Disclosure of Invention
The invention aims to solve the problems in the prior art and provides a water tank which is convenient to detach and install an oil-water separator.
The aim of the invention can be achieved by the following technical scheme: an environmentally friendly sink comprising: the washing device comprises a tank body with a washing plane, a downward concave washing area, a downward concave water falling area and an oil-water separator, wherein the bottom of the washing area is downward concave to form the water falling area, and the oil-water separator is detachably connected in the water falling area.
In the above-mentioned environment-friendly water tank, the oil-water separator is embedded in the water falling region.
In the above-mentioned environment-friendly water tank, a gap is formed between the bottom of the oil-water separator and the bottom of the water falling region.
In the above-mentioned environment-friendly water tank, a filter screen is disposed at the opening of the water falling region, wherein the filter screen may directly cover the bottom of the tank body, or be embedded at the opening of the water falling region, or be movably connected to the bottom of the tank body.
In the above-mentioned environmental protection type basin, oil water separator's both ends are provided with water inlet and delivery port respectively, and the water inlet is linked together with the area of falling into water, and the delivery port is linked together with the mouth of falling into water, wherein, is provided with the floating subassembly near water inlet department, is provided with the oil collecting tank near delivery port department, and is provided with a flow oil passageway between floating subassembly and oil collecting tank.
In the above-mentioned environment-friendly water tank, the oil drain port and the water outlet on the oil collecting tank are not on the same horizontal plane.
In the above-mentioned environmental protection type basin, the floating assembly includes the kicking block to and be located the upper stopper and the lower stopper of kicking block both sides, through upper stopper and lower stopper, the removal stroke of control kicking block.
In the above-mentioned environmental protection type basin, the oil water separator still includes an adjusting part, and wherein, upper stopper and lower stopper are installed respectively on adjusting part, and the kicking block reciprocates along adjusting part, adjusts the aperture between oil flow channel and the oil drain port and the aperture of delivery port through adjusting part.
In the above-mentioned environment-friendly water tank, the opening adjustment between the oil flow channel and the oil drain port is just opposite to the opening adjustment of the water outlet.
In the above-mentioned environmental protection type basin, adjusting part is including adjusting the total pole, and connect oil extraction adjusting part and the drainage adjusting part on adjusting the total pole, wherein, oil extraction adjusting part and drainage adjusting part parallel arrangement, and form similar wane structure between the two.
In the above-mentioned environmental protection type water tank, the oil extraction adjusting part includes oil extraction pole and oil extraction regulating piece, wherein, the one end of oil extraction pole links to each other with adjusting total pole, and the other end of oil extraction pole links to each other with the oil extraction regulating piece.
In the environment-friendly water tank, the length of the oil discharge regulating piece is matched with the maximum opening of the oil discharge port.
In the above-mentioned an environmental protection type water tank, the drainage adjusting part includes drainage pole and drainage adjusting piece, wherein, the one end of drainage pole links to each other with adjusting the total pole, and the other end of drainage pole links to each other with the drainage adjusting piece.
In the environment-friendly water tank, the length of the water drainage regulating piece is matched with the opening of the water outlet.
In the above-mentioned environment-friendly water tank, the oil-water separator further comprises a partition layer connected to the side wall of the oil collecting tank, wherein the partition layer is provided with a through hole penetrating through the partition layer, and the position of the through hole corresponds to the position of the oil drain port.
Compared with the prior art, the invention has the beneficial effects that:
(1) According to the environment-friendly water tank provided by the invention, the oil-water separator is positioned at the bottom of the washing area and is directly embedded in the water falling area, so that the installation and the taking of the oil-water separator are facilitated, the problem that a user bends or crouches to take the oil-water separator is solved, and the user can conveniently remove the oil collected in the oil-water separator.
(2) According to the oil-water separator, the floating component is communicated or blocks the oil flow channel, so that the water body and the oil in the sewage can be effectively separated, the oil content in the sewage discharged from a sewer is reduced, and the environmental protection effect is improved.
Detailed Description
The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.
