阅读说明：本技术 一种铜业生产废水处理设备 (Copper industry waste water treatment equipment ) 是由 许家明 冯庆凯 王龙 洪泽填 谢少珊 吴丹敏 于 2019-11-26 设计创作，主要内容包括：本发明提供了一种铜业生产废水处理设备,包括过滤箱及清洗箱,过滤箱内设有第一滤板,第一滤板的一侧与过滤箱内壁枢接,另一侧经第一电机带动升降、并绕枢接部转动,过滤箱的一侧设有第一导流框,清洗箱的内壁对应第一导流框设有第一排出管；清洗箱内设有第二滤板,第二滤板靠近过滤箱的一侧与清洗箱内壁枢接,另一侧经第二电机带动升降、并绕枢接部转动,清洗箱侧壁连通设有与外部水源接通的进水管,清洗箱内壁安装有超声波发生器,清洗箱远离过滤箱的一侧设有第二导流框,清洗箱的外壁对应第二导流框设有第二排出管,第二排出管的外侧设有收集框；其可对废水进行有效的过滤处理,且对收集的析出物进行清洗,方便析出物后续的回收。(The invention provides a copper industry production wastewater treatment device, which comprises a filter box and a cleaning box, wherein a first filter plate is arranged in the filter box, one side of the first filter plate is pivoted with the inner wall of the filter box, the other side of the first filter plate is driven by a first motor to lift and rotate around a pivoting part, a first flow guide frame is arranged on one side of the filter box, and a first discharge pipe is arranged on the inner wall of the cleaning box corresponding to the first flow guide frame; a second filter plate is arranged in the cleaning box, one side, close to the filter box, of the second filter plate is pivoted with the inner wall of the cleaning box, the other side of the second filter plate is driven by a second motor to lift and rotate around the pivoting part, a water inlet pipe communicated with an external water source is communicated with the side wall of the cleaning box, an ultrasonic generator is arranged on the inner wall of the cleaning box, a second flow guide frame is arranged on one side, away from the filter box, of the cleaning box, a second discharge pipe is arranged on the outer wall of the cleaning box corresponding to the second flow guide frame, and a; the device can effectively filter the wastewater, and clean the collected precipitate, so that the precipitate can be conveniently recovered.)

1. The utility model provides a copper industry waste water treatment equipment which characterized in that:

the cleaning device comprises a water storage tank (100), a filter tank (200) and a cleaning tank (300), wherein the filter tank (200) and the cleaning tank (300) are arranged on the top surface of the water storage tank (100), the bottom of the filter tank (200) is communicated with the water storage tank (100) through a first water pipe (410), a first one-way valve (411) is arranged on the first water pipe (410), the bottom of the cleaning tank (300) is communicated with the water storage tank (100) through a second water pipe (420), a fourth electromagnetic valve (421) is arranged on the second water pipe (420), a liquid discharge pipe (430) is communicated with the bottom of the side wall of the water storage tank (100), and a switch valve (431) is arranged on the liquid discharge pipe (430); a first filter plate (210) is arranged in the filter box (200), one side, far away from the cleaning box (300), of the first filter plate (210) is pivoted with the inner wall of the filter box (200), the other side of the first filter plate is driven by a first motor (220) to lift and rotate around a pivoting part, a first guide frame (230) is arranged on one side, close to the cleaning box (300), of the filter box (200), the first guide frame (230) is located below the first filter plate (210), a first discharge pipe (440) is arranged on the inner wall of the cleaning box (300) corresponding to the first guide frame (230), the first discharge pipe (440) is communicated with the first guide frame (230), and a first electromagnetic valve (441) is arranged on the first discharge pipe (440);

a second filter plate (310) is arranged in the cleaning tank (300), the second filter plate (310) is positioned below the first discharge pipe (440), one side of the second filter plate (310) close to the filter box (200) is pivoted with the inner wall of the cleaning box (300), the other side is driven by a second motor (320) to lift and rotate around the pivoting part, the side wall of the cleaning box (300) is communicated with a water inlet pipe (450) communicated with an external water source, the water inlet pipe (450) is provided with a third electromagnetic valve (451), the inner wall of the cleaning box (300) is provided with an ultrasonic generator (330), a second flow guiding frame (340) is arranged on one side of the cleaning box (300) far away from the filtering box (200), the outer wall of the cleaning box (300) is provided with a second discharge pipe (460) corresponding to the second flow guide frame (340), the second discharge pipe (460) is communicated with the second flow guide frame (340); a second electromagnetic valve (461) is arranged on the second discharge pipe (460), and a collecting frame (500) is arranged on the outer side of the second discharge pipe (460).

2. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

the top surface of the water storage tank (100) is concavely provided with a mounting groove (110), the mounting groove (110) is positioned below the second discharge pipe (460), the mounting groove (110) is used for placing the collecting frame (500), the collecting frame (500) comprises a net frame (510) and a mounting plate (520) fixedly arranged at the top of the net frame (510), the collecting frame (500) is arranged in the mounting groove (110), and the mounting plate (520) is clamped on the top surface of the mounting groove (110); the bottom of the mounting groove (110) is communicated with the inside of the water storage tank (100) through a third water pipe (470), and a first one-way valve (471) is arranged on the third water pipe (470).

3. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

the first motor (220) is mounted at the top of the outer side wall of the filter tank (200) close to the cleaning tank (300), a first winding wheel (221) is fixedly arranged on an output shaft of the first motor (220), a first chain (222) is wound on the first winding wheel (221), and the free end of the first chain (222) is fixedly connected with the top surface of the first filter plate (210) far away from the pivoting part; and a first guide wheel (240) is arranged on the inner wall of the filter box (200) corresponding to the first chain (222).

4. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

the second motor (320) is mounted on the top of the outer side wall of the cleaning box (300) far away from the filtering box (200), a second winding wheel (321) is fixedly arranged on an output shaft of the second motor (320), a second chain (322) is wound on the second winding wheel (321), and the free end of the second chain (322) is fixedly connected with the top surface of the second filtering plate (310) far away from the pivoting part; and a second guide wheel (350) is arranged on the inner wall of the cleaning box (300) corresponding to the second chain (322).

5. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

the first guide frame (230) comprises a guide plate (231) which is obliquely arranged and triangular guide blocks (232) which are fixedly arranged on two sides of the top surface of the oblique lower end of the guide plate (231), and a guide groove which is converged towards the first discharge pipe (440) is formed between the two guide blocks (232); the second guide frame (340) has the same structure as the first guide frame (230).

6. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

the bottom surface fixed mounting of first water conservancy diversion frame (230) has vibrating motor (250), the outside of vibrating motor (250) is equipped with protection casing (260), protection casing (260) are followed first water conservancy diversion frame (230) bottom surface edge sets up.

7. The copper industry wastewater treatment equipment according to claim 6, characterized in that:

a first liquid level sensor (270) is installed to rose box (200) inside wall, first liquid level sensor (270) are located the below of protection casing (260).

8. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

a second liquid level sensor (360) is installed on the inner side wall of the cleaning box (300), and the second liquid level sensor (360) is located above the second filter plate (310) and below the first discharge pipe (440).

9. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

an observation window (120) used for checking the water quantity in the water storage tank (100) is embedded in the side wall of the water storage tank (100).

10. The copper industry industrial wastewater treatment equipment according to claim 1, characterized in that:

the inner wall of the bottom of the water storage tank (100) is obliquely arranged, and the liquid discharge pipe (430) is communicated with the water storage tank (100) at the lower side of the inner wall of the bottom in an oblique mode.

Technical Field

The invention relates to the field of wastewater treatment equipment, in particular to a copper industry production wastewater treatment equipment.

Background

Copper can produce waste water in the production process, is mingled with to the copper scraps in the waste water, if directly arrange to the river, can cause the pollution of environment, also can cause the waste of material, consequently all can carry out filtration treatment to waste water among the current copper industry production and processing factory, but current treatment facility's filter effect is ordinary, and can't clear up the liquid medicine on the copper scraps, subsequent recycle of being not convenient for.

