CN112058520A - Full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal material - Google Patents

Abstract

The invention discloses a full-automatic powder spraying device for a water-soluble fluorocarbon transfer printing simulation metal material, which comprises an equipment frame, an air pipe arranged on an air pump, a powder storage box arranged on the equipment frame, a powder outlet part arranged on the equipment frame, collecting parts symmetrically arranged on the equipment frame and a powder prevention part arranged on the equipment frame, wherein the air pipe is connected with the air pump; the powder discharging part comprises a conveying pipe which is arranged on the equipment frame in a vertically movable manner, a first spring for resetting the conveying pipe, an elastic rod arranged on the conveying pipe, a cylinder with two ends respectively provided with a bending part for pushing the elastic rod, a plurality of spraying guns arranged on the elastic plate, a cleaning assembly arranged on the spraying guns and a quantity control assembly arranged on the conveying pipe; according to the invention, the spraying gun is arranged on the elastic plate, so that the spraying requirement of the concave-convex curved surface can be met, and the cleaning assembly is arranged on the spraying gun, so that the spraying gun can be cleaned conveniently after working, and the blockage is prevented.

Description

Full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal material

Technical Field

The invention belongs to the technical field of automatic spraying, and particularly relates to a full-automatic powder spraying device for a water-soluble fluorocarbon transfer printing simulation metal material.

Background

After the transfer printing is finished, the surface of the transferred pattern needs to be sprayed, because the transferred pattern is curved on the workpiece, an elastic plate needs to be added to meet the spraying of different curved surfaces, because the transferred pattern is only arranged at a part of the workpiece, and the existing automation sprays the whole surface of the workpiece, which wastes redundant powder. In the electrostatic spraying method, the powder with static electricity is also easily adsorbed near the spray head and needs to be cleaned frequently.

Disclosure of Invention

The invention provides a full-automatic powder spraying device for a water-soluble fluorocarbon transfer printing simulation metal material, which can overcome the defects of the prior art and meet different curved surfaces and is easy to clean.

In order to achieve the purpose, the invention adopts the following technical scheme: a full-automatic powder spraying device for a water-soluble fluorocarbon transfer printing simulation metal material comprises an equipment frame, a conveying belt arranged on the equipment frame, an air pump arranged on the equipment frame, an air pipe arranged on the air pump, a powder storage box arranged on the equipment frame, a powder outlet component arranged on the equipment frame, collecting components symmetrically arranged on the equipment frame and a powder prevention component arranged on the equipment frame; the powder discharging component comprises a conveying pipe which is arranged on the equipment frame in a vertically movable mode, a first spring used for resetting the conveying pipe, an elastic rod arranged on the conveying pipe, a cylinder with two ends respectively provided with a bending part used for pushing the elastic rod, a circular ring which is rotatably matched with the equipment frame in an anti-falling mode and used for pushing the elastic rod to bend, a fixing hook arranged on the circular ring, a fixing groove arranged on the elastic rod, a plurality of spraying guns arranged on the elastic plate, a cleaning assembly arranged on the spraying guns and a quantity control assembly arranged on the conveying pipe; the fixing hook can come out of the fixing groove.

When powder spraying is carried out to protruding work piece as required, put protruding work piece on the conveyer belt earlier, the cylinder of elastic rod both sides promotes the elastic rod for the elastic rod both ends are down crooked, make the elastic rod become the form of falling U, then begin to carry out powder spraying to the work piece. When needs carry out the powder spraying to concave work piece, put concave work piece earlier on the transportation area, the cylinder of elastic rod both sides remains motionless, the ring begins to rotate, let the ring push up down crooked in the middle of the elastic rod, make the elastic rod become the U-shaped, then begin to carry out the powder spraying to the work piece, wherein, when the elastic plate is the shape of falling the U, both blocks of fixed hook on the ring and the fixed slot on the elastic plate are in the same place, make keep motionless in the middle of the elastic plate, the cylinder just can let the elastic rod become the shape of falling the U when promoting the elastic plate both ends like this. When the elastic plate needs to be changed into a U shape, the air cylinder is kept still, the circular ring starts to rotate anticlockwise, the circular ring can enable the part of the elastic rod middle part to deform downwards to finally become the U shape in the rotating process, and therefore the spraying requirements of different curved surfaces can be met, the transferred patterns only can appear on partial areas of the workpiece, and only the areas with the partial patterns need to be sprayed, so that materials can be saved. If the workpiece is completely sprayed, powder is wasted, and the protection effect on the transferred pattern is not improved. Because this device is through the mode of electrostatic powder spraying, under the not enough condition of air vent atmospheric pressure, let the powder adsorb on spray gun very easily, only need rotate through the clearance part and just can be unnecessary the powder clearance of adsorbing on spray gun, guarantee the inside unblocked of spray gun, prevent to block up.

