WO2020171207A1 - 固形ろう付け材の塗布方法、塗布物の製造方法、塗布装置、および、ロール形状の固形ろう付け材 - Google Patents
固形ろう付け材の塗布方法、塗布物の製造方法、塗布装置、および、ロール形状の固形ろう付け材 Download PDFInfo
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- WO2020171207A1 WO2020171207A1 PCT/JP2020/007075 JP2020007075W WO2020171207A1 WO 2020171207 A1 WO2020171207 A1 WO 2020171207A1 JP 2020007075 W JP2020007075 W JP 2020007075W WO 2020171207 A1 WO2020171207 A1 WO 2020171207A1
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- brazing material
- solid brazing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K3/00—Tools, devices, or special appurtenances for soldering, e.g. brazing, or unsoldering, not specially adapted for particular methods
- B23K3/06—Solder feeding devices; Solder melting pans
- B23K3/0607—Solder feeding devices
- B23K3/0623—Solder feeding devices for shaped solder piece feeding, e.g. preforms, bumps, balls, pellets, droplets
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K1/00—Soldering, e.g. brazing, or unsoldering
- B23K1/0008—Soldering, e.g. brazing, or unsoldering specially adapted for particular articles or work
- B23K1/0012—Brazing heat exchangers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K3/00—Tools, devices, or special appurtenances for soldering, e.g. brazing, or unsoldering, not specially adapted for particular methods
- B23K3/06—Solder feeding devices; Solder melting pans
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K1/00—Soldering, e.g. brazing, or unsoldering
- B23K1/0008—Soldering, e.g. brazing, or unsoldering specially adapted for particular articles or work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K1/00—Soldering, e.g. brazing, or unsoldering
- B23K1/19—Soldering, e.g. brazing, or unsoldering taking account of the properties of the materials to be soldered
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K1/00—Soldering, e.g. brazing, or unsoldering
- B23K1/20—Preliminary treatment of work or areas to be soldered, e.g. in respect of a galvanic coating
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K3/00—Tools, devices, or special appurtenances for soldering, e.g. brazing, or unsoldering, not specially adapted for particular methods
- B23K3/08—Auxiliary devices therefor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K3/00—Tools, devices, or special appurtenances for soldering, e.g. brazing, or unsoldering, not specially adapted for particular methods
- B23K3/08—Auxiliary devices therefor
- B23K3/082—Flux dispensers; Apparatus for applying flux
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K35/00—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting
- B23K35/02—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting characterised by mechanical features, e.g. shape
- B23K35/0222—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting characterised by mechanical features, e.g. shape for use in soldering, brazing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K35/00—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting
- B23K35/22—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting characterised by the composition or nature of the material
- B23K35/36—Selection of non-metallic compositions, e.g. coatings, fluxes; Selection of soldering or welding materials, conjoint with selection of non-metallic compositions, both selections being of interest
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K35/00—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting
- B23K35/22—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting characterised by the composition or nature of the material
- B23K35/36—Selection of non-metallic compositions, e.g. coatings, fluxes; Selection of soldering or welding materials, conjoint with selection of non-metallic compositions, both selections being of interest
- B23K35/3601—Selection of non-metallic compositions, e.g. coatings, fluxes; Selection of soldering or welding materials, conjoint with selection of non-metallic compositions, both selections being of interest with inorganic compounds as principal constituents
- B23K35/3603—Halide salts
- B23K35/3605—Fluorides
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K2101/00—Articles made by soldering, welding or cutting
- B23K2101/04—Tubular or hollow articles
- B23K2101/14—Heat exchangers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K2101/00—Articles made by soldering, welding or cutting
- B23K2101/16—Bands or sheets of indefinite length
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K2103/00—Materials to be soldered, welded or cut
- B23K2103/08—Non-ferrous metals or alloys
- B23K2103/10—Aluminium or alloys thereof
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K35/00—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting
- B23K35/22—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting characterised by the composition or nature of the material
- B23K35/24—Selection of soldering or welding materials proper
- B23K35/28—Selection of soldering or welding materials proper with the principal constituent melting at less than 950 degrees C
- B23K35/286—Al as the principal constituent
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K35/00—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting
- B23K35/22—Rods, electrodes, materials, or media, for use in soldering, welding, or cutting characterised by the composition or nature of the material
- B23K35/36—Selection of non-metallic compositions, e.g. coatings, fluxes; Selection of soldering or welding materials, conjoint with selection of non-metallic compositions, both selections being of interest
- B23K35/362—Selection of compositions of fluxes
Definitions
- the present invention relates to a method for applying a solid brazing material, a method for producing an applied product, a coating device, and a roll-shaped solid brazing material, and more specifically, a method for applying a solid brazing material, and the application of the solid brazing material.
