CN211033843U - Waste mineral oil anti-seepage storage chamber - Google Patents

Abstract

The utility model discloses a waste mineral oil seepage-proofing storage chamber, which relates to the technical field of dangerous waste liquid storage places and solves the problems that the seepage position on a shaped pile body cannot be directly observed and the accurate position of seepage cannot be determined; the middle drainage body and the bottom layer flow guide body are sequentially fixed between the storage chamber body and the bottom plate, the drainage cavity and the flow guide cavity are respectively formed inside the middle drainage body and the bottom layer flow guide body, and transparent windows are fixedly embedded in one side of the storage chamber body, one side of the middle drainage body and one side of the bottom layer flow guide body. The storage box with leakage can be quickly identified by observing the oil stain of the waste mineral oil on the supporting seat, and the storage box is checked and corrected, so that the adverse effect caused by the leakage of the waste mineral oil is effectively reduced, and the device is more environment-friendly.

Description

Waste mineral oil anti-seepage storage chamber

Technical Field

The utility model belongs to the technical field of danger waste liquid storage place technique and specifically relates to a useless mineral oil prevention of seepage storage chamber is related to.

Background

With the development of society, the amount of generated wastes is also increasing, the dangerous waste pollution event is occurring continuously, so that the management problem of the dangerous waste gets more and more attention, and the storage of the dangerous waste is an important link in the management and control process of the dangerous waste, so that various enterprises which generate the wastes by the environmental protection department must build facilities and places for storing and disposing industrial fixed wastes to ensure that the waste discharge meets the national environmental standard.

The patent publication No. CN205296241U discloses an anti-seepage structure for hazardous waste safety landfill after sealing, wherein the anti-seepage structure is arranged on a shaped pile body and comprises an expansion filtrate guide and discharge layer, an expansion impervious layer, an expansion protective layer, a sealing impervious layer and a landfill gas guide and discharge layer which are sequentially arranged from top to bottom, the landfill gas guide and discharge layer is arranged on the upper part of the shaped pile body, and the upper part of the expansion leachate guide and discharge layer is the expansion landfill pile body.

The above prior art solutions have the following drawbacks: the seepage-proofing function of the leaked liquid is realized, but the leakage position on the shaped stack body cannot be directly observed, the accurate position of the leakage cannot be determined, and the leakage position is difficult to process and remedy from the root, so that the leaked liquid is passively processed for a long time, and the labor cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be convenient for observe the liquid seepage condition, be convenient for in time handle the seepage position, solve the seepage problem's of useless mineral oil prevention of seepage storage chamber from the root cause.

The utility model discloses a can realize through following technical scheme:

a waste mineral oil seepage-proofing storage chamber comprises a bottom plate, wherein a protective fence is arranged at the edge of the bottom plate in an enclosing mode, a storage chamber body is fixed in a space formed by the protective fence through the bottom plate, a plurality of supporting seats are fixed inside the storage chamber body, and a storage tank for storing mineral oil is arranged on each supporting seat;

an intermediate drainage body and a bottom layer flow guide body are sequentially fixed between the storage chamber body and the bottom plate, a drainage cavity and a flow guide cavity are respectively formed in the intermediate drainage body and the bottom layer flow guide body, the drainage cavity, the flow guide cavity and the storage chamber are communicated, and transparent windows are fixedly embedded in one side of the storage chamber body, one side of the intermediate drainage body and one side of the bottom layer flow guide body.

Through adopting above-mentioned technical scheme, utilize the storage tank to store mineral oil waste, utilize the storage chamber body to protect a plurality of storage tanks, when taking place mineral oil waste leakage in the storage tank, be convenient for the staff body outside the storage chamber through transparent window, to the storage chamber body, the accumulation condition of the inside mineral oil waste of middle drainage body and bottom baffle is observed, thereby be convenient for in time discover the condition that mineral oil waste takes place to leak, simultaneously through observing the oil stain of mineral oil waste on the bearing, can the quick identification take place the storage tank of leaking, and inspect and revise this storage tank, and then effectively reduce the bad consequence that mineral oil waste leakage leads to, environmental protection more.

Further setting the following steps: and the supporting seat is wound with glass fiber coarse gauze.

Through adopting above-mentioned technical scheme, when taking place the waste mineral oil and leaking, utilize glass fiber coarse gauze to adsorb the waste mineral oil, through the last adsorbed oil stain of glass fiber coarse gauze, the staff of being convenient for more identifies the container that takes place the waste mineral oil and leak fast.