The spraying gun comprises an air nozzle connected with the air pipe, an electrostatic generating piece arranged on the air nozzle, a powder cavity arranged on the elastic plate and a powder spraying port connected with the powder cavity.

When the powder spraying device starts to work, the air pump is started, the airflow comes out of the electrostatic generating piece from the three air nozzles through the air pipe to start to generate current, the powder in the powder storage box passes through the powder cavity and comes out of the powder spraying port, the electrostatic generating piece enables the sprayed powder to generate a positive electrode and a negative electrode, the workpiece on the conveying belt is also electrified to generate the positive electrode and the negative electrode, the powder is enabled to be in one-to-one correspondence, the powder is enabled to be adsorbed on the workpiece more easily, the product quality is improved, the working efficiency of the equipment is increased, the powder can be utilized to the maximum degree, most of powder is prevented from being adsorbed on the workpiece due to no magnetism, and a premise is provided.

The cleaning assembly comprises a scraper arranged on the powder spraying port, a first torsion spring for rotating the scraper, a limiting plate arranged on the scraper, a second torsion spring for rotating the limiting plate, and a lug arranged on the air jet and used for resetting the scraper; the first torsion spring can enable the scraper to rotate clockwise; the second torsion spring can enable the limiting plate to rotate anticlockwise; when the scraper blade anticlockwise rotates, the lug can push and pass through the limiting plate.

When powder in the spraying cavity needs to be cleaned, the powder spraying port rotates clockwise, the limiting of the lug on the scraper is weaker and weaker along with the rotation of the powder spraying port, the scraper is gradually unfolded under the action of the first torsion spring, one end of the sliding plate can prop against the outer wall of the air nozzle, and the powder spraying port rotates subsequently, so that the scraper can scrape and clean the powder adsorbed on the outer wall of the air nozzle; when the clearance end after the anticlockwise rotation mouth that dusts, because the limiting plate has laminated with the scraper blade under the effect of second torsional spring, so when pivoted, the lug can push up the scraper blade or push up the limiting plate earlier and then push up the scraper blade through the limiting plate, finally make the scraper blade also laminate the inner wall at the mouth that dusts, because the lug sets up the below at the gas jet outer wall, so can not reduce the injection volume because blockking of lug when the powder comes out, and push up the scraper blade when the lug and can let the scraper blade laminate completely on the inner wall of mouth that dusts, also can not come out from the mouth that dusts to cause the influence to the powder, it is laborsaving to save time, only need simple operation just can clear up the inner wall, do not need extra instrument just to clear up, thereby the cost performance of equipment has been improved.

Accuse volume subassembly is including locating first dogtooth on the ring, locate on the conveyer pipe and with first dogtooth engaged with first gear, locate on the conveyer pipe and with first gear engagement's second gear, locate on the second gear and one end rotationally wears to establish bull stick, symmetry on the conveyer pipe are located arc piece on the bull stick, locate on the arc piece and can be strutted by the arc piece elastic block.

When going out the powder part and carrying out the spraying to convex work piece, the elastic plate is the shape of falling the U, so the powder chamber of elastic plate inner wall also is the shape of falling the U, and the powder can let partial powder come out from the spray gun at elastic plate both ends under the circular arc effect on elastic block top after coming down from the conveyer pipe, finally lets the play powder volume in the three spray chamber reach even ejection of compact. When the powder outlet component sprays the concave workpiece, the elastic plate is U-shaped, so that a powder cavity on the inner wall of the elastic plate is also U-shaped, if the quantity is not controlled, a large amount of powder can only come out from the middle spraying cavity due to inertia, and the effect of uniform spraying cannot be achieved, therefore, when the ring rotates to enable the elastic plate to be U-shaped, the ring rotates anticlockwise to drive the first gear to rotate clockwise, the first gear drives the second gear to rotate anticlockwise, so that the arc-shaped block on the rotating rod also starts to rotate anticlockwise, as the arc-shaped blocks are symmetrically arranged, one end of each arc-shaped block is small, the other end of each arc-shaped block is large, the diameters of the arc-shaped blocks are gradually increased, the arc-shaped blocks can easily rotate at the beginning, and the elastic piece can be spread when the elastic plate is finally changed into the U-shaped, the elastic blocks can be spread, and excessive powder is prevented from directly coming out from the middle spraying gun, the negative pressure of the air nozzles at the two ends can ensure that the powder can uniformly come out from each powder spraying opening when the elastic plate is changed into a U shape, and finally the quality of a finished product of the workpiece is improved.

