CN218499825U

CN218499825U - Pond bottom device of decontaminating

Info

Publication number: CN218499825U
Application number: CN202222772191.6U
Authority: CN
Inventors: 赵桂香; 吴宗耀; 陈秋香; 赵晓; 刘声武
Original assignee: Liuyang Wanzhongyao Agriculture And Animal Husbandry Technology Co ltd
Current assignee: Liuyang Wanzhongyao Agriculture And Animal Husbandry Technology Co ltd
Priority date: 2022-10-20
Filing date: 2022-10-20
Publication date: 2023-02-21
Anticipated expiration: 2032-10-20

Abstract

The utility model relates to a pond field of decontaminating discloses a pond bottom device of decontaminating, including the mount, the middle part runs through on the mount has stored up dirty mechanism, it all is provided with drainage mechanism to store up dirty mechanism front and back end, the equal fixed connection of drainage mechanism is in both sides middle part around the mount top, it is provided with soil pick-up mechanism to store up dirty mechanism one side lower part, it is provided with complementary unit to store up dirty mechanism opposite side lower part, soil pick-up mechanism and complementary unit all set up in mount lower part both sides, soil pick-up mechanism includes the soil pick-up pump, soil pick-up pump entrance point fixedly connected with suction pipe. A pond bottom device of decontaminating, can produce suction through the soil pick-up pump, can inhale the soil pick-up pump inside with the silt impurity that the pond bottom was gathered together with sewage through suction to exit end on the soil pick-up pump transmits sewage silt and impurity to storing up inside the dirty incasement portion, realizes the clearance to the silt that the pond bottom was gathered and impurity.

Description

Pond bottom device of decontaminating

Technical Field

The utility model relates to a pond field of decontaminating, in particular to pond bottom device of decontaminating.

Background

The fishpond is a place for catching or culturing fish, is an ideal pond, has large required area, deep pond water, sufficient illumination, smooth water source, rich water quality and convenient traffic, is beneficial to the growth and the yield improvement of fish and production management, and after the pond is cultured for a period of time, the bottom of the pond gradually forms thick sludge which is formed by continuously depositing residual feed, fertilizer, fish manure, dead organisms and the like and is mixed with sludge and sand at the bottom of the pond, certain sludge is contained in the pond, the pond water is easy to become fat and beneficial to fish culturing and high yield, but the excessive sludge can deteriorate the water quality to influence the growth of fish, even the sludge thickness of the dead fine culture fishpond of the fish is generally increased by about 10 cm per year, and production practices show that the fishpond is suitable for retaining the sludge of 15-20 cm and can play roles of fertilizer retention, fertilizer supply, water quality buffer and the like, however, the excessive sludge not only weakens the beneficial effect of the sludge, but also brings adverse effect to aquaculture, reduces the yield of cultured fishes, easily generates fish floating and pond death, promotes the formation of 'old water', reduces the resistance of the fishes, causes fulminant fish diseases, and simultaneously, in a bad environment, the stress resistance capability of the fishes is weakened, so the fulminant fish diseases are easily generated, therefore, the excessive sludge must be removed in time to keep good water quality, in the process of dredging the bottom of the fish pond, the traditional dredging mode adopted by a common small fish pond is to pump the water of the fish pond in the empty window period of fish culture and then carry out dredging operation, the method not only needs to consume larger time and energy, but also is inconvenient to operate, needs to wait for specific time and is not flexible enough, and simultaneously, the method greatly causes waste of water resources and has higher cost, and the discharge of sewage and sludge can affect the surrounding soil quality and water quality.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides a device of decontaminating bottom the pond, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a pond bottom device of decontaminating, includes the mount, the middle part runs through on the mount has stored up dirty mechanism, it all is provided with drainage mechanism to store up dirty mechanism front and back end, the equal fixed connection of drainage mechanism is both sides middle part around the mount top, it is provided with soil pick-up mechanism to store up dirty mechanism one side lower part, it is provided with complementary unit to store up dirty mechanism opposite side lower part, soil pick-up mechanism and complementary unit all set up in mount lower part both sides, soil pick-up mechanism includes the soil pick-up pump, soil pick-up pump entrance point fixedly connected with suction pipe, the one end threaded connection that the suction pump was kept away from to the suction pipe has the soil pick-up head, the soil pick-up head periphery runs through the dirty hole of advancing that has evenly distributed.

