CN112482513A - Environment-friendly washing basin capable of saving and recycling water resources - Google Patents

Abstract

The invention provides an environment-friendly washing basin capable of saving and recycling water resources, and relates to the field of environment-friendly equipment. This environmental protection type of can water economy resource and recycling is with washing pond through overflow pipe, water receiving pipe and water receiving tank cooperation, will spill over the water of the basin body and collect, plays the effect of using water wisely. The piston block is pushed to rise by the electric push rod, and part of water in the water receiving tank is sprayed out through the water discharging channel. And then the residual water in the water receiving tank is discharged by utilizing the siphon effect through the mutual matching of the drainage channel, the overflow pipe, the piston block and the one-way valve by means of the siphon principle, so that the whole wash basin is cleaned, and the effect of recycling water resources is achieved. Avoid the waste of water resource, play the effect of environmental protection.

Description

Environment-friendly washing basin capable of saving and recycling water resources

Technical Field

The invention belongs to the technical field of environment-friendly equipment, and particularly relates to an environment-friendly wash basin capable of saving and recycling water resources.

Background

Wash basins, also called wash basins, which are vessels used for washing hands or faces, are often found in toilets and are often used for daily personal hygiene cleaning of people.

A prior patent (publication No. CN107338834B) discloses a lavatory basin, which comprises a basin body, wherein a water storage cavity is arranged on the top surface of the basin body, a drain hole is arranged at the bottom of the water storage cavity, an overflow hole is arranged at the upper part of the side wall of the water storage cavity, a drainage channel is arranged in the basin body, the bottom of the drainage channel is communicated with the drain hole, and the top of the drainage channel is communicated with the overflow hole.

However, the above-mentioned device still has some disadvantages, and in the using process of the above-mentioned device, if the user uses improperly, the water level exceeds the limit, the water may overflow the wash basin, and cause the influence to the surrounding environment of the wash basin. When the overflow of the pool body exceeds the limit, the overflow water can not be recycled and reused by the washing pool, and the redundant water can directly enter a sewer, thereby causing a great deal of water resource waste. In the application process of the washing basin at ordinary times, someone can wash the mop or pour the tea into the washing basin. Therefore, the wash basin often has some impurities left in the wash basin. Therefore, the washing basin needs to be additionally injected with water in the cleaning process, and the use of water resources is increased.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an environment-friendly wash basin capable of saving and recycling water resources, and solves the problems that the existing wash basin in the background art is improper to use, can move out of the wash basin when the water level exceeds the limit, and can not recover the water overflowing from the wash basin, so that the water is wasted.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a can water economy resource and environmental protection type wash basin for recycling, includes the basin body, water receiving tank and water receiving pipe, the spillway hole has been seted up at the basin body back, and the water receiving tank is established in basin body bottom, basin body, water receiving tank bottom central authorities link up the water supply and discharge, and water receiving pipe one end is connected with basin body spillway hole, and the water receiving pipe other end communicates with the water receiving tank, a plurality of water drainage channels have been seted up around axis equiangular, and a plurality of wash ports have been seted up at water receiving tank top, and the water drainage channel lower extreme is corresponding with the wash port, and the.

The water receiving tank is internally provided with a piston block, the piston block is in contact with the inner wall of the water receiving tank, the piston block can slide up and down, the bottom of the water receiving tank is provided with a first electric push rod, the movable end of the first electric push rod penetrates through the water receiving tank and extends into the water receiving tank, the movable end of the first electric push rod can be in contact with the bottom of the piston block, and one side of the pot body is provided with a single chip microcomputer for controlling various electronic parts to work.

Preferably, the basin body symmetry all around is equipped with a plurality of warning pipes, and the turn-ups is passed to the warning pipe upper end, and the warning pipe lower extreme communicates with the water receiving tank, be equipped with one-way valve block one in the warning pipe, the warning pipe passes through one-way valve block one and only allows water to flow down, the drain upper end is equipped with the straightway of downwarping, is equipped with one-way valve block two in the straightway, and the drain passes through two permission water of one-way valve block and discharges from the upper end, the warning pipe top is higher than the drain top, and warning pipe and drain can produce the siphon effect.