- the present invention relates to a method for producing a coated product including a method, a coating device for coating a solid brazing material, and a roll-shaped solid brazing material used in the coating method or coating device.
- the flux is used as a liquid composition, so if the flux is applied to the welding site, the flux may flow. Therefore, it has been considered to make the flux solid or paste so that the flux is reliably applied to the welding site.
- solidified flux solid brazing material
- a column-shaped solid brazing material is placed in the middle of the aluminum member in the conveying direction, and the solid brazing material is conveyed.
- a coating method has been proposed in which a solid brazing material is applied to an aluminum member by pressing the aluminum member with a constant pressing force (for example, see Patent Document 1 below).
- An object of the present invention is to apply a solid brazing material coating method capable of increasing the coating amount without increasing the contact area, a method for producing a coated product including the solid brazing material coating method, and a solid brazing material. And a roll-shaped solid brazing material used for the coating method or coating apparatus.
- the present invention [1] is characterized in that the solid brazing material is applied to the coating object by bringing the solid brazing material into contact with the conveyed coating object while rotating the solid brazing material. This is a method of applying the adhesive.
- the solid brazing material is rotated and brought into contact with the transported object to be coated. Since the solid brazing material can be applied more as the solid brazing material rotates, the amount of application can be increased even if the contact area of the solid brazing material with the object to be coated is small.
- the rotation direction of the solid brazing material and the conveying direction of the coating object are opposite to each other at the contact portion of the solid brazing material and the coating object, or
- the rotation direction of the solid brazing material and the conveying direction of the coating object are the same direction at the contact portion of the solid brazing material and the coating object, and the peripheral speed of the solid brazing material is the coating object.
- the solid brazing according to the above [1], wherein the speed ratio (peripheral speed of the solid brazing material/transport speed of the object to be coated) to the transport speed of the object is less than 1 or more than 1 in the same direction. Includes material application methods.
- the rotating direction of the solid brazing material and the conveying direction of the object to be coated are opposite directions at the contact portion of the solid brazing material and the object to be coated, or ,
- the rotation direction of the solid brazing material and the conveying direction of the coated object are the same direction at the contact portion of the solid brazing material and the coated object, and the conveying speed of the coated object is the peripheral speed of the solid brazing material. If the speed ratio (circumferential speed of the solid brazing material/conveying speed of the object to be coated) is less than 1 or more than 1, the coating amount can be increased.
- the rotation direction of the solid brazing material and the conveying direction of the coating object are the same in the contact portion of the solid brazing material and the coating object, and the speed ratio is the same. Satisfies the following formula (1), or the rotation direction of the solid brazing material and the conveying direction of the coating object are opposite to each other at the contact portion of the solid brazing material and the coating object.
- Speed ratio (application amount/A)+1
- Speed ratio (application amount/A)-1 (2)
- A satisfies 0 ⁇ A ⁇ 70.
- the unit of A and the coating amount is g/m 2.
- the speed ratio satisfies the above expression (1) or the above expression (2), so that the application amount can be reliably increased.
- the present invention [4] includes the method for applying the solid brazing material according to any one of the above [2] or [3], wherein the rate of change in the speed ratio is 30% or less.
- the rate of change in the speed ratio is 30% or less, so a stable application amount can be maintained.
- the number of revolutions of the solid brazing material is increased and/or the conveying speed of the coated object is reduced in accordance with the decrease of the solid brazing material, and the above-mentioned [1] to [4].
