CN210929183U

CN210929183U - Ecological environment-friendly fishpond

Info

Publication number: CN210929183U
Application number: CN201921129322.0U
Authority: CN
Inventors: 肖爱民; 陈方; 易家新
Original assignee: Yichang Pinghu Qiuyue Eco Tourism Development Co ltd
Current assignee: Yichang Pinghu Qiuyue Eco Tourism Development Co ltd
Priority date: 2019-07-18
Filing date: 2019-07-18
Publication date: 2020-07-07
Anticipated expiration: 2029-07-18

Abstract

The utility model discloses an ecological environmental protection fish pond, including oxygenating the cell body, setting at the first cell body of oxygenating cell body one side, locating the oxygenating mechanism in the oxygenating cell body, changing water mechanism, second cell body, locating first purification mechanism in the first cell body, fish pond feed fish device, locating second purification mechanism, sludge pump and the suction pump in the second cell body. The utility model has the advantages that: can not generate excessive environment-polluting breeding sewage, saves water resources and reduces the fish breeding cost of merchants. The bottom of the pool that sets up first cell body is higher than the bottom of the pool of second cell body for the pollutant that fish produced in the first cell body continues to flow to first cell body bottom, only needs regularly to take away the mud of second cell body bottom, just can guarantee the cleanness in whole fish pond. Fish device is fed in fish pond has greatly reduced the artifical intensity of labour when feeding the fish, labour saving and time saving.

Description

Ecological environment-friendly fishpond

Technical Field

The utility model relates to an aquaculture field, concretely relates to ecological environmental protection fish pond.

Background

The current industrial fishpond in the current market has a great problem in sewage treatment, and because fishpond water can not be recycled, the fishpond water needs to be frequently replaced to breed fish when breeding fish, so that the waste of water resources is caused, and the fish breeding cost of merchants is improved. The fish is fed in current fish pond all adopts the mode of artifical throwing fish fodder, wastes time and energy.

Disclosure of Invention

The utility model aims at providing an ecological environmental protection fish pond to above-mentioned defect.

An ecological environment-friendly fish pond comprises an oxygenation pond body, a first pond body arranged on one side of the oxygenation pond body, an oxygenation mechanism arranged in the oxygenation pond body, a water changing mechanism, a second pond body, a first purification mechanism arranged in the first pond body, a fish pond fish feeding device, a second purification mechanism arranged in the second pond body, a sludge pump and a water suction pump;

a water inlet pipe is arranged on one side of the oxygenation tank body;

the oxygenation mechanism comprises an oxygenation pump arranged beside the oxygenation tank body, an aeration pipeline connected with the oxygenation pump and a plurality of oxygenation pipelines communicated with the aeration pipeline and arranged at the bottom of the oxygenation tank body, the tail ends of the oxygenation pipelines are closed, a plurality of air outlet holes are uniformly formed in the lower part of each oxygenation pipeline, and a polyurethane sponge block is adhered to each air outlet hole;

the water changing mechanism comprises a water changing water pump, a water inlet pipeline and a water outlet pipeline which are arranged between the oxygenation tank body and the first tank body, a water inlet of the water changing water pump extends into the bottom of the oxygenation tank body through the water inlet pipeline, and a water outlet of the water changing water pump extends below the liquid level of the first tank body through the water outlet pipeline;

the second tank body is positioned at one side of the first tank body, the bottom of the first tank body is higher than that of the second tank body, a water outlet with a filter screen is arranged at the center of the bottom of the first tank body, the water outlet is communicated with the bottom of the second tank body through a tank bottom connecting pipe, a sludge discharge port is arranged at the lower part of the second tank body, and the sludge discharge port is communicated with a sludge pump arranged at one side of the second tank body through a sludge discharge pipe; a heating cable is laid at the bottom of the first tank body;

the first purifying mechanism comprises a plurality of support rods arranged at the upper part of the first tank body in a lapping way and a plurality of mesh bags hung on the support rods, aquatic plants are filled in the mesh bags, and the support rods are arranged in parallel;

the second purification mechanism comprises a first stainless steel filter net layer, an aquatic plant layer and a second stainless steel filter net layer which are sequentially arranged in the second tank from top to bottom, the second stainless steel filter net layer is positioned above the sludge discharge port, the aquatic plant layer is a cavity part which is formed between the first stainless steel filter net layer and the second stainless steel filter net layer and is filled with aquatic plants, and the first stainless steel filter net layer and the second stainless steel filter net layer are formed by overlapping and binding a plurality of stainless steel filter screens;

