KR102091630B1 - Spray marker for preventing backflow - Google Patents

Abstract

The non-return spray marker includes a nozzle portion, a solenoid chamber, a separation support, and a needle assembly. The nozzle part includes a nozzle tip and a guide block having a paint flow path connected to a paint supply port therein, and a nozzle cap and a nozzle body having a compressed air flow path surrounding the nozzle tip and guide block. The solenoid chamber is spaced apart from the nozzle body, and an electromagnetic coil is mounted inside. The separation support has one end fixed to the nozzle body and the other end fixed to the solenoid chamber to join the nozzle body and the solenoid chamber. The needle assembly is connected to and installed between the nozzle part and the solenoid chamber, and moves to open or close the paint supply port by the electric supply of the electromagnetic coil.

Description

Backflow prevention type spray marker {SPRAY MARKER FOR PREVENTING BACKFLOW}

The present invention relates to a spray marker, and more particularly, to a non-return spray marker for marking a unique number on a semi-finished slab produced in a continuous casting process of a steel mill.

The spray marker is a device for marking a unique number on a semi-finished slab produced in a continuous casting process of a steel mill. The semi-finished slab is cut by a performance torch cutting machine, is transferred to a transfer roller table by a cross transfer vehicle, and is marked by spraying paint of a spray marker when entering the marking position by roller driving.

The slabs marked with unique numbers are then moved by process destination. The spray marker must be operated smoothly and without malfunction to completely mark the unique number on the semi-finished product slab so that information can be managed well without causing problems such as the slab being reversed in a later process.

However, when marking the unique number on the semi-finished slab, the paint may flow back from the nozzle and flow into the solenoid chamber, which may cause malfunction of the solenoid valve. In this case, the transfer roller table must be stopped and the spray marker must be serviced or the nozzle head needs to be replaced. This leads to the problem of costly material disposal due to expensive nozzle disposal and increased maintenance cost.

The present invention is to solve the above-mentioned problems, and minimizes backflow of paint from the nozzle, and prevents malfunction of the solenoid valve by preventing paint from flowing into the solenoid chamber even if paint flows backward from the nozzle. We want to provide a spray marker.

The anti-return spray marker according to the present invention includes a nozzle portion, a solenoid chamber, a separation support, and a needle assembly. The nozzle part includes a nozzle tip and a guide block having a paint flow path connected to a paint supply port therein, and a nozzle cap and a nozzle body having a compressed air flow path surrounding the nozzle tip and guide block. The solenoid chamber is spaced apart from the nozzle body, and an electromagnetic coil is mounted inside. The separation support has one end fixed to the nozzle body and the other end fixed to the solenoid chamber to join the nozzle body and the solenoid chamber. The needle assembly is connected to and installed between the nozzle part and the solenoid chamber, and moves to open or close the paint supply port by the electric supply of the electromagnetic coil.

The paint supply port may be positioned to intersect the paint flow path in the guide block, and the paint supply pipe may be connected to the paint supply port through the nozzle body and the compressed air flow path.

The needle assembly may include a flange located inside the electromagnetic coil and a needle part fixed to the front of the flange. The end portion of the needle portion may be located in the paint flow path of the guide block, and the length of the needle portion may be greater than the length of the spacing support.

The needle part may block the paint supply port in the standby state, and when the electricity is supplied to the electromagnetic coil, it may reverse to open the paint supply port. The needle assembly may further include a sealing tip. The sealing tip is located at the end of the needle portion, and is made of an elastic material and can be located in the paint flow path of the guide block in a compressed state.

A blocking plate may be located at one side of the solenoid chamber facing the nozzle body, and an opening for passing the needle portion may be positioned at the center of the blocking plate. The other end of the separation support may be fixed to the blocking plate, and the separation support may be provided in plural with a needle portion at the center and a distance from each other along the circumferential direction.

The spray marker according to the present invention can block the reverse flow of paint to prevent malfunction of the solenoid valve due to the reverse flow of paint. In addition, the spray marker can increase the maintenance interval, increase the service life of the nozzle unit, and consequently reduce maintenance cost and material cost.

1 is a cross-sectional view showing a standby state of the anti-return spray marker according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view showing a paint spraying state of the anti-return spray marker shown in FIG. 1.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. The present invention can be implemented in many different forms and is not limited to the embodiments described herein.

