JP6412773B2 - Antistatic cover - Google Patents

Description

  The present invention relates to an antistatic cover.

  For example, a manufacturing apparatus such as a semiconductor, a liquid crystal, or an organic EL is provided with a tube for flowing a fluid. As this tube, an insulating resin tube such as a fluororesin tube is used. Therefore, when a fluid flows through the insulating resin tube, there is a problem that the tube is easily charged due to friction between the fluid and the tube.

  Therefore, as an antistatic means for preventing the insulating resin tube from being charged, a means is adopted in which a conductive material such as graphite or metal fine powder is contained in the tube in order to impart conductivity to the tube. There is a case. For example, in Patent Document 1, in a fluororesin tube, a conductive portion containing a conductive substance extends in a stripe shape along the longitudinal direction on the outer peripheral surface of the tube body.

  However, since the antistatic means described in Patent Document 1 contains the conductive material in the tube, that is, the tube itself has conductivity, a fluororesin (insulating resin). It was not possible to apply the antistatic performance to the existing tube which was applied to the existing tube made of only afterward.

  In addition, in the tube described in Patent Document 1, since the conductive portions are arranged at predetermined intervals in the circumferential direction, when the flow rate of the fluid flowing in the tube is small, the installation state of the tube In some cases, the conductive portion cannot be positioned at a necessary portion of the tube corresponding to the flowing fluid, and the antistatic performance may not be sufficiently exhibited.

JP 2003-4176 A

  From the above, it has been considered to employ a cover containing a conductive substance and capable of covering the existing tube as an antistatic means applicable to the existing tube. However, when the cover is only a simple cylinder corresponding to the existing tube, the existing tube is difficult to cover. In particular, this tendency becomes prominent when the existing tube is installed in a bent state.

  The present invention has been made in view of such circumstances, and imparts antistatic performance to an existing tube made of an insulating resin and is easy to attach to and detach from the tube according to its bending state. The purpose is to provide a protective cover.

The invention according to claim 1
An antistatic cover for covering the tube made of insulating resin,
Made of a resin composition containing a conductive substance, comprising a cylindrical cover body that can surround the entire circumference of the tube,
The cover main body is divided at one place in the circumferential direction so that the first divided portion and the second divided portion are formed, and a gap through which the tube can pass is the first divided portion and the second divided portion. It is configured to be elastically deformable so that it can be between
The cover body has a cutout portion provided along a circumferential direction of the cover body between the first dividing portion and the second dividing portion,
The notch has a length of 40% or more with respect to the length of one round of the cover body in the circumferential direction of the cover body.

  According to this configuration, when the antistatic cover is used for the existing tube, the antistatic cover covers substantially the entire tube so that the cover body surrounds the entire circumference of the tube. Therefore, charging of the tube can be prevented regardless of the flow rate of the fluid flowing in the tube. Therefore, antistatic performance can be imparted to the tube using the antistatic cover.

  Further, when the antistatic cover is attached to or detached from the tube, the cover body is deformed so as to widen the space between the first dividing portion and the second dividing portion, and the cover body is attached to the tube. It is possible to cover or remove from one side. Therefore, even when the tube is connected to a predetermined connection object, the antistatic cover can be easily attached to and detached from the tube.

  Moreover, in the cover main body, the narrow portion can be formed by the cutout portion, so that the cover main body can be easily bent in the axial direction. Therefore, even when the tube is already installed in a state of being bent in the axial direction, the cover body can be easily bent in accordance with the tube. Therefore, the attachment / detachment of the antistatic cover with respect to the tube can be facilitated.

The invention according to claim 2 is the antistatic cover according to claim 1,
A plurality of the notches are provided in the axial direction of the cover body.

  According to this configuration, the cover main body can be bent more easily in the axial direction.

The invention according to claim 3 is the antistatic cover according to claim 2,
The cover main body has a notch portion different from the notch portion between at least one of the first dividing portion and the second dividing portion and adjacent notches among the plurality of notch portions. It is what.

  According to this configuration, it is possible to make the cover body easier to bend in the axial direction while sufficiently securing the antistatic performance imparted to the tube by the antistatic cover. Further, when the cover body surrounds the tube, if the tube is transparent or translucent, the state in the tube can be visually recognized through the another notch.

The invention according to claim 4 is the antistatic cover according to any one of claim 1 or claim 3, wherein
The closed portion on both ends in the circumferential direction of the notch is rounded.

  According to this configuration, the cover body can be more easily bent in the axial direction without being damaged.

The invention according to claim 5 is the antistatic cover according to any one of claims 1 to 4,
The cover body is formed in a cylindrical shape in a state where the first divided portion and the second divided portion are overlapped.

  According to this configuration, it is possible to expand the change range of the inner diameter (the radial width on the inner peripheral side) that can be taken when the cover body surrounds the tube. Therefore, the antistatic cover can be used for a plurality of tubes having different outer diameters instead of a single type of tube having a predetermined outer diameter.

  According to the present invention, it is possible to provide an antistatic cover that imparts antistatic performance to an existing insulating resin tube and that can be easily attached to and detached from the tube according to its bending state.

It is a perspective view which shows the use condition of the antistatic cover which concerns on one Embodiment of this invention. It is a front view of the antistatic cover of FIG. It is a rear view of the antistatic cover of FIG. (A) is a side view of the antistatic cover of FIG. 1, and (b) is a cross-sectional view taken along the line XX of FIG. It is a top view of the antistatic cover of FIG. It is a bottom view of the antistatic cover of FIG. It is an expanded view of the antistatic cover of FIG. (A) is a figure which shows a mode immediately before attaching the antistatic cover of FIG. 1 to a tube, (b) is a figure which shows a mode after attaching the antistatic cover of FIG. 1 to a tube, (C) FIG. 2 is a view showing a state after the antistatic cover of FIG. 1 is attached to a tube thicker than the tube shown in FIG. FIG. 6 is a development view showing another embodiment of another notch portion related to the antistatic cover of FIG. 1. FIG. 6 is a development view showing still another embodiment of another notch portion related to the antistatic cover of FIG. 1. FIG. 6 is a development view showing still another embodiment of another notch portion according to the antistatic cover of FIG. 1. It is an expanded view of the antistatic cover which concerns on another embodiment of this invention. It is an expanded view of the antistatic cover which concerns on another embodiment of this invention. It is a front view of the antistatic cover which concerns on another embodiment of this invention. It is a YY arrow sectional view of FIG. It is an expanded view of the antistatic cover of FIG.

  An embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 shows a usage state of an antistatic cover 1 according to an embodiment of the present invention.

  As shown in FIG. 1, the antistatic cover 1 is an existing tube 2 provided for flowing a flammable fluid (electrical insulating fluid) such as an organic solvent in a manufacturing apparatus such as a semiconductor, a liquid crystal, or an organic EL. Can be used against. The antistatic cover 1 can be fitted over the tube 2 so as to cover the entire circumference of the tube 2, and is formed to have a cylindrical shape corresponding to the tube 2 as a whole.

  The tube 2 is a tube made of an insulating resin, and in the present embodiment, is a tube made of a fluororesin (for example, PFA (perfluoroalkoxyalkane)). The tube 2 is transparent or semi-transparent so that the inside can be seen from the outside, and is formed in a cylindrical shape having a substantially constant diameter. It is configured to be connectable.

  FIG. 2 shows a front view of the antistatic cover 1. FIG. 3 shows a rear view of the antistatic cover 1. FIG. 4 shows a side view and a side sectional view of the antistatic cover 1. FIG. 5 shows a plan view of the antistatic cover 1. FIG. 6 shows a bottom view of the antistatic cover 1. FIG. 7 is a development view of the antistatic cover 1. FIG. 8 is a side view showing a state when the antistatic cover 1 is attached to the tube 2.

  As shown in FIGS. 1, 2, 3, 4, 5, 6, and 7, the antistatic cover 1 includes a cover body 10. The cover body 10 is made of a resin composition containing a conductive substance. In the present embodiment, the cover body 10 is made of PP (polypropylene) containing carbon black.

