CN203280308U - Wall-hung type soap dispenser - Google Patents

Abstract

The utility model is applicable to the field of daily necessities, and provides a wall-hung type soap dispenser. A first infrared receiver and a second infrared receiver are arranged on the lower surface of a soap chamber, a first infrared emitter and a second infrared emitter are arranged on a pedestal in a face-to-face manner with the first infrared receiver and the second infrared receiver respectively, and a microprocessor controls a motor to rotate forwards or backwards according to the output of the first infrared receiver and the second infrared receiver, and thus drives a hydraulic pump head to discharge soap or not, thereby realizing an automatic soup discharging function, bringing convenience for people to use, and facilitating hygiene maintenance in public places.

Description

The wall-hung type soap dispenser

Technical field

The utility model belongs to daily necessities field, particularly a kind of wall-hung type soap dispenser that is mainly used in public place, has the automatic liquid discharging function.

Background technology

Soap dispenser is a kind of soap lye storing apparatus that is mainly used in the public places such as star hotel, restaurant, hotel, hospital, airport or household place.

For security consideration, the existing soap dispenser that is applied in public place generally is fixed on body of wall, should comprise soap lye chamber, liquid outlet, liquid inlet at least.In use, the user, by the mode of Manual press, makes appropriate soap lye discharge by liquid outlet.

Because above-mentioned soap dispenser uses the push type structure, be not easy to user's operation, particularly when the soap lye in the soap lye chamber is less, need the user repeated multiple times press the ability fluid.

The utility model content

The purpose of this utility model is to provide a kind of wall-hung type soap dispenser, to solve existing wall-hung type soap dispenser, adopts the push type structure, is not easy to the problem that the user uses.

according to the utility model, a kind of wall-hung type soap dispenser is provided, comprise the soap lye chamber and with the integrated base in described soap lye chamber, upper surface is provided with liquid inlet in described soap lye chamber, the bottom surface relative with described base in described soap lye chamber is provided with the hydraulic pressure pump head, described soap lye chamber lower surface is provided with the first infrared remote receiver and the second infrared remote receiver that is distributed in described hydraulic pressure pump head both sides, be provided with the first infrared transmitter with described the first infrared remote receiver relative position on described base, be provided with the second infrared transmitter with described the second infrared remote receiver relative position on described base, described soap dispenser also comprises:

Motor;

The microprocessor that connects described the first infrared transmitter, the first infrared remote receiver, the second infrared transmitter and the second infrared remote receiver;

Connect described hydraulic pressure pump head and described motor and drive the transmission mechanism that described hydraulic pressure pump head moves under described motor control;

Connect described motor and described microprocessor and control the motor driver of described motor forward or reverse according to the output of described the first infrared remote receiver and the second infrared remote receiver;

The power subsystem that connects described the first infrared transmitter, the first infrared remote receiver, the second infrared transmitter, the second infrared remote receiver, motor driver and microprocessor; And

Connect described microprocessor, carried out the timer of timing the fluid time;

Described microprocessor comprises again a single-chip microcomputer, and the energization pins of described single-chip microcomputer connects the output of described power subsystem, the first output pin of described single-chip microcomputer be connected output pin and connect described motor driver;

Described motor driver comprises again: the triode Q1 of the triode Q3 of positive-negative-positive, the triode Q4 of positive-negative-positive, NPN type, triode Q2, resistance R 1, resistance R 2, resistance R 3, resistance R 4, diode D1, diode D2, diode D3 and the diode D4 of NPN type; The emitter stage of triode Q3 is connected the output of described power subsystem jointly with the emitter stage of triode Q4, the colelctor electrode of triode Q3 connects the positive pole of described motor, the colelctor electrode of triode Q4 connects the negative pole of described motor, the base stage of triode Q3 connects the negative pole of described motor by resistance R 3, the base stage of triode Q4 is by the positive pole of resistance R 4 connecting motors; The positive pole of the colelctor electrode connecting motor of triode Q1, the negative pole of the colelctor electrode connecting motor of triode Q2, the grounded emitter of the emitter stage of triode Q1 and triode Q2, the base stage of triode Q1 connects the second output pin of described single-chip microcomputer by resistance R 1, the base stage of triode Q2 connects the first output pin of described single-chip microcomputer by resistance R 2; Diode D1 is connected in parallel between the collector and emitter of triode Q1, and the colelctor electrode of the negative electrode connecting triode Q1 of diode D1; Diode D2 is connected in parallel between the collector and emitter of triode Q2, and the colelctor electrode of the negative electrode connecting triode Q2 of diode D2; Diode D3 is connected in parallel between the collector and emitter of triode Q3, and the emitter stage of the negative electrode connecting triode Q3 of diode D3; Diode D4 is connected in parallel between the collector and emitter of triode Q4, and the emitter stage of the negative electrode connecting triode Q4 of diode D4.

