CN112777710B

CN112777710B - Automatic recovery unit of copper-containing waste water

Info

Publication number: CN112777710B
Application number: CN202110041380.3A
Authority: CN
Inventors: 廖婧
Original assignee: Shaanxi Gaoke Environmental Protection Technology Co ltd
Current assignee: Shaanxi Gaoke Environmental Protection Technology Co ltd
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2023-05-09
Anticipated expiration: 2041-01-13
Also published as: CN112777710A

Abstract

The invention relates to a wastewater recovery device, in particular to an automatic copper-containing wastewater recovery device. The invention provides an automatic copper-containing wastewater recycling device with lower cost and higher efficiency. An automatic copper-containing wastewater recovery device comprises a base and a stirring frame, wherein the stirring frame is arranged on the base; a precipitation frame is arranged on the stirring frame; the water outlet mechanism is arranged on the base; the stirring mechanism is arranged in the stirring frame and is matched with the water outlet mechanism. Through the design of play water mechanism and rabbling mechanism, realized comparatively convenient to copper-containing waste water deposit and retrieve, do not need people to manually pour calcium hydrate and waste water together and deposit, furthest's improvement calcium hydrate's utilization ratio has saved the expense, through the design of scraping material mechanism and intermittent type unloading mechanism, realized automatic collect the precipitate and fully deposit to waste water, improved the efficiency when retrieving waste water.

Description

Automatic recovery unit of copper-containing waste water

Technical Field

The invention relates to a wastewater recovery device, in particular to an automatic copper-containing wastewater recovery device.

Background

Copper wastewater can have a great influence on the quality of water, and can generate peculiar smell exceeding 3 mg/L and can not be drunk exceeding 15 mg/L.

At present, people recover and purify copper-containing wastewater, usually chemical precipitation is used, people are required to manually pour calcium hydroxide into the wastewater and manually stir the wastewater, so that the wastewater is precipitated and purified, the consumption of the calcium hydroxide is not well mastered in the operation process, the cost is increased due to excessive calcium hydroxide, and the wastewater is not thoroughly purified due to the excessive calcium hydroxide.

In the prior art, patent application number CN203768158U discloses a copper-containing wastewater treatment system, which comprises a micro-electrolysis reaction system and a precipitation reaction system, wherein the micro-electrolysis reaction system comprises a micro-electrolysis reaction tank, a copper-containing wastewater injection port, a micro-electrolysis reaction tank discharge port and a primary cell electrode capable of replacing copper ions, and the primary cell electrode capable of replacing copper ions is arranged in the micro-electrolysis reaction tank; the precipitation reaction system comprises a precipitation reaction tank, a copper-containing liquid injection port, a precipitant injection port for injecting a copper precipitant and a precipitation reaction tank discharge port, wherein the copper-containing liquid injection port is connected with the micro-electrolysis reaction tank discharge port, but the cost is high.

Aiming at the problems, the automatic copper-containing wastewater recovery device which is low in cost and can purify and recover copper wastewater with high efficiency is designed.

Disclosure of Invention

In order to overcome the defects that the manual purification cost is not easy to control and the efficiency is low, the technical problem to be solved is as follows: the copper-containing wastewater automatic recovery device is low in cost and high in efficiency.

The technical proposal is as follows: an automatic recovery device of copper-containing wastewater, comprising:

the stirring device comprises a base and a stirring frame, wherein the stirring frame is arranged on the base;

a precipitation frame is arranged on the stirring frame;

the water outlet mechanism is arranged on the base;

the stirring mechanism is arranged in the stirring frame and is matched with the water outlet mechanism.

Further, the water outlet mechanism comprises:

the base is provided with a water containing frame;

the water filling frame is provided with a blanking frame;

the water filling frame is provided with two discharging pipes;

the first sliding rod is connected with the water containing frame in a sliding manner;

the baffle is arranged on the first sliding rod and is connected with the discharging pipe in a sliding manner;

the first spring is wound on the first sliding rod and connected with the water containing frame.

