CN113967383A

CN113967383A - Wastewater filtering treatment device for mining industry

Info

Publication number: CN113967383A
Application number: CN202111344120.XA
Authority: CN
Inventors: 金晶
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-01-25

Abstract

The invention relates to a wastewater filtering treatment device, in particular to a wastewater filtering treatment device for mining industry. The technical problem is as follows: the mining wastewater filtering treatment device is high in filtering efficiency and low in labor intensity. The technical scheme of the invention is as follows: the utility model provides a waste water filtration treatment device for mining industry, includes base, lower framework, goes up the framework, connects the material frame, goes out the material frame, first sliding sleeve, filter screen, first spring, clearance mechanism and stock stop, and the base top is equipped with down the framework, is equipped with the framework in the framework down, and lower framework upper portion outer wall is equipped with connects the material frame, connects material frame bottom one side to be equipped with out the material frame, and the inside one side of framework is equipped with first sliding sleeve down, and the inside slidingtype of first sliding sleeve is equipped with the filter screen. According to the invention, the filtering stone can be collected in a centralized manner by arranging the material receiving frame and the cleaning mechanism, and the filtering stone can not fall to the ground, and people do not need to clean the filter screen manually.

Description

Wastewater filtering treatment device for mining industry

Technical Field

The invention relates to a wastewater filtering treatment device, in particular to a wastewater filtering treatment device for mining industry.

Background

In-process at mineral exploitation, the machine can rub and produce a large amount of heats, people can generally cool down the machine with the water, so just can produce a large amount of waste water, and contain a large amount of stones in the waste water, water reuse can cause the damage to the machine once more, consequently need to separate stone and water, current waste water treatment utilizes big filter screen to filter waste water generally, when filtering, need artifical manual pouring waste water to filter on the filter screen, water after the filtration can carry out reuse again, there is the stone in the waste water, therefore, the weight of waste water is heavier, lead to waste water filterable efficiency lower, stone after the filtration needs artifical manual the clearance, lead to people's intensity of labour great.

Therefore, a mining wastewater filtering treatment device with high filtering efficiency and low labor intensity needs to be developed.

Disclosure of Invention

In order to overcome the defects that the efficiency of filtering the wastewater by manpower is lower and the labor intensity is higher, the technical problem is as follows: the mining wastewater filtering treatment device is high in filtering efficiency and low in labor intensity.

The technical scheme of the invention is as follows: a mining wastewater filtering treatment device comprises:

the base, lower framework, go up the framework, connect the material frame, the frame of unloading, first sliding sleeve, the filter screen, first spring, clearance mechanism and stock stop, the base top is equipped with down the framework, be equipped with the framework in the framework down, it has the feed inlet to open at the framework top, framework upper portion outer wall is equipped with and connects the material frame down, it is equipped with the material frame to connect material frame bottom one side, the inside one side of framework is equipped with first sliding sleeve down, the inside slidingtype of first sliding sleeve is equipped with the filter screen, filter screen one side and first sliding sleeve bottom intermediate junction have first spring, be connected with clearance mechanism between upper framework and the filter screen, the inside stock stop that is equipped with of framework goes up.

Further, clearance mechanism is including keeping off the material piece, first slide bar, the second spring, the cleaning brush, the fixed block, first wedge, second wedge and third spring, it is equipped with the material piece to go up the equal symmetry in framework inner wall both sides, four sides at filter screen top all are equipped with first slide bar, the equal sliding type connection in first slide bar inboard has the cleaning brush, the cleaning brush outside all with be connected with the second spring between the first slide bar of homonymy, be connected with the fixed block between keeping off material piece one side, the cleaning brush top all is equipped with first wedge, four sides at the middle part of the fixed block all sliding type connection have the second wedge, the second wedge all cooperates with the first wedge of homonymy, second wedge upper portion all with be connected with the third spring between the fixed block.

Furthermore, the stop mechanism comprises a second slide bar, a second sliding sleeve, a conical block and a fourth spring, wherein the second slide bar is arranged on each of the four sides inside the upper frame, the second sliding sleeve is connected between the upper parts of the second slide bars in a sliding manner, the conical block is arranged in the middle of the second sliding sleeve, and the fourth spring is connected between each of the four sides of the second sliding sleeve and the second slide bar on the same side.

