Infrared induction toilet automatic flushing device
Technical field
The utility model relates to a kind of flushometer of toilet, relates in particular to a kind of closet flushing apparatus that utilizes infrared induction control bath.
Background technology
Mostly the bath form of the employed toilet of people is to adopt hand to control the bath of toilet by the mode of flush button in the daily life, or different buttons is set to guarantee using water wisely according to different discharging quantity of water, though the former is simple in structure for such situation, but use inconvenient, again can not using water wisely, wasted water resource, though and the latter can using water wisely, but its complex structure needs armrest to move to distinguish the size of discharging quantity of water; For the infrared induction flushometer of promoting the use of at present all is to utilize 220 volts alternating current to carry out its shortcoming of work safety inadequately when being to use, and can not use again when having a power failure, and has brought certain degree of difficulty to promoting the use of this series products.
Summary of the invention
The purpose of this utility model provides a kind of mode of dynamo-electric combination of utilizing and realizes the closet flushing apparatus that infrared induction control is washed by water, it can utilize the infrared induction circuit to control the water-rinsing process that the motor-driven draining valve is finished toilet under the situation of low-voltage DC, and can control the size of discharging quantity of water according to the length of infrared induction time.
In order to achieve the above object, the technical scheme that the utility model adopted is: be provided with an infrared inductor, on inductor, be connected with two time relays, inductor can be connected different circuit according to the length of time of the signal of sensing, but the machine operation on this circuit drive circuit, and the reducer that drive is connected on the motor rotates, on reducer, be provided with a rotating disk, it can rotate with reducer simultaneously, rotating disk can contact the optoelectronic switch that is located on the circuit and reverse by motor when rotating, and then contacts another optoelectronic switch circuit is disconnected.On the output shaft of reducer, also has a right angle type connecting rod, the other end of this connecting rod is connected on two retaining zip mode water traps of water-closet tank, so just can utilize the motor rotation process to control closet flushing, and can control the size of discharging quantity of water according to the degree of rotation of motor, reach the purpose of this utility model.Said infrared inductor can be to utilize electric wire directly to be connected with the connected mode of the time relay; Also can be to adopt wireless signal transmission to be connected with the form of acceptance, promptly can be wireless signal with this signal transition when the infrared rays inductor is sensed signal and launch by transmitter, other has a recipient to accept this signal and connects the different time relays according to the different signal that receives, and different circuit is connected.
Infrared induction toilet automatic flushing device provided by the utility model is simple in structure; cost of manufacture is low; easy to use; it utilizes the mode of dynamo-electric combination to realize the auto-flushing process of toilet; and can control different displacement according to the time length of infrared inductor induction, water resource has been protected in using water wisely; can also reduce contacting of human body and toilet button, avoid bacterial infection.
Description of drawings
Fig. 1 is the circuit theory diagrams of the utility model infrared induction toilet automatic flushing device.
Fig. 2 is the cut-away section structural representation of infrared induction toilet automatic flushing device embodiment illustrated in fig. 1.
Fig. 3 is the cut-away section structural representation along the A-A line embodiment illustrated in fig. 2.
The specific embodiment
In circuit theory shown in Figure 1, infrared inductor 2 is connected with 5 with the time relay 1, in parallel between the time relay 1 and the time relay 5, and respectively with relay 3,6 series connection, relay 3 is connected with rotating relay 8 by optoelectronic switch 4, relay 3 also is connected with rotating relay 8 by another circuit, such connected mode can make relay 3 connect rotating relay 8 output forward currents by optoelectronic switch 4 earlier when connecting, circuit disconnects when optoelectronic switch 4 is connected, and relay 3 is connected rotating relay 8 by another circuit and made its output reversing the current; In like manner, relay 6 is connected with rotating relay 8 by optoelectronic switch 7, and relay 6 also is connected with rotating relay 8 by another circuit; Be connected with motor 9 on the rotating relay 8, motor 9 can carry out forward or reverse according to the electric current that rotating relay 8 is exported, and when motor 9 was inverted to certain position, optoelectronic switch 10 was connected, and circuit disconnects, and motor 9 quits work.Said infrared inductor 2 and the time relay 1 can be to utilize electric wire directly to be connected with 5 connected mode, also can be to adopt wireless signal transmission to be connected with the form of acceptance, promptly when infrared rays inductor 2 is sensed signal be wireless signal and launch by transmitter with this signal transition, other has a recipient to accept this signal and connects the different time relays according to the different signal that receives, and different circuit is connected.
Fig. 2 has an embodiment according to what circuit theory shown in Figure 1 was designed, in this structure, be provided with motor 9 for 11 li in compartment, on the output shaft of motor 9, be connected with reducer 12, on the output shaft of reducer 12, be provided with a rotating disk 13 jaggy and right angle type connecting rod 14, its turntable 13 is in compartment, and an end of right angle type connecting rod 14 stretches out the outside of compartment 11 and is connected with two slide fasteners 18 that keep off zip mode draining valves 17 of water-closet tank; Be fixed with optoelectronic switch 10,4,7 respectively corresponding to the breach of rotating disk 13 in the clockwise direction 11 li of compartment, they can be located on the sidewall of compartment 11, also can be located on the shell of reducer 12; Compartment 11 is fixed on the support, and this support is fixed on by adjustable clamp 15 on the bar 16 that leaks of two retaining zip mode water traps 17 of water-closet tank adjustablely.In use, the time of sensing signal when infrared rays inductor 2 is short, then the time relay 1 is connected, electric current is through relay 3, optoelectronic switch 4 arrives rotating relay 8, its output forward current is just changeed clockwise by motor 9, at this moment, drive rotating disk 13 by reducer 12, connecting rod 14 rotates simultaneously, the rotation of connecting rod 14 then can spur slide fastener 18 allows water trap 17 wash by water, optoelectronic switch 4 is connected when the breach of rotating disk 13 turns to the position of optoelectronic switch 4, circuit disconnects, this moment, relay 3 made its output reversing the current reverse counterclockwise by motor 9 by another circuit connection rotating relay 8, and when the breach of rotating disk 13 was inverted to the position of optoelectronic switch 10 counterclockwise, optoelectronic switch 10 was connected, entire circuit is disconnected, finish a small amount of water-rinsing process.In like manner, the time of sensing signal as infrared inductor 2 is long, then the time relay 5 is connected, motor 9 just changes clockwise, drive connecting rod 14 rotations and spur slide fastener 18, make water trap 17 baths, when the breach of rotating disk 13 turns to the position of optoelectronic switch 7, optoelectronic switch 7 is connected, and circuit disconnects, and this moment, relay 6 made its output reversing the current reverse counterclockwise by motor 9 by another circuit connection rotating relay 8 again, when the breach of rotating disk 13 is inverted to the position of optoelectronic switch 10, optoelectronic switch 10 is connected, and entire circuit is disconnected, and finishes a large amount of water-rinsing processes.