- the method for applying the solid brazing material according to any one of the above items is included.
- the diameter of the solid brazing material decreases as it is applied to the object.
- the coating amount for one rotation of the solid brazing material becomes smaller. That is, if the number of rotations of the solid brazing material remains constant, the coating amount changes according to the decrease of the solid brazing material.
- the solid brazing material is adjusted so as to be held at a constant speed without decreasing in accordance with the decrease in the solid brazing material (that is, the rotation speed is increased. ) And/or the solid brazing material is reduced, the conveying speed of the coated object is reduced. With this, even if the diameter of the solid brazing material is gradually reduced, the coating amount can be made constant by increasing the number of rotations of the solid brazing material and/or decreasing the conveying speed of the object to be coated. .. As a result, a stable coating amount can be maintained.
- a plurality of the solid brazing materials are arranged, and the solid brazing material is brought into contact with an object to be conveyed while rotating all or a part of the plurality of solid brazing materials.
- the method for applying a solid brazing material according to any one of the above [1] to [5] includes applying a brazing material to the object to be coated.
- the present invention [7] includes a method for producing a coated product, which comprises the method for applying the solid brazing material according to the above [1] to [6].
- this method for producing a coated product is provided with the above-mentioned method for applying a solid brazing material, it is possible to produce a coated product with a small variation in coating amount.
- the present invention [8] is a coating apparatus including a rotation unit that rotates a roll-shaped solid brazing material and a transport unit that transports a long object to be coated.
- the rotation unit rotates the solid brazing material, and the transport unit transports a long object to be coated.
- the amount of solid brazing material can be applied by the amount of rotation of the solid brazing material, so the amount of application can be increased even if the contact area of the solid brazing material with the object to be coated is small.
- the speed ratio of the peripheral speed of the solid brazing material to the conveying speed of the coated object is within a predetermined range.
- control unit controls the rotating unit and/or the transport unit so that the speed ratio falls within a predetermined range.
- the present invention further comprises a peripheral speed detection unit for detecting a peripheral speed of the solid brazing material, and the control unit controls the peripheral speed of the solid brazing material detected by the peripheral speed detection unit.
- the coating apparatus according to the above [9], which controls the speed ratio based on the above, is included.
- control unit controls the speed ratio based on the peripheral speed of the solid brazing material detected by the peripheral speed detection unit.
- this coating device a predetermined amount of the solid brazing material can be reliably coated on the coating object.
- the present invention [11] further includes a first thickness detecting unit that detects the thickness of the solid brazing material, and the control unit controls the thickness of the solid brazing material detected by the first thickness detecting unit.
- the coating apparatus according to the above [9] or [10], which controls the speed ratio based on the above, is included.
- the diameter decreases as the solid brazing material is applied to the object to be coated.
- the coating amount for one rotation of the solid brazing material becomes smaller. That is, if the number of rotations of the solid brazing material remains constant, the coating amount changes according to the decrease of the solid brazing material.
- the control unit controls the speed ratio based on the thickness of the solid brazing material detected by the first thickness detection unit.
- the speed ratio can be controlled by increasing the number of rotations of the solid brazing material and/or decreasing the conveying speed of the object to be coated, Can be constant. As a result, a stable coating amount can be maintained.
- the present invention [12] further includes a second thickness detecting unit that detects the thickness of the solid brazing material, and the control unit detects the solid brazing material based on the detection of the second thickness detecting unit. Any one of the above [9] to [11], which notifies that the thickness has reached a predetermined thickness and/or stops the rotation of the solid brazing material and/or the conveyance of the coated object.
- the coating apparatus according to the one item is included.
- control unit notifies that the thickness of the solid brazing material has reached a predetermined thickness and/or rotates the solid brazing material and/or conveys the object to be coated. Stop.
- the solid brazing material can be replaced at an optimal timing before the solid brazing material runs out.
- the present invention [13] includes a pressing unit that presses the solid brazing material against the object to be coated, and a pressing force detection unit that detects a pressing force against the object to be coated, and the control unit includes: Based on the pressing force detected by the pressing force detection unit, the pressing force is controlled so that the solid brazing material can be pressed against the object to be coated with a constant pressing force, [9] to The coating apparatus according to any one of [12] is included.
- control unit applies the pressing force to the object to be coated with a constant pressing force based on the pressing force detected by the pressing force detection unit. Control.
- the solid brazing material can be brought into contact with the object to be coated at a constant pressure. Can be stably applied to an object to be coated.
- the present invention [14] includes the coating apparatus according to the above [13], wherein the control unit controls the rate of change of the pressing force to 30% or less.
- the present invention [15] further comprises a coating amount detection means for detecting the coating amount of the solid brazing material, wherein the coating device according to any one of the above [8] to [14]. Is included.
- control unit controls the speed ratio and/or the pressing force of the solid brazing material against the object to be coated, based on the coating amount of the solid brazing material detected by the coating amount detecting means.
- the present invention [16] includes a roll-shaped solid brazing material used in the method for applying a solid brazing material according to the above [1] to [6].
- this roll-shaped solid brazing material since it has a roll shape, it can be suitably used in the above-mentioned solid brazing material application method.
- the present invention [17] includes, in the coating apparatus according to the above [8] to [15], a roll-shaped solid brazing material set in the rotating unit.
- this roll-shaped solid brazing material since it has a roll shape so that it can be set in the rotating unit, it can be suitably used in the above coating apparatus.
- the present invention [18] includes the roll-shaped solid brazing material according to the above [16] or [17], which comprises an attachment member and a solid brazing material arranged around the attachment member. ..
- the attachment member since the attachment member is provided, even if the thickness of the solid brazing material is reduced by application, the solid brazing material can be used up to the vicinity of the attachment member. As a result, the yield can be improved.
- the present invention [19] includes the roll-shaped solid brazing material according to the above [18], wherein the attachment member has a friction type fastening mechanism.
- the coating amount Can be a lot.
- the method for producing a coated product of the present invention includes the method for coating a solid brazing material of the present invention, a coated product having a large coating amount can be produced.
- the rotation unit rotates the solid brazing material, and the transport unit transports a long object to be coated. Since the solid brazing material is brought into contact with the object to be coated, the amount of application can be increased even if the contact area of the solid brazing material with the object to be coated is small.
- the roll-shaped solid brazing material of the present invention has a roll shape, it can be suitably used in the coating apparatus and coating method of the present invention.
- FIG. 1 shows a schematic configuration diagram of a first embodiment of a coating apparatus of the present invention.
- FIG. 2 is a schematic configuration diagram of a roll-shaped solid brazing material according to the first embodiment.
- FIG. 3 is a schematic configuration diagram of the rotary unit according to the first embodiment.
- FIG. 4 shows a schematic configuration diagram of a second embodiment of the coating apparatus of the present invention.
- FIG. 5 shows the schematic block diagram of the roll-shaped solid brazing material in 2nd Embodiment.
- FIG. 6 shows a schematic configuration diagram of a rotary unit in the second embodiment, FIG. 6A shows a front view, and FIG. 6B shows a sectional view.
- FIG. 6 shows a schematic configuration diagram of a rotary unit in the second embodiment, FIG. 6A shows a front view, and FIG. 6B shows a sectional view.
- FIG. 6 shows a schematic configuration diagram of a rotary unit in the second embodiment, FIG. 6A shows a front view, and FIG. 6B shows a section
- FIG. 7 shows a schematic configuration diagram of a roll-shaped solid brazing material in the case where the attachment member is a hub member
- FIG. 7A shows a sectional view
- FIG. 7B shows a front view
- FIG. 8 shows the schematic block diagram of a rotation unit in case an attachment member is a hub member
- FIG. 9 shows a schematic configuration diagram of the coating apparatus in which a plurality of pressing units are arranged in the first embodiment.
- a coating device 1A is installed to continuously coat a roll-shaped solid brazing material 2A on an aluminum plate 3 as an object to be coated.
- the aluminum plate material 3 is made of aluminum or an aluminum alloy.
- the aluminum plate 3 is a strip-shaped long plate having a length of several thousand meters and a width of 5 mm or more and 200 mm or less.
- the aluminum plate member 3 is supported by a transfer unit 60A (described later) and is continuously transferred in a predetermined direction.
- the roll-shaped solid brazing material 2A (hereinafter referred to as the roll-shaped brazing material 2A) includes a rotating shaft 6 as an attachment member and a solid brazing material arranged around the rotating shaft 6. And the attachment 7.
- the rotating shaft 6 has a cylindrical shape.
- the solid brazing material 7 is a solid brazing material for brazing aluminum or aluminum alloy. Specifically, the solid brazing material 7 contains, for example, a fluoride-based flux and a wax.
- fluoride-based flux examples include Cs-Al-F-based flux, K-Al-F-based flux, and K-Zn-F-based flux.
- Wax is a component for improving the shape retention of the solid brazing material 7, and examples thereof include synthetic wax and natural wax.
- the solid brazing material 7 optionally contains an organic viscosity reducing agent and/or a coating film homogenizing aid.
- Organic viscosity reducing agents include, for example, nonionic surfactants, surfactants such as ionic surfactants, for example, hydrocarbons, halogenated hydrocarbons, alcohols, esters, ethers, fats and oils, etc.
- An organic solvent may be used.
- the coating film homogeneity aid is a component that improves the uniformity (homogeneity) of the coating film by making the solid brazing material 7 easy to collapse.
- the coating film homogenizing aid examples include monocarboxylic acids having 10 or more carbon atoms such as capric acid, lauric acid, myristic acid, palmitic acid, and stearic acid, for example, 10 or more carbon atoms such as decanedioic acid and dodecanedioic acid.
- High carbon carboxylic acid-low carbon alcohol ester such as dicarboxylic acid and anhydride thereof, for example, low carbon carboxylic acid high carbon alcohol ester such as hydrogenated stearyl phthalate, hydrogenated lauryl phthalate, stearyl methacrylate, etc.
- the solid brazing material 7 is a hollow roll-shaped mold obtained by mixing the above-mentioned components (fluoride-based flux, wax, organic viscosity reducing agent optionally blended, coating film homogenizing adjuvant optionally blended). It can be obtained by pouring into and cooling.
- the solid brazing material 7 thus obtained is held in a desired shape by wax, and preferably the solid brazing material 7 is solid at room temperature (25° C.).
- Such a solid brazing material 7 has a wax-like (crayon-like) appearance.
- the solid brazing material 7 is not particularly limited, and the solid brazing material described in International Publication No. 2018/235906 is poured into a hollow roll-shaped mold to cool the solid brazing material. It is also possible to obtain attachments.
- the roll-shaped brazing material 2A can be obtained by pouring each component described above into the mold with the rotary shaft 6 set in the center of the roll-shaped mold and cooling.
- the coating device 1A for coating the roll-shaped brazing material 2A on the aluminum plate 3 will be described below in detail.
- the coating device 1A includes a transport unit 60A as a transport unit, a coating unit 70A, and a control unit 80A as a control unit.
- the transport unit 60A includes a delivery unit 61A and a winding unit 62A.
- the delivery unit 61A and the winding unit 62A are arranged in the horizontal direction at a predetermined interval with the coating unit 70A interposed therebetween.
- the delivery unit 61A is arranged upstream of the coating unit 70A in the transport direction.
- the delivery unit 61A includes a delivery roller 10A and a first guide roller 11Aa in order from the upstream side in the transport direction to the downstream side in the transport direction, and the delivery unit 61A includes a delivery motor 18, a first peripheral speed sensor 17, and Equipped with.
- the sending roller 10A is a roller that holds the aluminum plate 3 and sends out the aluminum plate 3, and is arranged at the uppermost stream in the transport direction of the aluminum plate 3.
- a long aluminum plate 3 is wound around the delivery roller 10A, and the aluminum 10 can be delivered from the upstream side in the transport direction to the downstream side in the transport direction by rotating the delivery roller 10A.
