CN212759114U - Magnetic rod dirt scraping mechanism in horizontal magnetic rod filter - Google Patents

Abstract

The utility model discloses a dirty mechanism is scraped to bar magnet in horizontal bar magnet filter, when the scraper blade subassembly is in the state of foldeing and scraper blade subassembly when moving forward, the scraper blade subassembly is scraped dirty to being located the bar magnet of scraping dirty station, and after scraping dirty completion, makes the scraper blade subassembly be in and opens the state and make scraper blade subassembly move backward, and two cell wall scrapers can scrape dirty to two cell walls of defeated silo to scrape the bottom of defeated silo with the filth of adhesion on the cell wall of defeated silo. The utility model discloses can clean the cell wall of defeated silo to adhesion filth on the cell wall of avoiding defeated silo.

Description

Magnetic rod dirt scraping mechanism in horizontal magnetic rod filter

Technical Field

The utility model relates to a filtration equipment technical field specifically is a dirty mechanism is scraped to bar magnet among horizontal bar magnet filter.

Background

In some machining fields, such as cutting, grinding and tapping, these processes are often required to be applied to a coolant such as water, oil and the like, in the machining process, some iron filings are inevitably mixed into the coolant, many high-speed rotating machinery equipment and high-precision hydraulic systems have high requirements on oil cleanliness, and in order to enable the coolant to be recycled or be beneficial to environmental protection, the iron filings in the coolant are generally required to be removed.

At present, a horizontal magnetic rod filter is often adopted to filter a coolant so as to remove scrap iron in the coolant, when the horizontal magnetic rod filter is used, a plurality of magnetic rods circularly move in sequence so that each magnetic rod is continuously switched between a filtering station and a dirt scraping station, and when the magnetic rods are positioned at the filtering station, the magnetic rods are positioned in dirty liquid so that the magnetic rods adsorb scrap iron impurities in the dirty liquid, so that dirt is adhered to the magnetic rods; when the bar magnet was in scraping dirty station, scraped off through the scraper blade subassembly with the filth on the bar magnet to make the bar magnet can go to the filtration station again and remove the absorption filth, and the filth on the bar magnet is scraped off the back by the scraper blade subassembly and is fallen to the bottom of defeated material groove, then discharges the filth through the conveying mechanism of defeated material groove bottom.

However, when the scraper component scrapes off the dirt on the magnetic rod, a small amount of dirt inevitably falls on the wall of the conveying chute, and the conveying mechanism in the conveying chute cannot discharge the dirt on the wall of the conveying chute, so that more and more dirt adheres to the wall of the conveying chute, and the normal use of the horizontal magnetic rod filter is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a dirty mechanism is scraped to bar magnet among horizontal bar magnet filter is provided, it can clean the cell wall of defeated silo to adhesion filth on avoiding the cell wall of defeated silo.

In order to solve the technical problem, the utility model provides a dirty mechanism is scraped to bar magnet among horizontal bar magnet filter, it includes:

the magnetic rods are parallel to each other and circularly move in sequence, so that each magnetic rod is continuously switched between a filtering station and a dirt scraping station;

the scraper component comprises an upper scraper component, a lower scraper component and two groove wall scrapers, wherein the upper scraper component is positioned above the dirt scraping station, the lower scraper component is positioned below the dirt scraping station, and the two groove wall scrapers are both arranged on the lower scraper component;

the first driving mechanism is used for driving the scraper component to move along the length direction of the magnetic rod;

the second driving mechanism is used for driving the scraper component to be relatively opened and closed, the scraper component has a closed state and an opened state, and when the scraper component is in the closed state, the upper scraper component and the lower scraper component are both contacted with the outer peripheral wall of the magnetic rod positioned on the dirt scraping position; when the scraper component is in an open state, the upper scraper component and the lower scraper component are separated from the magnetic rod;

the material conveying groove is positioned below the lower scraper component and is provided with two groove walls which are arranged in opposite directions and extend along the length direction of the magnetic rod, and when the scraper component is in an open state, the two groove wall scrapers are respectively contacted with the two groove walls.

Preferably, the two wall scrapers are configured to move in opposite or opposite directions and are positioned after being moved into position.

Preferably, the two groove wall scrapers are respectively connected with a fixing plate, the two fixing plates are located between the two groove wall scrapers, each fixing plate is provided with two waist-shaped holes, the lower scraper component is fixedly provided with two mounting parts, and the two bolts respectively penetrate through the two waist-shaped holes in the two fixing plates and then are screwed and fixed on the mounting parts.

