JPS6154702B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for continuously or discontinuously pulling out a strip of thin paper, film, foil, etc. wound on a reel or the like, by causing it to float and travel in a predetermined direction. It is.

The present inventor has been conducting intensive research for some time with the aim of developing a method for making various sheet materials such as thin paper, film, and foil travel in a predetermined direction while floating them using high-speed jet flow. In other words, as a means of feeding the aforementioned sheet-like materials one by one to a printing machine or transferring them to various secondary processing devices, conventionally an elastic roller or a suction device connected to a pressure reduction device has been used. , or for magnetic foils, etc., methods of holding and transporting using magnetic force are widely used, but in both of these methods, the sheet-like object etc. comes into direct contact with the support and transfer device, and the support and transfer process is difficult. It has been pointed out that this may contaminate, damage, or wrinkle sheet-like materials. Therefore, in order to overcome the above-mentioned difficulties, the inventor of the present invention thought that it would be possible to transport sheet-like objects while floating them, and as a result of various trials and errors, he decided to use a jet device with a fixed structure and a high-speed jet flow. Knowing that the above objectives can be achieved successfully,
A patent application was filed first. That is, the outline of the configuration of the prior invention is shown in FIG. 1 which is a partially cutaway side view, FIG. 2 which is a bottom view, FIG.
As shown in FIG. 4, which is an explanatory diagram of the operation, and FIG. 5, which is an explanatory diagram of the operation of a modified example. In the figure, reference numeral 1 indicates a holding block, and the block 1 is made of metal, synthetic resin, or the like, and an air chamber 2 is provided approximately in the center thereof. In the center of the lower part of the air chamber 2 there is a fumarole 3.
is formed through the block 1, and the lower surface of the block 1 is a flat (or slightly curved) holding surface 5, which includes the open end of the blowhole 3 and one side. A slit 4 extending in the direction is formed. Also connected to the upper part of the block 1 is a flexible pipe 8 which is connected to a suitable compressed air supply device through a threaded portion 6 and a mounting nut 7.

Now, when compressed air is introduced into the air chamber 2 through the flexible pipe 8, the compressed air equalized in this portion is ejected from the blowhole 3. If there is no obstacle in front of the fumarole 3, this fumarole flow will only blow in the direction toward which the fumarole is directed. However, when the block 1 and the sheet-like material 10 are brought relatively close to each other in the fumarole, the jet stream A is ejected through the gap 11 formed between the holding surface 5 of the block 1 and the sheet-like material 10, and a high-speed jet stream is formed. Then, the surrounding area becomes negative pressure, and the sheet-like material 10 is drawn toward the block 1 side as if being sucked. At this time, the jet stream A is always present between the block 1 and the sheet-like material 10, and the two do not come into direct contact.

If the slits 4 are formed in the holding surface 5, a flow velocity difference will be created between the slit 4 forming part and the holding surface 5 without the slits 4, and the sheet-like material 10 will move in one direction along the holding surface 5. Run. By the way, the fourth
In the example shown in the figure, the sheet-like material 1
When the running direction of 0 changes and the jet pressure is set to high pressure, the sheet-like object 10 runs in the direction of arrow D, while when the jet pressure is set to a low pressure of 1 to 3 kg/ ^cm2 , the sheet-like object runs in the direction of arrow C. We have already confirmed that we will do so.
Furthermore, Fig. 5 shows an example in which the fumarole 3 is formed at an angle.
In this example, the running force in the direction of arrow D can be made even higher.

Although the figure shows an example in which the slits are formed with the starting point approximately at the opening position of the fumarole hole 3, the slit 4 may be formed on a surface that includes the opening position of the fumarole hole 3. Even if the starting point is slightly behind the opening position of the hole 3, the effect is substantially the same.

As described above, according to the previously filed invention, it is possible to hold and run the sheet-like object 10 without directly contacting it, so there is no risk of contaminating or damaging the sheet-like object, and the holding and running are possible. It provides groundbreaking technology as a means of transportation.

