CN209904208U - Characteristic particle powder suction head - Google Patents

Abstract

The utility model discloses a characteristic particle powder suction head, which comprises a suction head body, wherein the bottom of the suction head body is provided with a net-shaped component, and the suction head further comprises a buckle cover, the buckle cover is movably connected with the bottom of the suction head body, and the bottom surface of the buckle cover is provided with a shape opening; the reticular component is positioned between the buckle cover and the suction head body; when the characteristic particles are sucked, the characteristic particles are blocked by the net-shaped component or the net plate, namely the characteristic particles are attached to the net-shaped component or the net plate, and in order to obtain the required specific shape, different shape openings or shapes are arranged to solve the problem.

Description

Characteristic particle powder suction head

Technical Field

The utility model relates to a head is absorb to characteristic particulate matter powder.

Background

The anti-counterfeiting printed matter is rich in types, and the anti-counterfeiting printed matter is a product which is novel at present and is used for identifying characteristic particles (a 2) by spraying or scattering on the printed matter body, as shown in figure 1. The traditional mode for manufacturing the product is generally obtained by spraying on a glue material, and the problem of particle overlapping and area irregularity cannot be solved by the mode; at present, only the equipment is available on the market, and the problem can be solved through the idea of transfer printing, namely, the characteristic particles are firstly homogenized and then transferred to the adhesive material to form the anti-counterfeiting printed matter, but the problem is how to transfer the anti-counterfeiting printed matter stably and in shape by using the suction head during transfer printing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above shortcoming, provide a head is absorb to characteristic particulate matter powder.

In order to achieve the above purpose, the specific scheme of the utility model is as follows: a characteristic particle powder suction head comprises a suction head body, a reticular component and a buckle cover, wherein the bottom of the suction head body is provided with the reticular component; the reticular component is positioned between the buckle cover and the suction head body.

Wherein, the reticular component is a gauze or a mesh plate with small holes.

Wherein, netted subassembly is equipped with the gauze including a solid fixed ring in the solid fixed ring.

Wherein the shape opening is square, triangular, rhombic, circular or elliptical.

A characteristic particle powder suction head comprises a suction head body, wherein the bottom of the suction head body is movably connected with a buckle cover, a shape opening is formed in the buckle cover, and a screen plate or a gauze is arranged in the shape opening.

Wherein, the mesh plate is a plate with small holes.

Wherein the shape opening is square, triangular, rhombic, circular or elliptical.

A characteristic particle powder suction head comprises a suction head body, wherein the bottom of the suction head body is movably connected with a buckle cover, a shape opening is formed in the buckle cover, and a gauze or a screen plate is attached to the bottom of the buckle cover.

A characteristic particle powder suction head comprises a suction head body, wherein the bottom of the suction head body is movably connected with a net-shaped component, the net-shaped component is a gauze or a mesh plate with small holes, the net-shaped component is divided into a breathable area and a non-breathable area, and a coating for preventing breathability is coated on the non-breathable area.

The utility model has the advantages that: when the characteristic particles are sucked, the characteristic particles are blocked by the net-shaped component or the net plate, namely the characteristic particles are attached to the net-shaped component or the net plate, and in order to obtain the required specific shape, different shape openings or shapes are arranged to solve the problem.

Drawings

Fig. 1 is a schematic view of a security print according to the present invention;

FIG. 2 is a schematic structural diagram of an apparatus for producing an anti-counterfeit printed matter according to the present invention;

fig. 3 is a perspective view of embodiment 1 of the present invention;

fig. 4 is an exploded view of embodiment 1 of the present invention;

fig. 5 is a perspective view of embodiment 2 of the present invention;

fig. 6 is a perspective view of embodiment 4 of the present invention;

the reference numerals in fig. 1 to 6 illustrate:

a 1-security print; a 2-characteristic particulate matter;

b 1-suction head body; b 2-mesh component; b 3-snap closure; b 4-shape port;

c 1-orifice plate; c 2-cleaning device; c 3-suction head; c 4-shock generator; c 5-transfer pad; c 6-bottom plate.

Detailed Description

The following detailed description of the present invention, taken in conjunction with the accompanying drawings and specific examples, is not intended to limit the scope of the invention.

As shown in fig. 2, the head for sucking characteristic particulate powder according to this embodiment is applied to a device for producing an anti-counterfeit printed matter a1, and the device for producing an anti-counterfeit printed matter a1 includes a bottom plate c6, a hole plate c1 located above the bottom plate c6, and at least one hole is formed in the hole plate c 1; the powder spraying device also comprises a powder spraying unit positioned above the orifice plate c1 for spraying powder and a cleaning device c2 for cleaning the residual powder on the surface of the orifice plate c 1; the transfer printing machine further comprises a movable suction head c3 and a transfer printing table c5, wherein the transfer printing table c5 is provided with a coating material; the powder material vibrating machine also comprises a vibration generator c4 used for uniformly vibrating the powder material on the bottom plate c 6; a plurality of holes are formed in the hole plate c 1; the holes are arranged in a matrix form. The cleaning device c2 is a scraper; when the scraper works, the edge of the bottom of the scraper is in contact with the orifice plate c1 and the excess powder on the surface of the orifice plate c1 is cleaned in a moving mode; the vibration generator c4 is used for generating a vibration source and vibrating the bottom plate c 6; specifically, the bottom plate c6 can be attached to the orifice plate c1 in general, so that a certain gap is left; the pore plate c1 is positioned above the bottom plate c6, and the dusting unit can be a movable dusting mechanism, namely the movable dusting unit uniformly sprinkles the characteristic particulate matter a2 powder on the pore plate c 1; the powder spreading unit only spreads powder, namely the powder spreading unit only spreads powder, the pore plate c1 and the bottom plate c6 are driven by a driving device to move, so that the characteristic particle a2 powder is uniformly spread on the pore plate c1, and as some redundant powder is spread outside the pore area on the pore plate c1 in the powder spreading process, the characteristic particle a is cleaned by a cleaning device c2, the cleaning device c2 is a scraper, the free end of the scraper is in contact with the pore plate c1, the redundant characteristic particle powder is cleaned by actively moving the scraper or passively moving the pore plate c1, and the scraper can be divided into a scraper or a burr scraper made of a single flexible material; the cleaning device c2 can also be a dust-absorbing cleaner or an electrostatic adsorption type or a cleaning device c2 made of sticky adhesive tape; namely, the non-marking adhesive surface is attached to the pore plate c1, so that the redundant powder is removed. The orifice plate is removed from the floor area by a robot or other gripping and turning device, and then subjected to further shaking. The vibration generator c4 is a vibration source, and the driving end is directly or indirectly connected with the bottom plate c6 to drive the bottom plate c6 to vibrate. The suction head c3 is moved by a manipulator, the characteristic particulate matter a2 powder is sucked on the vibrated bottom plate c6, then the characteristic particulate matter a 5 powder is moved to the adhesive coating on the transfer printing table c5, and the characteristic particulate matter a2 powder is adhered to the adhesive coating; thus producing a finished or semi-finished product of the security print a 1.

As can be seen from the figure, the characteristic particles are particles having a certain thickness, such as rectangular particles, so that when grabbing, in order to make the particles be adsorbed on the bottom of the suction head, the bottom of the suction head needs to be processed in such a way that the characteristic particles can be easily put down and not only grabbed.

Example 1: referring to fig. 3 and 4, a characteristic particle powder suction head comprises a suction head body b1, a reticular component b2 is arranged at the bottom of the suction head body b1, and a buckle cover b3, wherein the buckle cover b3 is movably connected with the bottom of the suction head body b1, and a shape opening b4 is arranged on the bottom surface of the buckle cover b 3; the net component b2 is positioned between the buckle cover b3 and the sucker body b 1.

In this embodiment, the net component b2 is a gauze or a mesh with small holes.

In this embodiment, the net-shaped component b2 includes a fixing ring, and a gauze is disposed in the fixing ring.

In this embodiment, the shape opening b4 is square, triangular, diamond-shaped, circular or oval.

Example 2: as shown in FIG. 5, a characteristic particle powder suction head comprises a suction head body b1, wherein the bottom of the suction head body b1 is movably connected with a buckle cover b3, the buckle cover b3 is provided with a shape opening b4, and a screen plate or gauze is arranged in the shape opening b 4.

In this embodiment, the mesh plate is a plate with small holes.

In this embodiment, the shape opening b4 is square, triangular, diamond-shaped, circular or oval.

Example 3: a characteristic particle powder suction head comprises a suction head body b1, wherein the bottom of the suction head body b1 is movably connected with a buckle cover b3, a shape opening b4 is formed in the buckle cover b3, and a gauze or a screen plate is attached to the bottom of the buckle cover b 3.

Example 4: as shown in figure 6, the characteristic particle powder suction head comprises a suction head body b1, wherein the bottom of the suction head body b1 is movably connected with a net component b2, the net component b2 is a gauze or a mesh plate with small holes, the net component b2 is divided into an air-permeable area and an air-impermeable area, and the air-impermeable area is coated with a coating for preventing air permeability.

When the characteristic particulate matter a2 is sucked, the characteristic particulate matter a2 is blocked by the net component b2 or the net plate, namely, the characteristic particulate matter a 3526 is attached to the net component b2 or the net plate, and in order to obtain the required specific shape, different shape openings b4 or shapes are arranged to solve the problem.

The above is only a preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a head is absorb to characteristic particulate matter powder which characterized in that: the novel sucker comprises a sucker body (b 1), a reticular component (b 2) is mounted at the bottom of the sucker body (b 1), and the novel sucker also comprises a buckle cover (b 3), wherein the buckle cover (b 3) is movably connected with the bottom of the sucker body (b 1), and a shape opening (b 4) is formed in the bottom surface of the buckle cover (b 3); the net-shaped component (b 2) is positioned between the buckle cover (b 3) and the sucker body (b 1).

2. The head for sucking particulate matter powder according to claim 1, wherein: the net-shaped component (b 2) is a gauze or a mesh plate with small holes.

3. The head for sucking particulate matter powder according to claim 1, wherein: the net-shaped component (b 2) comprises a fixed ring, and a gauze or a mesh plate with small holes is arranged in the fixed ring.

4. The head for sucking particulate matter powder according to claim 1, wherein: the shape port (b 4) is square, triangular, diamond-shaped, circular or oval.

5. The utility model provides a head is absorb to characteristic particulate matter powder which characterized in that: the novel suction head comprises a suction head body (b 1), wherein the bottom of the suction head body (b 1) is movably connected with a buckle cover (b 3), a shape opening (b 4) is formed in the buckle cover (b 3), and a screen plate or a gauze is arranged in the shape opening (b 4).

6. The head for sucking particulate matter powder according to claim 5, wherein: the net plate is a plate with small holes.

7. The head for sucking particulate matter powder according to claim 5, wherein: the shape port (b 4) is square, triangular, diamond-shaped, circular or oval.

8. The utility model provides a head is absorb to characteristic particulate matter powder which characterized in that: the suction head comprises a suction head body (b 1), wherein the bottom of the suction head body (b 1) is movably connected with a buckle cover (b 3), a shape opening (b 4) is formed in the buckle cover (b 3), and a gauze or a screen plate is attached to the bottom of the buckle cover (b 3).

9. The utility model provides a head is absorb to characteristic particulate matter powder which characterized in that: the novel air suction nozzle comprises a nozzle body (b 1), wherein the bottom of the nozzle body (b 1) is movably connected with a net-shaped component (b 2), the net-shaped component (b 2) is a gauze or a mesh plate with small holes, and the net-shaped component (b 2) is divided into an air-permeable area and a non-air-permeable area.

10. The head for sucking particulate matter powder according to claim 9, wherein: the non-breathable region is coated with a coating that prevents breathability.

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