Further setting the following steps: a plurality of first drainage holes communicated with the drainage cavity are formed between the storage chamber body and the middle drainage body, and a plurality of second drainage holes communicated with the drainage cavity and the flow guide cavity are formed between the middle drainage body and the bottom flow guide body.

Through adopting above-mentioned technical scheme, utilize first drainage hole to be convenient for guide this internal waste mineral oil of storage chamber to arrange to drainage intracavity, utilize the second drainage hole to be convenient for guide drainage intracavity waste mineral oil to arrange to the water conservancy diversion intracavity, be convenient for store the waste mineral oil who leaks, effectively reduce the possibility that waste mineral oil leaked to the storage chamber body outside, environmental protection more.

Further setting the following steps: the inner bottom wall of the bottom flow guide body is provided with a leakage storage groove and a plurality of flow guide channels communicated with the leakage storage groove.

Through adopting above-mentioned technical scheme, guide the waste mineral oil who flows to the water conservancy diversion chamber through the water conservancy diversion channel and arrange to the leak hunting groove, utilize the leak hunting groove to store the waste mineral oil who leaks.

Further setting the following steps: a drainage pipe is fixed in the leakage storage tank, the drainage pipe extends to the outside of the bottom layer flow guide body, and a plurality of collecting holes which are in one-to-one correspondence with the flow guide channels are formed in the periphery of the drainage pipe.

By adopting the technical scheme, the waste mineral oil is guided into the drainage pipe by the collecting hole, and then is guided into the collecting device outside the storage chamber by the drainage pipe, so that the final collection of the waste mineral oil is realized.

Further setting the following steps: and a liquid sensor is fixed in the drainage pipe.

Through adopting above-mentioned technical scheme, utilize liquid sensor to detect the waste mineral oil in the drainage pipe to the staff of being convenient for acquires the information that waste mineral oil took place to leak fast, is convenient for handle the position that takes place to leak fast.

Further setting the following steps: and impermeable layers are fixed on the bottom wall of the storage chamber body, the bottom wall of the middle drainage fluid and the bottom wall of the bottom flow guide body, and are made of glass fiber reinforced plastics.

By adopting the technical scheme, the anti-seepage effect of the storage chamber body, the middle drainage body and the bottom diversion body is enhanced by the anti-seepage layer, so that the storage chamber is safer and more environment-friendly.

Further setting the following steps: the top of the storage box is provided with a plurality of vent holes.

Through adopting above-mentioned technical scheme, the exhaust hole is convenient for the storage tank inside ventilative, reduces the risk that the product gas is too much to lead to the explosion in the storage tank.

To sum up, the utility model discloses a beneficial technological effect does:

(1) the storage box stores the waste mineral oil, the storage box is protected by the storage chamber body, and workers can observe the oil leakage situation outside the storage chamber body conveniently through the transparent window;

(2) when the waste mineral oil leaks, the glass fiber coarse gauze is used for adsorbing the waste mineral oil, and the oil stain adsorbed on the glass fiber coarse gauze is more convenient for workers to quickly identify the storage box with the waste mineral oil leakage, so that the storage box can be conveniently checked and corrected, and adverse effects caused by the waste mineral oil leakage are reduced to the maximum extent;

(3) the leaked waste mineral oil is guided by the middle drainage body and the bottom layer flow guide body, and the waste mineral oil in the leakage storage tank is guided to be discharged into the collection equipment outside the storage chamber through the drainage pipe, so that the final collection of the leaked waste mineral oil is realized, the harm is reduced, and the environment is protected.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the present invention

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2;

fig. 5 is a sectional view taken along line C-C of fig. 1.

Reference numerals: 1. a base plate; 2. a protective fence; 3. a reservoir body; 4. a supporting seat; 5. a storage tank; 6. an intermediate fluid drain; 7. a bottom layer flow conductor; 8. a drainage cavity; 9. a flow guide cavity; 10. a transparent window; 11. glass fiber coarse gauze; 12. a first exhaust orifice; 13. a second drainage aperture; 14. a leakage storage tank; 15. a flow guide channel; 16. a drain pipe; 17. a collection well; 18. a liquid sensor; 19. an impermeable layer; 20. and (4) exhausting holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a waste mineral oil prevention of seepage storage chamber, including bottom plate 1, the border department of bottom plate 1 encloses and is equipped with protective fence 2, and bottom plate 1 is fixed with storage chamber body 3 in the space that protective fence 2 encloses, and the storage chamber is the room body that brick and concrete were built. Referring to fig. 3, a plurality of supporting seats 4 are fixed inside the storage chamber body 3, the supporting seats 4 are arranged in a rectangular parallelepiped shape, a storage tank 5 for storing mineral oil is disposed on the supporting seats 4, and the storage tank 5 is in a rectangular parallelepiped shape and has a hollow inside. A storage tank 5 is installed by using the bearing block 4, and the storage tank 5 stores waste mineral oil.

