CN116854186B

CN116854186B - Ore dressing water supply circulation system

Info

Publication number: CN116854186B
Application number: CN202310845554.0A
Authority: CN
Inventors: 王洪波; 隋军; 徐曙明; 丛坤; 苏雷; 姜波; 李彦利
Original assignee: Shandong Jiuqu Shengji New Building Material Co ltd
Current assignee: Shandong Jiuqu Shengji New Building Material Co ltd
Priority date: 2023-07-11
Filing date: 2023-07-11
Publication date: 2024-03-08
Anticipated expiration: 2043-07-11
Also published as: CN116854186A

Abstract

The invention provides a mineral separation water supply circulation system, which relates to the field of sewage treatment and comprises the following components: the mud containing and connecting groove is of an annular structure, four vertical supporting rods are symmetrically welded at the middle position of the bottom plate of the mud containing and connecting groove in front and back, and four transverse supporting rods are symmetrically welded on the top end sections of the four vertical supporting rods in up and down; the left end and the right end of the transverse supporting rod are respectively welded with a secondary purifying tank and a cyclone separator, the center of the top end of the cyclone separator is welded with a purified water outlet pipe, and the purified water outlet pipe is in a U-shaped structure; the top end of the secondary purifying tank is provided with an opening, the filtering disc can drive the vertical sliding vibration to clear the blockage by utilizing the impact force of the water purification injection exhaust of the cyclone separator through the power transmission of the water wheel, so that the energy generated by the cyclone separator can be fully utilized, an additional driving motor for the filtering disc for vibration cleaning is omitted, and the energy consumption of the whole system can be reduced.

Description

Ore dressing water supply circulation system

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a mineral separation water supply circulation system.

Background

The ore dressing plant screens and cleans the mined ore by using water, so that the water consumption is large, and a special ore dressing water supply circulating system is necessary to ensure a large amount of sufficient and efficient water in the ore dressing process.

In order to ensure the purification treatment effect on impurities in water in an ore water supply circulating system, a plurality of filter screen assemblies are arranged, but the filter screen assemblies are easy to be blocked after being used for a long time, so that periodic cleaning is needed, in the existing ore water supply circulating system, in order to reduce the labor intensity of work, most of mechanisms for mechanical driving are arranged to clean and block the filter screen assemblies in a vibrating mode, so that although manpower is saved, additionally arranged mechanical driving devices (such as gasoline, diesel motors and motors) are required to consume additional energy sources, and have certain purchasing cost, so that the manufacturing cost and the power consumption of the whole system are high, and the ore water supply circulating system is not competitive in market.

Disclosure of Invention

In view of this, the present invention provides a water supply circulation system for mineral processing, which is to solve the problems that in order to ensure the purification treatment effect of impurities in water, a filter screen component is configured, but the filter screen component is easy to be blocked after long-time use, so that periodic cleaning is required, vibration cleaning and blocking removal are implemented on the filter screen component by a mechanism with mechanical driving in order to reduce the labor intensity of work in the existing water supply circulation system for mineral processing, thus saving manpower, but additionally configured mechanical driving devices (such as gasoline, diesel motor, etc.) need additional energy consumption, have a certain purchase cost, cause the cost and power consumption of the whole system to be higher, and have no market competitiveness.

The invention provides a mineral separation water supply circulation system, which specifically comprises: the mud containing and connecting groove is of an annular structure, four vertical supporting rods are symmetrically welded at the middle position of the bottom plate of the mud containing and connecting groove in front-back direction, and four transverse supporting rods are symmetrically welded on the top end sections of the four vertical supporting rods in up-down direction; the left end and the right end of the transverse supporting rod are respectively welded with a secondary purifying tank and a cyclone separator, the center of the top end of the cyclone separator is welded with a purified water outlet pipe, and the purified water outlet pipe is in a U-shaped structure; the top end part of the secondary purification tank is provided with an opening, and a filter disc is slidably arranged in the upper half part of the secondary purification tank; the filter disc is of a circular structure, and the tail end vertical support part of the purified water outlet pipe is inserted into the space above the filter disc in the secondary purification tank in a stretching manner, and the tail end vertical support part of the purified water outlet pipe and the secondary purification tank are kept concentric; the part of the circumferential side wall of the secondary purification tank, which is positioned above the filter disc, is penetrated and rotatably provided with a driving shaft, the middle section and the right end section of the driving shaft are surrounded by strip grooves with six T-shaped structures, six blades are slidably arranged on the six strip grooves, and the six blades are jointly surrounded to form a water wheel; when the water wheel is in operation, the water wheel is arranged right below the water outlet of the vertical support part at the tail end of the purified water outlet pipe, and normally slides rightwards to separate from the water outlet of the vertical support part at the tail end of the purified water outlet pipe; and a cylinder is arranged at the adjacent position of the top of the right end of the driving shaft on the circumferential outer wall of the secondary purification tank through screw locking.

