CN213369449U - Fish bowl overflow offal circulating device - Google Patents

Abstract

A fish tank overflow water circulation device belongs to the field of drainage and comprises a water suction pipe, a drain pipe, a communicating vessel, an auxiliary water pipe, a water inlet filter cover, a valve and a perforated pipe cap at the top end of the drain pipe, wherein the lower end of the water suction pipe is connected with the water inlet filter cover and is connected with one end with a high horizontal position of an opening of the communicating vessel; the communicating vessel is sealed by two bottoms, goes up the standpipe of side open-ended to and a connecting pipe is constituteed, and the connecting pipe extends to the bottom of standpipe separately, nevertheless remains the effluent space, forms a U type pipeline separately promptly, connects the standpipe side opening horizontal position that absorbs water the pipe and is higher than the standpipe side opening of connecting the water drainage pipe.

Description

Fish bowl overflow offal circulating device

Technical Field

The utility model relates to a field of fish bowl sewage circulating equipment especially relates to a fish bowl automatic control sewage circulating device.

Background

At present, more and more families choose to feed ornamental fishes, and water in the fish tank needs to be filtered to keep the water quality stable for a long time, so that the healthy life of fishes is guaranteed. The utility model relates to a what commonly used in the market has the upper filter, and the side is strained and is strained at the end, and the end is strained efficiency and is the highest, is the filtration mode of hobbyist's ideal of breeding fish, the utility model relates to a sewer circulation system that strains at the bottom of the fish bowl.

The related art can solve the simple siphon effect. The water is sucked into the bottom filter tank from the fish tank, but in the long-term operation process of the fish tank, the water can be changed and the fish tank can be washed, and uncertain factors such as power failure, power on and the like can be encountered.

The following 6 common problems, each of which has a serious impact on fish farming and even on property safety, are not negligible.

Firstly, the method comprises the following steps: in the prior art, when the water in the fish tank is changed (half or all of the water is pumped out, or when the device needs to be lifted out of the fish tank when the fish tank is cleaned), the water level is reduced, the water pipe sucks air, and no water is stored. When water is changed (or the fish tank is cleaned and filled with water), the water pump cannot be restarted when the power is supplied, so that the water filtered at the bottom is drained, the water pump runs idle and burns out, the water in the fish tank overflows when the fish tank is full, and floors, furniture and the like are damaged.

Secondly, the method comprises the following steps: in the prior art, after a water pump is powered on, the water level of the fish tank needs to rise by about 4-5 cm, and then siphon can be started again. Therefore, the water in the bottom filtering tank must be pumped out enough, and then the water level of the fish tank must be reserved with larger capacity to meet the requirement of opening the siphon for the water level of about 4-5 cm, so that the water storage quantity in the fish tank is small, only half of water can be contained, and the visual effect is poor. The water in the tank is less, which is not beneficial to the survival of ornamental fish and causes the waste of the fish tank, and the bottom filter also needs to occupy larger space.

Thirdly, the method comprises the following steps: in the prior art, after siphon is started, the size of the sewage in the water pipe needs to be adjusted with great patience, until the flow of the sewage is basically consistent with the flow of the water pumped by the water pump, a siphon effect can be stably formed, great patience and time are needed for adjustment, and the siphon is not beneficial to being used by novices.

Fourthly: in the prior art, when a water pump is powered off, siphonage cannot be cut off in time due to normal drainage of siphonage, so that water in the whole tank is sucked into the bottom filter tank, fish in the fish tank die without water, and the bottom filter tank is full of water and overflows to damage floors, houses and the like.

Fifth, the method comprises the following steps: in the prior art, when siphoning is generated, a large amount of water flows and a large number of pipelines are provided, so that large noise is generated, and the life of people is greatly influenced.

Therefore, new technology is urgently needed to change the technical problems, and the novel fish farming method is designed based on years of fish farming experience of the inventor through practice, and can solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a water circulating device under automatic control of a fish tank. The water discharging system of the fish tank can automatically stop discharging water after the power failure of the water pump, and automatically start the water discharging circulation effect after the power on of the water pump.

The device utilizes the water inlet of the sewer pipe to be arranged at the bottom of the fish tank, the water outlet is arranged in the bottom filtering cylinder, the water inlet is higher than the water outlet, an overflow siphon effect is formed, water is sucked into the bottom filtering cylinder, and meanwhile, the water pump at the other side pumps the water filtered at the bottom into the fish tank to form a circulating system for filtering water quality.

