CN112853241B - Detachable self-moving type galvanization pool scum processor - Google Patents

Abstract

The invention relates to a scum processor, in particular to a detachable self-moving type galvanized pool scum processor. The scum processor of the detachable self-moving galvanized pool, which can realize automatic salvage, time saving and labor saving, is provided. The scum processor comprises a mounting plate and a servo motor, wherein one side of the top of the mounting plate is connected with the servo motor; the gear box is connected with one side, close to the servo motor, of the top of the mounting plate, penetrates through the mounting plate, and an output shaft of the servo motor is connected with the gear box; and the gear box penetrates through the mounting plate to be connected with the moving mechanism. Through the cooperation between servo motor, gear box, moving mechanism and the liquid level following mechanism, can make this equipment automatic left-hand movement on the galvanizing bath, can drag for the dross on galvanizing bath surface simultaneously, need not the manual work like this and use fishing tool to drag for it, can improve people's work efficiency.

Description

Detachable self-moving type galvanization pool scum processor

Technical Field

The invention relates to a scum processor, in particular to a detachable self-moving type galvanized pool scum processor.

Background

The development of industry is continuously strong at present, and parts of machinery are more diversified, so that the appearance of the parts of machinery is more attractive, and workers can sample the galvanization technology to beautify the appearance of the parts of machinery. The galvanizing technology has the effect of beautifying, because most of mechanical parts are made of iron or copper, the parts made of the materials are oxidized due to weather, in overcast and rainy weather, the weather is moist, if the parts made of the materials are stacked together, the parts are not taken out and are ventilated and aired, the outer walls of the parts made of the materials are oxidized for a long time, and then the protective film of the outer walls of the parts is damaged and is easy to rust. Once the parts rust, the attractiveness of the parts is affected, sales are affected, and meanwhile, the value of the parts is devaluated, so that factory cost is increased.

The existing galvanization technology is perfect, the main method is hot galvanizing, because zinc is easy to dissolve in acid and alkali, so it is called amphoteric metal, the surface of the mechanical parts is plated with a layer of zinc, and zinc hardly changes in dry air. In moist air, a compact basic zinc carbonate film is formed on the surface of zinc, so that a protective film is formed on the appearance of mechanical parts. At present, the galvanizing is carried out by adopting a galvanizing tank, after the galvanizing is finished by putting mechanical parts into the galvanizing tank, the outer wall of the mechanical parts is provided with residues, the residues can fall into the galvanizing tank, so that the galvanizing tank can generate bubbles which can influence the quality of the galvanizing, the residues in the galvanizing tank are required to be taken out manually, and people usually use a salvaging tool to take out the residues.

Disclosure of Invention

In order to overcome the defects that the existing salvaging tool is used for salvaging residues, the method is time-consuming and labor-consuming and can salvage unclean, the technical problem of the invention is that: the scum processor of the detachable self-moving galvanized pool, which can realize automatic salvage, time saving and labor saving, is provided.

A removable self-moving zinc bath dross processor, comprising:

the device comprises a mounting plate and a servo motor, wherein one side of the top of the mounting plate is connected with the servo motor;

the gear box is connected with one side, close to the servo motor, of the top of the mounting plate, penetrates through the mounting plate, and an output shaft of the servo motor is connected with the gear box;

the gear box penetrates through the mounting plate to be connected with the moving mechanism;

the liquid level following mechanism is connected with the left side of the top of the mounting plate.

Further described, the moving mechanism comprises:

the first rubber grooved wheels are rotationally connected with the two sides of the bottom of the mounting plate;

a rotating shaft is connected between the first rubber grooved wheels, and the middle part of the rotating shaft is connected with the gear box;

and the two sides of the bottom of the mounting plate, which are far away from the first rubber sheave, are rotationally connected with the second rubber sheave for moving.

Further described, the liquid level following mechanism comprises:

the cantilever is connected with two sides of the top of the mounting plate;

the guide sleeves are connected with the cantilevers;

the guide sleeves are all connected with the guide rods in a sliding manner;

the filter screen is connected between the bottoms of the guide rods and used for salvaging scum;

the side part of the filter screen is connected with a baffle;

the side part of the filter screen is connected with the buoyancy tank.