In above-mentioned wall-hung type soap dispenser, on described base, can be provided with a groove on the surface relative with described soap lye chamber lower surface.

the above-mentioned wall-hung type soap dispenser that the utility model proposes is owing at soap lye chamber lower surface, being provided with the first infrared remote receiver and the second infrared remote receiver, on base, be provided with the first infrared transmitter with the first infrared remote receiver relative position, on base, be provided with the second infrared transmitter with the second infrared remote receiver relative position, microprocessor is according to the output of the first infrared remote receiver and the second infrared remote receiver, control the forward or reverse of motor, and then whether drive hydraulic pressure pump head fluid, realized the automatic liquid discharging function, facilitated people's use, and help to keep the health of public place.

Description of drawings

Fig. 1 is in the utility model embodiment, the external structure schematic diagram of wall-hung type soap dispenser;

Fig. 2 is in the utility model embodiment, the circuit theory diagrams of wall-hung type soap dispenser;

Fig. 3 is in Fig. 2, the connecting circuit figure of microprocessor and motor driver.

The specific embodiment

, for making the technical solution of the utility model clearer, referring to accompanying drawing, describe embodiment of the present utility model in detail.

In conjunction with illustrated in figures 1 and 2, in the utility model embodiment, the wall-hung type soap dispenser comprise the soap lye chamber 1 that holds soap lye and with the integrated base 2 in soap lye chamber 1; Soap lye chamber 1 upper surface is provided with liquid inlet 3, the bottom surface relative with base 2, soap lye chamber 1 is provided with hydraulic pressure pump head 4.

Different from existing wall-hung type soap dispenser is, soap lye chamber 1 lower surface is provided with the first infrared remote receiver 6 and the second infrared remote receiver 7 that is distributed in hydraulic pressure pump head 4 both sides simultaneously, be provided with the first infrared transmitter 5 with the first infrared remote receiver 6 relative positions on base 2, on base, the 2 and second infrared remote receiver 7 relative positions are provided with the second infrared transmitter 8; 1 inside, soap lye chamber also comprises: motor 11; The microprocessor 9 that connects the first infrared transmitter 5, the first infrared remote receiver 6, the second infrared remote receiver 7 and the second infrared transmitter 8; Connecting fluid press pump head 4 and motor 11, drive the transmission mechanism 12 that hydraulic pressure pump head 4 moves under motor 11 is controlled; Connecting motor 11 and microprocessor 9, control the motor driver 10 of motor 11 forward or reverse according to the output of the first infrared remote receiver 6 and the second infrared remote receiver 7; The power subsystem 13 that connects the first infrared transmitter 5, the first infrared remote receiver 6, the second infrared remote receiver 7, the second infrared transmitter 8, motor driver 10 and microprocessor 9.Transmission mechanism 10 wherein can be gear train.

Especially, on base 2, be provided with a groove on the surface relative with soap lye chamber 1 lower surface, to hold the soap lye under hydraulic pressure pump head 4 drippages.

