CN117160138B - Metal heat treatment waste water purifying equipment - Google Patents

Abstract

The invention discloses metal heat treatment wastewater purification equipment, and relates to the technical field of metal heat treatment equipment. The invention comprises a water tank, wherein the water tank comprises a first tank body and a second tank body which are mutually communicated, a partition part is arranged in the first tank body, a cavity formed by the partition part and the bottom surface of the first tank body is communicated with a liquid inlet, a sleeve is connected with the partition part through a first spring, a water stop plate is arranged in the second tank body, one side of the water stop plate is connected with a vertical plate, a through groove communicated with a dirt collecting cavity is formed in the water stop plate, the through groove is closed through a plurality of installed rotating plates, an arc-shaped filter screen is installed in a port of a liquid outlet cavity, a rotating part is installed in the filter screen, and a motor for driving the rotating part to rotate is installed on the outer side of the second tank body. According to the invention, impurities contained in cooling water fall on the surface of the rotating plate after precipitation until the cooling water enters a liquid outlet cavity formed between the vertical plate and the side wall of the second box body, and the cooling water is discharged through the liquid outlet after being filtered by the arc-shaped filter screen, so that the impurity precipitate is treated and filtered.

Description

Metal heat treatment waste water purifying equipment

Technical Field

The invention relates to the technical field of metal heat treatment equipment, in particular to metal heat treatment wastewater purification equipment.

Background

The high-temperature furnace comprises 100% barium chloride, the medium-temperature salt bath is mainly composed of a mixture of barium chloride and sodium chloride, residual salt is adhered to a workpiece after quenching, the workpiece is soaked and cleaned by hot water or boiled water, and the waste water contains barium salt. Many enterprises do not process the barium chloride wastewater and directly enter the drainage ditch, the barium chloride wastewater has sediments, which can cause excessive sediment of a drainage pipeline and a water collecting tank to cause difficult digging and transportation, and can cause blockage of a filter press, filter cloth and the like, which can seriously affect the drainage process of the subsequent wastewater, therefore, the invention provides a purification device for the wastewater subjected to metal heat treatment.

Disclosure of Invention

The invention aims to provide metal heat treatment wastewater purification equipment, which solves the related problems in the background technology.

In order to solve the technical problems, the invention provides metal heat treatment wastewater purification equipment, which comprises a water tank, wherein the water tank comprises a first tank body and a second tank body which are communicated with each other, a partition part is arranged in the first tank body, a cavity formed by the partition part and the bottom surface of the first tank body is communicated with a liquid inlet, a sleeve is arranged on the partition part, the sleeve is connected with the partition part through a first spring, a water stop plate is arranged in the second tank body, one side of the water stop plate is connected with a vertical plate, a dirt collecting cavity is formed by the water stop plate and the bottom surface of the second tank body, the dirt collecting cavity is communicated with the outer part of the tank body through a drain outlet, a liquid outlet cavity is communicated with the outer part of the tank body through the drain outlet, a through groove communicated with the dirt collecting cavity is formed in the water stop plate, an arc-shaped filter screen is arranged in a port of the liquid outlet cavity, a rotating part is arranged in the filter screen, a motor is arranged on the outer side of the second tank body and drives the rotating motor to rotate along with the rotating part, and a cooling plate is arranged on the side of the cooling plate along with the cooling plate after the cooling plate is arranged in the cooling plate, and the cooling plate is cooled down along with the cooling plate, and the cooling plate is cooled down along the cooling plate after the cooling plate is arranged, and the cooling plate is cooled down along the cooling plate and is arranged, and the cooling plate is cooled down along the cooling plate and up along the cooling plate and has the cooling plate and cooling filter surface is formed;

