CN114940531A

CN114940531A - Medical waste liquid iron carbon micro-electrolysis water iron ion removing device

Info

Publication number: CN114940531A
Application number: CN202210541634.2A
Authority: CN
Inventors: 余院诚
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-19
Filing date: 2022-05-19
Publication date: 2022-08-26

Abstract

The invention relates to an iron ion removing device, in particular to a medical waste liquid iron carbon micro-electrolysis water iron ion removing device. The invention aims to provide a medical waste liquid iron carbon micro-electrolysis water iron ion removing device which can thoroughly remove residual iron ions in waste liquid. The invention provides a device for removing iron ions from medical waste liquid iron-carbon micro-electrolysis effluent, which comprises a supporting frame, a storage box, a first movable frame and the like, wherein the storage box is arranged on the left side of the bottom in the supporting frame, and the first movable frame is arranged in the middle of the left side of the storage box. According to the invention, manganese sand is poured into the first movable frame, after oxidized waste liquid enters the storage box through the water conveying pipe, the motor is started, so that the manganese sand plate can primarily remove iron ions in the oxidized waste liquid, and then when the oxidized waste liquid is discharged, the manganese sand in the first movable frame can secondarily remove the iron ions in the waste liquid, so that the residual iron ions in the waste liquid can be completely removed.

Description

Medical waste liquid iron carbon micro-electrolysis goes out water iron ion remove device

Technical Field

The invention relates to an iron ion removing device, in particular to a medical waste liquid iron carbon micro-electrolysis water iron ion removing device.

Background

At present, when people treat medical waste liquid, iron-carbon micro-electrolysis is generally used for treating the medical waste liquid, and the iron-carbon micro-electrolysis is a good process for treating the waste water by using a galvanic cell by utilizing a metal corrosion principle method, and is also called an internal electrolysis method, an iron scrap filtration method and the like. It can utilize the little electrolysis material self of filling in the waste water to produce the potential difference and carry out electrolytic treatment to waste water under the circumstances of not circular telegram to reach the purpose that the degradation organic matter pollutes, because the waste liquid is accomplishing indisputable carbon microelectrolysis back, remain a large amount of iron ions in the waste liquid easily, consequently, when discharging the waste liquid after accomplishing indisputable carbon microelectrolysis, need get rid of remaining iron ions in the waste liquid earlier.

At present, when people remove the residual iron ions in the waste liquid, manganese sand is usually used for filtering the waste liquid to be discharged, so as to remove the residual iron ions in the waste liquid.

Therefore, aiming at the defects, the device for removing the iron ions from the medical waste liquid iron carbon micro-electrolysis water is provided, which can completely remove the residual iron ions in the waste liquid.

Disclosure of Invention

The invention aims to overcome the defect that residual iron ions in waste liquid are not thoroughly removed when people remove the iron ions in the waste liquid after iron-carbon micro-electrolysis at present, and provides a medical waste liquid iron-carbon micro-electrolysis effluent iron ion removing device which can thoroughly remove the residual iron ions in the waste liquid.

The invention is realized by the following technical approaches:

a medical waste liquid iron carbon micro-electrolysis water outlet iron ion removing device comprises a supporting frame, a storage box, a first movable frame, a first movable buckle, a first spring, an oxidation device, a water inlet pipe, a water delivery pipe, a water pump, an adsorption mechanism and a rotating mechanism, wherein the storage box is arranged on the left side of the bottom in the supporting frame, the first movable frame is placed in the middle of the left side of the storage box, four first movable buckles are arranged on the front side and the rear side of the left portion of the storage box in a sliding mode, the first movable buckles are clamped on the first movable frame, the first spring is arranged between each first movable buckle and the storage box, the oxidation device for oxidizing waste liquid is arranged on the right side of the bottom in the supporting frame, the water inlet pipe is connected to the upper portion of the right side of the oxidation device, the water delivery pipe is connected with the storage box, the water pump is arranged on the lower side of the middle of the left side of the storage box, the adsorption mechanism for removing iron ions in the waste liquid is arranged on the left side of the upper portion of the storage box, the middle part of the right side of the upper side of the storage box is provided with a rotating mechanism for providing power.