Preferably, the piston piece top is equipped with the rubber circle, rubber circle and the contact of water receiving tank inner wall, the equal angle in piston piece bottom is equipped with a plurality of springs, the spring lower extreme is connected with water receiving tank inner wall bottom, and the piston piece is located the two-thirds department of water receiving tank internal height when electric push rod one extends the longest, forms siphon effect through overflow pipe and water drainage way this moment and discharges the remaining water in the water receiving tank.

Preferably, the bottom of the piston block is provided with a power supply, the bottom of the piston block is provided with two conducting strips, the conducting strips are electrically connected with the power supply, the bottom of the inner wall of the water receiving tank is provided with a conducting strip, the piston block is connected with a lead, the lead penetrates through the water receiving tank and is connected with a warning lamp, when the piston block descends to the lowest point, the conducting strip is located between the two conducting strips, and the conducting strip is in contact with the conducting strips to close the electric loop so as to light the warning lamp.

Preferably, the upper end of the water receiving pipe is connected with a filter screen, and the filter screen is used for preventing large impurities from entering the water receiving pipe to cause blockage.

Preferably, the top of the pot body is provided with a top edge, and the surface of the top edge is provided with an arc shape.

(III) advantageous effects

The invention provides an environment-friendly wash basin which can save water resources and can be reused. The method has the following beneficial effects:

1. this environmental protection type of can water economy resource and recycling is with washing pond through overflow pipe, water receiving pipe and water receiving tank cooperation, will spill over the water of the basin body and collect, plays the effect of using water wisely. The piston block is pushed to rise by the electric push rod, and part of water in the water receiving tank is sprayed out through the water discharging channel. And then the residual water in the water receiving tank is discharged by utilizing the siphon effect through the mutual matching of the drainage channel, the overflow pipe, the piston block and the one-way valve by means of the siphon principle, so that the whole wash basin is cleaned, and the effect of recycling water resources is achieved. Avoid the waste of water resource, play the effect of environmental protection.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a perspective view of another perspective of the structure of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at A according to the present invention;

FIG. 4 is a cross-sectional view of the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4 at B in accordance with the present invention;

FIG. 6 is an internal view of the water tank of the present invention;

FIG. 7 is a view showing another angle inside the water tank structure according to the present invention;

FIG. 8 is an internal view of the water receiving tube of the present invention;

fig. 9 is a partial structural schematic view of the water receiving pipe structure of the present invention.

In the figure: 1, a basin body, 11 flanging, 12 overflow pipes, 121 one-way valve plates I, 13 drainage channels, 14 one-way valve plates II, 15 top edges, 2 water receiving tanks, 21 piston blocks, 22 rubber rings, 23 springs, 24 drainage holes, 25 power supplies, 26 conducting strips, 27 conducting blocks, 3 water receiving pipes, 31 filter screens, 32 baffle plates, 321 filter holes, 33 jacks, 34 rubber valves, 4 electric push rods I, 5 leads, 6 singlechips, 61 warning lamps, 7 electric push rods II, 8 dust collectors, 81 suction pipes, 9 motors and 10 ball valves.

Detailed Description

The embodiment of the invention provides an environment-friendly wash basin capable of saving and recycling water resources, which comprises a basin body 1, a water receiving tank 2 and a water receiving pipe 3, wherein the back of the basin body 1 is provided with an overflow hole, and the water receiving tank 2 is welded at the bottom of the basin body 1, as shown in figures 1-9. The center of the bottoms of the pot body 1 and the water receiving tank 2 is communicated with the water supply and discharge. One end of the water receiving pipe 3 is welded and communicated with the overflow hole of the pot body 1, and the other end of the water receiving pipe 3 is welded and communicated with the water receiving tank 2. A plurality of water drainage channels 13 are formed in the basin body 1 at equal angles around the axis, a plurality of water drainage holes 24 are formed in the top of the water receiving tank 2, and the lower ends of the water drainage channels 13 correspond to the water drainage holes 24. The upper end of the drainage channel 13 penetrates through the inner wall of the pot body 1. During operation, water in the basin body 1 is accumulated, flows into the receiving pipe 3 when the water level reaches the overflow hole, and leads overflowed water into the water receiving tank 2 through the water receiving pipe 3.