further, the rotating plate is installed between two opposite side plates of the second box body through a pin rod, the end part of the pin rod penetrates through the side wall of the second box body to extend outwards, a rocker arm is installed on the extending end of the pin rod and connected with a connecting rod, the connecting rod is installed on the outer side face of the second box body through the pin rod, the end part of the connecting rod moves along the side edge of the cam, a concave surface is arranged on the cam, when the end part of the connecting rod falls into the concave surface, the whole body of the connecting rod slides to one side of the cam, so that the installed rocker arm is driven to rotate to one side of the cam, the port of the rotating plate is overlapped on the rotating end of the other rotating plate, the sealing of a through groove of the water stop plate is realized, meanwhile, the rotating plate and the other rotating plate are impacted to vibrate, so that the locally attached sediment is convenient to fall off, when the connecting rod passes through the concave surface, the whole body of the connecting rod is far away from the cam, so that the installed rocker arm is driven to rotate to one side far away from the cam, the sediment falls into a sewage collecting cavity along the surface of the inclined rotating plate, and the sediment is collected;

further, two sealing blocks are symmetrically arranged in the port of the liquid outlet cavity, and a notch is formed between every two adjacent sealing blocks.

Further, the rotating part comprises a shaft body, helical blades, a fixed block and a threaded rod, the fixed block is arranged in the middle of the shaft body, the helical blades distributed around the shaft body are arranged on two sides of the fixed block, and the threaded rod is arranged in the shaft body.

Further, open on the fixed block have with the drain of dirt collection chamber intercommunication, the both ends of axis body all are equipped with rectangular channel, the axis body passes through fixed block and dirt collection chamber intercommunication, in the rotatory in-process waste water of rotation portion gets into the cylindrical passageway that sealing block and arc filter screen formed through the notch, promote waste water outside motion through the helical blade that is equipped with, realize that waste water gets into out the liquid intracavity after the arc filter screen filters, the impurity that filters the production is in the promotion of helical blade to both sides motion, because hollow axis body outside tip is equipped with rectangular channel, the inside threaded rod that is equipped with of axis body simultaneously, the threaded rod promotes the inboard water of axis body and gets into dirt collection intracavity through the fixed block, thereby drive the impurity after the filtration and get into rectangular channel, collect through the fixed block row into dirt collection intracavity, avoid the filter screen jam.

Further, the main body of the sleeve is a cylinder, an extension pipe is arranged at the bottom of the cylinder, the extension pipe penetrates through the partition part, the extension pipe downwards extends, a first spring is sleeved on the outer side of the extension pipe, and the first spring is located between the end face of the cylinder and the end face of the partition part.

Further, install the push pedal in the barrel in the sliding way, the spring second is installed to the bottom surface of push pedal and barrel, and the spring second of installation promotes the push pedal upward movement, the edge body has been seted up in the last port of barrel, is equipped with a plurality of delivery port on the inner wall of edge body, be equipped with a plurality of passageway in the lateral wall of barrel, the delivery port communicates with the bottom of barrel through corresponding passageway, wherein, be equipped with annular arch in the delivery port, install the check valve in the extension pipe, a plurality of deep groove has been seted up to the port of barrel, the bottom surface of deep groove and the terminal surface parallel and level of push pedal that is located the biggest department, be equipped with a plurality of recess that distributes along the axis direction on the medial surface of barrel, be equipped with a plurality of bead that corresponds with the recess on the lateral surface of push pedal, after the tip and the push pedal contact of metal piece, promote push pedal compression spring second to realize that the space of push pedal and barrel reduces, install the check valve in the extension pipe simultaneously, prevent cooling water backward flow, promote the water in the barrel space to get into the passageway through the delivery port and discharge, spray the surface to metal piece, realize cooling water to spray the metal piece, realize cooling water to cool off on the side, realize cooling water continuous cooling cavity to the realization, realize cooling water collection.

Further, the partition includes baffle and annular curb plate, the cross section looks adaptation of baffle and water tank, install the impeller in the annular curb plate, the axis body tip cooperation of impeller is installed in the round hole that is equipped with at the baffle middle part, the axis body terminal surface of impeller is opened there is the through groove, the rotation cover is installed to the through groove cooperation, be equipped with spiral groove on the rotation cover medial surface, the extension pipe outside is equipped with the spheroid structure and follows spiral groove motion, and pivoted rotation cover drives the impeller and rotates, and when the spring that is equipped with was received the compression, the in-process of extension pipe downwardly moving promotes the impeller rotation, is convenient for realize promoting impeller forward rotation, realizes promoting the water in the annular curb plate and promotes the check valve and open into the barrel inside, the inside water pressure of effectual increase barrel, improves the water yield in the short time.