Further, adsorption equipment includes gag lever post, second movable frame, manganese sand board, first pivot and first gear, and both sides all are equipped with the gag lever post around the left storage box upper portion, and the slidingtype is equipped with the second movable frame between the gag lever post right side, and second movable frame middle part rotary type is equipped with first pivot, and first pivot downside is equipped with manganese sand board, and manganese sand board is located the inboard of second movable frame, and first pivot upside is equipped with first gear.

Further, rotary mechanism is including the second pivot, the second gear, the third pivot, the flat belt, motor and all-gear, storage box upside middle part rotary type is equipped with the second pivot, second pivot middle part is equipped with the second gear, second gear and first gear engagement, storage box upper portion right side middle part rotary type is equipped with the third pivot, top left side middle part is equipped with the motor in the carriage, all be equipped with the full gear with third pivot middle part on the output shaft of motor, all-gear intermeshing, third pivot upside and second pivot upside all are equipped with the belt pulley, around there being the flat belt between the belt pulley.

Further, still including pressing means, pressing means is including first movable rod, first supporting block, the second movable rod, spacing post, second spring and third movable rod, be equipped with first movable rod on the output shaft of motor, the front and back both sides on storage box top right side all are equipped with first supporting block, the equal slidingtype of first supporting block upper portion left and right sides is equipped with spacing post, all be equipped with the second movable rod between two spacing post inboards of horizontal homonymy, can contact with the second movable rod when first movable rod rotates, all be equipped with the second spring between the left and right sides on first supporting block outside upper portion and the spacing post of homonymy, the equal slidingtype of front and back both sides on storage box upper portion right side is equipped with the third movable rod, the equal contact with the third movable rod of homonymy in second movable rod outside middle part.

Further, still including being used for carrying out the fanning mechanism that the fan moved to the waste liquid, fanning mechanism is including the second supporting shoe, the fourth pivot, first fly leaf and torsional spring, the right side of both sides all is equipped with a set of second supporting shoe around the inboard lower part of storage box, the quantity of every group second supporting shoe is two, equal rotary type is equipped with the fourth pivot between every group second supporting shoe, all be equipped with first fly leaf in the fourth pivot, third movable rod bottom all contacts with the first fly leaf of homonymy, all be equipped with the torsional spring between the outside of the first fly leaf left and right sides and the second supporting shoe of homonymy, the torsional spring all winds in the fourth pivot of homonymy.

Further, still including the fixed establishment who is used for fixed second movable frame, fixed establishment is including movable block, second buckle and third spring, and the upper portion of both sides all is equipped with the movable block around the second movable frame, and the inboard lower part of movable block all is connected with storage box slidingtype, and the middle part left side of both sides all slidingtype is equipped with two second buckles around the storage box is inside, and the second buckle on right side all blocks the movable block of homonymy, all is equipped with the third spring between second buckle top and the storage box.

Further, still including the mechanism that shelters from that is used for preventing the waste liquid from splashing, shelter from the mechanism including the backup pad, the fifth pivot, the second fly leaf, the third activity is detained and the fourth spring, the inboard left part slidingtype of carriage is equipped with the backup pad, backup pad left side lower part rotary type is equipped with the fifth pivot, be equipped with the second fly leaf in the fifth pivot, the second fly leaf blocks the left side lower part of backup pad, both sides all slidingtype are equipped with two third activities and detain around the inside downside left part of carriage, the third activity is detained and is all blocked the backup pad, the third activity is detained and all is equipped with the fourth spring between bottom and the carriage.

Furthermore, the upper parts of the movable blocks are all sleeved with rubber sleeves.

The invention provides a device for removing iron ions from medical waste liquid iron-carbon micro-electrolysis water, which has the following advantages:

1. according to the invention, manganese sand is poured into the first movable frame, after oxidized waste liquid enters the storage box through the water conveying pipe, the motor is started, so that the manganese sand plate can primarily remove iron ions in the oxidized waste liquid, and then when the oxidized waste liquid is discharged, the manganese sand in the first movable frame can secondarily remove the iron ions in the waste liquid, so that the residual iron ions in the waste liquid can be completely removed.