In use, the user adds soap lye by liquid inlet 3 to soap lye chamber 1 to above-mentioned wall-hung type soap dispenser.After powering on, the first infrared transmitter 5 and the second infrared transmitter 8 send respectively infrared ray, and the first infrared remote receiver 6 and the second infrared remote receiver 7 receive respectively corresponding infrared ray; If the user need to get soap lye, hand is sheltered from infrared ray, when the infrared ray that sends respectively when the first infrared transmitter 5 and the second infrared transmitter 8 all is blocked, microprocessor 9 detects this action by the first infrared remote receiver 6 and the second infrared remote receiver 7, and then control motor driver 10 forward or reverse, by transmission mechanism 12, drive 4 actions of hydraulic pressure pump head, complete the fluid action; After the user extracts hand out, the first infrared remote receiver 6 recovers to receive the infrared ray that the first infrared transmitter 5 sends, microprocessor 9 detects this action by the first infrared remote receiver 6, and then control motor driver 10 and reverse or forwards, by transmission mechanism 12, drive hydraulic pressure pump head 4 counteragents, stop fluid.

Further, as shown in Figure 2, above-mentioned wall-hung type soap dispenser also can comprise: connect microprocessor 9, the timer 14 that is carried out timing the fluid time.When timing time reached Preset Time, microprocessor 9 can directly be controlled motor driver 10 counter-rotating or forwards,, by transmission mechanism 12, drove hydraulic pressure pump head 4 counteragents, stopped fluid, and need not to wait for that the user extracts hand out, can reach the purpose of saving soap lye.

Further, as shown in Figure 3, microprocessor 9 can comprise: single-chip microcomputer U1, the energization pins VDD of single-chip microcomputer U1 connects the output of power subsystem 13, the first output pin P00 of single-chip microcomputer U1 and the second output pin P01 connecting motor driver 10.

Especially, single-chip microcomputer U1 is that model is the single-chip microcomputer of PIC12C508, and its volume is little, and is convenient integrated.

Further, as shown in Figure 3, motor driver 10 comprises: the triode Q1 of the triode Q3 of positive-negative-positive, the triode Q4 of positive-negative-positive, NPN type, the triode Q2 of NPN type, resistance R 1, resistance R 2, resistance R 3, resistance R 4.The emitter stage of triode Q3 and the emitter stage of triode Q4 are connected the output of power subsystem 11 jointly, the positive pole of the colelctor electrode connecting motor 9 of triode Q3, the negative pole of the colelctor electrode connecting motor 9 of triode Q4, the base stage of triode Q3 is by the negative pole of resistance R 3 connecting motors 9, and the base stage of triode Q4 is by the positive pole of resistance R 4 connecting motors; The positive pole of the colelctor electrode connecting motor of triode Q1, the negative pole of the colelctor electrode connecting motor of triode Q2, the grounded emitter of the emitter stage of triode Q1 and triode Q2, the base stage of triode Q1 connects the second output pin P01 of single-chip microcomputer U1 by resistance R 1, the base stage of triode Q2 connects the first output pin P00 of single-chip microcomputer U1 by resistance R 2.As seen, motor driver 10 is a H type motor driver, and single-chip microcomputer U1, according to the output of the first infrared remote receiver 6,, by the level state of the first output pin P00 and the second output pin P01, controls the forward or reverse of motor 9.

Further, as shown in Figure 3, motor driver 10 also can comprise: diode D1, diode D2, diode D3 and diode D4.Diode D1 is connected in parallel between the collector and emitter of triode Q1, and the colelctor electrode of the negative electrode connecting triode Q1 of diode D1; Diode D2 is connected in parallel between the collector and emitter of triode Q2, and the colelctor electrode of the negative electrode connecting triode Q2 of diode D2; Diode D3 is connected in parallel between the collector and emitter of triode Q3, and the emitter stage of the negative electrode connecting triode Q3 of diode D3; Diode D4 is connected in parallel between the collector and emitter of triode Q4, and the emitter stage of the negative electrode connecting triode Q4 of diode D4.

with respect to prior art, the above-mentioned wall-hung type soap dispenser that the utility model proposes is owing to being provided with the first infrared remote receiver 6 and the second infrared remote receiver 7 at soap lye chamber 1 lower surface, on base 2, be provided with the first infrared transmitter 5 with the first infrared remote receiver 6 relative positions, on base 2, be provided with the second infrared transmitter 8 with the second infrared remote receiver 7 relative positions, microprocessor 9 is according to the output of the first infrared remote receiver 6 and the second infrared remote receiver 7, control the forward or reverse of motor 9, and then whether drive hydraulic pressure pump head 4 fluids, realized the automatic liquid discharging function, facilitated people's use, and help to keep the health of public place.