A piston block 21 is arranged in the water receiving tank 2 in a sliding fit mode, the piston block 21 is in contact with the inner wall of the water receiving tank 2, and the piston block 21 can slide up and down. An electric push rod 4 is fixedly mounted at the bottom of the water receiving tank 2, a movable end of the electric push rod 4 penetrates through the water receiving tank 2 and extends into the water receiving tank 2, the movable end of the electric push rod 4 can be in contact with the bottom of the piston block 21, and a single chip microcomputer 6 for controlling various electronic parts to work is fixedly mounted on one side of the pot body 1. When the water-saving air-purifying device works, the first electric push rod 4 pushes the piston block 21 to rise, so that water in the space above the piston block 21 is always in a saturated state, and air above the piston block 21 is avoided. During operation, overflowed water flows to the water receiving pipe 3 through the overflow hole and then flows into the water receiving tank 2 through the water receiving pipe 3, and water is accumulated above the piston block 21 and continuously accumulated with the water to increase the weight so as to lower the piston block 21.

A plurality of overflow pipes 12 are symmetrically welded around the basin body 1, the upper ends of the overflow pipes 12 penetrate through the turned edges 11, and the lower ends of the overflow pipes 12 are welded and communicated with the water receiving tank 2. A one-way valve plate I121 is hinged in the overflow pipe 12, and the overflow pipe 12 only allows water to flow downwards through the one-way valve plate I121. It follows that the overflow pipe 12 allows only water to flow in. The upper end of the water discharge channel 13 is provided with a downward bent straight line section, a one-way valve plate II 14 is hinged in the straight line section, and the water discharge channel 13 only allows water to be discharged from the upper end through the one-way valve plate II 14. The top end of the overflow pipe 12 is higher than the top end of the drain channel 13. The second check valve plate 14 is used for preventing foreign matters from entering from the upper end of the drain channel 13.

The overflow pipe 12 plays a role in assisting in receiving overflowed water, when handkerchiefs and towels are washed in the basin body, the drain holes of the basin body 1 are closed, water in the basin body 1 is accumulated continuously at the moment, the water level of the water flowing out of the basin body 1 is caused to exceed the drainage speed of the overflow holes, and at the moment, part of the water flowing out of the basin body 1 enters the overflow pipe 12 when the water passes through the turned-over edge 11. During operation, the piston block 21 rises to extrude the water in the receiving box 2 and flows out along the inner wall of the pot body 1 through the drainage channel 13, thereby achieving the effect of cleaning the inner wall of the pot body 1.

The matching of the overflow pipe 12 and the drainage channel 13 can generate siphon effect, and in the operation process, the electric push rod I4 extends to push the piston block 21 to ascend, and the water in the water receiving tank 2 flows to the overflow pipe 12 and the drainage channel 13 simultaneously with the combination of the attached drawings 4 and 5. However, due to the existence of the one-way valve sheet I121, water in the overflow pipe 12 cannot flow out from the upper end, so that the water flows out along the drainage channel 13, and the overflow pipe 12, the drainage channel 13 and the space above the piston block 21 are filled with water and have no air. When the electric push rod 4 extends to the longest, the piston block 21 is positioned at two thirds of the inner height of the water receiving tank 2. At this time, although the electric push rod one 4 can not be extended, the water flows out of the drainage channel before, and the liquid level inside the overflow pipe 12 is higher than that inside the drainage channel 13. Thereby producing a siphon effect and enabling the water in the water receiving tank 2 to flow out.