a water inlet pipeline of the water suction pump extends into the position below the liquid level of the second tank body and is positioned above the first stainless steel filter screen layer, and a water outlet of a water outlet pipeline of the water suction pump is arranged above the oxygen charging tank body;

the fish pond fish feeding device comprises a feeding auger arranged above the first pond body, a feeding temporary storage hopper arranged above the feeding auger and a discharging control mechanism for connecting the feeding temporary storage hopper with the feeding end of the feeding auger; the feeding end of the feeding auger is arranged on the open ground on one side of the first tank body, the tail end of the feeding auger is positioned right above the water surface of the first tank body and is lower than the feeding end, the middle part and the tail end of the feeding auger are respectively provided with a first blanking port and a second blanking port towards the water surface of the first tank body, the lower outlets of the first blanking port and the second blanking port are hinged with a baffle plate through hinges, and the baffle plate is connected with the side walls of the first blanking port and the second blanking port through a return spring, so that the baffle plate seals the outlets of the first blanking port and the second blanking port; a hopper cover is arranged at the top of the feeding temporary storage hopper; the discharging control mechanism comprises a cylindrical part, a first circular plate and a second circular plate, the first circular plate is fixedly arranged in the cylindrical part, the second circular plate is positioned above the first circular plate, the upper end of the cylindrical part is communicated with the bottom of the feeding temporary storage hopper, the lower end of the cylindrical part is communicated with the feeding end of the feeding auger, the first circular plate is symmetrically provided with a pair of first fan-shaped notches along the circle center of the first circular plate, the second circular plate is symmetrically provided with a pair of second fan-shaped notches along the circle center of the second circular plate, and the areas of the first fan-shaped notches; a columnar protruding part is arranged at the circle center of the first circular plate, and a vacancy part matched with the columnar protruding part is arranged at the circle center of the second circular plate, so that the second circular plate is sleeved on the columnar protruding part on the first circular plate; a handle is arranged on one side of the second circular plate, and an arc-shaped notch for the handle to slide is arranged on the side wall of the cylindrical part.

The diameter of the water outlet is 20-25cm, and the diameter of the meshes of the filter screen is 2-3 cm.

The diameter of the meshes of the stainless steel filter screen is 1-1.5 cm.

The number of the plurality of the oxygen supplementing pipelines is three, the three oxygen supplementing pipelines are arranged in parallel and fixed at the bottom of the oxygenation tank body through the support frame, the air inlet ends of the three oxygen supplementing pipelines are communicated with the inflation pipeline, and the other ends of the three oxygen supplementing pipelines are sealed.

And filter screens are arranged at the water inlet of the water inlet pipeline and the water outlet of the water outlet pipeline.

The feeding auger is fixed above the first tank body through a plurality of groups of supporting frames.

The first blanking port and the second blanking port are both rectangular square tube structures.

The reset spring is arranged as follows: in an initial state, the material baffle plate seals the outlets of the first blanking opening and the second blanking opening.

The handle is fixedly connected with the second circular plate through an arc-shaped sheet, and the arc-shaped sheet moves in the arc-shaped notch.

The discharging control mechanism is set as follows: when the material is not discharged, the handle is rotated to ensure that the pair of first fan-shaped notches of the first circular plate and the pair of second fan-shaped notches of the second circular plate are not communicated with each other; during discharging, the handle is rotated to make the pair of first fan-shaped notches of the first circular plate and the pair of second fan-shaped notches of the second circular plate mutually communicated.

The utility model has the advantages that: can not generate excessive environment-polluting breeding sewage, saves water resources and reduces the fish breeding cost of merchants. The bottom of the pool that sets up first cell body is higher than the bottom of the pool of second cell body for the pollutant that fish produced in the first cell body continues to flow to first cell body bottom, only needs regularly to take away the mud of second cell body bottom, just can guarantee the cleanness in whole fish pond. Fish device is fed in fish pond has greatly reduced the artifical intensity of labour when feeding the fish, labour saving and time saving.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the distribution of the pipelines in the oxygenation tank body.

Fig. 3 is a schematic structural view of the oxygen supply pipeline.