Further, the stirring mechanism comprises:

the stirring frames are provided with first supporting frames;

a spraying tank is arranged on the stirring frame;

the middle part of the spraying tank is connected with two extrusion blocks in a sliding manner, and the stirring frame is connected with a rotating column in a rotating manner;

the stirring frame is arranged on the rotating column and is rotationally connected with the stirring frame.

Further, still including scraping the material mechanism, scraping the material mechanism including:

the rotating frame is rotatably connected with the inside of the water containing frame;

the first sliding sleeves are arranged on the water containing frame;

the space cams are rotationally connected with the water containing frame and are rotationally connected with the first sliding sleeve;

the rotating frame and the space cam are connected with a first transmission assembly;

the inner sides of the first support frames are connected with the sliding scraping rods in a sliding manner, and the sliding scraping rods are connected with the space cams;

the second sliding sleeve is arranged in the sedimentation frame and is connected with the sliding scraping rod in a sliding manner.

Further, still include intermittent type unloading mechanism, intermittent type unloading mechanism is including:

the inner sides of the space cams are respectively provided with a first rotating rod;

the water containing frame is provided with two fixing blocks;

the fixed blocks are connected with the first sliding rods in a sliding manner;

the second sliding rods are respectively provided with a pressing rod, the pressing rods are matched with the first rotating rods, and the pressing rods are connected with the baffle plates;

and the second springs are wound on the second sliding rods, and the second springs are connected with the fixed blocks.

Further, still include rotary mechanism, rotary mechanism is including:

the middle part of the spraying tank is provided with a third sliding sleeve;

the middle part of the third sliding sleeve is rotatably connected with a second rotating rod;

the first bevel gear set is arranged on the second rotating rod and in the middle of the rotating frame;

the motor is arranged on the third sliding sleeve, and an output shaft of the motor is connected with the rotating column;

and the output shaft of the motor and the second rotating rod are provided with a second bevel gear set.

Further, the reciprocating mechanism is also included, and the reciprocating mechanism includes:

the spray tank is provided with two third sliding rods;

the touch rod is arranged on the third sliding rod in a sliding manner and is matched with the extrusion block;

the third springs are wound on the third sliding rods and are connected with the touch rod and the spray tank;

the spraying tank is provided with a first sliding sleeve;

the inclined rod is connected to the fourth sliding sleeve in a sliding manner and matched with the touch rod;

the extrusion rod is arranged on the inclined rod;

and the middle part of the fourth sliding sleeve is connected with a fourth spring, and the fourth spring is connected with the extrusion rod.

Further, the base is made of iron.

The beneficial effects of the invention are as follows:

1. through the design of play water mechanism and rabbling mechanism, realized comparatively convenient to copper-containing waste water deposit and retrieve, do not need people to manually pour calcium hydrate and waste water together and deposit, furthest's improvement calcium hydrate's utilization ratio has saved the expense.

2. Through the design of scraping material mechanism and intermittent type unloading mechanism, realized the automation and collected the precipitate and fully deposit waste water, improved the efficiency when retrieving waste water.

3. Through rotary mechanism and reciprocating mechanism's design, realized the automation and precipitated the purification to waste water, do not need people manual operation, reduced the consumption of manpower, improved waste water recovery's efficiency.

Drawings

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

Fig. 2 is a schematic perspective view of a blanking mechanism and a base of the present invention.

Fig. 3 is a schematic perspective view of the stirring mechanism, stirring frame and precipitation frame of the present invention.

Fig. 4 is a schematic perspective view of a scraping mechanism, a base, a stirring frame and the like.

Fig. 5 is a schematic perspective view of an intermittent discharging mechanism and a water-filling frame according to the present invention.

Fig. 6 is a schematic perspective view of the rotating mechanism, the base and the stirring frame of the present invention.

Fig. 7 is a schematic perspective view of the reciprocating mechanism and stirring frame of the present invention.

Part names and serial numbers in the figure: 1_base, 2_stirring frame, 3_precipitation frame, 4_water outlet mechanism, 41_water filling frame, 42_blanking frame, 43_discharging pipe, 44_baffle, 45_first sliding rod, 46_first spring, 5_stirring mechanism, 51_first support frame, 52_spray can, 53_extrusion block, 54_rotating column, 55_stirring frame, 6_scraping mechanism, 61_rotating frame, 62_first transmission assembly, 63_space cam, 64_first sliding sleeve, 65_sliding scraping rod, 66_second sliding sleeve, 7_intermittent blanking mechanism, 71_first rotating rod, 72_pressing rod, 73_second sliding rod, 74_second spring, 75_fixed block, 8_rotating mechanism, 81_first cone gear set, 82_second rotating rod, 83_second cone gear set, 84_motor, 85_third sliding rod, 9_reciprocating mechanism, 91_touch rod, 92_third sliding rod, 93_third spring, 94_sliding sleeve, 95_fourth sliding sleeve, 96_fourth sliding rod, 96_fourth sliding sleeve, 97_spring.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Example 1

The utility model provides an automatic recovery unit of copper-containing waste water, as shown in FIG. 1, including base 1, stirring frame 2, deposit frame 3, go out water mechanism 4 and rabbling mechanism 5, the base 1 front side is equipped with stirring frame 2, and stirring frame 2 front side is equipped with deposits frame 3, and base 1 upside is equipped with out water mechanism 4, is equipped with rabbling mechanism 5 in the stirring frame 2, and rabbling mechanism 5 cooperates with out water mechanism 4.

When people prepare to retrieve copper-containing waste water, pour waste water into water outlet mechanism 4 kinds earlier, water outlet mechanism 4 discharges waste water to stirring frame 2 this moment, pour calcium hydrate into stirring mechanism 5 this moment, and manual rotatory stirring mechanism 5, stirring mechanism 5 will stir calcium hydrate and waste water and deposit, some precipitate will float to deposit on the frame 3, after waste water deposit purifies, stop rotatory stirring mechanism 5, people will deposit the precipitate in the underframe and handle, and with waste water in the stirring frame 2 retrieve, if need retrieve copper-containing waste water again, repeat above-mentioned operation can.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 2, 3, 4 and 5, the water outlet mechanism 4 comprises a water containing frame 41, a discharging frame 42, discharging pipes 43, a baffle 44, a first sliding rod 45 and a first spring 46, the water containing frame 41 is arranged on the upper side of the base 1, the discharging frame 42 is arranged in the middle of the rear side of the water containing frame 41, two discharging pipes 43 are arranged in the middle of the front side of the water containing frame 41, the first sliding rod 45 is connected in the middle of the front side of the water containing frame 41 in a sliding mode, the baffle 44 is arranged on the front side of the upper portion of the first sliding rod 45, the baffle 44 is connected with the discharging pipes 43 in a sliding mode, the first spring 46 is wound on the first sliding rod 45, and the first spring 46 is connected with the water containing frame 41.

When people prepare to recycle copper-containing wastewater, firstly, the wastewater is poured into the blanking frame 42, the wastewater falls into the water filling frame 41 from the blanking frame 42, the wastewater flows into the stirring frame 2 from the discharging pipe 43, when the wastewater in the stirring frame 2 reaches a first amount, people press the baffle plate 44 downwards, the baffle plate 44 stops the discharging pipe 43, the baffle plate 44 drives the first sliding rod 45 to slide downwards, the first spring 46 is compressed, at the moment, people pour calcium hydroxide into the stirring mechanism 5 and manually rotate the stirring mechanism 5, the stirring mechanism 5 stirs and precipitates the wastewater and the calcium hydroxide, some precipitates can float on the precipitation frame 3, after the wastewater is precipitated and purified, the rotation of the stirring mechanism 5 is stopped, and the baffle plate 44 is loosened, at the moment, the first spring 46 returns to an initial state from a compressed state, the first sliding rod 45 moves upwards to an initial position, people recover the precipitates in the precipitation frame to be well treated, and the wastewater in the stirring frame 2 is recovered, and if copper-containing wastewater is required to be recycled again.

