CN219010126U - Glass fiber reinforced plastic septic tank with combined installation - Google Patents

Abstract

The utility model discloses a combined-type installed glass fiber reinforced plastic septic tank, which comprises a glass fiber reinforced plastic tank body, wherein the glass fiber reinforced plastic tank body comprises a primary septic tank, a deep septic tank and a clarification tank, a water inlet is formed in one side of the primary septic tank, a first-stage water outlet is formed in the other side of the primary septic tank, a second-stage water inlet is formed in one side of the deep septic tank, a second-stage water outlet is formed in the other side of the deep septic tank, and a third-stage water inlet is formed in one side of the clarification tank.

Description

Glass fiber reinforced plastic septic tank with combined installation

Technical Field

The utility model relates to the related technical field of septic tanks, in particular to a combined-type glass fiber reinforced plastic septic tank.

Background

The septic tank system refers to a small treatment system for dividing domestic sewage into grids for precipitation and anaerobic digestion of sludge, and is equipment for treating excrement and filtering the precipitation, and the principle is as follows: the solidification object is decomposed at the bottom of the tank, the hydration object on the upper layer enters the pipeline to flow away, the pipeline is prevented from being blocked, the solidification object is hydrolyzed for a sufficient time, more than 95% of the septic tanks begin to seriously leak after being used for 1-2 years due to various problems in the aspects of design, construction, use, management and the like, and the problem of leakage of the septic tanks seriously pollutes underground drinking water sources and urban underground water supply pipelines because the problem of leakage of the septic tanks is not emphasized by people, and the building is inclined to different degrees because the problem is more serious, so the glass fiber reinforced plastic septic tanks are gradually adopted to replace the brick reinforced plastic septic tanks.

The traditional glass fiber reinforced plastic septic tank is large in volume due to integrated forming, so that transportation is difficult in urban installation, and the large-sized crane is required to be adopted for hoisting when the septic tank is buried, so that the cost is high, and the whole septic tank needs to be replaced once a certain module of the septic tank has a problem, so that the cost is high.

Disclosure of Invention

The utility model aims to provide a combined type glass fiber reinforced plastic septic tank, which aims to solve the problems that the traditional glass fiber reinforced plastic septic tank is large in size and difficult to transport in urban installation due to integral molding in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a glass steel septic tank of combination formula installation, includes the glass steel jar body, the glass steel jar body is including elementary corruption pond, degree of depth corruption pond and clarification tank, elementary corruption pond one side is provided with the water inlet, elementary corruption pond opposite side is provided with first level delivery port, degree of depth corruption pond one side is provided with the second grade water inlet, degree of depth corruption pond opposite side is provided with the second grade water outlet, clarification tank one side is provided with the third level water inlet.

Preferably, the primary septic tank, the deep septic tank and the clarifying tank are formed by integrally molding and pressing glass fiber reinforced plastics, and stainless steel reinforcing hoops are fixed outside the primary septic tank, the deep septic tank and the clarifying tank.

Preferably, a first inspection port is formed in the top of the primary septic tank, a second inspection port is formed in the top of the deep septic tank, and a third inspection port is formed in the top of the clarifier.

Preferably, stainless steel lifting lugs are fixedly connected to the outer walls of the primary septic tank, the deep septic tank and the clarifying tank, and connecting bolts penetrate through the stainless steel lifting lugs between the primary septic tank and the deep septic tank and between the deep septic tank and the clarifying tank.

Preferably, nesting outer edges are arranged between the primary septic tank and the deep septic tank and between the deep septic tank and the clarifying tank, the nesting outer edges on the primary septic tank and the nesting outer edges on the deep septic tank are nested with each other, and the nesting outer edges on the deep septic tank and the nesting outer edges on the clarifying tank are nested with each other.

Preferably, the rear sides of the primary septic tank and the deep septic tank are respectively provided with a cross deviation prevention block, the front sides of the deep septic tank and the clarifying tank are respectively provided with a cross deviation prevention groove, the cross deviation prevention blocks and the cross deviation prevention grooves are mutually embedded, the center of each cross deviation prevention groove is provided with a glue filling thimble, the inside of each cross deviation prevention block is provided with a compressed aerosol can, the compressed aerosol can is filled with polyurethane foaming glue, the periphery of each cross deviation prevention block is provided with a first ejection port, and the periphery of each cross deviation prevention groove is provided with a second ejection port.

Compared with the prior art, the utility model has the beneficial effects that:

1. the separation of the three modules of the primary septic tank, the deep septic tank and the clarifying tank greatly reduces the difficulty of the septic tank during production and manufacture, and meanwhile, the carrying and transportation industries of the septic tank are simpler, and the septic tank can be simply connected and fixed through the connecting bolts after being separately transported to an installation site, so that the septic tank is convenient and quick to install;

2. through setting up of cross anti-deflection piece and compressed aerosol jar for when elementary corruption pond, degree of depth corruption pond and clarification tank assemble, cross anti-deflection piece can prevent the mutual gomphosis of groove with the cross, thereby makes be difficult to take place the angle skew between the different modules of septic tank, and simultaneously after the equipment, the compressed aerosol jar can be opened to the encapsulating thimble, thereby pours into polyurethane foaming glue in the gap between different modules, can play shock attenuation thermal-insulated effect.

