JPH0450867B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a compact press-fit type fluid infiltration device that infiltrates a fluid into a sheet material in a short time.

[Conventional technology]

Conventional methods for infiltrating fluid into sheet-like materials include
Methods include (A) simply dipping the sheet into a fluid, and (B) nipping or vibrating the sheet with a mangle or the like while the sheet is immersed in the fluid. However, in the case of thick sheets, these methods require a relatively long period of time for the fluid to penetrate, which is a factor that hinders the increase in production speed. Another problem was that a large dipping tank was required, and as a result, an extra fluid had to be prepared in addition to the one applied to the sheet.

In addition, for sheets that are difficult for fluid to penetrate, in order to allow fluid to penetrate in a short time, there are two methods: (C) creating a vacuum inside the sheet and then immersing it in the fluid; (D) one side of the sheet being immersed in fluid Other methods have also been proposed, such as a method of suctioning from the opposite side while contacting the sheet, and a method of pressurizing fluid into the (E) sheet. Methods using negative pressure as in (C) and (D) do not allow the pressure for infiltration to be very high, and there are also problems in post-treatment when harmful gases are contained in the exhaust gas. (E) does not have these problems. However, in (C) to (E), it is necessary to effectively seal the pressure. If effective sealing is not performed when the position of the sheet edge changes due to changes in the width of the traveling sheet or meandering, etc., pressure will drop and fluid will leak, making it impossible for sufficient fluid to penetrate.

Furthermore, as a sealing method for method (D) or method (E), the opening of the depressurized or pressurized pressure chamber that contacts the sheet is made narrower than the minimum width due to positional fluctuations of the ends of both ears of the sheet, and the opening is always kept closed. One method is to cover it with a sheet.

However, in this method, unpenetrated portions remain at both ends of the sheet, leading to a decrease in product quality and product yield, or to problems in subsequent steps.

Other previously proposed sealing methods include:
By passing the sheet through a box-shaped pressure chamber, installing a sealing device consisting of a flexible rubber roll at the entrance and exit of the pressure chamber, and nipping the sheet with the roll,
There is also a method of dealing with the positional fluctuation of the edge of the sheet. However, this method also has disadvantages in that the sealing performance is insufficient when the sheet is particularly thick, and the apparatus is large and complex.

[Problem that the invention seeks to solve]

The present invention provides a press-fit type fluid infiltration device that includes:
When the position of the seat edge changes due to changes in the width of the traveling sheet or meandering, etc., fluid leakage from the pressure chamber opening near the edge and the resulting pressure drop are avoided, and at the same time, the fluid reaches the edge of the seat. The purpose of the present invention is to provide a device that can infiltrate.

[Means for solving problems]

The inventors of the present invention have made extensive studies to solve the former drawback, and as a result, have found that the problem can be solved by adopting the following configuration, and have arrived at the present invention.

The present invention has the following configuration.

A pressure chamber having an opening on one side is provided in the box-shaped body, and the opening is installed so as to be in contact with at least one side of the sheet to force the fluid in the pressure chamber into the sheet, and the pressure chamber is provided with a pressure chamber on at least one side. A movable seal block is provided to adjust the pressure chamber length in response to changes in the position of the seat edge, and a fluid permeation is provided between the seal block and the seat edge to force pressurized fluid into the seat edge. A press-fit fluid infiltration device characterized by being equipped with a regulating plate.

The present invention will be explained below using one embodiment of the present invention.

FIG. 1 is a schematic perspective view of a press-fit type fluid infiltration device according to the present invention.

2 is a partial sectional view taken along line A-A' in FIG. 1, and FIG. 3 is a partial sectional view taken along line BB' in FIG.

In FIG. 1, numeral 5 is a sheet into which fluid is press-fitted, and it travels in the direction of the white arrow. Reference numeral 6 denotes a box-shaped body having an opening on one side facing the sheet surface, and a pressure chamber 1 is formed inside the box-shaped body 6 when the sheet contacts and covers the opening 21 . Pressurized fluid is fed into the pressure chamber 1 from the outside through an inlet 11 . Note that 12 is a fluid outlet, and 14 is a peripheral surface of the box-shaped body 6 that comes into contact with the sheet 5. Further, 7 is a sheet holding device, which can also close the opening 21 of the box-like body 6 relative to the sheet 5. The opening 21 of the pressure chamber 1 may be provided with something that allows the pressurized fluid to pass therethrough, such as a perforated plate, a grid, a net, or a cloth. Sheet holding device 7
It is practical to provide the pressure chamber 1 on the opposite side of the seat 5 so as to face the pressure chamber 1, as shown in FIGS. 1 and 2.