Disclosure of Invention

To achieve the above object, the present invention provides a wastewater treatment apparatus for copper industry, which has a novel structure, can effectively filter wastewater, and can clean collected precipitates to facilitate the subsequent recovery of the precipitates.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a copper industry production wastewater treatment device, which comprises a water storage tank, a filter tank and a cleaning tank, wherein the filter tank and the cleaning tank are arranged on the top surface of the water storage tank; a first filter plate is arranged in the filter box, one side of the first filter plate, which is far away from the cleaning box, is pivoted with the inner wall of the filter box, the other side of the first filter plate is driven by a first motor to lift and rotate around the pivoting part, one side of the filter box, which is close to the cleaning box, is provided with a first flow guide frame, the first flow guide frame is positioned below the first filter plate, the inner wall of the cleaning box is provided with a first discharge pipe corresponding to the first flow guide frame, the first discharge pipe is communicated with the first flow guide frame, and a first electromagnetic valve is arranged on the first discharge pipe; a second filter plate is arranged in the cleaning box and is positioned below the first discharge pipe, one side, close to the filter box, of the second filter plate is pivoted with the inner wall of the cleaning box, the other side of the second filter plate is driven by a second motor to lift and rotate around the pivoting part, a water inlet pipe communicated with an external water source is communicated with the side wall of the cleaning box, a third electromagnetic valve is arranged on the water inlet pipe, an ultrasonic generator is installed on the inner wall of the cleaning box, a second flow guide frame is arranged on one side, away from the filter box, of the cleaning box, a second discharge pipe is arranged on the outer wall of the cleaning box corresponding to the second flow guide frame, and the second discharge pipe is communicated with the second flow guide frame; and a second electromagnetic valve is arranged on the second discharge pipe, and a collecting frame is arranged on the outer side of the second discharge pipe.

In a preferred technical scheme of the invention, the top surface of the water storage tank is concavely provided with a mounting groove, the mounting groove is positioned below the second discharge pipe, the mounting groove is used for placing the collecting frame, the collecting frame comprises a net frame and a mounting plate fixedly arranged at the top of the net frame, the collecting frame is arranged in the mounting groove, and the mounting plate is clamped on the top surface of the mounting groove; the bottom of mounting groove with the water storage box is inside to pass through the third water pipe intercommunication, be equipped with first check valve on the third water pipe.

In a preferred technical scheme of the invention, the first motor is mounted at the top of the filtering tank close to the outer side wall of the cleaning tank, a first winding wheel is fixedly arranged on an output shaft of the first motor, a first chain is wound on the first winding wheel, and the free end of the first chain is fixedly connected with the top surface of the first filtering plate far away from the pivoting part; the inner wall of the filter box is provided with a first guide wheel corresponding to the first chain.

In a preferred technical scheme of the invention, the second motor is installed on the top of the cleaning tank far away from the outer side wall of the filter tank, a second winding wheel is fixedly arranged on an output shaft of the second motor, a second chain is wound on the second winding wheel, and the free end of the second chain is fixedly connected with the top surface of the second filter plate far away from the pivoting part; and a second guide wheel is arranged on the inner wall of the cleaning box corresponding to the second chain.

In a preferred technical scheme of the invention, the first guide frame comprises a guide plate which is obliquely arranged and triangular guide blocks which are fixedly arranged on two sides of the top surface of the oblique lower end of the guide plate, and a guide groove which is converged towards the first discharge pipe is formed between the two guide blocks; the second flow guide frame has the same structure as the first flow guide frame.

In a preferred technical scheme of the invention, a vibration motor is fixedly mounted on the bottom surface of the first diversion frame, a protective cover is arranged on the outer side of the vibration motor, and the protective cover is arranged along the edge of the bottom surface of the first diversion frame.

In a preferred technical scheme of the invention, a first liquid level sensor is mounted on the inner side wall of the filter box and is positioned below the protective cover.

In a preferred technical scheme of the invention, a second liquid level sensor is mounted on the inner side wall of the cleaning tank, and the second liquid level sensor is positioned above the second filter plate and below the first discharge pipe.

In a preferred technical scheme of the invention, an observation window for checking the water quantity in the water storage tank is embedded in the side wall of the water storage tank.

In a preferred technical scheme of the invention, the inner wall of the bottom of the water storage tank is obliquely arranged, and the liquid discharge pipe is communicated with the water storage tank at the lower oblique side of the inner wall of the bottom.

The invention has the beneficial effects that:

the invention provides a copper industry production wastewater treatment device which is novel in structure, wherein a first filter plate and a first motor in a filter box are matched, so that wastewater can be primarily filtered, and separated materials are conveyed into a cleaning box through a first guide frame; the second filter plate, the second motor, the water inlet pipe and the ultrasonic generator in the cleaning box are matched, so that materials separated out by primary filtration can be cleaned, and the separated materials after cleaning are conveyed into the collecting frame through the second flow guide frame, and subsequent carrying and transferring are facilitated; and the waste liquid in the filter tank and the cleaning tank is discharged into the water storage tank and stored, so that subsequent uniform transfer and treatment are facilitated.