The collecting component comprises a collecting rod which is rotatably arranged on the conveying belt, an upper roller which is arranged on the collecting rod, a collecting cavity which is arranged on the collecting rod, a plurality of collecting ports which are linearly distributed along the collecting rod and are communicated with the collecting cavity, a collecting box, a collecting pipe, a collecting pump and a second spring, wherein the two ends of the collecting pipe are respectively communicated with the collecting cavity and the collecting box, the collecting pump is arranged on the collecting pipe, and the second spring is used for resetting the collecting rod.

The powder spraying can adsorb most of powder on a workpiece in an electrostatic mode, but part of the powder can remain, redundant powder can fall on a conveying belt under the action of gravity, the powder on the conveying belt can be effectively collected through a collecting rod, the collecting rod is rotatable, when the sprayed workpiece is met, the workpiece can prop against the collecting rod, the collecting rod can be tightly attached to the workpiece in other words, the redundant powder on the conveying belt is sucked away, a roller below the collecting rod can have a supporting function on the collecting rod, the phenomenon that the conveying belt increases friction force due to the fact that the conveying belt and the collecting rod are in contact with each other due to the fact that a surface body is too large in the moving process is prevented, the roller has a supporting function on the collecting rod, a tiny gap can be formed between the collecting rod and the conveying belt, and air can circulate through the gap on one hand, the range of the suction force is wider, on the other hand, the suction force is always kept, so that the collecting rod has the suction force for transportation, the collecting rod cannot move up and down, powder adsorbed on a workpiece is prevented from being scraped, and the quality of a finished workpiece product is indirectly improved.

The powder-proof component comprises a second convex tooth arranged at one end of the collecting rod, a rack meshed with the second gear, a third gear meshed with the rack and powder-proof cloth arranged on the third gear; the pitch circle of the third gear is smaller than that of the second convex tooth.

When the conveying rod rotates, the fact that one workpiece is sprayed is shown, the anti-powder cloth and the collecting rod can move synchronously through the matching between the rack and the gear, and the pitch circle of the third gear is smaller than that of the second convex tooth, so that the rotating amplitude of the anti-powder cloth is slightly larger than that of the collecting rod in the rotating process, and the anti-powder cloth can be prevented from scraping powder on the sprayed workpiece. And the powder can be prevented from coming out of the whole equipment when the workpiece is sprayed, so that the pollution of the powder to the air is reduced.

In summary, the invention has the following advantages: through set up the spray gun on the elastic plate, can satisfy the spraying requirement of unsmooth curved surface to be equipped with the clearance subassembly on the spray gun, can conveniently clear up the spray gun after work, prevent to block up.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a cross-sectional perspective view of fig. 2 taken along a-a.

Fig. 5 is a cross-sectional view taken along B-B of fig. 3.

Fig. 6 is a cross-sectional view taken along line C-C of fig. 3.

Fig. 7 is a cross-sectional view taken along line D-D of fig. 2.

Fig. 8 is a partial cross-sectional view of a powder outlet member of the present invention.

Fig. 9 is an enlarged view of a portion a in fig. 4.

Fig. 10 is an enlarged view at B in fig. 5.

Fig. 11 is an enlarged view at C in fig. 8.