  In addition, the resin composition containing the conductive substance in the present invention is not limited to PP containing carbon black as in the present embodiment. For example, carbon fiber, graphite, metal fine powder, or these two kinds It is good also as resin compositions, such as PP or PE (polyethylene) containing electroconductive materials, such as the above combination.

  The cover body 10 is formed in a cylindrical shape that can surround the entire circumference of the tube 2. The cover body 10 is divided at one place in the circumferential direction so that the first dividing portion 11 and the second dividing portion 12 are formed, and the tube 2 is allowed to pass through as shown in FIG. The gap 15 to be obtained is configured to be elastically deformable so as to be formed between the first dividing portion 11 and the second dividing portion 12.

  In the present embodiment, the cover body 10 has the first dividing portion 11 on one end side in the circumferential direction of the cover body 10 and the second dividing portion 12 on the other end side in the circumferential direction of the cover body 10. doing. And the said cover main body 10 comes to exhibit the cylindrical shape which can cover substantially the whole of the said tube 2 in the state in which the said 1st parting part 11 and the said 2nd parting part 12 overlap or adjoin. ing.

  The first dividing portion 11 is provided with a circumferential end surface 13 extending in the axial direction of the cover body 10. The circumferential end surface 13 is formed in a flat shape that allows a certain degree of unevenness along the axis of the cover body 10. On the other hand, the second dividing portion 12 is provided with a circumferential other end surface 14 extending in the axial direction of the cover body 10. The other circumferential end surface 14 is formed in a planar shape that allows some irregularities along the axis of the cover body 10.

  The cover main body 10 is formed by using elastic deformation so that the first divided portion 11 and the second divided portion 12 are close to each other so as to have a cylindrical shape, and an inner diameter (inside of the cover main body 10). While the circumferential width of the circumferential side is changed to be larger than the outer diameter of the tube 2, the two are separated so that the gap 15 is formed between the first dividing portion 11 and the second dividing portion 12. It is comprised so that it can take alternatively.

  Specifically, as shown in FIGS. 4A and 4B, the cover body 10 can take a normal form close to the first dividing portion 11 and the second dividing portion 12 so as to come into contact with each other. It is configured. In this normal form, the cover body 10 does not surround the tube 2 and the antistatic cover 1 is not used. In this normal form, the inner diameter of the cover body 10 is substantially the same or smaller than the outer diameter of the tube 2.

In the normal form, the cover main body 10 is in a natural state and is configured such that the length of one round is L1. This length L1 is defined based on the following equation.
Length L1 = (L1a + L1b) × 1/2
In this formula, L1a is the length of one circumference extending in the circumferential direction from the starting point position 23A of the other end surface 14 in the circumferential direction to the end point position 23B on the one end surface 13 side in the circumferential direction, of the outer peripheral surface of the cover body 10. (See FIG. 4B). L1b represents the length of one circumference extending in the circumferential direction from the start point position 24A of the other end surface 14 in the circumferential direction to the end point position 24B on the one end surface 13 side in the circumferential direction of the inner peripheral surface of the cover body 10. (See FIG. 4B).

  As shown in FIG. 8 (a), the cover body 10 has a portion of an ellipse in a side view in which the first dividing portion 11 and the second dividing portion 12 are separated to form the gap 15. It is comprised so that the deformation | transformation form like a notch can be taken. This modified form is a temporary form when the cover main body 10 is attached to and detached from the tube 2. In this modification, the inner diameter of the cover body 10 is larger than that in the normal form.

  As shown in FIG. 8B, the cover main body 10 is configured to be able to take a covering form in which the first dividing portion 11 and the second dividing portion 12 are in contact with each other. This covering form is a form in use of the antistatic cover 1 in which the cover body 10 surrounds the entire circumference of the tube 2. In this covering form, the inner diameter of the cover body 10 becomes an inner diameter that changes in accordance with the outer diameter of the tube 2.

