CN209974566U

CN209974566U - Glass tempering manure pit convenient to clearance

Info

Publication number: CN209974566U
Application number: CN201920263847.7U
Authority: CN
Inventors: 彭勇
Original assignee: Yunnan Henghong Environmental Protection Technology Co Ltd
Current assignee: Yunnan Henghong Environmental Protection Technology Co Ltd
Priority date: 2019-03-02
Filing date: 2019-03-02
Publication date: 2020-01-21
Anticipated expiration: 2029-03-02

Abstract

The utility model provides a glass tempering manure pit convenient to clearance. The glass fiber reinforced plastic septic tank convenient to clean comprises a storage mechanism; a water inlet pipe; a drain pipe; a blocking mechanism; the crushing mechanism is rotatably connected with the inside of the bottom end of the storage mechanism; the cleaning mechanism comprises an electric push rod, a push plate, a sealing plate, a feeding hopper and a cleaning pipe, the electric push rod is installed inside the bottom end of the storage mechanism, one end of the electric push rod is fixedly connected with the push plate, and the push plate with an arc-shaped side wall is connected with the inside of the storage mechanism in a sliding mode; the bottom end of the storage mechanism is rotatably connected with the sealing plate, and the sealing plate abuts against the push plate; the cleaning pipe is arranged at the residence of the storage mechanism, and the feeding hoppers are symmetrically arranged at the bottom end of the cleaning pipe; a sealing mechanism; and a connecting mechanism. The utility model provides a glass tempering manure pit clears up precipitate fast convenient to clearance.

Description

Glass tempering manure pit convenient to clearance

Technical Field

The utility model relates to a septic tank technical field especially relates to a glass tempering manure pit convenient to clearance.

Background

The septic tank is the equipment that handles excrement and urine and filters the sediment. The principle is that the condensate decomposes at the bottom of the tank, the upper hydrated object flows away in the pipeline, the pipeline is prevented from being blocked, and sufficient time is provided for the hydrolysis of the solidified object (garbage such as excrement). The septic tank refers to a small-sized treatment structure for carrying out cellular precipitation on domestic sewage and carrying out anaerobic digestion on sludge.

In the process of using the glass tempering manure pit, some impurity after decomposing deposit in the inside bottom of septic tank, are difficult to clear up, and impurity piles up too much and can cause the inside jam of septic tank.

Therefore, a new glass fiber reinforced plastic septic tank convenient to clean is needed to solve the technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model solves the technical problem of providing a glass fiber reinforced plastic septic tank which can quickly clean the sediment and is convenient to clean.

In order to solve the technical problem, the utility model provides a glass tempering manure pit convenient to clearance includes: a storage mechanism; the water inlet pipe is arranged at the top end of the storage mechanism; the drain pipe is arranged at the bottom end of the storage mechanism; a blocking mechanism mounted inside the storage mechanism; the crushing mechanism is rotatably connected with the inside of the bottom end of the storage mechanism; the cleaning mechanism is fixed inside the storage mechanism and comprises an electric push rod, a push plate, a sealing plate, a feeding hopper and a cleaning pipe, the electric push rod is installed inside the bottom end of the storage mechanism, one end of the electric push rod is fixedly connected with the push plate, and the push plate with an arc-shaped side wall is slidably connected with the inside of the storage mechanism; the bottom end of the storage mechanism is rotatably connected with the sealing plate, and the sealing plate abuts against the push plate; the cleaning pipe is arranged at the residence of the storage mechanism, and the feeding hoppers are symmetrically arranged at the bottom end of the cleaning pipe; the sealing mechanisms are arranged in the cleaning pipe at equal intervals; the connecting mechanism is arranged in the storage mechanism and is in sliding connection with one end of the push plate.

Preferably, the storage mechanism comprises a box body, a first cylinder and a second cylinder, the drain pipe is installed at the bottom end of the first cylinder, and the water inlet pipe is installed at the top end of the second cylinder; the top surface of box installation first barrel with the second barrel, just first barrel fixed connection the second barrel.