The present inventor has made use of the technical idea of the above invention and has conducted further research in order to expand its field of application. As a result, we learned that if the above technology was applied to the extraction of strips wound on reels, etc., it would be possible to draw them out extremely smoothly without the risk of contaminating or damaging the strips during the drawing process. The present invention was finally completed.

That is, the configuration of the method for running a strip according to the present invention is a method in which the strip is caused to travel in the length direction while floating the strip, and a fumarole opening is formed on the surface facing the strip. At the same time, a fumarole device having a slit groove including the fume opening is disposed in close proximity to the strip-shaped object so that the slit groove is substantially parallel to the traveling direction of the strip-shaped object, and The gist is that the belt-like material is caused to run in the length direction of the slit groove by a high-speed jet stream formed in the opposing gap.

The structure and effects of the present invention will be explained below based on the drawings which are examples, but the following are only representative examples, and all changes within the scope of the above and below are within the scope of the technology of the present invention. included. FIG. 6 is an explanatory diagram illustrating the running method according to the present invention, in which a strip-shaped object (thin paper, film, foil, etc.) to be run 1
A blower device is placed at a suitable location above the traveling position of No. 2.
The structure of this blower device is substantially the same as that described in the above invention, and its main structure is a block 1 in which an air chamber 2, a blowhole 3, a slit 4, and a holding surface 5 are formed. And this blower device is connected to slit 4.
is arranged so that it is substantially parallel to the running direction of the strip 12, and the strip 12 is caused to travel by blowing compressed air from the blowholes 3. That is, as explained earlier, when compressed air is blown from the fumarole hole 3 toward the surface of the strip 12, the compressed air blows toward the strip 12.
2, the jet flows in the radial direction through the gap 11, and a high-speed jet flow A is formed in this portion. Then, the vicinity of the position where the high-speed jet flow is formed becomes a negative pressure state, and the belt-shaped object 12
is attracted to the holding surface 5. Further, since the slit 4 is formed in the holding surface 5, a force in the direction of arrow A' acts on the strip 12, causing the strip 12 to travel. Also, as explained earlier, if the pressure from the fumarole device is set to a low pressure of about 1 to 3 kg/ ^cm2 ,
Since a force acts on the strip 12 in a direction opposite to the direction in which the slit 4 is formed, when operating at low pressure, the slit 4 should be arranged so as to face opposite to the running direction. Furthermore, when the strip is extremely soft such as a thin polypropylene film, the running force acts in the direction opposite to the direction in which the slits 4 are formed, regardless of the pressure level. In addition to the low
It is also necessary to appropriately select and determine the direction of the slit 4 depending on the physical properties of 2. During this traveling process, the strip 12 is reliably supported by the negative pressure in the gap 11, so there is no risk of the strip 12 waving. Moreover, since a high-speed jet stream is always present in the gap 11 and the strip 12 never comes into direct contact with the holding surface 5, there is no fear of scratches or the like on the running surface of the strip 12. On the other hand, when the fumes from the fumarole holes 3 are stopped, the high-speed fume flow and negative pressure within the gap 11 are naturally eliminated, so the traveling of the strip 12 is immediately stopped. Reference numeral 13 shown in FIG. 6 is a support plate, which is provided to support the strip 12 when it stops traveling. The distance between the support plate 13 and the holding surface 5 is such that when the compressed air jet is restarted, the strip 12 supported on the support plate 13 is drawn toward the holding surface 5 as quickly as possible. It is better. Further, the support plate 13 or the blower device itself may be provided so as to be movable up and down, so that the interval can be adjusted as desired.

As described above, according to the present invention, it is possible to run the strip 12 in the longitudinal direction while substantially floating the strip, so that it is possible to move the strip 12 in the longitudinal direction while substantially floating it, so that it is possible to avoid scratches and the like, such as various projection films. It can be extremely advantageously applied to the running of various kinds of belt-like objects. Moreover, since running can be started and stopped by introducing and stopping compressed air, the operation is extremely simple.