The utility model discloses the high integrated design of equipment uses the pipeline few, and the function is many, and is simple to use, easy maintenance. And simultaneously, the 5 common outstanding problems can be solved.

The equipment comprises 7 parts, a water suction pipe, a water discharge pipe, a communicating vessel, an auxiliary water pipe, a water suction port filter mantle, a valve and a pipe cap with a hole.

The water suction port of the water suction pipe is arranged at the bottom of the fish tank and is provided with the filter cover, so that small fish can be prevented from being sucked away. The upper end of the suction pipe is opened and is connected with a communicating vessel at one side.

The water outlet of the water drain pipe is arranged in the bottom cylinder, the lower end of the water drain pipe is provided with a valve for controlling the water flow speed, and the upper end of the water drain pipe is provided with a pipe cap with a hole for air inlet, so that the phenomenon that water in the pipe is sucked away when siphoning stops can be avoided, and the effect of secondary water drainage is influenced.

One end of the auxiliary water pipe is connected with the hole of the water discharge pipe cap, and the other end of the auxiliary water pipe is connected with the hole at the top of the water storage pipe in the communicating vessel cylinder.

The linker is sealed by two bottoms, go up the standpipe of side opening, and a connecting pipe is constituteed, the connecting pipe extends to the standpipe bottom separately, but remain out the water space, form a U type pipeline separately promptly, connect the standpipe opening horizontal position that absorbs water the pipe and be higher than the standpipe opening of connecting the drainage pipe, when the linker is full of water, the both ends water level of linker will keep balanced state, when the water level increases in the fish bowl, water flows into the fish bowl of linker in from the pipe that absorbs water one end, the outer drainage one end of jar can be discharged water at once and keep balanced state. In the prior art, the water draining device can be started only by a certain water level difference, and the water pump can pump water immediately without the water level difference. And the balance of upper and lower water is not required to be adjusted, and the water feeding speed of the water pump is ensured to be lower than the water discharging speed. The water pump pumps in more or less water, and the device can flow out more or less water.

The device can be suitable for water pumps with different flow rates to drain water in different modes.

If the difference between the water feeding speed and the water discharging speed of the water pump is large, the water level in the cylinder is stable and cannot rise, and the system drains water in an overflow mode.

If the difference between the water feeding speed of the water pump and the total water discharging speed of the device is not large, when the water level rises to the top of the water suction pipe and submerges the opening of the auxiliary water pipe, the auxiliary water pipe cannot suck air, and the whole system can form a siphon effect to discharge water at the maximum flow.

When the water level in the fish tank drops to the water stop level line after the water pump is powered off in daily life, water cannot flow into the communicating vessel, and then the water stops draining.

Drawings

Fig. 1 is a working principle diagram of the device of the present invention.

Fig. 2 is a schematic structural diagram of the device of the present invention.

Fig. 3 is a schematic structural diagram of a second embodiment of the device of the present invention.

1. The water-saving device comprises a water suction pipe, 2 a water discharge pipe, 3 a communicating vessel, 4 an auxiliary water pipe, 5 a water inlet filter cover, 6 a valve, 7 a pipe cap with a hole at the top end of the water discharge pipe, and 8 a water stop line.

Detailed Description

The following further description is made in conjunction with the accompanying drawings and embodiments.

The equipment comprises 7 parts, namely a water suction pipe 1, a water discharge pipe 2, a communicating vessel 3, an auxiliary water pipe 4, a water inlet filter cover 5, a valve 6 and a perforated pipe cap at the top end of the water discharge pipe 7.

Referring to the connection shown in fig. 2, the bottom end of the water suction pipe 1 is connected with the water inlet filter cover 5 and is connected with the high end of the side opening position of the water storage pipe of the communicating vessel 3, the lower end of the water discharge pipe 2 is connected with the valve 6, the upper end of the water discharge pipe is connected with the pipe cap 7 with holes, and is connected with the low end of the side opening position of the water storage pipe of the communicating vessel 3, one end of the auxiliary water pipe 4 is connected with the hole of the pipe cap 7 at the top end of the water discharge pipe 2.

The water storage pipe and the connecting pipe of the communicating vessel 3 can be normally used only if the sealing is good and the air is not leaked.

When the water pump is started for the first time, the water pump is started to pump water until the water level exceeds the stop water level line 8, and the water pump is continued to submerge the top of the water suction pipe, so that the water pump can be stopped. The valve 6 is closed, the pipe cap 7 at the top end of the drain pipe 2 is removed, water is filled into the tank until the tank is full, and then the pipe cap 7 is covered. At the moment, the hole of the pipe cap 7 is blocked to avoid air intake, the valve 6 is opened on the other side, water is discharged to form siphon water discharge, after the siphon is formed, the hole of the pipe cap 7 can be released, air is introduced, the siphon is disconnected, and then the first start is completed until the water overflows to the water stop level line 8.