1 is a cross-sectional view showing a standby state of the anti-return spray marker according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a paint spraying state of the anti-return spray marker shown in FIG. 1.

Referring to FIGS. 1 and 2, the non-return spray marker 100 of the present embodiment largely includes a nozzle unit 10, a solenoid chamber 20, a separation support 30, and a needle assembly 40. The nozzle unit 10 and the solenoid chamber 20 do not contact each other and are positioned apart from each other by the length of the separation support 30.

The nozzle part 10 includes a nozzle tip 11 and a guide block 12 having a paint flow path P1 therein, a nozzle cap 13 surrounding the nozzle tip 11 and the guide block 12, and a nozzle body (14). The nozzle cap 13 and the nozzle body 14 have a compressed air flow path P2 therein.

The nozzle tip 11 is located in front of the guide block 12 and is integrally coupled to the guide block 12. Inside the nozzle tip 11 and the guide block 12, a paint flow path P1 penetrating them is located, and a paint supply port 121 intersecting the paint flow path P1 is located in the guide block 12. The paint flow path P1 of the nozzle tip 11 gradually narrows as it moves away from the guide block 12.

The nozzle cap 13 is located in front of the nozzle body 14 and is integrally coupled to the nozzle body 14. A compressed air flow path P2 surrounding the nozzle tip 11 and the guide block 12 is located inside the nozzle cap 13 and the nozzle body 14. The compressed air flow path P2 of the nozzle cap 13 gradually narrows as it moves away from the nozzle body 14.

The nozzle body 14 is provided with at least two ports. The first port 141 may be a port to which the air supply pipe 51 is coupled, and the second port 142 may be a port to which the paint supply pipe 61 is coupled.

The air supply pipe 51 is connected to the compressor 52 and the air control valve 53, and the air control valve 53 controls the discharge of compressed air. The paint supply pipe 61 is connected to the paint chamber 62 and the paint control valve 63, and the paint control valve 63 controls the discharge of paint. The paint supply pipe 61 passes through the second port 142 and is connected to the paint supply port 121 of the guide block 12.

The opening and closing of the paint supply port 121 of the guide block 12 is precisely controlled by an electromagnetic valve such as a solenoid valve. The solenoid valve includes a solenoid chamber 20 in which an electromagnetic coil 21 is built, and a paint passage P1 of the guide block 12 and a needle assembly 40 located inside the solenoid chamber 20.

The needle assembly 40 includes a flange 41 located inside the electromagnetic coil 21 and a needle part 42 fixed to the front of the flange 41 and located in the paint flow path P1 of the guide block 12. It includes. The needle portion 42 is positioned to block the paint supply port 121 in the standby state, and when the electricity is supplied to the electromagnetic coil 21 of the solenoid chamber 20, the flange 41 and the needle portion 42 are reversed. While the paint supply port 121 can be opened.

Specifically, the supply of compressed air and paint is stopped in the standby state of the spray marker 100, and the needle part 42 blocks the paint supply port 121 of the guide block 12. When the semi-finished slab (not shown) enters the marking position, the air control valve 53 and the paint control valve 63 are opened, and electricity is supplied to the electromagnetic coil 21 soon.

Then, while the needle assembly 40 is reversed, the paint supply port 121 is opened to be connected to the paint flow path P1. Compressed air injected through the nozzle cap 13 forms a negative pressure in the paint flow path P1 to suck and spray the paint supplied to the paint flow path P1. In this process, marking of the semi-finished slab is achieved.

The spray marker 100 of the present embodiment has a configuration in which the nozzle body 14 and the solenoid chamber 20 are separated, and at least one separation support 30 is disposed between the nozzle body 14 and the solenoid chamber 20. Is done. At this time, the length of the needle portion 42 is extended by the length of the separation support 30. That is, the length of the needle portion 42 is larger than the length of the separation support 30.

A blocking plate 22 may be positioned on one side of the solenoid chamber 20 facing the nozzle body 14, and an opening for passing the needle portion 42 is formed in the center of the blocking plate 22. The separation support 30 is a rod structure parallel to the longitudinal direction of the spray marker 100, one end being fixed to the nozzle body 14 and the other end being fixed to the blocking plate 22 so that the nozzle unit 10 and the solenoid chamber 20 ) Are integrally combined.

