JP2021026805A - Electric heater - Google Patents

Abstract

To provide an electric heater that can be installed in a curved pipe equipped with an elbow or a pipe equipped with a contact component such as a union, thereby simplifying the installation of the entire facility.SOLUTION: The electric heater has a braided body that is cylindrically braided by a plurality of wires including heating wires. The braided body has a plurality of braided elements braided by a plurality of the wires surrounding a mesh along an axial direction of the braided body and/or a circumferential direction of the braided body so that a mesh width decreases from a center side of the mesh of the braided body to an outer edge side of the mesh. The plurality of the braided elements is arranged to go around the circumference of the braided body in at least some sections of the axial direction of the braided body.SELECTED DRAWING: Figure 1

Description

The present invention relates to an electric heater formed in a tubular shape for heating and retaining heat of a fluid flowing in a pipe.

Conventionally, a tape-shaped electric heater has been used to heat and retain the temperature of the fluid flowing in the pipe. For example, in the electric heater described in Patent Document 1, a heating surface is formed by connecting heating wires in parallel between two power supply lines. Then, a tape-shaped electric heater is formed by forming insulating layers above and below the heating surface.

Since this electric heater has a tape shape, when it is attached to a pipe, it is used by winding it in a spiral shape or along the longitudinal direction of the pipe. In either case, it is necessary to separate the two power supply lines in order to ensure the insulation property. Therefore, the two electric heating heaters are used side by side and the two power sources are close to each other. The lines are the same pole. Therefore, the installation work is very complicated.

Further, the tape-shaped electric heater described in Patent Document 2 is used along the longitudinal direction of the pipe, but has a heating band including a heating wire and a non-heating band not containing a heating wire in the width direction. It is divided into. Then, the heating band is attached so as to cover the entire circumference of the pipe, and the non-heating band is put on the heating band for use. Therefore, the installation work is easy and the appearance after construction can be made beautiful.

However, since this electric heater is entirely covered with a cover member, it is difficult to install it on a non-linear pipe. That is, it cannot be installed on a bent pipe or a flexible pipe equipped with an elbow. Moreover, even if it is a straight pipe, it is difficult to construct it if there is a joint part such as a union in the middle.
For this reason, many electric heaters with short lengths are manufactured and used by connecting them, which requires complicated construction.

Further, Patent Document 3 discloses a heating wire used for an electric heater and having a resin coating layer on the surface. Specifically, an inorganic or organic fiber is braided on the surface of the heating wire to form a coating layer, and a synthetic resin is coated on the coating layer to form a resin coating layer. Examples of the synthetic resin used include fluororesin, polyimide, and polyetheretherketone (PEEK).

Japanese Unexamined Patent Publication No. 2004-158271 JP-A-2009-270661 JP-A-2010-97809

An object of the present invention is an electric heater used for raising and retaining heat of a fluid flowing in a pipe, which enables installation on a bent pipe equipped with an elbow or a pipe provided with a joint part such as a union, and enables the entire equipment to be installed. The purpose is to provide an electric heater that can simplify the construction. Another object of the present invention is to provide an electric heater that can be applied to a pipe provided with a flexible hose.

The electric heating heater of the present invention includes a braided body braided in a tubular shape by a plurality of wires including a heating wire, and the braided body is in the axial direction of the braided body and / or in the circumferential direction of the braided body. It has a plurality of braided elements braided by a plurality of the lines surrounding the mesh so that the mesh width becomes smaller as the mesh width of the braided body progresses from the center side of the mesh to the outer edge side of the mesh. Is characterized in that it is arranged so as to go around the circumferential direction of the braided body in at least a part of the axial direction of the braided body.

Further, in the electric heater of the present invention, when the circumferential direction of the braided body at the intersection where the plurality of lines constituting the braid element intersect is defined as the circumferential direction of the intersection, one of the intersections is formed. The line is inclined to one side of the braid in the axial direction with respect to the circumferential direction of the intersection, and the line forming the other of the intersection is the line of the braid with respect to the circumferential direction of the intersection. It is characterized by inclining to the other side in the axial direction.

