Utility model content
The purpose of this utility model is the presence of the above problem in view of the prior art, it is proposed that one kind having relief function,
And can automatically quickly be discharged to the water body in sink groove body, and easy to operate outlet device.
The purpose of this utility model can be realized by following technical proposal:A kind of lower water with detection relief function
Device, including:It is installed on the shell of sink groove body bottom, there are one lifting mechanisms for setting in shell;Sensing mechanism, one end installation
In on the inner wall of sink groove body, the other end of sensing mechanism is electrically connected with a solenoid valve, wherein one end of solenoid valve passes through drawing
Lock is connected with lifting mechanism, and when the water level in sink groove body reaches sensing mechanism preset water level, solenoid valves, lifting is drawn
Lock so that lifting mechanism moves up, and the channel between sink groove body and sewer pipe is connected, and carry out Overflow drainage.
In a kind of above-mentioned outlet device with detection relief function, it is installed on the sensing machine of sink groove body inner wall one end
Structure is water level detecting portion, to monitor the water level in sink groove body in real time.
In a kind of above-mentioned outlet device with detection relief function, sensing mechanism is tightly attached to sink groove body including one
The Water immersion detector of inner wall, and the relay that is electrically connected with Water immersion detector, and respectively Water immersion detector, relay and
The power supply of solenoid valve power supply, wherein relay is electrically connected with the solenoid valve.
In a kind of above-mentioned outlet device with detection relief function, in two poles in parallel on circuit where solenoid valve
Pipe.
In a kind of above-mentioned outlet device with detection relief function, lifting mechanism includes being movably connected on shell
Fork, and the insertion chock plug that is used cooperatively with fork, wherein one end of fork is embedded in connection with zipper activity, and it is embedding to be inserted into chock plug
In liner loaded on shell.
In a kind of above-mentioned outlet device with detection relief function, there are one the fork settings of the one end that is connected with zipper
Opening and closing part.
In a kind of above-mentioned outlet device with detection relief function, there are one circular holes for setting on opening and closing part, with zipper
Balled end match, wherein the circular hole is spliced to form by two semi-circular arcs.
In a kind of above-mentioned outlet device with detection relief function, it is inserted into the bottom that chock plug activity is nested in liner,
Wherein, the center of liner at the bottom forms cavity to lower recess, as the embedded position for being inserted into chock plug.
It is wedge-like engagement between cavity and insertion chock plug in a kind of above-mentioned outlet device with detection relief function.
In a kind of above-mentioned outlet device with detection relief function, nested in liner there are one residual to collect food
The filter basket of slag or fruits and vegetables residue, wherein branch lid there are one being embedded in the open end of filter basket.
In a kind of above-mentioned outlet device with detection relief function, on the insertion chock plug of one end nested with cavity cooperation
There are one protrusions for setting, corresponding with the recess location of filter basket bottom rear.
In a kind of above-mentioned outlet device with detection relief function, be embedded in the side wall peripheral surface of zipper there are one
Pull rod, wherein connecting rod is screwed onto shell by one end of pull rod on the outwardly extending furcation of shell by rod nut
On body.
Compared with prior art, a kind of outlet device with detection relief function provided by the utility model, by water
There are one the sensing mechanisms of monitoring water level in real time to lead to when water level is up to or over preset water level for the inner wall setting of slot groove body
Solenoid valves are crossed, lifting mechanism is promoted to move up, the channel between sink groove body and sewer pipe is connected, realize automatic overflow row
Water avoids sink groove body from overflowing phenomenon, in addition, it is straight that the channel between sink groove body and sewer pipe is connected by outlet device
Diameter is larger, and quickly the water body in sink can be discharged into sewer pipe, to improve working efficiency, improves the safety of sink
Energy.
Specific implementation mode
It is specific embodiment of the utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further
Description, but the utility model is not limited to these examples.