The invention has the following beneficial effects:

according to the invention, the cooled cooling water falls into the first box body and the second box body, and flows upwards along the water-stop plate along with the increase of the cooling water, impurities contained in the cooling water fall on the surface of the rotating plate after being precipitated through the rotating plate in the spreading process until the cooling water enters a liquid outlet cavity formed between the vertical plate and the side wall of the second box body, and the cooling water is discharged through the liquid outlet after being filtered through the arc-shaped filter screen, so that the treatment and filtration of impurity precipitates are realized.

The cam is provided with the concave surface, when the end part of the connecting rod falls into the concave surface, the whole connecting rod slides to one side of the cam, so that the installed rocker arm is driven to rotate to one side of the cam, the port of the rotating plate is overlapped on the rotating end of the other rotating plate, the sealing of the through groove of the water stop plate is realized, meanwhile, the impact of the rotating plate and the other rotating plate is realized, the vibration is generated, the falling off of the locally attached sediment is convenient, when the connecting rod passes through the concave surface, the whole connecting rod is far away from the cam, the installed rocker arm is driven to rotate to one side far from the cam, the sediment falls into the dirt collecting cavity along the surface of the inclined rotating plate, and the collection of the sediment is realized.

After the end part of the metal piece is contacted with the push plate, the push plate is pushed to compress the second spring, so that the space between the push plate and the bottom surface of the cylinder is reduced, meanwhile, the one-way valve is arranged in the extension pipe to prevent cooling water from flowing back, the push plate and the water inlet channel in the cylinder space are pushed to be discharged through the water outlet and sprayed on the surface of the metal piece, so that the heat dissipation of the metal piece is realized, in addition, sprayed cooling water is converged in the cavity at the upper side of the push plate, the continuous heat dissipation of the metal piece is realized, the isolation of the cooling water is realized through the push plate, and the pollution of the cooling water is avoided.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view of the whole cross-sectional structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention along the axis of the rotating portion;

FIG. 4 is a schematic view of the internal structure of the present invention;

FIG. 5 is a schematic cross-sectional view of FIG. 4 according to the present invention;

FIG. 6 is an enlarged view of a portion of the present invention;

in the drawings, the list of components represented by the various numbers is as follows:

1. a water tank; 101. a first box body; 102. a second box body; 103. a liquid inlet; 104. a liquid outlet; 105. a vertical plate; 106. a liquid outlet cavity; 107. a dirt collection cavity; 108. a sewage outlet; 2. a water-stop plate; 3. a rotating plate; 4. a sleeve; 401. a cylinder; 4011. a channel; 402. a water outlet; 4021. an annular protrusion; 403. a deep groove; 404. a push plate; 405. a second spring; 406. an extension tube; 407. a one-way valve; 5. a first spring; 6. a dividing section; 601. a partition plate; 602. an annular side plate; 603. a rotating sleeve; 604. an impeller; 7. a sealing block; 701. a notch; 8. a rotating part; 801. a shaft body; 802. a helical blade; 803. a fixed block; 804. a threaded rod; 9. a cam; 10. a connecting rod; 11. a rocker arm; 12. and a pin rod.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1-3, the invention discloses a metal heat treatment wastewater purifying device, which comprises a water tank 1, wherein the water tank 1 comprises a first tank body 101 and a second tank body 102 which are mutually communicated, a partition part 6 is installed in the first tank body 101, a cavity formed by the partition part 6 and the bottom surface of the first tank body 101 is communicated with a liquid inlet 103, a sleeve 4 is arranged on the partition part 6, the sleeve 4 is connected with the partition part 6 through a first spring 5, a water-stop plate 2 is arranged in the second tank body 102, one side of the water-stop plate 2 is connected with a vertical plate 105, the water-stop plate 2 and the bottom surface of the second tank body 102 form a sewage collecting cavity 107, the sewage collecting cavity 107 is communicated with the outside of the second tank body 102 through a sewage draining port 108, a liquid outlet cavity 106 is communicated with the outside of the second tank body 102 through a liquid outlet 104, a through groove communicated with the sewage collecting cavity 107 is formed in the water-stop plate 2, the through a plurality of rotating plates 3 installed, an arc-shaped filter screen is installed in the port of the liquid outlet cavity 106, a rotating part 8 is installed in the filter screen, and the second tank 102 is driven by a motor to rotate by the filter screen 8.