Note that the sheet holding device 7 may also be a box-like object with an opening toward the sheet 5 surface, or a box-like object with a porous object 10 such as a perforated plate, a lattice-like object, a net-like object, or a cloth attached to the opening surface of the box-like object. can be used. Alternatively, it is also possible to simply hold down only the perforated plate or the like. Furthermore, by using a box-like body as the sheet holding device 7, which has an opening facing the sheet 5 surface and into which pressurized fluid is supplied, like the box-like body 6, it is possible to press the sheet from both sides as necessary. It is also possible to pressurize the fluid.

Depending on the conditions such as the tension of the sheet 5 and the pressurization of the pressurized fluid, the opening 21 may be closed without using the holding device 7.
In some cases, it is possible to sufficiently seal the periphery and maintain the pressure within the pressure chamber 1 at the required level.

The present invention maintains a seal near the edge of the peripheral edge of the opening 21 and maintains the pressure inside the pressure chamber 1 at a required level when the position of the edge of the traveling sheet changes. 21 is made narrower than the minimum width due to the positional change of the end portions of both ears of the sheet, and the opening is always covered with the sheet.

This sealing method solves the conventional problem of fluid not penetrating into the seat edges.
The present invention is solved by using a fluid permeation regulating plate 2 and a seal block 3 shown in FIG.

The fluid permeation regulating plate 2 is made of a perforated plate or an assembly of many slits substantially parallel to the sheet running direction, and allows pressurized fluid to permeate in the thickness direction of the plate 2. Further, as the fluid permeation adjusting plate 2, a porous metal plate or resin plate through which fluid can pass may be used in some cases.

The seal block 3 comes into contact with the inner surface of the pressure chamber 1 of the fluid permeation adjustment plate 2 to stop fluid permeation from the contact portion, thereby regulating the fluid permeable area of the plate 2 . Specifically, as shown in Fig. 2, the seal block 3 is movably slid in the lateral direction using a control rod 8 or the like according to changes in the position of the edge of the sheet, so that the fluid permeable area is almost up to the edge of the sheet. By regulating the fluid, it is possible to maintain good sealing performance and at the same time allow fluid to penetrate into the sheet edge.

The movement of the seal block 3 when the position of the sheet edge end is changed is determined by detecting the position of the sheet edge end using a detector installed inside the device or on the front side of the device in the running direction of the sheet, for example. This can be done automatically by moving the control rod 8 as shown in FIG. 2 based on this.

When using a seal block having a shape as shown in FIG. 4, for example, the seal block 15
is strongly pressed against the fluid permeation regulating plate 2 by the pressurized fluid, so that the sealing performance between the fluid permeation regulating plate 2 and the seal block 15 is improved. However, in this case, the friction between the fluid permeation adjusting plate 2 and the seal block 15 increases,
A large force may be required to slide the seal block 15.

Pressure chamber 1 is used as a seal block as shown in Figure 2.
If a seal block having a shape that partitions the side surfaces of the seal block is used, the force with which the pressurized fluid presses the seal block 3 against the fluid permeation adjustment plate 2 is reduced, so that the frictional force when sliding the seal block is reduced. In this case, a pressure side chamber 4 is provided on the back side of the seal block 3 with respect to the pressure chamber 1, as shown in Fig. 2, to counteract the force pushing the seal block 3 from the pressure chamber 1 side. The target can be slid with little force. Furthermore, as shown in Fig. 2, the pressure chamber 1
When a pressure guide path 9 is provided that communicates the pressure side chamber 4 with the pressure side chamber 4,
The pressures in the pressure chamber 1 and the pressure side chamber 4 can be easily balanced.

Depending on the purpose, the amount of fluid permeating into the seat edge may be smaller than that near the center of the seat. For example, if unavoidable damage occurs to the sheet edges due to the sheet widening process using a pin tenter, and the edges are removed after the fluid infiltration process to manufacture a product, fluid may be applied to the edges to be removed. The amount of penetration may be the minimum amount that can prevent troubles in subsequent steps. In such a case, it is effective to use a fluid permeation regulating plate or a seal block that has a structure that reduces the amount of pressurized fluid that permeates toward the outside in the width direction of the sheet.

Specifically, the structures of the fluid permeation regulating plate illustrated in FIGS. 5 to 7 and the seal block illustrated in FIG. 8 or 9 can be used in combination as appropriate. Among these, in the seal block shown in FIG. 8, the surface 17 partitions the side surface of the pressure chamber 1, and the surface 16 contacts the fluid permeation adjusting plate so that the fluid permeable area becomes narrower as it goes outward. It is regulated by Furthermore, in the seal block shown in FIG. 9, the surface 20 partitions the side surface of the pressure chamber 1, and the surface 18 contacts the fluid permeation regulating plate and delimits the boundary of the permeable region in the sheet width direction. The pressurized fluid in the pressure chamber 1 flows into the wedge-shaped gap formed between the surface 19 and the fluid permeation regulating plate. The fluid that flows into the wedge-shaped gap and then passes through the fluid permeation regulating plate has a pressure loss that gradually increases due to the shape of the gap, which gets narrower toward the outside, so the amount of fluid that permeates decreases toward the outside.