  With such a configuration, the antistatic cover 1 can be attached to and detached from the tube 2. That is, when the antistatic cover 1 is attached to the tube 2, first, an external force is applied to the antistatic cover 1 in order to deform the cover body 10. In this way, the antistatic cover 1 is changed from the normal form to the deformed form, and the gap 15 that allows the tube 2 to pass between the first divided part 11 and the second divided part 12 is formed.

  And the said tube 2 is moved toward the said cover main body 10 from the said clearance gap 15 located between the said 1st parting part 11 and the said 2nd parting part 12. FIG. After the movement, the cover main body 10 is elastically deformed so that the cover main body 10 externally fits the tube 2. Thereby, as shown in FIG.1 and FIG.8 (b), the said cover main body 10 can be changed into a covering form, and the attachment operation | work of the said antistatic cover 1 can be completed.

  On the other hand, when the antistatic cover 1 is removed from the tube 2, an external force is applied to the antistatic cover 1 in order to deform the cover body 10. In this way, the antistatic cover 1 is changed from the covering form to the deformed form, and the tube 2 is moved from the gap 15 toward the outside of the cover main body 10. Thereby, as shown to Fig.4 (a), the said antistatic cover 1 can be returned to a normal form, and the removal operation | work of the said antistatic cover 1 can be completed.

  As shown in FIGS. 1 to 7, in the antistatic cover 1, the cover body 10 has a notch 16. The notch portion 16 is provided along the circumferential direction of the cover body 10 between the first dividing portion 11 and the second dividing portion 12 in the cover body 10. The cutout portion 16 has a length L2 of 40% or more with respect to the length L1 of one round of the cover body 10 described above with respect to the circumferential direction of the cover body 10.

  In the present embodiment, the cutout portion 16 is constituted by a single long hole-like through hole that penetrates the cover body 10 in the radial direction. The notch 16 has a predetermined axial center width W1 and is provided on the inner side of the peripheral edge of the cover body 10.

  In the cover body 10, a first narrow portion 17 is formed between the cutout portion 16 and the circumferential end surface 13 of the first dividing portion 11. Further, in the cover body 10, a second narrow width portion 18 is formed between the notch portion 16 and the other circumferential end surface 14 of the second dividing portion 12.

  The first narrow width portion 17 and the second narrow width portion 18 are each in the circumferential direction of the cover body 10 even when the cover body 10 is bent in the axial direction. 10 in the circumferential direction to the extent that the regions on both sides in the axial direction sandwiching the notch 16 are maintained (for example, equivalent to the wall thickness of the cover body 10, twice this wall thickness, or 5 Times).

  Here, it is preferable that the radial depth of the notch 16, that is, the thickness of the cover body 10 is set to a predetermined value within a range of 0.5 mm to 2 mm.

  With the above configuration, when the antistatic cover 1 is used for the existing tube 2, the tube 2 is covered with the antistatic cover 1 so that the cover body 10 surrounds the entire circumference of the tube 2. Therefore, the tube 2 can be prevented from being charged regardless of the flow rate of the fluid flowing through the tube 2. Accordingly, the antistatic performance can be imparted to the tube 2 using the antistatic cover 1.

  When the antistatic cover 1 is attached to or detached from the tube 2, the cover body 10 is deformed so as to widen the space between the first dividing portion 11 and the second dividing portion 12, and the cover body 10 is The tube 2 can be covered or removed from one side. Therefore, even when the tube 2 is connected to a predetermined device or the like of the manufacturing apparatus, the antistatic cover 1 can be easily attached to and detached from the tube 2.

  Moreover, in the cover body 10, the first narrow width portion 17 and the second narrow width portion 18 can be formed by the notch portion 16, so that the cover body 10 can be easily bent in the axial direction. Can be a thing. Therefore, even when the tube 2 is already installed in a state of being bent in the axial direction, the cover body 10 can be easily bent in accordance with the bent tube 2. It becomes. Therefore, the attachment / detachment of the antistatic cover 1 to the tube 2 can be facilitated.