Further, in the electric heating heater of the present invention, in the braided body, among the plurality of the lines, a plurality of the lines belonging to the first line group that do not intersect each other spirally extend in the axial direction of the braided body. A spiral portion and a plurality of the lines belonging to a second line group that do not intersect with each other among at least a part of the remaining of the plurality of the lines spirally in the axial direction so as to intersect the first spiral portion. It has an extending second spiral portion, and the first spiral portion and the second spiral portion intersect so that the braided element is formed, and at least the first line group and the second line group are formed. One of the above is characterized by containing a heating wire.

Further, in the electric heater of the present invention, the first spiral portion is the braided body with the second spiral portion when the circumferential direction of the braided body at the intersection intersecting with the second spiral portion is used as a reference. It is characterized in that it is inclined to the opposite side in the axial direction.

Further, the electric heating heater of the present invention is characterized in that only one of the first wire group and the second wire group contains a heating wire.

Further, the electric heater of the present invention is characterized in that the plurality of the heating wires include a plurality of the heating wires. Further, in the electric heating heater of the present invention, the heating wire is characterized by having a coating layer having heat resistance and insulating properties. Further, in the electric heating heater of the present invention, the heating wire is characterized by having a resin coating layer on the outer surface. The electric heater of the present invention is characterized in that the wires other than the heating wire are heat-resistant and insulating wires.

The electric heater of the present invention can be attached in close contact with the outside of the pipe due to the tubular braided structure, and can be expanded and contracted in both the diametrical direction and the longitudinal direction due to its elasticity. It can also be attached to a flexible hose. Therefore, even if it is a complicated pipe, it is possible to install it in one electric heater, and it is possible to absorb some dimensional error and install it without any problem. Further, since the heating wires can always be evenly arranged on the surface of the pipe, the fluid flowing in the pipe can be uniformly heated and the temperature can be adjusted with high accuracy.

An example of an electric heater according to an embodiment of the present invention is shown, (a) is an overall schematic diagram, (b) is an explanatory diagram of a first line group, and (c) is an explanatory diagram of a second line group. An example of the braid of the electric heater of FIG. 1 is shown, (a) is a schematic view of the whole, (b) is a diagram showing a modified example of the braided element, and (c) is a diagram showing another modified example of the braided element. Is. (A) is a figure which shows the mode in which the braided band portion in the embodiment of this invention is provided in all the sections of a braided body. (B) is a figure which shows the mode in which the braided band portion in the embodiment of this invention is provided in a part section of a braided body. (A) and (b) are diagrams showing another example of braiding in the embodiment of the present invention. It is a figure which shows still another example of the braid in embodiment of this invention.

FIG. 1 shows the electric heater 10 according to the embodiment of the present invention. The electric heater 10 is braided into a tubular shape, and is shown in a state where the pipe 90 is covered for easy illustration. (A) is an external view, (b) is an explanatory view showing only the first line group 11, and (c) is an explanatory view showing only the second line group 12. In the present invention, a braided body in which the first line group 11 and the second line group 12 described below intersect and are braided into a tubular shape is referred to as a braided body.

The electric heater 10 has a plurality of wires belonging to the first line group 11 (appropriately referred to as a first wire) and a plurality of wires belonging to the second wire group 12 (appropriately referred to as a second wire). It is braided and molded. The plurality of first lines belonging to the first line group 11 do not intersect with each other. Further, the plurality of second lines belonging to the second line group 12 do not intersect with each other. However, this is only an example, and the plurality of first lines belonging to the first line group 11 and the plurality of second lines belonging to the second line group 12 may include those that intersect each other. In the present invention, a braided body formed by a plurality of first lines belonging to the first line group 11 and a plurality of second lines belonging to the second line group 12 is referred to as a braided body.