2. When the motor is started, the first movable rod, the second movable rod, the third movable rod and the first movable plate are matched, so that the first movable plate can intermittently rotate forwards and backwards, waste liquid on the right side inside the storage box can be fanned, and iron ions in the waste liquid are prevented from staying on the right side inside the storage box.

3. The movable block and the second movable frame can be fixed under the action of the second buckle, so that the movable block and the second movable frame are prevented from loosening.

4. The invention can block the waste liquid splashed outwards from the first movable frame under the action of the supporting plate, thereby preventing the waste liquid from splashing outwards.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic sectional perspective view of a first embodiment of the present invention.

Fig. 3 is an enlarged schematic perspective view of the invention at a.

Fig. 4 is a schematic sectional perspective view of the present invention.

Fig. 5 is a schematic perspective view of the adsorption mechanism of the present invention.

Fig. 6 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 8 is an enlarged perspective view of the present invention at B.

Fig. 9 is a schematic view of a first partially separated body structure of the fan-driving mechanism of the present invention.

Fig. 10 is a schematic view of a second partial structure of the fan-drive mechanism of the present invention.

Fig. 11 is an enlarged perspective view of the present invention at C.

Fig. 12 is a schematic view of a first partial structure of the fixing mechanism of the present invention.

Fig. 13 is a schematic structural view of a second partial body of the fixing mechanism of the present invention.

Fig. 14 is a schematic perspective view of a shielding mechanism according to the present invention.

FIG. 15 is a schematic cross-sectional perspective view of a shielding mechanism according to the present invention.

Fig. 16 is an enlarged perspective view at E of the present invention.

Part names and serial numbers in the figure: 1_ support frame, 2_ storage box, 3_ first movable frame, 4_ first movable buckle, 5_ first spring, 6_ oxidation device, 7_ water inlet pipe, 8_ water pipe, 21_ water pump, 9_ adsorption mechanism, 91_ limit rod, 92_ second movable frame, 93_ manganese sand plate, 94_ first rotating shaft, 95_ first gear, 10_ rotating mechanism, 101_ second rotating shaft, 102_ second gear, 103_ third rotating shaft, 104_ flat belt, 105_ motor, 106_ full gear, 11_ pressing mechanism, 111_ first movable rod, 112_ first support block, 113_ second movable rod, 114_ limit column, 115_ second spring, 116_ third movable rod, 12_ fan mechanism, 121_ second support block, 122_ fourth rotating shaft, 123_ first movable plate, 124_ torsion spring, 13_ fixed mechanism, 131_ movable block, 132_ second buckle, 133_ third spring, 14_ shielding mechanism, 141_ supporting plate, 142_ fifth rotating shaft, 143_ second movable plate, 144_ third movable buckle, 145_ fourth spring.

Detailed Description

The invention is further explained by combining the drawings in the specification, and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

A medical waste liquid iron carbon micro-electrolysis water outlet iron ion removing device comprises a supporting frame 1, a storage box 2, a first movable frame 3, a first movable buckle 4, a first spring 5, an oxidation device 6, a water inlet pipe 7, a water pipe 8, a water pump 21, an adsorption mechanism 9 and a rotating mechanism 10, and is shown in figures 1-6, the storage box 2 is welded on the left side of the bottom in the supporting frame 1, the first movable frame 3 is placed in the middle of the left side of the storage box 2, four first movable buckles 4 are arranged on the front side and the rear side of the left portion of the storage box 2 in a sliding mode, the first movable buckles 4 clamp the first movable frame 3, the first springs 5 are arranged between the first movable buckles 4 and the storage box 2, the oxidation device 6 is arranged on the right side of the bottom in the supporting frame 1, waste liquid can be oxidized under the action of the oxidation device 6, the water inlet pipe 7 is connected to the upper portion of the right side of the oxidation device 6, the water pipe 8 is connected to the upper portion of the left side of the oxidation device 6, raceway 8 and storage box 2 intercommunication, 2 left sides of storage box middle parts downside are equipped with water pump 21, and 2 upper portion left sides of storage box are equipped with adsorption apparatus structure 9, and 2 upside right sides of storage box middle parts are equipped with rotary mechanism 10.