FIG. 7 shows another embodiment of the present invention, which is substantially the same as FIG. 6 except that the blowing device is disposed on the lower surface side of the strip 12. However, in this example, since the strip 12 can be supported by the holding surface 5 itself when traveling is stopped, the support plate 13 as shown in FIG. 6 is not necessary.

Figures 8 to 11 show still other embodiments of the present invention, Figures 8 and 10 are schematic cross-sectional explanatory views, and Figures 9 and 11 are equivalent cross-sectional views taken along lines - and XI-XI in Figures 8 and 10. It is. That is, in these examples, block 1
The holding surface 5 is formed in a convex or concave shape, but its holding/feeding mechanism is substantially the same as in the above example, and the strip 12 is held in a curved state along this curved surface. It is sent out. During this time, in the gap 11 between the strip 12 and the holding surface 5, the sixth and seventh
As shown in the figure, there is a high-speed jet stream intervening, so there is no direct contact between the two.

Figure 12 shows an application example using the idea of the present invention.
This is an example in which winding is prevented when a relatively soft belt-like material 12 is caused to travel by a feed-out roller 14. That is, when a soft strip-like material is run by the feed-out roller 14, the strip-like material 12 adheres to the feed-out roller 14 due to static electricity or the like, and as shown by the broken line in FIG.
It may be wound up in the direction of rotation of 4. However, if a blower device is arranged behind the feed roller 14 as shown in FIG. 12 to hold the strip 12 and draw it backward, it is possible to reliably prevent the strip 12 from rolling up. I can do it.

FIG. 13 is a sketch showing a modified example of the blower device used in the present invention, in which a plurality of blowholes 3 and slits 4 are formed in parallel in the block 1 to increase running power. For the same purpose, multiple fumaroles 3
It is also effective to form the slits 4 in series. Furthermore, although the illustrated example shows one slit 4 formed for each fumarole 3, for example, as shown in FIG. ,..., and the strip 1
It is also possible to increase the pulling force of 2.

By the way, a method of moving a linear object or a band-like object using a jet stream from an injection nozzle is already known. However, these methods utilize the jet flow in the jet direction as it is, and do not have a good ability to hold the object being traveled. As a result, there is a risk that the belt-shaped material may become extremely wavy or the traveling direction may become irregular during the delivery process. However, in the present invention, by using a special jet device as described above, the position of the high-speed jet flow can be adjusted. Since the strip can be supported using the negative pressure generated nearby,
The above-mentioned drawbacks do not occur, and the traveling of the strip can be carried out extremely accurately and smoothly.

Although the present invention is roughly constructed as described above, its greatest feature is that the belt-shaped object is caused to travel in the length direction of the belt-shaped object while floating, which has never been proposed in this type of field. This is a new technology that has been established, and is revolutionary as a means of transporting strips that are extremely susceptible to damage such as scratches caused by friction.

[Brief explanation of the drawing]

Figures 1 to 5 are explanatory diagrams of the holding/transfer method and device that are the basis of the present invention, Figure 6 is a schematic cross-sectional diagram illustrating the traveling method of the present invention, and Figures 7 to 11 are other embodiments. FIG. 12 is a schematic cross-sectional explanatory diagram showing an application example of the present invention.
FIG. 14 is a sketch showing another blower device used in the present invention. 1... Holding block, 2... Air chamber, 3... Fumarole, 4... Slit, 5... Holding surface, 11...
Gap, 12... Strip, 13... Support plate, 14...
...Feeding roller, A...High speed jet flow.

Claims (1)

[Claims] 1. A fumarole device which is a method of moving a strip-like object in the length direction while floating the object, in which a fume opening is formed on a surface facing the strip-like object, and a slit groove containing the fume opening is formed. are placed opposite and close to the strip so that the slit grooves are substantially parallel to the traveling direction of the strip, and the strip is blown by a high-speed jet stream formed in the gap between the blower device and the strip. A method for running a strip-shaped object, comprising running the object in the longitudinal direction of the slit groove.