Fig. 12 is an enlarged view at D in fig. 4.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1-12, a full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal materials comprises an equipment frame 1, a conveying belt 11, an air pump 12, an air pipe 13, a powder storage box 14, a powder discharging component 2, a collecting component 6, a powder preventing component 7, a conveying pipe 21, a first spring 22, an elastic rod 23, an air cylinder 24, a ring 25, a fixing hook 26, a fixing groove 27, a plurality of spraying guns 3, a cleaning component 4 and a quantity control component 5; the conveying belt 11 is arranged on the equipment frame 1, the air pump 12 is arranged on the equipment frame 1, the air pipe 13 is arranged on the air pump 12, the powder storage box 14 is arranged on the equipment frame 1, the powder discharging part 2 is arranged on the equipment frame 1, the collecting part 6 is symmetrically arranged on the equipment frame 1, the powder preventing part 7 is arranged on the equipment frame 1, the conveying pipe 21 is arranged on the equipment frame 1 in a vertically movable manner, the first spring 22 is used for resetting the conveying pipe 21, the elastic rod 23 is arranged on the conveying pipe 21, two ends of the air cylinder 24 are respectively provided with a bending part which can be used for pushing the elastic rod 23, the circular ring 25 can rotatably prevent falling off and is matched with the equipment frame 1 for pushing the elastic rod 23 to bend, the fixing hook 26 is arranged on the circular ring 25, the fixing groove 27 is arranged on the elastic rod 23, a plurality of spraying guns 3 are fixedly arranged on the elastic plate, the cleaning assembly 4 is arranged on the spraying gun 3, and the quantity; the fixing hook 26 can come out of the fixing groove 27.

As shown in fig. 6 and 8, the spray gun 3 includes an air nozzle 31, an electrostatic generator 32, a powder chamber 33, and a powder spraying port 34; the air nozzle 31 is connected with the air pipe 13, the static electricity generating piece 32 is arranged on the air nozzle 31, the powder cavity 33 is arranged on the elastic plate, and the powder spraying port 34 is connected with the powder cavity 33.

As shown in fig. 11, the cleaning assembly 4 includes a scraper 41, a first torsion spring 42, a limiting plate 43, a second torsion spring 44, and a protrusion 45; the scraper 41 is arranged on the powder spraying port 34, the first torsion spring 42 enables the scraper 41 to rotate, the limiting plate 43 is arranged on the scraper 41, the second torsion spring 44 enables the limiting plate 43 to rotate, and the bump 45 is arranged on the gas spraying port 31 and used for resetting the scraper 41; the first torsion spring 42 can enable the scraper 41 to rotate clockwise; the second torsion spring 44 can enable the limit plate 43 to rotate anticlockwise; the protrusion 45 pushes and passes through the limit plate 43 when the scraper 41 rotates counterclockwise.

As shown in fig. 9 and 11, the quantity control assembly 5 includes a first convex tooth 51, a first gear 52, a second gear 53, a rotating rod 54, an arc-shaped block 55, and an elastic block 56; first dogtooth 51 is located on the ring 25, first gear 52 is located on the conveyer pipe 21 and with first dogtooth 51 meshes mutually, and second gear 53 is located on the conveyer pipe 21 and with first gear 52 meshes, bull stick 54 is located on second gear 53 and one end is rotationally worn to establish on the conveyer pipe 21, and the arc piece 55 symmetry is located on the bull stick 54, and the elastic block 56 is located on the arc piece 55 and can be strutted by the arc piece 55.

As shown in fig. 5 and 12, the collecting member 6 comprises a collecting rod 61, a roller 62, a collecting chamber 63, a plurality of collecting ports 64, a collecting tank 65, a collecting pipe 66, a collecting pump 67, and a second spring 68; the collecting rod 61 is rotatably arranged on the conveying belt 11, the roller 62 is arranged on the collecting rod 61, the collecting cavity 63 is arranged on the collecting rod 61, the collecting ports 64 are linearly distributed along the collecting rod 61 and are communicated with the collecting cavity 63, two ends of the collecting tube 66 are respectively communicated with the collecting cavity 63 and the collecting box 65, the collecting pump 67 is arranged on the collecting tube 66, and the second spring 68 is used for resetting the collecting rod 61.

As shown in fig. 7, the powder-proof component 7 comprises a second convex tooth 71, a rack 72, a third gear 73 and a powder-proof cloth 74; the second convex tooth 71 is arranged at one end of the collecting rod 61, the rack 72 is meshed with the second gear 53, the third gear 73 is meshed with the rack 72, and the powder-proof cloth 74 is arranged on the third gear 73; the pitch circle of the third gear 73 is smaller than that of the second convex tooth 71.

The specific working process is as follows:

firstly, convex workpieces are placed on the conveyer belt 11, the air cylinders 24 on two sides of the elastic rod 23 push the elastic rod 23, two ends of the elastic rod 23 are bent downwards, the elastic rod 23 is changed into an inverted U shape, then powder spraying is carried out on the workpieces, redundant powder can be on the conveyer belt 11 after the powder is coated, and the powder can be collected on the collecting box 65 by the collecting rod 61 in the moving process of the conveyer belt 11.

Secondly, the concave workpiece is placed on the conveyer belt 11, the air cylinders 24 on the two sides of the elastic rod 23 are kept still, the circular ring 25 starts to rotate, the circular ring 25 is enabled to bend downwards against the middle of the elastic rod 23, the elastic rod 23 is enabled to be U-shaped, then powder spraying is carried out on the workpiece, the coated redundant powder is on the conveyer belt 11, and the powder is collected on the collection box 65 by the collection rod 61 in the moving process of the conveyer belt 11.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. A full-automatic powder spraying device for a water-soluble fluorocarbon transfer printing simulation metal material comprises an equipment frame (1), a conveying belt (11) arranged on the equipment frame (1), an air pump (12) arranged on the equipment frame (1), an air pipe (13) arranged on the air pump (12), a powder storage box (14) arranged on the equipment frame (1), a powder discharging part (2) arranged on the equipment frame (1), collecting parts (6) symmetrically arranged on the equipment frame (1), and a powder preventing part (7) arranged on the equipment frame (1); the method is characterized in that: the powder discharging component (2) comprises a conveying pipe (21) which is arranged on the equipment frame (1) in a vertically movable mode, a first spring (22) used for resetting the conveying pipe (21), an elastic rod (23) arranged on the conveying pipe (21), a cylinder (24) with two ends respectively provided with the elastic rod (23) and used for pushing the elastic rod (23) to bend, a circular ring (25) which is rotatably matched with the equipment frame (1) in an anti-falling mode and used for pushing the elastic rod (23) to bend, a fixing hook (26) arranged on the circular ring (25), a fixing groove (27) arranged on the elastic rod (23), a plurality of spraying guns (3) arranged on the elastic plate, a cleaning component (4) arranged on the spraying guns (3), and a quantity control component (5) arranged on the conveying pipe (21); the fixing hook (26) can come out of the fixing groove (27).

2. The full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal materials according to claim 1, characterized in that: the spraying gun (3) comprises an air nozzle (31) connected with the air pipe (13), a static electricity generating piece (32) arranged on the air nozzle (31), a powder cavity (33) arranged on the elastic plate and a powder spraying port (34) connected with the powder cavity (33).

3. The full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal materials according to claim 1, characterized in that: the cleaning assembly (4) comprises a scraper (41) arranged on the powder spraying port (34), a first torsion spring (42) allowing the scraper (41) to rotate, a limiting plate (43) arranged on the scraper (41), a second torsion spring (44) allowing the limiting plate (43) to rotate, and a bump (45) arranged on the air injection port (31) and used for resetting the scraper (41); the first torsion spring (42) can enable the scraper (41) to rotate clockwise; the second torsion spring (44) can enable the limiting plate (43) to rotate anticlockwise; the lug (45) can push and pass through the limit plate (43) when the scraper (41) rotates anticlockwise.

4. The full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal materials according to claim 1, characterized in that: accuse volume subassembly (5) is including locating first dogtooth (51) on ring (25), locate on conveyer pipe (21) and with first dogtooth (51) engaged with first gear (52), locate on conveyer pipe (21) and with second gear (53) of first gear (52) meshing, locate on second gear (53) and one end rotationally wears to establish bull stick (54) on conveyer pipe (21), symmetry are located arc piece (55) on bull stick (54), locate on arc piece (55) and can be strutted by arc piece (55) elastic block (56).

5. The full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal materials according to claim 1, characterized in that: the collecting component (6) comprises a collecting rod (61) rotatably arranged on the conveying belt (11), an upper roller (62) arranged on the collecting rod (61), a collecting cavity (63) arranged on the collecting rod (61), a plurality of collecting ports (64) which are linearly distributed along the collecting rod (61) and communicated with the collecting cavity (63), a collecting box (65), a collecting pipe (66) with two ends respectively communicated with the collecting cavity (63) and the collecting box (65), a collecting pump (67) arranged on the collecting pipe (66), and a second spring (68) used for resetting the collecting rod (61).

6. The full-automatic powder spraying device for water-soluble fluorocarbon transfer printing simulation metal materials according to claim 1, characterized in that: the powder-proof component (7) comprises a second convex tooth (71) arranged at one end of the collecting rod (61) and a powder-proof cloth (74) arranged on the third gear (73) meshed with the second gear (53); the pitch circle of the third gear (73) is smaller than that of the second convex tooth (71).

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