It will be appreciated by those skilled in the art that above-described embodiment not in order to limit the utility model, based on the various modifications of above-described embodiment, replacement, combination, part in conjunction with all falling into protection domain of the present utility model.

Claims (2)

1. wall-hung type soap dispenser, comprise the soap lye chamber and with the integrated base in described soap lye chamber, upper surface is provided with liquid inlet in described soap lye chamber, the bottom surface relative with described base in described soap lye chamber is provided with the hydraulic pressure pump head, it is characterized in that, described soap lye chamber lower surface is provided with the first infrared remote receiver and the second infrared remote receiver that is distributed in described hydraulic pressure pump head both sides, be provided with the first infrared transmitter with described the first infrared remote receiver relative position on described base, be provided with the second infrared transmitter with described the second infrared remote receiver relative position on described base, described soap dispenser also comprises:

Motor;

The microprocessor that connects described the first infrared transmitter, the first infrared remote receiver, the second infrared transmitter and the second infrared remote receiver;

Connect described hydraulic pressure pump head and described motor and drive the transmission mechanism that described hydraulic pressure pump head moves under described motor control;

Connect described motor and described microprocessor and control the motor driver of described motor forward or reverse according to the output of described the first infrared remote receiver and the second infrared remote receiver;

The power subsystem that connects described the first infrared transmitter, the first infrared remote receiver, the second infrared transmitter, the second infrared remote receiver, motor driver and microprocessor; And

Connect described microprocessor, carried out the timer of timing the fluid time;

Described microprocessor comprises again a single-chip microcomputer, and the energization pins of described single-chip microcomputer connects the output of described power subsystem, the first output pin of described single-chip microcomputer be connected output pin and connect described motor driver;

Described motor driver comprises again: the triode Q1 of the triode Q3 of positive-negative-positive, the triode Q4 of positive-negative-positive, NPN type, triode Q2, resistance R 1, resistance R 2, resistance R 3, resistance R 4, diode D1, diode D2, diode D3 and the diode D4 of NPN type; The emitter stage of triode Q3 is connected the output of described power subsystem jointly with the emitter stage of triode Q4, the colelctor electrode of triode Q3 connects the positive pole of described motor, the colelctor electrode of triode Q4 connects the negative pole of described motor, the base stage of triode Q3 connects the negative pole of described motor by resistance R 3, the base stage of triode Q4 is by the positive pole of resistance R 4 connecting motors; The positive pole of the colelctor electrode connecting motor of triode Q1, the negative pole of the colelctor electrode connecting motor of triode Q2, the grounded emitter of the emitter stage of triode Q1 and triode Q2, the base stage of triode Q1 connects the second output pin of described single-chip microcomputer by resistance R 1, the base stage of triode Q2 connects the first output pin of described single-chip microcomputer by resistance R 2; Diode D1 is connected in parallel between the collector and emitter of triode Q1, and the colelctor electrode of the negative electrode connecting triode Q1 of diode D1; Diode D2 is connected in parallel between the collector and emitter of triode Q2, and the colelctor electrode of the negative electrode connecting triode Q2 of diode D2; Diode D3 is connected in parallel between the collector and emitter of triode Q3, and the emitter stage of the negative electrode connecting triode Q3 of diode D3; Diode D4 is connected in parallel between the collector and emitter of triode Q4, and the emitter stage of the negative electrode connecting triode Q4 of diode D4.

2. wall-hung type soap dispenser as claimed in claim 1, is characterized in that, on described base, be provided with a groove on the surface relative with described soap lye chamber lower surface.

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