By doing the above, even if the fluid permeable area on the fluid permeation adjustment plate protrudes to the outside of the sheet edge due to a change in the relative position between the seal block and the sheet edge, the fluid can be removed from the protruding area. This is useful for stabilizing operations because it can alleviate the sudden ejection of fluid and the resulting pressure drop in the pressure chamber.

〔Effect of the invention〕

As described above in detail, the press-fit type fluid infiltration device of the present invention can: 1. Infiltrate a sheet-like object with a fluid in a short time.

2. The device can be made compact.

3. When changing the position of the edge of the sheet, it is possible to avoid fluid leakage near the edge and the resulting decrease in fluid permeability, while at the same time allowing fluid to penetrate to the edge of the sheet.

4 When using a sheet holding part that presses the sheet against the pressure chamber, there is no need to insert something such as a seal plate between the fluid permeation adjusting plate and the sheet holding part to prevent fluid leakage from the fluid permeation adjusting plate. When pressing the sheet, it is easy to adjust the pressing pressure by continuously changing the gap between the pressing portion and the pressure chamber.

Further, the apparatus of the present invention can be applied to sheet-like materials such as fibrous sheet-like materials such as cloth and paper, foam sheet-like materials, and permeable films.

Furthermore, the apparatus of the present invention can be used for permeation of liquids such as binder-containing solutions and dispersions, cleaning liquids, extraction liquids, and coloring liquids, or gases such as gases for heat treatment, cooling, and drying, and reactive gases. can.

Furthermore, the device of the present invention not only allows the fluid to penetrate throughout the sheet thickness direction, but also by selecting the pressure and viscosity of the fluid, the thickness and permeability of the seal, and the penetration treatment time, etc. It can also be used to allow fluid to penetrate part way through the sheet thickness.

Among the devices of the present invention, in the type in which a pair of pressure chambers are installed with a sheet in between, different fluids can be penetrated from both sides to a certain depth, and if necessary, the pressure chambers can be penetrated into the sheet. The two fluids can also be brought into contact with each other.

[Brief explanation of drawings]

FIG. 1 is a perspective view showing an example of the usage arrangement of the press-fit fluid infiltration device of the present invention, and FIG.
3 is a partial sectional view taken along line A', and FIG. 3 is a partial sectional view taken along line BB' in FIG. FIG. 4 is a partial sectional view showing another embodiment of the seal block in the press-fit type fluid infiltration device of the present invention. Fifth
7 are top views showing an example of a fluid permeation adjusting plate that reduces the amount of pressurized fluid that permeates toward the outside in the width direction of the sheet. FIGS. 8 and 9 are perspective views showing an example of a seal block that reduces the amount of pressurized fluid that permeates toward the outside in the width direction of the sheet. 1...Pressure chamber, 2...Fluid permeation adjustment plate, 3,1
5... Seal block, 4... Pressure side chamber, 5...
sheet, 6... box-shaped body, 7... sheet holding device,
8... Control rod, 9... Pressure guiding path, 10... Porous body, 21... Opening.

Claims (1)

[Scope of Claims] 1. A pressure chamber having an opening on one side is provided in a box-shaped body, and the opening is installed so as to be in contact with at least one side of the sheet so that the fluid in the pressure chamber can be pressurized into the sheet. At least one side of the pressure chamber is provided with a movable seal block that adjusts the pressure chamber length in response to changes in the position of the seat edge, and between the seal block and the seat edge, pressurized fluid is supplied to the seat edge. A press-fit type fluid permeation device characterized by being provided with a fluid permeation adjustment plate for press-fitting the device. 2. The press-fit type fluid infiltration device according to claim 1, wherein the pressure chamber has a pressure side chamber on the back side of the seal block. 3. The press-fit type fluid infiltration device according to claim 1, wherein the seal block has a pressure guide path that communicates the pressure side chamber and the pressure chamber. 4. The press-fit type fluid permeation device according to claim 1, wherein the fluid permeation regulating plate has a structure in which the amount of pressurized fluid that permeates decreases toward the outside in the width direction of the sheet. 5. The press-fit type fluid permeation device according to claim 1, wherein the press-fit type fluid permeation device has a sheet holding device facing the pressure chamber on the opposite side of the sheet.