Preferably, the blocking mechanism comprises a groove, a first partition plate and a second partition plate, the first partition plate is installed at the top end of the second cylinder, the second partition plate is installed at the joint of the first cylinder and the second cylinder, and the grooves with trapezoidal sectional areas are respectively formed in the bottom end of the first partition plate and the top end of the second partition plate.

Preferably, the crushing mechanism comprises a motor, a feeding groove, a rotating shaft and a blade, the motor is installed at the joint of the box body and the second cylinder, and the rotating shaft is installed at one end of the motor; the discharging groove is formed in the middle connecting position of the second cylinder and the box body and the inner connecting position of the first cylinder and the box body respectively; the inside of unloading groove is rotated and is connected the pivot, the lateral wall equidistance of pivot is installed the spiral blade.

Preferably, the bottom end of the second cylinder body inclines from the two ends of the second cylinder body to the inner living position of the second cylinder body, the bottom end of the blanking groove is rotatably connected with the sealing plate, and the height of the push plate and the length of the sealing plate are equal to the minimum height of the box body.

Preferably, the connecting mechanism comprises a fixing rod and a baffle plate, the baffle plate is symmetrically arranged in the box body, and the electric push rod penetrates through the baffle plate; the blanking groove and the feeding hopper are positioned between the two baffles, and the feeding hopper is arranged inside the box body; the top end of the push plate is provided with the fixed rod, the fixed rod is connected with the box body and the inner part of the baffle in a sliding manner, and the fixed rod is connected with one end of the sealing plate in a sliding manner; the topmost end of the fixed rod is flush with the topmost end of the push plate, and the length of the fixed rod is greater than half of the vertical distance between the two baffles.

Preferably, the sealing mechanism comprises fixing blocks, a piston, a fixing ring, a mounting block, a spring and a supporting rod, the cleaning pipe is mounted inside the box body and the second cylinder body, the fixing blocks are mounted inside the cleaning pipe at equal intervals, and two fixed ends are hollow and leak-shaped; the fusiform mounting blocks are equidistantly mounted inside the cleaning pipe, the mounting blocks are connected with the supporting rod in a sliding mode, the spherical piston is mounted at the bottom end of the supporting rod, and the piston is clamped and connected with the inside of the fixing block in a sliding mode; the bottom of bracing piece is installed solid fixed ring, the top suit of bracing piece the spring, the spring mounting in the inside of installation piece, just gu fixed ring with the inside sliding connection of installation piece just contradicts the bottom of spring.

Compared with the prior art, the utility model provides a glass tempering manure pit convenient to clearance has following beneficial effect:

the utility model provides a glass tempering manure pit convenient to clearance, in the use, some non-decomposition material deposit in the bottom of storing mechanism 3, rubbing crusher constructs 5 and rotates in the inside of the bottom of storing mechanism 3, stirs bold precipitate, reduces the volume of precipitate, just electric putter 21 moves, electric putter 21 promotes the lateral wall and is curved push pedal 22 is in the bottom motion of storing mechanism 3, push pedal 22 moves to the inside residence of storing mechanism 3, thereby promotes the precipitate in the inside of storing mechanism 3, makes the precipitate motion in the inside of storing mechanism 3 get into the inside of feed hopper 24, and the precipitate is extruded and runs through feed hopper 24 gets into the inside of clearance pipe 25, and when push pedal 22 moved, push pedal 22 extrudes sealing plate 23, the sealing plate 23 is rotatably clamped with the bottom end of the crushing mechanism 5, so that the sediment in the storage mechanism 3 is prevented from continuously sliding downwards and the bottom end of the storage mechanism 3 is sealed, the push plate 23 is convenient to press the sediment at the bottom end of the storage mechanism 3 into the cleaning pipe 25, the push plate 23 is driven by the electric push rod 21 to continuously move back and forth in the storage mechanism 3, so that the sediment in the storage mechanism 3 is pressed into the cleaning pipe 25, the sediment in the cleaning pipe 25 moves upwards, the sediment in the storage mechanism 25 quickly moves upwards in the cleaning pipe 25, the sediment is discharged from the cleaning pipe 25, and the bottom end of the storage mechanism 3 is kept clean.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the glass fiber reinforced plastic septic tank convenient to clean provided by the utility model;

FIG. 2 is a schematic view of the internal structure of the storage mechanism shown in FIG. 1;

fig. 3 is a schematic view of the internal structure of the cleaning pipe shown in fig. 2.

