JP5136318B2 - Magnet roll - Google Patents

Description

  The present invention relates to a magnet roll used in an image forming apparatus such as a laser printer or a digital copying machine.

  2. Description of the Related Art Conventionally, a magnet roll has been provided in which a plurality of magnetic pole pieces having a substantially fan-shaped cross-section in the short direction are bonded radially using an adhesive around a shaft (see, for example, Patent Documents 1 to 7). .

  Each magnetic pole piece of these so-called bonded magnet rolls has unique functions such as, for example, a developing electrode, a pumping electrode, a layer regulating electrode, a conveying electrode, a peeling electrode, and the magnetic pattern differs depending on each function. It is necessary to stick to the shaft in a predetermined order.

  And since the magnetic pattern of a magnetic pole piece is generally left-right asymmetric in the circumferential direction of an outer peripheral surface, a magnetic pole piece has directionality. For this reason, the assembly operator of the magnet roll needs to pay attention to the direction of the magnetic pole piece when attaching the magnetic pole piece to the shaft.

JP 2003-229309 A JP 2003-229321 A JP 2001-034068 A JP 2000-077565 JP-A-10-308308 Japanese Patent Laid-Open No. 01-114011 JP-A-62-282422

  However, since the magnetic pole piece is a long part having a substantially fan-shaped cross section, it is very difficult to identify the direction of the magnetic pole piece from the appearance, and there is a problem that erroneous assembly occurs. If such a misassembled magnet roll is used in a developing device, the desired toner cannot be supplied to the photoconductor disposed opposite to the developing device, and a desired toner image cannot be formed on the surface of the photoconductor. The problem arises.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide a magnet roll that can easily detect misassembly of magnetic pole pieces.

(First invention)
A magnet roll according to a first aspect of the present invention relates to a magnet roll in which a magnet portion is formed by bonding a plurality of substantially sector-shaped magnetic pole pieces to a peripheral surface of a shaft. In each of the at least two continuous magnetic pole pieces, notches are formed at both ends in the circumferential direction on the side facing the shaft at both ends in the longitudinal direction. When correctly bonded to the peripheral surface of the shaft, the shape formed by the notches alone at both ends of the magnet portion and the shape formed by combining the notches are all the same. In addition, when the magnetic pole pieces located at both ends of the magnetic pole pieces having the notches are mistakenly attached to the peripheral surface of the shaft, the shape formed by the notches alone at both ends of the magnet portion is combined with the notches. The formed shapes are not all the same.

 Here, the magnet portion of the magnet roll refers to a magnet portion formed by a plurality of magnetic pole pieces 3 to 8 attached to the shaft 2, as shown by hatching in FIG. The both ends of the magnet unit 41 refer to one end 42 and the other end 43 of the magnet unit 41 indicated by hatching in FIG.

  Moreover, the magnetic pole piece located in both ends among the magnetic pole pieces which have a notch is demonstrated. For example, in a magnet roll in which seven magnetic pole pieces are attached to the peripheral surface of the shaft, the magnetic pole pieces are attached to the shaft in the order of magnetic pole piece 1, magnetic pole piece 2, magnetic pole piece 3,. Suppose that it is attached.

[Example 1] If notches are formed only in the magnetic pole piece 2 and the magnetic pole piece 3, the magnetic pole pieces located at both ends are the magnetic pole piece 2 and the magnetic pole piece 3.
[Example 2] If notches are formed only in the magnetic pole pieces 2, 3, 4 and 5, the magnetic pole pieces located at both ends become the magnetic pole piece 2 and the magnetic pole piece 5.

  With the above configuration, when the operator looks at one or both ends of the magnet part to which the magnetic pole piece of the magnet roll is attached, the shape formed by the notch alone and the shape formed by combining the notches are formed. If all are the same, you can confirm that the assembly is correct. On the other hand, when the operator looks at one or both ends of the magnet part, if the shape formed by the notches alone and the shape formed by combining the notches are not all the same, the assembly will be mistaken. Can be confirmed.