The stirring mechanism 5 comprises a first supporting frame 51, a spraying tank 52, extrusion blocks 53, rotating columns 54 and stirring frames 55, wherein the first supporting frame 51 is arranged on the left side and the right side of the stirring frame 2, the spraying tank 52 is positioned on the rear side of the first supporting frame 51, the middle part of the spraying tank 52 is connected with the two extrusion blocks 53 in a sliding mode, the rotating columns 54 are rotatably connected on the upper side of the middle part of the stirring frame 2, the stirring frames 55 are arranged on the lower side of the rotating columns 54, and the stirring frames 55 are rotatably connected with the stirring frame 2.

When people prepare to recycle copper-containing wastewater, firstly, the wastewater is poured into the blanking frame 42, at this time, the wastewater flows into the stirring frame 2 through the discharging pipe 43, when the wastewater in the stirring frame 2 reaches a certain amount, the baffle 44 is pressed downwards, the wastewater is prevented from continuously flowing out, at this time, the pressing block 53 is pressed downwards, calcium hydroxide is sprayed into the stirring frame 2 from the spraying tank 52 by the pressing block 53, when the proper amount of calcium hydroxide in the stirring frame 2 is poured into the stirring frame, the pressing block 53 is stopped, at this time, the rotating column 54 is manually rotated, the stirring frame 55 drives the stirring frame 55 to rotate, the stirring frame 55 stirs and precipitates calcium hydroxide and wastewater, some precipitates can float on the precipitation frame 3, after the wastewater precipitation is purified, the rotating column 54 is stopped, at this time, the stirring frame 55 stops pressing the baffle 44, the baffle is restored to the initial position, and if the wastewater in the stirring frame 2 is recovered, the operation is repeated.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 4, 5, 6 and 7, the scraper mechanism 6 is further included, the scraper mechanism 6 includes a rotating frame 61, a first transmission component 62, a space cam 63, a first sliding sleeve 64, a sliding scraper rod 65 and a second sliding sleeve 66, the rotating frame 61 is rotatably connected to the upper side inside the water containing frame 41, the first sliding sleeve 64 is respectively arranged on the left side and the right side of the lower portion of the water containing frame 41, the space cam 63 is rotatably connected to the first sliding sleeve 64, the first transmission component 62 is respectively connected to the inner sides of the space cam 63 on the left side and the right side of the rotating frame 61, the sliding scraper rod 65 is respectively connected to the space cam 63 on the inner sides of the first supporting frame 51 on the left side and the right side, the second sliding sleeve 66 is respectively arranged inside the left side and the right side of the sedimentation frame 3, and the second sliding sleeve 66 is respectively connected to the sliding scraper rod 65 in a sliding manner.

When people prepare to recycle copper-containing wastewater, the wastewater is poured into the blanking frame 42, the wastewater drives the rotating frame 61 to rotate, the rotating frame 61 drives the first transmission component 62 to rotate, the first transmission component 62 drives the space cams 63 on the left side and the right side to rotate, the space cams 63 on the left side and the right side drive the sliding scraping rods 65 on the left side and the right side to reciprocate outwards, so that sediment on the upper side of the sedimentation frame 3 is scraped into a collecting groove beside the collecting groove, at the moment, the wastewater flows into the stirring frame 2 through the discharging pipe 43, when the wastewater in the stirring frame 2 reaches a certain amount, the baffle 44 is pressed downwards to prevent the wastewater from continuously flowing out, at the moment, people press the extruding block 53 downwards, the extruding block 53 is sprayed out into the stirring frame 2 from the spraying tank 52, when the calcium hydroxide in the stirring frame 2 is poured into a proper amount, the pressing block 53 is stopped, and manually rotating the rotating column 54 to stir calcium hydroxide and wastewater, some sediment will float on the sediment frame 3, the sliding scraping rod 65 scrapes the sediment into the collecting groove beside, after the wastewater is well precipitated and purified, the rotating column 54 is stopped rotating, and pouring of wastewater into the blanking frame 42 is stopped, at the moment, the stirring frame 55 is stopped rotating, the rotating frame 61 is stopped rotating, the sliding scraping rod 65 is stopped moving, if sediment remains on the sediment frame 3, one can manually rotate the space cam 63 on one side, at the moment, the space cam 63 drives the sliding scraping rod 65 to scrape the sediment on the sediment frame 3 into the collecting groove on one side, after the sediment is collected, one stops pressing the baffle 44, and stops rotating the space cam 63, at the moment, the sliding scraping rod 65 is stopped moving, the baffle is restored to the initial position, one treats the sediment in the sediment frame 3, and the wastewater in the stirring frame 2 is recycled, if the copper-containing wastewater is required to be recycled again, the operation is repeated.