Starting a motor, realizing that the installed rotating part 8 rotates, cooling water after cooling falls into the first box body 101 and the second box body 102, along with the increase of the cooling water, the cooling water spreads upwards along the water stop plate 2, the in-process of spreading passes through the rotating plate 3 arranged, impurities contained in the cooling water fall on the surface of the rotating plate 3 after precipitation until the cooling water enters a liquid outlet cavity 106 formed between the vertical plate 105 and the side wall of the second box body 102, and the cooling water is discharged through a liquid outlet 104 after being filtered by an arc filter screen, so that the treatment and filtration of impurity precipitates are realized.

Example 2

Referring to fig. 1-6, the invention discloses a metal heat treatment wastewater purification device, which comprises a water tank 1, wherein the water tank 1 comprises a first tank body 101 and a second tank body 102 which are mutually communicated, a partition part 6 is installed in the first tank body 101, a cavity formed by the partition part 6 and the bottom surface of the first tank body 101 is communicated with a liquid inlet 103, a sleeve 4 is arranged on the partition part 6, the sleeve 4 is connected with the partition part 6 through a first spring 5, a water stop plate 2 is arranged in the second tank body 102, one side of the water stop plate 2 is connected with a vertical plate 105, the water stop plate 2 and the bottom surface of the second tank body 102 form a sewage collecting cavity 107, the sewage collecting cavity 107 is communicated with the outside of the second tank body 102 through a sewage drain 108, a liquid outlet cavity 106 is communicated with the outside of the second tank body 102 through a liquid outlet 104, a through groove communicated with the sewage collecting cavity 107 is formed on the water stop plate 2, the through a plurality of rotating plates 3 which are installed is sealed, an arc-shaped filter screen is installed in a port of the liquid outlet cavity 106, a rotating part 8 is installed in the filter screen, and the outer side of the second tank 102 is driven by a motor to rotate by the filter screen 8.

Starting a motor to realize rotation of the installed rotating part 8, enabling cooled cooling water to fall into the first box body 101 and the second box body 102, enabling the cooling water to spread upwards along the water stop plate 2 along with the increase of the cooling water, enabling impurities contained in the cooling water to fall on the surface of the rotating plate 3 after precipitation through the rotating plate 3 in the spreading process until the cooling water enters a liquid outlet cavity 106 formed between the vertical plate 105 and the side wall of the second box body 102, and discharging the cooling water through a liquid outlet 104 after the cooling water is filtered through an arc filter screen, so that the treatment and filtration of impurity precipitates are realized;

the rotating plate 3 is arranged between two opposite side plates of the second box body 102 through a pin rod 12, the end part of the pin rod 12 penetrates through the side wall of the second box body 102 to extend outwards, a rocker arm 11 is arranged on the extending end of the pin rod 12, the rocker arm 11 is connected with a connecting rod 10, the connecting rod 10 is arranged on the outer side surface of the second box body 102 through the pin rod, and the end part of the connecting rod 10 moves along the side edge of the cam 9;

the cam 9 is provided with a concave surface, when the end part of the connecting rod 10 falls into the concave surface, the whole connecting rod 10 slides to one side of the cam 9, so that the rocker 11 is driven to rotate to one side of the cam 9, the port of the rotating plate 3 is overlapped on the rotating end of the other rotating plate 3, the sealing of the through groove of the water stop plate 2 is realized, meanwhile, the impact of the rotating plate 3 and the other rotating plate 3 is realized, vibration is generated, the falling of locally attached sediment is convenient to realize, when the connecting rod 10 passes through the concave surface, the whole connecting rod 10 is arranged far away from the cam 9, the rocker 11 is driven to rotate to one side far away from the cam 9, the sediment falls into the dirt collecting cavity 107 along the surface of the inclined rotating plate 3, and the sediment is collected;

two sealing blocks 7 are symmetrically arranged in the port of the liquid outlet cavity 106, and a notch 701 is formed between two adjacent sealing blocks 7.