  As shown in FIGS. 1 to 7, in the present embodiment, a plurality of the notches 16 are provided in the axial direction of the cover body 10. The plurality of notches 16 are arranged at predetermined intervals from one end side to the other end side in the axial direction of the cover body 10. Here, the intervals between the adjacent cutout portions 16 and 16 are substantially equal.

  With such a configuration, the cover body 10 can be bent more easily in the axial direction.

  As shown in FIGS. 2, 3, 6, and 7, in the present embodiment, the cover main body 10 has at least one notch portion different from the notch portion 16. The another notch is at least one of the first dividing portion 11 and the second dividing portion 12 and is disposed between the adjacent notches 16 and 16.

  Specifically, the other cutout portion includes a plurality of first cutout portions 25 in the first cutout portion 11 and a plurality of second cutout portions 26 in the second cutout portion 12. The first cutout portion 25 and the second cutout portion 26 have lengths L3 and L4 with respect to the circumferential direction of the cover main body 10, and overlap the cutout portion 16 with respect to the axial center direction of the cover main body 10. In order not to overlap (here, not to overlap), they are alternately arranged at a predetermined interval.

  The first cutout portion 25 penetrates the cover body 10 in the radial direction and extends from the circumferential end surface 13 of the first dividing portion 11 toward the circumferential center of the cover body 10. It is the recessed part formed by the notch. The first notch 25 has a substantially constant axial width W2, and has an axial width W2 that is substantially the same or larger (substantially the same here) than the axial width of the notch 16. Have.

  The second cutout portion 26 penetrates the cover body 10 in the radial direction and extends from the other circumferential end surface 14 of the second dividing portion 12 toward the circumferential center of the cover body 10. It is the recessed part formed by the notch. The second notch 26 has a substantially constant axial width W3, and has an axial width W3 that is substantially the same or larger (substantially the same here) than the axial width of the notch 16. doing.

  The same number of the second notches 26 as the first notches 25 are provided. As shown in FIG. 7, the second cutout portion 26 is disposed symmetrically with the first cutout portion 25 with a short-side center line 27 of the cover body 10 when the antistatic cover 1 is unfolded. Thus, when the cover body 10 takes the normal form and the cover form, the through hole can be formed in cooperation with the continuous first cutout 25.

  With such a configuration, the cover body 10 can be more easily bent in the axial direction while sufficiently securing the antistatic performance imparted to the tube 2 by the antistatic cover 1. Further, when the cover main body 10 surrounds the tube 2, if the tube 2 is transparent or translucent, the second cut-out portion (the first cut-out portion 25 and the second cut-out portion 26) is used. The state inside the tube 2 can be visually confirmed.

  In the cover body 10, in addition to the cutout portions such as the first cutout portion 25 and the second cutout portion 26, as shown in FIG. A third cutout 53 may be provided, or a fourth cutout 54 may be provided between the adjacent second cutouts 26 and 26. Further, in place of the first cutout portion 25 and the second cutout portion 26, as shown in FIG. 10, a fifth cutout portion 55 and a sixth cutout portion 56 which are located on substantially the same circumference as the cutout portion 16 are provided. It may be provided.

  Further, in the cover main body 10, instead of the first cutout portion 25 and the second cutout portion 26, as shown in FIG. A seventh cutout 57 is provided on the first dividing portion 11 side of the cover main body 10 and an eighth cutout 58 is formed on the second cutout of the cover main body 10 so as to be asymmetric with respect to the center line 27. You may provide in the part part 12 side.

  Further, as shown in FIGS. 1 to 7, in the above embodiment, the closed portions 21 and 22 on both ends in the circumferential direction of the notch portion 16 are rounded. Specifically, the circumferential one end side blocking portion 21 of the notch portion 16 is formed in a curved (arc) shape that is convex toward the circumferential one end surface 13 of the first dividing portion 11. The circumferential direction other end side blocking portion 22 of the notch portion 16 is formed in a curved (arc) shape that is convex toward the circumferential other end surface 14 of the second dividing portion 12.

