JPS59358B2 - Fluid receiving device in cutting machine using high pressure fluid - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a fluid receiving device in a cutting machine using ultra-high pressure fluid, such as a water jet.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The structure of the present invention will be described in detail below with reference to embodiments shown in the accompanying drawings. Reference numeral 1 denotes a machine frame, which is supported by four push rods at an appropriate position above the floor surface, and the machine frame 1 has a pair of belt rollers 2 (one not shown) and a pair of belt rollers. 3 (one not shown) is rotatably supported.

Between the pair of belt rollers 2 and between the pair of belt rollers 3
Wide endless belts 4 and 5 are stretched between them. 6 and □ are rails carried between the push rods 4 and 9, and are arranged in a direction perpendicular to the traveling direction of the flat portions of the belts 4 and 5.

Cursors 10 and 11 are slidably attached to the rails 6 and T, a cutting head 12 is connected to the cursor 10, and a fluid receiving container 13 is connected to the cursor 11. Catcher 1 consisting of a small diameter pipe connected to the container 13
4 is disposed between the vent rollers 2 and 3, and the upper end of the catcher 14 is connected to the nozzle 15 of the cutting head 12.
They face each other with an appropriate distance between them. A bottom portion of a catcher 16 having a wide fluid receptacle is fitted into the catcher 14, and a tube communicating with an intake device is connected to the bottom portion of the catcher 16. Located at each end of the rails 6, 7, the push rods 8, 9 are provided with pulleys 7,
18 and double pulleys 19 and 20 are rotatably supported,
Both ends of a belt 21 hung between the pulleys IT, 19 are fixed to the cursor 11,
Both ends of the belt 22 hung between the two are fixed to the cursor 10.

A belt 23 is placed between the double pulleys 19 and 20, and the cursors 10 and 11 are configured to move in the same direction and by the same amount. The belt 23 has the structure of a timing belt shown in FIG. The belt 7 has a timing belt structure with a portion of about half of the total length located between the cursor 11 and the pulley 19,
Similarly, the belt 22 has a timing belt structure at a portion located between the cursor 10 and the pulley 20, which is approximately half of the total length. The pulley 20 is connected to a Y motor.
The nozzle 15 of the cutting head 12 is connected to ultra-high pressure supply means by a high pressure pipe. 24 and 25 are shielding plates fixed to the machine frame 1, and the nozzle 15 and the catcher 14 face each other with a gap between them as a boundary.

26 is the outer frame of the panel 27, and a metal belt is attached to this
- A honeycomb-shaped member 28 serving as a Y component is stretched, and an object 29 such as cloth is placed on a support surface formed at one opening of the honeycomb-shaped member 28.

The panel 27 is appropriately positioned on the flat portions of the belts 4 and 5. The belt rollers 2 and 3 are connected to the X motor. Next, the operation of this embodiment will be explained.

When the intake device is driven, a suction force is generated above the opening of the catcher 16.

When the XY motor is driven by the numerical control device, the rollers 2 and 3 rotate, the belts 4 and 5 run, and the panel 27
moves in the direction of the X coordinate axis. On the other hand, the pulley 20 is driven, the cursor 10 moves along the rail 6, and the nozzle 1
The lower end of the nozzle 1 moves along a predetermined pattern on the workpiece 29 supported by the panel 27.
When ultra-high pressure fluid is injected in a beam form from nozzle 1
5 is cut along a predetermined pattern.

At this time, in conjunction with the movement of the nozzle 15, the catcher 14
also move. The beam-shaped fluid that has passed through the object to be cut 29 and the honeycomb-shaped member 28 falls into the catcher 14,
From the catcher 14, it is sent to the appropriate location through a hose. The atomized liquid produced by the fluid ejected from the nozzle 15 is sucked into the catcher 16 having a wide opening by the suction force of the suction device. Fluid spilled from the catcher 14 having a narrow opening is also stored in the catcher 16. As described above, in the present invention, since the high-pressure fluid beam is received by the catcher having a relatively narrow opening, the soundproofing effect is not impaired, and the fluid spilled from the catcher and the atomized fluid are spread over a wide area. Because it is received by a catcher with an opening, there is no fluid leakage inside the fuselage, and the equipment inside the fuselage does not rust.

Moreover, since the atomized liquid generated from the nozzle is contained in the catcher by the suction force, there is an effect that the object to be cut will not get wet.

[Brief explanation of the drawing]

FIG. 1 is a side sectional view, FIG. 2 is a front sectional view, and FIG. 3 is a side view of the timing belt. 1... Machine frame, 4, 5... Belt, 10
, 11... Cursor, 12... Cutting head, 14... Catcher 15...
・Nozzle, 16... Catcher 1, 27...
... Panel, 28 ... Honeycomb-shaped member, 29
・・・・・・Object to be cut.

Claims (1)

[Scope of Claims] 1. An object to be cut and a nozzle connected to a high-pressure fluid supply means are arranged facing each other, and one is controlled to move relative to the other, so that the energy of the high-pressure fluid beam injected from the nozzle is used. Therefore, in the cutting machine for cutting the object to be cut into a predetermined shape, a catcher having a relatively narrow opening for receiving the fluid beam in the fluid jetting direction of the nozzle is disposed, and the nozzle is disposed around the catcher. 1. A fluid receiving device for a cutting machine using high pressure fluid, characterized in that a catcher having a relatively wide opening facing the direction is arranged. 2. A workpiece to be cut and a nozzle connected to a high-pressure fluid supply means are arranged facing each other, one is controlled to move relative to the other, and the workpiece is cut by the energy of a high-pressure fluid beam injected from the nozzle. In a cutting machine that cuts an object into a predetermined shape, a catcher having a relatively narrow opening for receiving the fluid beam is arranged in the direction of the fluid jet of the nozzle, and a catcher facing the direction of the nozzle is placed around the catcher. 1. A fluid receiving device for a cutting machine using high-pressure fluid, characterized in that a catcher having a wide opening is arranged, and a suction device is connected to the catcher having a wide opening.