Adsorption equipment 9 includes gag lever post 91, second movable frame 92, manganese sand board 93, first pivot 94 and first gear 95, refer to and show in fig. 5, gag lever post 91 has all been welded to both sides around storage box 2 upper portion left side, slidingtype is equipped with second movable frame 92 between the gag lever post 91 right side, second movable frame 92 middle part rotary type is equipped with first pivot 94, first pivot 94 downside is equipped with manganese sand board 93, when manganese sand board 93 rotates, can get rid of the iron ion in the waste liquid, manganese sand board 93 is located the inboard of second movable frame 92, first pivot 94 upside has first gear 95 through the key connection.

The rotating mechanism 10 includes a second rotating shaft 101, a second gear 102, a third rotating shaft 103, a flat belt 104, a motor 105 and a full gear 106, as shown in fig. 6, the second rotating shaft 101 is rotatably disposed in the middle of the upper side of the storage box 2, the second gear 102 is connected to the middle of the second rotating shaft 101 through a key, the second gear 102 is meshed with the first gear 95, the third rotating shaft 103 is rotatably disposed in the middle of the right side of the upper portion of the storage box 2, the motor 105 is bolted to the middle of the left side of the top inside the support frame 1, the manganese sand plate 93 can be rotated by providing power when the motor 105 is turned on, the full gear 106 is connected to the output shaft of the motor 105 through a key and to the middle of the third rotating shaft 103, the full gears 106 are meshed with each other, the upper side of the third rotating shaft 103 and the upper side of the second rotating shaft 101 are both connected with a belt pulley, and the flat belt 104 is wound between the belt pulleys.

When people need to use the device for removing iron ions from the medical waste liquid through iron-carbon micro-electrolysis water, the first movable frame 3 is pulled to move leftwards and taken out, the first movable frame 3 is made to extrude the first movable buckle 4 to move inwards, the first spring 5 is compressed, so that the first movable buckle 4 loosens the first movable frame 3, when the first movable buckle 4 is separated from the first movable frame 3, the first spring 5 restores the original state, the first spring 5 drives the first movable buckle 4 to move outwards and restore, then manganese sand is poured into the first movable frame 3, the first movable frame 3 is put in place, when the first movable frame 3 is in contact with the first movable buckle 4, the first movable frame 3 extrudes the first movable buckle 4 to move inwards, the first spring 5 is compressed, after the first movable frame 3 moves and restores the original state, the first spring 5 drives the first movable buckle 4 to move outwards, make first activity detain 4 block first movable frame 3, then input oxidation unit 6 in with the waste liquid after the little electrolysis of iron carbon through inlet tube 7, make oxidation unit 6 oxidize the waste liquid after the little electrolysis of iron carbon, the waste liquid after the oxidation can get into in storage box 2 through raceway 8, reopen motor 105, make the output shaft of motor 105 drive third pivot 103 through full gear 106 and rotate, third pivot 103 drives second pivot 101 and second gear 102 through flat belt 104 and rotates, thereby drive first gear 95, first pivot 94 and manganese sand board 93 and rotate, make manganese sand board 93 carry out preliminary adsorption and filtration to the iron ion in the waste liquid after the oxidation in storage box 2, thereby preliminarily get rid of the iron ion in the waste liquid after the oxidation, after the iron ion in the waste liquid finishes getting rid of after the oxidation, close motor 105 preliminarily, then stimulate second movable frame 92 to move left, thereby driving the first rotating shaft 94, the manganese sand plate 93 and the first gear 95 to move leftwards, when the second movable frame 92 moves to the leftmost side of the stop lever 91, the second movable frame 92 is loosened, the water pump 21 is started again, the water pump 21 pumps the waste liquid in the storage box 2 into the first movable frame 3, when the waste liquid in the storage box 2 contacts with the manganese sand in the first movable frame 3, the manganese sand in the first movable frame 3 can carry out secondary adsorption and filtration on iron ions in the waste liquid, thereby secondarily removing iron ions in the waste liquid, discharging the waste liquid secondarily removed by the iron ions through the first movable frame 3, turning off the water pump 21 after the waste liquid in the storage tank 2 is completely discharged, and then the second movable frame 92 is pushed to move rightwards to reset, so that the first rotating shaft 94, the manganese sand plate 93 and the first gear 95 are driven to move rightwards to reset, and the operations are repeated to pour out all the manganese sand in the first movable frame 3.

Example 2

On the basis of the embodiment 1, the pressing device 11 is further included, the pressing device 11 includes a first movable rod 111, a first supporting block 112, a second movable rod 113, and a limiting column 114, a second spring 115 and a third movable rod 116, as shown in fig. 2, 4, 7 and 8, a first movable rod 111 is disposed on an output shaft of the motor 105, first support blocks 112 are welded on the front and rear sides of the right side of the top of the storage box 2, limit posts 114 are slidably disposed on the left and right sides of the upper portion of the first support block 112, a second movable rod 113 is disposed between the inner sides of the two limit posts 114 on the same lateral side, the first movable rod 111 contacts with the second movable rod 113 when rotating, a second spring 115 is disposed between the left and right sides of the upper portion of the outer side of the first support block 112 and the limit posts 114 on the same lateral side, third movable rods 116 are slidably disposed on the front and rear sides of the right side of the upper portion of the storage box 2, and the middle portion of the outer side of the second movable rod 113 contacts with the third movable rods 116 on the same lateral side.

The waste liquid storage box is characterized by further comprising a fanning mechanism 12, wherein the fanning mechanism 12 comprises second supporting blocks 121, a fourth rotating shaft 122, first movable plates 123 and torsion springs 124, as shown in fig. 2, 9, 10 and 11, a group of second supporting blocks 121 are welded on the right sides of the front side and the rear side of the lower portion of the inner side of the storage box 2, the number of each group of second supporting blocks 121 is two, the fourth rotating shaft 122 is rotatably arranged between each group of second supporting blocks 121, the first movable plates 123 are arranged on the fourth rotating shaft 122, waste liquid on the right side of the inner portion of the storage box 2 can be fanned through forward and reverse rotation of the first movable plates 123, the bottoms of the third movable rods 116 are in contact with the first movable plates 123 on the same side, the torsion springs 124 are arranged between the outer sides of the left side and the right side of the first movable plates 123 and the second supporting blocks 121 on the same side, and the torsion springs 124 are wound on the fourth rotating shafts 122 on the same side.

When the motor 105 is turned on, the output shaft of the motor 105 drives the first movable rod 111 to rotate, when the first movable rod 111 contacts with the second movable rod 113, the first movable rod 111 presses the second movable rod 113 and the position-limiting post 114 to move outwards, the second spring 115 is stretched, so that the second movable rod 113 presses the third movable rod 116 to move downwards, so that the third movable rod 116 presses the first movable plate 123 to rotate, the torsion spring 124 deforms, when the first movable rod 111 is separated from the second movable rod 113, the second spring 115 returns to its original state, the second spring 115 drives the position-limiting post 114 and the second movable rod 113 to move inwards to return, when the second movable rod 113 is separated from the third movable rod 116, the torsion spring 124 returns to its original state, the torsion spring 124 drives the first movable plate 123 to rotate reversely to return, so that the first movable plate 123 presses the third movable rod 116 to move upwards to return, so that the third movable rod 116 contacts with the second movable rod 113, by doing so, the first flap 123 can rotate intermittently forward and backward, so that the first flap 123 can fan the waste liquid on the right side inside the storage tank 2, thereby preventing iron ions in the waste liquid from staying on the right side inside the storage tank 2, and when the motor 105 is turned off, the rotation is stopped.