  With such a configuration, the cover body 10 can be more easily bent in the axial direction without being damaged.

  In said embodiment, the said notch part 16 has the axial direction width W1 of 15 mm or less. The notch 16 has a maximum width W1 in the axial direction except for the closed portions 21 and 22 and has a maximum width of 15 mm, and is rounded at each of the closed portions 21 and 22. It has the minimum width that can be applied. Specifically, the axial width of the notch 16 is set within a range of 0.1 mm to 15 mm.

  If the axial width W1 of the notch 16 is set large within the above range, the notch 16 may be transparent or semi-transparent when the tube 2 is covered with the antistatic cover 1. The state (for example, the direction of fluid flow or the degree of clogging) in the tube 2 can be visually confirmed through the portion 16.

  Further, in the above-described embodiment, the notch portions are respectively provided in the closing portion 28 on the other circumferential end side of the first notch portion 25 and the closing portion 29 on the one circumferential end side of the second notch portion 26. Like the 16 closed portions 21 and 22, rounding is performed. A metal wire 30 such as a copper wire connected to the ground wire is wound between the corresponding closed portions 28 and 29 with respect to the axial direction of the cover body 10 (see FIG. 1).

  The metal wire 30 may be wound around the cover body 10 between the closed portion 21 of the cutout portion 16 and the closed portion 28 of the first cutout portion 25, or the closed portion of the cutout portion 16. 22 and the closing part 29 of the second notch 26 may be wound.

  As shown in FIG. 4, in the above-described embodiment, the cover main body 10 is formed in a cylindrical shape in a state where the first divided portion 11 and the second divided portion 12 are overlapped. That is, when the cover body 10 takes a normal form, the second dividing portion 12 is disposed radially inward of the first dividing portion 11, and the first dividing portion 11, the second dividing portion 12, Overlapping portions 31 are provided in a part of the cover body 10 in the circumferential direction.

  With such a configuration, it is possible to expand the change range of the inner diameter (the radial width on the inner peripheral side) that can be taken when the cover body 10 surrounds the tube 2. Therefore, for example, not only the tube 2 having an outer diameter that is substantially the same as the inner diameter of the cover body 10 in the normal configuration, but also thicker than the tube 2 as shown in FIG. It can also be attached to and detached from the tube 20 within a predetermined allowable range. That is, the antistatic cover 1 can be used for a plurality of tubes having different outer diameters instead of a single type of tube having a predetermined outer diameter.

  As shown in FIGS. 3, 6, and 7, in the above-described embodiment, chamfering is performed on each opening edge of the first cutout portion 25 and the second cutout portion 26. . That is, a chamfered portion 33 is formed at the opening edge portion of the first cutout portion 25 located on the circumferential end surface 13 of the first dividing portion 11. A chamfered portion 34 is formed at the opening edge of the second cutout portion 26 located on the other circumferential end surface 14 of the second dividing portion 12.

  With such a configuration, when the antistatic cover 1 is attached to and detached from the tube 2, the first and second divided portions 11 and 12 of the cover body 10 are brought into contact with the tube 2. It is possible to prevent the tube 2 from being damaged.

  The cutout portion according to the present invention is the cutout portion 16 in the above embodiment, but is not limited thereto, and may be a cutout portion 71 as shown in FIG. It is good also as the notch part 72 as shown in FIG. 14, and it is good also as the notch part 73 which consists of a some notch part arrange | positioned on the substantially same periphery as shown in FIG. 14, FIG. In the figure, components that are substantially the same as those of the above-described embodiment are denoted by the same reference numerals.

  That is, as shown in FIG. 12, the cutout portion according to the present invention is longer than the length L2 of the above-described embodiment with respect to the length L1 of one round of the cover body 10 in the circumferential direction of the cover body 10. The long hole-shaped cutout 71 having a length L5 may be used. Further, as shown in FIG. 13, the notch portion according to the present invention has a length L6 of 40% or more with respect to the length L1 of one circumference of the cover body 10 in the circumferential direction of the cover body 10, and It may be the rectangular cutout 72 having a circumferential direction of the cover body 10 as a longitudinal direction and rounded corners.

  Further, as shown in FIGS. 14, 15, and 16, the notch according to the present invention includes a seventh notch 75 provided in the first dividing part 11 and an eighth provided in the second dividing part 12. The cutout portion 73 including the cutout portion 76 may be used. In this case, the seventh cutout portion 75 and the eighth cutout portion 76 are arranged on substantially the same straight line with respect to the circumferential direction of the cover body 10. The seventh notch 75 has an axial width W4, and the eighth notch 76 has an axial width W5 substantially the same as the axial width W4.

  Then, with respect to the circumferential direction of the cover body 10, the length of the notch 43, that is, the length (L 7 + L 8) obtained by adding the length L 8 of the eighth notch 76 to the length L 7 of the seventh notch 75. The cover body 10 is set to have a length of 40% or more with respect to the length L1 of one round of the cover body 10. Here, the narrow width portion 77 of the notch 73 is formed on both sides of the cover body 10 in the axial direction sandwiching the notch 73 even when the cover body 10 is bent in the axial direction. It has a size enough to keep the regions connected.

  In addition, in this case, as shown in FIGS. 14 and 16, the cover main body 10 is penetrated as a notch part different from the notch part 73 (the seventh notch part 75 and the eighth notch part 76). You may provide the at least 1st 9th notch part 78 which consists of a through-hole which does. According to this, when the cover body 10 surrounds the tube, if the tube is transparent or translucent, the state in the tube 2 is visually confirmed through the notch 73 and the ninth notch 78. Is possible.

  In each of the embodiments described above, the content of the conductive substance in the resin composition constituting the cover body 10 is the antistatic performance obtained when the tube 2 is covered with the cover body 10, and the tube 2. From the viewpoints of the detachability of the cover body 10 with respect to the above, the repeatability of detachment, and the mountability, it is preferably set to 1 to 20%, more preferably 5 to 20%, and further preferably 5 to 15%.

DESCRIPTION OF SYMBOLS 1 Antistatic cover 2 Tube 10 Cover main body 11 1st part part 12 2nd part part 15 Crevice 16 Notch part 21 The circumferential direction one end side obstruction | occlusion part of a notch part 22 The circumferential direction other end side obstruction | occlusion part of a notch part 25 1st notch part (Another notch)
26 Second cutout (another cutout)
53 3rd notch (another notch)
54 Fourth cutout (another cutout)
55 5th cutout (another cutout)
56 6th notch (another notch)
57 Seventh notch (another notch)
58 8th notch (another notch)
71 Notch portion 72 Notch portion 73 Notch portion 75 7th notch portion 76 8th notch portion 78 9th notch portion (another notch portion)

Claims (5)

An antistatic cover for covering the tube made of insulating resin,
Made of a resin composition containing a conductive substance, comprising a cylindrical cover body that can surround the entire circumference of the tube,
The cover main body is divided at one place in the circumferential direction so that the first divided portion and the second divided portion are formed, and a gap through which the tube can pass is the first divided portion and the second divided portion. It is configured to be elastically deformable so that it can be between
The cover body has a cutout portion provided along a circumferential direction of the cover body between the first dividing portion and the second dividing portion,
The notch has a length of 40% or more with respect to the length of one round of the cover body in the circumferential direction of the cover body ,
An antistatic cover , wherein the cover body is connected to ground .   The antistatic cover according to claim 1, wherein a plurality of the notches are provided in the axial direction of the cover main body.   The cover main body has a notch portion different from the notch portion between at least one of the first dividing portion and the second dividing portion and adjacent notches among the plurality of notch portions. The antistatic cover according to claim 2, wherein the antistatic cover is provided. Wherein the closed portion of the circumferential direction end sides of the notch, antistatic cover according to any one of claims 1 or we claim 3, characterized in that the radius processing is given.   The said cover main body is formed in the cylinder shape in the state which accumulated the said 1st parting part and the said 2nd parting part, The Claim 1 characterized by the above-mentioned. Antistatic cover.

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