The rotating part 8 comprises a shaft body 801, helical blades 802, a fixing block 803 and a threaded rod 804, wherein the fixing block 803 is arranged in the middle of the shaft body 801, the helical blades 802 distributed around the shaft body 801 are arranged on two sides of the fixing block 803, and the threaded rod 804 is arranged in the shaft body 801.

The fixed block 803 is provided with a drain outlet communicated with the sewage collecting cavity 107, both ends of the shaft body 801 are provided with rectangular grooves, and the shaft body 801 is communicated with the sewage collecting cavity 107 through the fixed block 803;

in the cylindrical passageway that rotary part 8 pivoted in-process waste water passed through notch 701 entering sealing block 7 and arc filter screen formed, promote waste water outside motion through helical blade 802 that is equipped with, realize that waste water passes through in the arc filter screen filters the back entering liquid chamber 106, the promotion of filtration production impurity is moving to both sides at the both sides, because hollow axis body 801 outside tip is equipped with the rectangular channel, axis body 801 inside is equipped with threaded rod 804 simultaneously, threaded rod 804 promotes axis body 801 inboard water and gets into the dirty intracavity 107 through fixed block 803, thereby it gets into the rectangular channel to drive the impurity after the filtration, collect in the dirty intracavity 107 of collection is got into through fixed block 803, avoid the filter screen jam.

The main body of the sleeve 4 is a cylinder 401, an extension pipe 406 is arranged at the bottom of the cylinder 401, the extension pipe 406 penetrates through the arranged dividing part 6 to extend downwards, a first spring 5 is sleeved on the outer side of the extension pipe 406, and the first spring 5 is positioned between the end face of the cylinder 401 and the end face of the dividing part 6.

The push plate 404 is slidably mounted in the barrel 401, the second spring 405 is mounted on the bottom surface of the push plate 404 and the bottom surface of the barrel 401, the mounted second spring 405 pushes the push plate 404 to move upwards, a rim body is arranged in the upper port of the barrel 401, a plurality of water outlets 402 are formed in the inner wall of the rim body, a plurality of channels 4011 are formed in the side wall of the barrel 401, the water outlets 402 are communicated with the bottom of the barrel 401 through corresponding channels 4011, annular protrusions 4021 are arranged in the water outlets 402, a one-way valve 407 is mounted in an extension pipe 406, a plurality of deep grooves 403 are formed in the port of the barrel 401, the bottom surface of the deep grooves 403 is flush with the end surface of the push plate 404 located at the highest position, a plurality of grooves distributed along the axial direction are formed in the inner side surface of the barrel 401, and a plurality of ribs corresponding to the grooves are formed in the peripheral side surface of the push plate 404.

After the end part of the metal piece is contacted with the push plate 404, the push plate 404 is pushed to compress the second spring 405, so that the space between the push plate 404 and the bottom surface of the cylinder 401 is reduced, meanwhile, the one-way valve 407 is arranged in the extension pipe 406 to prevent cooling water from flowing back, water in the space between the push plate 404 and the cylinder 401 is pushed to enter the channel 4011 and be discharged through the water outlet 402, the water is sprayed on the surface of the metal piece, the heat dissipation of the metal piece is realized, in addition, the sprayed cooling water is converged in a cavity on the upper side of the push plate 404, the continuous heat dissipation of the metal piece is realized, the isolation of the cooling water is realized through the push plate 404, and the cooling water is prevented from being polluted;

when the metal piece is taken out, the push plate 404 is reset under the action of the second spring 405, cooling water converged on the upper side of the push plate 404 and contacted with the metal piece is pushed to be discharged through the deep groove 403 and flows into the water tank 1, and is discharged through the water outlet 402, in the process of resetting the push plate 404, a cavity formed between the push plate 404 and the bottom surface of the cylinder 401 is increased, and cooling water entering through the liquid inlet 103 under the action of negative pressure pushes the one-way valve 407 to be opened into the cavity formed between the push plate 404 and the bottom surface of the cylinder 401, so that the next cooling work is facilitated.