As shown in fig. 1 and 2, the present invention provides an environment-friendly water tank, comprising: the tank body 100 with the washing plane 110 is concaved downwards to form a washing area 120, wherein the bottom of the washing area 120 is concaved downwards to form a water falling area 130, and an oil-water separator 200 is detachably connected in the water falling area 130, and further preferably, the oil-water separator 200 is embedded in the water falling area 130. Further preferably the intermediate bottom of the wash zone 120 is recessed to form a water fall zone 130
According to the environment-friendly water tank provided by the invention, the oil-water separator 200 is positioned at the bottom of the washing area 120 and is directly embedded in the water falling area 130, so that the installation and the taking of the oil-water separator 200 are facilitated, the problem that a user bends down or takes the oil-water separator 200 in a squatting manner is solved, and the user can conveniently remove the oil collected in the oil-water separator 200.
Preferably, as shown in fig. 1 and 2, a gap 300 is reserved between the bottom of the oil-water separator 200 and the bottom of the water falling region 130, when sewage enters the water falling region 130 at a high flow rate, the water in the sewage can pass through the gap 300 and cross the oil-water separator 200 to be discharged from the water falling opening in the water falling region 130, wherein, because the density of the oil is higher than that of the water, the oil floats on the water, when the water in the sewage passes through the oil-water separator 200 to be discharged from the water falling opening in the water falling region 130, the oil still floats on the periphery of the oil-water separator 200, and as the water level in the water falling region 130 drops, the water potential slows down, the oil floating on the water flows into the oil-water separator 200, so that the separation between the water in the sewage and the oil is realized, and in addition, the water entering the sewer from the oil opening has a small oil content, almost reaching a negligible place, so that the discharged water does not pollute the outside water quality, and the environmental protection performance of the water tank is improved.
Preferably, as shown in fig. 1 and fig. 2, a filter screen 400 is disposed at the opening of the water falling region 130, where the filter screen 400 may directly cover the bottom of the tank body 100, or be embedded in the opening of the water falling region 130, or be movably connected to the bottom of the tank body 100, so as to prevent macromolecular food residues or coal residues on kitchen tools from entering the water falling region 130 to affect the separation function of the oil-water separator 200, and improve the working efficiency and the separation effect of the oil-water separator 200.
Preferably, as shown in fig. 1 to 5, both ends of the oil-water separator 200 are respectively provided with a water inlet 210 and a water outlet 220, and the water inlet 210 is communicated with the water falling region 130, and the water outlet 220 is communicated with the water falling opening, wherein a floating assembly 230 is provided near the water inlet 210, a fuel collecting tank 240 is provided near the water outlet 220, and a fuel flowing channel 250 is provided between the floating assembly 230 and the fuel collecting tank 240.
The oil-water separator 200 in this embodiment is communicated with or blocks the oil flow channel 250 through the floating assembly 230, so that the water body and the oil in the sewage can be effectively separated, the oil content in the sewage discharged from the sewer is reduced, and the environmental protection effect is improved.
The working principle of the oil-water separator 200: when the flowing impact of the sewage is large, the floating assembly 230 moves upwards to block the oil flowing channel 250, so that the water body flows through the bottom gap 300 between the oil collecting tank 240 and the water falling area 130 and flows out of the water outlet 220 (water falling opening), and as the water body in the sewage is discharged, the water level at the water inlet 210 (in the water falling area 130) drops, so that the floating assembly 230 moves downwards to conduct the connection between the oil flowing channel 250 and the oil collecting tank 240, and the oil floating on the water body enters the oil collecting tank 240, so that the water body and the oil in the sewage are effectively separated.
Preferably, as shown in fig. 3 to 5, the oil drain 241 on the oil collecting tank 240 is not in the same level with the water outlet 220, and further preferably, the plane of the oil drain 241 on the oil collecting tank 240 is slightly higher than the plane of the water outlet 220, so that the water body and the oil quality in the sewage are more fully separated.
It is further preferable that, as shown in fig. 3 to 5, the floating assembly 230 includes a floating block 231, and upper and lower stoppers 232 and 233 located at both sides of the floating block 231, and the moving stroke of the floating block 231 is controlled by the upper and lower stoppers 232 and 233, thereby more reliably communicating or blocking the connection between the flow oil passage 250 and the oil drain 241 of the oil collecting tank 240. When the impact flow of the sewage is large, the floating block 231 moves upwards, contacts with the upper limiting block 232, and the upper limiting block 232 blocks the continuous upward movement of the floating block 231, at this time, the oil flowing channel 250 is not communicated with the oil drain port 241 on the oil collecting tank 240, namely, the oil flowing channel 250 and the oil drain port 241 are in a blocking state; when the floating block 231 slowly moves downwards along with the drop of the sewage level at the water inlet 210 and contacts with the lower limiting block 233, the continuous downward movement of the floating block 231 is blocked by the lower limiting block 233, and at this time, the oil flowing channel 250 is communicated with the oil draining port 241 on the oil collecting tank 240, so that the oil floating on the water body flows into the oil collecting tank 240, and the separation of the water body and the oil is completed. In addition, through the volume of the water falling area 130, the impact force of sewage in flowing is slowed down, so that the water body and the oil quality are effectively separated, the environment-friendly performance of the sewage is improved, and the problem of environmental pollution caused by untimely oil-water separation when sewage is discharged when the sewage flow is impacted greatly is solved.
