CN203407345U

CN203407345U - Combined structure of water feeding and discharging pipes of fish pond

Info

Publication number: CN203407345U
Application number: CN201320422642.1U
Authority: CN
Inventors: 杜帅群; 王洪军
Original assignee: Hydrochina Guiyang Engineering Corp
Current assignee: PowerChina Guiyang Engineering Corp Ltd
Priority date: 2013-07-16
Filing date: 2013-07-16
Publication date: 2014-01-29
Anticipated expiration: 2023-07-16

Abstract

The utility model discloses a combined structure of water feeding and discharging pipes of a fish pond. The combined structure comprises a fish pond, and a water feeding pipe and an emptying main pipe which are communicated with the fish pond, wherein the emptying main pipe is connected with the fish pond by a water discharging opening; the emptying main pipe is communicated with an air exhausting pipe; the emptying main pipe is communicated with the upper part of the air exhausting pipe by a water level control pipe; a water feeding valve is arranged at the upper end of the water feeding pipe; a water discharging valve is arranged on a part of the emptying main pipe between the air exhausting pipe and the water level control pipe. With the adoption of the combined structure, perpetual automatic control can be realized on the highest water level of the fish pond and manual adjustment or watching is not needed. A water discharging pipe is thicker than the water feeding pipe so as to ensure that inlet water is smaller than discharged water and a condition that water in the fish pond overflows and fish escapes does not occur; meanwhile, water in the fish pond can be exchanged and cleaned continuously and is enriched with oxygen; the combined structure is convenient to operate and facilitates post-period operation and maintenance. According to the combined structure, manual operation is simplified completely to reduce the investment of production equipment and reduce the operation cost; the combined structure has obvious economic benefits and good adaptability.

Description

A kind of fishpond intake-discharge pipe combining structure

Technical field

The utility model relates to a kind of fishpond intake-discharge pipe combining structure, belongs to Hydraulic and Hydro-Power Engineering technical field.

Background technology

Development along with economic technology, modern fish multiplication, cultivation project are applied wide on water conservancy, water power, agriculture and animal husbandry, Municipal Industry market, traditional pond, pool formula structure can not meet the requirement of this systematization production management pattern, particularly at fingerling, fish for, aspect fishpond emptying cleaning, water body disinfection, water level control, labor intensive, material resources and man-hour.This long-term repeated labor has also caused very large waste economically, has increased aquaculture cost and input.

Utility model content

In order to address the above problem, the utility model provides a kind of fishpond intake-discharge pipe combining structure, by the principle of hydraulics U-shaped pipe and tandem tube, has both met control fishpond water level constant below peak level, meets fishpond emptying requirement simultaneously.

The utility model is achieved by following technical solution.

A kind of fishpond intake-discharge pipe combining structure, comprise water inlet pipe and emptying supervisor that Ji Yu fishpond, fishpond is communicated with, described emptying supervisor is connected with fishpond by discharge outlet, on emptying supervisor, is communicated with blast pipe, emptying supervisor, is communicated with by water level control pipe with blast pipe top.

Described water inlet pipe upper end is provided with inlet valve.

Described emptying supervisor is provided with water discharging valve in position between blast pipe and water level control pipe.

The interface of described water level control pipe and blast pipe is arranged on limiting water level elevation place.

Described blast pipe, water level control pipe and emptying supervisor's caliber is all greater than the caliber of water inlet pipe.

After described water level control pipe and emptying supervisor's tie point should be positioned at the control section of water discharging valve.

Described discharge outlet is arranged on the bottom in fishpond.

The beneficial effects of the utility model are:

Compared with prior art, the utility model makes full use of existing structure and carries out fishpond operational management, reduces investment outlay and operating cost.First, fishpond peak level is realized permanent control automatically, without manual adjustment or guard.And drainpipe slightly just can guarantee that compared with water inlet pipe water inlet is less than water outlet, and fishpond the situation that spilling water is escaped fish can not occur, and simultaneously can guarantee that water body uninterruptedly exchanges in the fishpond in, clean, to contain oxygen abundant.This structure only, by a valve regulation and control draining, is saved space and material, and operation is convenient, is convenient to later stage operation and maintenance.The utility model by simplifying manual operation, does not need power supply completely, has saved greatly cost of labor, has reduced production equipment input, has reduced operating cost, has significant economic benefit and good adaptability.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

In figure: 1-fishpond, 2-water inlet pipe, 3-blast pipe, 4-water level control pipe, the emptying supervisor of 5--, 6-inlet valve, 7-water discharging valve, 8-discharge outlet.

Embodiment

Below in conjunction with accompanying drawing, further describe the technical solution of the utility model, but described in claimed scope is not limited to.

As shown in Figure 1, a kind of fishpond described in the utility model intake-discharge pipe combining structure, comprise fishpond 1 and the water inlet pipe 2 being communicated with fishpond 1 and emptying supervisor 5, described emptying supervisor 5 is connected with fishpond 1 by discharge outlet 8, on emptying supervisor 5, be communicated with blast pipe 3, between emptying supervisor 5 and blast pipe 3, by water level control pipe 4, be communicated with.