The partition part 6 comprises a partition plate 601 and an annular side plate 602, the partition plate 601 is matched with the cross section of the water tank 1, an impeller 604 is installed in the annular side plate 602, the shaft end part of the impeller 604 is installed in a round hole formed in the middle of the partition plate 601 in a matched mode, a through groove is formed in the shaft end face of the impeller 604, a rotating sleeve 603 is installed in the through groove in a matched mode, a spiral groove is formed in the inner side face of the rotating sleeve 603, a sphere structure is arranged on the outer side of the extending pipe 406 to move along the spiral groove, and the rotating sleeve 603 drives the impeller 604 to rotate;

when the first spring 5 is compressed, the impeller 604 is pushed to rotate in the downward moving process of the extension pipe 406, so that the impeller 604 is pushed to rotate forward, the water in the annular side plate 602 is pushed to push the one-way valve 407 to open and enter the cylinder 401, the water pressure in the cylinder 401 is effectively increased, and the water yield is improved in a short time.

Working principle:

starting a motor to realize rotation of the installed rotating part 8, enabling cooled cooling water to fall into the first box body 101 and the second box body 102, enabling the cooling water to spread upwards along the water stop plate 2 along with the increase of the cooling water, enabling impurities contained in the cooling water to fall on the surface of the rotating plate 3 after precipitation through the rotating plate 3 in the spreading process until the cooling water enters a liquid outlet cavity 106 formed between the vertical plate 105 and the side wall of the second box body 102, and discharging the cooling water through a liquid outlet 104 after the cooling water is filtered through an arc filter screen, so that the treatment and filtration of impurity precipitates are realized;

the cam 9 is provided with a concave surface, when the end part of the connecting rod 10 falls into the concave surface, the whole connecting rod 10 slides to one side of the cam 9, so that the rocker 11 is driven to rotate to one side of the cam 9, the port of the rotating plate 3 is overlapped on the rotating end of the other rotating plate 3, the sealing of the through groove of the water stop plate 2 is realized, meanwhile, the impact of the rotating plate 3 and the other rotating plate 3 is realized, vibration is generated, the falling of locally attached sediment is convenient to realize, when the connecting rod 10 passes through the concave surface, the whole connecting rod 10 is arranged far away from the cam 9, the rocker 11 is driven to rotate to one side far away from the cam 9, the sediment falls into the dirt collecting cavity 107 along the surface of the inclined rotating plate 3, and the sediment is collected;

after the end part of the metal piece is contacted with the push plate 404, the push plate 404 is pushed to compress the second spring 405, so that the space between the push plate 404 and the bottom surface of the cylinder 401 is reduced, meanwhile, the one-way valve 407 is arranged in the extension pipe 406 to prevent cooling water from flowing back, water in the space between the push plate 404 and the cylinder 401 is pushed to enter the channel 4011 and be discharged through the water outlet 402, the water is sprayed on the surface of the metal piece, the heat dissipation of the metal piece is realized, in addition, the sprayed cooling water is converged in a cavity on the upper side of the push plate 404, the continuous heat dissipation of the metal piece is realized, the isolation of the cooling water is realized through the push plate 404, and the cooling water is prevented from being polluted;

when the metal piece is taken out, the push plate 404 is reset under the action of the second spring 405, cooling water converged on the upper side of the push plate 404 and contacted with the metal piece is pushed to be discharged through the deep groove 403 and flows into the water tank 1, and is discharged through the water outlet 402, in the process of resetting the push plate 404, a cavity formed between the push plate 404 and the bottom surface of the cylinder 401 is increased, and cooling water entering through the liquid inlet 103 under the action of negative pressure pushes the one-way valve 407 to be opened into the cavity formed between the push plate 404 and the bottom surface of the cylinder 401, so that the next cooling work is facilitated.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (5)

1. The utility model provides a metal heat treatment waste water purification equipment, includes water tank (1), its characterized in that:

the water tank (1) comprises a first tank body (101) and a second tank body (102) which are communicated with each other;

a partition part (6) is arranged in the first box body (101), a cavity formed by the partition part (6) and the bottom surface of the first box body (101) is communicated with a liquid inlet (103), a sleeve (4) is arranged on the partition part (6), and the sleeve (4) is connected with the partition part (6) through a first spring (5);

