CN210739533U - Infrared induction quantitative water outlet system - Google Patents

Abstract

The utility model relates to an infrared induction ration goes out water system. It includes the outlet conduit, be equipped with the water purifier on the outlet conduit, a water pump, flowmeter and play tap, be equipped with the circuit board on the play tap, infrared induction subassembly, switch handle, exhalant canal and case subassembly, the utility model discloses during operation, the user is at play tap next door swing arm, user's gesture is sensed to first infrared sensor and second infrared sensor, and transmit signal gives the circuit board, the circuit board learns the settlement water yield of which gear that the user needs, then the user opens out the tap through the switch handle again, the automatically controlled board control water pump of water purifier starts, the running water flows from going out the tap after purifying again, when the water yield of going out the tap reaches settlement water yield, the flowmeter sends the signal and gives the automatically controlled board of water purifier, automatically controlled board control water pump stops to supply water, thereby realize that the tap ration goes out water, consequently the utility model discloses use water, water, Avoiding water resource waste.

Description

Infrared induction quantitative water outlet system

Technical Field

The utility model relates to a tap's technical field, in particular to infrared induction ration goes out water system.

Background

The existing kitchen faucet with purified water does not have a quantitative water outlet function, and the excessive waste of water resources is often caused when the kitchen faucet is used.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a convenient operation, using water wisely, avoid extravagant infrared induction ration water outlet system.

The purpose of the utility model is realized like this:

the utility model provides an infrared induction ration water outlet system, includes the outlet conduit, be equipped with water purifier, water pump, flowmeter and play tap on the outlet conduit, go out the tap and the delivery port intercommunication of water purifier, it is equipped with switch handle, exhalant canal, case subassembly, circuit board and response user's gesture action and obtains the infrared induction subassembly of setting for the water yield to go out on the tap, the case subassembly is located exhalant canal, switch handle control case subassembly switches on or breaks exhalant canal, circuit board and infrared induction subassembly electric connection, the infrared induction subassembly includes first infrared sensor and second infrared sensor, the automatically controlled board of water purifier respectively with water pump, flowmeter and circuit board electric connection. The utility model discloses during operation, the user is at play tap next door swing arm, user's gesture is sensed to first infrared sensor and second infrared sensor, and transmit signal gives the circuit board, the circuit board learns the settlement water yield of which gear that the user needs according to received signal's number of times, thereby obtain user's settlement water yield, then the user opens out tap through the switch handle again, the circuit board of play tap sends user's settlement water yield signal for the automatically controlled board of water purifier, the automatically controlled board control water pump of water purifier starts, the running water purifies the back through the water purifier, then flow from the play tap again, when the water yield of play tap reaches user's settlement water yield, flowmeter signaling gives the automatically controlled board of water purifier, automatically controlled board control water pump stops supplying water, thereby realize play tap ration play, therefore the utility model discloses practiced thrift water consumption, Avoiding water resource waste.

Additionally the utility model discloses a different water yield is represented to the number of times of swing arm, and the user swings an arm, just represents the settlement water yield of first gear, and the user swings twice swing arm in succession, just represents the settlement water yield of second gear to this analogizes, and the user can be according to the demand water yield of oneself, at the other swing arm of tap.

Additionally, if the utility model discloses only one infrared sensor, the utility model discloses a misjudgement can often appear in the tap, then goes out water.

The utility model can be further improved as follows.

The first infrared sensor and the second infrared sensor are arranged on the side wall of the water outlet faucet, so that a user can swing an arm at the water outlet faucet, and the operation is very convenient.

The first infrared sensor is located above the second infrared sensor, and therefore, a user needs to swing an arm in the vertical direction to set the water yield.

The first infrared sensor and the second infrared sensor are arranged and arranged on the side wall of the water outlet faucet along the horizontal direction, so that a user can set the water yield by swinging an arm in the horizontal direction.

The top of the water outlet faucet is provided with a water outlet bent pipe, and the water outlet channel is communicated with the water outlet bent pipe.

The water quality monitoring system is characterized in that the water outlet faucet is provided with a display screen for displaying water yield and water quality conditions, and the display screen is arranged on a display screen of a user at the top of the water outlet faucet and used for checking the water quality conditions and the water yield.

The valve core assembly comprises a valve core and a valve core seat, the valve core seat is arranged in the water outlet faucet, the valve core is movably arranged on the valve core seat and is positioned on the water outlet channel, the switch handle is connected with the valve core, and a user manually opens the valve core through the switch handle to conduct the water outlet channel, so that the water outlet faucet is opened.

The water outlet faucet is T-shaped and comprises a longitudinal section and a transverse section which are connected, the switch handle is rotatably arranged on the transverse section along the vertical direction, and the first infrared sensor and the second infrared sensor are arranged on the side wall of the longitudinal section, so that a user can swing an arm, set the water yield and switch the water outlet faucet conveniently.