Preferably, the auxiliary mechanism includes the air pump, air pump exit end fixedly connected with outlet duct, the one end threaded connection who keeps away from the air pump of outlet duct has the shower nozzle, the venthole that has evenly distributed runs through around the shower nozzle bottom.

Preferably, store up dirty mechanism including storing up dirty case, the closing cap is all installed to the dirty case upper portion front and back end of storage, store up a plurality of sieves of the equal fixedly connected with in dirty incasement upper portion.

Preferably, drainage mechanism all includes the water pump, the equal flange joint of water pump entrance point has the drinking-water pipe, the drinking-water pipe other end all runs through storage dirty roof end.

Preferably, the outlet end of the sewage suction pump penetrates through the lower part of one end of the sewage storage tank.

Preferably, the outlet ends of the water pumps are connected with drain pipes through flanges.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the outside air can be extracted through the work of the air pump, and the air is pressurized and then introduced into the air outlet pipe, the air can enter the spray head through the air outlet pipe, the air can be discharged through the air outlet hole at the bottom of the spray head, the air can impact the starting of the fish pond through the air flow, so that the sludge accumulated at the bottom of the fish pond can be scattered with impurities, at the moment, people can start the sewage suction pump, the suction pump can generate suction force, the suction force can be conducted to the inside of the sewage suction head through the sewage suction pipe, the sewage suction head is provided with the sewage inlet holes which are uniformly distributed, the sludge impurities accumulated at the bottom of the fish pond and sewage can be sucked into the inside of the sewage suction pump through the sewage inlet holes through the suction force, the sewage sludge and the impurities are transmitted to the inside of the sewage storage tank through the outlet end of the sewage suction pump, the cleaning of the sludge and the impurities accumulated at the bottom of the fish pond is realized, the operation is simple and efficient, the use is flexible, and the sludge cleaning work suitable for small and medium-sized fish ponds.

2. Can produce suction at the entrance point through the water pump, suction can pass to storing up inside the dirty incasement portion through the drinking-water pipe, make can extract storing up the sewage of dirty incasement portion through the drinking-water pipe, can carry out a lot of filtration to sewage and silt through the multilayer sieve that stores up dirty incasement portion and set up, make the water pump can take out the water that stores up dirty incasement portion through the drinking-water pipe, and the muddy silt of aquatic doping and grit and impurity then can stay in storing up dirty incasement portion through the block of sieve, through the clearance to the silt and the impurity of gathering of pond bottom, can realize the quality of water purification treatment to the pond, be favorable to promoting the living environment of shoal in the pond, can utilize the drain pipe with the water of taking out to arrange back to the pond through the water pump, the cyclic utilization to water has been realized, very big reduction the clearance cost, and the collection of pond water can effectively reduce the pollution to the surrounding environment, be favorable to in-service use.

Drawings

Fig. 1 is a front perspective view of the bottom cleaning device of the fish pond of the utility model;

fig. 2 is a rear view structure diagram of the fish pond bottom dirt removing device of the utility model;

fig. 3 is a rear-side elevation structure schematic diagram of the fish pond bottom decontamination device of the utility model.

