The present invention relates to a toilet detect device, especially to an automatic protect device when the inlet valve or the drain valve is failed or when the toilet is plugged up.
A Chinese utility model with patent number 201120264745.0 discloses a water tank inlet valve, which comprises a valve body, a water seal cover, a valve cover, a lever and a float, the valve cover is connected to the valve body and from a valve cavity, the valve body is disposed with a water inlet pipe connected to the valve cavity, the water seal cover is disposed inside the valve cavity, the bottom of the water seal cover is connected to the lever, the lever is connected to the float by an adjusting screw, the water seal cover seals or opens the opening of the water inlet pipe of the valve body under the work of the lever, the top surface of the water seal cover is disposed with a lock element, the lock element is disposed with a boss, a groove is disposed on the top surface and the boss; the top surface of the water seal cover is disposed with a silicone pad, which is sleeved on the lock element; when water flows in through the groove of the boss of the water seal cover, as the silicone pad is thin, under the water stress, the inclined surface between the silicone pad and the water seal cover will be impacted and open a clearance for inlet, the float rises under the work of floatage, it takes the pressure lever to close the small hole of the valve cover, when pressure is large enough to drive the water seal cover to make the silicone pad pressed tightly on the valve body, the inlet valve stops inflowing, meanwhile the dirt and silt are taken away, thus preventing being blocked or a failure of the inlet valve.
Above utility model achieves to close the inlet valve by using the water pressure, however, if it is applied in a toilet water tank that is not sealed, in which water pressure doesn't float much, above utility model will not work, then if the inlet valve is failed, water continuously flows out.
The object of the present invention is to overcome the disadvantage of the existing technology and provide an automatic protect device to solve the problems that when the inlet valve is failed to close the waterway, the drain valve is failed and leaks water, or when the toilet is plugged up.
The technical proposal of the present invention is as below:
An automatic protect device when the inlet valve or the drain valve is failed or when the toilet is plugged up comprising an inlet, an outlet, an on-off component, a control circuit, a control component, a water level inductor of the water tank and a water level inductor of the toilet, the water level inductor of the water tank and the water level inductor of the toilet are respectively connected to the control circuit, the control circuit drives the control component, the control component is connected to the on-off component to control the on-off component to open or close, thus implementing the connection or the disconnection of the inlet and the outlet, thereinto, the inlet, the outlet, the on-off component, the control circuit and the control component compose a main controller, the main controller is assembled between the water resource pipe and the inlet end of the inlet valve.
In another preferred embodiment, the on-off component comprising a moving plate and a fixed plate, the fixed plate is disposed with a water hole, the moving plate is closely contacted to the fixed plate, the moving plate moves with respect to the fixed plate, so that the water hole is open or closed, thus implementing the open or close of the water flowing.
In another preferred embodiment, the control component comprising a gear shaft, a rack, a slide shaft and a connecting element of the rack, the gear shaft is engaged with the rack, one end of the slide shaft is sercured to the rack, the other end of the slide shaft is secured to the connecting element of the rack, the moving plate is fixed to the connecting element of the rack; the gear shaft, when rotating, drives the rack to move, thus driving the slide shaft to drive the connecting element of the rack to move, thus driving the moving plate to move with respect to the fixed plate.
In another preferred embodiment, the control component further comprising a crank, a solenoid, a knob and a main spring, the gear shaft passes through the crank to connect to the knob, the gear shaft, the crank and the knob form a linkage connection, the main spring abuts against the rack and pushes the rack, thus forming a trend to drive the on-off component to close; the crank is disposed with a crank hole, when the on-off component is open, the solenoid is locked inside the crank hole.
In another preferred embodiment, a pressing element abuts against the moving plate in the front, the pressing element pushes the moving plate by a pre-tighten spring, thus making the moving plate closely contacted to the fixed plate.
In another preferred embodiment, the control component comprises a gear shaft and a driving element, the moving plate is fixed to the driving element; one end of the gear shaft is disposed with a cam laterally protruded, the driving element is disposed with a cavity to dispose the cam, the gear shaft extends into the driving element, the cam, when rotating, abuts the two walls of the driving element respectively, the driving element moves in different directions to drive the moving plate to move with respect to the fixed plate.
In another preferred embodiment, the control component further comprises a crank, a solenoid, a knob and a torsional spring, the gear shaft passes through the crank to connect to the knob, the gear shaft, the crank and the knob form a linkage connection, the torsional spring is assembled to the crank and pushes the crank with a torsion force, thus forming a trend to drive the on-off component to close; the crank is disposed with a crank hole, when the on-off component is open, the solenoid is locked inside the crank hole.
In another preferred embodiment, the control component comprises a gear shaft, one end of the gear shaft is disposed with a cam laterally protruded, the moving plate is fixed to the cam; the cam, when rotating, drives the moving plate to move with respect to the fixed plate.
In another preferred embodiment, the control component further comprises a pre-tighten shaft and a pre-tighten spring, the pre-tighten shaft is disposed between the moving plate and the cam, the pre-tighten spring is disposed between the pre-tighten shaft and the cam, thus making the moving plate closely contacted to the fixed plate.
In another preferred embodiment, the control component further comprises a lever enlarging handle, a crank, a solenoid, a knob and a torsional spring, the lever enlarging handle is eccentric, one end of the lever enlarging handle is disposed with a lock step, while the other end of the lever enlarging handle is disposed with a lock groove to lock to a clip disposed in the crank; the gear shaft passes through the crank to connect to the knob, the gear shaft, the crank and the knob form a linkage connection, the torsional spring is assembled to the crank and pushes the crank with a torsion force, thus forming a trend to drive the on-off component to close; when the on-off component is open, the solenoid is locked to the lock step of the lever enlarging handle.
In another preferred embodiment, the control component further comprises a connecting sleeve, the connecting sleeve is sleeved between the gear shaft and the crank, the connecting sleeve is disposed with a straight hole, one end of the pre-tighten shaft is locked inside the straight hole, thus implementing the straight movement of the moving plate.
In another preferred embodiment, the housing is disposed with a thumbstall in the position of the solenoid, the thumbstall, when pressed, drives the solenoid to move, so that to manual control the solenoid to release the lever enlarging handle.
In another preferred embodiment, the water level inductor of the water tank comprises a hook, a stand, a slide block, a float, a PCB housing and a inductor PCB board, the hook is disposed in the stand, the hook hangs in the water tank; one end of the slide block is fixed to the top end of the PCB housing, the other end is slidably connected to the stand; the float is slidably connected to the PCB housing, the float is disposed with a magnet.
In another preferred embodiment, the bottom of the PCB housing is disposed with a limit rib, the float moves in the PCB housing between the slide block and the limit rib.
In another preferred embodiment, one side of the stand is disposed with ribs, the other side is disposed with protruding rib, one side on the internal surface of the slide block is disposed with grooves, the grooves are cooperated to the ribs; the other side of the slide block is disposed with a lock catch, the lock catch is cooperated to the protruding rib, when the lock catch escapes from the protruding rib, the slide block is adjustable, when the lock catch locks to the protruding rib, the slide block keeps still.
In another preferred embodiment, a securing layer is filled between the inductor PCB board and the PCB housing.
In another preferred embodiment, the inductor PCB board is disposed with reed switches in different heights according to different water levels, the float is disposed with a magnet, the magnet is cooperated to the reed switches for water level identification.
In another preferred embodiment, the water level inductor of the toilet comprises a level switch, a setting rack, a sealing pad, a press board and a lock sleeve, the level switch is assembled to one end of the setting rack, the other end of the setting rack passes through the side wall of the toilet, and locks the sealing pad and then the press board to the toilet by the lock sleeve.
In another preferred embodiment, the water level inductor of the toilet comprises a level switch, an output pipe, a sealing ring and a sealing O ring, the level switch is assembled to the lower end of the output pipe, the output pipe is disposed inside the water tank, the level switch passes through the water tank then into the toilet; the output pipe is assembled to the bottom of the water tank by a setting holder; the setting holder is an external threaded pipe with an upper flange in the upper end, the setting holder is fixed to the external wall of the output pipe, the external threaded section of the setting holder inserts into the toilet, and is rotationally connected with a locknut with an external lower flange; when assembling, rotating the locknut, the upper flange of the setting holder and the lower flange of the locknut screw the bottom wall of the water tank; the setting holder and the water tank, the locknut and the top surface of the toilet, the setting holder and the output pipe are sealed by sealing rings or sealing O rings; when the toilet is plugged up and the water level reaches to the induction position of the level switch, the waterway is cut off after a period of time.
In another preferred embodiment, the level switch comprises a shaft sleeve, a ball float and a limiting piece, the ball float is movably sleeved to the shaft sleeve, the shaft sleeve is disposed with reed switches inside, the ball float is disposed with a magnet; the limiting piece is assembled to the lower end of the shaft sleeve, the upper end of the shaft sleeve is assembled to the setting rack.
The advantages of the present invention are:
a) illustrates a fourth mode of the first embodiment when it is closed.
b) illustrates a fourth mode of the first embodiment when it is open.
Reference signs: main controller 100, water level inductor of the water tank 200, water level inductor of the toilet 300, inlet 1, outlet 2, rotating shaft with a hole 3, knob 4, moving shaft 5, cam 6, fixed plate 7, moving plate 8, water hole 9, driving shaft 10, control circuit 11, gear shaft 12, rack 13, slide shaft 14, connecting element of the rack 15, crank 16, solenoid 17, main spring 18, crank hole 19, pressing element 20, pre-tighten spring 21, assembly position of the main spring 22, lock teeth 23, assembly position f the slide shaft 24, hook 25, stand 26, slide block 27, float 28, PCB housing 29, inductor PCB board 30, limit rib 31, rib 32, protruding rib 33, groove 34, lock catch 35, reed switch 36, level switch 37, setting rack 38, sealing pad 39, press board 40, lock sleeve 41, shaft sleeve 42, ball float 43, limit piece 44, gear shaft 45, driving element 46, setting holder 47, upper flange 471, locknut 472, lower flange 473, sealing ring 481, sealing O ring 482, output pipe 49, connecting wire 50, torsional spring 51, cam 52, lever enlarging handle 53, lock step 54, lock groove 55, clip 56, thumbstall 57, connecting sleeve 58, straight hole 59, pre-tighten shaft 60.
The present invention will be further described with the drawings and the embodiments.
An automatic protect device when the inlet valve or the drain valve is failed or when the toilet is plugged up comprising an inlet 1, an outlet 2, a on-off component, a control circuit 11, a control component, a water level inductor of the water tank 200 and a water level inductor of the toilet 300, the water level inductor of the water tank 200 and the water level inductor of the toilet 300 are respectively connected to the control circuit 11, the control circuit 11 drives the control component, the control component is connected to the on-off component to control the open and close of the on-off component, thus implementing the connection and the disconnection of the inlet 1 and outlet 2. thereinto, the inlet 1, the outlet 2, the on-off component, the control circuit 11 and the control component compose the main controller 100 and are assembled between the water resource pipe and the inlet end of the inlet valve.
A first mode is figured out in
A second mode is figured out in
A third mode is figured out in
A fourth mode is figured out in
A fifth mode is figured in
As figured in
As figured in
The control component comprising a gear shaft 12, a rack 13, a slide shaft 14 and a connecting element 15 of the rack 13. The gear shaft 12 is engaged to the rack 13, one end of the slide shaft 14 is fixed to the rack 13, while the other end is fixed to the connecting element 15 of the rack 13, the moving plate 8 is fixed to the connecting element 15 of the rack 13; when the gear shaft 12 rotates, it drives the rack 13 to move, thus driving the slide shaft 14 to drive the connecting element 15 of the rack 13 to move, thus driving the moving plate 8 to move with respect to the fixed plate 7.
To make sure that the water is supplied again just after the failure is removed, this embodiment is provided with a manual recovering function. During actual practice, the control component further comprising a crank 16, a solenoid 17, a knob 4 and a main spring 18, the gear shaft 12 passes through the crank 16 to connect with the knob 4, the gear shaft 12, the crank 16 and the knob 4 form a linkage connection, the main spring 18 abuts against the rack 13 to push the rack 13, thus forming a trend to drive the on-off component to close; the crank 16 is disposed with a crank hole 19, when the on-off component is situated in open, the solenoid 17 is locked inside the crank hole 19.
To make the moving plate 8 more closely contacted to the fixed plate 7, a pressing element 20 is disposed to abut against the moving plate 8 in the front, the pressing element 20 works on the moving plate 8 by a pre-tighten spring 21, thus making the moving plate 8 more closely contacted to the fixed plate 7.
As figured in
When the water level inductor of the water tank 200 or the water level inductor of the toilet 300 sense that the level changes, it sends signal to the control circuit 11, when the control circuit 11 receives the signal, it further processes: the solenoid 17 is powered to make the head contracted, the crank hole 19 slips from the solenoid 17 under the work of the main spring 18, at the same time, the crank 16 drives the gear shaft 12 to move to drive the crack 13 to move; the crack 13 drives the connecting element 15 of the crack 13 to move by the slide shaft 14, now the moving plate 8 is overlapped on the fixed plate 7, water can't flow through the water hole 9, thus making the water supply closed. As figured in
In addition, the alarm information is disposed with a turnoff board and an LED light. As figured in
The structure of the rack 13 is as figured in
In addition to the automatic control, when other abnormal situation happeds and it has to close the water supply, there is manual close method.
As figured in
For accurate output the detect result, hope no detect error happens due to the movement of the inductor PCB board 30, a securing layer is filled between the inductor PCB board 30 and the PCB housing 29, preventing the inductor PCB board 30 from moving outside the PCB housing, preventing an excursion of the pre-set water level which leads to inaccurate result.
To prevent the float 28 from sinking, to prevent it from dropping due to low water level, or to prevent it from stuck at the bottom of the PCB housing 29, as figured in
When the inlet valve is failed, the float 28 rises to the highest, and when it keeps for 1-5 seconds (or other periods), the water level inductor of the water tank 200 is powered; when the drain valve is failed, the float 28 moves from the moving area to the lowest area and then back to the moving area (a cycle) 5 times back and forward (or other times), and the period reaches to 2-5 minutes (or other period), the water level inductor of the water tank 200 is powered. When the drain valve is failed, the float 28 falls down to the lowest area for 10 minutes (or other periods), the water level inductor of the water tank 200 is powered.
As figured in
In this embodiment, the inductor PCB board 30 is disposed with reed switches 36 of different heights according to different water levels, as figured in
As figured in
In detailed, the level switch 37 comprises a shaft sleeve 42, a ball float 43 and a limiting piece 44, the ball float 43 is movably sleeved to the shaft sleeve 42, the shaft sleeve 42 is disposed with reed switches 36 inside, the ball float 43 is disposed with a magnet inside; the limiting piece 44 is assembled in the lower end of the shaft sleeve 42, the upper end of the shaft sleeve 42 is fixed to the setting rack 38.
When the toilet is plugged up and the water keeps rising, the level switch 37 rises, and the magnet inside rises as well, when it reaches to a certain height, the water level inductor of the toilet 300 is powered, and it sends alarm signal to the control circuit 11, the control circuit 11 then cuts off the inlet watery and alarms (by sound or light signal).
As figured in
The control component further comprises a crank 16, a solenoid 17, a knob 4 and a torsional spring 51, the gear shaft 45 passes through the crank 16 to connect to the knob 4. the gear shaft 45, the crank 16 and the knob 4 form a linkage connection, the torsional spring 51 is assembled to the crank 16 to push torsion stress to the crank 16, thus forming a trend to drive to close the on-off component; the crank 16 is disposed with a crank hole 19, when the on-off component is open, the solenoid 17 is locked to the crank hole 19.
As figured in
When used, as figured in
Other parts of this embodiment are similar to the second embodiment.
In this embodiment, as figured in
For manual operation convenient, as figured in
Other parts of this embodiment are similar to the second embodiment.
As figured in
Other parts of this embodiment are similar to the fourth embodiment.
Although the present invention has been described with reference to the preferred embodiments thereof for carrying out the patent for invention, it is apparent to those skilled in the art that a variety of modifications and changes may be made without departing from the scope of the patent for invention which is intended to be defined by the appended claims.
Number | Date | Country | Kind |
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201320594738.6 | Sep 2013 | CN | national |