CN114380345A

CN114380345A - Automatic liquid distribution box of industrial sewage treatment equipment

Info

Publication number: CN114380345A
Application number: CN202210030977.2A
Authority: CN
Inventors: 刘小伟; 陈沛
Original assignee: Huanan Education Technology Shenzhen Co ltd
Current assignee: Huanan Education Technology Shenzhen Co ltd
Priority date: 2022-01-12
Filing date: 2022-01-12
Publication date: 2022-04-22

Abstract

The invention provides an automatic liquid distribution box of industrial sewage treatment equipment, which comprises: the adjacent branch of the front side outer surface of liquid distribution box is listed as fixed mounting and is provided with the overflow-proof subassembly that a plurality of prevents that the solution that gushes out on the filter overflows, and the overflow-proof subassembly is including: the liquid collecting shell, the liquid guide plate, the material storage plate, the liquid absorbing component capable of absorbing the introduced solution and the material control component capable of controlling the liquid absorbing material to be continuously supplemented; a plurality of liquid collecting shells are fixedly arranged on the outer surface of the front side of the liquid distribution box in an adjacent row; the right lower end of the inner part of the liquid collecting shell is movably provided with a liquid suction component. This kind of industrial sewage treatment equipment's automatic liquid distribution box can play and make the one side that is located the feed inlet of the liquid distribution box that is applied to in epidemic situation prevention and control possess the anti-overflow function, even if carry the feed inlet and inject too much solution in the solution, solution also can not be followed this side flow of liquid distribution box and is flowed down, can in time collect the processing to this solution, prevents the effect of solution spill pollution operation environment.

Description

Automatic liquid distribution box of industrial sewage treatment equipment

Technical Field

The invention relates to the technical field of sewage treatment equipment, in particular to an automatic liquid distribution box of industrial sewage treatment equipment for epidemic situation prevention and control.

Background

The liquid preparation process of the liquid in the existing industrial liquid preparation device is manually operated, the liquid preparation device has the advantages of low automation degree, high labor intensity, incapability of adapting to automatic production, poor consistency of liquid preparation and influence on the quality of products, particularly irreparable loss and safety problems caused by liquid preparation mistakes due to fatigue negligence of personnel in the liquid preparation process due to manual participation, and simultaneously the quality is influenced due to the fact that the solution changes because the liquid cannot be regulated and controlled according to the temperature of the liquid in the liquid preparation tank.

Aiming at the problems, regarding the technical problems of low automation degree and single function of the existing liquid preparation device, through a large amount of search, an intelligent automatic liquid preparation system with the patent number of CN201921227164.2 is inquired, and comprises a liquid preparation box, wherein a liquid preparation tank is arranged in the liquid preparation box, a feed inlet is arranged at the top of the liquid preparation box, a first thermometer is arranged on the front surface of the liquid preparation box, a guide pipe is arranged on one side of the first thermometer, a temperature sensing part is arranged at the other end of the guide pipe, the first thermometer is connected with the liquid preparation tank through the temperature sensing part, a liquid discharge pipe is arranged on one side of the first thermometer, a support plate is arranged on one side of the liquid preparation box, and a delivery pump is arranged at the top of the support plate; through the first liquid storage pot, the second liquid storage pot and the third liquid storage pot that set up, can dispose in order to reach and modulate various solution formulas to multiple solution, all be provided with the second thermometer on the surface of each liquid storage pot, can monitor the temperature in the liquid storage pot.

But when this practical technical scheme that provides was applied to epidemic situation prevention and control to the liquid distribution box, did not possess the anti-overflow function because of one side that the liquid distribution box is located the feed inlet, when carrying the injection too much solution in the solution to the feed inlet, the solution can be from the feed inlet along this side flow of liquid distribution box under, if fail in time to collect this solution and handle, the solution overflows the technical problem that can produce the polluted operation environment.

Disclosure of Invention

The invention aims to solve the technical problems in the background art and provides an automatic liquid distribution box of industrial sewage treatment equipment.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic liquid distribution box of industrial sewage treatment equipment, comprising:

the liquid distribution box is characterized in that a filter plate is fixedly installed in the middle of the front end of the outer surface of the top side of the liquid distribution box, a plurality of feed inlets which penetrate through the filter plate from top to bottom are formed in the bottom end of the filter plate, thermometers are fixedly installed in the upper and lower positions of the middle end of the outer surface of the right side of the liquid distribution box, liquid discharge pipes which penetrate through the left and right are fixedly installed in the bottom end position of the rear portion of the right end of the liquid distribution box, a support plate is placed in the front of the liquid distribution box, a liquid storage tank is placed in the front of the support plate, 3 conveying pumps are fixedly installed in an equal-adjacent row in the middle end position of the outer surface of the top side of the support plate, a first liquid conveying pipe is fixedly installed in the rear portion of the top end of each conveying pump in a penetrating mode, an outlet in the tail portion of the top end of each first liquid conveying pipe is located right above the top end of the filter plate, and a second liquid conveying pipe is fixedly installed in the bottom position of the front end of each conveying pump in a penetrating mode, the tail part of the front end of the second infusion tube penetrates to the inner position of the liquid storage tank;

the anti-overflow subassembly, the adjacent branch of front side outer surface of liquid distribution box is listed as fixed mounting has a plurality of to prevent the anti-overflow subassembly that the solution that floods is overflow on the filter, the anti-overflow subassembly including: the liquid collecting shell, the liquid guide plate, the material storage plate, the liquid absorbing component capable of absorbing the introduced solution and the material control component capable of controlling the liquid absorbing material to be continuously supplemented;

a plurality of liquid collecting shells are fixedly arranged on the outer surface of the front side of the liquid distribution box in an adjacent and separated manner, the appearance of each liquid collecting shell is in a shape of a letter U with a hollow interior, an opening at the top end and a closed front and back on one longitudinal section, and the outer surface of the rear side of each liquid collecting shell is fixedly arranged on the outer surface of the front side of the liquid distribution box;

the liquid collecting shell is characterized in that a liquid guide plate is fixedly arranged at the upper end position inside the liquid collecting shell, the appearance of the liquid guide plate is in a letter W shape on a longitudinal section, the outer surfaces of the front side and the rear side of the liquid guide plate are respectively and fixedly arranged at the upper end positions of the front inner wall and the rear inner wall of the liquid collecting shell, a transverse hole which penetrates through the liquid guide plate from left to right is formed in the middle position of the upper end of the liquid guide plate, and an inclined hole which penetrates through the liquid guide plate from top to bottom is obliquely formed in the bottom end position of a V-shaped part at the right end of the liquid guide plate;

the middle end position of the outer surface of the bottom side of the liquid guide plate is fixedly provided with a storage plate, the appearance of the storage plate is in an A shape on a longitudinal section, the oblique outer surfaces of the left side and the right side of the storage plate are fixedly arranged on the oblique outer surfaces of the left side and the right side of the middle end of the bottom side of the liquid guide plate, the upper end position of the storage plate is also provided with a transverse hole which is horizontally butted and penetrated with the transverse hole of the liquid guide plate, the middle lower end position of the interior of the storage plate is fixedly provided with a horizontal transverse plate, and the middle lower part of the interior left end of the storage plate is obliquely provided with an up-down penetrating outlet hole at the tail position of the left end of the interior transverse plate;

a liquid suction assembly is movably arranged at the right lower end inside the liquid collection shell;

and a material control assembly is movably arranged at the upper end inside the liquid collecting shell.

Further preferred embodiments: the wicking assembly includes:

the rotating shaft is rotatably arranged at the right lower end position of the inner part of the liquid collection shell in the front-back horizontal direction, the front end and the back end of the rotating shaft are rotatably arranged at the right lower end positions of the front inner wall and the back inner wall of the liquid collection shell, the rotating shaft is positioned at the position right below the bottom of the right end of the liquid guide plate, and a gap is reserved between the rotating shaft and the liquid guide plate;

the right side surface of pivot encircles fixed mounting and has the right board, the right side board is in the static balanced state of level under normal conditions, the right side surface of right side board with under normal conditions the static laminating of right inner wall lower extreme surface of collection liquid shell.

Further preferred embodiments: the wicking assembly further comprises:

the left side surface of pivot encircles fixed mounting and has the left side board, the left side board also is in the static balanced state of level under normal conditions, length is longer than about the left side board of left side board.

Further preferred embodiments: the wicking assembly further comprises:

the lower air bag is embedded between the outer surface of the top side of the left plate, the lower end of the right inner wall of the material storage plate and the outer surface of the bottom side of the middle-offset lower end transverse plate, the lower air bag is hollow and trapezoidal in the inner part on one longitudinal section, water absorbing powder is pre-installed in the lower air bag, an insert block is movably installed at the left part of the bottom end of the lower air bag, the insert block is located at the upper left position of the tail part of the left end of the left plate, and the insert block is normally in a state of sealing the outlet at the bottom end of the lower air bag.

Further preferred embodiments: the accuse material subassembly including:

the lower end surface of the left inner wall of the storage plate is fixedly provided with a guide chute which penetrates through the storage plate from top to bottom, the outer surface of the left side of the guide chute is flush with the left inner wall of the storage plate, an inlet at the top end of the guide chute is matched and butted with an outlet of the storage plate, and the outer surface of the right side of the guide chute is tightly attached to the outer surface of the left side of the lower air bag under normal conditions.

Further preferred embodiments: the accuse material subassembly is still including:

the side surface left end tail portion of the top side of the inclined plate is close to the outlet hole of the storage plate and the top inlet of the guide chute, and the right side surface of the inclined plate is fixedly installed on the upper end surface of the right inner wall of the storage plate.

the water-absorbing powder storage device comprises an upper air bag, wherein the upper air bag is embedded between the outer surface of the top side of the inclined plate and the upper end surfaces of the left inner wall and the right inner wall of the material storage plate, a distance is reserved between the outer surface of the top side of the upper air bag and the inner wall of the top of the material storage plate, and water-absorbing powder is pre-installed in the inner position of the upper air bag.

a liquid guide groove is fixedly arranged on the inner wall surfaces of the transverse holes at the upper ends of the liquid guide plate and the material storage plate, the appearance of the liquid guide groove is in a digital '7' shape with a hollow interior and a penetrating head and tail on a longitudinal section, the left end head inlet of the liquid guide groove is positioned in the middle of the inner left end of the liquid guide plate, the oblique outer surface of the left end of the bottom side of the liquid guide groove is fixedly attached to the upper surface of the oblique middle end of the left inner wall of the liquid guide plate, the horizontal part of the top end of the liquid guide groove penetrates through the liquid guide plate and the transverse holes at the upper ends of the material storage plates, the oblique outer surface of the right end of the bottom side of the liquid guide groove is fixedly attached to the oblique middle end surface of the right inner wall of the liquid guide plate, the outlet at the tail part of the right end of the liquid guide groove is close to the inclined hole of the liquid guide plate, and a space is reserved between the outlet and the inclined hole, the outer surface of the bottom side of the horizontal part of the top end of the liquid guide groove is positioned at the top end of the interior of the material storage plate.

the upper magnet is slidably mounted on the surface of the middle part of the bottom inner wall of the horizontal part at the top end of the liquid guide groove, the height of the upper magnet is smaller than the inner diameter of the liquid guide groove, the front-back length of the upper magnet is 1/2 of the front-back length of the liquid guide groove, and the outer surface of the bottom side of the upper magnet is statically attached to the surface of the middle part of the bottom inner wall of the horizontal part at the top end of the liquid guide groove under normal conditions.

the lower magnetic block is movably mounted on the surface of the middle of the bottom side of the horizontal part at the top end of the liquid guide groove, the front-back length of the lower magnetic block is equal to the front-back length of the upper magnetic block, the lower magnetic block has magnetism different from that of the upper magnetic block, and the outer surface of the top side of the lower magnetic block is statically attached to the surface of the middle of the bottom side of the horizontal part at the top end of the liquid guide groove under normal conditions;

the bottom end tip of the pointed cone is spaced from the outer surface of the top side of the upper air bag under normal conditions.

Has the advantages that:

1. according to the automatic liquid distribution box of the industrial sewage treatment equipment for epidemic situation prevention and control, the anti-overflow assembly is arranged, and by utilizing the principles of lever, negative pressure and siphon, when excessive solution is injected into a solution conveyed by a feed inlet of the filter plate, the solution firstly flows to the upper end of a liquid collection shell of the anti-overflow assembly along the liquid distribution box, part of the solution is temporarily collected in the left end region in a liquid guide plate of the anti-overflow assembly, and part of the solution flows to an inclined hole of the liquid guide plate in the right end region in the liquid guide plate of the anti-overflow assembly; then, under the action of a negative pressure principle, triggering the liquid suction assembly to deform so as to release a part of liquid suction material pre-filled in the liquid suction assembly to absorb the part of solution; when more and more solution is collected in the left end area in the liquid guide plate, under the action of the siphon principle, the part of solution is guided into the liquid collection shell from left to right through the material control assembly of the anti-overflow assembly to be collected, and simultaneously, the material control assembly is movably deformed, and the other part of liquid absorption material pre-loaded in the material control assembly is guided out to absorb the solution; under the continuous cooperation of the plurality of anti-overflow components, the solution overflowing from the filter plate can be prevented;

2. according to the automatic liquid distribution box of the industrial sewage treatment equipment for epidemic situation prevention and control, by arranging the liquid absorption assembly and utilizing the lever and negative pressure principle, when the solution is not flushed out of the filter plate, the right plate and the left plate of the liquid absorption assembly are both in a horizontal static balance state, and the outer surface of the right side of the right plate is statically attached to the surface of the lower end of the right inner wall of the liquid collection shell; the lower air bag of the liquid absorption component is in a natural expansion undeformed state, the water absorption powder in the lower air bag does not overflow, and the inserting block below the lower air bag is in a state of sealing the outlet at the bottom end of the lower air bag; when the solution is gushed out from the filter plate, the state can be gradually broken, namely when a part of solution flows into the inclined holes of the liquid guide plate in the right end area of the liquid guide plate as described above, the part of solution flows downwards onto the right plate through the inclined holes, downward pressure is gradually applied to the right plate, and the right plate rotates downwards clockwise under the action of the lever principle so as to gradually separate the right outer surface of the right plate from the lower end surface of the right inner wall of the liquid collection shell to generate a gap, so that the part of solution is guided into the deep part of the solution in the liquid collection shell and is collected; meanwhile, the left plate rotates upwards clockwise, under the action of a negative pressure principle, upward pressure is gradually applied to the bottom end of the lower air bag, and finally, the air in the lower air bag ejects the insertion block below the lower air bag outwards to release the water absorbing powder in the insertion block to absorb the part of collected solution; thus, the imported solution is absorbed, and the overflow prevention is facilitated;

3. according to the automatic liquid distribution box of the industrial sewage treatment equipment for epidemic situation prevention and control, the material control assembly is arranged, and by utilizing the siphon principle, when the solution is not flushed out of the filter plate, the upper air bag of the material control assembly is in a natural expansion undeformed state, and the water absorption powder in the upper air bag does not overflow; the interior of a liquid guide groove of the material control assembly is in a dry state; the outer surface of the bottom side of an upper magnetic block of the material control assembly is statically attached to the middle surface of the bottom inner wall of the horizontal part at the top end of the liquid guide groove; the outer surface of the top side of a lower magnetic block of the material control assembly is statically attached to the middle surface of the bottom side of the horizontal part at the top end of the liquid guide groove, and the distance between the tip part of the bottom end of a pointed cone below the material control assembly and the outer surface of the top side of an upper air bag exists; when the solution is flushed out from the filter plate, the state is gradually broken, namely when more solution is collected in the left end area in the liquid guide plate as described above, the water level line of the part of the solution overflows the tail inlet at the left end of the liquid guide groove, under the action of the siphon principle, the part of the solution flows into the liquid guide groove from left to right through the liquid guide groove, flows into the inclined hole of the liquid guide plate through the right outlet at the right end of the liquid guide groove, and finally enters the liquid collection shell to be collected; in the process of liquid guiding, the solution can push the upper magnetic block to generate rightward displacement, so that the upper magnetic block gradually reduces the suction force to the lower magnetic block, and finally, after the lower magnetic block falls under the action of self gravity, the outer surface of the top side of the upper air bag is punctured by the pointed cone below the lower magnetic block, so that the other part of water absorbing powder pre-installed in the upper air bag flows outwards and downwards to the deep inside of the liquid collecting shell through the inclined plate and the material guide groove of the material control assembly to absorb the solution; so as to control the liquid absorption material to be continuously supplemented, thereby being convenient for preventing overflow;

4. to sum up, this kind of industrial sewage treatment equipment's for epidemic situation prevention and control automatic liquid distribution box through the combined action of anti-overflow subassembly, imbibition subassembly and accuse material subassembly etc. can make and be applied to one side that the liquid distribution box in the epidemic situation prevention and control is located the feed inlet and possess the anti-overflow function, even if carry the feed inlet when injecting too much solution in the solution, solution also can not be along under this side flow of liquid distribution box, can in time collect this solution and handle, prevents that solution four-overflow from polluting the operation environment.

Drawings

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

FIG. 2 is a schematic perspective exploded view of the dispensing tank and the spill prevention assembly of the present invention;

FIG. 3 is a schematic cross-sectional perspective view of the spill prevention assembly of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 3B according to the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 3 at C according to the present invention;

FIG. 7 is a schematic perspective cross-sectional view of the spill prevention assembly of the present invention with the liquid intake assembly and the material control assembly in an active position;

FIG. 8 is an exploded perspective cross-sectional view of the spill prevention assembly of the present invention;

in FIGS. 1-8: 1-liquid distribution box; 2-a filter plate; 3-a thermometer; 4-a liquid discharge pipe; 5-a support plate; 6-a delivery pump; 7-a first infusion tube; 8-a second infusion tube; 9-a liquid storage tank; 10-an anti-spill assembly; 11-a liquid collecting shell; 12-a liquid guide plate; 13-a storage plate; 14-a wicking assembly; 15-a material control component; 16-a rotating shaft; 17-right plate; 18-left panel; 19-lower air bag; 20-inserting blocks; 21-a material guide groove; 22-a sloping plate; 23-upper air bag; 24-a liquid guide groove; 25-an upper magnetic block; 26-a lower magnetic block; 27-pointed cone.

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 8 in the embodiment of the present invention.

Example 1

Referring to fig. 1-3, in an embodiment of the present invention, an automatic liquid distribution box of an industrial sewage treatment device for epidemic situation prevention and control includes:

the liquid distribution box comprises a liquid distribution box 1, a filter plate 2 is fixedly installed in the middle of the front end of the outer surface of the top side of the liquid distribution box 1, a plurality of feed inlets which penetrate through the filter plate 2 from top to bottom are formed in the bottom end of the filter plate 2, a thermometer 3 is fixedly installed in the upper and lower positions of the middle end of the outer surface of the right side of the liquid distribution box 1, a liquid discharge pipe 4 which penetrates through the left and right is fixedly installed in the bottom end position of the rear end of the right end of the liquid distribution box 1, a support plate 5 is placed in the front of the liquid distribution box 1, a liquid storage tank 9 is placed in the front of the support plate 5, 3 conveying pumps 6 are fixedly installed in an equal-adjacent row in the middle position of the outer surface of the top side of the support plate 5, a first liquid conveying pipe 7 is fixedly installed in the position of the rear end of the top end of each conveying pump 6 in a penetrating mode, an outlet of the tail end of the top end of the first liquid conveying pipe 7 is located right above the top end of the filter plate 2, a second liquid conveying pipe 8 is fixedly installed in a penetrating mode in the bottom position of the bottom end of the front end of the conveying pump 6, and the tail end of the second liquid conveying pipe 8 penetrates to the inner position of the liquid storage tank 9;

the anti-overflow subassembly 10, the adjacent branch of front side outer surface of liquid distribution box 1 is listed as fixed mounting has a plurality of to prevent the anti-overflow subassembly 10 that the solution that gushes out is all around on filter 2, and anti-overflow subassembly 10 is including: the liquid collecting shell 11, the liquid guide plate 12, the storage plate 13, the liquid absorbing component 14 capable of absorbing the introduced solution and the material control component 15 capable of controlling the liquid absorbing material to be continuously replenished;

the anti-overflow assembly 10 is used for guiding the solution flowing out through the filter plate 2 into the liquid collection shell 11 for collection through the diversion of the liquid guide plate 12, and releasing the liquid absorption material in the storage plate 13 through the movement of the liquid absorption assembly 14 and the material control assembly 15 to absorb the solution;

a plurality of liquid collecting shells 11 are fixedly arranged on the outer surface of the front side of the liquid distribution box 1 in an adjacent row, the appearance of each liquid collecting shell 11 is in a shape of a letter U with a hollow interior, an opening at the top end and a closed front and back on a longitudinal section, and the outer surface of the rear side of each liquid collecting shell 11 is fixedly arranged on the outer surface of the front side of the liquid distribution box 1;

the liquid collecting shell 11 is provided with a letter U shape with a hollow interior, an opening at the top end and a closed front and back on a longitudinal section, so that the solution can fall onto the liquid guide plate 12 through the opening at the top end and is respectively guided to the deep bottom end inside the liquid collecting shell 11 to be collected;

the upper end position of the interior of the liquid collection shell 11 is fixedly provided with a liquid guide plate 12, the appearance of the liquid guide plate 12 is in a letter W shape on a longitudinal section, the outer surfaces of the front side and the rear side of the liquid guide plate 12 are respectively and fixedly arranged at the upper end positions of the front inner wall and the rear inner wall of the liquid collection shell 11, the middle position of the upper end of the liquid guide plate 12 is provided with a transverse hole which penetrates left and right, and the bottom end position of a V-shaped part at the right end of the liquid guide plate 12 is obliquely provided with an oblique hole which penetrates up and down;

the liquid guide plate 12 is provided with a letter W-shaped appearance on a longitudinal section, which is convenient for batch guiding of the solution falling into the liquid collecting shell 11, namely, the solution at the right end region directly falls into the liquid collecting shell 11 through the inclined hole, the solution at the left end region is gradually and temporarily accumulated, and then is guided into the liquid collecting shell 11 through the transverse hole of the material control assembly 15 to be collected, and the material control assembly 15 is triggered to release the water absorbing material;

a storage plate 13 is fixedly installed at the middle end position of the outer surface of the bottom side of the liquid guide plate 12, the appearance of the storage plate 13 is in an A shape on a longitudinal section, the oblique outer surfaces of the left side and the right side of the storage plate 13 are fixedly installed at the oblique outer surfaces of the left side and the right side of the middle end of the bottom side of the liquid guide plate 12, the upper end position of the storage plate 13 is also provided with a transverse hole which is horizontally butted and penetrated with the transverse hole of the liquid guide plate 12, the middle lower end position of the inside of the storage plate 13 is fixedly installed with a horizontal transverse plate, and the middle lower part of the left end of the inside of the storage plate 13 is obliquely provided with an outlet hole which is penetrated up and down at the tail position of the left end of the inner transverse plate;

the material storage plate 13 is provided with a letter A shape on a longitudinal section, so that liquid absorbing materials in the material control assembly 15 and the liquid absorbing assembly 14 are respectively contained in the upper end area and the lower end area of the inner transverse plate, and after the solution is introduced into the liquid collecting shell 11, the liquid absorbing materials in the material storage plate are released and absorbed in batches;

a liquid suction assembly 14 is movably arranged at the right lower end inside the liquid collection shell 11;

the liquid absorbing component 14 is convenient to use the principle of lever and negative pressure, when the solution flows into the inclined hole at the right end of the liquid guide plate 12, the liquid absorbing component 14 moves and deforms in time, and when the solution is guided into the liquid collecting shell 11, the liquid absorbing material pre-loaded in the liquid collecting shell is released to absorb the solution;

a material control assembly 15 is movably arranged at the upper end inside the liquid collecting shell 11;

the material control assembly 15 is designed to facilitate the siphon principle, so that when the solution in the left end region of the liquid guide plate 12 is excessively accumulated, the solution is guided to the deep inside of the liquid collection shell 11 to be collected and another part of the liquid absorption material pre-loaded therein is released to absorb the solution.

According to the automatic liquid distribution box of the industrial sewage treatment equipment for epidemic situation prevention and control, the anti-overflow assembly 10 is arranged, and by utilizing the principles of lever, negative pressure and siphon, when excessive solution is injected into a solution conveyed by a feed inlet of the filter plate 2, the solution firstly flows to the upper end of the liquid collection shell 11 of the anti-overflow assembly 10 along the liquid distribution box 1, part of the solution is temporarily collected in the left end area of the liquid guide plate 12 of the anti-overflow assembly 10, and part of the solution flows into the inclined holes of the liquid guide plate 12 in the right end area of the liquid guide plate 12 of the anti-overflow assembly 10, and then under the action of the principle of lever, the liquid absorption assembly 14 of the anti-overflow assembly 10 is triggered to move, so that the part of the solution is guided into the deep part inside the liquid collection shell 11 and is collected; subsequently, under the action of the negative pressure principle, the deformation of the wicking assembly 14 is triggered to release a portion of the wicking material pre-loaded therein for absorption of the portion of solution; when more and more solution is collected in the left end area in the liquid guide plate 12, under the action of the siphon principle, the part of solution is guided into the liquid collection shell 11 from left to right through the material control assembly 15 of the anti-overflow assembly 10 to be collected, and simultaneously, the material control assembly 15 is movably deformed, and the other part of liquid absorption material pre-loaded in the material control assembly is guided out to absorb the solution; in this way, the solution flowing over the filter plates 2 is prevented from overflowing due to the continuous cooperation of the plurality of spill-proof assemblies 10.

Example 2

Referring to fig. 3-5 and 7-8, the embodiment of the present invention differs from embodiment 1 in that: wicking assembly 14 includes:

a rotating shaft 16, wherein the rotating shaft 16 is rotatably arranged at the right lower end position in the liquid collection shell 11 in the front-back horizontal direction, the front end and the back end of the rotating shaft 16 are rotatably arranged at the right lower end positions of the front inner wall and the back inner wall of the liquid collection shell 11, the rotating shaft 16 is positioned at the position right below the bottom of the right end of the liquid guide plate 12, and a gap is reserved between the rotating shaft and the liquid guide plate;

the right outer surface of the right side of the rotating shaft 16 is fixedly provided with a right plate 17 in a surrounding manner, the right plate 17 is in a horizontal static balance state under normal conditions, and the right outer surface of the right side of the right plate 17 is in static fit with the surface of the lower end of the right inner wall of the liquid collection shell 11 under normal conditions;

the right plate 17 is designed to facilitate the utilization of the lever principle, and when the solution in the right end area of the liquid guide plate 12 flows down through the inclined hole, the right plate 17 is triggered to rotate clockwise and downwards, so that the solution is guided into the liquid collection shell 11 to be collected.

In this embodiment of the invention, wicking assembly 14 further includes:

a left plate 18 is fixedly arranged on the outer surface of the left side of the rotating shaft 16 in a surrounding mode, the left plate 18 is also in a horizontal static balance state under a normal condition, and the left-right length of the left plate 18 is longer than that of the right plate 17;

the left plate 18 is here so that, using the lever principle, the right plate 17 will guide the solution down and at the same time rotate clockwise upwards to squeeze the lower air bag 19 and release the absorbent material.

In this embodiment of the invention, wicking assembly 14 further includes:

the lower air bag 19 is embedded between the outer surface of the top side of the left plate 18, the lower end of the right inner wall of the storage plate 13 and the outer surface of the bottom side of the transverse plate of the middle deflection lower end, the outer appearance of the lower air bag 19 is in a trapezoid shape with a hollow interior on a longitudinal section, water absorbing powder is pre-installed in the inner position of the lower air bag 19, an insertion block 20 is movably installed at the left position of the bottom end of the lower air bag 19, the insertion block 20 is located at the left upper position of the tail part of the left end of the left plate 18, and the insertion block 20 is normally in a state of sealing the outlet at the bottom end of the lower air bag 19;

the lower air cell 19 is formed in a trapezoidal shape having a hollow interior in one longitudinal section, so that when the left plate 18 is pressed by the negative pressure principle, the lower air cell ejects the insert 20 outward to release the absorbent solution to the outside, the absorbent material containing the absorbent powder as a component.

According to the automatic liquid distribution box of the industrial sewage treatment equipment for epidemic situation prevention and control, by arranging the liquid absorption component 14 and utilizing the lever and negative pressure principle, when the solution is not gushed out from the filter plate 2, the right plate 17 and the left plate 18 of the liquid absorption component 14 are both in a horizontal static balance state, and the outer surface of the right side of the right plate 17 is statically attached to the lower end surface of the right inner wall of the liquid collection shell 11; the lower air bag 19 of the liquid absorbing component 14 is in a natural expansion undeformed state, the water absorbing powder in the lower air bag is not overflowed, and the insert block 20 below the lower air bag is in a state of sealing the outlet at the bottom end of the lower air bag 19; when the solution is gushed out from the filter plate 2, the state can be gradually broken, that is, when a part of the solution flows into the inclined hole of the liquid guide plate 12 in the right end area of the liquid guide plate 12 as described above, the part of the solution flows downwards onto the right plate 17 through the inclined hole, downward pressure is gradually applied to the right plate 17, and under the action of the lever principle, the right plate 17 rotates clockwise downwards to gradually separate the right outer surface of the right plate 17 from the lower end surface of the right inner wall of the liquid collection shell 11 to generate a gap, so that the part of the solution is guided to the deep part in the liquid collection shell 11 to be collected; meanwhile, the left plate 18 rotates clockwise upwards, under the action of the negative pressure principle, upward pressure is gradually applied to the bottom end of the lower air bag 19, and finally the air in the lower air bag 19 ejects the insert block 20 below the lower air bag to release the water absorbing powder in the insert block to absorb the solution collected by the part; so in order to realize absorbing leading-in solution, be convenient for the anti-overflow.

Example 3

Referring to fig. 3 and fig. 5-8, the embodiment of the present invention is different from embodiment 1 in that: accuse material subassembly 15 is including:

the material guide groove 21 penetrates up and down and is fixedly installed on the surface of the lower end of the left inner wall of the material storage plate 13, the outer surface of the left side of the material guide groove 21 is flush with the left inner wall of the material storage plate 13, an inlet at the top end of the material guide groove 21 is matched and butted with an outlet hole of the material storage plate 13, and the outer surface of the right side of the material guide groove 21 is tightly attached to the outer surface of the left side of the lower air bag 19 under normal conditions;

the material guiding groove 21 is used for facilitating the liquid absorbing material in the upper air bag 23 to release when the liquid absorbing material is triggered to release in the process that the solution accumulated in the left end area of the liquid guiding plate 12 is guided into the liquid collecting shell 11 from right to left, and the part of the liquid absorbing material can flow out from top to bottom through the material guiding groove 21 to absorb the solution.

In the embodiment of the present invention, the material control assembly 15 further includes:

the inclined plate 22 is obliquely and fixedly installed at the tail part of the left end of the outer surface of the top side of the transverse plate of the material storage plate 13, the included angle between the inclined plate 22 and the horizontal plane is 35 degrees, the tail part of the left end of the outer surface of the top side of the inclined plate 22 is close to an outlet hole of the material storage plate 13 and an inlet at the top end of the material guide groove 21, and the outer surface of the right side of the inclined plate 22 is fixedly installed on the upper end surface of the right inner wall of the material storage plate 13;

the sloping plate 22 is a path for smoothly discharging the liquid-absorbing material supplied into the upper bag 23 downward.

an upper air bag 23 is embedded between the outer surface of the top side of the inclined plate 22 and the upper end surfaces of the left inner wall and the right inner wall of the material storage plate 13, a distance exists between the outer surface of the top side of the upper air bag 23 and the inner wall of the top of the material storage plate 13, and water absorbing powder is also pre-loaded in the inner position of the upper air bag 23;

the upper air bag 23 is for accommodating another part of water-absorbing powder, and during the process that the solution in the left end region of the liquid guide plate 12 flows into the liquid collection shell 11 from left to right through the liquid guide groove 24 and is collected, the sharp cone 27 on the upper air bag 23 is triggered to fall downwards to puncture the upper air bag 23, so that the water-absorbing powder in the upper air bag flows downwards through the material guide groove 21 and flows out of the absorbing solution.

a liquid guide groove 24 is fixedly installed on the inner wall surfaces of transverse holes at the upper ends of the liquid guide plate 12 and the material storage plate 13, the appearance of the liquid guide groove 24 is hollow inside and is in a shape of a figure 7 which penetrates through the head and the tail on a longitudinal section, a head inlet at the left end of the liquid guide groove 24 is positioned at the middle position of the left end inside the liquid guide plate 12, an oblique outer surface at the left end of the bottom side of the liquid guide groove 24 is fixedly attached to the upper surface of the oblique middle end of the left inner wall of the liquid guide plate 12, a top horizontal part of the liquid guide groove 24 penetrates through the transverse holes at the upper ends of the liquid guide plate 12 and the material storage plate 13, an oblique outer surface at the right end of the bottom side of the liquid guide groove 24 is fixedly attached to the oblique middle end surface of the right inner wall of the liquid guide plate 12, a tail outlet at the right end of the liquid guide groove 24 is close to the oblique hole of the liquid guide plate 12, a gap is reserved between the oblique holes, and the bottom outer surface of the horizontal part at the top end of the liquid guide groove 24 is positioned at the top end of the material storage plate 13;

the liquid guide groove 24 is provided with a hollow inside and a figure 7 shape penetrating from head to tail on a longitudinal section, so that when the solution in the left end area of the liquid guide plate 12 is accumulated to the inlet of the left end and the tail of the liquid guide groove 24 by utilizing the siphon principle, the solution can flow from left to right through the liquid guide groove 24 to the right end area of the liquid guide plate 12 and flows into the liquid collection shell 11 through the inclined holes of the liquid guide plate 12 to be collected, and the upper air bag 23 is triggered to release the liquid absorption material.

the upper magnet 25 is arranged on the surface of the middle part of the bottom inner wall of the horizontal part at the top end of the liquid guide groove 24 in a sliding mode, the height of the upper magnet 25 is smaller than the inner diameter of the liquid guide groove 24, the front-back length of the upper magnet 25 is 1/2 of the front-back length of the liquid guide groove 24, and the outer surface of the bottom side of the upper magnet 25 is attached to the surface of the middle part of the bottom inner wall of the horizontal part at the top end of the liquid guide groove 24 in a static mode under normal conditions;

the upper magnetic block 25 is shorter than the inner diameter of the liquid guiding groove 24, so that when the solution in the left end region of the liquid guiding plate 12 flows from left to right through the liquid guiding groove 24, the upper magnetic block 25 is pushed to slide rightwards to release the lower magnetic block 26 below the upper magnetic block 25, and meanwhile, the solution can still smoothly flow downwards and flow into the liquid collecting shell 11.

the lower magnetic block 26 is movably mounted on the bottom side middle surface of the top horizontal part of the liquid guide groove 24, the front-back length of the lower magnetic block 26 is equal to the front-back length of the upper magnetic block 25, the lower magnetic block 26 has magnetism different from that of the upper magnetic block 25, and the top side outer surface of the lower magnetic block 26 is statically attached to the bottom side middle surface of the top horizontal part of the liquid guide groove 24 under normal conditions;

the lower magnetic block 26 has magnetism different from that of the upper magnetic block 25, so that the lower magnetic block 26 falls off downwards after the upper magnetic block 25 is pushed by solution to displace, and the pointed cone 27 below the lower magnetic block downwards punctures the upper air bag 23 to release the other part of imbibing materials;

the pointed cone 27 is fixedly arranged at the center of the outer surface of the bottom side of the lower magnetic block 26, the pointed cone 27 is in an inverted quadrangular pyramid shape, and the tip of the bottom end of the pointed cone 27 is separated from the outer surface of the top side of the upper air bag 23 under normal conditions;

the pointed cone 27 is designed to be an inverted quadrangular pyramid shape in appearance, so that after falling down with the lower magnetic block 26, the pointed portion at the bottom end can be punctured on the top surface of the upper air cell 23 smoothly, and another part of the liquid absorbing material in the upper air cell 23 is led out through the material guiding groove 21 to absorb the solution.

According to the automatic liquid distribution box of the industrial sewage treatment equipment for epidemic situation prevention and control, the material control assembly 15 is arranged, and by utilizing the siphon principle, when the solution is not flushed out of the filter plate 2, the upper air bag 23 of the material control assembly 15 is in a natural expansion undeformed state, and the water absorption powder in the upper air bag does not overflow; the interior of the liquid guide groove 24 of the material control component 15 is in a dry state; the outer surface of the bottom side of an upper magnetic block 25 of the material control assembly 15 is statically attached to the middle surface of the bottom inner wall of the horizontal part at the top end of the liquid guide groove 24; the outer surface of the top side of a lower magnetic block 26 of the material control assembly 15 is statically attached to the middle surface of the bottom side of the top horizontal part of the liquid guide groove 24, and the tip part of the bottom end of a pointed cone 27 below the material control assembly is spaced from the outer surface of the top side of the upper air bag 23; however, when the solution is flushed out from the filter plate 2, the state is gradually broken, that is, as more and more solution is collected in the left end area of the liquid guide plate 12 as described above, when the water level line of the part of the solution overflows the tail inlet at the left end of the liquid guide groove 24, under the action of the siphon principle, the part of the solution flows into the liquid guide groove 24 from left to right through the liquid guide groove 24, and the right outlet at the right end of the part of the solution flows into the inclined hole of the liquid guide plate 12, and finally enters the liquid collection shell 11 to be collected; in the process of liquid guiding, the solution can push the upper magnetic block 25 to displace rightwards, so that the upper magnetic block 25 gradually reduces the suction force to the lower magnetic block 26, and finally, after the lower magnetic block 26 falls under the action of self gravity, the outer surface of the top side of the upper air bag 23 is punctured through the pointed cone 27 below the lower magnetic block 26, so that the other part of water absorbing powder pre-installed in the upper air bag is outwards and downwards flowed to the deep inside the liquid collecting shell 11 through the inclined plate 22 and the material guide groove 21 of the material control assembly 15 to absorb the solution; so as to control the liquid absorbing material to be continuously supplemented, thereby being convenient for preventing overflow.

Claims

1. The utility model provides an automatic liquid distribution box of industrial sewage treatment equipment which characterized in that: the method comprises the following steps:

the liquid distribution box comprises a liquid distribution box (1), wherein a filter plate (2) is fixedly arranged in the middle of the front end of the outer surface of the top side of the liquid distribution box (1), a plurality of feed inlets which penetrate through the filter plate (2) from top to bottom are formed in the bottom position of the filter plate, a thermometer (3) is fixedly arranged in the upper and lower positions of the middle end of the outer surface of the right side of the liquid distribution box (1), a liquid discharge pipe (4) which penetrates through the left and right is fixedly arranged in the bottom position of the rear part of the right end of the liquid distribution box (1), a support plate (5) is arranged in the front of the liquid distribution box (1), a liquid storage tank (9) is arranged in the front of the support plate (5), 3 conveying pumps (6) are fixedly arranged in an equal and adjacent row in the middle position of the outer surface of the top side of the support plate (5), a first liquid conveying pipe (7) penetrates through the rear position of the top end of the first liquid conveying pipe (7), and an outlet of the tail of the top end of the first liquid conveying pipe (7) is positioned right above the top of the filter plate (2), a second infusion tube (8) is fixedly arranged at the middle position of the bottom of the front end of the delivery pump (6) in a penetrating manner, and the tail of the front end of the second infusion tube (8) penetrates to the inner position of the liquid storage tank (9);

the overflow-preventing component (10), the adjacent branch of front side outer surface of liquid distribution case (1) is listed as fixed mounting has a plurality of to prevent overflow-preventing component (10) that the solution that floods on filter (2) overflows, overflow-preventing component (10) including: the device comprises a liquid collecting shell (11), a liquid guide plate (12), a material storage plate (13), a liquid absorption component (14) capable of absorbing the introduced solution and a material control component (15) capable of controlling the liquid absorption material to be continuously replenished;

the outer surface of the front side of the liquid distribution box (1) is adjacently and fixedly provided with a plurality of liquid collecting shells (11) in a row, the appearance of each liquid collecting shell (11) is in a U shape with a hollow interior, an opening at the top end and a closed front and back on a longitudinal section, and the outer surface of the rear side of each liquid collecting shell (11) is fixedly arranged on the outer surface of the front side of the liquid distribution box (1);

the inner upper end position of the liquid collection shell (11) is fixedly provided with a liquid guide plate (12), the appearance of the liquid guide plate (12) is in a W shape on a longitudinal section, the outer surfaces of the front side and the rear side of the liquid guide plate (12) are respectively and fixedly arranged at the upper end positions of the front inner wall and the rear inner wall of the liquid collection shell (11), the middle position of the upper end of the liquid guide plate (12) is provided with a transverse hole which penetrates left and right, and the bottom end position of a V-shaped part at the right end of the liquid guide plate (12) is obliquely provided with an oblique hole which penetrates up and down;

a storage plate (13) is fixedly mounted at the middle end position of the outer surface of the bottom side of the liquid guide plate (12), the appearance of the storage plate (13) is in an A shape on a longitudinal section, the oblique outer surfaces of the left side and the right side of the storage plate (13) are fixedly mounted on the oblique outer surfaces of the left side and the right side of the middle end of the bottom side of the liquid guide plate (12), the upper end position of the storage plate (13) is also provided with a transverse hole which is horizontally butted and penetrated with the transverse hole of the liquid guide plate (12), the middle lower end position in the storage plate (13) is fixedly mounted with a horizontal transverse plate, and the middle lower part of the left end in the storage plate (13) is obliquely provided with an outlet hole which is penetrated up and down at the tail position of the left end of the inner transverse plate;

a liquid suction assembly (14) is movably arranged at the right lower end inside the liquid collection shell (11);

the upper end position of the interior of the liquid collecting shell (11) is movably provided with a material control component (15).

2. The automatic liquid distribution tank of industrial sewage treatment equipment according to claim 1, characterized in that: said wicking assembly (14) comprising:

the rotating shaft (16) is rotatably installed at the right lower end position inside the liquid collection shell (11) in the front-back horizontal direction, the front end and the back end of the rotating shaft (16) are rotatably installed at the right lower end positions of the front inner wall and the back inner wall of the liquid collection shell (11), the rotating shaft (16) is located at the position right below the bottom of the right end of the liquid guide plate (12), and a gap is reserved between the rotating shaft and the liquid guide plate;

right side board (17), the right side surface of pivot (16) encircles fixed mounting and has right board (17), right side board (17) are in the static balanced state of level under the normal condition, the right side surface of right side board (17) is with under the normal condition the static laminating of right inner wall lower extreme surface of liquid collection shell (11).

3. The automatic liquid distribution tank of industrial sewage treatment equipment according to claim 2, characterized in that: said wicking assembly (14) further comprising:

the left side surface of pivot (16) encircles fixed mounting has left board (18), left side board (18) also are in the static balanced state of level under normal condition, the length is longer than about left and right sides length of left board (18) right board (17).

4. The automatic liquid distribution tank of industrial sewage treatment equipment according to any one of claims 1 to 3, wherein: said wicking assembly (14) further comprising:

the lower air bag (19) is embedded between the outer surface of the top side of the left plate (18), the lower end of the right inner wall of the material storage plate (13) and the outer surface of the bottom side of the middle deflection lower end transverse plate, the lower air bag (19) is hollow and trapezoidal in the inner part on one longitudinal section, water absorbing powder is pre-installed in the inner position of the lower air bag (19), an insert block (20) is movably installed at the left position of the bottom end of the lower air bag (19), the insert block (20) is located at the left upper position of the tail part of the left end of the left plate (18), and the insert block (20) is in a state of sealing the outlet at the bottom end of the lower air bag (19) under normal conditions.

5. The automatic liquid distribution tank of industrial sewage treatment equipment according to claim 4, wherein: the material control component (15) comprises:

the device comprises a material guide groove (21), wherein the material guide groove (21) which penetrates through from top to bottom is fixedly arranged at the lower end of the left inner wall of the material storage plate (13), the outer surface of the left side of the material guide groove (21) is flush with the left inner wall of the material storage plate (13), an inlet at the top end of the material guide groove (21) is matched and butted with an outlet hole of the material storage plate (13), and the outer surface of the right side of the material guide groove (21) is in close fit with the outer surface of the left side of the lower air bag (19) under normal conditions.

6. The automatic liquid distribution tank of industrial sewage treatment equipment according to claim 1, characterized in that: the material control component (15) further comprises:

swash plate (22), the top side surface left end tail portion position slant fixed mounting of the diaphragm of storage plate (13) has swash plate (22), swash plate (22) is 35 with the contained angle of horizontal plane, the top side surface left end tail portion next-door neighbour of swash plate (22) the top entry of the punchhole of storage plate (13) and baffle box (21), the right side surface fixed mounting of swash plate (22) in the right inner wall upper end surface of storage plate (13).

7. The automatic liquid distribution box of industrial sewage treatment equipment according to claim 6, characterized in that: the material control component (15) further comprises:

the water-absorbing type water storage device comprises an upper air bag (23), wherein the upper air bag (23) is embedded between the outer surface of the top side of the inclined plate (22) and the upper end surfaces of the left inner wall and the right inner wall of the material storage plate (13), a distance is reserved between the outer surface of the top side of the upper air bag (23) and the inner wall of the top of the material storage plate (13), and water-absorbing powder is also preloaded in the inner position of the upper air bag (23).

8. The automatic liquid distribution tank of industrial sewage treatment equipment according to claim 1, characterized in that: the material control component (15) further comprises:

the liquid guide groove (24) is fixedly installed on the inner wall surfaces of the upper end cross holes of the liquid guide plate (12) and the liquid storage plate (13), the appearance of the liquid guide groove (24) is in a hollow digital 7 shape penetrating from head to tail on a longitudinal section, a left end head inlet of the liquid guide groove (24) is positioned in the middle position of the inner left end of the liquid guide plate (12), the bottom side left end oblique outer surface of the liquid guide groove (24) is fixedly attached to the left inner wall oblique middle end upper surface of the liquid guide plate (12), the top end horizontal part of the liquid guide groove (24) penetrates through the upper end cross holes of the liquid guide plate (12) and the liquid storage plate (13), the right end bottom side oblique outer surface of the liquid guide groove (24) is fixedly attached to the right inner wall oblique middle end surface of the liquid guide plate (12), and a right end tail outlet of the liquid guide groove (24) is close to the oblique holes of the liquid guide plate (12) and has an interval therebetween, the outer surface of the bottom side of the horizontal part of the top end of the liquid guide groove (24) is positioned at the top end position of the interior of the material storage plate (13).

9. The automatic liquid distribution tank of industrial sewage treatment equipment according to claim 8, characterized in that: the material control component (15) further comprises:

the liquid guide groove is characterized by comprising an upper magnetic block (25), the upper magnetic block (25) is slidably mounted on the surface of the middle part of the bottom inner wall of the horizontal part at the top end of the liquid guide groove (24), the height of the upper magnetic block (25) is smaller than the inner diameter of the liquid guide groove (24), the front-back length of the upper magnetic block (25) is 1/2 of the front-back length of the liquid guide groove (24), and the outer surface of the bottom side of the upper magnetic block (25) is in static fit with the surface of the middle part of the bottom inner wall of the horizontal part at the top end of the liquid guide groove (24) under normal conditions.

10. The automatic liquid distribution tank of industrial sewage treatment equipment according to any one of claims 7 to 9, wherein: the material control component (15) further comprises:

the lower magnetic block (26) is movably mounted on the surface of the middle of the bottom side of the horizontal part at the top end of the liquid guide groove (24), the front-back length of the lower magnetic block (26) is equal to that of the upper magnetic block (25), the lower magnetic block (26) has the magnetism different from that of the upper magnetic block (25), and the outer surface of the top side of the lower magnetic block (26) is in static fit with the surface of the middle of the bottom side of the horizontal part at the top end of the liquid guide groove (24) under normal conditions;

the pointed cone (27) is fixedly installed at the center of the outer surface of the bottom side of the lower magnetic block (26), the pointed cone (27) is in an inverted quadrangular pyramid shape in appearance, and the tip of the bottom end of the pointed cone (27) is separated from the front of the outer surface of the top side of the upper air bag (23) under normal conditions.