Still including fixed establishment 13, fixed establishment 13 is including the movable block 131, second buckle 132 and third spring 133, refer to fig. 1, fig. 2, fig. 4, fig. 12 and fig. 13 show, the upper portion of both sides all has welded the movable block 131 around the second movable frame 92, the rubber leather sheath has all been overlapped on movable block 131 upper portion, the inboard lower part of movable block 131 all with storage box 2 sliding type connection, the middle part left side of both sides all is equipped with two second buckles 132 around the storage box 2 is inside, block movable block 131 through second buckle 132, can fix second movable frame 92, the second buckle 132 on right side all blocks the movable block 131 of homonymy, all be equipped with third spring 133 between second buckle 132 top and the storage box 2.

When people need to pull the second movable frame 92 to move leftward, the movable block 131 can be pulled to move leftward, and the rubber leather sheath on the movable block 131 can prevent the hand from slipping, so that the movable block 131 drives the second movable frame 92 to move leftward, at this time, the movable block 131 presses the right second buckle 132 to move upward, the right third spring 133 is compressed, so that the right second buckle 132 releases the movable block 131, when the right second buckle 132 is separated from the movable block 131, the right third spring 133 is restored, the right third spring 133 drives the right second buckle 132 to move downward and reset, when the movable block 131 is contacted with the left second buckle 132, the movable block 131 presses the left second buckle 132 to move upward, the left third spring 133 is compressed, when the second movable frame 92 moves to the leftmost side of the limiting rod 91, the left third spring 133 is restored, the left third spring 133 drives the left second buckle 132 to move downward and reset, when people need to pull the second movable frame 92 to reset to the right, the movable block 131 can be pulled to move to the right, so that the movable block 131 drives the second movable frame 92 to reset to the right, at this time, the movable block 131 presses the left second buckle 132 to move upwards, the left third spring 133 compresses, so that the left second buckle 132 releases the movable block 131, when the left second buckle 132 is separated from the movable block 131, the left third spring 133 restores the original state, the left third spring 133 drives the left second buckle 132 to move downwards to reset, when the movable block 131 is contacted with the right second buckle 132, the movable block 131 presses the right second buckle 132 to move upwards, the right third spring 133 compresses, when the second movable frame 92 moves to reset, the right third spring 133 restores the original state, the third spring 133 on the right side drives the second buckle 132 on the right side to move downwards and reset, so that the second buckle 132 on the right side blocks the movable block 131, and the movable block 131 and the second movable frame 92 are fixed.

The multifunctional shielding device further comprises a shielding mechanism 14, the shielding mechanism 14 comprises a supporting plate 141, a fifth rotating shaft 142, a second movable plate 143, a third movable buckle 144 and a fourth spring 145, as shown in fig. 1, fig. 2, fig. 4, fig. 14, fig. 15 and fig. 16, the supporting plate 141 is slidably disposed at the left portion of the inner side of the supporting frame 1, the supporting plate 141 can block waste liquid splashed outwards from the first movable frame 3 to prevent the waste liquid from splashing outwards, the fifth rotating shaft 142 is rotatably disposed at the lower portion of the left side of the supporting plate 141, the second movable plate 143 is disposed on the fifth rotating shaft 142 to block the lower portion of the left side of the supporting plate 141, two third movable buckles 144 are slidably disposed at the front and rear sides of the left portion of the lower side of the inside of the supporting frame 1, the supporting plate 141 is clamped by the third movable buckles 144, and the fourth spring 145 is disposed between the bottoms of the third movable buckles 144 and the supporting frame 1.