The intermittent blanking mechanism 7 comprises a first rotating rod 71, a pressing rod 72, a second sliding rod 73, a second spring 74 and a fixed block 75, wherein the first rotating rod 71 is arranged on the inner side of the space cam 63, the fixed block 75 is arranged on the lower portions of the left side and the right side of the water charging frame 41, the second sliding rod 73 is connected to the front portion of the fixed block 75 in a sliding mode, the pressing rod 72 is arranged on the upper side of the second sliding rod 73, the pressing rod 72 is matched with the first rotating rod 71, the pressing rod 72 is connected with the baffle 44, the second spring 74 is wound on the second sliding rod 73, and two ends of the second spring 74 are connected with the pressing rod 72 and the fixed block 75 respectively.

When people prepare to recycle the copper-containing wastewater, the wastewater is poured into the blanking frame 42, the wastewater flows into the water-filling frame 41, the rotating frame 61 starts to rotate, the space cams 63 at the left side and the right side start to rotate, the sliding scraping rod 65 starts to reciprocate outwards, the space cams 63 at the left side and the right side drive the first rotating rods 71 at the left side and the right side to rotate, the first rotating rods 71 at the left side and the right side drive the pressing rods 72 to move downwards, the pressing rods 72 at the left side and the right side drive the second sliding rods 73 to move downwards, the second springs 74 are compressed, the pressing rods 72 at the left side and the right side drive the baffle plates 44 to move downwards, so that the wastewater is blocked from flowing out of the discharging pipes 43, when the pressing rods 72 are not pressed downwards any more, the second springs 74 return to the initial state from the compressed state, the second springs 74 drive the pressing rods 72 to move upwards to the initial position, the second sliding rod 73 will return to the initial position, the pressing rod 72 will bring the baffle 44 back to the initial position, at this time, the waste water will flow from the discharge pipe 43 into the stirring frame 2, at this time, people will press the pressing block 53 downwards, the pressing block 53 will spray calcium hydroxide from the spray tank 52 into the stirring frame 2, when the calcium hydroxide in the stirring frame 2 is poured into a proper amount, stop pressing the pressing block 53 downwards, and manually rotate the rotating column 54, stir the calcium hydroxide and the waste water, some sediment will float onto the settling frame 3, the sliding scraping rod 65 scrapes the sediment into the collecting groove beside, after the waste water sediment is purified, stop rotating the rotating column 54, stop pouring the waste water into the discharging frame 42, at this time, the stirring frame 55 will stop rotating, the rotating frame 61 will stop rotating, the first rotating rod 71 will stop rotating, the pressing rod 72 will stop moving, the shutter 44 will stop moving.

The rotary mechanism 8 comprises a first bevel gear set 81, a second rotary rod 82, a second bevel gear set 83, a motor 84 and a third sliding sleeve 85, wherein the third sliding sleeve 85 is arranged on the upper side of the middle of the spray tank 52, the second rotary rod 82 is rotatably connected to the middle of the third sliding sleeve 85, the first bevel gear set 81 is arranged on the rear side of the second rotary rod 82 and the middle of the rotary frame 61, the motor 84 is mounted on the front side of the upper portion of the third sliding sleeve 85, an output shaft of the motor 84 is connected with the rotary column 54, and the second bevel gear set 83 is arranged on the output shaft of the lower side of the motor 84 and the front side of the second rotary rod 82.