Fig. 4 is a schematic structural view of the first purge mechanism.

Fig. 5 is a schematic structural view of the fish feeding device of the fish pond.

Fig. 6 is a schematic structural view of the first blanking port, the second blanking port and the striker plate.

Fig. 7 is a schematic structural diagram of the discharge control mechanism.

Fig. 8 is a schematic structural view of the cylindrical portion.

Fig. 9 is a schematic structural view of the first circular plate.

Fig. 10 is a schematic view of the structure of the second circular plate.

Detailed Description

As shown in the attached drawing, the ecological environment-friendly fish pond comprises an oxygenation pond body 30, a first pond body 1 arranged on one side of the oxygenation pond body 30, an oxygenation mechanism arranged in the oxygenation pond body 30, a water changing mechanism, a second pond body 2, a first purification mechanism arranged in the first pond body 1, a fish pond fish feeding device 80, a second purification mechanism arranged in the second pond body 2, a sludge pump 5 and a water suction pump 6;

a water inlet pipe 31 is arranged at one side of the oxygenation tank body 30;

the oxygenation mechanism comprises an oxygenation pump 32 arranged beside the oxygenation tank body 30, an aeration pipeline 33 connected with the oxygenation pump 32 and a plurality of oxygen supplementing pipelines 34 communicated with the aeration pipeline 33 and arranged at the bottom of the oxygenation tank body 30, the tail ends of the oxygen supplementing pipelines 34 are closed, a plurality of air outlet holes 35 are uniformly formed in the lower part of each oxygen supplementing pipeline 34, and a polyurethane sponge block 36 is adhered to each air outlet hole 35;

the water changing mechanism comprises a water changing water pump 37, a water inlet pipeline 38 and a water outlet pipeline 39 which are arranged between the oxygenation tank body 30 and the first tank body 1, a water inlet of the water changing water pump 37 extends into the bottom of the oxygenation tank body 30 through the water inlet pipeline 38, and a water outlet of the water changing water pump 37 extends into the position below the liquid level of the first tank body 1 through the water outlet pipeline 39;

the second tank body 2 is positioned at one side of the first tank body 1, the bottom of the first tank body 1 is higher than that of the second tank body 2, a water outlet with a filter screen 12 is arranged at the center of the bottom of the first tank body 1, the water outlet is communicated with the bottom of the second tank body 2 through a tank bottom connecting pipe 8, a sludge discharge port 13 is arranged at the lower part of the second tank body 2, and the sludge discharge port 13 is communicated with a sludge pump 5 arranged at one side of the second tank body 2 through a sludge discharge pipe 9; a heating cable 22 is laid at the bottom of the first tank body 1;

the first purifying mechanism comprises a plurality of support rods 10 arranged at the upper part of the first tank body 1 in an overlapping way and a plurality of mesh bags 11 hung on the support rods 10, aquatic plants are filled in the mesh bags 11, and the support rods 10 are arranged in parallel;

the second purifying mechanism comprises a first stainless steel filter screen layer 14, an aquatic plant layer 15 and a second stainless steel filter screen layer 16 which are sequentially arranged in the second tank body 2 from top to bottom, the second stainless steel filter screen layer 16 is positioned above the sludge discharge port 13, the aquatic plant layer 15 is a cavity part which is formed between the first stainless steel filter screen layer 14 and the second stainless steel filter screen layer 16 and is filled with aquatic plants, and the first stainless steel filter screen layer 14 and the second stainless steel filter screen layer 16 are formed by overlapping and binding a plurality of stainless steel filter screens;

a water inlet pipeline of the water pump 6 extends below the liquid level of the second tank body 2 and is positioned above the first stainless steel filtering net layer 14, and a water outlet of a water outlet pipeline of the water pump 6 is arranged above the oxygenation tank body 30;