Drawings

FIG. 1 is a schematic structural view of a wastewater treatment facility for copper industry provided in an embodiment of the present invention;

fig. 2 is a top view of a first guide frame provided in an embodiment of the present invention.

In the figure:

100. a water storage tank; 110. mounting grooves; 120. an observation window; 200. a filter box; 210. a first filter plate; 220. a first motor; 221. a first winding wheel; 222. a first chain; 230. a first flow guiding frame; 231. a baffle; 232. a flow guide block; 240. a first guide wheel; 250. a vibration motor; 260. a protective cover; 270. a first liquid level sensor; 300. a cleaning tank; 310. a second filter plate; 320. a second motor; 321. a second wind-up wheel; 322. a second chain; 330. an ultrasonic generator; 340. a second flow guiding frame; 350. a second guide wheel; 360. a second liquid level sensor; 410. a first water pipe; 411. a first check valve; 420. a second water pipe; 421. a fourth solenoid valve; 430. a liquid discharge pipe; 431. an on-off valve; 440. a first discharge pipe; 441. a first solenoid valve; 450. a water inlet pipe; 451. a third electromagnetic valve; 460. a second discharge pipe; 461. a second solenoid valve; 470. a third water pipe; 471. a first check valve; 500. a collection frame; 510. a screen frame; 520. and (7) mounting the plate.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1, the embodiment of the invention discloses a copper industry production wastewater treatment device, which comprises a water storage tank 100, a filter tank 200 and a cleaning tank 300, wherein the filter tank 200 and the cleaning tank 300 are arranged on the top surface of the water storage tank 100, the bottom of the filter tank 200 is communicated with the water storage tank 100 through a first water pipe 410, a first one-way valve 411 is arranged on the first water pipe 410, the bottom of the cleaning tank 300 is communicated with the water storage tank 100 through a second water pipe 420, a fourth electromagnetic valve 421 is arranged on the second water pipe 420, a liquid discharge pipe 430 is communicated with the bottom of the side wall of the water storage tank 100, and a switch valve 431 is arranged on the liquid discharge pipe 430; a first filter plate 210 is arranged in the filter tank 200, one side of the first filter plate 210, which is far away from the cleaning tank 300, is pivoted with the inner wall of the filter tank 200, the other side of the first filter plate is driven by a first motor 220 to lift and rotate around the pivoting part, a first guide frame 230 is arranged on one side of the filter tank 200, which is close to the cleaning tank 300, the first guide frame 230 is positioned below the first filter plate 210, a first discharge pipe 440 is arranged on the inner wall of the cleaning tank 300, which corresponds to the first guide frame 230, the first discharge pipe 440 is communicated with the first guide frame 230, and a first electromagnetic valve 441 is arranged on the first discharge pipe 440; a second filter plate 310 is arranged in the cleaning box 300, the second filter plate 310 is positioned below the first discharge pipe 440, one side of the second filter plate 310, which is close to the filter box 200, is pivoted with the inner wall of the cleaning box 300, the other side of the second filter plate is driven by a second motor 320 to lift and rotate around the pivoting part, the side wall of the cleaning box 300 is communicated with a water inlet pipe 450 communicated with an external water source, a third electromagnetic valve 451 is arranged on the water inlet pipe 450, an ultrasonic generator 330 is arranged on the inner wall of the cleaning box 300, a second flow guide frame 340 is arranged on one side of the cleaning box 300, which is far away from the filter box 200, a second discharge pipe 460 is arranged on the outer wall of the cleaning box 300, which corresponds to the second flow guide frame 340, and the second discharge pipe 460 is; the second discharge pipe 460 is provided with a second solenoid valve 461, and a collection frame 500 is provided outside the second discharge pipe 460.

The wastewater treatment equipment for copper industry production is novel in structure, and the first filter plate 210 and the first motor 220 in the filter box 200 are matched to perform primary filtration on wastewater and convey separated materials into the cleaning box 300 through the first guide frame 230; the second filter plate 310, the second motor 320, the water inlet pipe 450 and the ultrasonic generator 330 in the cleaning box 300 are matched, so that materials separated out by primary filtration can be cleaned, and the separated materials after cleaning are conveyed into the collecting frame 500 through the second guide frame 340, and subsequent carrying and transferring are facilitated; and the waste liquid in the filter tank 200 and the cleaning tank 300 is discharged into the water storage tank 100 for storage, thereby facilitating subsequent uniform transfer and treatment.