And starting the water pump again, and checking whether the water level in the fish tank exceeds the stop water level line 8 to see whether the water overflows. If no overflow is formed, it indicates that there is a gas leakage, and it is necessary to check the seal and then start it.

To prior art when changing water, perhaps the water pump has a power failure problem when incoming telegram again, the utility model discloses a solution as follows: when the water level of the fish tank is about to stop the water level line 8 when the water is changed or the power is cut off, the water cannot continuously flow in, the water is drained, meanwhile, the water is filled in the communicating vessel 3, and the water can be drained again when the water level rises to exceed the stop line 8 after the water is changed or the power is turned on.

To prior art when siphon starts, need 4-5 centimetres high water level, and need patience adjusting valve flow, the problem of water balance about keeping, the utility model discloses a solution is as follows:

the device adopts the principle of the communicating vessel, the water levels at the two ends in the communicating vessel 3 are kept balanced all the time, as long as one end is used for water inflow, the other end is used for water drainage at once, therefore, the water in the fish tank can be pumped and flowed by the water pump without water level difference, the balance is not required to be adjusted, and the water feeding speed of the water pump is ensured to be less than the water discharging speed.

To current correlation technique after the start-up, because of the siphon flow is big, the problem of noise production, the utility model discloses a solution as follows: the utility model discloses integrated pipeline design, the pipeline is few, the pipe wall thickness, the great noise that has reduced of pipe cap opening part aperture simultaneously, the actual measurement noise is about 45 decibels.

The utility model discloses the second embodiment of the device has removed the vice water pipe 4 of first embodiment this equipment contains 6 parts, 1. the suction pipe, 2. the drain pipe, 3. the linker, 5. the water inlet filter mantle, 6. the valve, 7. the foraminiferous pipe cap on drain pipe top.

Referring to the connection shown in figure 3, the bottom end of the water suction pipe 1 is connected with a water inlet filter cover 5 and is connected with one end of the communicating vessel 3 with a high side opening position of the water storage pipe, the lower end of the water discharge pipe 2 is connected with a valve 6, the upper end of the water discharge pipe is connected with a pipe cap 7 with a hole, and is connected with one end of the communicating vessel 3 with a low side opening position of the water storage pipe.

The second embodiment is suitable for the situation that when the flow rate of the water pump and the flow rate and the speed of the device are greatly different, the water flow always keeps an overflow state and has all functions of the first embodiment.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (3)

1. A fish tank overflow water circulation device is characterized by comprising a water suction pipe, a water discharge pipe, a communicating vessel, an auxiliary water pipe, a water inlet filter cover, a valve and a perforated pipe cap at the top end of the water discharge pipe, wherein the lower end of the water suction pipe is connected with the water inlet filter cover and is connected with one end with a high horizontal position of an opening of the communicating vessel, the lower end of the water discharge pipe is connected with the valve, the upper end of the water discharge pipe is connected with the perforated pipe cap and is connected with one end with a low horizontal position of the opening of the communicating vessel, one end of the auxiliary water pipe is connected with a hole in the pipe cap at the;

the communicating vessel is sealed by two bottoms, goes up the standpipe of side open-ended to and a connecting pipe is constituteed, and the connecting pipe extends to the bottom of standpipe separately, nevertheless remains the effluent space, forms a U type pipeline separately promptly, connects the standpipe side opening horizontal position that absorbs water the pipe and is higher than the standpipe side opening of connecting the water drainage pipe.

2. The utility model provides a fish bowl overflow water circulating device, its characterized in that includes the pipe that absorbs water, the drain pipe, the linker, water inlet filter mantle, the valve, the foraminiferous pipe cap on drain pipe top, the lower termination of pipe that absorbs water is intake filter mantle to be connected with the high one end of linker side opening horizontal position, termination valve under the drain pipe, the upper termination foraminiferous pipe cap to be connected with the low one end of linker side opening horizontal position.

3. A water circulating device for overflow of aquarium as defined in claim 2, wherein said communicating means comprises two sealed bottom portions, a water storage tube with an open upper side, and a connecting tube extending to the bottom of each water storage tube while leaving a water outlet space, each forming a U-shaped pipe, the side opening of the water storage tube connected to the suction tube being positioned higher than the side opening of the water storage tube connected to the drainage tube.

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