Further, still including actuating mechanism, actuating mechanism is including axis of rotation, space cam, pillar, first support and motor, and the rotary type is connected with the axis of rotation in the middle of the lower framework bottom, and the filter screen is passed to the axis of rotation, and the axis of rotation top is equipped with the space cam, and the second sliding sleeve inboard is equipped with the pillar, pillar one side and space cam contact, and the lower framework bottom is equipped with first support, the inside motor that is equipped with of first support, motor output shaft upper portion and axis of rotation bottom connection.

Further, still including the pulling mechanism, the pulling mechanism is including the swivel mount, the reel, the stay cord, the third wedge, the wedge pole, the second support, the fifth spring, fourth wedge and ball, it is equipped with the swivel mount to keep off the inside centre of material piece, swivel mount one side rotary type is equipped with the reel, the wraparound has the stay cord on the reel, four sides of stay cord all are connected with first wedge top one side of homonymy, axis of rotation upper portion is equipped with the third wedge, reel one side slidingtype is equipped with the wedge pole, wedge pole upper portion one side and third wedge cooperation, be connected with the fifth spring between wedge pole and the reel, filter screen top one side is equipped with the second support, second support upper portion movable is connected with the ball, wedge pole bottom is equipped with the fourth wedge, the fourth wedge is located reel one side, ball and fourth wedge cooperation.

Further, still including swing mechanism, swing mechanism is including touching the piece, the third slide bar, the baffle, the sixth spring, the third support, the connecting block, swinging arms and seventh spring, first wedge one side all is equipped with touches the piece, it is equipped with the third slide bar to go up framework outer wall bilateral symmetry, slidingtype connection has the baffle between third slide bar one side, the baffle is located inside the upper frame, baffle top both sides all are connected with the sixth spring with the third slide bar upper portion of homonymy between, baffle inner wall four sides all are equipped with the third support, the inboard equal rotary type of third support is connected with the swinging arms, four sides of baffle inner wall all are equipped with the connecting block, the connecting block all is located third support one side of homonymy, the swinging arms all is connected with the connecting block of homonymy is movable, be connected with two seventh springs between the third support of homonymy and the swinging arms.

Further comprises a beating mechanism which comprises a third sliding sleeve, a beating block, a contact block and a first iron absorption stone, the eighth spring, the fourth sliding sleeve, the sliding block, ninth spring and promotion piece, four sides of baffle inner wall all are equipped with the third sliding sleeve, the inside equal sliding type connection of third sliding sleeve beats the piece, first sliding rod top one side all is equipped with the contact piece, the contact piece all with the cooperation of the piece contact of patting of homonymy, it all is equipped with first magnet to pat a top, first magnet bottom all with be connected with the eighth spring between the third sliding sleeve top of homonymy, second sliding rod one side all is equipped with two fourth sliding sleeves, equal sliding type connection has the sliding block between the fourth sliding sleeve of homonymy is inside, sliding block bottom one side all is equipped with the iron plate, all be connected with the ninth spring between two fourth sliding sleeves of sliding block upper portion and homonymy, four sides of second sliding sleeve all are equipped with two and promote the piece.

Further, the material pushing mechanism comprises a connecting rod, a second magnet, a material pushing plate and a magnet, one side of the rotating shaft is connected with the connecting rod, one side of the connecting rod is connected with the second magnet, the second magnet is in contact with the inner wall of the lower frame body, one side of the outer wall of the lower frame body is rotatably connected with the magnet, one side of the magnet is provided with the material pushing plate, and the material pushing plate is located inside the material receiving frame.

Further, still including discharge mechanism, discharge mechanism is including striker plate, hand lever and tenth spring, and ejection of compact frame one side slidingtype is connected with the striker plate, and striker plate one side is equipped with the hand lever, the hand lever both sides all with be connected with the tenth spring between the ejection of compact frame.

The beneficial effects are that: 1. according to the invention, the filtering stone can be collected in a centralized manner by arranging the material receiving frame and the cleaning mechanism, and the filtering stone can not fall to the ground, and people do not need to clean the filter screen manually.

2. Through being equipped with pulling mechanism for the clearance brush can realize resetting by oneself, need not artifical manual supplementary restoration.

3. Through being equipped with beater mechanism and pushing equipment, can prevent that the stone card from on the filter screen, and need people manually to clear up the stone.

Drawings

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

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

Fig. 3 is a schematic cross-sectional perspective view of the present invention.

Fig. 4 is a perspective view of a second part of the present invention.

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

FIG. 6 is a perspective view of a first portion of the cleaning mechanism of the present invention.

FIG. 7 is a perspective view of a second portion of the cleaning mechanism of the present invention.

Fig. 8 is a schematic perspective view of the striker mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first driving mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second driving mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a first pulling mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a second pulling mechanism according to the present invention.

Fig. 13 is a perspective view of a first portion of the pulling mechanism of the present invention.

Fig. 14 is a perspective view of a second portion of the pulling mechanism of the present invention.

Fig. 15 is a schematic perspective view of the swing mechanism of the present invention.

Fig. 16 is a schematic perspective view of a first flapping mechanism of the present invention.

Fig. 17 is a schematic perspective view of a second flapping mechanism of the present invention.

Fig. 18 is a schematic perspective view of a first pushing mechanism according to the present invention.

Fig. 19 is a schematic perspective view of a second pushing mechanism of the present invention.

Fig. 20 is a schematic perspective view of a first discharging mechanism of the present invention.

Fig. 21 is a schematic perspective view of a second discharging mechanism of the present invention.

Part names and serial numbers in the figure: 1_ base, 2_ lower frame, 3_ upper frame, 4_ take-up frame, 5_ take-out frame, 6_ first slide, 7_ filter, 71_ first spring, 8_ cleaning mechanism, 81_ stop, 82_ first slide, 83_ second spring, 84_ cleaning brush, 85_ fixed block, 86_ first wedge, 87_ second wedge, 88_ third spring, 9_ stop, 91_ second slide, 92_ second slide, 93_ cone, 94_ fourth spring, 10_ drive, 101_ rotation shaft, 102_ space cam, 103_ pillar, 104_ first bracket, 105_ motor, 11_ pulling mechanism, 111_ rotation seat, 112_ reel, 113_ pull rope, 114_ third wedge, 115_ wedge, 116_ second bracket, 117_ fifth spring, 118_ fourth wedge, 119_ ball, 12_ swing mechanism, 121_ touch block, 122_ third slide bar, 123_ stop, 124_ sixth spring, 125_ third support, 126_ connecting block, 127_ swing bar, 128_ seventh spring, 13_ patting mechanism, 131_ third sliding sleeve, 132_ patting block, 133_ contact block, 134_ first magnet, 135_ eighth spring, 136_ fourth sliding sleeve, 137_ sliding block, 138_ ninth spring, 139_ pushing block, 14_ pushing mechanism, 141_ connecting rod, 142_ second magnet, 143_ pushing plate, 144_ magnet, 15_ discharging mechanism, 151_ stop plate, 152_ hand lever, 153_ tenth spring.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

The utility model provides a mining wastewater filtration processing apparatus, as shown in fig. 1-21, including base 1, lower framework 2, upper frame 3, connect material frame 4, ejection of compact frame 5, first sliding sleeve 6, filter screen 7, first spring 71, clearance mechanism 8 and stock stop 9, base 1 top is equipped with lower framework 2, be equipped with upper frame 3 on the lower framework 2, upper frame 3 top is opened there is the feed inlet, lower framework 2 upper portion outer wall is equipped with and connects material frame 4, connect material frame 4 bottom front side to be equipped with ejection of compact frame 5, the inside upside of lower framework 2 is equipped with first sliding sleeve 6, the inside slidingtype of first sliding sleeve 6 is equipped with filter screen 7, the first spring 71 of lower side of filter screen 7 and the middle connection of first sliding sleeve 6 bottom, be connected with clearance mechanism 8 between upper frame 3 and the filter screen 7, the inside stock stop 9 that is equipped with of upper frame 3.

The cleaning mechanism 8 comprises a material blocking block 81, a first sliding rod 82, a second spring 83, a cleaning brush 84, a fixed block 85, a first wedge-shaped block 86, a second wedge-shaped block 87 and a third spring 88, go up the equal front and back symmetry in the left and right sides of framework 3 inner wall upside and be equipped with material stopping block 81, filter screen 7 top all is equipped with first slide bar 82 around the side, the equal sliding connection in first slide bar 82 inboard has cleaning brush 84, be connected with second spring 83 between the first slide bar 82 outside of cleaning brush 84 outside all with the homonymy, be connected with fixed block 85 between the downside in the material stopping block 81, cleaning brush 84 top all is equipped with first wedge 86, the sliding connection of the equal front and back symmetry in fixed block 85 middle part left and right sides has second wedge 87, second wedge 87 all cooperates with the first wedge 86 of homonymy, second wedge 87 upper portion all with be connected with third spring 88 between the fixed block 85.

The stop mechanism 9 comprises a second sliding rod 91, a second sliding sleeve 92, a tapered block 93 and a fourth spring 94, the second sliding rod 91 is arranged on the front, back, left and right sides of the upper side inside the upper frame 3, the second sliding sleeve 92 is connected between the upper parts of the second sliding rod 91 in a sliding manner, the tapered block 93 is arranged in the middle of the second sliding sleeve 92, and the fourth spring 94 is connected between the front, back, left and right sides of the second sliding sleeve 92 and the second sliding rod 91 on the same side.

When people need to treat the mining wastewater, the equipment can be used, sewage enters through a feed inlet at the top of the upper frame body 3, when the sewage falls to be in contact with the conical block 93, under the action of the conical block 93, the sewage can flow around, the conical block 93 plays a role in guiding the flow, the sewage can be prevented from flowing towards the middle part, mechanical parts are prevented from being damaged, due to gravity, the conical block 93 moves downwards to drive the second sliding sleeve 92 to move downwards, at the moment, the fourth spring 94 is compressed, the sewage flows around to the filter screen 7, the filter screen 7 filters the sewage, stones in the sewage are filtered out, larger stones can roll down to the receiving frame 4, small stones can be clamped on the filter screen 7, when the weight on the filter screen 7 slowly increases, the filter screen 7 moves downwards, the first spring 71 is stretched at the moment, the filter screen 7 drives the material blocking block 81, The first sliding rod 82, the cleaning brush 84 and the first wedge block 86 move downwards to separate the first wedge block 86 from the second wedge block 87, at this time, the second spring 83 in the initial state contracts to drive the cleaning brush 84 to move outwards, and further drive the first wedge block 86 to move outwards, so that the cleaning brush 84 cleans the stones on the filter screen 7 into the material receiving frame 4, so that the stones can be collected in a centralized manner, after cleaning, the cleaning brush 84 is reset manually, the second spring 83 resets along with the cleaning brush, and further drive the first wedge block 86 to reset, when the first wedge block 86 moves inwards to be in contact with the second wedge block 87, the second wedge block 87 is driven to move upwards, at this time, the third spring 88 is stretched, when the first wedge block 86 moves inwards to be separated from the second wedge block 87, at this time, the third spring 88 resets to drive the second wedge block 87 to reset, so that the second wedge block 87 blocks clamp the first wedge block 86, the filtration finishes, and first spring 71 resets, drives filter screen 7 and above parts and resets, and fourth spring 94 resets, drives second sliding sleeve 92 and toper piece 93 and resets, so alright filter sewage for sewage can reuse, and the water economy resource, people can be manual with the help of the brush, will connect the stone in material frame 4 to sweep to ejection of compact frame 5 department, and the stone falls out from ejection of compact frame 5 and connects material frame 4, gets into in the frame that people prepared.

Still including actuating mechanism 10, actuating mechanism 10 is including axis of rotation 101, space cam 102, pillar 103, first support 104 and motor 105, the rotary type is connected with axis of rotation 101 in the middle of 2 bottoms of lower framework, axis of rotation 101 passes filter screen 7, axis of rotation 101 top is equipped with space cam 102, second sliding sleeve 92 inboard is equipped with pillar 103, pillar 103 left side downside and space cam 102 contact, 2 bottoms of lower framework are equipped with first support 104, the inside motor 105 that is equipped with of first support 104, motor 105 output shaft upper portion is connected bottom axis of rotation 101.

After sewage entered into inside of upper frame body 3 from the feed inlet, starter motor 105, motor 105 output shaft drove axis of rotation 101 and rotates, and then drive space cam 102 and rotate, under the effect of pillar 103, drive second sliding sleeve 92 and toper piece 93 and reciprocate, so, can be so that when sewage down flowed to filter screen 7 on, the dispersion is more even, the filtration of sewage with higher speed, avoid the stone in the sewage to pile up in one, the filtration finishes, close motor 105, second sliding sleeve 92 and toper piece 93 reset.

The novel filter screen is characterized by further comprising a pulling mechanism 11, wherein the pulling mechanism 11 comprises a rotary seat 111, a reel 112, a pull rope 113, a third wedge block 114, a wedge rod 115, a second bracket 116, a fifth spring 117, a fourth wedge block 118 and balls 119, the middle inside the material blocking block 81 is provided with the rotary seat 111, the lower side of the rotary seat 111 is rotatably provided with the reel 112, the pull rope 113 is wound on the reel 112, the front side, the rear side, the left side and the right side of the pull rope 113 are connected with the outer side of the top of the first wedge block 86 on the same side, the upper part of the rotating shaft 101 is provided with the third wedge block 114, the left side of the reel 112 is provided with the wedge rod 115 in a sliding mode, the right side of the upper part of the wedge rod 115 is matched with the third wedge block 114, the fifth spring 117 is connected between the wedge rod 115 and the reel 112, the left side of the top of the filter screen 7 is provided with the second bracket 116, the balls 119 are movably connected on the upper part of the second bracket 116, the bottom of the wedge rod 115 is provided with the fourth wedge block 118, and the fourth wedge block 118 is positioned on the lower side of the reel 112, ball 119 engages fourth wedge block 118.

When the filter screen 7 moves downwards, the second bracket 116 is driven to move downwards, the second bracket 116 drives the ball 119 to move downwards, and further drives the fourth wedge-shaped block 118 to move leftwards, the fourth wedge-shaped block 118 drives the wedge-shaped rod 115 to move leftwards, at this time, the fifth spring 117 is stretched, the cleaning brush 84 drives the first wedge-shaped block 86 to move outwards, and further drives the pull rope 113 to move outwards, the cleaning brush 84 cleans the filter screen 7, the cleaning is completed, when the filter screen 7 moves upwards and resets, the second bracket 116 and the ball 119 are driven to move upwards and reset, at this time, the fifth spring 117 resets, the wedge-shaped rod 115 and the fourth wedge-shaped block 118 reset, the rotating shaft 101 rotates to drive the third wedge-shaped block 114 to rotate, when the third wedge-shaped block 114 rotates to contact with the wedge-shaped rod 115, the wedge-shaped rod 115 is driven to rotate, and further the pull rope 112 is driven to rotate, so that the reel 112 can put up the pull rope 113, and then drive first wedge 86 and cleaning brush 84 and reset for first wedge 86 is blocked by second wedge 87, and stay cord 113 receives the limit after, and reel 112 can't continue to rotate, and fourth wedge 118 continues to rotate this moment, moves about constantly under the effect of fifth spring 117 wedge pole 115, and like this, cleaning brush 84 alright realization resets by oneself, need not artifical manual supplementary cleaning brush 84 and resets.

The swing mechanism 12 is further included, the swing mechanism 12 includes a touch block 121, a third sliding rod 122, a baffle 123, and a sixth spring 124, the outer sides of the first wedge blocks 86 are respectively provided with a touch block 121, the front side and the rear side of the outer wall of the upper frame 3 are symmetrically provided with a third slide rod 122, a baffle 123 is connected between the lower sides of the third slide rods 122 in a sliding manner, the baffle 123 is positioned inside the upper frame 3, the front side and the rear side of the top of the baffle 123 are respectively connected with the upper parts of the third slide rods 122 on the same side by a sixth spring 124, the front side, the rear side, the left side and the right side of the inner wall of the baffle 123 are respectively provided with a third support 125, the inner side of the third support 125 is rotatably connected with a swing rod 127, the front side, the rear side, the left side, the right side and the left side of the inner wall of the baffle 123 are respectively provided with a connecting block 126, the connecting blocks 126 are respectively positioned inside the third supports 125 on the same side, the swing rods 127 are respectively movably connected with the connecting blocks 126 on the same side, and two seventh springs 128 are respectively connected between the swing rods 127 and the third supports 125 on the same side.

When the cleaning brush 84 drives the first wedge block 86 to move outwards, the contact block 121 is driven to move outwards, when the contact block 121 moves outwards to be in contact with the swing rod 127, the swing rod 127 is driven to rotate, the seventh spring 128 deforms at the moment, the swing rod 127 rotates to drive the connecting block 126 to move upwards, the baffle 123 is driven to move upwards, the sixth spring 124 is compressed at the moment, the baffle 123 moves upwards to drive the third support 125 and the swing rod 127 to move upwards, the cleaning brush 84 cleans stones into the material receiving frame 4, when the cleaning brush 84 drives the first wedge block 86 to reset, the seventh spring 128 resets at the moment, the swing rod 127 is driven to reset, meanwhile, the sixth spring 124 resets to drive the connecting block 126, the swing rod 127, the third support 125 and the baffle 123 to reset, and therefore, sewage can be prevented from flowing into the material receiving frame 4.

The flapping mechanism 13 comprises a third sliding sleeve 131, a flapping block 132, a contact block 133, a first iron-absorbing stone 134, an eighth spring 135, a fourth sliding sleeve 136, a sliding block 137, a ninth spring 138 and a pushing block 139, the third sliding sleeve 131 is arranged on the front, back, left and right sides of the inner wall of the baffle 123, the flapping block 132 is connected inside the third sliding sleeve 131 in a sliding manner, the contact block 133 is arranged on the outer side of the top of the first sliding rod 82, the contact block 133 is in contact fit with the flapping block 132 on the same side, the first iron-absorbing stone 134 is arranged on the top of the flapping block 132, the eighth spring 135 is connected between the bottom of the first iron-absorbing stone 134 and the top of the third sliding sleeve 131 on the same side, two fourth sliding sleeves 136 are arranged on the lower side of the second sliding rod 91, the sliding block 137 is connected between the inner parts of the fourth sliding sleeves 136 on the same side in a sliding manner, the outer side of the bottom of the sliding block 137 is provided with an iron block, the ninth spring 138 is connected between the upper part of the sliding block 137 and the two fourth sliding sleeves 136 on the same side, two pushing blocks 139 are arranged on the front, back, left and right sides of the second sliding sleeve 92.

When the second sliding sleeve 92 moves downwards, the pushing block 139 is driven to move downwards, when the pushing block 139 moves downwards to be in contact with the sliding block 137, the sliding block 137 is driven to move downwards, at the moment, the ninth spring 138 is compressed, the sliding block 137 moves downwards to drive the iron block to move downwards, when the iron block moves downwards to be in contact with the first iron-absorbing stone 134, the first iron-absorbing stone 134 adsorbs the iron block, when the second sliding sleeve 92 drives the pushing and resetting, at the moment, the ninth spring 138 resets to drive the sliding block 137 to reset, the sliding block 137 drives the iron block and the first iron-absorbing stone 134 to move upwards, the first iron-absorbing stone 134 drives the patting block 132 to move upwards, at the moment, the eighth spring 135 is stretched, when the first iron-absorbing stone 134 cannot move upwards continuously, at the moment, the first iron-absorbing stone 134 is separated from the iron block, the eighth spring 135 resets to drive the patting block 132 and the first iron-absorbing stone 134 to reset, and the patting block 132 moves downwards to be in contact with the contact block 133, the contact block 133 is flapped, and the filter screen 7 is vibrated during flapping, so that stones on the filter screen 7 are vibrated in the material receiving frame 4, and the stones can be prevented from being clamped on the filter screen 7 by repeating the action.

The material pushing device is characterized by further comprising a material pushing mechanism 14, wherein the material pushing mechanism 14 comprises a connecting rod 141, a second magnet 142, a material pushing plate 143 and a magnet 144, the connecting rod 141 is connected to the lower side of the rotating shaft 101, the second magnet 142 is connected to the outer side of the connecting rod 141, the second magnet 142 is in contact with the inner wall of the lower frame body 2, the magnet 144 is rotatably connected to the upper side of the outer wall of the lower frame body 2, the material pushing plate 143 is arranged on the left front side of the magnet 144, and the material pushing plate 143 is located inside the material receiving frame 4.

Still including discharge mechanism 15, discharge mechanism 15 is including striker plate 151, hand lever 152 and

tenth spring

153, and 5 downside sliding connection of ejection of compact frame have striker plate 151, and striker plate 151 front side is equipped with hand lever 152, the left and right sides of hand lever 152 rear side all with be connected with tenth spring 153 between the ejection of compact frame 5.