Reference numbers in the figures: 1. the water inlet pipe, 2, the clearance mechanism, 21, electric putter, 22, the push pedal, 23, the closing plate, 24, feed hopper, 25, the clearance pipe, 3, storage mechanism, 31, the box, 32, first barrel, 33, the second barrel, 4, the drain pipe, 5, rubbing crusher constructs, 51, the motor, 52, the feed chute, 53, the pivot, 54, the blade, 6, stop mechanism, 61, the recess, 62, first baffle, 63, the second baffle, 7, sealing mechanism, 71, the fixed block, 72, the piston, 73, solid fixed ring, 74, the installation piece, 75, the spring, 76, the bracing piece, 8, coupling mechanism, 81, the dead lever, 82, the baffle.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2 and fig. 3 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of a glass fiber reinforced plastic septic tank convenient for cleaning according to the present invention; FIG. 2 is a schematic view of the internal structure of the storage mechanism shown in FIG. 1; fig. 3 is a schematic view of the internal structure of the cleaning pipe shown in fig. 2. Glass tempering manure pit convenient to clearance includes: a storage mechanism 3; the water inlet pipe 1 is arranged at the top end of the storage mechanism 3; the drain pipe 4 is arranged at the bottom end of the storage mechanism 3, and the drain pipe 1 is arranged at the bottom end of the storage mechanism; a blocking mechanism 6, wherein the blocking mechanism 6 is installed inside the storage mechanism 3; the crushing mechanism 5 is rotatably connected with the inside of the bottom end of the storage mechanism 3; the cleaning mechanism 2 is fixed inside the storage mechanism 3, the cleaning mechanism 2 comprises an electric push rod 21, a push plate 22, a sealing plate 23, a feeding funnel 24 and a cleaning pipe 25, the electric push rod 21 is installed inside the bottom end of the storage mechanism 3, one end of the electric push rod 22 is fixedly connected with the push plate 22, and the push plate 22 with an arc-shaped side wall is connected with the inside of the storage mechanism 3 in a sliding manner; the bottom end of the storage mechanism 3 is rotatably connected with the sealing plate 23, and the sealing plate 23 abuts against the push plate 22; the cleaning pipe 25 is arranged at the residence of the storage mechanism 3, and the feeding hopper 24 is symmetrically arranged at the bottom end of the cleaning pipe 25; a plurality of sealing mechanisms 8, wherein the sealing mechanisms 8 are arranged in the cleaning pipe 25 at equal intervals; the connecting mechanism 8 is installed inside the storage mechanism 3, and the connecting mechanism 8 is connected with one end of the push plate 22 in a sliding manner.

The storage mechanism 3 comprises a box body 31, a first barrel 32 and a second barrel 33, the water outlet pipe 4 is installed at the bottom end of the first barrel 32, and the water inlet pipe 1 is installed at the top end of the second barrel 33; the top surface installation of box 31 first barrel 32 with second barrel 33, just first barrel 32 fixed connection second barrel 33, for the convenience domestic waste passes through inlet tube 1 gets into the inside of second barrel 33, the water entering after the decomposition the inside of first barrel 32 is followed the inside discharge of drain pipe 4, and makes first barrel 32 with the inside precipitate entering of second barrel 33 the inside of box 31.