When people need to pull the first movable frame 3 to move leftwards and take out, the supporting plate 141 is pulled leftwards to move leftwards and take out, at this time, the supporting plate 141 presses the third movable buckle 144 to move downwards, the fourth spring 145 is compressed, so that the third movable buckle 144 loosens the supporting plate 141, when the third movable buckle 144 is separated from the supporting plate 141, the fourth spring 145 restores the original state, the fourth spring 145 drives the third movable buckle 144 to move upwards and restore, then people can pull the first movable frame 3 to move leftwards and take out, when people put the first movable frame 3 back, the supporting plate 141 is put back, when the third movable buckle 144 is contacted with the supporting plate 141, the supporting plate 141 presses the third movable buckle 144 to move downwards, the fourth spring 145 is compressed, when the supporting plate 141 moves and restores the original state, the fourth spring 145 drives the third movable buckle 144 to move upwards and restore, so that the third movable buckle 144 supports the supporting plate 141, when people need to start the water pump 21, the second flap 143 is pulled to rotate by 90 degrees first, so that the second flap 143 no longer blocks the lower portion of the right side of the supporting plate 141, then people can start the water pump 21, when the waste liquid is discharged outwards through the first movable frame 3, the supporting plate 141 can block the waste liquid splashed outwards from the first movable frame 3, so that the waste liquid discharged outwards from the first movable frame 3 is discharged outwards through the lower portion of the right side of the supporting plate 141, and when all the waste liquid in the storage tank 2 is discharged, the second flap 143 is pulled to rotate reversely by 90 degrees to be reset, so that the second flap 143 blocks the lower portion of the right side of the supporting plate 141 again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention.

Claims

1. A device for removing iron ions from medical waste liquid iron-carbon micro-electrolysis effluent, which comprises a supporting frame (1), a storage box (2), a first movable frame (3), a first movable buckle (4), a first spring (5), an oxidation device (6), a water inlet pipe (7), a water delivery pipe (8) and a water pump (21), wherein the storage box (2) is arranged on the left side of the inner bottom of the supporting frame (1), the first movable frame (3) is placed in the middle of the left side of the storage box (2), four first movable buckles (4) are arranged on the front side and the rear side of the left part of the storage box (2) in a sliding mode, the first movable buckles (4) are used for clamping the first movable frame (3), the first spring (5) is arranged between the first movable buckles (4) and the storage box (2), the oxidation device (6) for oxidizing the waste liquid is arranged on the right side of the inner bottom of the supporting frame (1), the water inlet pipe (7) is connected to the upper portion of the right side of the oxidation device (6), the device is characterized by further comprising an adsorption mechanism (9) and a rotating mechanism (10), wherein the adsorption mechanism (9) used for removing iron ions in waste liquid is arranged on the left side of the upper portion of the storage box (2), and the rotating mechanism (10) used for providing power is arranged in the middle of the right side of the upper side of the storage box (2).

2. The device for removing iron ions from medical waste liquid iron-carbon micro-electrolysis effluent water according to claim 1, wherein the adsorption mechanism (9) comprises a limiting rod (91), a second movable frame (92), a manganese sand plate (93), a first rotating shaft (94) and a first gear (95), the limiting rod (91) is arranged on the left side of the upper portion of the storage box (2) on the front side and the rear side, the second movable frame (92) is arranged between the right sides of the limiting rods (91) in a sliding mode, the first rotating shaft (94) is rotatably arranged in the middle of the second movable frame (92), the manganese sand plate (93) is arranged on the lower side of the first rotating shaft (94), the manganese sand plate (93) is located on the inner side of the second movable frame (92), and the first gear (95) is arranged on the upper side of the first rotating shaft (94).

3. The device for removing iron ions from medical waste liquid iron carbon micro-electrolysis effluent according to claim 2, wherein the rotating mechanism (10) comprises a second rotating shaft (101), a second gear (102), a third rotating shaft (103), a flat belt (104), a motor (105) and a full gear (106), the second rotating shaft (101) is rotatably arranged in the middle of the upper side of the storage box (2), the second gear (102) is arranged in the middle of the second rotating shaft (101), the second gear (102) is meshed with the first gear (95), the third rotating shaft (103) is rotatably arranged in the middle of the right side of the upper portion of the storage box (2), the motor (105) is arranged in the middle of the left side of the inner top of the support frame (1), the full gear (106) is arranged in the middle of the third rotating shaft (103) on an output shaft of the motor (105), the full gears (106) are mutually meshed, belt pulleys are arranged on the upper side of the third rotating shaft (103) and the upper side of the second rotating shaft (101), a flat belt (104) is wound between the pulleys.