Described water inlet pipe 2 upper ends are provided with inlet valve 6.By inlet valve 6 and water inlet pipe 2, control fishpond 1 water-filling, change water, flowing water oxygenation.At fishpond 1 water-filling, change in water, flowing water oxygenation process, when water level reaches limiting water level, by being connected to water level control pipe on blast pipe 3 and emptying supervisor 54, discharge the unnecessary water yield, prevent that fishpond 1 spilling water from escaping fish.

On described emptying supervisor 5, between blast pipe 3 and water level control pipe 4, be provided with water discharging valve 7.Emptying and the limiting water level of controlling pond 1 by emptying supervisor 5 and water discharging valve 7 discharges water below, and the effluent of 1, fishpond all imports sewage disposal system by emptying supervisor 5 and concentrates discharge.Because water discharging valve 7 is arranged on evacuated tube supervisor 5, so water level control pipe 4 is not controlled by water discharging valve 7.

Described water level control pipe 4 is arranged on limiting water level elevation place with the interface of blast pipe 3.Think the limiting water level requirement that guarantees fishpond 1.

Described blast pipe 3, water level control pipe 4 and emptying supervisor's 5 caliber is all greater than the caliber of water inlet pipe 2.For guaranteeing that unnecessary inflow all can discharge in time, avoiding fishpond 1 spilling water to escape fish like this.

After described water level control pipe 4 and emptying supervisor's 5 tie point should be positioned at the control section of water discharging valve 7.Can make like this drainage system meet the requirement of emptying fishpond 1 and control fishpond limiting water level simultaneously.

Described discharge outlet 8 is arranged on the bottom in fishpond 1.Water inlet pipe 6 should sluice at 1 top from fishpond.In order to meet convenient, emptying smooth and easy, the oxygen exchange that can carry out fishpond 1 interior water body when entering draining of fishpond 1 cleaning like this.

For preventing that discharge outlet 8 from escaping fish, leaking fish phenomenon, should fishing net be set at discharge outlet 8 places and block fish (not shown).

Adopt technique scheme, can complete fishpond water level control, emptying and Waste Water Centralized emission treatment.During fishpond 1 controlled draining, workman need not garrison supervision for a long time, only need open inlet valve 6 on water inlet pipe 2, regulate uninterrupted, guarantee that the water discharging valve 7 on emptying supervisor 5 closes, can leave, when fishpond 1 water level reaches limiting water level, water level control pipe 4 meeting Auto-drainages, remain that fishpond 1 water level is below limiting water level.When fishpond 1 emptying or the following water body of emission limit set water level, close inlet valve 6, open the water discharging valve 7 being positioned on emptying supervisor 5, discharge outlet 8 is passed through from fishpond bottom discharge to emptying supervisor 5 in fishpond.In above all operations, the waste water of generation all imports Waste Water Treatment by the drain ditch joining with emptying supervisor 5.The utility model, by pure manual operation, has been realized fishpond mechanization draining completely, has not only avoided the electric power in fishpond supporting, also reached saving man-hour, the object of reduction operating cost, has saved construction investment, has significant economic benefit and good adaptability.

Claims

1. a fishpond intake-discharge pipe combining structure, comprise fishpond (1) and the water inlet pipe (2) being communicated with fishpond (1) and emptying supervisor (5), it is characterized in that: described emptying supervisor (5) is connected with fishpond (1) by discharge outlet (8), on emptying supervisor (5), be communicated with blast pipe (3), emptying supervisor (5), be communicated with by water level control pipe (4) with blast pipe (3) top.

2. a kind of fishpond according to claim 1 intake-discharge pipe combining structure, is characterized in that: described water inlet pipe (2) upper end is provided with inlet valve (6).

3. a kind of fishpond according to claim 1 intake-discharge pipe combining structure, is characterized in that: described emptying supervisor (5) is positioned at position between blast pipe (3) and water level control pipe (4) and is provided with water discharging valve (7).

4. a kind of fishpond according to claim 1 intake-discharge pipe combining structure, is characterized in that: described water level control pipe (4) is arranged on limiting water level elevation place with the interface of blast pipe (3).

5. a kind of fishpond according to claim 1 intake-discharge pipe combining structure, is characterized in that: described blast pipe (3), water level control pipe (4) and emptying supervisor's (5) caliber is all greater than the caliber of water inlet pipe (2).

6. a kind of fishpond according to claim 1 intake-discharge pipe combining structure, is characterized in that: after described water level control pipe (4) and emptying supervisor's (5) tie point should be positioned at the control section of water discharging valve (7).

7. a kind of fishpond according to claim 1 intake-discharge pipe combining structure, is characterized in that: described discharge outlet (8) is arranged on the bottom of fishpond (1).