the fish pond fish feeding device 80 comprises a feeding auger 52 arranged above the first pond body 1, a feeding temporary storage hopper 53 arranged above the feeding auger 52 and a discharging control mechanism 54 for connecting the feeding temporary storage hopper 53 with the feeding end of the feeding auger 52; the feeding end of the feeding auger 52 is arranged on the open ground on one side of the first tank body 1, the tail end of the feeding auger 52 is positioned right above the water surface of the first tank body 1 and is lower than the feeding end, the middle part and the tail end of the feeding auger 52 are respectively provided with a first blanking port 55 and a second blanking port 56 towards the water surface of the first tank body 1, the lower outlets of the first blanking port 55 and the second blanking port 56 are hinged with a baffle plate 57 through hinges 58, the baffle plate 57 is connected with the side walls of the first blanking port 55 and the second blanking port 56 through a return spring 59, so that the baffle plate 57 seals the outlets of the first blanking port 55 and the second blanking port 56; a hopper cover 60 is arranged at the top of the feeding temporary storage hopper 53; the discharge control mechanism 54 comprises a cylindrical part 61, a first circular plate 62 fixedly arranged in the cylindrical part 61 and a second circular plate 63 positioned above the first circular plate 62, the upper end of the cylindrical part 61 is communicated with the bottom of the temporary feeding storage hopper 53, the lower end of the cylindrical part is communicated with the feeding end of the feeding auger 52, the first circular plate 62 is symmetrically provided with a pair of first fan-shaped notches 64 along the circle center, the second circular plate 63 is symmetrically provided with a pair of second fan-shaped notches 65 along the circle center, and the areas of the first fan-shaped notches 64 and the second fan-shaped notches 65 are the same; a cylindrical boss 66 is arranged at the center of the circle of the first circular plate 62, and a gap 67 matched with the cylindrical boss 66 is arranged at the center of the circle of the second circular plate 63, so that the second circular plate 63 is sleeved on the cylindrical boss 66 on the first circular plate 62; a handle 68 is disposed on one side of the second circular plate 63, and an arc notch 69 for the handle 68 to slide is disposed on the sidewall of the cylindrical portion 61.

The diameter of the water outlet is 20-25cm, and the diameter of the meshes of the filter screen 12 is 2-3 cm.

The diameter of the meshes of the stainless steel filter screen is 1-1.5 cm.

The number of the plurality of oxygen supplementing pipelines 34 is three, the three oxygen supplementing pipelines 34 are arranged in parallel and fixed at the bottom of the oxygenation tank body 30 through a support frame 43, the air inlet ends of the three oxygen supplementing pipelines 34 are communicated with the air charging pipeline 33, and the other ends of the three oxygen supplementing pipelines are sealed.

The water inlet of the water inlet pipeline 38 and the water outlet of the water outlet pipeline 39 are both provided with a filter screen 44.

The feeding auger 52 is fixed above the first tank body 1 through a plurality of groups of supporting frames 70.

The first blanking port 55 and the second blanking port 56 are both rectangular square tube structures.

The return spring 59 is configured to: in the initial state, the striker plate 57 closes the outlets of the first blanking opening 55 and the second blanking opening 56.

The handle 68 is fixedly connected with the second circular plate 63 through an arc-shaped sheet 71, and the arc-shaped sheet 71 moves in the arc-shaped notch 69.

The discharge control mechanism 54 is configured to: when the material is not discharged, the handle 68 is rotated to prevent the pair of first fan-shaped notches 64 of the first circular plate 62 and the pair of second fan-shaped notches 65 of the second circular plate 63 from communicating with each other; during discharge, the handle 68 is rotated to make the pair of first scallops 64 of the first circular plate 62 and the pair of second scallops 65 of the second circular plate 63 penetrate each other.

The working principle is as follows: set up bracing piece 10 and hang the pocket 11 that is equipped with the aquatic plant in the first cell body 1, regularly throw the fish fodder of feeding, breed pond water and become slightly muddy, opaque in the pond, breed the dissolved oxygen value of pond water and reduce, when the pH value is slightly out of tune, start suction pump 6, carry the pond water in the second cell body 2 to oxygenating cell body 30, start sludge pump 5 every 30-45 days and close sludge pump 5 after the mud of second cell body 2 bottom of the pool is taken out to the greatest extent, mend the pond water that lacks simultaneously to first cell body 1, the pond water that lacks is introduced from oxygenating cell body 30. An operator enters water into the oxygenation tank body 30 through the water inlet pipe 31 1-2 days before water is changed in the first tank body, then the water in the oxygenation tank body 30 is placed for 1-2 days, the water in the oxygenation tank body 30 is oxygenated through the oxygenation pump 32, the inflation pipeline 33 and the multiple oxygenation pipelines 34, the air enters the polyurethane sponge block 36 through the multiple air outlet holes 35 in the lower part of the oxygenation pipeline 34, and then is dispersed through the special net structure in the polyurethane sponge block 36, so that the contact area of the oxygen and the water is greatly increased, and the dissolved oxygen amount of the water in the tank is effectively increased. The water changing water pump 37 is started, the water after the oxygen adding is changed into the first tank body 1, and the lacking tank water is supplemented, so that the water changing work of the first tank body 1 can be conveniently completed. Before the fish pond fish feeding device feeds, an operator puts fish feed into the feeding temporary storage hopper 53, then starts the motor of the feeding auger 52, simultaneously rotates the handle 68, adjusts the degree of mutual communication between the pair of first fan-shaped notches 64 of the first circular plate 62 and the pair of second fan-shaped notches 65 of the second circular plate 63, and controls the feeding speed to be proper; when feeding is not required, the handle 68 is rotated to prevent the pair of first scalloped notches 64 of the first circular plate 62 and the pair of second scalloped notches 65 of the second circular plate 63 from communicating with each other, and then the motor of the feed auger 52 is turned off.