Further, the secondary purification tank and the cyclone separator are vertically arranged, a water inlet pipe supported leftwards is tangentially welded on the side wall of the circular part at the top end of the cyclone separator, a water outlet pipe is welded downwards at the central position of the bottom plate of the secondary purification tank, the water outlet pipe enters the water inlet end of the circulating water pipe network, and the water inlet pipe enters the water outlet end of the circulating water pipe network.

Further, a limiting baffle ring is welded on the inner wall of the upper half part of the secondary purification tank, and four L-shaped positioning rods are symmetrically welded on the circumferential inner ring of the limiting baffle ring.

Further, the whole filter disc is formed by an outer side supporting ring, two longitudinal supporting rib rods welded inside the outer side supporting ring in a bilateral symmetry mode and a metal filter screen arranged in the inner space of the outer side supporting ring in a covering mode, and the two longitudinal supporting rib rods are correspondingly matched with the vertical supporting portions of the L-shaped positioning rods in a sliding mode.

Further, a strip-shaped sliding sheet is welded on the tail end part of the blade, and the tail end part of the blade is in sliding fit with a strip-shaped groove on the driving shaft.

Further, six connecting short rods are welded at the right ends of the six blades, a rotating ring is welded at the head ends of the six connecting short rods, and the rotating ring is in concentric sliding fit with the driving shaft.

Further, a mounting ring is fixedly sleeved on the left half section of the driving shaft through screw locking, a top rod is welded on the mounting ring in a supporting mode, and a guide wheel is installed at the head end of the top rod in a rotating mode.

Further, a stress frame is welded on the middle part of the longitudinal supporting rib rod at the left side, the stress frame is -shaped, the stress frame is in sleeve fit with the left half section of the driving shaft, and the ejector rod is in rotary contact with the top end part of the stress frame.

Further, the telescopic link of cylinder runs through sliding fit with the circumference lateral wall of secondary purification jar, and the head end of cylinder telescopic link passes through screw locking and is fixed with a push ring, is upper and lower symmetry welding on the push ring and has two left protruding back shafts, and two transmission wheels are installed in the head end rotation of two left protruding back shafts.

Furthermore, the sections of the two force transmission wheels are of an I-shaped structure, and the two force transmission wheels are correspondingly clamped and inserted with the inner ring part of the swivel.

The beneficial effects are that:

1. according to the invention, the filter disc and the cyclone separator are matched to be used for respectively carrying out double filtration on the mineral dressing flushing water in the two water supply chambers, so that the filtration treatment on the mineral dressing flushing water is more complete and thorough, and the filtering effect is better.

2. According to the invention, under the impact of water jet in the opening of the purified water outlet pipe, the water wheel drives the ejector rod to rotate at a high speed and pushes the stressed frame and the filter disc to slide upwards, at the moment, the filter disc can carry out higher-frequency up-and-down reciprocating sliding vibration to achieve the blocking removal of trapped deposited impurities on the filter disc, and further, through the power transmission of the water wheel, the filter disc can drive the up-and-down sliding vibration to remove the blocking by utilizing the impact force of purified water jet of the cyclone separator, so that the energy generated by the cyclone separator is converted into sliding vibration energy for utilization, the energy generated by the cyclone separator is fully utilized, an additional driving motor for vibration cleaning of the filter disc is omitted, and the energy consumption of the whole system is reduced.