Preferably, the upper scraper component is provided with at least one upper arc-shaped notch, the lower scraper component is provided with at least one lower arc-shaped notch, and when the scraper components are in a closed state, the upper arc-shaped notch and the lower arc-shaped notch are attached to the outer peripheral wall of the magnetic rod positioned on the dirt scraping station.

Preferably, the cross section of the material conveying groove is of an inverted round table structure, two groove walls of the material conveying groove are both planes, and the two groove wall scrapers are arranged along the cross section direction of the material conveying groove.

Preferably, the two chute wall scrapers are divided into a first plate body and a second plate body along the length direction of the conveying chute, and the first plate body and the second plate body in each chute wall scraper form a certain included angle; when the scraper blade subassembly is in the state of opening, two first plate bodys laminate with two cell walls respectively mutually, and two second plate bodys set up for two first plate bodys slope respectively.

After the structure more than adopting, compared with the prior art, the utility model, have following advantage:

the utility model discloses a dirty mechanism is scraped to bar magnet among horizontal bar magnet filter, when the scraper blade subassembly is in the state of foldeing and scraper blade subassembly when moving forward, the scraper blade subassembly is scraped dirty to being located the bar magnet of scraping dirty station, and after scraping dirty completion, make the scraper blade subassembly be in the state of opening and make scraper blade subassembly move backward, two cell wall scrapers can scrape dirty to two cell walls of defeated silo, scrape the bottom that falls to defeated silo with the filth of adhesion on the cell wall of defeated silo, just so can avoid on the cell wall of defeated silo adhesion filth and influence the normal use of horizontal bar magnet filter.

Drawings

FIG. 1 is a schematic structural view of the present invention with the squeegee assembly in a closed position;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic structural view of the present invention with the squeegee assembly in an open position;

FIG. 4 is a cross-sectional view of FIG. 3;

FIG. 5 is a combination view of the upper flight assembly, the lower flight assembly, and the wall flights.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in figures 1-5, the utility model discloses a dirty mechanism is scraped to bar magnet among horizontal bar magnet filter, it includes many bar magnets 10, a scraper blade subassembly, a first actuating mechanism, a second actuating mechanism, a defeated silo 50 that is used for driving scraper blade subassembly relative open and shut that is used for driving scraper blade subassembly to remove along the length direction of bar magnet 10.

The magnetic rods 10 are parallel to each other, the magnetic rods 10 are driven by a chain plate mechanism to circularly move according to a sequence, so that each magnetic rod 10 is constantly switched between a filtering station and a dirt scraping station, when the magnetic rods 10 are positioned at the filtering station, namely the magnetic rods 10 are immersed in the dirt liquid, so that the magnetic rods 10 adsorb iron scrap impurities in the dirt liquid, the iron scrap impurities are generally wrapped with dirt, and the surfaces of the magnetic rods 10 are fully stained with the dirt, so that the dirt liquid is filtered by the magnetic rods 10; when the magnetic rod 10 is at the dirt scraping station, dirt on the magnetic rod 10 is scraped through the scraper component, so that the magnetic rod 10 becomes clean, and the magnetic rod 10 can go to the filtering station again to filter dirt liquid.

The scraper blade subassembly include one go up scraper blade subassembly 20, scraper blade subassembly 30 and two cell wall scraper blades 40 down, go up scraper blade subassembly 20 and be located the top of scraping dirty station, scraper blade subassembly 30 is located the below of scraping dirty station down, two cell wall scraper blades 40 are all installed on scraper blade subassembly 30 down, two cell wall scraper blades 40 all are located the below of scraper blade subassembly 30 down, two cell wall scraper blades 40 are symmetrical to be set up.

The scraper component has a closed state and an open state, when the scraper component is in the closed state, the upper scraper component 20 and the lower scraper component 30 are close to each other, and both the upper scraper component 20 and the lower scraper component 30 are in contact with the outer peripheral wall of the magnetic rod 10 positioned on the dirt scraping position; when the scraper assemblies are in an open state, the upper scraper assembly 20 and the lower scraper assembly 30 are far away from each other, the upper scraper assembly 20 and the lower scraper assembly 30 are both separated from the magnetic rod 10, and the upper scraper assembly 20 and the lower scraper assembly 30 are not in contact with the magnetic rod 10.

The conveying chute 50 is located below the lower scraper component 30, a spiral conveying shaft 52 is arranged at the bottom of the conveying chute 50, the spiral conveying shaft 52 is arranged along the length direction of the conveying chute 50, when the spiral conveying shaft 52 works, dirt at the bottom of the conveying chute 50 can be conveyed forwards to be discharged from the conveying chute 50, the conveying chute 50 is provided with two chute walls 51 which are arranged in opposite directions and extend along the length direction of the magnetic rod 10, and when the scraper component is in an open state, the two chute wall scrapers 40 are respectively contacted with the two chute walls 51.

The second driving mechanism is a double-claw mechanism, the upper scraper component 20 and the lower scraper component 30 are respectively installed on two grabbing parts of the double-claw mechanism, and the two grabbing parts of the double-claw mechanism can be opened and closed in an electric mode.

The first driving mechanism is a chain plate driving mechanism, the double-claw mechanism is installed on the chain plate driving mechanism, and the chain plate driving mechanism can drive the double-claw mechanism to move forwards or backwards along the length direction of the magnetic rod 10.

The utility model discloses a dirty mechanism's of scraping of bar magnet among the horizontal bar magnet filter theory of operation as follows: as shown in fig. 1 and 2, when the scraper assemblies are in a closed state and move forward, the upper scraper assembly 20 and the lower scraper assembly 30 are both in contact with the magnetic rod 10 located at the dirt scraping position, so that the scraper assemblies scrape the magnetic rod 10 located at the dirt scraping position; after scraping dirt, referring to fig. 3 and 4, the scraper assembly is in an open state and moves backwards, at this time, the upper scraper assembly 20 and the lower scraper assembly 30 are both separated from the magnetic rod 10, and the two chute wall scrapers 40 are respectively in contact with the two chute walls 51 of the material conveying chute 50, and the two chute wall scrapers 40 can scrape dirt on the two chute walls 51 of the material conveying chute 50, so that dirt adhered to the chute walls 51 of the material conveying chute 50 is scraped to fall to the bottom of the material conveying chute 50, and then the dirt is discharged through the spiral conveying shaft 52 at the bottom of the material conveying chute 50.

The two wall scrapers 40 are configured to move in opposite or opposite directions and to be positioned after being moved into position so that the relative positions of the two wall scrapers 40 can be adjusted.

The two groove wall scraping plates 40 are respectively connected with a fixing plate 41, each groove wall scraping plate 40 is fixedly connected with the corresponding fixing plate 41, the two fixing plates 41 are positioned between the two groove wall scraping plates 40, each fixing plate 41 is provided with two waist-shaped holes 42, the lower scraping plate assembly 30 is fixedly provided with two mounting parts 33, two bolts 32 respectively penetrate through the two waist-shaped holes 42 on the two fixing plates 41 and then are screwed and fixed on the mounting parts 33, thus, two fixing plates 41 are simultaneously fixed to the two mounting portions 33 by two bolts 32, when it is desired to adjust the relative position of the two wall scrapers 40, the two bolts 32 are loosened, the relative positions of the two groove wall scrapers 40 can be adjusted, and after the positions of the two groove wall scrapers 40 are adjusted in place, it is sufficient to tighten both bolts 32, so that the position adjustment of both groove wall scrapers 40 is facilitated.

Last scraper blade subassembly 20 on be provided with at least one and go up arc notch 21, be provided with at least one arc notch 31 down on the scraper blade subassembly 30, it is identical with the radian of the outer wall of bar magnet 10 all to go up arc notch 21 and arc notch 31 down, when the scraper blade subassembly is in the state of foling, go up arc notch 21 and arc notch 31 down and all laminate with the outer peripheral wall that is located the bar magnet 10 on scraping dirty worker's position, go up arc notch 21 and be located the top of bar magnet 10, arc notch 31 is located the below of bar magnet 10 down.

The cross section of the material conveying groove 50 is in an inverted round platform-shaped structure, two groove walls 51 of the material conveying groove 50 are both planes, and the two groove wall scrapers 40 are arranged along the cross section direction of the material conveying groove 50, so that the scraping effect of the groove wall scrapers 40 on the two groove walls 51 of the material conveying groove 50 is better.

The two chute wall scrapers 40 are divided into a first plate body 44 and a second plate body 43 along the length direction of the conveying chute 50, and the first plate body 44 and the second plate body 43 in each chute wall scraper 40 form a certain included angle; when the scraper component is in an open state, the two first plate bodies 44 are respectively attached to the two groove walls 51, the two second plate bodies 43 are respectively arranged in an inclined manner relative to the two first plate bodies 44, in this way, when the groove walls 51 are scraped by the groove wall scraper 40, the groove wall scraper 40 continuously moves along the length direction of the material conveying groove 50, the first plate bodies 44 are in contact with the groove walls 51 of the material conveying groove 50, the first plate bodies 44 scrape dirt on the groove walls 51, and the second plate bodies 43 guide the dirt scraped by the first plate bodies 44 to the middle of the material conveying groove 50, so that the dirt scraped by the first plate bodies 44 is far away from the groove walls of the material conveying groove 50, thereby preventing the dirt scraped by the first plate bodies 44 from re-adhering to the groove walls 51 of the material conveying groove 50, and further ensuring that the dirt scraping effect of the groove walls 51 of the material conveying groove 50 by the groove wall scraper 40 is better.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention, but should not be construed as limiting the claims, and the present invention is not limited to the above-described embodiments, but may be modified in various ways. In summary, all changes that can be made within the scope of the independent claims of the present invention are within the scope of the present invention.

Claims (6)

1. The utility model provides a dirty mechanism is scraped to bar magnet in horizontal bar magnet filter which characterized in that, it includes:

the magnetic rods (10) are parallel to each other and circularly move in sequence, so that each magnetic rod (10) is continuously switched between a filtering station and a dirt scraping station;

the scraper component comprises an upper scraper component (20), a lower scraper component (30) and two groove wall scrapers (40), wherein the upper scraper component (20) is positioned above the dirt scraping station, the lower scraper component (30) is positioned below the dirt scraping station, and the two groove wall scrapers (40) are both arranged on the lower scraper component (30);

a first driving mechanism for driving the scraper component to move along the length direction of the magnetic bar (10);

the second driving mechanism is used for driving the scraper component to be relatively opened and closed, the scraper component has a closed state and an opened state, and when the scraper component is in the closed state, the upper scraper component (20) and the lower scraper component (30) are both contacted with the outer peripheral wall of the magnetic rod (10) positioned on the dirt scraping position; when the scraper component is in an opening state, the upper scraper component (20) and the lower scraper component (30) are separated from the magnetic rod (10);

the material conveying groove (50) is located below the lower scraper component (30), the material conveying groove (50) is provided with two groove walls (51) which are arranged in opposite directions and extend along the length direction of the magnetic rod (10), and when the scraper component is in an open state, the two groove wall scrapers (40) are respectively contacted with the two groove walls (51).

2. The magnetic rod dirt scraping mechanism in the horizontal magnetic rod filter according to claim 1, characterized in that the two chute wall scrapers (40) are configured to be movable in opposite or opposite directions and positioned after being moved into position.

3. The magnetic rod dirt scraping mechanism in the horizontal magnetic rod filter according to claim 2, characterized in that the two tank wall scrapers (40) are respectively connected with a fixing plate (41), the two fixing plates (41) are located between the two tank wall scrapers (40), each fixing plate (41) is provided with two waist-shaped holes (42), the lower scraper component (30) is fixedly provided with two mounting portions (33), and the two bolts (32) respectively penetrate through the two waist-shaped holes (42) on the two fixing plates (41) and are screwed and fixed on the mounting portions (33).

4. The magnetic rod dirt scraping mechanism in the horizontal magnetic rod filter according to claim 1, characterized in that at least one upper arc-shaped notch (21) is arranged on the upper scraper component (20), at least one lower arc-shaped notch (31) is arranged on the lower scraper component (30), and when the scraper components are in the folded state, the upper arc-shaped notch (21) and the lower arc-shaped notch (31) are both attached to the outer peripheral wall of the magnetic rod (10) on the dirt scraping position.

5. A magnetic rod dirt scraping mechanism in a horizontal magnetic rod filter according to claim 1, characterized in that the cross section of the feed chute (50) is an inverted round platform structure, two chute walls (51) of the feed chute (50) are both flat surfaces, and two chute wall scrapers (40) are arranged along the cross section of the feed chute (50).

6. The magnetic rod dirt scraping mechanism in the horizontal magnetic rod filter according to claim 5, characterized in that the two chute wall scrapers (40) are divided into a first plate body (44) and a second plate body (43) along the length direction of the feed chute (50), and the first plate body (44) and the second plate body (43) in each chute wall scraper (40) are at an included angle; when the scraper component is in an opening state, the two first plate bodies (44) are respectively attached to the two groove walls (51), and the two second plate bodies (43) are respectively arranged in an inclined mode relative to the two first plate bodies (44).

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