In the figure: 1. a dirt suction mechanism; 101. a sewage suction pump; 102. a sewage suction head; 103. a sewage pumping pipe; 104. a sewage inlet hole; 2. an auxiliary mechanism; 201. an air pump; 202. a spray head; 203. an air outlet; 204. an air outlet pipe; 3. a drainage mechanism; 301. a water pump; 302. a water pumping pipe; 303. a drain pipe; 4. a dirt storage mechanism; 401. sealing the cover; 402. a sewage storage tank; 403. a sieve plate; 5. a fixing frame.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-3, a fish pond bottom cleaning device, including a fixing frame 5, a sewage storage mechanism 4 penetrates through the middle part of the fixing frame 5, a drainage mechanism 3 is arranged at the front and rear ends of the sewage storage mechanism 4, the drainage mechanism 3 is fixedly connected to the middle parts of the front and rear sides of the top end of the fixing frame 5, a sewage suction mechanism 1 is arranged at the lower part of one side of the sewage storage mechanism 4, an auxiliary mechanism 2 is arranged at the lower part of the other side of the sewage storage mechanism 4, the sewage suction mechanism 1 and the auxiliary mechanism 2 are arranged at the two sides of the lower part of the fixing frame 5, the sewage suction mechanism 1 includes a sewage suction pump 101, an inlet end of the sewage suction pump 101 is fixedly connected with a sewage suction pipe 103, one end of the sewage suction pipe 103, which is far away from the sewage suction pump 101, is in threaded connection with a sewage suction head 102, a sludge inlet 104 which is uniformly distributed penetrates through the periphery of the sewage suction head 102, suction pump 101 can generate suction force, the suction force can transmit the suction force to the inside of the sewage suction head 102, impurities accumulated at the bottom of the fish pond and sludge can be transmitted to the inside of a sewage tank through the sewage suction pump 101 and the impurities outlet 402.

The auxiliary mechanism 2 comprises an air pump 201, an outlet pipe 204 is fixedly connected to the outlet end of the air pump 201, a spray head 202 is in threaded connection with one end, far away from the air pump 201, of the outlet pipe 204, air outlet holes 203 which are uniformly distributed penetrate through the periphery of the bottom of the spray head 202, when the auxiliary mechanism is used, people can firstly put the outlet pipe 204 to the bottom of a fish pond, then the air pump 201 is started, external air can be extracted through the work of the air pump 201 and is led into the outlet pipe 204 after the air is pressurized, the air can enter the spray head 202 through the outlet pipe 204 and can be discharged through the air outlet holes 203 in the bottom of the spray head 202, the fish pond can be started to be impacted through air flow, therefore, sludge and impurities accumulated at the bottom of the fish pond can be dispersed, the sewage storage mechanism 4 comprises a sewage storage tank 402, sealing covers 401 are installed at the front end and the rear end of the upper portion of the sewage storage tank 402, a plurality of sieve plates 403 are fixedly connected to the upper portion in the sewage storage tank 402, the sewage inlet holes 104 can be used for primarily filtering the impurities and the sludge at the bottom of the fish pond, massive stones and bricks are removed outside, small impurities and sludge can enter the interior of the sewage storage tank 402, so that the situation that the sewage storage tank 101 is blocked and damaged after the massive stones and the bricks enter the sewage suction pump 101 can be effectively avoided, and the sewage and the sludge are beneficial to practical use, the sewage and the sludge can be filtered for multiple times through the multilayer sieve plate 403 arranged in the sewage storage tank 402, so that the water pump 301 can pump out water in the sewage storage tank 402 through the water pumping pipe 302, the sludge, gravel and impurities mixed in the water can be retained in the sewage storage tank 402 through the barrier of the sieve plate 403, the drainage mechanisms 3 respectively comprise the water pumps 301, the inlet ends of the water pumps 301 are respectively connected with the water pumping pipes 302 in a flange mode, the other ends of the water pumping pipes 302 respectively penetrate through the top end of the sewage storage tank 402, the outlet end of the sewage suction pump 101 penetrates through the lower part of one end of the sewage storage tank 402, the outlet ends of the water pumps 301 are respectively connected with the drain pipes 303 in a flange mode, inside back when silt and impurity get into and be full of the dirty case 402 of storage along with sewage, people can start water pump 301, after water pump 301 begins to work, can produce the suction at the entrance point through water pump 301, the suction can pass to the dirty case 402 of storage through drinking-water pipe 302 inside, make and to extract the inside sewage of dirty case 402 of storage through drinking-water pipe 302, can utilize drain pipe 303 to arrange the water of taking out back to the pond through water pump 301, through the clearance to the silt that the pond bottom is gathered and impurity, can realize the quality of water purification treatment to the pond, be favorable to promoting the living environment of shoal in the pond, be favorable to in-service use.