3. According to the invention, the water wheel is ejected and contacts with the water jet of the purified water outlet pipe to transfer power, and the time controller intermittently opens and closes the pneumatic electromagnetic valve to control the telescopic switching of the air cylinder, so that the water wheel is ejected for power transfer for 10 minutes every 1 hour, the filter disc is driven to vibrate and clean every 1 hour for 10 minutes, and the phenomenon that the filter disc and a mechanism for transferring power to the filter disc generate excessive impact, impact damage and abrasion and influence the service life is avoided.

4. According to the invention, the two force transmission wheels are correspondingly clamped and matched with the inner ring part of the swivel, so that the expansion and contraction of the air cylinder can be connected with the water wheel, and the two force transmission wheels are rotatably and movably connected with the swivel, so that the air cylinder can be prevented from blocking interference with the water wheel to be rotated by normal jet impact.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is an overall right-side structural schematic of an embodiment of the present invention.

Fig. 2 is an overall left side structural schematic of an embodiment of the present invention.

Fig. 3 is a schematic view of the inside structure of the secondary purification tank according to the embodiment of the present invention.

Fig. 4 is a schematic view of the upper half of the secondary purification tank of the embodiment of the present invention, showing the inside structure thereof in a cutaway.

Fig. 5 is a schematic view of a limiting stop ring according to an embodiment of the present invention.

Fig. 6 is a schematic view of a filter disc structure according to an embodiment of the present invention.

Fig. 7 is a schematic view of the structure of a drive shaft according to an embodiment of the present invention.

Fig. 8 is a schematic view of a blade structure according to an embodiment of the present invention.

List of reference numerals

1. A mud containing groove; 101. a vertical support rod; 102. a transverse support bar; 2. a cyclone separator; 201. a water inlet pipe; 202. a purified water outlet pipe; 3. a secondary purifying tank; 301. a limit baffle ring; 302. an L-shaped positioning rod; 4. a cylinder; 401. pushing the push ring; 402. a force transmission wheel; 5. a drive shaft; 501. a blade; 502. a swivel; 503. a push rod; 6. a filter tray; 601. longitudinal bracing bar; 602. and (5) a stress frame.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Examples: please refer to fig. 1 to 8:

the invention provides a mineral separation water supply circulation system, which comprises a mud containing groove 1, wherein the mud containing groove 1 is of an annular structure, four vertical supporting rods 101 are symmetrically welded in the middle of a bottom plate of the mud containing groove 1 in front-back direction, and four transverse supporting rods 102 are symmetrically welded on top end sections of the four vertical supporting rods 101 in up-down direction; the left end and the right end of the transverse supporting rod 102 are respectively welded with a secondary purifying tank 3 and a cyclone separator 2, the center of the top end of the cyclone separator 2 is welded with a purified water outlet pipe 202, and the purified water outlet pipe 202 is in a U-shaped structure; the top end part of the secondary purification tank 3 is provided with an opening, a filter disc 6 is slidably arranged in the upper half part of the secondary purification tank 3, the filter disc 6 and the cyclone separator 2 are matched for use to respectively implement double filtration on mineral separation flushing water in two water supply chambers, the filtration treatment on the mineral separation flushing water is more complete and thorough, and the filtration effect is better; the filter disc 6 is of a circular structure, and the tail end vertical support part of the purified water outlet pipe 202 is inserted into the space above the filter disc 6 inside the secondary purification tank 3 in a stretching way, and the tail end vertical support part of the purified water outlet pipe 202 and the secondary purification tank 3 are kept concentric; a part of the circumferential side wall of the secondary purification tank 3 above the filter disc 6 is rotatably provided with a driving shaft 5 in a penetrating way, the middle section and the right end section of the driving shaft 5 are provided with six strip grooves with T-shaped structures in a surrounding way, the six strip grooves are provided with six blades 501 in a sliding way, and the six blades 501 jointly encircle to form a water wheel; the water wheel is arranged right below the water outlet of the vertical supporting part at the tail end of the purified water outlet pipe 202 during operation, under the impact of water jet in the opening of the purified water outlet pipe 202, the water wheel drives the ejector rod 503 to rotate at high speed and push to drive the stressed frame 602 and the filter disc 6 to slide upwards, at the moment, the filter disc 6 can carry out higher-frequency up-and-down reciprocating sliding vibration to achieve the blocking removal of the trapped deposited impurities on the filter disc 6, further, the filter disc 6 can drive the up-and-down sliding vibration to clear the blocking by utilizing the impact force of the purified water jet of the cyclone separator 2, the energy generated by the cyclone separator 2 is converted into sliding vibration energy to be utilized, the energy generated by the cyclone separator 2 is fully utilized, an additional driving motor for the filter disc 6 for vibration cleaning is omitted, the energy consumption of the whole system is reduced, and the water wheel slides rightwards under normal state and is separated from the water outlet of the vertical supporting part at the tail end of the purified water outlet pipe 202; a cylinder 4 is arranged on the circumference outer wall of the secondary purification tank 3 and positioned at the top adjacent position of the right end of the driving shaft 5 through screw locking, the cylinder 4 can stretch to push and drive the water wheel, the water wheel is controlled to enter and exit in the bottom space of the water outlet of the vertical supporting part at the tail end of the purified water outlet pipe 202, the power transmission and interruption of the water wheel and the cyclone separator 2 are carried out, a control box is fixedly arranged at the right position of the top end of the circumference outer wall of the mud containing groove 1, the control box is provided with a time controller, the time controller is electrically connected with pneumatic electromagnetic valves for controlling the air inlet and the air outlet of the cylinder 4, the time controller can start the cylinder 4 and stretch and push the water wheel out once every one hour through the opening and closing of the pneumatic electromagnetic valves, the water wheel is ejected for 10 minutes, and the water wheel is ejected to contact with the water jet of the purified water outlet pipe 202 to implement power transmission, so that the air cylinder 4 is controlled to stretch and switch by intermittently starting and stopping the pneumatic electromagnetic valve through the time controller, the water wheel is ejected to perform power transmission for 10 minutes every one hour, the filter disc 6 is driven to perform vibration cleaning for 10 minutes every one hour, and the filter disc 6 is prevented from being continuously driven to vibrate for a long time, so that excessive impact, impact damage and abrasion are generated on the filter disc 6 and a mechanism for performing power transmission on the filter disc 6, and the service life is influenced; the secondary purification tank 3 and the cyclone separator 2 are vertically arranged, a water inlet pipe 201 supported leftwards is tangentially welded on the side wall of the circular part at the top end of the cyclone separator 2, a water outlet pipe is welded downwards at the central position of the bottom plate of the secondary purification tank 3, the water outlet pipe enters the water inlet end of the circulating water pipe network, the water inlet pipe 201 enters the water outlet end of the circulating water pipe network, waste water after mineral separation in the circulating water pipe network enters the cyclone separator 2 from the water inlet pipe 201 during use, heavy impurity slurry and water are separated under the action of centrifugal force after the water flow enters the cyclone separator 2, the water discharged from the water outlet pipe at the bottom into the slurry receiving tank 1 flows out of the top purified water outlet pipe 202 after the primary separation of the water into the top space of the secondary purification tank 3, then the filter disc 6 carries out secondary interception filtration on impurities in the primary clean water, and the secondary clean water enters the bottom space of the secondary purification tank 3 through the filter disc 6 and is recycled by the water inlet pipe network of the water outlet pipe at the bottom of the secondary purification tank 3.

Wherein, a limit baffle ring 301 is welded on the inner wall of the upper half part of the secondary purification tank 3, and four L-shaped positioning rods 302 are symmetrically welded on the circumferential inner ring of the limit baffle ring 301 in front-back direction; the whole filter disk 6 is composed of an outer support ring, two longitudinal support rib rods 601 welded inside the outer support ring in a bilateral symmetry manner and a metal filter screen arranged in the inner space of the outer support ring in a covering manner, wherein the two longitudinal support rib rods 601 are correspondingly in sliding fit with the vertical support parts of the L-shaped positioning rods 302.