4. The device for removing iron ions from medical waste liquid iron-carbon micro-electrolysis effluent according to claim 3, further comprising a pressing mechanism (11), wherein the pressing mechanism (11) comprises a first movable rod (111), a first supporting block (112), a second movable rod (113), a limiting column (114), a second spring (115) and a third movable rod (116), the first movable rod (111) is arranged on an output shaft of the motor (105), the first supporting block (112) is arranged on the front side and the rear side of the right side of the top of the storage box (2), the limiting columns (114) are arranged on the left side and the right side of the upper portion of the first supporting block (112) in a sliding manner, the second movable rod (113) is arranged between the inner sides of the two limiting columns (114) on the same side in the transverse direction, the first movable rod (111) can be in contact with the second movable rod (113) when rotating, the second spring (115) is arranged between the left side and the right side of the upper portion of the outer side of the first supporting block (112) and the limiting column (114) on the same side, the front side and the rear side of the right side of the upper part of the storage box (2) are both provided with third movable rods (116) in a sliding mode, and the middle part of the outer side of each second movable rod (113) is in contact with the third movable rod (116) on the same side.

5. The device for removing iron ions from medical waste liquid iron-carbon micro-electrolysis effluent according to claim 4, further comprising a fanning mechanism (12) for fanning the waste liquid, wherein the fanning mechanism (12) comprises second supporting blocks (121), fourth rotating shafts (122), first movable plates (123) and torsion springs (124), a group of second supporting blocks (121) is arranged on the right sides of the front and rear sides of the lower portion of the inner side of the storage box (2), the number of each group of second supporting blocks (121) is two, the fourth rotating shafts (122) are rotatably arranged between each group of second supporting blocks (121), the first movable plates (123) are arranged on the fourth rotating shafts (122), the bottoms of the third movable rods (116) are contacted with the first movable plates (123) on the same side, the torsion springs (124) are arranged between the outer sides of the left and right sides of the first movable plates (123) and the second supporting blocks (121) on the same side, the torsion springs (124) are wound on the fourth rotating shaft (122) on the same side.

6. The device for removing iron ions from medical waste liquid iron carbon micro-electrolysis effluent water according to claim 5, further comprising a fixing mechanism (13) for fixing the second movable frame (92), wherein the fixing mechanism (13) comprises a movable block (131), a second buckle (132) and a third spring (133), the movable block (131) is arranged on the upper portions of the front side and the rear side of the second movable frame (92), the lower portion of the inner side of the movable block (131) is connected with the storage box (2) in a sliding manner, the two second buckles (132) are arranged on the left side of the middle portion of the front side and the rear side of the storage box (2) in a sliding manner, the movable block (131) on the same side is clamped by the second buckles (132) on the right side, and the third spring (133) is arranged between the top of the second buckles (132) and the storage box (2).

7. The device for removing iron ions from medical waste liquid iron-carbon micro-electrolysis effluent according to claim 6, the novel waste liquid shielding device is characterized by further comprising a shielding mechanism (14) for preventing waste liquid from splashing, wherein the shielding mechanism (14) comprises a supporting plate (141), a fifth rotating shaft (142), a second movable plate (143), a third movable buckle (144) and a fourth spring (145), the supporting plate (141) is arranged on the left portion of the inner side of the supporting frame (1) in a sliding mode, the fifth rotating shaft (142) is arranged on the lower portion of the left side of the supporting plate (141) in a rotating mode, the second movable plate (143) is arranged on the fifth rotating shaft (142), the lower portion of the left side of the supporting plate (141) is blocked by the second movable plate (143), two third movable buckles (144) are arranged on the front side and the rear side of the left portion of the inner lower side of the supporting frame (1) in a sliding mode, the supporting plate (141) is blocked by the third movable buckles (144), and the fourth spring (145) is arranged between the bottom of the third movable buckles (144) and the supporting frame (1).

8. The device for removing iron ions from medical waste liquid iron carbon micro-electrolysis effluent according to claim 6, wherein rubber leather sleeves are sleeved on the upper parts of the movable blocks (131).