  Thus, with the configuration according to the first aspect of the present invention, the shapes formed in the magnet portion of the magnet roll by the notch are compared, and it is determined whether the assembly is incorrect or not by a simple determination of whether they are the same or not. Therefore, a defective product (misassembled product) of a magnet roll that is misassembled can be found easily and in a short time, and can be removed from the production process of a copying machine or the like.

(Second invention)
The magnet roll according to a second invention is the magnet roll according to the first invention, wherein notches are formed in at least two continuous magnetic pole pieces, and notches are formed in the magnetic pole pieces located outside the at least two continuous magnetic pole pieces. When the magnetic pole piece having the notch is correctly bonded to the peripheral surface of the shaft, the notches located on the surfaces where the magnetic pole pieces having the notch are in contact with each other are joined at both ends of the magnet part. The shape to be formed is the same as the shape in which the notches located on the surfaces opposite to the surfaces where the magnetic pole pieces having the notches contact each other are formed independently at both ends of the magnet portion.

  Here, a case where a notch is formed in at least two continuous magnetic pole pieces and a notch is not formed in the magnetic pole piece located outside the at least two continuous magnetic pole pieces will be described. For example, in a magnet roll in which seven magnetic pole pieces are attached to the peripheral surface of the shaft, the magnetic pole pieces are attached to the shaft in the order of magnetic pole piece 1, magnetic pole piece 2, magnetic pole piece 3,. Suppose that it is attached.

  [Example 1] If notches are formed only in the magnetic pole piece 2 and the magnetic pole piece 3, the continuous magnetic pole pieces become the magnetic pole piece 2 and the magnetic pole piece 3. The magnetic pole pieces positioned outside the continuous magnetic pole pieces are the magnetic pole piece 1 and the magnetic pole piece 4.

  [Example 2] If notches are formed only in the magnetic pole pieces 2, 3, 4, and 5, the continuous magnetic pole pieces are the magnetic pole pieces 2, 3, 4, and 5. The magnetic pole pieces located outside the continuous magnetic pole pieces are the magnetic pole piece 1 and the magnetic pole piece 6.

  Moreover, the surface where the magnetic pole pieces having the notches contact each other means the surface of the magnetic pole piece 2 on the side of the magnetic pole piece 3 and the surface of the magnetic pole piece 3 on the side of the magnetic pole piece 2 in the above-described [Example 1]. In the above-described [Example 2], the surface of the magnetic pole piece 2 on the side of the magnetic pole piece 3, the surface of the magnetic pole piece 3 on the side of the magnetic pole piece 2, the surface of the magnetic pole piece 3 on the side of the magnetic pole piece 4, The surface of the magnetic pole piece 3 side, the surface of the magnetic pole piece 4 on the side of the magnetic pole piece 5 and the surface of the magnetic pole piece 5 on the side of the magnetic pole piece 4 are referred to.

  Since notches are formed in each of these surfaces, in the above-described [Example 1], the notches formed on the surface of the magnetic pole piece 2 on the side of the magnetic pole piece 3 and the magnetic pole piece 3 on the side of the magnetic pole piece 2 are described. A notch formed on the surface of the magnet portion, that is, two notches are combined to form one shape (shape 1-1) at both ends (one end and the other end) of the magnet portion.

  In the above-mentioned [Example 2], the notch formed on the surface of the magnetic pole piece 2 on the side of the magnetic pole piece 3 and the notch formed on the surface of the magnetic pole piece 3 on the side of the magnetic pole piece 2 are combined to form the magnet portion. The first shape (shape 2-1) is formed at both ends of the magnetic pole piece 3, the notch formed in the magnetic pole piece 4 side surface of the magnetic pole piece 3 and the cut formed in the magnetic pole piece 4 surface of the magnetic pole piece 4 A second shape (shape 2-2) is formed at both ends of the magnet portion by combining the notches, and the notch formed on the surface of the magnetic pole piece 4 on the magnetic pole piece 5 side and the magnetic pole piece 5 side of the magnetic pole piece 5 When the notches formed on the surface of the magnet portion are combined, a third shape (shape 2-3) is formed at both ends of the magnet portion, and 3 at each end of the magnet portion. Shape is formed.