The separation support 30 may be provided in plural along the circumferential direction of the spray marker 100. For example, four spaced supports 30 may be provided one by one on the four corner sides of the nozzle body 14 and the blocking plate 22.

A portion of the paint may flow back toward the solenoid chamber 20 when the paint supply port 121 is opened due to the reverse of the needle assembly 40. The spray marker 100 of this embodiment is spaced apart from the nozzle body 14 and the solenoid chamber 20 so that even if a portion of the paint flows backward, it diffuses into the air or hits the blocking plate 22. Therefore, the reflux paint does not flow into the solenoid chamber 20 and does not cause malfunction of the solenoid valve.

In addition, the needle assembly 40 may further include a sealing tip 43 that blocks backflow of paint. The sealing tip 43 is fixed to the end of the needle portion 42, and is made of an elastic material such as rubber and may be located in the paint flow path P1 of the guide block 12 in a compressed state.

The sealing tip 43 blocks the paint supply port 121 in the air, and when the paint supply port 121 is opened by the reverse of the needle assembly 40, the paint flow path P1 is blocked without a gap to guide the paint. Do not leak out of the block (12). That is, the sealing tip 43 functions to seal the paint flow path P1 behind the paint supply port 121 in the process of spraying paint.

Since the needle portion 42 made of a metal has a slide clearance with the wall surface of the paint flow path P1, when there is no sealing tip 43, the paint may flow back through the slide clearance. However, the needle portion 42 provided with the sealing tip 43 can effectively block the reverse flow of paint by sealing the paint flow path P1 behind the paint supply port 121 without a gap.

The spray marker 100 of this embodiment can block the backflow of paint by the above-described configuration to prevent the malfunction of the solenoid valve due to the backflow of paint. In addition, the spray marker 100 of this embodiment can increase the maintenance cycle, increase the service life of the nozzle unit 10, and consequently reduce maintenance and material costs.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and it is possible to carry out various modifications within the scope of the claims and detailed description of the invention and the accompanying drawings. It is natural to fall within the scope of.

100: spray marker 10: nozzle unit
11: Nozzle tip 12: Guide block
13: nozzle cap 14: nozzle body
20: solenoid chamber 21: electromagnetic coil
22: Block 30: Separation support
40: needle assembly 41: flange
42: needle portion 43: sealing tip

Claims (7)

A nozzle unit including a nozzle tip and a guide block having a paint flow path connected to a paint supply port therein, and a nozzle cap and a nozzle body having a compressed air flow path surrounding the nozzle tip and the guide block;
A solenoid chamber spaced apart from the nozzle body and equipped with an electromagnetic coil therein;
One end is fixed to the nozzle body and the other end is fixed to the solenoid chamber spaced support for coupling the nozzle body and the solenoid chamber; And
It includes a needle part installed between the nozzle part and the solenoid chamber, and a sealing tip located at an end of the needle part and made of an elastic material and compressed and positioned in the paint flow path of the block, A needle assembly in which the needle portion and the sealing tip move by electrical supply so that the sealing tip opens or closes the paint supply port.
Anti-reflux spray marker comprising a. According to claim 1,
The paint supply port is positioned to intersect the paint channel in the guide block, and a paint supply pipe penetrates the nozzle body and the compressed air channel to connect to the paint supply port. According to claim 1,
The needle assembly includes a flange located inside the electromagnetic coil,
One end of the needle portion is fixed to the front of the flange, the opposite end of the needle portion is fixed to the sealing tip in the paint flow path,
The needle portion has a length greater than the length of the spaced support anti-return spray marker. According to claim 3,
The sealing tip prevents the paint supply port from being in an atmospheric state, and when the electricity is supplied to the electromagnetic coil, a reverse flow prevention type spray marker that retracts with the needle part to open the paint supply port. delete According to claim 3,
A blocking plate is located on one side of the solenoid chamber toward the nozzle body,
A counterflow prevention type spray marker in which an opening for passing the needle portion is located in the center of the blocking plate. The method of claim 6,
The other end of the separation support is fixed to the blocking plate,
The spaced apart support is provided with a plurality of spaced apart distances from each other along the circumferential direction with the needle portion at the center, and the anti-return spray marker.

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