JPH0454480Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to an electron beam irradiation device improved so that a free roller can be easily taken in and out of a conveyance line for an irradiated object.

[Conventional technology]

FIG. 3 is a schematic cross-sectional view showing an example of a conventional electron beam irradiation device. This device consists of an irradiated object 6 in the form of a film, for example, which is transported on a transport line 8.
The processing is performed by irradiating an electron beam E from an electron beam accelerator 2, and the electron beam accelerator 2 and transport line 8 are equipped with It is covered with an X-ray shield 4 made of lead or the like.

Several free rollers (that is, rollers that are not driven by a drive source) 10 are incorporated in the conveyance line 8, the details of which are shown in FIG. That is, the free roller 10 has a structure in which a cylindrical roller 11 is rotatably supported on a shaft 12 by bearings 14a and 14b.
The opposing frames 18a and 18b that constitute the
Bearing receivers 22a and 22b containing bearings 20a and 20b are respectively attached, and the shaft 12 of the free roller 10 is
It is rotatably supported by 0a and 20b.

[Problems to be solved by the invention] In the above-mentioned electron beam irradiation device, various devices are arranged above and below the irradiated object 6, and there is almost no maintenance space.
When performing maintenance such as replacing the free roller 10, first remove (or shift) the box-shaped X-ray shield 4, and then
2b, and then remove the free roller 10.
The whole shaft 12 or the shaft 12 is pulled out, pulled out horizontally between the frames 18a and 18b, and taken out from an opening provided somewhere between the frames 18a and 18b, or as the case requires. It is necessary to take out the frames 18a and 18b together, and in either case, this work is not easy.

That is, in the above case, it is necessary to provide a large work space outside the X-ray shield 4, and also to
b is a heavy object, so it is difficult to remove it, and it is very difficult to extract the free roller 10 from between the frames 18a and 18b because the work is done in a narrow space.

Therefore, the main object of this invention is to provide an electron beam irradiation device in which the free roller can be easily taken in and out as described above.

[Means for solving problems]

In the electron beam irradiation device of this invention, at least one bearing receiver is composed of a cylindrical part into which the bearing is fitted and a flange part provided at an end of the cylindrical part, and the cylindrical part is connected to the frame. The outer diameter of the cylindrical part of one bearing receiver of such a structure is larger than the outer diameter of the free roller, and the X-ray The shield is provided with an openable/closable portion that is larger than the flange portion of one of the bearing receivers, and the outer diameter of the bearing in the other bearing receiver is smaller than the outer diameter of the free roller and the axis of the free roller. It is characterized by being able to be attached to and detached from a local bearing holder while still attached to the bearing.

[Effect]

When maintaining the free roller, the free roller can be pulled out in its axial direction by opening the openable/closable part of the X-ray shield, removing the one bearing receiver, and taking it out from the openable/closable part. For embedding, perform the work in the reverse order of the above. Therefore, the free roller can be taken in and out very easily.

〔Example〕

FIG. 2 is a schematic sectional view showing an electron beam irradiation device according to an embodiment of the invention, and FIG. 1 is a partial sectional view taken along line II in FIG. 2. Components equivalent to those in FIGS. 3 and 4 are designated by the same reference numerals and their explanations will be omitted.

The transport line 28 in the electron beam irradiation apparatus according to this embodiment has a structure as shown in FIG. 2 due to the relationship with the electron beam accelerator 2. Each of the four free rollers 10 has a structure as shown in FIG.

Referring to FIG. 1, in this embodiment, one bearing receiver 22b is replaced with bearing 20b.
It consists of a cylindrical part 21b that is fitted into the frame 18, and a flange part 23b provided at the end thereof, and the cylindrical part 21b is removably fitted into the frame 18 and attached. The other bearing receiver 22a
In this embodiment, the structure is similar to that of the bearing receiver 22b side, but this side does not necessarily have to have the same structure.

The outer diameter D ₁ of the cylindrical portion 21b of this one bearing receiver 22b is made larger than the outer diameter D ₂ of the free roller 10, and the X-ray shield 4 on the outside of the one bearing receiver 22b is , the flange portion 23 of the one bearing receiver 22b
An openable/closable portion 24 having a size larger than b is provided.

Furthermore, the outer diameter D ₃ of the bearing 20a in the other bearing receiver 22a is made smaller than the outer diameter D ₂ of the free roller, and the bearing 20a in the local area is attached to the shaft 12 of the free roller 10.
2a can be attached and detached. In order to do so, specifically, the bearing 20a may be fixed not to the bearing receiver 22a side but to the shaft 12 side. Note that the bearing 20b is connected to the shaft 1
2, or may be taken out while attached to the bearing receiver 22b.

The openable/closable portion 24 may have a door-like structure, or may be a simple removable plate-like member. Furthermore, when a plurality of free rollers 10 are provided close to each other as shown in FIG. 2, the openable/closable portion 24 may be common to the plurality of free rollers 10. Incidentally, in this embodiment, the entire X-ray shield 4 on the front side of the transport line 28 shown in FIG.

