CN106337957A - An Automatic Anti-overflow Device - Google Patents

Abstract

The invention discloses an automatic anti-overflow device, which comprises a first pipe, a second pipe and a stop valve. One end of the first pipe is used for covering the water outlet of the outside, and the other end is connected with one end of the second pipe, the stop valve is arranged on the first pipe; water level mark line is arranged on the pipe wall of the second pipe; the automatic anti- overflow device comprises the controller, the floating device and the proximity switch. The controller is installed on the first pipe or the second pipe and is connected with the check valve and the proximity switch respectively; the floating device is arranged on the second pipe and is capable of sliding along the axis direction of the second pipe; the proximity switch is arranged on the second pipe and the induction part is located at the water level scale line and faces the side at which the floating device is located. This invention can be used combined with the present tap, in which the water supply is automatically stopped when the water storage device is full of water or the water level reaches the preset set value, simple in structure and good in practicability.

Description

A kind of automatic anti-overflowing device

Technical field

The present invention relates to anti-overflow device of water field, particularly to a kind of automatic anti-overflowing device of Household water tap.

Background technology

At present, the life of rural area Peasants has been continuously available improvement, and running water can be used, often in currently the majority village Village all sets up deep well pump or submersible pump, is discharged water by special messenger's timing start-up daily, then passes through underground piping again domestic water It is sent into every household.And most of peasant household often likes water is stored in water vat, in order to subsequent use or prevent because of depth Well pump or submersible pump power-off and the phenomenon cut off the water supply occurs, in the process of storage water, often tap is open, but can be because numerous Hurry and forget to close tap so that spilling water phenomenon in water vat, and then waste valuable water resource.Accordingly, it would be desirable to a kind of with The anti-overflow device of water that existing tap uses cooperatively, can be full in water-storing device so that tap is in the case of unattended It is automatically stopped moisturizing after water.

Content of the invention

In view of the foregoing it is necessary to provide a kind of automatic anti-overflowing device, this automatic anti-overflowing device can coordinate existing Tap is had to use so that tap is automatically stopped water supply when water-storing device stores full water or water level reaches preset value, Structure is simple, and practicality is good.

For reaching above-mentioned purpose, the technical solution adopted in the present invention is: a kind of automatic anti-overflowing device, including first pipe Road, second pipe and check valve, described first pipeline one end is used for being socketed the faucet outlet of outside, and other end connection is described One end of second pipe, described check valve is located on the first pipeline；Described second pipe tube wall is provided with level scale line；Institute State automatic anti-overflowing device and also include controller, floating installation and proximity switch；Described controller be arranged on the first pipeline or On second pipe, and it is connected with described check valve, proximity switch respectively；Described floating installation is arranged on second pipe, and energy Enough axis directions along described second pipe slide relative to second pipe；Described proximity switch is arranged on second pipe, its Sensing position is located at described level scale line, and towards described floating installation place side；Described proximity switch is used for sensing floating The floating situation of dynamic device, and generation induced signal is sent out in controller when sensing described floating installation, described controller is again Closing control instruction is sent to check valve according to this induced signal.

Further, the internal diameter size of one end that described first pipeline is socketed faucet outlet diminishes along water (flow) direction.

Further, described second pipe is stretching structure.

Further, described floating installation is floating ring structure, and described floating ring is set on outside second pipe.

Further, described second pipe is provided with spacing preiection away from one end lateral surface of the first pipeline, described spacing Raised outside dimension is more than floating ring internal diameter.

Further, described second pipe is provided with slide rail, and described slide rail is arranged along second pipe axis direction, and from described Second pipe extends to above level scale line away from one end of the first pipeline；Described floating installation is arranged on slide rail.

Further, described floating installation includes kickboard, and described kickboard is located at outside second pipe, and its one end is passed through described Slide rail is slidably connected second pipe.

Further, described check valve is magnetic valve.

The method have the advantages that

1st, the present invention by designated water level graduation mark, can because of buoyancy of water this level scale line fluctuate floating Dynamic device, install at this level scale line proximity switch for sensing floating installation and for control water discharge of water faucet only Port valve reaching the no-spill purpose of water-storing device retaining process, and with reference to controller so that process automation is crossed in anti-overflow.

2nd, the anti-overflow device of water designed by the present invention can directly be socketed on existing tap, using more convenient, its knot Structure is simple, has certain practicality.

Brief description

Fig. 1 is the structural representation that a kind of present invention automatic anti-overflowing device floating installation is during floating ring.

Fig. 2 is the structural representation that Fig. 1 floating installation is during kickboard.

Fig. 3 is a kind of structural representation of present invention automatic anti-overflowing device another embodiment.

Main element symbol description

In figure: the first pipeline 1, second pipe 2, level scale line 21, spacing preiection 22, slide rail 23, peak level scale Line 24, lowest water level graduation mark 25, check valve 3, floating installation 4, floating ring 41, ball float 42, kickboard 43, proximity switch 5, tap 100th, water-storing device 200.

Following specific embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Specific embodiment

Refer to Fig. 1 and Fig. 2, in a kind of better embodiment of the present invention, a kind of automatic anti-overflowing device, including one First pipeline 1, a second pipe 2, a check valve 3, a controller, a floating installation 4 and a proximity switch 5.First pipeline 1 one Hold tap 100 delivery port for sheathed outside, the other end connects one end of second pipe 2, second pipe 2 tube wall is provided with One level scale line 21, check valve 3 is located on the first pipeline 1.Controller is arranged on the first pipeline 1 or second pipe 2, And be connected with check valve 3, proximity switch 5 respectively；Floating installation 4 is arranged on second pipe 2, and can be along second pipe 2 Axis direction slide relative to second pipe 2；Proximity switch 5 is arranged on second pipe 2, and its sensing position is located at level scale At line 21, and towards floating installation 4 place side；Proximity switch 5 is used for sensing the floating situation of floating installation 4, and is sensing Generate induced signal during floating installation 4 and send out in controller, controller sends closing control further according to this induced signal to check valve 3 Instruction, i.e. when floating installation 4 rises at level scale line 21 with water level, the sensing position of proximity switch 5 senses floating Device 4, rear proximity switch 5 generates corresponding induced signal and sends out in controller, and controller promotes check valve 3 to cut out again, and then makes The water that tap 100 delivery port flows out blocks in the first pipeline 1, and in water-storing device 200, water level stops going up it is achieved that retaining In device 200 water level automatically control and anti-overflow purpose.Preferably, check valve 3 is magnetic valve, to realize check valve 3 Automatically control.

Further, the first pipeline 1 is socketed in outside tap 100 delivery port, and the one of its set connected with water faucet 100 delivery port The internal diameter size at end diminishes along water (flow) direction, is socketed on the different tap of delivery port size 100 in order to the first pipeline 1, And then enabling described automatic anti-overflowing device to be suitable for the tap 100 of multiple delivery port sizes, raising is described to be prevented automatically The applicability of overflow device.

Further, second pipe 2 be stretching structure, in order to according to reservoir storage need adjust second pipe 2 on water The position of position graduation mark 21, and adapt to tap 100 delivery port to the spacing of water-storing device 200.Check for the ease of user Level scale line 21, level scale line 21 is arranged on the outer wall of second pipe 2 the present embodiment.

Further, refer to Fig. 1 and Fig. 2, floating installation 4 can be floating ring 41 structure, alternatively kickboard 43 structure.Please join Read Fig. 1, when floating installation 4 is floating ring 41 structure, this floating ring 41 is set on second pipe 2 outside, this floating ring 41 can be with SEA LEVEL VARIATION slides up and down along second pipe 2 outer wall；And in order to prevent floating ring 41 from skidding off second pipe 2, the present invention is in second pipe Road 2 is provided with a spacing preiection 22 away from one end lateral surface of the first pipeline 1, and the outside dimension of this spacing preiection 22 is more than floating ring 41 Internal diameter.

Refer to Fig. 2, when floating installation 4 is kickboard 43 structure, ball float 42 device includes kickboard 43, and this kickboard 43 is located at Outside second pipe 2, its one end is slidably connected second pipe 2.In order that kickboard 43 oriented sliding and be preferably arranged on second On pipeline 2, the present invention is provided with a slide rail 23 on second pipe 2, and makes kickboard 43 connect second pipe 2 by this slide rail 23； This slide rail 23 is arranged along second pipe 2 axis direction, and extends to water level quarter from second pipe 2 away from one end of the first pipeline 1 Degree line 21 top is it is preferable that slide rail 23 is not extend to one end port away from the first pipeline 1 for the second pipe 2, to prevent kickboard 43 skid off second pipe 2 along at this.Further, slide rail 23 crosses level scale line 21 or contact level scale line 21 1 End, the sensing position of proximity switch 5 is located at slide rail 23 side, slides into level scale line 21 in order to kickboard 43 along slide rail 23 When proximity switch 5 can sense kickboard 43；Preferably, kickboard 43 is perpendicular to second pipe 2.

In order to improve the accuracy of floating ring 41 or kickboard 43 floating, floating installation 4 also includes ball float 42, and ball float 42 is located at Outside second pipe 2, and it is connected with floating ring 41 or kickboard 43, to drive floating ring 41 or kickboard 43 to fluctuate.

The operation principle of described automatic anti-overflowing device is as follows: first, the first pipeline 1 is socketed in tap 100 water outlet At mouthful, second pipe 2 stretches in water-storing device 200, and adjusts the position of level scale line 21, then opens tap 100, stores Water installations 200 start retaining；When in water-storing device 200, water level rises at floating installation 4, floating installation 4 starts with water level edge Second pipe 2 tube wall to fluctuate；When floating installation 4 floats at level scale line 21, the sensing position of proximity switch 5 Sense floating installation 4, proximity switch 5 generates induced signal and sends out in controller, and controller sends closing control to check valve 3 and refers to Order, check valve 3 is closed, and the water level in water-storing device 200 stops changing, and water-storing device 200 retaining terminates.

The present invention utilizes law of buoyancy and control principle to design described automatic anti-overflowing device, can be in unattended situation Under realize automatic anti-overflowing function, its high degree of automation, and can using on the basis of existing tap 100, practicality Stronger.

In order that when water-storing device 200 water level is relatively low tap 100 can automatic water supplement, the present invention is in another embodiment Level scale line on second pipe 2 tube wall is set to two, and the quantity of proximity switch 5 is set to two, and make every It is arranged with the sensing position of a proximity switch 5, wherein, two level scale lines are managed along second pipe 2 at bar level scale line The upper and lower interval setting of wall, the level scale line being in bottom is lowest water level graduation mark 25, and being in upper level scale line is Peak level graduation mark 24, refers to Fig. 3.Now, the control principle of described automatic anti-overflowing device is as follows:

1) floating installation 4 rises with water level, the proximity switch 5 at lowest water level graduation mark 25 and peak level graduation mark 24 Sensing position sense the floating situation of floating installation 4 in real time, and the induced signal being detected is sent out in controller；

2) carve when controller does not all receive the detection signal of proximity switch 5 and peak level at lowest water level graduation mark 25 The detection signal of proximity switch 5 at degree line 24, controller drives check valve 3 to open, and return to step 1)；

When controller receives the detection signal of proximity switch 5 at lowest water level graduation mark 25, controller drives only logical Valve 3 is opened, and return to step 1)；

When controller receives the detection signal of proximity switch 5 at peak level graduation mark 24, controller controls only logical Valve 3 cuts out, and return to step 1).

In this embodiment, described automatic anti-overflowing device can either prevent water-storing device 200 from spilling water phenomenon occurring, and energy Enough it is automatically replenished water in water-storing device 200 water shortage, its automaticity is higher, and practicality is preferable.

Described above is the detailed description for the preferable possible embodiments of the present invention, but embodiment is not limited to this Bright patent claim, the equal change being completed under the technical spirit suggested by all present invention or modification change, all should belong to In the covered the scope of the claims of the present invention.

Claims (8)

1. a kind of automatic anti-overflowing device, including the first pipeline, second pipe and check valve, described first pipeline one end is used for covering Connect the faucet outlet of outside, the other end connects one end of described second pipe, described check valve is located on the first pipeline； It is characterized in that: described second pipe tube wall is provided with level scale line；Described automatic anti-overflowing device also includes controller, floats Dynamic device and proximity switch；Described controller is arranged on the first pipeline or second pipe, and respectively with described check valve, connect Nearly switch connects；Described floating installation is arranged on second pipe, and can along the axis direction of described second pipe relatively Second pipe slides；Described proximity switch is arranged on second pipe, and its sensing position is located at described level scale line, and court To described floating installation place side；Described proximity switch is used for sensing the floating situation of floating installation, and described floating sensing Generate induced signal during dynamic device and send out in controller, described controller sends closing control further according to this induced signal to check valve Instruction.

2. automatic anti-overflowing device as claimed in claim 1 it is characterised in that: described first pipeline socket faucet outlet The internal diameter size of one end diminish along water (flow) direction.

3. automatic anti-overflowing device as claimed in claim 1 it is characterised in that: described second pipe be stretching structure.

4. automatic anti-overflowing device as claimed in claim 1 it is characterised in that: described floating installation be floating ring structure, described Floating ring is set on outside second pipe.

5. automatic anti-overflowing device as claimed in claim 4 it is characterised in that: described second pipe is away from the one of the first pipeline End lateral surface is provided with spacing preiection, and the outside dimension of described spacing preiection is more than floating ring internal diameter.

6. automatic anti-overflowing device as claimed in claim 1 it is characterised in that: described second pipe is provided with slide rail, described cunning Rail is arranged along second pipe axis direction, and extends to level scale line away from one end of the first pipeline from described second pipe Side；Described floating installation is arranged on slide rail.

7. automatic anti-overflowing device as claimed in claim 6 it is characterised in that: described floating installation includes kickboard, described floating Plate is located at outside second pipe, and its one end is slidably connected second pipe by described slide rail.

8. automatic anti-overflowing device as claimed in claim 1 it is characterised in that: described check valve be magnetic valve.