Further, the utility model also comprises a lifting mechanism, which comprises:

the fixing seats are connected to the two sides, close to the cantilever, of the top of the mounting plate and are positioned on the two sides of the cantilever;

square hole sleeves are connected to the tops of the fixing seats;

square rods are connected in the square hole sleeves in a sliding mode;

the side parts of the square rods are provided with grooves, and the bottoms of one sides of the square rods are connected with the contact rods;

the side, far away from the contact rod, of the square rod is slidably connected with a sliding sleeve;

the sliding sleeve is connected with the square rod at the same side, and the square rod is sleeved with the first spring;

the wire guide wheels are rotatably connected between the inner side of the fixed seat and the cantilevers at the same side;

pull ropes are connected between the side parts of the sliding sleeve and the two sides of the top of the filter screen, and the pull ropes bypass the wire guide wheels on the same side;

ejector rods are connected to two sides of the top of the filter screen, and are in extrusion fit with grooves on the same side.

Further, still including laminating mechanism, laminating mechanism is including:

the guide rods are connected to the two sides of the top of the filter screen;

the guide rods are connected with the guide tubes in a sliding manner;

the second springs are connected between the inner side of the guide tube and the outer side of the top of the filter screen, and are sleeved on the outer side of the guide rod;

the bottom of the guide tube is connected with the screen plate.

Further, the anti-offset mechanism comprises:

the two sides of the mounting plate are connected with the rotating rods;

the rotary rods are all rotationally connected with the rotary drum.

Compared with the prior art, the invention has the following advantages: 1. through the cooperation between servo motor, gear box, moving mechanism and the liquid level following mechanism, can make this equipment automatic left-hand movement on the galvanizing bath, can drag for the dross on galvanizing bath surface simultaneously, need not the manual work like this and use fishing tool to drag for it, can improve people's work efficiency.

2. Through the cooperation of lifting mechanism, people need manual dross that will salvage to take out, and lifting mechanism can realize automatic upwards drag for it, saves the labour, and laminating mechanism can be with the whole fishing up of dross to the dross spills, and the cylinder can assist this equipment to remove, can play the effect of preventing the deviation simultaneously.

Drawings

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

Fig. 2 is a schematic perspective view of the mounting plate, servo motor, gearbox and moving mechanism of the present invention.

Fig. 3 is a schematic perspective view of the liquid level following mechanism, lifting mechanism and anti-offset mechanism of the present invention.

Fig. 4 is a schematic perspective view of the liquid level following mechanism and the attaching mechanism of the present invention.

The reference symbols in the drawings: 1: mounting plate, 2: servo motor, 3: gearbox, 4: movement mechanism, 41: rotating shaft, 42: primary rubber sheave, 43: second rubber sheave, 5: liquid level following mechanism, 51: cantilever, 52: guide sleeve, 53: guide bar, 54: filter screen, 55: baffle, 56: buoyancy tank, 6: lifting mechanism, 61: fixing base, 62: square hole sleeve, 63: square bar, 64: groove, 65: contact lever, 66: first spring, 67: sliding sleeve, 68: stay cord, 69: wire guide wheel, 610: ejector rod, 7: laminating mechanism, 71: guide bar, 72: second spring, 73: guide tube, 74: screen plate, 8: anti-offset mechanism, 81: and (3) rotating rod, 82: and a roller.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Example 1

The utility model provides a can dismantle from portable zinc-plating pond dross processor, as shown in fig. 1-2, including mounting panel 1, servo motor 2, gear box 3, moving mechanism 4 and liquid level following mechanism 5, mounting panel 1 top right side middle part is connected with servo motor 2, and mounting panel 1 top right side front portion is connected with gear box 3, and gear box 3 passes mounting panel 1, and servo motor 2 output shaft is connected with gear box 3, and mounting panel 1 bottom is connected with moving mechanism 4, and gear box 3 passes mounting panel 1 and is connected with moving mechanism 4, and mounting panel 1 top left side is connected with liquid level following mechanism 5.

When people need to drag up the dross in the galvanizing bath, the equipment is placed on the galvanizing bath, then the servo motor 2 is started, the output shaft of the servo motor 2 rotates to drive the gear box 3 to rotate, the part of the moving mechanism 4 drives the equipment to move leftwards, meanwhile, the liquid level following mechanism 5 drags up the dross, after the completion, the servo motor 2 is closed, and the device is taken out.

Example 2

On the basis of embodiment 1, as shown in fig. 1-2, the moving mechanism 4 comprises a rotating shaft 41, a first rubber sheave 42 and a second rubber sheave 43, wherein the front side and the rear side of the bottom of the right side of the mounting plate 1 are respectively connected with the first rubber sheave 42 in a rotating way, the rotating shaft 41 is connected between the first rubber sheaves 42, the middle part of the rotating shaft 41 is connected with the gear box 3, and the front side and the rear side of the bottom of the left side of the mounting plate 1 are respectively connected with the second rubber sheave 43 in a rotating way.