The blocking mechanism 6 comprises a groove 61, a first partition plate 62 and a second partition plate 63, the first partition plate 62 is installed at the top end of the second cylinder 33, the second partition plate 63 is installed at the joint of the first cylinder 32 and the second cylinder 33, the groove 61 with the trapezoidal cross section is respectively arranged at the bottom end of the first partition plate 62 and the top end of the second partition plate 63, the excrement entering the second cylinder 33 is blocked by the first partition plate 62, the movement speed of the excrement is reduced, and the excrement is precipitated at the bottom end of the second cylinder 33; and the decomposed water penetrates through the groove 61 to contact with the second partition 63, so that the water and some impurities move upwards, the impurities are deposited at the bottom end of the second cylinder 33, and the deposited water penetrates through the groove 61 at the top end of the second partition 63 to enter the inside of the first cylinder 32.

The crushing mechanism 5 comprises a motor 51, a blanking groove 52, a rotating shaft 53 and a blade 54, the motor 51 is arranged at the joint of the box body 31 and the second cylinder 33, and the rotating shaft 53 is arranged at one end of the motor 51; the discharging groove 52 is respectively arranged at the middle connecting part of the second cylinder body 33 and the box body 31 and the inner connecting part of the first cylinder body 32 and the box body 31; the inside of silo 52 rotates down to be connected pivot 53, the spiral is installed to the lateral wall equidistance of pivot 53 the blade 54 follows the second barrel 33 gets into the inside deposit of box 31 gets into the inside of silo 52 down, motor 51 drives pivot 53 rotates, pivot 53 drives blade 54 is in the inside of silo 52 rotates down, makes blade 53 will get into the inside deposit of box 31 is smashed, reduces the volume of deposit, makes things convenient for the deposit to follow the inside of box 31 is discharged.

The bottom end of the second cylinder 33 is inclined from the two ends of the second cylinder 33 to the inner residence of the second cylinder 33, so that the sediment in the second cylinder 33 can enter the lower trough 52 conveniently, the bottom end of the lower trough 52 is rotatably connected with the sealing plate 23, when the push plate 22 presses the sediment in the box 31 conveniently, the sealing plate 23 seals the bottom end of the lower trough 52 to prevent the sediment from entering the box 31, and the height of the push plate 22 and the length of the sealing plate 23 are equal to the minimum height in the box 31, so that the sealing plate 23 can rotate to abut against the bottom end of the box 31 conveniently, and one end of the box 31 is sealed.

The connecting mechanism 8 comprises a fixing rod 81 and a baffle 82, the baffle 82 is symmetrically arranged in the box body 31, and the electric push rod 21 penetrates through the baffle 82; the blanking chute 52 and the feeding hopper 24 are positioned between the two baffles 82, so that the sediment in the box body 31 can be conveniently fixed between the two baffles 82, and the feeding hopper 24 is arranged in the box body 31 and is convenient for the sediment to enter the feeding hopper 24; the fixing rod 81 is installed at the top end of the push plate 22, the fixing rod 81 is slidably connected with the box body 31 and the inner part of the baffle 82, and the fixing rod 81 is slidably connected with one end of the sealing plate 23; the topmost end of the fixing rod 81 is flush with the topmost end of the push plate 22, and the length of the fixing rod 81 is greater than half of the vertical distance between the two baffles 82; in order to facilitate the movement of the push plate 22 to the inner residence of the box 31, the push plate 22 drives the fixing rod 81 to move inside the baffle 82, and when the push plate 22 presses the sediment and is separated from the sealing plate 23, the fixing rod 81 contacts one end of the sealing plate 23, so that the fixing rod 81 supports the sealing plate 23 upward, the sealing plate 23 closes the feeding chute 52, and the sediment inside the first cylinder 32 and the second cylinder 33 is prevented from entering the box 31.