Wherein, a strip-shaped sliding sheet is welded on the tail end part of the blade 501, and the tail end part of the blade 501 is in sliding fit with a strip-shaped groove on the driving shaft 5; six connecting short rods are welded at the right ends of the six blades 501, a rotating ring 502 is welded at the head ends of the six connecting short rods, and the rotating ring 502 is in concentric sliding fit with the driving shaft 5.

Wherein, a mounting ring is fixedly sleeved on the left half section of the driving shaft 5 through screw locking, a top rod 503 is welded on the mounting ring in a supporting way, and a guide wheel is rotatably arranged at the head end of the top rod 503; the middle part of the left longitudinal supporting bar 601 is welded with a stress frame 602, the stress frame 602 is -shaped, the stress frame 602 is in sleeve fit with the left half section of the driving shaft 5, and the ejector rod 503 is in rotary contact with the top end part of the stress frame 602.

The telescopic rod of the air cylinder 4 is in sliding fit with the circumferential side wall of the mud containing groove 1 in a penetrating mode, a pushing ring 401 is fixedly locked at the head end of the telescopic rod of the air cylinder 4 through a screw, two left convex supporting shafts are symmetrically welded on the pushing ring 401 up and down, and two force transmission wheels 402 are rotatably arranged at the head ends of the two left convex supporting shafts; the sections of the two force transmission wheels 402 are of I-shaped structures, the two force transmission wheels 402 are correspondingly clamped and inserted with the inner ring part of the swivel 502, the expansion and contraction of the air cylinder 4 can be connected with the water wheel, the two force transmission wheels 402 are in movable connection with the swivel 502 in a rotating mode, and the air cylinder 4 can be prevented from blocking interference with the water wheel to be rotated by normal jet impact.

Specific use and action of the embodiment: when the device is used, the waste water after mineral dressing in a circulating water pipe network enters a cyclone separator 2 from a water inlet pipe 201, heavy impurity slurry and water are separated under the action of centrifugal force after water flows into the cyclone separator 2, the heavy impurity slurry is discharged into a slurry containing groove 1 from a water discharge pipe at the bottom, the primarily cleaned water after the primary separation of the water by the cyclone separator 2 flows out from a purified water outlet pipe 202 at the top and enters the top space of a secondary purification tank 3, then impurities in the primary clean water are secondarily trapped and filtered by a filter disc 6, and the secondary clean water enters the bottom space of the secondary purification tank 3 through the filter disc 6 and is input into the circulating water pipe network for recycling through a water discharge pipe at the bottom of the secondary purification tank 3;

the time controller is electrically connected with a pneumatic electromagnetic valve for controlling air inlet and air exhaust of the air cylinder 4, the time controller can start the air cylinder 4 and extend and push out the water wheel once every one hour through the opening and closing of the pneumatic electromagnetic valve, the water wheel is pushed out for 10 minutes, the water wheel is arranged right below a water outlet of a vertical supporting part at the tail end of the purified water outlet pipe 202 when being pushed out, under the impact of water jet in an opening of the purified water outlet pipe 202, the water wheel drives the ejector rod 503 to rotate at a high speed and push to drive the force frame 602 and the filter disc 6 to slide upwards, at the moment, the filter disc 6 can perform up-and-down reciprocating sliding vibration with higher frequency to realize the blocking removal of deposited impurities trapped on the filter disc 6 by matching with the gravity of the filter disc 6;

the expansion and contraction of the air cylinder 4 can be connected with the water wheel through the clamping and inserting fit of the two force transmission wheels 402 and the inner ring part of the swivel 502, and the two force transmission wheels 402 are in movable connection with the swivel 502 in a rotating mode, so that the air cylinder 4 can be prevented from blocking interference with the water wheel to be rotated by normal jet impact.