The storage tank 5 is opened at the top thereof with a plurality of vent holes 20. The vent holes 20 facilitate ventilation of the interior of the storage tank 5, reducing the risk of explosion caused by excessive gas generation in the storage tank 5.

Referring to fig. 3 and 4, the supporting base 4 is wound with a glass fiber roving cloth 11. When taking place waste mineral oil and leaking, utilize glass fiber coarse gauze 11 to adsorb waste mineral oil, through the last adsorbed oil stain of glass fiber coarse gauze 11, the staff of being convenient for more identifies the container 5 that takes place waste mineral oil and leak fast.

An intermediate drainage body 6 and a bottom layer flow guide body 7 are sequentially fixed between the storage chamber body 3 and the bottom plate 1, the intermediate drainage body 6 and the bottom layer flow guide body 7 are arranged in a cuboid shape, the bottom areas of the intermediate drainage body 6 and the bottom layer flow guide body 7 are the same as that of the storage chamber body 3, a drainage cavity 8 and a flow guide cavity 9 are respectively formed inside the intermediate drainage body 6 and the bottom layer flow guide body 7, and the interior of the storage chamber body 3, the drainage cavity 8 and the flow guide cavity 9 are all communicated. When the waste mineral oil leaks, the leaked waste mineral oil is guided by the drainage cavity 8 and the guide cavity 9.

Referring to fig. 3, a plurality of first drainage holes 12 communicated with the drainage cavity 8 are formed between the storage chamber body 3 and the middle drainage body 6, a plurality of second drainage holes 13 communicated with the drainage cavity 8 and the diversion cavity 9 are formed between the middle drainage body 6 and the bottom diversion body 7, and the first drainage holes 12 and the second drainage holes 13 are both arranged in an extending manner along the height direction of the storage chamber body 3. The first drainage hole 12 is used for guiding waste mineral oil in the storage chamber body 3 to be drained into the drainage cavity 8, the second drainage hole 13 is used for guiding waste mineral oil in the drainage cavity 8 to be drained into the drainage cavity 9, leaked waste mineral oil is stored conveniently, the possibility that the waste mineral oil is leaked to the outside of the storage chamber body 3 is effectively reduced, and the storage chamber is more environment-friendly.

Referring to fig. 1, transparent windows 10 are fixedly embedded in one side of the storage chamber body 3, one side of the middle drainage fluid 6 and one side of the bottom layer flow guide body 7. The transparent window 10 is convenient for workers to observe the leakage condition of the waste mineral oil outside the storage chamber body 3, so that the leakage phenomenon can be quickly confirmed.

Referring to fig. 4, the inner bottom wall of the bottom flow guiding body 7 is provided with a leakage storage groove 14, and the leakage storage groove 14 extends along the width direction of the bottom flow guiding body 7. Referring to fig. 5, the bottom flow guiding body 7 is provided with a plurality of flow guiding channels 15 communicated with the leakage storage groove 14, and the flow guiding channels 15 extend along the length direction of the flow guiding body. The waste mineral oil flowing to the diversion cavity 9 is guided to be discharged to the leakage storage groove 14 through the diversion channel 15. The leaked waste mineral oil is stored by the leak storage tank 14.

A drainage pipe 16 is fixed in the leak storage tank 14, the axis of the drainage pipe 16 extends along the width direction of the bottom layer flow guide body 7, and the drainage pipe 16 extends to the outside of the bottom layer flow guide body. Referring to fig. 4, a plurality of collecting holes 17 are formed around the drainage tube 16 and correspond to the plurality of flow guiding channels 15 one to one. The waste mineral oil is guided into the drainage pipe 16 by the collecting hole 17, and then the waste mineral oil in the leakage storage tank 14 is guided to be discharged into collecting equipment outside the storage chamber through the drainage pipe 16, so that the final collection of the waste mineral oil is realized.

Referring to fig. 5, a liquid sensor 18 is secured within the drain tube 16. The liquid sensor 18 is used for detecting the waste mineral oil in the drainage pipe 16, so that the staff can quickly acquire the leakage information of the waste mineral oil, and the leakage position can be quickly processed.