The sealing mechanism 7 comprises a fixed block 71, a piston 72, a fixed ring 73, a mounting block 74, a spring 75 and a support rod 76, the cleaning pipe 25 is mounted inside the box body 31 and the second cylinder 33, the fixed blocks 71 are mounted inside the cleaning pipe 25 at equal intervals, and two ends of the fixed blocks 71 are hollow and leak-shaped; the fusiform mounting blocks 74 are equidistantly mounted inside the cleaning pipe 25, the mounting blocks 74 are connected with the supporting rod 76 in a sliding manner, the spherical piston 72 is mounted at the bottom end of the supporting rod 76, and the piston 72 is clamped and connected with the inside of the fixing block 71 in a sliding manner; the bottom end of the support bar 76 is provided with the fixing ring 73, the top end of the support bar 76 is sleeved with the spring 75, the spring 75 is arranged inside the mounting block 74, and the fixing ring 73 is slidably coupled with the inside of the mounting block 74 and abuts against the bottom end of the spring 75, when the sludge inside the tank body 31 moves upward inside the cleaning pipe 25, the sludge enters the fixing block 71 in a funnel shape, the sediment presses the piston 72 upwards, the piston 72 moves upwards in the fixed block 71, the fixed block 71 is opened, the sediment penetrates through the fixed block 71 and moves upwards in the cleaning pipe 25, and the piston 72 pushes the support rod 76 to move upward inside the mounting block 74, the supporting rod 76 drives the fixing ring 73 to move upwards to press the spring 75 inside the mounting block 74; when the sediment in the cleaning pipe 25 is not squeezed, the spring 75 squeezes the fixing ring 73 downwards, under the action of gravity and the spring 75, the support rod 76 moves downwards in the mounting block 74, the support rod 76 drives the piston 72 to enter the fixing block 71, the piston 72 seals the fixing block 71, the sediment which is not discharged is fixed in the cleaning pipe 25 in a segmented manner, and the sediment in the cleaning pipe 25 is prevented from moving downwards to enter the box body 31, so that the sediment is discharged from the cleaning pipe 25 without moving upwards.