Drawings

FIG. 1 is a schematic view of a glass fiber reinforced plastic tank structure;

FIG. 2 is a schematic diagram of the split structure of the glass fiber reinforced plastic tank body of the utility model;

FIG. 3 is a schematic view of the water inlet structure of the present utility model;

FIG. 4 is a schematic diagram of a cross anti-deviation block structure according to the present utility model;

fig. 5 is a schematic view of the compressed aerosol canister structure of the present utility model.

In the figure: 1. a glass fiber reinforced plastic tank body; 2. a primary septic tank; 3. a deep decomposition pond; 4. a clarification tank; 5. a water inlet; 6. a first inspection port; 7. a first-stage water outlet; 8. a second stage water inlet; 9. a second inspection port; 10. a second-stage water outlet; 11. a third stage water inlet; 12. a third inspection port; 13. stainless steel lifting lugs; 14. a connecting bolt; 15. nesting outer edges; 16. a cross anti-deviation block; 17. a cross anti-deviation groove; 18. a glue injection thimble; 19. a compressed aerosol canister; 20. a first ejection port; 21. and a second ejection port.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-5, the present utility model provides the following schemes:

the glass fiber reinforced plastic septic tank comprises a glass fiber reinforced plastic tank body 1, wherein the glass fiber reinforced plastic tank body 1 comprises a primary septic tank 2, a deep septic tank 3 and a clarification tank 4, the primary septic tank 2, the deep septic tank 3 and the clarification tank 4 are formed by integrally molding and pressing glass fiber reinforced plastic, stainless steel reinforcing hoops are fixed outside the primary septic tank 2, the deep septic tank 3 and the clarification tank 4, the connection strength of the glass fiber reinforced plastic tank body 1 can be enhanced, a first inspection port 6 is arranged at the top of the primary septic tank 2, a second inspection port 9 is arranged at the top of the deep septic tank 3, a third inspection port 12 is arranged at the top of the clarification tank 4, and the first inspection port 6 at the top of the primary septic tank 2, the second inspection port 9 at the top of the deep septic tank 3 and the third inspection port 12 at the top of the clarification tank 4 can be opened for inspection and blockage removal;

stainless steel lifting lugs 13 are fixedly connected to the outer walls of the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4, connecting bolts 14 penetrate through the stainless steel lifting lugs 13 between the primary septic tank 2 and the deep septic tank 3 and between the deep septic tank 3 and the clarifying tank 4, and after the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 are well butted, the connecting bolts 14 can penetrate through the stainless steel lifting lugs 13 and are screwed tightly, and at the moment, the distances among the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 are drawn to be fixed;

a water inlet 5 is arranged on one side of the primary septic tank 2, a first-stage water outlet 7 is arranged on the other side of the primary septic tank 2, a second-stage water inlet 8 is arranged on one side of the deep septic tank 3, a second-stage water outlet 10 is arranged on the other side of the deep septic tank 3, a third-stage water inlet 11 is arranged on one side of the clarifying tank 4, nested outer edges 15 are respectively arranged between the primary septic tank 2 and the deep septic tank 3 and between the deep septic tank 3 and the clarifying tank 4, the nested outer edges 15 on the primary septic tank 2 and the nested outer edges 15 on the deep septic tank 3 are mutually nested, the nested outer edges 15 on the deep septic tank 3 and the nested outer edges 15 on the clarifying tank 4 are mutually nested, cross deviation preventing blocks 16 are respectively arranged on the rear sides of the primary septic tank 2 and the deep septic tank 3, cross deviation preventing grooves 17 are respectively arranged on the front sides of the deep septic tank 3 and the clarifying tank 4, the cross deviation preventing blocks 16 and the cross deviation preventing grooves 17 are mutually embedded, the center of the cross anti-deflection groove 17 is provided with a glue filling thimble 18, the inside of the cross anti-deflection block 16 is provided with a compressed aerosol can 19, the compressed aerosol can 19 is filled with polyurethane foam glue, the periphery of the cross anti-deflection block 16 is provided with a first ejection port 20, the periphery of the cross anti-deflection groove 17 is provided with a second ejection port 21, when the connecting bolt 14 passes through the stainless steel lifting lug 13 and is screwed up, the distance between the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 is pulled up, the glue filling thimble 18 can be propped against the compressed aerosol can 19, so that a large amount of polyurethane foam glue can be ejected from the compressed aerosol can be ejected through the first ejection port 20 on the cross anti-deflection block 16 and the second ejection port 21 on the cross anti-deflection groove 17, and the gaps between the primary septic tank 2 and the deep septic tank 3 and between the deep septic tank 3 and the clarifying tank 4 are filled, because the nested outer edges 15 are arranged between the primary septic tank 2 and the deep septic tank 3 and between the deep septic tank 3 and the clarifying tank 4, the polyurethane foam adhesive can form a thick protective layer inside the nested outer edges 15, and the polyurethane foam adhesive has the effects of shock absorption and heat insulation.