When people prepare to recycle the copper-containing wastewater, the motor 84 is started firstly, the output shaft of the motor 84 drives the second bevel gear set 83 to rotate, the second bevel gear set 83 drives the rotating column 54 to rotate, the rotating column 54 drives the stirring frame 55 to rotate and drives the second rotating rod 82 to rotate, the second rotating rod 82 drives the first bevel gear set 81 to rotate, the first bevel gear set 81 drives the rotating frame 61 to rotate, at the moment, people pour the wastewater into the blanking frame 42, the sliding scraper rod 65 reciprocates outwards, the pressing rod 72 reciprocates downwards, the baffle 44 reciprocates downwards, at the moment, the wastewater flows into the stirring frame 2 from the discharging pipe 43 in batches, at the moment, people press the extruding block 53 downwards, the extruding block 53 ejects calcium hydroxide into the stirring frame 2 from the spraying tank 52, when the calcium hydroxide in the stirring frame 2 is poured into a proper amount, the pressing block 53 is stopped downwards, the rotating column 54 is manually rotated, some sediments float on the sedimentation frame 3, the sliding scraper rod 65 scrapes the sediments into the collecting groove beside the motor, and after the wastewater is shut down, at the moment, 84 is closed.

The reciprocating mechanism 9 comprises a touch rod 91, a third sliding rod 92, a third spring 93, a diagonal rod 94, a fourth sliding sleeve 95, an extrusion rod 96 and a fourth spring 97, wherein two third sliding rods 92 are arranged on the upper side of the right part of the spray tank 52, the touch rod 91 is slidably arranged on the third sliding rods 92, the touch rod 91 is matched with the extrusion block 53, the third sliding rods 92 are respectively wound with the third spring 93, the upper side of the third spring 93 is connected with the touch rod 91, the lower side of the third spring 93 is connected with the spray tank 52, the fourth sliding sleeve 95 is arranged on the left side of the spray tank 52, the diagonal rod 94 is slidably connected with the diagonal rod 94, the diagonal rod 94 is matched with the touch rod 91, the extrusion rod 96 is arranged on the diagonal rod 94, the fourth sliding sleeve 95 is connected with the fourth spring 97 in the middle, and the fourth spring 97 is connected with the extrusion rod 96.

When people prepare to retrieve copper-containing waste water, the motor 84 is started, the stirring frame 55 starts to rotate, the baffle 44 reciprocates downwards, the sliding scraper bars 65 reciprocate outwards, waste water flows into the stirring frame 2 from the discharging pipe 43 in batches, when the sliding scraper bars 65 move inwards, the left sliding scraper bars 65 drive the extrusion bars 96 to move right, the fourth springs 97 are compressed, the extrusion bars 96 drive the inclined bars 94 to move right, the inclined bars 94 drive the touch bars 91 to move downwards, the touch bars 91 drive the extrusion blocks 53 to move downwards, calcium hydroxide falls into the stirring frame 2 from the opening of the spray tank 52 at the moment, the stirring frame 55 paddles stir and precipitate the waste water and calcium hydroxide, some precipitate paddles float into the precipitation frame 3, when the sliding scraper bars 65 move outwards, the sliding scraper bars 65 scrape the precipitate in the precipitation frame 3 to the collecting grooves on the two sides at the moment, the fourth springs 97 return to the initial state from the compressed state, the fourth springs 97 drive the extrusion bars 96 to move left to the initial state, the inclined bars 94 drive the inclined bars 94 to move left to return to the initial state, and return to the initial state from the compressed state to the initial state to return the initial state to the initial state, and the initial state to the initial state 93.

It will be appreciated by persons skilled in the art that the above embodiments are not intended to limit the invention in any way, and that all technical solutions obtained by means of equivalent substitutions or equivalent transformations fall within the scope of the invention.

Claims

1. An automatic recovery unit of copper-containing waste water, characterized by including:

a base (1) and a stirring frame (2), wherein the stirring frame (2) is arranged on the base (1);

a precipitation frame (3), wherein the stirring frame (2) is provided with the precipitation frame (3);

a water outlet mechanism (4), wherein the water outlet mechanism (4) is arranged on the base (1);

the stirring mechanism (5) is arranged in the stirring frame (2), and the stirring mechanism (5) is matched with the water outlet mechanism (4); the water outlet mechanism (4) comprises:

a water containing frame (41), wherein the water containing frame (41) is arranged on the base (1);

a blanking frame (42), wherein the water-filling frame (41) is provided with the blanking frame (42);