Further, a mounting groove 110 is concavely formed on the top surface of the water storage tank 100, the mounting groove 110 is located below the second discharge pipe 460, the mounting groove 110 is used for placing the collecting frame 500, the collecting frame 500 comprises a net frame 510 and a mounting plate 520 fixedly arranged on the top of the net frame 510, the collecting frame 500 is placed in the mounting groove 110, and the mounting plate 520 is clamped on the top surface of the mounting groove 110; the bottom of the mounting groove 110 is communicated with the inside of the water tank 100 through a third water pipe 470, and a first check valve 471 is arranged on the third water pipe 470; this structural design can be convenient for collect placing of frame 500, and the setting of third water pipe 470 and first check valve 471 can be convenient for collect the moisture that separates out in water storage box 100 equally, reduces the moisture of precipitate, makes things convenient for subsequent recovery and use.

Further, the first motor 220 is installed at the top of the filter tank 200 close to the outer side wall of the washing tank 300, a first winding wheel 221 is fixedly arranged on an output shaft of the first motor 220, a first chain 222 is wound on the first winding wheel 221, and a free end of the first chain 222 is fixedly connected with the top surface of the first filter plate 210 far away from the pivoting part; a first guide wheel 240 is arranged on the inner wall of the filter box 200 corresponding to the first chain 222; the first filter plate 210 can swing and lift conveniently by the structural design, and discharging and transferring of materials are facilitated.

Further, the second motor 320 is installed on the top of the outer side wall of the cleaning tank 300 far away from the filter tank 200, a second winding wheel 321 is fixedly arranged on an output shaft of the second motor 320, a second chain 322 is wound on the second winding wheel 321, and a free end of the second chain 322 is fixedly connected with the top surface of the second filter plate 310 far away from the pivoting part; a second guide wheel 350 is mounted on the inner wall of the cleaning box 300 corresponding to the second chain 322; the structural design can facilitate the swinging and lifting of the second filter plate 310, and facilitate the discharge and transfer of materials.

Further, as shown in fig. 2, the first guide frame 230 includes a guide plate 231 disposed in an inclined manner, and triangular guide blocks 232 fixedly mounted on two sides of the top surface of the inclined lower end of the guide plate 231, and a guide groove converging toward the first discharge pipe 440 is formed between the two guide blocks 232; the second guide frame 340 has the same structure as the first guide frame 230; the structure design can facilitate the collection and transfer of materials and the discharge and discharge.

Further, a vibration motor 250 is fixedly mounted on the bottom surface of the first guide frame 230, a protective cover 260 is disposed on the outer side of the vibration motor 250, and the protective cover 260 is disposed along the edge of the bottom surface of the first guide frame 230; the design of the vibration motor 250 further accelerates the dumping and discharge of the material.

Further, a first liquid level sensor 270 is mounted on the inner side wall of the filter tank 200, and the first liquid level sensor 270 is located below the protective cover 260; this structural design can ensure that the water yield of accumulation in the rose box can not influence vibrating motor 250, avoids vibrating motor 250 to soak and burns out.

Further, a second liquid level sensor 360 is installed on the inner side wall of the washing tank 300, and the second liquid level sensor 360 is located above the second filter plate 310 and below the first discharge pipe 440; the arrangement of the second liquid level sensor 360 can ensure that the deposited water in the cleaning box 300 soaks the precipitate, and the precipitate is effectively cleaned under the action of the ultrasonic generator 330; the clear water is replaced at least twice, and ultrasonic cleaning is performed twice on the precipitate, so that the cleaning quality is ensured.

Further, an observation window 120 for viewing the amount of water inside the water storage tank 100 is embedded in the side wall of the water storage tank 100; the design of the observation window 120 can facilitate the staff to check the water amount inside the water storage tank 100, and facilitate the timely transfer.

Further, the inner wall of the bottom of the water storage tank 100 is inclined, and the liquid discharge pipe 430 is communicated with the water storage tank 100 at the lower inclined side of the inner wall of the bottom; this design may facilitate drainage and transfer of standing water inside the reservoir 100.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.