  In addition, in the above-mentioned [Example 1], the notch that is formed on both ends of the magnet part alone is formed on the surface opposite to the surface where the magnetic pole pieces having the notch are in contact with each other. A notch formed on the first magnetic pole piece side in the magnetic pole piece alone (shape 1-2) formed on both ends of the magnet portion, and formed on the fourth magnetic pole piece side in the third magnetic pole piece. The shape (shape 1-3) formed in the both ends of a magnet part by the notch independently is said.

  In the above-described [Example 2], the fourth shape (shape 2-4) formed on both ends of the magnet portion by a single notch formed on the first magnetic pole piece side in the second magnetic pole piece, and The fifth shape (shape 2-5) is formed at both ends of the magnet portion by a single notch formed on the sixth magnetic pole piece side of the fifth magnetic pole piece.

  And in this 2nd invention, the shape which the notch located in the surface where the magnetic pole piece which has a notch contacts mutually joins is formed in the both ends of a magnet part, and the surface where the magnetic pole piece which has a notch contacts mutually If the notches located on the opposite side are the same and the shapes formed at both ends of the magnet are all the same, the magnet roll assembly operator can easily and visually observe good and defective products (errors). Assembly).

  Specifically, in the above-described [Example 1], it is a non-defective product if all three shapes 1-1, 1-2, and 1-3 formed at both ends of the magnet portion of the magnet roll are the same. If all three shapes are not the same (if at least one of the three shapes is different), it is easily understood that the product is defective.

  Moreover, in above-mentioned [Example 2], if all the shapes 2-1, 2-2, 2-3, 2-4 and 2-5 formed at both ends of the magnet portion of the magnet roll are the same, it is a non-defective product. Yes, it is easy to see that the five shapes are not identical (if at least one of the five shapes is different), it is a defective product.

(Third invention)
In the magnet roll according to the third invention, in the first invention or the second invention, the magnetic pole piece in which the notch is not formed has a concave portion or a chamfered portion on the side facing the shaft at one end in the longitudinal direction. Is.

  With this configuration, the polarity difference (reverse attachment) can be easily determined by looking at one or both ends of the magnet portion of the magnet roll even with respect to the magnetic pole piece in which the notch is not formed.

(Fourth invention)
The magnet roll according to a fourth aspect of the present invention is the magnet roll according to the third aspect, wherein the size of the concave portion or the chamfered portion is different for each magnetic pole piece.
Here, the size of the concave portion is the volume of the concave portion or the chamfered portion. In other words, the volume of the portion removed from the magnetic pole piece when forming the recess or chamfer.

  With this configuration, when the operator attaches the magnetic pole piece to the shaft, the direction and type of the magnetic pole piece can be determined by looking at the recess or chamfer formed at one end of the magnetic pole piece. Further, even after the assembly of the magnet roll, if the operator looks at one end of the magnet portion of the magnet roll, it is possible to easily determine whether or not the magnetic pole piece has a direction difference (reverse mounting).

  According to the present invention, it is possible to provide a magnet roll that can easily find the reverse of the magnetic pole piece after assembly.

  Hereinafter, the present invention will be described in detail using examples.

(Magnet roll)
First, a magnet roll targeted by the present invention will be described.
1 is a perspective view of the magnet roll, FIG. 2 is a side view of one end of the magnet roll (good product) (arrow A in FIG. 1), and FIG. 3 is a side view of the other end of the magnet roll (good product) (arrow in FIG. 1). 4) is a perspective view of one end of the magnetic pole piece 3, FIG. 5 is a perspective view of the other end of the magnetic pole piece 3, FIG. 6 is a perspective view of one end of the magnetic pole piece 8, and FIG. FIG. 8 is a side view of one end of a magnet roll (defective product) (arrow A in FIG. 1), and FIG. 9 is a side view of the other end of the magnet roll (defective product) (arrow B in FIG. 1). It is.

  As shown in FIGS. 1 to 3, for example, a magnet roll 1 targeted by the present invention includes a plurality of magnetic pole pieces 3 having a substantially fan-shaped cross section around a cylindrical metal shaft 2. -8 are bonded together with an adhesive in a radial pattern. More specifically, around the shaft 2, the magnetic pole piece 5 of the pumping pole S3, the magnetic pole piece 4 of the trimming pole N2, the magnetic pole piece 3 of the developing pole S1, and the magnetic pole piece 8 of the recovery (conveying) pole N1; The magnetic pole piece 7 of the separation pole S2 and the interposition pole piece 6 are pasted in this order.