People clamp the first rubber grooved pulley 42 and the second rubber grooved pulley 43 at the top of the galvanizing pool respectively, and the output shaft of the servo motor 2 rotates to drive the rotating shaft 41, the first rubber grooved pulley 42 and the second rubber grooved pulley 43 to move leftwards, so that the device can move.

The liquid level following mechanism 5 comprises a cantilever 51, a guide sleeve 52, a guide rod 53, a filter screen 54, a baffle 55 and a buoyancy tank 56, wherein the cantilever 51 is connected to the front side and the rear side of the top of the left side of the mounting plate 1, the guide sleeve 52 is connected to the left side of the cantilever 51, the guide rod 53 is connected to the guide sleeve 52 in a sliding manner, the filter screen 54 is connected between the bottoms of the guide rods 53, the baffle 55 is connected to the lower portion of the left side of the filter screen 54, and the buoyancy tank 56 is connected to the upper portion of the right side of the filter screen 54.

After the equipment is placed, the filter screen 54 and the baffle plate 55 enter galvanized water, the filter screen 54, the baffle plate 55 and the guide rod 53 move upwards under the action of the buoyancy tank 56, the lower part of the filter screen 54 and the baffle plate 55 are positioned in the galvanized water, and the upper part of the filter screen 54 is positioned above the galvanized water, so that when the equipment moves leftwards, the guide rod 53, the filter screen 54 and the baffle plate 55 are driven to move leftwards, scum is fished up, and after the completion of the scum is taken off, the scum is removed.

Example 3

Based on embodiment 2, as shown in fig. 3-4, the lifting mechanism 6 is further included, the lifting mechanism 6 includes a fixing base 61, a square hole sleeve 62, a square rod 63, a contact rod 65, a first spring 66, a sliding sleeve 67, a pull rope 68, a wire guide wheel 69 and a push rod 610, both sides are all connected with the fixing base 61 around the left side top of the mounting plate 1, the fixing base 61 is located on both sides around the cantilever 51, the top of the fixing base 61 is all connected with the square hole sleeve 62, the square rod 63 is all connected with the square rod 63 in a sliding manner, grooves 64 are all opened in the left side of the square rod 63, the bottom of the left side of the square rod 63 is all connected with the contact rod 65, the right side of the square rod 63 is all connected with the sliding sleeve 67, a first spring 66 is all sleeved outside the square rod 63, all the rotating wire guide wheel 69 is connected between the inner side of the fixing base 61 and the cantilever 51 on the same side, both sides around the top of the filter screen 54 are all connected with the pull rope 68, and the 68 all around the wire guide wheel 69 on the same side, both sides around the top of the filter screen 54 are all connected with the push rod 610, and the filter screen 610 is all matched with the grooves.

When the device moves leftwards to enable the contact rod 65 to be attached to the inner left wall of the galvanizing bath, the square rod 63 and the contact rod 65 are driven to move rightwards, the square rod 63 is propped against the ejector rod 610, so that the ejector rod 610 cannot move upwards, the sliding sleeve 67 is kept motionless, the first spring 66 is stretched, when the square rod 63 moves rightwards to enable the groove 64 to be attached to the ejector rod 610, at the moment, under the pulling force of the second spring 72, the sliding sleeve 67 moves rightwards, the pull rope 68 pulls the filter screen 54 and the ejector rod 610 to move upwards, the filter screen 54 can be enabled to take out scum, then the device is taken out, the ejector rod 610 is poked inwards, the ejector rod 610 is driven to move downwards under the gravity of the filter screen 54, and the sliding sleeve 67, the first spring 66, the square rod 63, the groove 64 and the contact rod 65 can be reset leftwards under the action of the pull rope 68.

Still including laminating mechanism 7, laminating mechanism 7 is including guide bar 71, second spring 72, stand pipe 73 and otter board 74, and both sides all are connected with the guide bar 71 around the filter screen 54 top, all are connected with stand pipe 73 on the guide bar 71 in the slip type, all are connected with second spring 72 between stand pipe 73 inboard and the filter screen 54 top outside, and second spring 72 all overlaps in the guide bar 71 outside, and the stand pipe 73 bottom all is connected with otter board 74.

Before placing the filter screen 54 into the galvanizing bath, people firstly stir the guide pipe 73 and the screen plate 74 inwards respectively to enable the second spring 72 to be compressed, then placing the filter screen 54, the guide pipe 73 and the screen plate 74 into the galvanizing bath, and under the action of the second spring 72, both the guide pipe 73 and the screen plate 74 move outwards to enable the screen plate 74 to be attached to the galvanizing bath, so that the filter screen 54, the guide pipe 73 and the screen plate 74 can be driven to move in the process of moving the device, and scum can be fished up completely to avoid scum leakage.