And the piston block 21 is further lifted by the suction force, and the spring 23 is elongated. The piston block 21 is driven to rise continuously by the suction force, thereby ensuring that the water is always filled in the overflow pipe 12, the drain channel 13 and the space above the piston block 21. Thereby ensuring that the siphoning effect continues. This makes it possible to discharge the remaining water in the water receiving tank 2 by the siphon effect of the overflow pipe 12 and the drain channel 13.

When the piston block 21 contacts with the top of the inner wall of the water receiving tank 2, the siphon effect is not generated. The spring 23, which loses its suction force, contracts due to its extension, and the spring 23 moves the piston block 21 down. The water in the overflow pipe 12 flows back to the water receiving tank 2. When the spring 23 is reset, the piston block 21 descends to the lower part of the water receiving pipe 2.

The ball valve 10 is pivoted in the lower end of the water receiving pipe 3, the motor 9 is fixedly mounted below the water receiving pipe 3, and a transmission shaft of the motor 9 penetrates through the water receiving pipe 3 and is welded with the ball valve 10. The motor 9 drives the ball valve 10 to rotate, thereby controlling the water receiving pipe 2 to be unblocked or closed. When the water receiving box 2 is in work, the water receiving pipe 3 is in a smooth state when water is needed to be received, and when water in the water receiving box 2 is needed to be discharged, the motor 9 is used for driving the ball valve 10 to rotate so as to block the water receiving pipe 3. Thereby preventing water in the water receiving tank 2 from flowing to the water receiving pipe 3.

The ball valve 10 and the motor 9 constitute a valve mechanism, and since this is prior art, the specific structure, shape, and the like are the same as those of the conventional prior art and will not be described in detail.

The top of the water receiving tank 21 is fixedly bonded with a rubber ring 22, the rubber ring 22 is in contact with the inner wall of the water receiving tank 2, and the rubber ring 22 is used for preventing water from leaking downwards. A plurality of springs 23 are welded at the bottom of the piston block 21 at equal angles, and the lower ends of the springs 23 are welded with the bottom of the inner wall of the water receiving tank 2.

The power supply 25 is fixedly installed at the bottom of the piston block 21, two conducting strips 26 are welded at the bottom of the piston block 21, and the conducting strips 26 are electrically connected with the power supply 25. The bottom of the inner wall of the water receiving box 2 is welded with a conductive block 27, and the piston block 21 is electrically connected with a lead 5. Wire 5 passes water receiving tank 2 electric connection and has warning light 61, and warning light 61 fixed mounting is on singlechip 6. When the piston block 21 descends to the lowest point, the conductive block 27 is located between the two conductive sheets 26, and the conductive block 27 contacts the conductive sheets 26 to close the electric circuit, so that the warning lamp 61 is turned on. The warning lamp 61 is turned on to inform a cleaner that the water tank 2 is full of water.

The welding of 3 upper ends of water receiving pipe has filter screen 31, and filter screen 31 is used for preventing that large-scale impurity from getting into and causing the jam in the water receiving pipe 3.

The top of the pot body 1 is welded with a top edge 15, and the surface of the top edge 15 is provided with an arc shape. The water accumulation of the pot body 1 is slightly improved by the top edge 15.

Compared with the prior art, this environmental protection that can the water economy resource and recycle is with type wash basin through overflow pipe 12, water receiving pipe 3 and the cooperation of water receiving tank 2, will spill over the water of the basin body 1 and collect, plays the effect of using water wisely. The piston block 21 is pushed to rise by the first electric push rod 4, and water in the water receiving tank 2 is sprayed out through the water discharge channel 13. And then by means of the siphon principle, the residual water in the water receiving tank 2 is discharged by utilizing the siphon effect through the mutual matching of the drainage channel 13, the overflow pipe 12, the piston block 21 and the one-way valve I121, so that the whole wash basin is cleaned, and the effect of recycling water resources is achieved. Avoid the waste of water resource, play the effect of environmental protection.