(Magnetic pole piece)
These magnetic pole pieces 3 to 8 are manufactured by molding a mixture of magnet material powder, resin binder, additive and the like in a magnetic field. As the magnet material powder, for example, a mixture of ferrite powder, rare earth metal powder such as Nd, and iron group metal powder such as Fe, Co, and Ni is used. As the resin binder, for example, polyamide, polyethylene, polypropylene, epoxy resin, ethylene ethyl acrylate (EEA), or the like is used.

  Further, among the magnetic pole pieces 3 to 8, the three continuous magnetic pole pieces 4, 3 and 8 are notched at both ends in the circumferential direction on the side facing the shaft 2 at both ends in the longitudinal direction. Is formed. This point will be specifically described below.

(1) Magnetic pole piece 3
As shown in FIGS. 1 to 5, the magnetic pole piece 3 has notches 11 and 12 at both ends in the circumferential direction of the side 28 facing the shaft 2 at one end in the longitudinal direction (in the vicinity of the one end 15 and the one end 15). Is formed. The lengths E in the longitudinal direction of the notches 11 and 12 are the same, and the volumes of the notches 11 and 12 (the volume of the portion removed from the magnetic pole piece 3 when forming the notches 11 and 12) are also the same. . That is, the area of the notch 11 and the notch 12 occupying one end 15 of the magnetic pole piece 3 is the same, and the notch 11 facing the one end 15 of the magnetic pole piece 3 (when viewed from the one end 15 of the magnetic pole piece 3) The shape of the notch 12 is the same.

  Further, notches 17 and 18 are formed at both ends in the circumferential direction of the side 29 facing the shaft 2 at the other end in the longitudinal direction of the magnetic pole piece 3 (the other end 16 and the vicinity of the other end 16). . The lengths F (> E) in the longitudinal direction of the notches 17 and 18 are the same, and the volumes of the notches 17 and 18 (volume of the portion removed from the magnetic pole piece 3 when forming the notches 17 and 18). Is the same. That is, the area of the notch 17 and the notch 18 occupying the other end 16 of the magnetic pole piece 3 is the same, and the notch facing the other end 16 of the magnetic pole piece 3 (when viewed from the other end 16 of the magnetic pole piece 3). The shape of the notch 17 and the notch 18 is the same.

The four cutouts (11, 12, 17, 18) formed in the magnetic pole piece 3 have the same area in the four cutouts in the one end 15 and the other end 16 of the magnetic pole piece 3, and one end The shapes of these four notches facing the 15 and the other end 16 are all the same.
Here, the length in the longitudinal direction of the notches 11 and 12 at one end is E, and the length in the longitudinal direction of the notches 17 and 18 at the other end is F (> E). This is to enable the operator to easily determine the direction when attaching to the shaft 2.

(2) Magnetic pole piece 8
As shown in FIGS. 1, 2, 3, 6, and 7, the magnetic pole piece 8 is arranged in the circumferential direction of the side 30 facing the shaft 2 at one end in the longitudinal direction (in the vicinity of the one end 19 and the one end 19). Notches 9 and 10 are formed at both ends. The lengths H in the longitudinal direction of the notches 9 and 10 are the same. However, the notch 9 is formed with an angle C from the end surface 32, whereas the notch 10 is formed with an angle D (= C / 2) from the end surface 33. .

  For this reason, the volume of the notch 9 (the volume of the part removed from the magnetic pole piece 8 when forming the notch 9) is the same as the volume of the notch 10 (the part removed from the magnetic pole piece 8 when forming the notch 10). 2 times the volume). That is, the area of the notch 9 occupying the one end 19 of the magnetic pole piece 8 is twice the area of the notch 10. The shape of the two notches 10 facing the one end 19 of the magnetic pole piece 8 and the shape of the notch 9 facing the one end 19 are the same.

  Further, notches 21 and 22 are formed at both ends in the circumferential direction of the side 31 facing the shaft 2 at the other end in the longitudinal direction of the magnetic pole piece 8 (the other end 20 and the vicinity of the other end 20). . The lengths G (> H) in the longitudinal direction of the notches 21 and 22 are the same. However, the notch 22 is formed with an angle C from the end face 34, whereas the notch 21 is formed with an angle D (= C / 2) from the end face 35. . Therefore, the volume of the notch 22 (the volume of the part removed from the magnetic pole piece 8 when forming the notch 22) is the volume of the notch 21 (the part removed from the magnetic pole piece 8 when forming the notch 21). 2 times the volume). That is, the area of the notch 22 occupying the other end 20 of the magnetic pole piece 8 is twice the area of the notch 21. The shape of the two notches 21 facing the other end 20 of the magnetic pole piece 8 arranged side by side is the same as the shape of the notch 22 facing the other end 20.

  The area of the notch 10 occupying one end 19 of the magnetic pole piece 8 and the area of the notch 21 occupying the other end 20 of the magnetic pole piece 8 are the same, and the shape of the notch 10 facing the one end 19 of the magnetic pole piece 8 is the same. The shape of the notch 21 facing the other end 20 of the magnetic pole piece 8 is the same.

  The area of the notch 9 occupying one end 19 of the magnetic pole piece 8 is the same as the area of the notch 22 occupying the other end 20 of the magnetic pole piece 8, and the shape of the notch 9 facing the one end 19 of the magnetic pole piece 8 is the same. The shape of the notch 22 facing the other end 20 of the magnetic pole piece 8 is the same.

  Here, the length in the longitudinal direction of the notches 9 and 10 at one end is H, and the length in the longitudinal direction of the notches 21 and 22 at the other end is G (> H). This is to enable the operator to easily determine the direction when attaching to the shaft 2.

(Magnetic pole piece 4)
Since the configuration of the magnetic pole piece 4 is basically the same as the configuration of the magnetic pole piece 8, the description thereof is omitted.

(Magnetic roll good product)
2 and 3 show a magnet roll in which magnetic pole pieces 4, 3 and 8 having notches are attached in the correct direction.
The area of the notch 10 occupying one end 19 of the magnetic pole piece 8 is α, and the shape of the notch 10 facing the one end 19 is β (substantially fan shape shown in FIG. 17A, hereinafter referred to as “FIG. 17 a”). Then, as described above, the area of the notch 9 occupying one end 19 of the magnetic pole piece 8 is 2α, and the shape of the notch 9 facing the one end 19 is 2β (the substantially fan shape shown in FIG. As shown in FIG. 17B, the two adjacent fan shapes shown in FIG. 17C are referred to as “FIG. 17c”.

  Further, when the area of the notch 11 occupying the one end 15 of the magnetic pole piece 3 is α and the shape facing the one end 15 is β (FIG. 17 a), as described above, the notch 12 occupying the one end 15 of the magnetic pole piece 3. The area is α, and the shape of the notch 12 facing the one end 15 is β (FIG. 17A). Similarly, if the area of the notch 13 occupying one end of the magnetic pole piece 4 is α and the shape of the notch 13 facing one end is β (FIG. 17 a), the area of the notch 14 occupying one end of the magnetic pole piece 4 is 2α. The shape of the notch 14 facing one end is 2β (FIG. 17c).

  Similarly, assuming that the area of the notch 21 occupying the other end 20 of the magnetic pole piece 8 is α and the shape of the notch 21 facing the other end 20 is β (FIG. 17a), the other end also has the magnetic pole piece as described above. The area of the notch 22 occupying the other end 20 of 8 is 2α, and the shape of the notch 22 facing the other end 20 is 2β (FIG. 17c).

  Further, if the area of the notch 17 occupying the other end 16 of the magnetic pole piece 3 is α, and the shape of the notch 17 facing the other end 16 is β (FIG. 17A), as described above, the other end of the magnetic pole piece 3 The area of the notch 18 occupying 16 is α, and the shape of the notch 18 facing the other end 16 is β (FIG. 17 a). Similarly, if the area of the notch 36 occupying the other end of the magnetic pole piece 4 is α and the shape of the notch 36 facing the other end is β (FIG. 17 a), the notch 37 occupying the other end of the magnetic pole piece 4 The area is 2α, and the shape of the notch 37 facing the other end is 2β (FIG. 17c).

  Since the magnet roll 1 has the above-described configuration, when the magnetic pole pieces 4, 3 and 8 are correctly attached to the shaft 2, (1) notches located on the surfaces where the magnetic pole pieces 4, 3 and 8 are in contact with each other Are formed at both ends of the magnet portion, that is, the fan shown in the shape 2β (the shape β (FIG. 17A)) and 12 (the shape β (FIG. 17A)) and the shape 2β (FIG. 17A). 17 (b), which is adjacent to two shapes, hereinafter referred to as “FIG. 17b”), from notches 11 (shape β (FIG. 17a)) and 10 (shape β (FIG. 17a)). A shape 2β (FIG. 17b), a notch 21 (shape β (FIG. 17a)) and 17 (shape β (FIG. 17a)), a shape 2β (FIG. 17b), and a notch 18 (shape β (FIG. 17a)). 36 (shape β (FIG. 17a)) Four shapes of the shape 2β (FIG. 17b), and (2) a shape in which notches located on surfaces opposite to the surfaces where the magnetic pole pieces having the notches contact each other are formed independently at both ends of the magnet part, That is, the notch 14 (shape 2β (FIG. 17c)), the notch 9 (shape 2β (FIG. 17c)), the notch 22 (shape 2β (FIG. 17c)), and the notch 37 (shape 2β (FIG. 17c)). A total of eight shapes of the four shapes of)) are all the same.

(Defective magnet roll)
8 and 9 show a magnet roll in which the magnetic pole piece 8 having a notch is attached in the wrong direction.
When the magnet portion is viewed from one end of the magnet roll 1, as shown in FIG. 8, the direction of the magnetic pole piece 8 is reversed, so that the notch 11 at one end 15 of the magnetic pole piece 3 and the other end 20 of the magnetic pole piece 8. The area formed by the notch 22 is 3α, and the shape is 3β (the shape shown in FIGS. 17 (a) and 17 (c) is adjacent to a substantially fan shape).

  And the area of the notch 21 located on the surface opposite to the surface where the magnetic pole pieces having the notch are in contact with each other is α, and the shape is β (FIG. 17a). That is, like the above-described good magnet roll (FIG. 2), the shape formed by combining the notches (2β (FIG. 17b)) and the shape where the notches are formed independently (2β (FIG. 17c)) Is different.

  Similarly, when the magnet portion is viewed from the other end of the magnet roll 1, it is formed by a notch 17 at the other end 16 of the magnetic pole piece 3 and a notch 9 at one end 19 of the magnetic pole piece 8 as shown in FIG. The area is 3α and the shape is 3β. And the area of the notch 10 located in the surface on the opposite side to the surface which the magnetic pole pieces which have a notch mutually contact is (alpha), and the shape is (beta) (FIG. 17a). That is, as in the above-described non-defective magnet roll (FIG. 3), a shape (2β (FIG. 17b)) formed by combining notches and a shape (2β (FIG. 17c)) formed by notches alone. Is different.

  As described above, when the magnet portion of the magnet roll 1 is viewed from one end or the other end, the notches located on the surfaces where the magnetic pole pieces 4, 3 and 8 are in contact with each other are joined together, The shapes in which the notches located on the surfaces opposite to the surfaces where the magnetic pole pieces having the notches contact each other are formed independently at both ends of the magnet portion are not the same. For this reason, the operator can easily find the reverse of the magnetic pole piece 8 only by looking at the shape of the notch. The above is the same when the magnetic pole piece 4 having a notch is attached in the wrong direction.

  In the first embodiment, when the magnetic pole piece 3 is affixed in the wrong direction, it is not possible to find the reverse attachment only by looking at the notch. However, as shown in FIG. 4 and FIG. 5, the pole piece 3 has a length (E, F) in the longitudinal direction of the cutout at the one end 15 and the other end 16. In this case, the direction can be confirmed in advance, and erroneous assembly can be prevented. Further, even after the magnetic pole piece 3 is attached to the shaft 2, whether the magnetic pole piece 3 is reversed or not depends on whether there is a gate cut trace remaining at one end 15 of the magnetic pole piece 3 as shown in FIG. 4. Easy to judge.

  The reason why the notches of each magnetic pole piece are provided on both ends in the circumferential direction on the side opposite to the shaft in the longitudinal direction is to prevent the magnetic characteristics of the magnetic pole piece from being disturbed by the notch. .

A second embodiment according to the present invention will be described with reference to FIGS.
10 is a side view of one end of the magnet roll (non-defective product), FIG. 11 is a side view of one end of the magnet roll (defective product), and FIG. 12 is a perspective view of one end of the magnetic pole piece 5.
Only the differences from the first embodiment will be described in detail, and the same parts as those of the first embodiment will be denoted by the same reference numerals and the description thereof will be omitted.

  The difference of the second embodiment from the first embodiment is that a concave portion is formed on the side facing the shaft 2 at one end in the longitudinal direction of the magnetic pole pieces 5, 6 and 7 in which notches are not formed. Since these three magnetic pole pieces are thin in the circumferential direction, it is difficult to form notches as formed in the magnetic pole pieces 4, 3, and 8, and thus concave portions are formed.

  As shown in FIG. 12, a recess 24 is formed at one end 26 of the magnetic pole piece 5 on the side facing the shaft 2. And the recessed part 24 is not formed in the other end of the magnetic pole piece 5. FIG. This configuration is the same for the magnetic pole pieces 6 and 7.

  Therefore, when the magnetic pole pieces 5, 6 and 7 are attached to the shaft 2 in the correct direction, when one end of the magnet part of the magnet roll 1 is viewed, as shown in FIG. Concave portions are continuous on the side facing the shaft, and the operator can easily confirm that the three magnetic pole pieces without the notches are correctly attached by looking at the continuous concave portions. it can.

Further, when the magnetic pole piece 5 is attached to the shaft 2 by mistake, as shown in FIG. 11, when one end of the magnet portion of the magnet roll 1 is viewed, a concave portion is formed at the other end 27 of the magnetic pole piece 5. The operator can easily find the reverse.
Although explanation is omitted, if the magnetic pole piece 6 and / or the magnetic pole piece 7 is also attached to the shaft 2 with the direction reversed, the reverse attachment can be easily found in the same manner as in the case of the magnetic pole piece 5 described above. .

A third embodiment according to the present invention will be described with reference to FIG.
FIG. 13 is a perspective view of one end of the magnetic pole piece 7.
Only differences from the second embodiment will be described in detail, and the same parts as those of the second embodiment will be denoted by the same reference numerals and description thereof will be omitted.

  The difference of the third embodiment from the second embodiment is that the size of the concave portions formed in the magnetic pole pieces 5, 6 and 7 is different for each magnetic pole piece. Specifically, as shown in FIG. 13, the length in the longitudinal direction of the concave portion 39 of the magnetic pole piece 7 is set to K (> with respect to the length I in the longitudinal direction of the concave portion 24 of the magnetic pole piece 5 shown in FIG. I). Although not shown, the length of the concave portion in the longitudinal direction of the magnetic pole piece 6 is different from that of the magnetic pole pieces 5 and 6.

  With this configuration, when attaching the magnetic pole pieces 5, 6 and 7 to the shaft 2, the operator can easily confirm the type and direction of the magnetic pole piece by looking at the length of the concave portion of each magnetic pole piece. can do.

A fourth embodiment according to the present invention will be described with reference to FIGS.
18 is a perspective view of one end of the magnetic pole piece 5, FIG. 19 is a perspective view of one end of the magnetic pole piece 7, and FIG. 20 is a side view of one end of the magnet roll (non-defective product) (view A in FIG. 1).
Only differences from the second embodiment will be described in detail, and the same parts as those of the second embodiment will be denoted by the same reference numerals and description thereof will be omitted.

  The difference of the fourth embodiment from the second embodiment is that the size of the concave portions formed in the magnetic pole pieces 5 and 7 is varied in the radial direction of each magnetic pole piece. Specifically, as shown in FIG. 18, the radial length of the concave portion 44 of the magnetic pole piece 7 is set to M (> L) with respect to the radial length L of the concave portion 24 of the magnetic pole piece 5. is there.

  With such a configuration, even if the magnetic pole pieces 5 and 7 are similar, the operator can easily observe the length of the concave portion of the magnetic pole piece in the radial direction when attaching the magnetic pole piece to the shaft 2. The type and direction of the piece can be confirmed.

  In addition, as shown in FIG. 20, even after the magnetic pole pieces 5 and 7 are attached to the shaft 2, the magnetic pole piece 5 and the magnetic pole piece 7 can be It can be determined whether or not it is correctly attached to the shaft 2.

  The above-described embodiments are illustrated for the purpose of explanation, and the present invention is not limited to these embodiments. The present invention can be recognized by those skilled in the art from the scope of the claims, the description, and the drawings. Modifications, deletions, and additions are possible as long as they are not contrary to the technical idea of the above.

  For example, in Embodiments 2 and 3 described above, the magnetic pole pieces 5, 6, and 7 have been provided with a concave portion on the side facing the shaft at one end in the longitudinal direction. The chamfer 25 may be used.

  In the above-described embodiment, a magnet roll having six magnetic pole pieces is shown. However, the present invention is not limited to this, and the number of magnetic pole pieces may be five or seven or more.

  The present invention is applied to a magnet roll used in an image forming apparatus or the like.

Perspective view of magnet roll Side view of one end of magnet roll (good product) (view A in FIG. 1) Side view of the other end of the magnet roll (good product) (view B in FIG. 1) Perspective view of one end of the pole piece 3 A perspective view of the other end of the magnetic pole piece 3 Perspective view of one end of the pole piece 6 A perspective view of the other end of the magnetic pole piece 6 Side view of one end of magnet roll (defective product) (arrow A in FIG. 1) Side view of the other end of the magnet roll (defective product) (view B in FIG. 1) Side view of one end of magnet roll (good product) Side view of one end of magnet roll (defective product) A perspective view of one end of the magnetic pole piece 5 Perspective view of one end of the pole piece 7 A perspective view of one end of the magnetic pole piece 5 Perspective view of magnet roll Perspective view of magnet roll Diagram explaining shapes β and 2β A perspective view of one end of the magnetic pole piece 5 Perspective view of one end of the pole piece 7 Side view of one end of magnet roll (good product) (view A in FIG. 1)

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Magnet roll 2 Shaft 3-8 Magnetic pole piece 9-14 Notch 15 One end 16 Other end 17 Notch 18 Notch 19 One end 20 Other end 21 Notch 22 Notch 23 Gate cut trace 24 Recess 25 Chamfer

Claims (4)

In a magnet roll in which a magnet portion is formed by bonding a plurality of substantially sector-shaped magnetic pole pieces to the peripheral surface of the shaft,
Each of the at least two continuous magnetic pole pieces has a notch formed at both ends in the circumferential direction on the side facing the shaft at both ends in the longitudinal direction,
When the magnetic pole piece having the notch is correctly bonded to the peripheral surface of the shaft, a shape formed by the notch alone and a shape formed by combining the notches at both ends of the magnet portion Are all the same,
When the magnetic pole piece located at both ends of the magnetic pole piece having the cutout is mistakenly attached to the peripheral surface of the shaft, the shape formed by the cutout alone at both ends of the magnet portion, and Magnet roll characterized by not all the shapes formed by combining notches being the same The notch is formed in at least two consecutive magnetic pole pieces, and the notch is not formed in the magnetic pole piece located outside the at least two consecutive magnetic pole pieces,
When the magnetic pole piece having the notch is correctly bonded to the peripheral surface of the shaft,
A shape formed at both ends of the magnet portion by combining the notches located on surfaces where the magnetic pole pieces having the notches are in contact with each other;
2. The magnet according to claim 1, wherein the notches located on the opposite sides of the surfaces where the magnetic pole pieces having the notches contact each other have the same shape formed independently at both ends of the magnet portion. roll   3. The magnet roll according to claim 1, wherein the magnetic pole piece in which the notch is not formed has a concave portion or a chamfered portion formed on a side facing the shaft at one end in a longitudinal direction.   The size of the said recessed part or the said chamfering part differs for every said magnetic pole piece, The magnet roll of Claim 3

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