Referring to fig. 3 and 4, the bottom wall of the storage chamber body 3, the bottom wall of the middle drainage fluid 6 and the bottom wall of the bottom flow guiding body 7 are all fixed with impermeable layers 19, and the impermeable layers 19 are made of glass fiber reinforced plastics. The anti-seepage effect of the storage chamber body 3, the middle drainage body 6 and the bottom diversion body 7 is enhanced by the anti-seepage layer 19, so that the storage chamber is safer and more environment-friendly.

The implementation principle and the beneficial effects of the embodiment are as follows:

the basic isolation of a plurality of storage tanks 5 is realized by the storage chamber body 3, the storage tanks 5 are used for protecting non-mineral oil, the leakage situation of the waste mineral oil in the storage chamber body 3, the middle drainage body 6 and the bottom layer flow guide body 7 is observed in time through the transparent window 10, the leakage situation of the waste mineral oil in the storage tanks 5 is accurately judged by combining the oil stain situation on the glass fiber coarse gauze 11, meanwhile, the leaked waste mineral oil is led out under the combined action of the first drainage hole 12, the second drainage hole 13, the drainage cavity 8, the flow guide cavity 9 and the drainage pipe 16, the risk of the waste mineral oil leaking from the storage chamber body 3 is reduced, the waste mineral oil is detected in real time by the liquid sensor 18, and the identification speed of the leakage of the waste mineral oil is further enhanced. The utility model discloses be convenient for discern the storage tank 5 that takes place to leak fast to inspect and revise this storage tank 5, and then effectively reduce the bad consequence that the mineral waste oil leakage leads to, environmental protection more.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A waste mineral oil seepage-proofing storage chamber is characterized in that: the oil storage device comprises a bottom plate (1), a protective fence (2) is arranged at the edge of the bottom plate (1) in an enclosing mode, a storage chamber body (3) is fixed in a space formed by the protective fence (2) through the bottom plate (1), a plurality of supporting seats (4) are fixed inside the storage chamber body (3), and a storage tank (5) used for storing mineral oil is arranged on each supporting seat (4);

a middle drainage body (6) and a bottom layer flow guide body (7) are sequentially fixed between the storage chamber body (3) and the bottom plate (1), a drainage cavity (8) and a flow guide cavity (9) are respectively formed in the middle drainage body (6) and the bottom layer flow guide body (7), the drainage cavity (8) and the flow guide cavity (9) in the storage chamber body (3) are all communicated, and transparent windows (10) are fixedly embedded in one side of the storage chamber body (3), one side of the middle drainage body (6) and one side of the bottom layer flow guide body (7).

2. A used mineral oil impermeable storage according to claim 1, characterized in that the supporting base (4) is wound with glass fiber roving cloth (11).

3. The impervious storage chamber of waste mineral oil as claimed in claim 1, wherein a plurality of first drainage holes (12) communicated with the drainage cavity (8) are formed between the storage chamber body (3) and the intermediate drainage fluid (6), and a plurality of second drainage holes (13) communicated with the drainage cavity (8) and the drainage cavity (9) are formed between the intermediate drainage fluid (6) and the bottom layer flow guiding body (7).

4. The impervious storage chamber of waste mineral oil as claimed in claim 3, wherein the inner bottom wall of the bottom flow guiding body (7) is provided with a leakage storage groove (14) and a plurality of flow guiding channels (15) communicated with the leakage storage groove (14).

5. The impervious storage chamber of waste mineral oil as claimed in claim 4, wherein a drainage pipe (16) is fixed in the leakage storage tank (14), the drainage pipe (16) extends to the outside of the bottom flow guide body (7), and a plurality of collecting holes (17) corresponding to the plurality of flow guide channels (15) are formed on the periphery of the drainage pipe (16).

6. A used mineral oil impermeable storage compartment according to claim 5, characterized in that the drainage pipe (16) has a liquid sensor (18) fixed therein.

7. A used mineral oil impermeable storage compartment according to claim 1, characterized in that the bottom wall of the storage compartment body (3), the bottom wall of the intermediate drainage fluid (6) and the bottom wall of the bottom diversion fluid (7) are fixed with impermeable layers (19), and the impermeable layers (19) are made of glass fiber reinforced plastics.

8. A used mineral oil impermeable storage room according to claim 1, characterized in that the storage tank (5) is provided with a plurality of vent holes (20) at its top.

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