The anti-deflection mechanism 8 comprises a rotating rod 81 and a roller 82, wherein the rotating rod 81 is connected to the left side of the mounting plate 1 in front and back, and the roller 82 is connected to the rotating rod 81 in a rotary mode.

After placing this equipment for cylinder 82 and galvanization pond lateral wall laminating, when this equipment removes, can drive cylinder 82 and rotate, can assist this equipment to remove, can play the effect of preventing the off-set simultaneously.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (5)

1. A removable self-moving zinc bath dross processor, comprising:

the device comprises a mounting plate (1) and a servo motor (2), wherein one side of the top of the mounting plate (1) is connected with the servo motor (2);

the gear box (3) is connected with one side, close to the servo motor (2), of the top of the mounting plate (1), the gear box (3) penetrates through the mounting plate (1), and an output shaft of the servo motor (2) is connected with the gear box (3);

the bottom of the mounting plate (1) is connected with the moving mechanism (4), and the gear box (3) penetrates through the mounting plate (1) to be connected with the moving mechanism (4);

the liquid level following mechanism (5) is connected with the left side of the top of the mounting plate (1);

the moving mechanism (4) comprises:

the first rubber sheaves (42) are rotatably connected with the two sides of the bottom of the mounting plate (1) respectively, and the first rubber sheaves (42) are used for moving;

a rotating shaft (41) is connected between the first rubber grooved wheels (42), and the middle part of the rotating shaft (41) is connected with the gear box (3);

the second rubber grooved wheels (43) are rotatably connected with the second rubber grooved wheels (43) for moving at two sides of the bottom of the mounting plate (1) far away from the first rubber grooved wheels (42);

the liquid level following mechanism (5) comprises:

cantilever (51), cantilever (51) are connected to both sides of the top of mounting plate (1);

the guide sleeves (52), and the cantilevers (51) are connected with the guide sleeves (52);

the guide rods (53) are connected with the guide sleeves (52) in a sliding manner;

a filter screen (54), wherein a filter screen (54) for salvaging scum is connected between the bottoms of the guide rods (53);

the baffle (55), the lateral part of the filter screen (54) is connected with the baffle (55);

the side part of the filter screen (54) is connected with the buoyancy tank (56);

the lifting mechanism (6) is further included, and the lifting mechanism (6) comprises:

the fixing seats (61) are connected to the two sides, close to the cantilever (51), of the top of the mounting plate (1), and the fixing seats (61) are located on the two sides of the cantilever (51);

square hole sleeves (62), the tops of the fixing seats (61) are connected with the square hole sleeves (62);

square rods (63), square rods (63) are connected in the square hole sleeves (62) in a sliding mode;

the side parts of the square rods (63) are provided with grooves (64), and the bottoms of one sides of the square rods (63) are connected with the contact rods (65);

the sliding sleeve (67) is connected with the sliding sleeve (67) in a sliding manner on one side of the square rod (63) far away from the contact rod (65);

the first springs (66) are connected between the sliding sleeve (67) and the square rods (63) on the same side, and the first springs (66) are sleeved on the outer sides of the square rods (63);

the wire guide wheel (69) is rotatably connected between the inner side of the fixed seat (61) and the cantilever (51) at the same side;

a pull rope (68) is connected between the side part of the sliding sleeve (67) and the two sides of the top of the filter screen (54), and the pull rope (68) bypasses the wire guide wheel (69) on the same side;

the ejector rods (610) are connected to two sides of the top of the filter screen (54), and the ejector rods (610) are in extrusion fit with the grooves (64) on the same side.

2. The removable self-moving type zinc-plating bath dross handler of claim 1, further comprising a bonding mechanism (7), wherein the bonding mechanism (7) comprises:

the guide rods (71) are connected to the two sides of the top of the filter screen (54);

the guide pipes (73) are connected with the guide rods (71) in a sliding manner;

the second springs (72) are connected between the inner side of the guide tube (73) and the outer side of the top of the filter screen (54), and the second springs (72) are sleeved on the outer side of the guide rod (71);

the bottom of the guide pipe (73) is connected with the screen plate (74).

3. The removable self-moving zinc bath dross handler of claim 2, further comprising an anti-migration mechanism (8), wherein the anti-migration mechanism (8) comprises:

the rotating rods (81) are connected with the two sides of the mounting plate (1);

the rotary rods (81) are rotatably connected with the rotary cylinders (82).

4. A removable self-moving zinc bath dross handler according to claim 3, characterized in that the drum (82) is cylindrical in shape.

5. The removable self-moving type zinc-plating bath dross handler of claim 4, wherein the filter screen (54) is uniformly grooved.