Claims

1. A mineral processing water circulation system, comprising: the mud containing and connecting groove (1), the mud containing and connecting groove (1) is of an annular structure, four vertical supporting rods (101) are symmetrically welded at the middle position of the bottom plate of the mud containing and connecting groove (1) in front-back direction, and four transverse supporting rods (102) are symmetrically welded on the top end sections of the four vertical supporting rods (101) in up-down direction; the left end and the right end of the transverse supporting rod (102) are respectively welded with a secondary purifying tank (3) and a cyclone separator (2), the center of the top end of the cyclone separator (2) is welded with a purified water outlet pipe (202), and the purified water outlet pipe (202) is in a U-shaped structure; the top end part of the secondary purification tank (3) is provided with an opening, and a filter disc (6) is slidably arranged in the upper half part of the secondary purification tank (3); the filter disc (6) is of a circular structure, and the tail end vertical support part of the water purifying outlet tube (202) is inserted into the space above the filter disc (6) inside the secondary purifying tank (3) in a stretching way, and the tail end vertical support part of the water purifying outlet tube (202) is kept concentric with the secondary purifying tank (3); the part, above the filter disc (6), of the circumferential side wall of the secondary purification tank (3) is provided with a driving shaft (5) in a penetrating and rotating mode, the middle section and the right end section of the driving shaft (5) are provided with six strip-shaped grooves with T-shaped structures in a surrounding mode, six blades (501) are arranged on the six strip-shaped grooves in a sliding mode, and the six blades (501) jointly encircle to form a water wheel; when the water wheel is in operation, the water wheel is arranged under the water outlet of the vertical support part at the tail end of the purified water outlet pipe (202), and normally slides rightwards to be separated from the water outlet of the vertical support part at the tail end of the purified water outlet pipe (202); an air cylinder (4) is arranged at the adjacent position of the top of the right end of the driving shaft (5) on the circumferential outer wall of the secondary purification tank (3) in a locking manner through a screw;

a limiting baffle ring (301) is welded on the inner wall of the upper half part of the secondary purification tank (3), and four L-shaped positioning rods (302) are symmetrically welded on the circumferential inner ring of the limiting baffle ring (301) in a front-back manner;

the filter disc (6) is integrally formed by an outer support ring, two longitudinal support rib rods (601) welded inside the outer support ring in a bilateral symmetry manner and a metal filter screen arranged in the inner space of the outer support ring in a covering manner, wherein the two longitudinal support rib rods (601) are correspondingly in sliding fit with the vertical support parts of the L-shaped positioning rods (302) at all sides;

six connecting short rods are welded at the right ends of the six blades (501), a rotating ring (502) is welded at the head ends of the six connecting short rods, and the rotating ring (502) is in concentric sliding fit with the driving shaft (5);

a mounting ring is fixedly sleeved on the left half section of the driving shaft (5) through screw locking, a top rod (503) is welded on the mounting ring in a supporting way, and a guide wheel is rotatably arranged at the head end of the top rod (503);

a stress frame (602) is welded on the middle part of the longitudinal bracing bar (601) on the left side, the stress frame (602) is of a structure, the stress frame (602) is in sleeve fit with the left half section of the driving shaft (5), and the ejector rod (503) is in rotary contact with the top end part of the stress frame (602);

the telescopic rod of the air cylinder (4) is in sliding fit with the circumferential side wall of the secondary purification tank (3), the head end of the telescopic rod of the air cylinder (4) is fixedly provided with a push ring (401) through screw locking, two left convex supporting shafts are symmetrically welded on the push ring (401) up and down, and the head ends of the two left convex supporting shafts are rotatably provided with two force transmission wheels (402);

the sections of the two force transmission wheels (402) are of an I-shaped structure, and the two force transmission wheels (402) are correspondingly clamped and matched with the inner ring part of the swivel (502).

2. A beneficiation water supply circulation system as claimed in claim 1, wherein: the secondary purification tank (3) and the cyclone separator (2) are vertically arranged, a water inlet pipe (201) supported leftwards is tangentially welded on the side wall of the circular part at the top end of the cyclone separator (2), a water outlet pipe is downwards welded at the central position of the bottom plate of the secondary purification tank (3), the water outlet pipe enters the water inlet end of the circulating water pipe network, and the water inlet pipe (201) enters the water outlet end of the circulating water pipe network.

3. A beneficiation water supply circulation system as claimed in claim 1, wherein: a strip-shaped sliding sheet is welded on the tail end part of each blade (501), and the tail end part of each blade (501) is in sliding fit with a strip-shaped groove on the driving shaft (5).