wherein when at least one magnetic induction sensor in each magnetic induction sensor of the magnetic induction assembly senses the magnet, the controller controls the electromagnetic valve to be closed; and when the magnet 91 is not sensed by each magnetic induction sensor of the magnetic induction assembly, the controller controls the electromagnetic valve to be opened. As shown in fig. 3, when the manual valve core 11 of the faucet body 1 is in an open state, a user pulls the shower head 8, the shower head 8 drives the pull-out hose 7 to move, so that the magnet 91 engaged with the pull-out hose 7 moves, and when the magnet 91 moves to each magnetic induction sensor 92 of the magnetic induction assembly and cannot sense the magnet 91, the controller controls the electromagnetic valve to open, so that the pull-out hose 7 is communicated with the water outlet pipeline 4, and the shower head 8 discharges water; as shown in fig. 4, if the shower head 8 is reset, the pull-out hose 7 is retracted to the initial position in the faucet body 1, so that at least one of the magnetic sensors 92 of the magnetic sensing assembly senses the magnet 91, and the controller controls the electromagnetic valve to close, so that the shower head 91 does not go out of water. Therefore, the utility model can realize the functions of automatic water outlet when the pull shower 8 is used and automatic water shut-off when the shower 8 is reset, and is very convenient to use; moreover, the number of the magnetic induction sensors 92 of the magnetic induction device 9 of the utility model is at least two, and when at least one magnetic induction sensor among the magnetic induction sensors 92 of the magnetic induction assembly senses the magnet 91, the controller controls the electromagnetic valve to be closed, so that the electromagnetic valve is always in an open state when a certain magnetic induction sensor 92 is damaged, the use reliability of the utility model is ensured, and the magnetic induction device can normally work even if a certain magnetic induction sensor 92 is damaged; and the number of the magnetic induction sensors 92 of the magnetic induction assembly is at least two, which can make the whole magnetic induction assembly sense a large area of the magnet 91.

As shown in fig. 2, the number of the magnetic induction sensors 92 of the magnetic induction device 9 is two, the two magnetic induction sensors 92 are disposed in the installation region 131, and the two magnetic induction sensors 92 can be disposed in a vertically staggered manner, so that the region where the magnetic induction component can sense the magnet 91 can be increased, and a blind area caused by weakening of a magnetic field in the middle of the magnet 91 can be avoided, so that at least one magnetic induction sensor 92 can sense the magnet 91 after the shower 8 is reset; the two magnetic induction sensors 92 can be disposed on a circuit board 90, the circuit board 90 is fixed in the mounting region 131 of the drawing channel 13 of the faucet body 1, and the circuit board 90 is electrically connected to the controller through the signal transmission line 2, so that each magnetic induction sensor 92 is electrically connected to the controller. As shown in fig. 2, when the pull-out hose 7 is retracted to the initial position of the faucet body, the magnet 91 can be located between the two magnetic induction sensors 92 to ensure that the magnet 91 can be sensed by the two magnetic induction sensors 92.

As shown in fig. 5, the magnet 91 may be annular and fixed on the pull-out hose 8; as shown in the drawing, the pull-out hose 7 is formed by connecting a first hose 71 and a second hose 72; the connecting end of the first hose 71 is fixed with a metal male connector 712 through a steel sleeve 711, the connecting end of the second hose 72 is fixed with a metal female connector 722 through a steel sleeve 721, and the metal male connector 712 and the metal female connector 722 are butted to connect the first hose 71 and the second hose 72 together; the metal male connector 712 is formed with a neck 713 that is recessed; the magnet 91 is sleeved on the metal male connector 91 and adsorbs the metal male connector 91. Further, the pull-out hose 8 is fitted with a protective cover 73 for covering the metal male connector 712, the metal female connector 722 and the magnet 91, and the metal male connector 712, the metal female connector 722 and the magnet 91 are prevented from being damaged by the protective cover 73.

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

Claims (7)

1. A multi-magnetic circuit induction pull faucet comprises a faucet body with a manual valve core, a control module, a water outlet pipeline, a cold water inlet pipeline, a hot water inlet pipeline, a pull hose and a shower head; one end of the water outlet pipeline, one end of the cold water inlet pipeline and one end of the hot water inlet pipeline are connected to a manual valve core in the faucet body; the control module comprises an electromagnetic valve and a controller for controlling the on-off of the electromagnetic valve; the water inlet and the water outlet of the electromagnetic valve are respectively connected with the other end of the water outlet pipeline and one end of the drawing hose; a drawing channel is formed in the faucet body, the drawing hose can be movably arranged in the drawing channel in the faucet body in a penetrating mode, and the other end of the drawing hose is connected with the shower head; the method is characterized in that: the device also comprises a magnetic induction device;

the magnetic induction device comprises a magnet and a magnetic induction assembly, and the magnetic induction assembly comprises at least two magnetic induction sensors for sensing the magnet; the magnet is matched with the drawing hose, each magnetic induction sensor of the magnetic induction assembly is matched with the drawing channel of the faucet body, and each magnetic induction sensor is electrically connected with the controller; the position of each magnetic induction sensor of magnet and magnetic induction subassembly sets up to: when the drawing hose retracts to the initial position in the faucet body, the magnet is located at a position which can be sensed by each magnetic induction sensor of the magnetic induction assembly;

when at least one magnetic induction sensor in the magnetic induction sensors of the magnetic induction assembly senses the magnet, the controller controls the electromagnetic valve to be closed; and when the magnet can not be sensed by each magnetic induction sensor of the magnetic induction assembly, the controller controls the opening of the electromagnetic valve.

2. A multi-magnetic circuit induction draw faucet as recited in claim 1, further comprising: an installation area arranged along the up-down direction is arranged in the drawing channel; the magnetic induction assembly's magnetic induction sensor is two, and two magnetic induction sensors set up in the installation area and two magnetic induction sensors misplace from top to bottom.

3. A multi-magnetic circuit induction draw faucet as recited in claim 2, further comprising: when the drawing hose retracts to the initial position of the faucet body, the magnet is located between the upper portion and the lower portion of the two magnetic induction sensors of the magnetic induction assembly.

4. A multi-magnetic circuit induction tap as claimed in claim 2 or claim 3 wherein: the two magnetic induction sensors of the magnetic induction assembly are arranged on a circuit board, the circuit board is fixed in a mounting area of a drawing channel of the faucet body, and the circuit board is electrically connected with the controller through a signal transmission line.

5. A multi-magnetic circuit induction draw faucet as recited in claim 1, further comprising: the magnet is annular and is sleeved and fixed on the drawing hose.

6. A multi-magnetic circuit induction draw faucet as recited in claim 5, further comprising: the drawing hose is formed by connecting a first hose and a second hose;

a metal male joint is fixed at the connecting end of the first hose through a steel sleeve, a metal female joint is fixed at the connecting end of the second hose through a steel sleeve, and the metal male joint is in butt joint with the metal female joint;

the metal male connector is provided with an inward-contracting neck; the magnet is sleeved on the metal male connector and adsorbs the metal male connector.

7. A multi-magnetic circuit induction draw faucet as recited in claim 6, further comprising: the pull hose is matched with a protective sleeve which is sleeved with a metal male connector, a metal female connector and a magnet.

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