Claims

1. An ecological environment-friendly fish pond is characterized by comprising an oxygenation pond body (30), a first pond body (1) arranged on one side of the oxygenation pond body (30), an oxygenation mechanism arranged in the oxygenation pond body (30), a water changing mechanism, a second pond body (2), a first purification mechanism arranged in the first pond body (1), a fish pond fish feeding device (80), a second purification mechanism arranged in the second pond body (2), a sludge pump (5) and a water suction pump (6);

a water inlet pipe (31) is arranged at one side of the oxygenation tank body (30);

the oxygenation mechanism comprises an oxygenation pump (32) arranged beside the oxygenation tank body (30), an aeration pipeline (33) connected with the oxygenation pump (32) and a plurality of oxygen supplementing pipelines (34) communicated with the aeration pipeline (33) and arranged at the bottom of the oxygenation tank body (30), the tail ends of the oxygen supplementing pipelines (34) are closed, a plurality of air outlet holes (35) are uniformly formed in the lower part of each oxygen supplementing pipeline (34), and a polyurethane sponge block (36) is adhered to each air outlet hole (35);

the water changing mechanism comprises a water changing water pump (37) arranged between the oxygenation tank body (30) and the first tank body (1), a water inlet pipeline (38) and a water outlet pipeline (39), a water inlet of the water changing water pump (37) extends into the bottom of the oxygenation tank body (30) through the water inlet pipeline (38), and a water outlet of the water changing water pump (37) extends into the position below the liquid level of the first tank body (1) through the water outlet pipeline (39);

the second tank body (2) is positioned on one side of the first tank body (1), the bottom of the first tank body (1) is higher than that of the second tank body (2), a water outlet with a filter screen (12) is arranged at the center of the bottom of the first tank body (1), the water outlet is communicated with the bottom of the second tank body (2) through a tank bottom connecting pipe (8), a sludge discharge port (13) is arranged at the lower part of the second tank body (2), and the sludge discharge port (13) is communicated with a sludge pump (5) arranged on one side of the second tank body (2) through a sludge discharge pipe (9); a heating cable (22) is laid at the bottom of the first tank body (1);

the first purification mechanism comprises a plurality of support rods (10) arranged at the upper part of the first tank body (1) in a lapping way and a plurality of mesh bags (11) hung on the support rods (10), aquatic plants are filled in the mesh bags (11), and the support rods (10) are arranged in parallel;

the second purification mechanism comprises a first stainless steel filter screen layer (14), an aquatic plant layer (15) and a second stainless steel filter screen layer (16) which are sequentially arranged in the second tank body (2) from top to bottom, the second stainless steel filter screen layer (16) is positioned above the sludge discharge port (13), the aquatic plant layer (15) is a cavity part which is formed between the first stainless steel filter screen layer (14) and the second stainless steel filter screen layer (16) and is filled with aquatic plants, and the first stainless steel filter screen layer (14) and the second stainless steel filter screen layer (16) are formed by overlapping and binding a plurality of stainless steel filter screens;

a water inlet pipeline of the water suction pump (6) extends into the position below the liquid level of the second tank body (2) and is positioned above the first stainless steel filtering net layer (14), and a water outlet of a water outlet pipeline of the water suction pump (6) is arranged above the oxygenation tank body (30);

