CN113562796A

CN113562796A - Environment-friendly sewage treatment device and using method

Info

Publication number: CN113562796A
Application number: CN202110856318.XA
Authority: CN
Inventors: 钟锦照
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2021-10-29

Abstract

The invention provides an environment-friendly sewage processor which comprises a processor body, secondary processing bins, a drainage bin, drainage holes and a liquid crystal display screen, wherein a plurality of ice melting components capable of melting ice blocks are embedded in the drainage bin in a horizontal equal-adjacent array at the inner position of the inner wall of the top side of each drainage hole, and each ice melting component comprises a bottom plate, a top seat, a starting component capable of starting ice melting operation after freezing and a guide component capable of controlling ice melting material to be led out. The environment-friendly sewage treatment device can have the function of deicing the drainage bin, and even if residual water is left in the drainage bin after the sewage treatment device is used in the outdoor winter environment in the north of China, the freezing and blocking in the drainage hole cannot be easily caused, and the smooth water outlet effect during next sewage purification is ensured.

Description

Environment-friendly sewage treatment device and using method

Technical Field

The invention relates to the technical field of sewage treatment, in particular to an environment-friendly sewage treatment device and a using method thereof.

Background

When the existing sewage treatment device is installed and used, the treatment structure of a part of sewage treatment device is single, the problems of poor treatment effect and incomplete treatment exist, the existing sewage treatment device is not beneficial to people to use, and the part of sewage treatment device lacks a visual structure from the existing sewage treatment device, so that the existing sewage treatment device has a lifting space.

In order to solve the problems, a large number of searches are conducted to inquire about a sewage treatment device for the hierarchical environmental protection project with the patent number of CN202021135511.1, wherein the sewage treatment device comprises a processor main body, a liquid crystal display screen is arranged on the outer surface of one side of the processor main body, and a secondary treatment mechanism is arranged on the outer surface of the lower end of the processor main body; this patent can provide a secondary treatment structure, aeration machine through setting up, aeration machine is through the impeller that looses, directly pour into the microbubble in the sewage, under the combined action of coagulant and flocculating agent, make the suspended solid take place physical flocculation and chemical flocculation, thereby form big suspended solid wadding group, the liquid level that floats under the buoyancy lift effect of bubble crowd forms the dross, conveniently carry out subsequent processing, the treatment effect has been strengthened, the purpose that improves the sewage purification degree has been reached, and the visual mechanism from the area can provide a simple and practical visual structure, can more make things convenient for the staff to observe.

However, the technical scheme provided by the patent does not have the function of deicing for the drainage bin, and after the sewage treatment device is used up in the outdoor winter environment in the north of China, residual water is left in the drainage bin, so that icing and blockage in the drainage hole are easily caused, and the inconvenience of water outlet is caused in next sewage purification.

Disclosure of Invention

The invention aims to solve the technical problems in the background art and provides an environment-friendly sewage treatment device and a using method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly sewage processor comprises a processor body, a secondary treatment bin, a drainage hole and a liquid crystal display screen,

the ice melting components are horizontally and uniformly embedded in the inner wall of the top side of each water discharge hole of the water discharge bin in an equal-adjacent array manner and can melt ice blocks,

each group of the deicing assemblies comprises a bottom plate, a top seat, a starting assembly capable of starting deicing operation after icing and a material guide assembly capable of controlling the deicing material to be led out.

Further preferred embodiments: the bottom plates are horizontally and equidistantly embedded in the inner positions of the top side inner walls of the drain holes of the drain bin in a row, the bottom plates are arc plates with thick left ends and thick right ends and thin middle portions, the bottom plates are made of copper, and the outer surfaces of the bottom sides of the bottom plates and the top side inner walls of the drain holes are located on the same horizontal plane.

Further preferred embodiments: the drainage structure comprises a top seat, wherein the top seat is fixedly arranged at the top of the left end and the right end of each bottom plate and at the position above the inner wall of the top side of each drainage hole of each drainage bin, a cavity is formed between the bottom end of each top seat and each bottom plate, the thickness of each top seat is larger than that of each bottom plate, a starting assembly is movably arranged at the position between the bottom end of each top seat and the top end of each bottom plate, and a material guide assembly is movably arranged at the lower part of the middle-to-right end of each top seat.