As shown in Figure 1 to Figure 3, a kind of outlet device with detection relief function provided by the utility model, including:Installation
Shell 200 in 100 bottom of sink groove body, there are one lifting mechanisms 300 for setting in shell 200;Sensing mechanism 400, one end
It is installed on the inner wall of sink groove body 100, the other end of sensing mechanism 400 is electrically connected with a solenoid valve 500, wherein electromagnetism
One end of valve 500 is connected by zipper 600 with lifting mechanism 300, when the water level in sink groove body 100 reaches sensing mechanism 400
When preset water level, solenoid valve 500 is powered, and lifts zipper 600 so that lifting mechanism 300 moves up, and conducting sink groove body 100 is under
Channel between waterpipe, and carry out Overflow drainage.
A kind of outlet device with detection relief function provided by the utility model, passes through the inner wall in sink groove body 100
The sensing mechanism 400 of monitoring water level passes through solenoid valve when water level is up to or over preset water level in real time there are one being arranged
500 are powered, and lifting mechanism 300 is promoted to move up, and automatic overflow is realized in the channel between conducting sink groove body 100 and sewer pipe
Draining, avoids sink groove body 100 from overflowing phenomenon, in addition, being connected between sink groove body 100 and sewer pipe by outlet device
Channel diameter it is larger, quickly the water body in sink can be discharged into sewer pipe, to improve working efficiency, improve sink
Security performance.
Preferably, as shown in Figure 1 to Figure 3, the sensing mechanism 400 of 100 inner wall one end of sink groove body is installed on to examine for water level
Survey portion, to monitor the water level in sink groove body 100 in real time, it is preferable that opening of the water level detecting portion close to sink groove body 100
End so that in sink groove body 100 in water storage, can there are one the relatively large water storage space of volume, avoid premature drainage and
Influence the wash course of tableware or fruits and vegetables.It is further preferred that sensing mechanism 400 is tightly attached to sink groove body 100 including one
The Water immersion detector 410 (water level detecting portion) of inner wall, and the relay 420 that is electrically connected with Water immersion detector 410, and be respectively
The power supply 430 that Water immersion detector 410, relay 420 and solenoid valve 500 are powered, wherein relay 420 and 500 electricity of solenoid valve
Connection.
The operation principle of sensing mechanism 400:It is both provided with normally opened contact on Water immersion detector 410 and relay 420, works as water
When water body in slot groove body 100 does not soak or reach 410 position of Water immersion detector also, do not formed in sensing mechanism 400
Closed circuit does not have electric current to pass through in circuit, solenoid valve 500 is also at off-position at this time;With in sink groove body 100
Water level constantly rises, and when the water level in sink groove body 100 reaches 410 installation site of Water immersion detector, i.e., water body is partially submerged
When Water immersion detector 410, the normally opened contact on Water immersion detector 410 is closed at this time, a circuit is formed, so that relay
420 coils obtain electric, and the normally opened contact in relay 420 also becomes closed state at this time, and then solenoid valve 500 is powered, and lifting is drawn
Lock 600 so that lifting mechanism 300 moves up, and the discharge of water body is completed in the channel between conducting sink groove body 100 and sewer pipe.
It is further preferred that as shown in Figure 1 to Figure 3, a diode 440 in parallel on 500 place circuit of solenoid valve, by
In solenoid valve 500 power supply 430 be DC power supply 430, in its work (energized state), in the inside of solenoid valve 500
Will produce inductance on coil, and in order to eliminate inductance so that solenoid valve 500 can normal power on/off, can be in solenoid valve 500
Reversal connection one diode 440 in portion's to realize that lifting mechanism 300 is reliably moved up or fallen after rise, and then improves outlet device work
Reliability.