When the output shaft of the motor 105 drives the rotating shaft 101 to rotate, the connecting rod 141 is driven to rotate, and then the second magnet 142 is driven to rotate, the second magnet 142 drives the magnet 144 to rotate, and then the pushing plate 143 is driven to rotate, so that the pushing plate 143 pushes the stones in the receiving frame 4 into and out of the material frame 5, when the pushing plate 143 cannot move continuously, the second magnet 142 continues to rotate, when the stones in the material frame 5 reach a certain amount, the hand lever 152 is manually pulled forward by people, the hand lever 152 drives the material blocking plate 151 to move forward, the tenth spring 153 is stretched, the stones fall down into the prepared frame, after the stones fall, the hand lever 152 is released, the tenth spring 153 resets at the moment, the material blocking plate 151 and the hand lever 152 reset, so that the material blocking plate 151 blocks the material frame 5 again, and when the stones in the receiving frame 4 are accumulated again to a certain amount, the people control the motor 105 to rotate reversely, thus, people do not need to manually clean the stones.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a waste water filtration treatment device for mining which characterized in that: comprises a base (1), a lower frame body (2), an upper frame body (3), a material receiving frame (4), a material discharging frame (5), a first sliding sleeve (6), a filter screen (7), a first spring (71), a cleaning mechanism (8) and a material blocking mechanism (9), wherein the lower frame body (2) is arranged at the top of the base (1), the upper frame body (3) is arranged on the lower frame body (2), a feeding hole is formed in the top of the upper frame body (3), the material receiving frame (4) is arranged on the outer wall of the upper part of the lower frame body (2), the material discharging frame (5) is arranged on one side of the bottom of the material receiving frame (4), the first sliding sleeve (6) is arranged on one side of the inside of the lower frame body (2), the filter screen (7) is arranged in a sliding manner inside the first sliding sleeve (6), the first spring (71) is connected between one side of the filter screen (7) and the bottom of the first sliding sleeve (6), the cleaning mechanism (8) is connected between the upper frame body (3) and the filter screen (7), a material blocking mechanism (9) is arranged in the upper frame body (3).

2. The mining wastewater filtering treatment device according to claim 1, characterized in that: the cleaning mechanism (8) comprises material blocking blocks (81), first sliding rods (82), second springs (83), cleaning brushes (84), fixing blocks (85), first wedge blocks (86), second wedge blocks (87) and third springs (88), the material blocking blocks (81) are symmetrically arranged on two sides of the inner wall of the upper frame body (3), the first sliding rods (82) are arranged on four sides of the top of the filter screen (7), the cleaning brushes (84) are connected to the inner sides of the first sliding rods (82) in a sliding mode, the second springs (83) are connected between the outer sides of the cleaning brushes (84) and the first sliding rods (82) on the same side, the fixing blocks (85) are connected between one sides of the material blocking blocks (81), the first wedge blocks (86) are arranged on the top of the cleaning brushes (84), the second wedge blocks (87) are connected to four sides of the middle of the fixing blocks (85) in a sliding mode, and the second wedge blocks (87) are matched with the first wedge blocks (86) on the same side, a third spring (88) is connected between the upper part of the second wedge-shaped block (87) and the fixed block (85).

3. The mining wastewater filtering treatment device according to claim 2, characterized in that: the material blocking mechanism (9) comprises a second sliding rod (91), a second sliding sleeve (92), a conical block (93) and a fourth spring (94), the second sliding rod (91) is arranged on the four sides of the inside of the upper frame body (3), the second sliding sleeve (92) is connected between the upper portion of the second sliding rod (91) in a sliding mode, the conical block (93) is arranged in the middle of the second sliding sleeve (92), and the fourth spring (94) is connected between the four sides of the second sliding sleeve (92) and the second sliding rod (91) on the same side.

4. The mining wastewater filtering treatment device according to claim 3, characterized in that: still including actuating mechanism (10), actuating mechanism (10) are including axis of rotation (101), space cam (102), pillar (103), first support (104) and motor (105), lower frame (2) bottom intermediate rotation type is connected with axis of rotation (101), filter screen (7) are passed in axis of rotation (101), axis of rotation (101) top is equipped with space cam (102), second sliding sleeve (92) inboard is equipped with pillar (103), pillar (103) one side and space cam (102) contact, lower frame (2) bottom is equipped with first support (104), first support (104) inside is equipped with motor (105), motor (105) output shaft upper portion is connected bottom axis of rotation (101).

5. The mining wastewater filtering treatment device according to claim 4, characterized in that: the novel spinning reel is characterized by further comprising a pulling mechanism (11), the pulling mechanism (11) comprises a spinning seat (111), a reel (112), a pull rope (113), a third wedge-shaped block (114), a wedge rod (115), a second bracket (116), a fifth spring (117), a fourth wedge-shaped block (118) and balls (119), the middle inside the material blocking block (81) is provided with the spinning seat (111), the reel (112) is rotatably arranged on one side of the spinning seat (111), the pull rope (113) is wound on the reel (112), four sides of the pull rope (113) are connected with one side of the top of the first wedge-shaped block (86) on the same side, the third wedge-shaped block (114) is arranged on the upper portion of the rotating shaft (101), the wedge rod (115) is slidably arranged on one side of the reel (112), one side of the upper portion of the wedge rod (115) is matched with the third wedge-shaped block (114), the fifth spring (117) is connected between the wedge rod (115) and the reel (112), one side of the top of the filter screen (7) is provided with a second support (116), the upper part of the second support (116) is movably connected with a ball (119), the bottom of the wedge rod (115) is provided with a fourth wedge block (118), the fourth wedge block (118) is positioned on one side of the reel (112), and the ball (119) is matched with the fourth wedge block (118).

6. The mining wastewater filtering treatment device according to claim 5, characterized in that: the swing mechanism (12) comprises a touch block (121), a third sliding rod (122), a baffle (123), a sixth spring (124), a third support (125), a connecting block (126), a swing rod (127) and a seventh spring (128), the touch block (121) is arranged on one side of a first wedge-shaped block (86), the third sliding rod (122) is symmetrically arranged on two sides of the outer wall of the upper frame body (3), the baffle (123) is connected between one sides of the third sliding rods (122) in a sliding manner, the baffle (123) is positioned in the upper frame body (3), the sixth spring (124) is connected between two sides of the top of the baffle (123) and the upper part of the third sliding rod (122) on the same side, the third support (125) is arranged on four sides of the inner wall of the baffle (123), the swing rod (127) is connected on the inner side of the third support (125) in a rotating manner, the connecting block (126) is arranged on four sides of the inner wall of the baffle (123), the connecting blocks (126) are located on one side of the third support (125) on the same side, the swinging rods (127) are movably connected with the connecting blocks (126) on the same side, and two seventh springs (128) are connected between the swinging rods (127) and the third support (125) on the same side.

7. The mining wastewater filtering treatment device according to claim 6, characterized in that: the flapping mechanism (13) comprises a third sliding sleeve (131), a flapping block (132), a contact block (133), a first iron stone (134), an eighth spring (135), a fourth sliding sleeve (136), a sliding block (137), a ninth spring (138) and a pushing block (139), the third sliding sleeve (131) is arranged on four sides of the inner wall of the baffle (123), the flapping block (132) is connected inside the third sliding sleeve (131) in a sliding manner, the contact block (133) is arranged on one side of the top of the first sliding rod (82), the contact block (133) is in contact fit with the flapping block (132) on the same side, the first iron stone (134) is arranged on the top of the flapping block (132), the eighth spring (135) is connected between the bottom of the first iron stone (134) and the top of the third sliding sleeve (131) on the same side, two fourth sliding sleeves (136) are arranged on one side of the second sliding rod (91), and the sliding block (137) is connected inside the fourth sliding sleeve (136) on the same side, an iron block is arranged on one side of the bottom of the sliding block (137), a ninth spring (138) is connected between the upper portion of the sliding block (137) and the two fourth sliding sleeves (136) on the same side, and two pushing blocks (139) are arranged on the four sides of the second sliding sleeve (92).

8. The mining wastewater filtering treatment device according to claim 7, characterized in that: the material pushing device is characterized by further comprising a material pushing mechanism (14), wherein the material pushing mechanism (14) comprises a connecting rod (141), a second magnet stone (142), a material pushing plate (143) and a magnet (144), the connecting rod (141) is connected to one side of the rotating shaft (101), the second magnet stone (142) is connected to one side of the connecting rod (141), the second magnet stone (142) is in contact with the inner wall of the lower frame body (2), the magnet (144) is rotatably connected to one side of the outer wall of the lower frame body (2), the material pushing plate (143) is arranged on one side of the magnet (144), and the material pushing plate (143) is located inside the material receiving frame (4).

9. The mining wastewater filtering treatment device according to claim 8, characterized in that: the automatic material discharging device is characterized by further comprising a material discharging mechanism (15), wherein the material discharging mechanism (15) comprises a material blocking plate (151), a hand lever (152) and a tenth spring (153), the material blocking plate (151) is connected to one side of the material discharging frame (5) in a sliding mode, the hand lever (152) is arranged on one side of the material blocking plate (151), and the tenth spring (153) is connected between the two sides of the hand lever (152) and the material discharging frame (5).