When performing maintenance such as replacing the free roller 10, open the openable/closable part 24 of the X-ray shield 4, remove the bearing receiver 22b, and take it out from the openable/closeable part 24. Through the opening of 18b and the openable/closable part 24 of the X-ray shield 4, the free roller 10 can be extracted together with the bearing 20a in its axial direction, ie in the direction of arrow A. In the case of assembling the free roller 10, the procedure may be reversed to the above.

Therefore, in this embodiment, the free roller 1
Extracting and incorporating 0 becomes very easy. Furthermore, unlike in the prior art, there is no need to remove or shift the X-ray shield 4 and the frames 18a, 18b, so not only can the work for this be greatly omitted, but also the space required for it is also eliminated. Therefore, the electron beam irradiation device and its surroundings can be made very compact.

Also, during maintenance such as replacing the free roller 10, one of the bearing receivers 22b is
The cylindrical portion 21b is connected to the flange portion 23b of the frame 1.
Since the free roller 10 can be easily positioned and fixed by fitting it into the frame 18b until it comes into contact with the free roller 18b, the free roller 10 can be easily positioned and fixed. Moreover, the above bearing receiver 22b
Since it has a simple structure, it is easy to manufacture and can be miniaturized. Further, the openable/closable portion 24 provided in the X-ray shield 4 is connected to the one bearing receiver 2 mentioned above.
Although it has to be larger than 2b, since this one bearing receiver 22b can be made smaller as a result of the above, it is also possible to make this openable/closable portion 24 smaller.

Also, along with the insertion and removal of the free roller 10,
Since the bearing 20a on the side of the other bearing receiver 22a located further back can also be taken in and out, maintenance of the bearing 20a can be easily performed. If the bearing 20a cannot be inserted or removed while attached to the shaft 12 of the free roller 10, maintenance of the bearing 20b on the front side may be easily performed, but maintenance of the bearing 20a on the back side would be difficult in the narrow space inside the electron beam irradiation device. It is very difficult. Therefore, it is necessary to increase the size of the entire electron beam irradiation device for maintenance of the bearing 20a at the back, or to provide an openable/closable part for maintenance on the X-ray shield 4 on the outside of the other bearing receiver 22a. Of course, doing so would make the electron beam irradiation device larger and more complicated. These problems can be solved at once by making it possible to take out and put in the bearing 20b while it is attached to the shaft 12 of the free roller 10 as described above.

The structure of the free roller 10 shown in FIG. 1 may be applied to an electron beam irradiation device other than the structure shown in FIG. 2, for example, an electron beam irradiation device having the structure shown in FIG. 3. Of course, it can also be widely applied.

[Effect of idea]

As described above, according to this invention, it becomes easy to take the free roller in and out of the conveyance line. In addition, not only does it eliminate the need to remove X-ray shields, etc., but it also eliminates the need for space.
The electron beam irradiation device and its surroundings can be made compact.

Furthermore, one of the above bearing receivers can be easily positioned and fixed by fitting the cylindrical part into the frame until the flange part contacts the frame, so the free roller can be easily positioned and fixed. becomes easier. Moreover, since the bearing receiver has a simple structure, it is easy to manufacture and can be downsized. Furthermore, the openable/closable part provided in the X-ray shield 4 must be larger than the one bearing mentioned above, but since this one bearing receiver can be made smaller due to the above, it is possible to make this openable/closeable part smaller. You can also try to make it more effective.

In addition, when the free roller is put in and taken out, the bearing on the other bearing receiving side located further back can also be taken in and out, so maintenance of the bearing can be easily performed. Therefore, it is possible to avoid increasing the size and complexity of the electron beam irradiation device due to maintenance of the bearing.

[Brief explanation of the drawing]

FIG. 1 is a partial cross-sectional view taken along line II in FIG. FIG. 2 is a schematic cross-sectional view showing an electron beam irradiation device according to an embodiment of this invention. FIG. 3 is a schematic cross-sectional view showing an example of a conventional electron beam irradiation device. FIG. 4 is a partial sectional view taken along line - in FIG. 3. 2...Electron beam accelerator, 4...X-ray shield, 6...
...Irradiated object, 10...Free roller, 18a, 1
8b...Frame body, 22a, 22b...Bearing receiver, 24...Openable/closable part, 28...Transportation line.

Claims (1)

[Scope of utility model registration request] In an electron beam irradiation device in which bearing receivers housing bearings are respectively attached to opposing frames, and a conveyance line in which both ends of a free roller are pivotally supported by the bearings is covered with an X-ray shield, at least one of the bearings is The receiver is composed of a cylindrical part into which the bearing is fitted and a flange part provided at the end of the cylindrical part, and the cylindrical part is removably fitted into the frame. The outer diameter of the cylindrical part of one of the bearing receivers in the structure is larger than the outer diameter of the free roller, and the outer partial X-ray shield of the one bearing receiver is larger than the flange part of the one bearing receiver. A portion with a size that can be opened and closed is provided, and the outer diameter of the bearing in the other bearing receiver is smaller than the outer diameter of the free roller, and the bearing can be attached to and removed from the other bearing receiver while being attached to the shaft of the free roller. An electron beam irradiation device characterized by: