CN217568241U - Aluminum powder soaking device for anticorrosive paint processing - Google Patents

Abstract

The utility model provides an aluminite powder soak device for anticorrosive paint processing relates to anticorrosive paint technical field, including soaking room, pan feeding mouth, seal groove, discharge gate, valve, shell, mount, sealed lid, closing plate and waste water tank, soak room outer wall one end fixed mounting and have the mount, soak room top embedding and be provided with the pan feeding mouth, pan feeding mouth top outer wall embedding is provided with the seal groove, and pan feeding mouth top is provided with sealed lid, and sealed bottom outer wall fixed mounting has the closing plate. The utility model discloses well staff will seal the sealing cover bottom closing plate and slide into the seal groove, with the sealed back in pan feeding mouth top, the staff opens electric putter and drives filter screen A vibrations from top to bottom, makes a large amount of aluminiums powder drop to the steeping chamber through filter screen A, and the debris that dope in the aluminiums powder etc. will be remained on filter screen A surface, and after filtering finishing, the staff opens sealed lid, and the pulling rose tank shifts out behind the pan feeding mouth, and the staff pulls out the support frame, clears up the debris on filter screen A surface.

Description

Aluminum powder soaking device for processing anticorrosive paint

Technical Field

The utility model relates to an anticorrosive paint technical field, more specifically relates to an aluminite powder soak device is used in anticorrosive paint processing.

Background

The anticorrosive paint has anticorrosive effect on metal and is prepared through doping antirust additive, such as aluminum powder, etc.

The existing soaking device is used by a worker to soak a large amount of aluminum powder, because the filtering device is not arranged to filter the aluminum powder in advance, the quality of the soaked aluminum powder can be easily influenced by impurity residues and the like doped in the large amount of aluminum powder, and after the worker soaks the large amount of aluminum powder, the soaking device can naturally air-dry the wet aluminum powder only by taking out the wet aluminum powder, so that the soaked water doped in the large amount of aluminum powder is longer, the aluminum powder can be dried for a longer time, the optimal time of the service life of the aluminum powder can be missed easily, and the influence on the quality of the aluminum powder is larger.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current soak device in the background and not setting up filterable device, a large amount of aluminite powders after soaking are difficult to mummified problem to an aluminite powder soak device is used in anticorrosive paint processing is provided.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an aluminite powder soak device for anticorrosive paint processing, is including soaking room, pan feeding mouth, seal groove, discharge gate, valve, shell, mount, sealed lid, closing plate and waste water tank, soak room outer wall one end fixed mounting has the mount, it is provided with the pan feeding mouth to soak room top embedding, pan feeding mouth top outer wall embedding is provided with the seal groove, the pan feeding mouth top is provided with sealed lid, sealed bottom outer wall fixed mounting has the closing plate, and the closing plate agrees with to slide and set up inboard at the seal groove, it is provided with the discharge gate to soak room bottom embedding, the nested valve that is provided with in discharge gate top, discharge gate bottom outer wall fixed mounting has the shell, it is provided with the waste water tank near the shell bottom to soak the room bottom, soak the room inside and be provided with and prevent deposiing and soak the mechanism, the shell bottom is provided with the mechanism that spin-dries.

Preferably, the inboard filter-tank that slides in pan feeding mouth top is provided with, the equal slip in both ends is provided with the support frame about the filter-tank inboard, the equal fixed mounting in support frame inner wall top both ends has electric putter, equal fixed mounting has filter screen A between the electric putter bottom.

Preferably, prevent that deposit soaks the mechanism and comprises servo motor A, dwang A, stirring leaf, scraper blade, water tank, water pump and water shower nozzle, soak room outer wall other end fixed mounting has servo motor A, output shaft has dwang A is passed through to servo motor A outside one end, dwang A outer wall fixed mounting has the stirring leaf, the stirring leaf has a plurality of, and is the centrosymmetric setting side by side, the equal fixed mounting of stirring leaf other end has the scraper blade, the scraper blade has two, and is the centrosymmetric setting, it is provided with the water shower nozzle all to imbed at soaking room inner wall top both ends, the water shower nozzle has a plurality of, and is and sets up side by side, fixed frame top fixed mounting has the water tank, water tank top one end embedding is provided with the water pump, and all through water piping connection between water pump and a plurality of water shower nozzle.

Preferably, the mechanism that spin-dries comprises spout, backup pad, servo motor B, dwang B, bracing piece, slider, a sieve section of thick bamboo and filter screen B, the equal fixed mounting in shell bottom outer wall both ends has the spout, the shell bottom is provided with the backup pad, the equal fixed mounting in backup pad outer wall both ends has the bracing piece, bracing piece top one end fixed mounting has the slider, and the slider agrees with to slide and set up inboard at the spout, pass through bolted connection between spout and the slider, backup pad bottom fixed mounting has servo motor B, output shaft has dwang B through servo motor B top, dwang B top is provided with a sieve section of thick bamboo, and passes through bolted connection between a sieve section of thick bamboo and the dwang B, sieve section of thick bamboo outer wall fixed mounting has filter screen B.

Preferably, the material of the outer surface of the shell is polyurethane.

Preferably, the outer surface of the shell is made of PVC.

The utility model provides an aluminite powder soak device is used in anticorrosive paint processing has following beneficial effect:

1. this kind of aluminium powder soak device is used in anticorrosive paint processing is through being provided with the filter screen, can make the staff open electric putter and drive the filter screen vibrations from top to bottom, makes a large amount of aluminium powders pass through the filter screen and drops in the soaker, and the debris etc. that mix in the aluminium powders will be remained in filter screen surface

2. This kind of aluminite powder soak device is used in anticorrosive paint processing can make the staff open servo motor B through being provided with a sieve section of thick bamboo, drives a sieve section of thick bamboo and rotates, when whipping the remaining moisture of a large amount of aluminite powders in a sieve section of thick bamboo inside, will make a large amount of water throw away the shell inner wall through the filter screen to after dropping the waste water tank, throw away remaining moisture in a large amount of aluminite powders.

Drawings

FIG. 1 is a schematic view of the front cross-sectional structure of the soaking device of the present invention;

fig. 2 is an enlarged schematic structural view of a point a in fig. 1 according to the present invention;

fig. 3 is a schematic view of the front perspective structure of the screen cylinder of the present invention.

In FIGS. 1-3: 1. a soaking chamber; 101. a feeding port; 1011. a sealing groove; 102. a discharge port; 1021. a valve; 103. a housing; 1031. a chute; 104. a fixed mount; 2. a filter tank; 201. a support frame; 202. an electric push rod; 203. a filter screen A; 3. a sealing cover; 301. a sealing plate; 4. a servo motor A; 401. rotating the rod A; 402. stirring blades; 403. a squeegee; 5. a support plate; 501. a servo motor B; 502. rotating the rod B; 503. a support bar; 504. a slider; 6. a screen drum; 601. a filter screen B; 7. a wastewater tank; 8. a water tank; 801. a water pump; 802. and (4) a water spray head.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1 to 3, in the embodiment of the present invention, an aluminum powder soaking device for anticorrosive paint processing, including soaking chamber 1, feeding port 101, seal groove 1011, discharge port 102, valve 1021, housing 103, mount 104, seal cover 3, sealing plate 301 and waste water tank 7, soaking chamber 1 outer wall one end fixed mounting has mount 104, soaking chamber 1 top embedding is provided with feeding port 101, feeding port 101 top outer wall embedding is provided with seal groove 1011, feeding port 101 top is provided with seal cover 3, seal cover 3 bottom outer wall fixed mounting has sealing plate 301, and sealing plate 301 agrees with the slip setting at seal groove 1011 inboard, soaking chamber 1 bottom embedding is provided with discharge port 102, discharge port 102 top nestification is provided with valve 1021, discharge port 102 bottom outer wall fixed mounting has housing 103, soaking chamber 1 bottom is close to housing 103 bottom and is provided with waste water tank 7, soaking chamber 1 inside is provided with prevents that the deposition soaks the mechanism, housing 103 bottom is provided with the mechanism that spin-dries.

Referring to fig. 1 and 2, in the present embodiment: the filter tank 2 is arranged on the inner side of the top of the feeding port 101 in a sliding mode, the support frames 201 are arranged on the upper end and the lower end of the inner side of the filter tank 2 in a sliding mode, electric push rods 202 are fixedly arranged on the two ends of the top of the inner wall of the support frame 201, filter screens A203 are fixedly arranged between the bottoms of the electric push rods 202, when workers need to soak a large amount of aluminum powder, the workers carry the large amount of aluminum powder to a work place and pull the sealing covers 3 open, after the sealing covers 301 slide out of the sealing grooves 1011, the workers pour the large amount of aluminum powder into the feeding port 101, the large amount of aluminum powder is guided into the filter tank 2 and contacts the surfaces of the filter screens A203, the workers slide the sealing covers 301 at the bottoms of the sealing covers 3 into the sealing grooves 1011, after the top of the feeding port 101 is sealed, the workers open the electric push rods 202 to drive the filter screens A203 to vibrate up and down, the large amount of aluminum powder falls into the filter tank 1 through the filter screens A203, impurities doped in the aluminum powder are remained on the surfaces of the filter screens A203, after the filtering is finished, the filtering, the working personnel open the sealing covers 3, the filter tank 2 is pulled out of the filter tank, and the filter screen 201, and the impurities on the surfaces of the filter screens A203 are removed.

Referring to fig. 1, in the present embodiment: the anti-deposition soaking mechanism consists of a servo motor A4, a rotating rod A401, a stirring blade 402, a scraping plate 403, a water tank 8, a water pump 801 and a water spray head 802;

the other end of the outer wall of the soaking chamber 1 is fixedly provided with a servo motor A4, one end of the outer side of the servo motor A4 is connected with a rotating rod A401 through an output shaft, the outer wall of the rotating rod A401 is fixedly provided with a plurality of stirring blades 402 which are arranged in parallel and in central symmetry, the other end of each stirring blade 402 is fixedly provided with two scraping plates 403 which are arranged in central symmetry, two ends of the top of the inner wall of the soaking chamber 1 are respectively embedded with a plurality of water nozzles 802, the water nozzles 802 are respectively arranged in parallel and in parallel, the top of the fixing frame 104 is fixedly provided with a water tank 8, one end of the top of the water tank 8 is embedded with a water pump 801, and the water pump 801 is connected with the water nozzles 802 through a water pipe, when a large amount of aluminum powder is filtered by the filter screen A203 and then falls to the bottom of the soaking chamber 1, at the moment, a worker opens the water pump 801 to spray water in the water tank 8 into the soaking chamber 1 from the water spray head 802 through the water pipe, so that after the water in the soaking chamber 1 is filled to a half-full state, when soaking treatment is carried out on the large amount of aluminum powder, if the large amount of aluminum powder is deposited at the bottom of the soaking chamber 1, part of the aluminum powder is not completely soaked, the worker opens the servo motor A4 to drive the stirring blade 402 and the scraper 403 on the outer side of the rotating rod A401 to slowly rotate, the stirring blade 402 and the scraper 403 contact with the large amount of aluminum powder when rotating, and push the deposited large amount of aluminum powder to disperse, so that the aluminum powder can be uniformly soaked.

Referring to fig. 1 and 3, in the present embodiment: the spin-drying mechanism consists of a sliding groove 1031, a supporting plate 5, a servo motor B501, a rotating rod B502, a supporting rod 503, a sliding block 504, a screen cylinder 6 and a filter screen B601;

the two ends of the outer wall of the bottom of the shell 103 are fixedly provided with sliding grooves 1031, the bottom of the shell 103 is provided with a supporting plate 5, the two ends of the outer wall of the supporting plate 5 are fixedly provided with supporting rods 503, one end of the top of each supporting rod 503 is fixedly provided with a sliding block 504, the sliding block 504 is arranged at the inner side of the sliding groove 1031 in a matching and sliding manner, the sliding groove 1031 and the sliding block 504 are connected through bolts, the bottom of the supporting plate 5 is fixedly provided with a servo motor B501, the top of the servo motor B501 is connected with a rotating rod B502 through an output shaft, the top of the rotating rod B502 is provided with a screen cylinder 6, the screen cylinder 6 is connected with the rotating rod B502 through bolts, the outer wall of the screen cylinder 6 is fixedly provided with a filter screen B601, after a large amount of aluminum powder is soaked, a worker opens a valve 1021, so that the aluminum powder and the soaked water fall into the screen cylinder 6 through a discharge port 102, at this moment, the worker opens the servo motor B501, the sieve cylinder 6 is driven to rotate, when a large amount of residual moisture of aluminum powder in the sieve cylinder 6 is thrown, a large amount of water is thrown out to the inner wall of the shell 103 through the filter screen B601, and the residual moisture in the aluminum powder is thrown out after the residual moisture falls into the wastewater tank 7, the worker closes the support plate 5, after the bolt between the sieve cylinder 6 and the rotating rod B502 is screwed out, the worker pulls the support plate 5 to drive the sliding block 504 and the sliding groove 1031 at the top of the support rod 503 to expose the sieve cylinder 6, the worker screws out the bolt between the sieve cylinder 6 and the rotating rod B502, after the sieve cylinder 6 is taken down, the worker treats a large amount of aluminum powder in the sieve cylinder 6 and wastewater in the wastewater tank 7.

Referring to fig. 1 and 2, in the present embodiment: the valve 1021, the electric push rod 202, the servo motor A4, the servo motor B501 and the water pump 801 are all electrically connected with an external power supply through a control panel.

Referring to fig. 1, in the present embodiment: the surface material of shell 103 is polyurethane, and because of the polyurethane material has the water absorption rate low, resistant high low temperature's characteristic, can make a large amount of water after soaking rotate at a sieve section of thick bamboo 6, throws away the back with a large amount of water through filter screen B601, and the long-term contact will not make shell 103 wet at the big water of shell 103 surface, can prevent that shell 103 from contacting water for a long time and causing the damage.

As shown in fig. 1, the utility model discloses outside the embodiment that shell 103 surface material is polyurethane, still there is another embodiment, shell 103 surface material is PVC, because of the PVC material has dampproofing, the characteristic that does not absorb water, can make a large amount of water after soaking rotate at a sieve section of thick bamboo 6, throw away a large amount of water through filter screen B601 back, long-term contact will not make shell 103 wet at the large amount of water of shell 103 surface, when can prevent that shell 103 long-term contact water from causing the damage, the PVC material that has corrosion-resistant characteristic, can prevent that shell 103 surface long-term contact liquid from receiving the damage and losing the effect.

When the aluminum powder soaking device for processing anticorrosive paint is used, firstly, when a worker needs to soak a large amount of aluminum powder, the worker carries the large amount of aluminum powder to a work site, and pulls open the sealing cover 3, so that the sealing plate 301 slides out of the sealing groove 1011, the worker pours the large amount of aluminum powder into the material inlet 101, at the moment, the large amount of aluminum powder is guided into the filtering tank 2 and contacts with the surface of the filter screen A203, the worker slides the sealing plate 301 at the bottom of the sealing cover 3 into the sealing groove 1011, after the top of the material inlet 101 is sealed, the worker opens the electric push rod 202 to drive the filter screen A203 to vibrate up and down, so that the large amount of aluminum powder falls into the soaking chamber 1 through the filter screen A203, impurities and the like doped in the aluminum powder are remained on the surface of the filter screen A203, after the filtering is finished, the worker opens the sealing cover 3, and pulls the filtering tank 2 to move out of the material inlet 101, the operator pulls out the support frame 201 to clean up the impurities on the surface of the filter screen A203, then opens the water pump 801 by the operator to spray the water in the water tank 8 into the soaking chamber 1 from the water nozzle 802 through the water pipe, so that the water in the soaking chamber 1 is filled to a half-full state, when soaking a large amount of aluminum powder, if the aluminum powder is deposited at the bottom of the soaking chamber 1 and part of the aluminum powder is not completely soaked, the operator opens the servo motor A4 to drive the stirring blade 402 and the scraping plate 403 outside the rotating rod A401 to slowly rotate, the stirring blade 402 and the scraping plate 403 contact the large amount of aluminum powder when rotating and push the deposited large amount of aluminum powder to be dispersed, so that the aluminum powder can be uniformly soaked, finally, the operator opens the valve 1021 to make the aluminum powder and the soaked water fall into the sieve cylinder 6 through the discharge port 102, at this time, the operator opens the servo motor B501 to drive the sieve cylinder 6 to rotate, when throwing a large amount of the remaining moisture of a large amount of aluminium powders in a sieve section of thick bamboo 6, will make a large amount of water throw away the shell 103 inner wall through filter screen B601, and fall behind in the waste water tank 7, after throwing away remaining moisture in a large amount of aluminium powders, the staff closes backup pad 5, after twisting out the bolt between a sieve section of thick bamboo 6 and dwang B502 again, after the staff stimulates backup pad 5 to drive slider 504 roll-off spout 1031 at bracing piece 503 top and exposes a sieve section of thick bamboo 6, the staff twists out the bolt between a sieve section of thick bamboo 6 and dwang B502, take off sieve section of thick bamboo 6 after, the staff handles a large amount of aluminium powders in a sieve section of thick bamboo 6 and waste water in the waste water tank 7.

The above are only the preferred embodiments of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, a plurality of modifications and improvements can be made, which should also be considered as the protection scope of the present invention, and these will not affect the effect of the present invention and the practicability of the patent.

Claims (6)

1. The utility model provides an aluminium powder soak device for anticorrosive paint processing, includes soak room (1), pan feeding mouth (101), seal groove (1011), discharge gate (102), valve (1021), shell (103), mount (104), sealed lid (3), closing plate (301) and waste water tank (7), soak room (1) outer wall one end fixed mounting has mount (104), soak room (1) top embedding is provided with pan feeding mouth (101), pan feeding mouth (101) top outer wall embedding is provided with seal groove (1011), pan feeding mouth (101) top is provided with sealed lid (3), sealed lid (3) bottom outer wall fixed mounting has closing plate (301), and closing plate (301) agree with the slip and set up at seal groove (1011) inboard, soak room (1) bottom embedding is provided with discharge gate (102), discharge gate (102) top nestification is provided with valve (1021), discharge gate (102) bottom outer wall fixed mounting has shell (103), it is provided with waste water tank (7) near shell (103) bottom to soak room (1) bottom, its characterized in that: an anti-deposition soaking mechanism is arranged in the soaking chamber (1), and a drying mechanism is arranged at the bottom of the shell (103).

2. The aluminum powder soaking device for processing the anticorrosive paint, according to claim 1, is characterized in that: pan feeding mouth (101) top inboard activity is provided with filter tank (2), the equal activity in both ends is provided with support frame (201) about filter tank (2) inboard, the equal fixed mounting in support frame (201) inner wall top both ends has electric putter (202), equal fixed mounting has filter screen A (203) between electric putter (202) bottom.

3. The aluminum powder soaking device for anticorrosive paint processing according to claim 1, characterized in that: the anti-deposition soaking mechanism consists of a servo motor A (4), a rotating rod A (401), a stirring blade (402), a scraping plate (403), a water tank (8), a water pump (801) and a water spray head (802);

soak room (1) outer wall other end fixed mounting and have servo motor A (4), there is dwang A (401) servo motor A (4) outside one end through output shaft connection, dwang A (401) outer wall is provided with stirring leaf (402), stirring leaf (402) have a plurality of, and be the centrosymmetric setting side by side, the equal fixed mounting of stirring leaf (402) other end has scraper blade (403), scraper blade (403) have two, and be the centrosymmetric setting, it is provided with water shower (802) all to soak room (1) inner wall top both ends embedding, water shower (802) have a plurality of, and be the setting side by side, mount (104) top fixed mounting has water tank (8), water tank (8) top one end embedding is provided with water pump (801), and all through water piping connection between water pump (801) and a plurality of water shower (802).

4. The aluminum powder soaking device for anticorrosive paint processing according to claim 1, characterized in that: the spin-drying mechanism consists of a sliding groove (1031), a supporting plate (5), a servo motor B (501), a rotating rod B (502), a supporting rod (503), a sliding block (504), a screen drum (6) and a filter screen B (601);

shell (103) bottom outer wall both ends all are provided with spout (1031), shell (103) bottom is provided with backup pad (5), the equal fixed mounting in backup pad (5) outer wall both ends has bracing piece (503), bracing piece (503) top one end fixed mounting has slider (504), and slider (504) agree with to slide and set up inboard in spout (1031), pass through bolted connection between spout (1031) and slider (504), backup pad (5) bottom is provided with servo motor B (501), there is dwang B (502) at servo motor B (501) top through output shaft connection, dwang B (502) top is provided with a sieve section of thick bamboo (6), and passes through bolted connection between a sieve section of thick bamboo (6) and dwang B (502), sieve section of thick bamboo (6) outer wall fixed mounting has filter screen B (601).

5. The aluminum powder soaking device for anticorrosive paint processing according to claim 1, characterized in that: the outer surface of the shell (103) is made of polyurethane.

6. The aluminum powder soaking device for processing the anticorrosive paint, according to claim 1, is characterized in that: the outer surface of the shell (103) is made of PVC.

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