The utility model provides a glass tempering manure pit convenient to clearance's theory of operation as follows: the device is fixed at the bottom of the ground and then connected with a power supply. Excrement and water enter the interior of the second barrel 33 through the water inlet pipe 1, the excrement entering the interior of the second barrel 33 is blocked by the first partition plate 62, the movement speed of the excrement is reduced, the excrement is precipitated at the bottom end of the second barrel 33, the excrement and the water are precipitated in the interior of the second barrel 33, the excrement is decomposed by microorganisms, and the excrement is degraded in the wool top of the second barrel 33; and the decomposed water penetrates through the groove 61 on the side wall of the first partition plate 62 to contact with the second partition plate 63, so that the water and some impurities move upwards, the impurities are deposited at the bottom end of the second cylinder 33 under the action of gravity, the deposited water penetrates through the groove 61 at the top end of the second partition plate 63 to enter the inside of the first cylinder 32, and the decomposed water is discharged from the inside of the drain pipe 4. After the storage mechanism 3 is used for a period of time, some non-decomposed sediments are left at the bottom ends of the first cylinder 32 and the second cylinder 33, the bottom end inside of the second cylinder 33 inclines from the two ends of the second cylinder 33 to the inner residence place of the second cylinder 33, the inner bottom surface of the first cylinder 32 inclines downwards, so that the sediments inside the first cylinder 32 and the second cylinder 33 enter the inner part of the blanking groove 52, the motor 51 is turned on, the motor 51 drives the rotating shaft 53 to rotate, the rotating shaft 53 drives the blade 54 to rotate inside the blanking groove 52, the sediments moving downwards from the second cylinder 33 contact the blade 53, the blade 53 is enabled to stir the sediments entering the inner part of the box 31, the volume of the sediments is reduced, and the sediments are convenient to be discharged from the inner part of the box 31, and the sediment inside the first cylinder 32 passes through the discharging chute 52 into the inside of the box body 31. When the hydraulic push rods 42 (the type of the hydraulic push rods 42 is TJC-C1) are opened, the two hydraulic push rods 42 push the push plate 22 to move simultaneously in the box body 31, the push plate 22 moves towards the inner residence of the box body 31, the periphery of the push plate 22 moves tightly against the inner side wall of the box body 31, the push plate 22 pushes sediment in the box body 31, the sediment in the box body 31 moves into the feeding hopper 24, the sediment is extruded to penetrate through the feeding hopper 24 and enter the cleaning pipe 25, when the push plate moves towards the inner residence of the box body 31, the push plate 32 moves to extrude the sealing plate 23, the sealing plate 23 rotates 90 degrees to clamp the bottom end of the blanking groove 52, so that the bottom end of the box body 31 is closed, and when the push plate 22 moves tightly against the inner side wall of the box body 31 towards the inner residence of the box body 31, the push plate 22 drives the fixing rod 81 to move inside the baffle 82, when the push plate 22 extrudes sediment and is separated from the sealing plate 23, the fixing rod 81 contacts with one end of the sealing plate 23, the fixing rod 81 supports the sealing plate 23 upwards, the sealing plate 23 seals the blanking slot 52, the sediment inside the first cylinder 32 and the second cylinder 33 is prevented from entering the inside of the box 31, the push plate 32 with arc side wall presses the sediment at the bottom end of the box 31 into the cleaning pipe 25, when the push plate 22 contacts with the feeding funnel 24, the electric push rod 21 drives the push plate 22 to move towards the two ends of the box 31 in reverse direction, the push plate 22 moves, the push plate 22 and the fixing rod 81 are separated from the sealing plate 23, under the action of gravity, the sealing plate 23 is rotated downward inside the chute 52, and the length of the sealing plate 23 is equal to the minimum height inside the box body 31, so that one end of the sealing plate 23 is in contact with the bottom inside the box body 31, so that the sediment and water inside the chute 52 are fixed between the two sealing plates 23, the sediment is prevented from leaking between the push plate 22 and the baffle 82, the push plate 22 is convenient to press the sediment inside the box body 31, and when the baffle 82 is in contact with the push plate 22, the push plate 22 starts to move reversely to the inner residence of the box body 31. Along with the back and forth movement of the push plate 22 in the box body 31, water and sediments are enabled to enter the inside of the drain pipe 4 ceaselessly, when sediments in the box body 31 move upwards in the cleaning pipe 25, the sediments and the water enter the funnel-shaped fixed blocks 71, the sediments press the piston 72 upwards, the piston 72 moves upwards in the fixed blocks 71, the fixed blocks 71 are opened, the sediments penetrate through the fixed blocks 71 to move upwards in the cleaning pipe 25, the piston 72 pushes the support rod 76 to move upwards in the mounting block 74, and the support rod 76 drives the fixing ring 73 to move upwards to press the spring 75 in the mounting block 74; when the sediment in the cleaning pipe 25 is not squeezed, the spring 75 squeezes the fixing ring 73 downward, under the action of gravity and the spring 75, the support rod 76 moves downward in the installation block 74, the support rod 76 drives the piston 72 to enter the fixing block 71, the plurality of pistons 72 close the plurality of fixing blocks 71, so that the sediment which is not discharged is fixed in the cleaning pipe 25 in a segmented manner, the sediment in the cleaning pipe 25 is prevented from moving downward to enter the box body 31, and the sediment enters the cleaning pipe 25 continuously along with water and sediment, so that the sediment is discharged from the cleaning pipe 25 continuously and the sediment in the box body 31 is discharged from the cleaning pipe 25 continuously.