It is further preferred that as shown in Figure 1 to Figure 3, the installation of Water immersion detector 410 is with 100 back side of sink groove body (far from use
Family operates side) side wall on, relay 420, power supply 430 and solenoid valve 500 be installed on wall by fixed plate 450,
And with 410 the same side of Water immersion detector so that the front (side of user's operation) of sink groove body 100 is installed without structure, whole
Sink structure becomes compact, reasonable and clean.
Preferably, as shown in Figure 1 to Figure 3, lifting mechanism 300 includes the fork 310 being movably connected on shell 200, and
The insertion chock plug 320 being used cooperatively with fork 310, wherein one end of fork 310 is embedded in connection with 600 activity of zipper, is inserted into plug
First 320 in the liner 210 of shell 200.When solenoid valve 500 is powered, zipper 600 is lifted, fork 310 around with shell
The interconnecting piece of 200 connected one end rotates so that and the fork 310 of the one end that is connected with zipper 600 moves up, and chock plug 320 is inserted into rear touching,
So that touching chock plug is detached from liner 210, to the connection being connected between liner 210 and sewer pipe, that is, it is connected to sink groove body 100
Overflow drainage operation is realized in channel between sewer pipe.When solenoid valve 500 powers off, zipper 600 is by pine from and pushing
Fork 310 is rotated around the interconnecting piece of shell 200 again, to the touching for being detached from fork 310 and being inserted between chock plug 320, that is, is solved
The fork 310 of support except to(for) insertion chock plug 320 so that 320 automatic fall-back of chock plug is inserted into, to block liner 210 and lower water
Channel between pipeline blocks the channel between sink groove body 100 and sewer pipe, realizes the water storage in sink groove body 100.
In the present embodiment, pass through zipper 600, fork 310 and the linkage effect realization liner 210 being inserted between chock plug 320 and lower water
Connection between pipeline and blocking, convenient and reliable and mutual action transmission are completed by pure mechanic structure, reliably
Property it is higher, in addition, fork 310, be inserted into chock plug 320 structure it is relatively simple, it is easy to assembly, be less prone to action error, that is, lift
The reliability for rising mechanism 300 is higher.
It is further preferred that as shown in Figure 1 to Figure 3, there are one foldings for the setting of fork 310 of the one end that is connected with zipper 600
Portion 311, when zipper 600 is lifted, opening and closing part 311 is closed automatically, and locks zipper 600 so that fork 310 is in rotary course
In, the connection between zipper 600 and fork 310 does not depart from;When zipper 600 by pine from when, opening and closing part 311 automatically open, release
Constraint of the fork 310 for zipper 600, but the zipper 600 of the one end that is connected at this time with fork 310 is still in opening and closing part 311, it can
It rotates or moves automatically in opening and closing part 311, but opening and closing part 311 cannot be detached from, to directly improve zipper 600 and fork
Connection reliability between 310, and then reliability when fork 310 touches insertion chock plug 320 is improved indirectly.It is further excellent
Selection of land, there are one circular holes for setting on opening and closing part 311, match with the balled end of zipper 600, wherein the circular hole is by two and half
Circular arc is spliced to form, and when zipper 600 is lifted, two semi-circular arcs are spliced to form a full circle (circular hole), will draw
It locks in the circular hole one end of lock 600;When zipper 600 by pine from when, two semi-circular arcs separation, but two semi-circular arcs
Between gap be less than the diameter of 600 end of zipper so that 600 end of zipper can not flee from (disengaging) opening and closing part 311, into
And when zipper 600 is run repeatedly with fork 310, it does not need intermittent nested and is detached from, improve zipper 600 and fork 310
Between action transmit reliability.