The braided body has a first spiral portion 13 and a second spiral portion 14. In the first spiral portion 13, a plurality of first lines belonging to the first line group 11 spirally extend in the axial direction A of the braided body. That is, the first spiral portion 13 spirally extends in the axial direction A of the braided body while making a circumference in the circumferential direction of the braided body. The circumferential direction of the braided body refers to the circumferential direction of the cylinder when the braided body is formed into a tubular shape. It is assumed that the first spiral portion 13 has a constant inner diameter and a constant pitch, for example. Since the appearance of each line is inclined in the upward-sloping direction, it can be said that each line is spiral in the left-handed screw direction. Further, it is preferable that a plurality of first lines do not intersect each other in the first spiral portion 13. The first spiral portion 13 may be provided in the entire section of the braided body in the axial direction A, or may be provided in a part of the section of the braided body in the axial direction A, and may not be provided in any other section. May be good. Further, the first spiral portion 13 may be composed of all of the plurality of first lines belonging to the first line group 11, or may be composed of a part thereof.

In the second spiral portion 14, a plurality of second wires belonging to the second wire group 12 spirally extend in the axial direction A of the braided body. That is, the second spiral portion 14 spirally extends in the axial direction A of the braided body while making a circumference in the circumferential direction of the braided body. It is assumed that the second spiral portion 14 has a constant inner diameter and a constant pitch, for example. Since the appearance of each line is inclined in the upward-sloping direction, it can be said that each line is spiral in the right-handed screw direction. Further, it is preferable that the plurality of second lines do not intersect each other in the second spiral portion 14. The second spiral portion 14 may be provided in the entire section of the braided body in the axial direction A, or may be provided in a part of the section of the braided body in the axial direction A, and may not be provided in any other section. May be good. Further, the section constituting the second spiral portion 14 coincides with the section constituting the first spiral portion 13, or at least a part of the section overlaps with the section constituting the first spiral portion 13. Further, the second spiral portion 14 may be composed of all of the plurality of second wires belonging to the second wire group 12, or may be composed of a part of the second spiral portion 14.

As shown in FIG. 1A, the second spiral portion 14 intersects the first spiral portion 13. Then, the second spiral portion 14 (for example, the non-heating wire 55) comes into contact with the first spiral portion 13 (for example, the heating wire 21) at the intersection K intersecting. When the circumferential direction of the braid at the intersection where the first spiral portion 13 and the second spiral portion 14 intersect is defined as the intersection circumferential direction B (see FIG. 1A), the first spiral portion 13 (for example, The heating wire 21) is inclined in one side (for example, the right side of FIG. 1A) of the braided body in the axial direction A with respect to the intersection circumferential direction B at the intersection K, and the second spiral portion 14 (for example, the right side). , Non-heating wire 55) is inclined to the other side of the axial direction A of the braid at the intersection K with respect to the intersection circumferential direction B. Further, also in another intersecting portion K of the braided body, the first spiral portion 13 is in the axial direction A of the braided body with respect to the second spiral portion 14 when the intersection circumferential direction B at the intersecting portion K is used as a reference. It extends in the axial direction A of the braid in a spiral that inclines to the opposite side.

The first spiral portion 13 and the second spiral portion 14 each have an inner diameter of substantially the same size, and extend in the axial direction A of the braid so as to form spirals that intersect each other. Since the first spiral portion 13 forms a spiral at the intersection portion K that is inclined toward the opposite side of the braided body in the axial direction A from the second spiral portion 14 with reference to the intersection circumferential direction B, the first spiral portion 13 is the first spiral portion. The portion 13 and the second spiral portion 14 are braided to form a mesh 70. As shown in FIG. 1A, the mesh width of the mesh 70 decreases as it progresses from the center side of the mesh 70 to the outer edge side of the mesh 70 along the axial direction A of the braid and the circumferential direction B of the intersection.

Next, the first line group 11 will be further described with reference to FIG. 1 (b). As shown in FIG. 1 (b), the first wire group 11 is composed of four heating wires 21, 22, 23, 24 and four non-heating wires 31, 32, 33, 34. Since the heating wire and the non-heating wire are arranged alternately in this order, the appearance is as follows: heating wire 21, non-heating wire 31, heating wire 22, non-heating wire 32, heating wire 23, non-heating wire in order from the left. It looks like a heating wire 33, a heating wire 24, a non-heating wire 34, a heating wire 21, .... In addition, a plurality of non-heating wires may be arranged between the heating wires. In this case, for example, another non-heating wire that does not intersect with the non-heating wire 31 is arranged between the heating wire 21 and the heating wire 22.

In FIG. 1 (b), since each line is arranged in a circle in the cross-sectional view, the position in the circumferential direction is indicated by the hands of the clock, the uppermost part is the "0 o'clock position", and the lowest part is the "6 o'clock position". I will call it. In the DD cross section, the heating line 21 is at 0 o'clock, the heating line 22 is at 9 o'clock, the heating line 23 is at 6 o'clock, and the heating line 24 is at 3 o'clock. Non-heating lines 31, 32, 33, 34 are located in the middle. The arrangement of each heating wire and each non-heating wire is not limited to the above embodiment, and those deviating from the above positions are also included in the scope of the present invention.

Next, the second line group 12 will be further described with reference to FIG. 1 (c). As shown in FIG. 1 (c), the second line group 12 is composed of eight non-heating lines 51, 52, 53, 54, 55, 56, 57, 58, which are arranged at equal intervals in this order. Therefore, it can be seen in this order in appearance. Further, in the BB arrow cross section, the non-heating line 51 is at the 0 o'clock position, the non-heating line 55 is at the 6 o'clock position, and the like. The arrangement of each non-heating wire is not limited to the above aspect, and those deviated from the above position are also included in the scope of the present invention. Further, the second wire group 12 may be provided with a plurality of heating wires as in the first wire group 11.

The number of lines included in the first line group 11 and the second line group 12 is a plurality of lines, respectively, as the number required for braiding the braided body. It is preferable that there are a plurality of heating wires 21, ..., In order to perform uniform heating. Further, by providing the plurality of heating wires 21, ... Only in one of the first line group 11 and the second line group 12, the safety can be improved by avoiding crossing each other. Can be done. Further, by using an even number of the plurality of heating wires 21, ..., The connection with the power supply line can be simplified.

In the present invention, as the heating wire 21, ..., It is also possible to use a heating wire such as a nichrome wire as it is. In that case, similarly to the electric heater described in Patent Document 1, an insulating layer can be formed inside and outside the tubular electric heater 10 and used.

However, it is preferable that it has heat resistance and insulation properties according to the conditions of use, has a smooth surface and is easy to braid, and does not generate dust when used. For example, the surface of the heating wire can be coated with a fluororesin such as perfluoroalkoxy alkane (PFA) to form a resin coating layer, which can be used as the heating wire 21, ....

Further, an organic fiber such as polyparaphenylene benzobisoxazole fiber (PBO) is braided on the surface of the heating wire to form a resin coating layer, which can be used as a heating wire 21, .... Further, twisted yarns such as long glass fibers are braided on the surface of the heating wire to form an inorganic fiber coating layer, and a fluororesin such as PFA is coated on the inorganic fiber coating layer to form a resin coating layer. Can be the heating wire 21, ....

In addition, polytetrafluoroethylene (PTFE), aromatic nylon resin, and the like can be used for forming the resin coating layer. In the following description, the heating wire 21, ... Will be described as a heating wire having heat resistance and insulating properties and having a resin coating layer formed on the surface thereof.

The non-heating wires 31, ..., 51, ... Are preferably materials that have heat resistance and insulating properties and do not generate dust, and are preferably the same material as the resin coating layer of the heating wires 21, .... That is, fluororesins such as PTFE and PFA, aromatic nylon resins, PBO, polyphenylene sulfide (PPS), and the like.

Further, the non-heating wires 31, ..., 51, ... Can be various types of wires. For example, it may be a simple line having a circular cross section or a simple tape-shaped line having a flat cross section. Further, it can be formed by twisting a plurality of thin lines, simply bringing them together, or braiding them in a string shape.

Since the electric heater 10 in the embodiment of the present invention is braided as described above, the diameter becomes smaller when both ends are pulled in the axial direction of the braided body, and the diameter becomes larger when pushed so as to contract in the axial direction of the braided body. .. When it is attached to a pipe, the inner diameter is made larger than the outer diameter of the pipe so that it can be covered from one end of the pipe, and finally both ends can be pulled to bring them into close contact.

Since the electric heater 10 includes four heating wires 21, ..., Four can be connected in series, or two connected in series can be connected in parallel. The ends of the heating wires 21, ... Can be connected to the two ends with a connector, or can be connected to the power line using a connector. It is preferable to insulate these connecting portions with heat-resistant tape. Finally, the construction is completed by mounting the heat insulating material on the electric heater 10.

FIG. 2 shows an example of braiding in the electric heater 10, and actually shows what is braided in a tubular shape in a planar manner. In addition, in order to make the figure easier to understand, the space between the lines is shown wider than it actually is. This braid is a simple plain weave. That is, the heating wire 21, ... And the non-heating wire 31, ... Of the first line group 11 regularly and alternately repeat the ups and downs of the non-heating wire 51, ..... of the second wire group 12. Specifically, the heating wire 21, ... Of the first wire group 11 is, for example, the upper surface side (one surface side) of one of the adjacent non-heating wires of the second wire group 12. It passes through and is entangled with the non-heating wire 51, ..... of the second line group 12 so as to pass through the lower surface side (the other surface side) of the other non-heating wire in the other adjacent non-heating wire. The non-heating lines 31, ... Of the first line group 11, pass through the lower surface side of one of the adjacent non-heating lines of the second line group 12 and the other adjacent non-heating lines. In, it is entangled with the non-heating wire 51, ..... of the second line group 12 so as to pass through the upper surface side of the other non-heating wire. The upper surface and the lower surface of the non-heating wire are examples, and can be extended to one side surface of the non-heating wire and the surface opposite to the one side surface, respectively.

The braided body in the electric heater 10 according to the embodiment of the present invention configured as described above has the braided element 60 shown in the elliptical region D of FIG. 2 (a). The braid element 60 is a portion surrounding the mesh 70 of the braided body. The braided element 60 is composed of a first spiral portion 13 and a second spiral portion 14. Specifically, the braided element 60 shown in the elliptical region D of FIG. 2A is composed of a part of the heating wire 22 and a part of the non-heating wire 31, 55, 56. That is, in the braided element 60, the heating wire 22 and the non-heating wire 31, 55, 56 intersect with each other to form four intersecting portions, and the heating wire 22 and the non-heating wire 31 extending between the four intersecting portions are formed. , 55, 56. Such a braided element 60 is formed, for example, in a substantially quadrangular shape.

Then, in the braided element 60 and the mesh 70, one pair of diagonal corner portions (corner portions) is convex in the axial direction A, and the other pair of diagonal corner portions (corner portions) is the same. It is formed so as to be convex in the circumferential direction B of the intersection corresponding to the corner portion (corner portion). In other words, the braided element 60 has mesh widths W1 and W2 (FIG. 2A) as it advances from the center side of the mesh 70 of the braided body to the outer edge side of the mesh 70 along the axial direction A and the circumferential direction B of the intersection. (See) is composed of a plurality of wires (a part of the heating wire 22 and a part of the non-heating wires 31, 55, 56) surrounding the mesh 70 so as to be small. The plurality of lines surrounding the mesh 70 extend in a tapered shape starting from the points where they intersect. As a result, the braided element 60 is arranged so that the portion near the intersection is convex in the axial direction A and / or the circumferential direction B of the intersection.

In the electric heater 10 (braided body) shown in the elliptical region D of FIG. 2A, each braided element 60 has substantially the same shape, but is not limited to this, and different shapes are mixed. You may be doing it. In the above case, the heating wire and the non-heating wire constituting the braided element 60 are not parallel to the axial direction A of the braided body and the intersection circumferential direction B corresponding to each braided element 60, but are inclined. Is placed in. Further, two of the heating and non-heating lines constituting the braided element 60 are inclined to one side of the axial direction A of the braided body with respect to the circumferential direction B of the intersection, and the remaining two lines intersect. It is inclined to the other side of the axial direction A of the braid with respect to the circumferential direction B. That is, two of the heat-generating lines and the non-heating lines constituting the braided element 60 are inclined to the opposite side of the axial direction A of the braided body from the remaining two lines with reference to the intersection circumferential direction B. If each braid element 60 is configured as described above, when each braid element 60 is pulled in the axial direction A, each braid element 60 is deformed so as to extend in the axial direction A, and each braid element 60 is deformed in the circumferential direction of the intersection. When pulled to B, each braided element 60 is deformed so as to extend in the circumferential direction B of the intersection.

Further, as shown in FIG. 3A, a plurality of braided bodies are arranged so that a plurality of braided elements 60 are continuously arranged once in the circumferential direction of the braided body in the entire section in the axial direction A of the braided body. It is preferably braided by lines. If the braid (electric heater) is configured as described above, pulling both ends of the braid (electric heater) in the axial direction A will reduce the diameter of the braid (electric heater) and shrink it in the axial direction A. When pressed, the diameter of the braid (electric heater) increases.

When the portion in which the plurality of braided elements 60 are continuously arranged in the circumferential direction of the braided body is defined as the braided band portion 15, the braided body (electric heater) shown in FIG. 3A is the braided band portion. It can be considered that 15 extends in the axial direction A in the entire section in the axial direction A of the braided body. However, the braided band portion 15 is not limited to the one extending over the entire section in the axial direction A of the braided body, and as shown in FIG. 3B, the braided body starts from the end of the braided body. It may be provided in the end section G1 extending in the axial direction A of the above, or in the middle section G2 in the middle of the braided body. When the braided band portion 15 is provided in the end section G1 of the braided body, the braided body can be expanded and contracted in the end section G1 of the braided body, so that the electric heater 10 can be easily attached to the pipe 90. Further, when the braided band portion 15 is provided in the middle section G2 of the braided body, the braided body becomes stretchable in the middle section G2 of the braided body, so that the middle section G2 of the braided body can be positioned at the elbow portion of the pipe 90. For example, the braided body (electric heater) can be easily aligned with the pipe 90.

Further, as shown in FIG. 2B, in the braided element 60, the non-heating lines forming the opposite side of the quadrangle are parallel to the axial direction A of the braided body, and the heating lines forming the other opposite side of the quadrangle and the non-heating lines are formed. The heating wire may be arranged so as to be inclined with respect to the intersection circumferential direction B corresponding to each braided element 60. Further, as shown in FIG. 2C, the heating wire and the non-heating wire forming one opposite side of the quadrangle are parallel to the axial direction A, and the non-heating wire forming the other opposite side of the quadrangle is attached to each braid element 60. It may be arranged so as to be inclined with respect to the corresponding intersection circumferential direction B. If each braided element 60 is configured as described above, the diameter of the braided body can be increased by pushing it so as to contract it in the axial direction A of the braided body. When the electric heating heater 10 is covered with the pipe 90, it is sufficient if the internal diameter can be increased. Therefore, the heating heater 10 may have such an embodiment.

As shown in FIG. 4A, the plurality of braided elements 60 may be composed of two meandering lines 16 meandering in the circumferential direction B of the intersection and extending in the axial direction A. The two meandering lines 16 intersect and intertwin with each other. In this case, the two meandering lines 16 are crossed and entangled so that the peak of one meandering line 16 and the valley of the other meandering line 16 face each other in the circumferential direction B of the intersection. The mesh 70 is formed by the peak of one meandering line 16 and the valley of the other meandering line 16. The two meandering lines 16 surrounding the mesh 70 are located at points where they intersect or at curved portions of the meandering line 16 from the center side of the mesh 70 along the axial direction A and the circumferential direction B of the intersection. It is braided so that the mesh width becomes smaller toward the outer edge side. That is, the two meandering lines 16 surrounding the mesh 70 are braided in a tapered shape at points where they intersect or at curved portions. As a result, the braided element 60 is arranged so that the intersection vicinity portion and the curved portion are convex in the axial direction A and the intersection circumferential direction B. The plurality of braided elements 60 are formed so as to be arranged along the axial direction A. Further, it is preferable that the meandering lines 16 adjacent to each other in the circumferential direction B of the intersection are also formed so as to be lined up along the circumferential direction of the braided body. Further, it is preferable that the meandering lines 16 adjacent to each other in the circumferential direction B of the intersection are braided so as to intersect and entangle with each other.

Then, for example, as described above, the heating wires 21 to 24 are assumed to be arranged so as to extend spirally in the axial direction A, but the arrangement mode is not limited thereto. As shown in 4 (b), it may be arranged so as to extend in the axial direction A while meandering. The meandering wire 16 is assumed to be composed of a non-heating wire, but the present invention is not limited to this, and the meandering wire 16 may be composed of a heating wire.