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

1. The utility model provides a glass tempering manure pit convenient to clearance which characterized in that includes:

a storage mechanism;

the water inlet pipe is arranged at the top end of the storage mechanism;

the drain pipe is arranged at the bottom end of the storage mechanism;

a blocking mechanism mounted inside the storage mechanism;

the crushing mechanism is rotatably connected with the inside of the bottom end of the storage mechanism;

the cleaning mechanism is fixed inside the storage mechanism and comprises an electric push rod, a push plate, a sealing plate, a feeding hopper and a cleaning pipe, the electric push rod is installed inside the bottom end of the storage mechanism, one end of the electric push rod is fixedly connected with the push plate, and the push plate with an arc-shaped side wall is slidably connected with the inside of the storage mechanism; the bottom end of the storage mechanism is rotatably connected with the sealing plate, and the sealing plate abuts against the push plate; the cleaning pipe is arranged at the residence of the storage mechanism, and the feeding hoppers are symmetrically arranged at the bottom end of the cleaning pipe;

the sealing mechanisms are arranged in the cleaning pipe at equal intervals;

the connecting mechanism is arranged in the storage mechanism and is in sliding connection with one end of the push plate.

2. The easy-to-clean glass fiber reinforced plastic septic tank of claim 1, wherein the storage mechanism comprises a tank body, a first cylinder and a second cylinder, the bottom end of the first cylinder is provided with the drain pipe, and the top end of the second cylinder is provided with the water inlet pipe; the top surface of box installation first barrel with the second barrel, just first barrel fixed connection the second barrel.

3. The fiberglass septic tank convenient to clean of claim 2, wherein the blocking mechanism comprises a groove, a first partition plate and a second partition plate, the first partition plate is installed at the top end of the second cylinder, the second partition plate is installed at the joint of the first cylinder and the second cylinder, and the groove with trapezoidal cross section is respectively arranged at the bottom end of the first partition plate and the top end of the second partition plate.

4. The easy-to-clean glass fiber reinforced plastic septic tank of claim 2, wherein the crushing mechanism comprises a motor, a feeding trough, a rotating shaft and a blade, the motor is installed at the joint of the tank body and the second cylinder, and the rotating shaft is installed at one end of the motor; the discharging groove is formed in the middle connecting position of the second cylinder and the box body and the inner connecting position of the first cylinder and the box body respectively; the inside of unloading groove is rotated and is connected the pivot, the lateral wall equidistance of pivot is installed the spiral blade.

5. The fiberglass septic tank convenient to clean up of claim 4, wherein the bottom end inside of the second cylinder is inclined from both ends of the second cylinder to the inside of the second cylinder, and the bottom end of the discharging chute is rotatably connected with the sealing plate, and the height of the push plate and the length of the sealing plate are equal to the minimum height of the inside of the tank body.

6. The glass fiber reinforced plastic septic tank convenient to clean up of claim 4, wherein the connecting mechanism comprises a fixing rod and a baffle, the baffle is symmetrically installed inside the tank body, and the electric push rod penetrates through the baffle; the blanking groove and the feeding hopper are positioned between the two baffles, and the feeding hopper is arranged inside the box body; the top end of the push plate is provided with the fixed rod, the fixed rod is connected with the box body and the inner part of the baffle in a sliding manner, and the fixed rod is connected with one end of the sealing plate in a sliding manner; the topmost end of the fixed rod is flush with the topmost end of the push plate, and the length of the fixed rod is greater than half of the vertical distance between the two baffles.

7. The glass fiber reinforced plastic septic tank convenient to clean up of claim 6, wherein the sealing mechanism comprises a fixing block, a piston, a fixing ring, a mounting block, a spring and a support rod, the cleaning pipe is mounted inside the tank body and the second barrel, a plurality of fixing blocks are mounted inside the cleaning pipe at equal intervals, and two ends of the fixing block are hollow and leak-shaped; the fusiform mounting blocks are equidistantly mounted inside the cleaning pipe, the mounting blocks are connected with the supporting rod in a sliding mode, the spherical piston is mounted at the bottom end of the supporting rod, and the piston is clamped and connected with the inside of the fixing block in a sliding mode; the bottom of bracing piece is installed solid fixed ring, the top suit of bracing piece the spring, the spring mounting in the inside of installation piece, just gu fixed ring with the inside sliding connection of installation piece just contradicts the bottom of spring.