Preferably, as shown in fig. 3 to 5, the oil-water separator 200 further includes an adjusting assembly 260, wherein the upper limiting block 232 and the lower limiting block 233 are respectively mounted on the adjusting assembly 260, and the floating block 231 moves up and down along the adjusting assembly 260, and the opening between the oil flowing channel 250 and the oil drain port 241 and the opening of the water outlet 220 are adjusted by the adjusting assembly 260. Further preferably, the opening adjustment between the oil flow channel 250 and the oil drain port 241 is opposite to the opening adjustment of the water outlet 220, when the opening between the oil flow channel 250 and the oil drain port 241 is minimum, i.e. the two are in a non-communication state, the opening of the water outlet 220 is maximum, so that the water body in the sewage is discharged as soon as possible; when the opening between the oil flow channel 250 and the oil drain port 241 is maximum, i.e. the oil drain port 241 is in a completely opened state, the opening of the water outlet 220 is minimum, and at this time, the oil in the sewage is discharged into the oil collecting tank 240 as quickly as possible, thereby completing the effective separation of the water body and the oil in the sewage. In addition, when the sewage flow is smaller, the opening between the oil drain channel 250 and the oil drain port 241 and the opening of the water outlet 220 can be respectively adjusted by the adjusting component 260, so that the oil quality can quickly enter the oil collecting tank 240, and the water body can be quickly discharged from the water outlet 220.
Further preferably, as shown in fig. 3 to 5, the adjusting assembly 260 includes an adjusting main rod 261, and an oil discharging adjusting part and a water discharging adjusting part connected to the adjusting main rod 261, wherein the oil discharging adjusting part and the water discharging adjusting part are arranged in parallel, and a similar rocker structure is formed between the two, that is, when the opening of the oil discharging opening 241 is changed from small to large, the opening of the water outlet 220 is changed from large to small.
Further preferably, as shown in fig. 3 to 5, the oil drain adjusting part includes an oil drain lever 262 and an oil drain adjusting piece 263, wherein one end of the oil drain lever 262 is connected to the adjusting total lever 261, and the other end of the oil drain lever 262 is connected to the oil drain adjusting piece 263. Further preferably, the length of the oil discharging adjusting plate 263 is matched with the maximum opening of the oil discharging port 241, when the oil flowing channel 250 is not communicated with the oil discharging port 241, i.e. the oil discharging adjusting plate 263 completely seals the oil discharging port 241, the oil-water mixture is prevented from being flushed into the oil collecting tank 240 together when the sewage impact flow is large, and therefore the water body and the oil in the oil-water mixture cannot be effectively separated.
Further preferably, as shown in fig. 3 to 5, the drain adjusting portion includes a drain lever 264 and a drain adjusting piece 265, wherein one end of the drain lever 264 is connected to the adjusting total lever 261 and the other end of the drain lever 264 is connected to the drain adjusting piece 265. Further preferably, the length of the drainage adjusting piece 265 is matched with the opening degree of the water outlet 220, when the impact flow rate of the sewage is large, the opening degree between the drainage adjusting piece 265 and the water outlet 220 is opened to the maximum, so that the water body in the sewage can be discharged as quickly as possible, the water level of the water inlet 210 is reduced, the floating block 231 moves downwards, the connection between the oil flowing channel 250 and the oil discharging port 241 is communicated, and the oil in the sewage is discharged into the oil collecting tank 240.
Further preferably, as shown in fig. 3 to 5, the oil-water separator 200 further includes a partition layer 270 connected to a side wall of the oil collecting tank 240, wherein a through hole 271 penetrating through the partition layer 270 is formed in the partition layer 270, and the position of the through hole 271 corresponds to that of the oil drain port 241, so that the on-off between the oil drain adjusting plate 263 and the through hole 271 is more reliable, and the oil-water separation effect is further improved.
The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.