Working principle: when the combined type installed glass fiber reinforced plastic septic tank is used, the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 can be transported to an installation site separately, pits with proper depth are dug, the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 are hoisted in sequence, then the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 are butted end to end in sequence, a cross deviation prevention block 16 is inserted into a cross deviation prevention groove 17, at the moment, a first-stage water outlet 7 on the primary septic tank 2 corresponds to a second-stage water inlet 8 on the deep septic tank 3, and a second-stage water outlet 10 on the deep septic tank 3 corresponds to a third-stage water inlet 11 on the clarifying tank 4;

after the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 are well butted, the connecting bolts 14 can pass through the stainless steel lifting lugs 13 and are screwed tightly, at the moment, the distances among the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 are shortened, the glue filling ejector pins 18 are pushed to the compressed aerosol cans 19, so that a large amount of polyurethane foaming glue is sprayed out of the compressed aerosol cans 19, the polyurethane foaming glue is sprayed out through the first spraying holes 20 on the cross anti-deflection blocks 16 and the second spraying holes 21 on the cross anti-deflection grooves 17, and gaps among the primary septic tank 2, the deep septic tank 3 and the clarifying tank 4 are filled, and as nesting outer edges 15 are respectively arranged between the primary septic tank 2 and the deep septic tank 3 and between the deep septic tank 3 and the clarifying tank 4, a thick protective layer is formed inside the nesting outer edges 15, and the polyurethane foaming glue has the effects of shock absorption and heat insulation;

when the septic tank is used, sewage firstly enters the primary septic tank 2 through the water inlet 5 to be decomposed, then enters the deep septic tank 3 through the first-stage water outlet 7 and the second-stage water inlet 8 to be deeply decomposed, and then enters the clarification tank 4 to be clarified, and the first inspection opening 6 at the top of the primary septic tank 2, the second inspection opening 9 at the top of the deep septic tank 3 and the third inspection opening 12 at the top of the clarification tank 4 can be opened to inspect and remove blockage, so that a series of works are completed. What is not described in detail in this specification is prior art known to those skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a glass steel septic tank of combination formula installation, includes glass steel jar body (1), its characterized in that: the glass fiber reinforced plastic tank body (1) comprises a primary septic tank (2), a deep septic tank (3) and a clarifying tank (4), a water inlet (5) is formed in one side of the primary septic tank (2), a first-stage water outlet (7) is formed in the other side of the primary septic tank (2), a second-stage water inlet (8) is formed in one side of the deep septic tank (3), a second-stage water outlet (10) is formed in the other side of the deep septic tank (3), and a third-stage water inlet (11) is formed in one side of the clarifying tank (4).

2. A modular mounted glass fiber reinforced plastic septic tank according to claim 1 and wherein: the primary septic tank (2), the deep septic tank (3) and the clarifying tank (4) are formed by integrally molding and pressing glass fiber reinforced plastics, and stainless steel reinforcing hoops are fixed outside the primary septic tank (2), the deep septic tank (3) and the clarifying tank (4).

3. A modular mounted glass fiber reinforced plastic septic tank according to claim 1 and wherein: the top of the primary septic tank (2) is provided with a first inspection port (6), the top of the deep septic tank (3) is provided with a second inspection port (9), and the top of the clarifying tank (4) is provided with a third inspection port (12).

4. A modular mounted glass fiber reinforced plastic septic tank according to claim 1 and wherein: stainless steel lifting lugs (13) are fixedly connected to the outer walls of the primary septic tank (2), the deep septic tank (3) and the clarifying tank (4), and connecting bolts (14) penetrate through the stainless steel lifting lugs (13) between the primary septic tank (2) and the deep septic tank (3) and between the deep septic tank (3) and the clarifying tank (4).

5. A modular mounted glass fiber reinforced plastic septic tank according to claim 1 and wherein: nesting outer edges (15) are arranged between the primary septic tank (2) and the deep septic tank (3) and between the deep septic tank (3) and the clarifying tank (4), the nesting outer edges (15) on the primary septic tank (2) and the nesting outer edges (15) on the deep septic tank (3) are nested with each other, and the nesting outer edges (15) on the deep septic tank (3) and the nesting outer edges (15) on the clarifying tank (4) are nested with each other.

6. A modular mounted glass fiber reinforced plastic septic tank according to claim 1 and wherein: the rear sides of the primary septic tank (2) and the deep septic tank (3) are respectively provided with a cross deviation prevention block (16), the front sides of the deep septic tank (3) and the clarifying tank (4) are respectively provided with a cross deviation prevention groove (17), the cross deviation prevention blocks (16) and the cross deviation prevention grooves (17) are mutually embedded, the center of the cross deviation prevention grooves (17) is provided with a glue filling thimble (18), the cross anti-deviation block (16) is internally provided with a compressed aerosol can (19), the compressed aerosol can (19) is filled with polyurethane foam rubber, the periphery of the cross anti-deviation block (16) is provided with a first ejection port (20), and the periphery of the cross anti-deviation groove (17) is provided with a second ejection port (21).

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