a water-stop plate (2) is arranged in the second box body (102), one side of the water-stop plate (2) is connected with a vertical plate (105), the water-stop plate (2) and the bottom surface of the second box body (102) form a sewage collecting cavity (107), the sewage collecting cavity (107) is communicated with the outside of the second box body (102) through a sewage outlet (108), a liquid outlet cavity (106) is formed between the vertical plate (105) and the side wall of the second box body (102), and the liquid outlet cavity (106) is communicated with the outside of the second box body (102) through a liquid outlet (104);

the water-stop plate (2) is provided with a through groove communicated with the dirt collecting cavity (107), and the through groove is closed by a plurality of rotating plates (3) arranged on the water-stop plate;

an arc-shaped filter screen is arranged in a port of the liquid outlet cavity (106), and a rotating part (8) is arranged in the filter screen;

the main body of the sleeve (4) is a cylinder (401), an extension pipe (406) is arranged at the bottom of the cylinder (401), the extension pipe (406) penetrates through the arranged dividing part (6) to extend downwards, a first spring (5) is sleeved on the outer side of the extension pipe (406), and the first spring (5) is positioned between the end face of the cylinder (401) and the end face of the dividing part (6);

the rotating plate (3) is arranged between two opposite side plates of the second box body (102) through a pin rod (12), the end part of the pin rod (12) penetrates through the side wall of the second box body (102) to extend outwards, a rocker arm (11) is arranged at the extending end of the pin rod (12), and the rocker arm (11) is connected with the connecting rod (10);

the connecting rod (10) is arranged on the outer side surface of the second box body (102) through a pin rod, and the end part of the connecting rod (10) moves along the side edge of the cam (9);

a push plate (404) is slidably arranged in the cylinder body (401), a second spring (405) is arranged on the bottom surface of the push plate (404) and the bottom surface of the cylinder body (401), and the second spring (405) is arranged to push the push plate (404) to move upwards;

the upper port of the barrel body (401) is internally provided with a rim body, the inner wall of the rim body is provided with a plurality of water outlets (402), the side wall of the barrel body (401) is internally provided with a plurality of channels (4011), the water outlets (402) are communicated with the bottom of the barrel body (401) through corresponding channels (4011), annular protrusions (4021) are arranged in the water outlets (402), and a one-way valve (407) is arranged in the extension tube (406);

a plurality of deep grooves (403) are formed in the port of the cylinder body (401), the bottom surface of each deep groove (403) is flush with the end surface of a push plate (404) located at the highest position, a plurality of grooves distributed along the axis direction are formed in the inner side surface of the cylinder body (401), and a plurality of ribs corresponding to the grooves are formed in the peripheral side surface of the push plate (404);

the utility model discloses a water tank, including partition (6), partition (601) and annular curb plate (602), the cross section looks adaptation of partition (601) and water tank (1), install impeller (604) in annular curb plate (602), in the round hole that is equipped with at partition (601) middle part is installed in the axis body tip cooperation of impeller (604), the axis body terminal surface of impeller (604) is opened has the through groove, run through inslot cooperation and install rotation cover (603), be equipped with spiral groove on rotation cover (603) medial surface, extension pipe (406) outside is equipped with the spheroid structure and follows spiral groove motion, and rotation cover (603) drive impeller (604) and rotate.

2. The metal heat treatment wastewater purification device according to claim 1, wherein two sealing blocks (7) are symmetrically arranged in the port of the liquid outlet cavity (106), and a notch (701) is formed between two adjacent sealing blocks (7).

3. The metal heat treatment wastewater purification device according to claim 2, wherein the rotating part (8) comprises a shaft body (801), spiral blades (802), a fixed block (803) and a threaded rod (804), the middle part of the shaft body (801) is provided with the fixed block (803), both sides of the fixed block (803) are provided with the spiral blades (802) distributed around the shaft body (801), and the threaded rod (804) is arranged in the shaft body (801).

4. A metal heat treatment wastewater purification device according to claim 3, wherein the fixed block (803) is provided with a sewage outlet communicated with the sewage collecting cavity (107), and both ends of the shaft body (801) are provided with rectangular grooves;

the shaft body (801) is communicated with the dirt collecting cavity (107) through the fixing block (803).

5. The metal heat treatment wastewater purification apparatus according to claim 1, wherein a motor for driving the rotating part (8) to rotate is installed at the outer side of the second case (102).