In this embodiment, complementary unit 2 includes air pump 201, air pump 201 exit end fixedly connected with outlet duct 204, the one end threaded connection that air pump 201 was kept away from to outlet duct 204 has shower nozzle 202, shower nozzle 202 bottom runs through the venthole 203 that has evenly distributed all around, soil pick-up mechanism 1 includes soil pick-up pump 101, soil pick-up pump 101 import end fixedly connected with suction pipe 103, the one end threaded connection that soil pick-up pump 101 was kept away from to suction pipe 103 has soil pick-up head 102, soil pick-up head 102 periphery runs through the dirty hole 104 that advances that has evenly distributed.

Specifically, the external air can be extracted through the work of the air pump 201, and the air is pressurized and then introduced into the air outlet pipe 204, the air can enter the spray head 202 through the air outlet pipe 204, and can be discharged through the air outlet hole 203 at the bottom of the spray head 202, the air can impact the starting of the fish pond through the air flow, so that the sludge and impurities accumulated at the bottom of the fish pond can be scattered, at the moment, people can start the sewage suction pump 101, the suction force can be generated through the sewage suction pump 101, the suction force can be conducted to the inside of the sewage suction head 102 through the sewage suction pipe 103, the sewage inlet holes 104 which are uniformly distributed are formed in the sewage suction head 102, the sludge and impurities accumulated at the bottom of the fish pond can be sucked into the sewage suction pump 101 through the sewage inlet holes 104 through the suction force, the sewage sludge and the impurities are transmitted to the inside the sewage storage tank 402 through the outlet end of the sewage suction pump 101, the cleaning of the sludge and the impurities accumulated at the bottom of the fish pond is realized, the sludge and the cleaning operation is simple and efficient, and the use is flexible, and the cleaning device is suitable for small and medium-sized fish ponds.

In this embodiment, store up dirty mechanism 4 including storing up dirty case 402, the closing cap 401 is all installed to the front and back end on dirty case 402 upper portion of storage, store up a plurality of sieve 403 of the equal fixedly connected with in dirty incasement 402 upper portion, drainage mechanism 3 all includes water pump 301, the equal flange joint of water pump 301 entrance point has drinking-water pipe 302, the drinking-water pipe 302 other end all runs through and stores up dirty case 402 top, sewage pump 101 exit end runs through dirty case 402 one end lower part of storage, the equal flange joint of water pump 301 exit end has drain pipe 303.

Specifically, suction can be generated at the inlet end through the water pump 301, the suction can be transmitted to the interior of the dirt storage tank 402 through the water pumping pipe 302, so that sewage in the interior of the dirt storage tank 402 can be extracted through the water pumping pipe 302, sewage and sludge can be filtered for multiple times through the multilayer sieve plate 403 arranged in the dirt storage tank 402, so that the water pump 301 can pump out water in the interior of the dirt storage tank 402 through the water pumping pipe 302, and sludge, gravel and impurities mixed in the water can be retained in the interior of the dirt storage tank 402 through the blockage of the sieve plate 403, through cleaning of sludge and impurities accumulated at the bottom of the fishpond, water purification treatment on the fishpond can be realized, the living environment of fish swarms in the fishpond can be favorably improved, the pumped water can be discharged back to the fishpond through the water pump 301 by utilizing the drain pipe 303, recycling of the water is realized, the cleaning cost is greatly reduced, and pollution to the surrounding environment can be effectively reduced through recovery of the fishpond water and collection of the sludge, and practical use is favorable.

The working principle is as follows:

when the fish pond air suction device is used, people can firstly put the air outlet pipe 204 to the bottom of a fish pond, then the air pump 201 is started, outside air can be extracted through the work of the air pump 201, the air is pressurized and then is led into the air outlet pipe 204, the air can enter the spray head 202 through the air outlet pipe 204 and can be discharged through the air outlet hole 203 at the bottom of the spray head 202, the air flow can impact the start of the fish pond, so that sludge and impurities accumulated at the bottom of the fish pond can be dispersed, at the moment, people can start the sewage suction pump 101, suction force can be generated through the sewage suction pump 101, the suction force can be transmitted into the sewage suction head 102 through the sewage suction pipe 103, the sewage suction head 102 is provided with the sewage inlet holes 104 which are uniformly distributed, sludge and impurities accumulated at the bottom of the fish pond can be sucked into the sewage suction pump 101 through the sewage inlet holes 104 through the suction force, and the sewage sludge and impurities are transmitted into the sewage storage tank 402 through the outlet end on the sewage suction pump 101, the impurities and the sludge at the bottom of the fish pond can be primarily filtered through the sewage inlet hole 104, massive stones and bricks are removed outside, and the small impurities and sludge can enter the sewage storage tank 402, so that the situation that the sewage storage pump 101 is blocked and damaged after the massive stones and the bricks enter the sewage storage pump 101 can be effectively avoided, and the practical use is facilitated, when the sludge and the impurities enter and fill the inside of the sewage storage tank 402 along with sewage, people can start the water pump 301, when the water pump 301 starts to work, suction force can be generated at an inlet end through the water pump 301, the suction force can be transmitted to the inside of the sewage storage tank 402 through the water pumping pipe 302, so that the sewage in the sewage storage tank 402 can be pumped through the water pumping pipe 302, the sewage and the sludge can be filtered for multiple times through the multilayer sieve plates 403 arranged in the sewage storage tank 402, and the water in the sewage storage tank 402 can be pumped out through the water pumping pipe 302 by the water pump 301, sludge, gravel and impurities mixed in water can be retained in the sewage storage tank 402 through the blocking of the sieve plate 403, pumped water can be discharged back to the fishpond through the water pump 301 by using the drain pipe 303, and the water quality purification treatment of the fishpond can be realized through the cleaning of the sludge and the impurities accumulated at the bottom of the fishpond, so that the improvement of the living environment of fish swarms in the fishpond is facilitated, and the practical use is facilitated.

The foregoing shows and describes the basic principles and principal features of the invention, together with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a device of decontaminating of pond bottom, includes mount (5), its characterized in that: the utility model discloses a sewage treatment device, including mount (5), sewage storage mechanism (4), sewage suction mechanism (1), sewage suction pump (101) entrance point fixedly connected with sewage suction pipe (103), the one end threaded connection that sewage suction pump (101) was kept away from in sewage suction pipe (103) has sewage suction head (102), sewage suction head (102) periphery is run through and is had evenly distributed's dirt inlet hole (104), and sewage storage mechanism (4) front and back end all is provided with drainage mechanism (3), the equal fixed connection of drainage mechanism (3) both sides middle part around mount (5) top, sewage storage mechanism (4) one side lower part is provided with sewage suction mechanism (1), it is provided with complementary unit (2) to store up sewage mechanism (4), sewage suction mechanism (4) opposite side lower part is provided with complementary unit (2), sewage suction mechanism (1) and complementary unit (2) all set up in mount (5) lower part both sides, sewage suction pump (1) include sewage suction pump (101).

2. The fishpond bottom decontamination device according to claim 1, wherein: the auxiliary mechanism (2) comprises an air pump (201), an outlet end of the air pump (201) is fixedly connected with an air outlet pipe (204), one end, far away from the air pump (201), of the air outlet pipe (204) is connected with a spray head (202) in a threaded mode, and air outlet holes (203) are evenly distributed in the periphery of the bottom of the spray head (202) in a penetrating mode.

3. The fishpond bottom cleaning device of claim 1, wherein: store up dirty mechanism (4) including storing up dirty case (402), closing cap (401) are all installed to the dirty case of storage (402) upper portion front and back end, store up dirty case (402) interior upper portion equal fixedly connected with a plurality of sieves (403).

4. The fishpond bottom cleaning device of claim 1, wherein: drainage mechanism (3) all include water pump (301), the equal flange joint of water pump (301) entrance point has drinking-water pipe (302), the storage dirty case (402) top is all run through to drinking-water pipe (302) other end.

5. The fishpond bottom cleaning device of claim 1, wherein: the outlet end of the sewage suction pump (101) penetrates through the lower part of one end of the sewage storage tank (402).

6. The fishpond bottom cleaning device of claim 4, wherein: the outlet ends of the water pumps (301) are connected with drain pipes (303) in a flange mode.