The bottom of the water outlet faucet is provided with an external thread connecting pipe, a water inlet of the water outlet channel is communicated with the external thread connecting pipe, and the external thread connecting pipe is in threaded connection with a locking nut.

Water pump and flowmeter are located the water purifier, the utility model discloses a water pump and flowmeter are water purifier from the area, consequently the utility model discloses simple to operate.

The utility model has the advantages as follows:

the utility model discloses during operation, the user is at play tap next door swing arm, user's gesture is sensed to first infrared sensor and second infrared sensor, and transmit signal gives the circuit board, the circuit board learns the settlement water yield of which gear that the user needs according to received signal's number of times, thereby obtain user's settlement water yield, then the user opens out tap through the switch handle again, the circuit board of play tap sends user's settlement water yield signal for the automatically controlled board of water purifier, the automatically controlled board control water pump of water purifier starts, the running water purifies the back through the water purifier, then flow from the play tap again, when the water yield of play tap reaches user's settlement water yield, flowmeter signaling gives the automatically controlled board of water purifier, automatically controlled board control water pump stops supplying water, thereby realize play tap ration play, therefore the utility model discloses practiced thrift water consumption, Avoiding water resource waste.

Drawings

Fig. 1 is a schematic structural view of the infrared sensing quantitative water outlet system of the present invention.

Fig. 2 is a schematic structural view of the water outlet faucet of the present invention.

Fig. 3 is a side view of fig. 2.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

In a first embodiment, as shown in fig. 1 to 4, an infrared sensing quantitative water outlet system includes a water outlet pipeline 1, a water purifier 110 and a water outlet faucet 105 are disposed on the water outlet pipeline 1, the water outlet faucet is communicated with a water outlet of the water purifier 110, an electric control board 113, a water inlet 111, a water outlet 112, a PP cotton filter element 4, a front carbon rod filter element 5, a water inlet electromagnetic valve 12, a water pump 13, a flow meter 7, a reverse osmosis filter element 21, a TDS water quality detector 8, a rear carbon rod filter element 6 and a wastewater discharge water path 3 are disposed on the water purifier 110, and the water inlet 111, the PP cotton filter element 4, the front carbon rod filter element 5, the water inlet electromagnetic valve 12, the flow meter 7, the water pump 13, the reverse osmosis filter element 21, the rear carbon rod filter element 6, the water outlet 112 and the water outlet faucet 105 are sequentially communicated. The tap water is filtered by the PP cotton filter element 4, the front carbon rod filter element 5, the reverse osmosis filter element 21 and the rear carbon rod filter element 6 in sequence and then is discharged from the water outlet faucet 105. And a wastewater electromagnetic valve 15 is arranged on the wastewater discharge water path 3, tap water is filtered by a reverse osmosis filter element 21, pure water flows to the rear carbon rod filter element 6, and concentrated water is discharged out of the water purifier through the wastewater electromagnetic valve 15.

The water outlet faucet 105 is provided with a switch handle 103, a water outlet channel 201, a valve core assembly 207, a circuit board and an infrared sensing assembly 114 for sensing gesture actions of a user to obtain a set water outlet amount, the valve core assembly 207 is positioned on the water outlet channel 201, the switch handle 103 controls the valve core assembly 207 to be switched on or switched off the water outlet channel 201, the circuit board is electrically connected with the infrared sensing assembly 114, and an electric control board of the water purifier is electrically connected with the water pump 13, the flowmeter 7 and the circuit board respectively. The user can be through the swing arm by a faucet 105, infrared induction subassembly 114 responds to user's gesture action and obtains the water yield of setting, then open faucet 105 through switch handle 103, the circuit board sends user's the water yield signal of setting to the automatically controlled board of water purifier, the automatically controlled board control water pump 13 of water purifier starts, the running water flows through water purifier and flowmeter 7, then flow out to faucet 105, when the water yield of faucet 105 reaches user's the water yield of setting, flowmeter 7 sends the signal to the automatically controlled board of water purifier, automatically controlled board control water pump 13 stops supplying water, thereby realize that faucet 105 ration goes out water.

Additionally the utility model discloses a different water yield is represented to the number of times of swing arm, and the user swings an arm, just represents the settlement water yield of first gear, and the user swings twice swing arm in succession, just represents the settlement water yield of second gear to this analogizes, and the user can be according to the demand water yield of oneself, at the other swing arm of tap.

As a more specific technical solution of the present invention.

The first infrared sensor 104 and the second infrared sensor 109 are both arranged on the side wall of the water outlet faucet, so that a user can swing an arm at the water outlet faucet, and the operation is very convenient. The first infrared sensor 104 is located above the second infrared sensor 109, so that the user needs to swing his arm in the vertical direction to set the water output. Of course, the first infrared sensor 104 and the second infrared sensor 109 may be arranged on the sidewall of the faucet along the horizontal direction, so that the user needs to swing the arm in the horizontal direction to set the water output.