Further preferred embodiments: the starting assemblies are arranged, and each group of starting assemblies comprises an air bag, clean water and a sliding rail.

Further preferred embodiments: the middle end position between the outer surface of the top side of each bottom plate and the outer surface of the bottom side of each top seat is embedded with an air bag, and each air bag is positioned in each cavity;

clear water is pre-filled in the inner position of each air bag;

the top middle part position of every gasbag all in every the bottom equidirectional position of footstock is the vertical direction and runs through fixed mounting with the slide rail, every the outward appearance of slide rail all is the letter V shape that runs through from top to bottom on a longitudinal section.

Further preferred embodiments: the sealed piece, every the equal slidable mounting in top position of slide rail has sealed piece, every sealed piece is in the equal magnetism of normal condition inhale sealed in every the top position of slide rail, every the outward appearance of sealed piece all is letter T shape on a longitudinal section, every sealed piece all has magnetism.

Further preferred embodiments: each group of the material guiding assemblies comprises an inner shell, a magnetic block and a movable assembly capable of moving.

Further preferred embodiments: the inner shell is embedded in the lower part of the middle-to-right end in each top seat, the appearance of each inner shell is hollow and is in an upper arc and lower flat shape, the tail part of the top end of each sliding rail is inserted into the bottom of the left end of each inner shell, the top end part of each sealing block is located at the bottom of the left end in each inner shell, the bottom of the right end of each inner shell is obliquely penetrated into each top seat to form a channel, and the included angle between each channel and the horizontal plane is 60 degrees;

the right end of the inner surface of the bottom side of each inner shell is fixedly provided with a magnetic block in an inclined direction, and the included angle between each magnetic block and the horizontal plane is 15 degrees;

the movable assembly is movably mounted at the middle end of the inner shell, and each movable assembly comprises a rotating shaft, a left plate, a right plate and quicklime powder.

Further preferred embodiments: the lower part of the middle end in the inner part of each inner shell is rotatably provided with a rotating shaft in the front-back horizontal direction;

the outer surface of the left side of each rotating shaft is fixedly provided with a left plate in a surrounding manner, each left plate has the same magnetism as each sealing block, and the outer surface of the left side of each left plate is attached to the inner wall of the left side of each inner shell;

the right outer surface of the right side of each rotating shaft is fixedly provided with a right plate in a surrounding mode, each right plate has magnetism different from that of each magnetic block, the appearance of each right plate is in a letter L shape on one longitudinal section, each right plate and each left plate are in a horizontal static balance state under normal conditions, the right outer surface of each right plate is attached to the right inner wall of each inner shell under normal conditions, and the tail of the right end of each right plate is located above the head inlet of the top of the left end of each channel under normal conditions;

and the outer surface of the top side of the right end part of each right plate is filled with quicklime powder.

The use method of the environment-friendly sewage treatment device is characterized by comprising the following steps: the using method comprises the following steps:

s1: when accumulated water in the drainage holes meets cold and freezes, the self expansion of the ice crystals jacks up the bottom plate of the deicing assembly;

s2: the air bag of the starting assembly is pressurized and expanded under the action of a negative pressure principle, the sealing block is extruded out of the slide rail, the air bag leaks air, and the clean water in the air bag overflows;

s3: after the sealing block is extruded out of the slide rail, the guide assembly is triggered to release the quicklime powder under the action of a lever principle, and the quicklime powder is finally contacted with the clean water;

s4: and after the quicklime powder is contacted with the clear water, a large amount of heat is generated, and the high-temperature heat is conducted to the ice blocks in the drainage holes through the bottom plate to be heated and melted.

Has the advantages that:

1. the environment-friendly sewage processor is provided with the deicing component, utilizes the negative pressure and the lever principle, when the sewage processor is used in the outdoor winter environment in northern China, and residual water in the drainage bin causes the drainage hole to be frozen when encountering cold, the residual water is expanded due to the volume of ice crystals, the bottom plate of the deicing component is firstly jacked up at the drainage hole, the bottom plate is in the shape of an arc plate with thick left and right ends and thin middle part, the middle end of the bottom plate is stressed to be upwards bulged and deformed, under the blocking of a top seat of the deicing component, the starting component of the deicing component is started under the action of the negative pressure principle to perform deicing operation to release one type of deicing material onto the bottom plate, then the material guide component of the deicing component is triggered under the action of the lever principle to release the other type of deicing material onto the bottom plate, a large amount of high-temperature heat is generated after the two types of deicing material are contacted, and the heat is reversely transferred onto ice blocks in the drainage hole through the bottom plate made of copper, heating the ice blocks to melt so as to melt the ice blocks;

2. according to the environment-friendly sewage treatment device, by arranging the starting assembly, and utilizing the negative pressure principle, when icing does not occur in the drainage hole, the air bag of the starting assembly is in a natural expansion undeformed state, clear water in the air bag does not overflow, and the sealing block in the sliding rail of the starting assembly is in a state of being magnetically attracted and sealed at the top end of the sliding rail; when icing occurs in the drainage hole, the state can be broken gradually, namely when the middle end of the bottom plate is stressed to generate upward convex deformation as described above, firstly, the air bag is pressed to generate deformation under the action of a negative pressure principle, the air bag extends and deforms leftwards and rightwards, and gas and clean water in the air bag can surge towards the outlet direction of the top end of the sliding rail;

3. according to the environment-friendly sewage treatment device, the material guide assembly and the movable assembly are arranged, and the lever principle is utilized, when the water drainage hole is not frozen, the right plate and the left plate of the movable assembly of the material guide assembly are in a horizontal static balance state, the outer surface of the right side of the right plate is attached to the inner wall of the right side of the inner shell of the material guide assembly, the tail part of the right end of the right plate is positioned above the head inlet at the top of the left end of a channel formed between the inner shell and the top seat, and quicklime powder contained on the right plate does not overflow; when the water drainage hole is frozen, the state can be gradually broken, namely the sealing block slides upwards from the inside of the sliding rail to separate, the left plate has the same magnetism as the sealing block, so the sealing block can repel the left plate to rotate clockwise when entering the upper part inside the inner shell, and further the right plate also rotates in the same direction under the action of the lever principle, and the right plate has the different magnetism as the magnetic block on the inner shell, so the right plate can be easily adsorbed on the magnetic block to enable the right plate and the left plate to keep a static state again, quicklime powder contained on the right plate is sequentially led downwards to the cavity through the channel to be contacted with clean water previously accumulated on the bottom plate, a large amount of heat is generated after the two are contacted, and the heat is conducted on ice blocks in the water drainage hole through the bottom plate to be heated and melted, so that the ice melting material is controlled to be led out, and ice melting is facilitated;

4. in conclusion, this environment-friendly sewage treatment ware through the combined action of deicing subassembly, start-up subassembly, guide subassembly and movable assembly etc. can make the drainage storehouse possess the function of deicing, after this sewage treatment ware used up in the outdoor winter environment in northern china, even if there is the residual water in the drainage storehouse, also can not make the downthehole jam that freezes of drainage easily, the water outlet when having guaranteed next sewage purification unobstructed.

Drawings

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

FIG. 2 is a schematic perspective sectional view of the sump according to the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic perspective cross-sectional structural view of the ice melting assembly of the present invention;

FIG. 5 is a schematic illustration of an exploded view of the base and top mounts of the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 4B according to the present invention;

FIG. 7 is a schematic perspective cross-sectional view of a material guiding assembly according to the present invention;

in FIGS. 1-7: 1-a processor body; 2-secondary treatment bin; 3-a drainage bin; 301-drainage holes; 4-liquid crystal display screen;

5-an ice melting assembly; 501-a bottom plate; 502-top seat; 503-a startup component; 504-a material guiding assembly;

5031-balloon; 5032-clear water; 5033-slide rail;

50331-sealing block;

5041-inner shell; 5042-a magnetic block; 5043-a movable assembly;

50431-shaft; 50432-left panel; 50433-right plate; 50434-quicklime powder.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to fig. 1 to 7 in the embodiment of the present invention.

Example 1

Referring to fig. 1-5, in the embodiment of the present invention, an environment-friendly sewage treatment device includes a treatment device body 1, a secondary treatment chamber 2, a drainage chamber 3, a drainage hole 301 and a liquid crystal display 4,

the ice melting components 5 are horizontally and adjacently embedded with a plurality of ice melting components 5 capable of melting ice blocks in a row in the inner position of the inner wall of the top side of each water discharge hole 301 of the water discharge bin 3,

each group of ice melting assemblies 5 comprises a bottom plate 501, a top seat 502, a starting assembly 503 capable of starting ice melting operation after icing and a material guide assembly 504 capable of controlling ice melting material to be led out;

the ice melting assembly 5 is disposed inside the inner wall of the top side of the water discharge hole 301, so that the ice melting assembly 5 is triggered to melt ice by the characteristic that ice blocks expand when water accumulated in the water discharge hole 301 is cooled to form ice.

In the embodiment of the invention, the bottom plates 501 are respectively embedded in the inner position of the top inner wall of each drain hole 301 of the drain bin 3 in a horizontal direction in an equal-adjacent and separated manner, the appearance of each bottom plate 501 is in the shape of an arc plate with thick left and right ends and thin middle part, the material of each bottom plate 501 is copper, and the outer surface of the bottom side of each bottom plate 501 and the top inner wall of each drain hole 301 are positioned on the same horizontal plane;

the bottom plate 501 is made of copper, so that the middle of the bottom plate 501 is easily jacked up when the ice blocks expand, the follow-up starting assembly 503 and the material guiding assembly 504 are triggered to act on the cavity between the top seat 502 and the bottom plate 501 to generate high-temperature heat, and the high-temperature heat is reversely conducted back to the ice blocks in the water drainage holes 301 through the bottom plate 501 made of copper with good heat conductivity to melt the ice blocks.

In the embodiment of the invention, the top bases 502 are fixedly arranged at the top of the left end and the right end of each bottom plate 501 above the inner side of the top inner wall of each drainage hole 301 of each drainage bin 3, a cavity is arranged between the bottom end of each top base 502 and each bottom plate 501, the thickness of each top base 502 is larger than that of each bottom plate 501, a starting assembly 503 is movably arranged between the bottom end of each top base 502 and the top end of each bottom plate 501, and a material guide assembly 504 is movably arranged at the lower part of the middle right end in each top base 502;

the top seat 502 is thicker than the bottom plate 501, so that the top seat 502 can block the bottom plate 501 from reversely supporting, and the bottom end of the bottom plate 501 can press the actuating assembly 503 in the cavity with the bottom end of the bottom seat 502 to trigger the subsequent deicing reaction when the bottom plate 501 protrudes upwards.

The environment-friendly sewage processor is provided with the deicing component 5, utilizes the negative pressure and the lever principle, when the sewage processor is used up in the outdoor winter environment in northern China, and residual water in the drainage bin 3 causes the drainage hole 301 to be frozen when encountering cold to generate icing, due to the volume expansion of ice crystals, the bottom plate 501 of the deicing component 5 is firstly jacked up at the drainage hole 301, the bottom plate 501 is in the shape of an arc plate with thick left and right ends and thin middle part, the middle end of the bottom plate 501 is stressed to generate upward convex deformation, under the blocking of the top seat 502 of the deicing component 5, the starting component 503 of the deicing component 5 is started under the action of the negative pressure principle to perform deicing operation to release one type of deicing material onto the bottom plate 501, then the material guide component 504 of the deicing component 5 is triggered to release the other type of deicing material onto the bottom plate 501 under the action of the lever principle, and a large amount of high-temperature heat is generated after the two types of deicing material are contacted, the heat is reversely conducted to the ice cubes in the water discharging hole 301 through the bottom plate 501 made of copper, so that the ice cubes are heated and melted, and thus the ice cubes are melted.

Example 2

Referring to fig. 4 and fig. 6, the embodiment of the present invention is different from embodiment 1 in that: the starting assemblies 503, each set of starting assemblies 503 comprises an air bag 5031, clean water 5032 and a sliding rail 5033.

In the embodiment of the invention, the airbags 5031 are embedded at the middle end position between the top outer surface of each bottom plate 501 and the bottom outer surface of each top seat 502, and each airbag 5031 is positioned in each cavity;

clear water 5032, wherein the interior of each air bag 5031 is pre-filled with clear water 5032;

the air bag 5031 and the clear water 5032 in the air bag 5031 are used for pressing the air bag 5031 to deflate when the bottom plate 501 protrudes upwards by using a negative pressure principle, so that the clear water 5032 overflows into the cavity, and meanwhile, another ice melting material is waited to enter the cavity to contact with the cavity to generate heat;

the middle position of the top end of each airbag 5031 penetrates through and is fixedly provided with a slide rail 5033 at the same direction position of the bottom end of each top seat 502 in the vertical direction, and the appearance of each slide rail 5033 is in a shape of a letter V penetrating through vertically on a longitudinal section.

In the embodiment of the invention, the sealing blocks 50331 are slidably mounted at the top end of each sliding rail 5033, each sealing block 50331 is normally magnetically attracted and sealed at the top end of each sliding rail 5033, each sealing block 50331 has a T-shaped appearance in a longitudinal section, and each sealing block 50331 has magnetism;

the sliding rail 5033 has a vertical V-shaped appearance in a vertical section, so as to cooperate with the sealing block 50331 having a T-shaped appearance in a vertical section, block the outlet to prevent the clear water 5032 from overflowing when the airbag 5031 is normal, open the outlet to release the clear water 5032 when the airbag 5031 is deformed by pressure, and facilitate the sealing block 50331 to be quickly pushed open to melt ice in time; the sealing block 50331 is magnetic to trigger the material guiding assembly 504 to release another type of ice melting material after leaving the sliding rail 5033 by using the principle of magnetism.

According to the environment-friendly sewage treatment device, by arranging the starting assembly 503, by utilizing the negative pressure principle, when no ice is formed in the water drainage hole 301, the air bag 5031 of the starting assembly 503 is in a natural expansion undeformed state, clear water 5032 in the air bag 5031 does not overflow, and the sealing block 50331 in the sliding rail 5033 of the starting assembly 503 is in a state of being magnetically attracted and sealed at the top end of the sliding rail 5033; however, when the ice is formed in the water discharging hole 301, the state is gradually broken, that is, when the middle end of the bottom plate 501 is stressed to be deformed to be convex upward as described above, firstly, the air bag 5031 is pressed to be deformed under the negative pressure principle, the air bag 5031 extends and deforms left and right, and besides, the air and the clean water 5032 in the air bag are rushed toward the outlet at the top end of the sliding rail 5033, when the thrust force on the sealing block 50331 is greater than the threshold value of the suction force on the sliding rail 5033, the sealing block 50331 slides upward and away from the sliding rail 5033 to open the outlet at the top end of the sliding rail 5033, so that the air bag 5031 is deflated, and the clean water 5032 in the air bag 5031 overflows into the cavity to be accumulated on the bottom plate 501, so as to be combined with the subsequent material guiding assembly 504 to timely melt the ice, so as to start the ice melting operation after the ice is frozen, and facilitate the ice melting operation.

Example 3

Referring to fig. 4 and 7, the embodiment of the present invention is different from embodiment 1 in that: each group of material guiding assemblies 504 comprises an inner shell 5041, a magnetic block 5042 and a movable assembly 5043 which can move.

In the embodiment of the invention, in the inner shell 5041, an inner shell 5041 is embedded in the lower part of the middle and right end of each top seat 502, the outer appearance of each inner shell 501 is hollow, and is in an upper arc and lower flat shape, the tail part of the top end of each sliding rail 5033 is inserted into the bottom position of the left end of each inner shell 5041, the top end part of each sealing block 50331 is positioned at the bottom position of the left end of the inner shell 5041, the bottom part of the right end of each inner shell 5041 is obliquely penetrated into each top seat 502 to form a channel, and the included angle between each channel and the horizontal plane is 60 degrees;

the inner shell 501 is hollow in the inside and flat at the top and bottom, so that the movable component 5043 can be conveniently accommodated, and the ice melting material can be guided out in time when the movable component moves in the inner shell;

the magnetic blocks 5042 are fixedly arranged at the right end of the inner surface of the bottom side of each inner shell 5041 in an inclined mode, and the included angle between each magnetic block 5042 and the horizontal plane is 15 degrees;

and the movable assemblies 5043 are movably installed at the middle end position in each inner shell 5041, and each movable assembly 5043 comprises a rotating shaft 50431, a left plate 50432, a right plate 50433 and quicklime powder 50434.

In the embodiment of the invention, the rotating shaft 50431 is provided with a rotating shaft 50431 in a manner that the lower part of the middle end in the inner part of each inner shell 5041 rotates in the front-rear horizontal direction;

a left plate 50432, wherein a left outer surface of each rotating shaft 50431 is fixedly provided with a left plate 50432 in a surrounding manner, each left plate 50432 has the same magnetism as each sealing block 50331, and a left outer surface of each left plate 50432 is attached to a left inner wall of each inner shell 5041;

the left plate 50432 has the same magnetism as the sealing block 50331, and is provided to repel the left plate 50432 by the magnetic force after the sealing block 50331 is ejected from the slide rail 5033, so that the left plate 50432 rotates clockwise;

a right plate 50433, a right plate 50433 is fixedly mounted on the right outer surface of each rotating shaft 50431 in a surrounding manner, each right plate 50433 has magnetism different from that of each magnetic block 5042, the appearance of each right plate 50433 is in a letter L shape on a longitudinal section, each right plate 50433 and each left plate 50432 are in a horizontal static balance state under normal conditions, the right outer surface of each right plate 50433 is attached to the right inner wall of each inner shell 5041 under normal conditions, and the right end tail of each right plate 50433 is located above the head inlet of the top of the left end of each channel under normal conditions;

the right plate 50433 has magnetism different from that of the magnetic block 5042, and the included angle between the magnetic block 5042 and the horizontal plane is set to be 15 degrees, so that the right plate 50433 can easily approach the magnetic block 5042 and finally be adsorbed to the magnetic block 5042 while the left plate 50432 rotates clockwise; the appearance of the right plate 50433 is designed to be L-shaped on a longitudinal section, which is convenient for containing quicklime powder 50434, so that the quicklime powder 50434 is led out downwards from the channel to the cavity in time after rotating and is contacted with clean water 5032 to generate heat;

quicklime powder 50434, and a top outer surface of a right end portion of each right plate 50433 contains quicklime powder 50434.

According to the environment-friendly sewage treatment device, by arranging the material guide assembly 504 and the movable assembly 5043, and utilizing the lever principle, when the ice does not occur in the drain hole 301, the right plate 50433 and the left plate 50432 of the movable assembly 5043 of the material guide assembly 504 are in a horizontal static balance state, the right outer surface of the right plate 50433 is attached to the right inner wall of the inner shell 5041 of the material guide assembly 504, the tail part of the right end of the right plate 50433 is positioned above the head inlet at the top of the left end of a channel formed between the inner shell 5041 and the top seat 502, and the quicklime powder 50434 contained in the right plate 50433 does not overflow; however, when the ice is frozen in the water discharging hole 301, the state is gradually broken, that is, after the sealing block 50331 slides upwards and away from the slide rail 5033 as described above, because the left plate 50432 has the same magnetism as the sealing block 50331, when the sealing block 50331 enters into the upper part of the inner casing 5041, the left plate 50432 is repelled to rotate clockwise, and further the right plate 50433 also rotates in the same direction under the action of lever principle, and the right plate 50433 has the same magnetism as the magnetic block 5042 on the inner casing 5041, so that the magnetic block 50433 can be easily adsorbed on the 5042 to keep the right plate 50433 and the left plate 50432 still again, so that the quicklime powder 50434 contained on the right plate 50433 is continuously led downwards into the cavity through the channel to be in contact with the clear water 5032 previously accumulated on the bottom plate 501, and a large amount of heat is generated after the two contact, and the heat is conducted on the ice in the water discharging hole 301 through the bottom plate 501 to melt the ice, thereby controlling the leading out of the ice, is convenient for melting ice.

Example 4

Compared with the embodiment 1, the embodiment of the invention has the following differences: the use method of the environment-friendly sewage treatment device comprises the following steps:

s1: when the accumulated water in the drain hole 301 meets cold and freezes, the bottom plate 501 of the deicing component 5 is jacked upwards by the self expansion of the ice crystals;

s2: the air bag 5031 of the starting assembly 503 is pressurized and expanded under the action of a negative pressure principle, the sealing block 50331 is extruded out of the slide rail 5033, the air bag 5031 leaks air, and the clean water 5032 in the air bag is overflowed;

s3: after the sealing block 50331 is extruded out of the slide rail 5033, the material guide assembly 504 is triggered to release the quicklime powder 50434 under the action of the lever principle, and finally the quicklime powder comes into contact with the clean water 5032;

s4: when the quicklime powder 50434 contacts with the clean water 5032, a large amount of heat is generated, and the high-temperature heat is conducted to the ice blocks in the drain holes 301 through the bottom plate 501, so that the ice blocks are heated and melted.

Claims

1. The utility model provides an environment-friendly sewage treatment ware, includes treater body (1), secondary treatment storehouse (2), drainage storehouse (3), wash port (301) and liquid crystal display (4), its characterized in that:

the ice melting assembly (5), the drainage bin (3) is provided with a plurality of ice melting assemblies (5) capable of melting ice cubes,

each group of the deicing assemblies (5) comprises a bottom plate (501), a top seat (502), a starting assembly (503) capable of starting deicing operation after icing and a material guide assembly (504) capable of controlling the deicing material to be led out.

2. The environment-friendly sewage processor of claim 1, wherein: the outer appearance of each bottom plate (501) is in the shape of an arc plate with thick left end and thick right end and thin middle, and the bottom plates (501) are made of copper.

3. The environment-friendly sewage processor of claim 1, wherein: a top seat (502), the thickness of each top seat (502) is larger than that of each bottom plate (501).

4. The environment-friendly sewage processor of claim 1, wherein: air bags (5031), wherein each group of the starting assemblies (503) comprises the air bag (5031), and each air bag (5031) is pre-filled with clear water (5032).

5. The environment-friendly sewage processor of claim 1, wherein: each group of starting assemblies (503) further comprises a sliding rail (5033), and the appearance of each sliding rail (5033) is in a V shape with a vertical penetrating letter on a longitudinal section.

6. The environment-friendly sewage processor of claim 5, wherein: seal blocks (50331), each slide rail (5033) is provided with a seal block (50331), the appearance of each seal block (50331) is in a T shape on a longitudinal section, and each seal block (50331) has magnetism.

7. The environment-friendly sewage processor of claim 1, wherein: each group of the material guide assemblies (504) comprises a magnetic block (5042), and the included angle between each magnetic block (5042) and the horizontal plane is 15 degrees.

8. The environment-friendly sewage processor of claim 1, wherein: each group of the material guide assemblies (504) also comprises a movable assembly (5043) which can move.

9. The environment-friendly sewage processor of claim 8, wherein: quicklime powder (50434), and each movable assembly (5043) comprises the quicklime powder (50434).

10. The use method of the environment-friendly sewage treatment device is characterized by comprising the following steps: an environment-friendly sewage treatment device according to any one of claims 1 to 9, wherein the use method comprises the following steps:

s1: when accumulated water in the drain hole (301) meets cold and freezes ice, the ice crystal expands to jack up the bottom plate (501) of the ice melting assembly (5);

s2: the air bag (5031) of the starting assembly (503) is pressurized and expanded under the action of a negative pressure principle, the sealing block (50331) is extruded out of the sliding rail (5033), air leakage occurs in the air bag (5031), and the clean water (5032) in the air bag overflows;

s3: after the sealing block (50331) is extruded out of the sliding rail (5033), the guide assembly (504) is triggered to release the quicklime powder (50434) under the action of a lever principle, and finally the quicklime powder is contacted with the clean water (5032);

s4: after the quicklime powder (50434) contacts with the clean water (5032), a large amount of heat is generated, and the high-temperature heat is conducted to the ice blocks in the drain holes (301) through the bottom plate (501) to be heated and melted.