FIG. 5 shows an electric heater 110 according to an embodiment of the present invention, which is another example of braiding. The wire configuration of the electric heater 110 is the same as that of the electric heater 10. That is, the first line group includes four heating wires 21, 22, 23, 24 and four non-heating lines 31, 32, 33, 34. In addition, the second line group includes eight non-heating lines 51, 52, 53, 54, 55, 56, 57, 58.

The arrangement of the first line group is the same as that of the electric heater 10, but in the second line group, eight lines are not evenly spaced, and the non-heating lines 51 and 52, 53 and 54, 55 and 56, 57 and so on. 58 are braided in close proximity. In addition, each non-heating wire 51, ... Of the second line group repeatedly rises and falls alternately with respect to two adjacent lines (heating wire 21, ... and non-heating wire 31, ...) in the first line group. ing. As described above, various braided forms can be used in the present invention.

Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and design changes that do not deviate from the gist of the present invention are included in the present invention. For example, in the mesh 70, the mesh width decreases from the center side of the mesh 70 toward the outer edge side of the mesh 70 along the axial direction A (or the intersection circumferential direction B), but the intersection circumferential direction B (or the axial direction). The mesh width increases as it progresses from the center side of the mesh 70 to the outer edge side of the mesh 70 along A), or the mesh width is the same even if it advances from the center side of the mesh 70 to the outer edge side of the mesh 70. There may be. The knitting method of the braided body is not limited to the illustrated example, and can be changed to various states.

10 Electric heater 11 1st wire group 12 2nd wire group 13 1st spiral part 14 2nd spiral part 15 Braided band part 16 Meandering wire 21, 22, 23, 24 Heating wire 31, 32, 33, 34 Non-heating wire 51 , 52, 53, 54, 55, 56, 57, 58 Non-heating wire 60 Braided element 70 mesh

Claims (9)

It has a braided body that is braided into a cylinder by multiple wires including a heating wire.
The braided body has a mesh width that becomes smaller from the center side of the mesh of the braid to the outer edge side of the mesh along the axial direction of the braid and / or the circumferential direction of the braid. It has a plurality of braided elements braided by the plurality of lines surrounding the mesh.
The plurality of braided elements are arranged so as to go around the circumferential direction of the braided body in at least a part of the axial direction of the braided body.
Electric heater. When the circumferential direction of the braided body at the intersection where the plurality of lines constituting the braid element intersect is defined as the circumferential direction of the intersection,
The line forming one of the intersections is inclined to one side of the braid in the axial direction with respect to the circumferential direction of the intersection.
The line forming the other of the intersections is characterized in that it inclines to the other side of the braid in the axial direction with respect to the circumferential direction of the intersection.
The electric heater according to claim 1. The braided body
A first spiral portion in which a plurality of the lines belonging to a group of first lines that do not intersect each other spirally extend in the axial direction of the braided body among the plurality of the lines.
Of the remaining at least a part of the plurality of lines, a plurality of the lines belonging to a group of second lines that do not intersect each other spirally extend in the axial direction so as to intersect the first spiral portion. The spiral part and
Have,
The first spiral and the second spiral intersect so that the braided element is formed.
It is characterized in that at least one of the first line group and the second line group contains a heating wire.
The electric heater according to claim 1 or 2. The first spiral portion is inclined to the opposite side of the braided body in the axial direction from the second spiral portion with reference to the circumferential direction of the braided body at the intersection portion intersecting with the second spiral portion. Characterized by
The electric heater according to claim 3. It is characterized in that only one of the first line group and the second line group contains a heating wire.
The electric heater according to claim 4. The plurality of said wires include a plurality of said heating wires.
The electric heater according to any one of claims 1 to 5. The heating wire is characterized by having a coating layer having heat resistance and insulating properties.
The electric heater according to any one of claims 1 to 6. The heating wire is characterized by having a resin coating layer on the outer surface.
The electric heater according to any one of claims 1 to 7. The wire other than the heating wire is characterized by having heat resistance and insulating properties.
The electric heater according to any one of claims 1 to 8.

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