It is further preferred that as shown in Figure 1 to Figure 3, being inserted into the bottom that 320 activity of chock plug is nested in liner 210, wherein
The center of 210 bottom of liner forms cavity 211 to lower recess, as the embedded position for being inserted into chock plug 320.It is further preferred that
It is wedge-like engagement between cavity 211 and insertion chock plug 320, realizes the unidirectional movement for being inserted into chock plug 320, avoids being inserted into chock plug 320
It under self gravitation effect, fits with 211 bottom of cavity, is unfavorable for being inserted into rising or falling for chock plug 320.Further preferably
Ground, the section structure setting in a circular table shape of cavity 211, wherein the opening direction of 211 big end size of cavity holds towards liner 210
Chamber, the opening direction of 211 small end size of cavity is towards fork 310;The section of the insertion chock plug 320 of one end nested with cavity 211
It is substantially in a circular table shape, wherein to be inserted into the opening direction of 320 big end size of chock plug towards 210 vessel of liner, it is small to be inserted into chock plug 320
Hold the opening direction of size towards fork 310, to the close patch realized 211 inner wall of cavity and be inserted between 320 outer wall of chock plug
It closes (contact of the face with face) so that when carrying out water storage in sink groove body 100, avoid occurring between liner 210 and insertion chock plug 320
Drainage, the leakproofness for improving liner 210 and being inserted between chock plug 320.
It is further preferred that as shown in Figure 1 to Figure 3, nested in liner 210 there are one collecting swill or fruit
The filter basket 220 of vegetable residue, i.e., logical filter basket 220 is filtered when draining sink groove body 100, by swill and fruit
Vegetable residue is collected in filter basket 220, it is avoided to enter sewer pipe, and leads to the blocking of sewer pipe, wherein in filter basket
220 open end is embedded, and there are one branch lids 230, on the one hand form double-filtration between filter basket 220, are on the other hand arranging
When water, avoids enter into the swill in filter basket 220 or fruits and vegetables residue and return to sink groove body 100 under the impact of water body
It is interior, form secondary pollution.It is further preferred that between shell 200, liner 210, filter basket 220 and branch lid 230 formed by
Outer and interior nested encryptions step by step in addition, there being gap between adjacent two layers grade, that is, pass through every layer of component openings convenient for assembling
Ring edge at end is achieved, i.e., lining component is nested and is held on outer part, i.e. 210 nesting of liner is held on shell
On body 200,220 nesting of filter basket is held on liner 210, and 230 nesting of branch lid is held on filter basket 220, is realized layer by layer
Nesting is shelved step by step.
It is further preferred that as shown in Figure 1 to Figure 3, coordinating with cavity 211 and being arranged on the insertion chock plug 320 of nested one end
There are one protrusions 321, corresponding with 221 position of recess portion of 220 bottom rear of filter basket, when insertion chock plug 320 is jacked up, keep away
The bottom for exempting from filter basket 220 is touched with by 320 phase of insertion chock plug under jack-up state, and is jacked up, and the mistake of filter basket 220 is reduced
Filter effect so that swill or fruits and vegetables residue are flowed into from gap of the filter basket 220 with liner 210, are then adsorbed in lift
It rises in mechanism 300, to influence reliability when lifting mechanism 300 uses.
It is further preferred that as shown in Figure 1 to Figure 3, a pull rod spherical surface nut is removably connected on branch lid 230
231, convenient for lifting branch lid 230.
Preferably, as shown in Figure 1 to Figure 3, it is provided with external screw thread on the shell 200 of 100 one end of sink groove body, works as shell
When body 200 is flush-mounted in the bottom of sink groove body 100, shell 200 is fixed on to the bottom of sink groove body 100 by fastening nut 240
Portion ensures 300 reliability of operation of lifting mechanism.
Preferably, as shown in Figure 1 to Figure 3, pull rod 700 there are one being embedded in the side wall peripheral surface of zipper 600, wherein
Connecting rod is screwed onto shell by one end of pull rod 700 on 200 outwardly extending furcation of shell by rod nut 710
On body 200, when zipper 600 is pulled by solenoid valve 500, its own (zipper 600) is in straightened condition always, without in
Way is bent, and then improves the reliability that transmission is acted between fork 310 and insertion chock plug 320.
The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute
Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar
Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.