A plurality of baffle plates 32 are welded in the water receiving pipe 3, and the baffle plates 32 are arranged at equal intervals along the length direction of the water receiving pipe 3. The baffle 32 is provided with a plurality of filtering holes 321, and the baffle 32 filters the fine particle impurities through the filtering holes 321. The back of the water receiving pipe 3 is provided with a plurality of jacks 33, and the jacks 33 correspond to the baffle plates 32 one by one. A plurality of rubber valves 34 are fixedly adhered in the insertion hole 33 at equal angles around the axis, and the rubber valves 34 are mutually butted to seal the insertion hole 33. The plug holes 33 are blocked by the mutual extrusion and interference of the rubber valves 34, and water leakage is prevented.

The back of the water receiving pipe 3 is fixedly provided with a second electric push rod 7 through a support, the movable end of the second electric push rod 7 faces the water receiving pipe 3 and is welded with a dust collector 8, a plurality of suction pipes 81 are welded on the dust collector 8, the suction pipes 81 correspond to the insertion holes 33 one to one, the suction pipes 81 can penetrate through the insertion holes 33 and are inserted into the water receiving pipe 3, and the dust collector 8 draws out tiny particles through the suction pipes 81. The vacuum cleaner 8 is similar to a conventional vacuum cleaner, and the detailed structure, circuit connection, and the like are the same as those of the related art and will not be described in detail since they are the related art.

Through setting up filter screen 31 in 3 upper ends of water receiving pipe, carry out prefilter to the water that gets into water receiving pipe 3, filter large granule impurity. Then, a plurality of baffle plates 32 are arranged in the water receiving pipe 3, so that the filtering holes 321 of the baffle plates 32 are subjected to multiple times of filtering, and tiny particle impurities are screened out. Realize many times filtering in order to guarantee that the water that gets into in the water receiving tank 2 can not have the granule. Thereby ensuring that the water is not blocked by the presence of impurities when being discharged from the water discharge passage 13.

After the dust collector 8 absorbs the tiny particle impurities, the lower end of the dust collector 8 is opened to pour out the impurities. And due to the existence of the rubber valve 34, the suction pipe 81 is inserted into the insertion hole 33, and the rubber valve 34 tightly wraps the surface of the suction pipe 81 to prevent impurities from falling out. The member is used when the sink is not in use. The single chip microcomputer 6 is electrically connected with each electronic part, and because the single chip microcomputer 6 is fixedly provided with a control button, the specific structure, the circuit arrangement and the like are the same as those of the prior art and are not described in detail as the conventional technical means.

In conclusion, the environment-friendly washing basin capable of saving and recycling water resources collects water overflowing the basin body 1 through the matching of the overflow pipe 12, the water receiving pipe 3 and the water receiving tank 2, and plays a role in saving water. The piston block 21 is pushed to rise by the first electric push rod 4, and water in the water receiving tank 2 is sprayed out through the water discharge channel 13. And then by means of the siphon principle, the residual water in the water receiving tank 2 is discharged by utilizing the siphon effect through the mutual matching of the drainage channel 13, the overflow pipe 12, the piston block 21 and the one-way valve I121, so that the whole wash basin is cleaned, and the effect of recycling water resources is achieved. Avoid the waste of water resource, play the effect of environmental protection.