The top of the water outlet faucet 105 is provided with a water outlet bent pipe 101, and the water outlet channel 201 is communicated with the water outlet bent pipe 101.

The display screen 102 is arranged on the water outlet faucet 105 and used for displaying water yield and water quality conditions, and the display screen 102 is arranged at the top of the water outlet faucet 105, so that a user can check the water quality conditions and the water yield through the display screen 102.

TDS water quality testing ware 8 is used for detecting the quality of water after the water purifier purifies, TDS water quality testing ware 8 and automatically controlled board electric connection, be equipped with TDS pilot lamp 109 on the tap 105, TDS pilot lamp 109 and circuit board electric connection, user's accessible TDS pilot lamp 109 look over the quality of water condition of pure water.

The valve core assembly 207 comprises a valve core 205 and a valve core seat 204, the valve core seat 204 is arranged in the water outlet faucet 105, the valve core 205 is movably arranged on the valve core seat 204 and is positioned on the water outlet channel 201, the switch handle 103 is connected with the valve core 205, and a user manually opens the valve core 205 through the switch handle 103 to conduct the water outlet channel 201, so that the water outlet faucet 105 is opened.

The water outlet faucet 105 is in a T-shape, the water outlet faucet 105 comprises a longitudinal section and a transverse section which are connected, the switch handle 103 is rotatably arranged on the transverse section along the vertical direction, and the infrared sensing assembly 114 is arranged on the side wall of the longitudinal section, so that a user can swing an arm, set the water yield and switch the water outlet faucet conveniently.

Go out tap 105's bottom and be equipped with fixation nut 106 and external thread connecting pipe 108, external thread connecting pipe 108 and fixation nut 106 threaded connection, the water inlet and the external thread connecting pipe 108 intercommunication of exhalant canal 201, threaded connection has lock nut 107 on the external thread connecting pipe 108, the utility model discloses an during the kitchen was installed to play tap 105, external thread connecting pipe 108 passed the mounting hole on the kitchen bench downwards, and fixation nut is located the upper portion of mounting hole, and lock nut 107 cover begins up to screw up behind the external thread connecting pipe, and fixation nut 106 and lock nut 107 press from both sides tight mounting hole from top to bottom to realize fixed play tap 105.

Claims (10)

1. The utility model provides an infrared induction ration water outlet system, includes the outlet conduit, be equipped with water purifier, water pump, flowmeter and play tap on the outlet conduit, go out the tap and the delivery port intercommunication of water purifier, it is equipped with switch handle, exhalant canal and case subassembly on the play tap, the case subassembly is located exhalant canal, switch handle control case subassembly switches on or breaks exhalant canal, characterized by, it still is equipped with circuit board and the infrared induction subassembly that obtains to set for the water yield of response user's gesture action on the play tap, circuit board and infrared induction subassembly electric connection, infrared induction subassembly includes first infrared sensor and second infrared sensor, the automatically controlled board of water purifier respectively with water pump, flowmeter and circuit board electric connection.

2. The infrared sensing quantitative water outlet system as claimed in claim 1, wherein the first infrared sensor and the second infrared sensor are both disposed on a sidewall of the water outlet faucet.

3. The infrared sensing quantitative water discharge system of claim 2, wherein the first infrared sensor is located above the second infrared sensor.

4. The infrared sensing quantitative water outlet system as claimed in claim 2, wherein the first infrared sensor and the second infrared sensor are horizontally arranged on the sidewall of the water outlet faucet.

5. The infrared induction quantitative water outlet system as claimed in claim 2, wherein the top of the water outlet tap is provided with a water outlet elbow, and the water outlet channel is communicated with the water outlet elbow.

6. The infrared induction quantitative water outlet system as claimed in claim 2, wherein the water outlet tap is provided with a display screen for displaying the water outlet amount and the water quality condition.

7. The infrared induction quantitative water outlet system as claimed in claim 6, wherein the display screen is provided on the top of the water outlet tap.

8. The infrared induction quantitative water outlet system of claim 1, wherein the valve core assembly comprises a valve core and a valve core seat, the valve core seat is arranged in the water outlet faucet, the valve core is movably arranged on the valve core seat and positioned on the water outlet channel, and the switch handle is connected with the valve core.

9. The infrared sensing quantitative water outlet system of claim 7, wherein the water outlet faucet is T-shaped, the water outlet faucet comprises a longitudinal section and a transverse section which are connected, the switch handle is rotatably arranged on the transverse section along a vertical direction, and the first infrared sensor and the second infrared sensor are arranged on a side wall of the longitudinal section.

10. The infrared induction quantitative water discharge system of claim 6, wherein the water pump and the flow meter are located on the water purifier.

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