the fish pond fish feeding device (80) comprises a feeding auger (52) arranged above the first pond body (1), a feeding temporary storage hopper (53) arranged above the feeding auger (52), and a discharging control mechanism (54) for connecting the feeding temporary storage hopper (53) with the feeding end of the feeding auger (52); the feeding end of the feeding auger (52) is arranged on the open ground on one side of the first tank body (1), the tail end of the feeding auger (52) is positioned right above the water surface of the first tank body (1) and is lower than the feeding end in height, the middle part and the tail end of the feeding auger (52) are respectively provided with a first blanking port (55) and a second blanking port (56) towards the water surface of the first tank body (1), the lower outlets of the first blanking port (55) and the second blanking port (56) are respectively hinged with a baffle plate (57) through hinges (58), the baffle plate (57) is connected with the side walls of the first blanking port (55) and the second blanking port (56) through a return spring (59), so that the baffle plate (57) seals the outlets of the first blanking port (55) and the second blanking port (56); a hopper cover (60) is arranged at the top of the feeding temporary storage hopper (53); the discharge control mechanism (54) comprises a cylindrical part (61), a first circular plate (62) fixedly arranged in the cylindrical part (61) and a second circular plate (63) positioned above the first circular plate (62), the upper end of the cylindrical part (61) is communicated with the bottom of the feeding temporary storage hopper (53), the lower end of the cylindrical part is communicated with the feeding end of the feeding auger (52), the first circular plate (62) is symmetrically provided with a pair of first fan-shaped notches (64) along the circle center of the first circular plate, the second circular plate (63) is symmetrically provided with a pair of second fan-shaped notches (65) along the circle center of the second circular plate, and the areas of the first fan-shaped notches (64) and the second fan-shaped notches (65) are the same; a columnar protruding part (66) is arranged at the circle center of the first circular plate (62), and a vacant part (67) matched with the columnar protruding part (66) is arranged at the circle center of the second circular plate (63), so that the second circular plate (63) is sleeved on the columnar protruding part (66) on the first circular plate (62); a handle (68) is arranged on one side of the second circular plate (63), and an arc-shaped notch (69) for the handle (68) to slide is arranged on the side wall of the cylindrical part (61).

2. The ecological and environment-friendly fish pond according to claim 1, wherein the diameter of the water outlet is 20-25cm, and the diameter of the mesh of the filter screen (12) is 2-3 cm.

3. The ecological and environment-friendly fish pond according to claim 1, wherein the mesh diameter of the stainless steel filter screen is 1-1.5 cm.

4. The ecological and environment-friendly fish pond as claimed in claim 1, wherein the number of the plurality of oxygen supply pipes (34) is three, the three oxygen supply pipes (34) are arranged in parallel and fixed at the bottom of the oxygenation pond body (30) through a support frame (43), the air inlet ends of the three oxygen supply pipes (34) are all communicated with the air charging pipe (33), and the other ends are all closed.

5. An ecological and environmental protection fish pond according to claim 1, characterized in that the water inlet of the water inlet pipeline (38) and the water outlet of the water outlet pipeline (39) are provided with filter screens (44).

6. The ecological and environment-friendly fish pond according to claim 1, characterized in that the feeding auger (52) is fixed above the first pond body (1) through a plurality of groups of support frames (70).

7. The ecological and environment-friendly fish pond according to claim 1, wherein the first blanking port (55) and the second blanking port (56) are both rectangular square tube structures.

8. An eco-friendly fishpond according to claim 1, characterised in that the return spring (59) is arranged to: in the initial state, the material baffle plate (57) just seals the outlets of the first blanking opening (55) and the second blanking opening (56).

9. The ecological and environmental friendly fish pond as claimed in claim 1, wherein the handle (68) is fixedly connected to the second circular plate (63) through an arc-shaped piece (71), and the arc-shaped piece (71) moves in the arc-shaped gap (69).

10. An eco-friendly fishpond according to claim 1, characterized in that the discharge control mechanism (54) is configured to: when the material is not discharged, the handle (68) is rotated to ensure that the pair of first fan-shaped notches (64) of the first circular plate (62) and the pair of second fan-shaped notches (65) of the second circular plate (63) are not communicated with each other; during the discharging period, the handle (68) is rotated to make the pair of first fan-shaped notches (64) of the first circular plate (62) and the pair of second fan-shaped notches (65) of the second circular plate (63) mutually communicated.