And, through set up filter screen 31 in 3 upper ends of water receiving pipe, carry out prefilter to the water that gets into water receiving pipe 3, filter large granule impurity. Then, a plurality of baffle plates 32 are arranged in the water receiving pipe 3, so that the filtering holes 321 of the baffle plates 32 are subjected to multiple times of filtering, and tiny particle impurities are screened out. Realize many times filtering in order to guarantee that the water that gets into in the water receiving tank 2 can not have the granule. Thereby ensuring that the water is not blocked by the presence of impurities when being discharged from the water discharge passage 13.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An environmental protection type wash basin that can water economy resource and recycle, its characterized in that: the flowerpot comprises a pot body (1), a water receiving tank (2) and a water receiving pipe (3), wherein an overflow hole is formed in the back of the pot body (1), the water receiving tank (2) is arranged at the bottom of the pot body (1), the center of the bottom of the pot body (1) and the center of the bottom of the water receiving tank (2) are communicated with water supply and discharge, one end of the water receiving pipe (3) is connected with the overflow hole of the pot body (1), the other end of the water receiving pipe (3) is communicated with the water receiving tank (2), a plurality of drainage channels (13) are formed in the pot body (1) at equal angles around an axis, a plurality of drainage holes (24) are formed in the top of the water receiving tank (2), the lower ends of the drainage channels (;

be equipped with piston piece (21) in water receiving tank (2), piston piece (21) and water receiving tank (2) inner wall contact, piston piece (21) can slide from top to bottom, and water receiving tank (2) bottom is equipped with electric push rod (4), and electric push rod (4) expansion end passes water receiving tank (2) and stretches into in water receiving tank (2), and electric push rod (4) expansion end can contact bottom piston piece (21), basin body (1) one side is equipped with singlechip (6) of the work of the various electronic component of control.

2. The environment-friendly wash basin as claimed in claim 1, wherein the wash basin is capable of saving water and recycling, and is characterized in that: basin body (1) symmetry all around is equipped with a plurality of warning pipes (12), and turn-ups (11) are passed to warning pipe (12) upper end, warning pipe (12) lower extreme and water receiving tank (2) intercommunication, be equipped with one-way valve block (121) in warning pipe (12), warning pipe (12) only allow water to flow down through one-way valve block (121), drainage (13) upper end is equipped with the straightway of downwarping, is equipped with one-way valve block two (14) in the straightway, and drainage (13) only allow water to follow the upper end through one-way valve block two (14) and discharge, warning pipe (12) top is higher than drainage (13) top, and warning pipe (12) and drainage (13) can produce the siphon effect.

3. The environment-friendly wash basin as claimed in claim 2, wherein the wash basin is capable of saving water and recycling, and is characterized in that: piston piece (21) top is equipped with rubber circle (22), rubber circle (22) and water receiving tank (2) inner wall contact, piston piece (21) bottom is the equal angle and is equipped with a plurality of springs (23), spring (23) lower extreme is connected with water receiving tank (2) inner wall bottom, and piston piece (21) are located water receiving tank (2) internal height's two-thirds department when electric push rod (4) extend the longest, forms siphon effect through overflow pipe (12) and water drainage (13) this moment and discharges remaining water in water receiving tank (2).

4. The environment-friendly wash basin as claimed in claim 3, wherein the wash basin is capable of saving water and recycling, and is characterized in that: piston piece (21) bottom is equipped with power (25), and piston piece (21) bottom is equipped with two conducting strips (26), conducting strip (26) and power (25) electric connection, water receiving tank (2) inner wall bottom is equipped with conducting strip (27), and piston piece (21) are connected with wire (5), and wire (5) pass water receiving tank (2) and are connected with warning light (61), and conducting strip (27) are located between two conducting strips (26) when piston piece (21) descends to the minimum, and conducting strip (27) and conducting strip (26) contact make electric circuit closure make warning light (61) light.

5. The environment-friendly wash basin as claimed in claim 1, wherein the wash basin is capable of saving water and recycling, and is characterized in that: the upper end of the water receiving pipe (3) is connected with a filter screen (31), and the filter screen (31) is used for preventing large impurities from entering the water receiving pipe (3) to cause blockage.

6. The environment-friendly wash basin as claimed in claim 1, wherein the wash basin is capable of saving water and recycling, and is characterized in that: the top of the pot body (1) is provided with a top edge (15), and the surface of the top edge (15) is provided with an arc shape.

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