the water filling frame (41) is provided with two discharging pipes (43);

the first sliding rod (45) is connected with the first sliding rod (45) on the water containing frame (41) in a sliding way;

the baffle (44) is arranged on the first sliding rod (45), and the baffle (44) is connected with the discharging pipe (43) in a sliding mode;

the first spring (46) is wound on the first sliding rod (45), and the first spring (46) is connected with the water containing frame (41); the stirring mechanism (5) comprises:

the first support frames (51) are arranged on the stirring frames (2);

a spraying tank (52), wherein the stirring frame (2) is provided with the spraying tank (52);

the middle part of the spraying tank (52) is connected with two extrusion blocks (53) in a sliding manner;

the rotating column (54) is rotationally connected with the stirring frame (2);

the stirring frame (55) is arranged on the rotating column (54), and the stirring frame (55) is rotationally connected with the stirring frame (2); the scraper mechanism (6) is further included, and the scraper mechanism (6) comprises:

a rotating frame (61), wherein the rotating frame (61) is rotatably connected inside the water containing frame (41);

the first sliding sleeves (64) are respectively arranged on the water containing frame (41);

the space cams (63) are rotationally connected with the water containing frame (41), and the space cams (63) are rotationally connected with the first sliding sleeve (64);

the first transmission component (62) is connected with the rotating frame (61) and the space cam (63);

the inner sides of the first support frames (51) are respectively connected with a sliding scraping rod (65) in a sliding manner, and the sliding scraping rods (65) are respectively connected with a space cam (63);

the second sliding sleeves (66) are arranged in the sedimentation frame (3), and the second sliding sleeves (66) are connected with the sliding scraping rod (65) in a sliding manner; the automatic feeding device also comprises an intermittent feeding mechanism (7), wherein the intermittent feeding mechanism (7) comprises:

the first rotating rods (71) are arranged on the inner sides of the space cams (63);

the fixing blocks (75) are arranged on the water containing frame (41);

the second sliding rods (73) are connected to the fixed blocks (75) in a sliding manner;

the second sliding rods (73) are respectively provided with a pressing rod (72), the pressing rods (72) are matched with the first rotating rods (71), and the pressing rods (72) are connected with the baffle plates (44);

the second springs (74) are wound on the second sliding rods (73), and the second springs (74) are connected with the fixed blocks (75); the device also comprises a rotating mechanism (8), wherein the rotating mechanism (8) comprises:

the middle part of the spraying tank (52) is provided with a third sliding sleeve (85);

the middle part of the third sliding sleeve (85) is rotatably connected with the second rotating rod (82);

the first bevel gear set (81) is arranged on the second rotating rod (82) and in the middle of the rotating frame (61);

the motor (84) is arranged on the third sliding sleeve (85), and an output shaft of the motor (84) is connected with the rotating column (54);

a second bevel gear set (83), wherein the second bevel gear set (83) is arranged on the output shaft of the motor (84) and the second rotating rod (82); the device also comprises a reciprocating mechanism (9), wherein the reciprocating mechanism (9) comprises:

the third sliding rods (92) are arranged on the spraying tank (52), and two third sliding rods (92) are arranged on the spraying tank;

the touch rod (91), the third sliding rod (92) is provided with a touch rod (91) in a sliding manner, and the touch rod (91) is matched with the extrusion block (53);

the third springs (93) are wound on the third sliding rods (92), and the third springs (93) are connected with the touch rods (91) and the spraying tanks (52);

the spraying tank (52) is provided with a fourth sliding sleeve (95);

the inclined rod (94), the fourth sliding sleeve (95) is connected with the inclined rod (94) in a sliding manner, and the inclined rod (94) is matched with the touch rod (91);

an extrusion rod (96), wherein the extrusion rod (96) is arranged on the inclined rod (94);

and a fourth spring (97), wherein the middle part of the fourth sliding sleeve (95) is connected with the fourth spring (97), and the fourth spring (97) is connected with the extrusion rod (96).

2. An automatic copper-containing wastewater recovery device according to claim 1, characterized in that the base (1) is made of iron.