- a delivery motor 18 is connected to the delivery roller 10A.
- the delivery motor 18 is a known motor, and the delivery motor 18 is driven to rotate the delivery roller 10A to deliver the aluminum plate material 3.
- a first peripheral speed sensor 17 is arranged above the aluminum plate material 3 delivered from the delivery roller 10A.
- the first peripheral velocity sensor 17 is a laser Doppler velocity meter, irradiates the aluminum plate 3 sent from the delivery roller 10A with laser light, detects the reflected light from the aluminum plate 3, and detects the irradiated light and the reflected light.
- the peripheral speed of the delivery roller 10A can be detected from the difference in frequency generated between and.
- the first guide roller 11Aa is arranged on the downstream side in the transport direction of the delivery roller 10A (downstream side in the transport direction of the first peripheral speed sensor 17).
- the first guide roller 11Aa guides the aluminum plate material 3 delivered from the delivery roller 10A to the coating unit 70A.
- the winding unit 62A is arranged downstream of the coating unit 70 in the transport direction.
- the winding unit 62A includes a second guide roller 11Ab, a tension roller 13A, a third guide roller 11Ac, a fourth guide roller 11Ad, and a winding roller 14A in order from the upstream side in the transport direction to the downstream side in the transport direction.
- the winding unit 62A includes a winding motor 20 and a second peripheral speed sensor 19.
- the second guide roller 11Ab and the third guide roller 11Ac are arranged at predetermined intervals in the transport direction so as to sandwich the tension roller 13A in the transport direction.
- the tension roller 13A is arranged so as to be vertically movable between the second guide roller 11Ab and the third guide roller 11Ac.
- the tension roller 13A moves up and down between the second guide roller 11Ab and the third guide roller 11Ac to adjust the tensile force of the aluminum plate material 3 to be conveyed.
- the fourth guide roller 11Ad is arranged downstream of the third guide roller 11Ac in the transport direction.
- the fourth guide roller 11Ad guides the aluminum plate 3 conveyed from the third guide roller 11Ac to the winding roller 14A.
- the winding roller 14A is a roller for winding the conveyed aluminum plate material 3, and is arranged at the most downstream side in the conveyance direction of the aluminum plate material 3.
- a winding motor 20 is connected to the winding roller 14A.
- the winding motor 20 is a known motor, and by driving the winding motor 20, the winding roller 14A is rotated to wind up the aluminum plate material 3.
- a second peripheral speed sensor 19 is arranged above the aluminum plate material 3 between the fourth guide roller 11Ad and the winding roller 14A.
- the second peripheral speed sensor 19 is a laser Doppler speed meter, irradiates the aluminum plate 3 guided by the fourth guide roller 11Ad with laser light, detects reflected light from the aluminum plate 3, and detects the irradiation light.
- the peripheral speed of the winding roller 14A can be detected from the difference in frequency generated between the light and the reflected light.
- the coating unit 70A includes a pressing force receiving unit 71 and a pressing force applying unit 72A.
- the pressing force receiving unit 71 and the pressing force applying unit 72A are arranged at a predetermined interval in the vertical direction with the aluminum plate material 3 conveyed by the conveying unit 60A interposed therebetween.
- the pressing force receiving unit 71 is arranged on the upper side of the aluminum plate 3, and is arranged vertically opposite the pressing force applying unit 72A.
- the pressing force receiving unit 71 includes a casing 24, an endless belt mechanism 26, and a load cell 25 as a pressing force detection unit.
- the casing 24 is arranged so that the central portion thereof faces the roll-shaped brazing material 2A in the vertical direction.
- the casing 24 is formed in a substantially box shape with an open bottom.
- the endless belt mechanism 26 is housed and supported in the casing 24.
- the endless belt mechanism 26 includes a pair of endless belt rollers 21 and an endless belt 23 wound around the pair of endless belt rollers 21.
- the pair of endless belt rollers 21 are arranged in the casing 24 in the conveying direction at a distance from each other, and are supported by the casing 24.
- the endless belt 23 is an endless belt and is wound around a pair of endless belt rollers 21.
- the pair of endless belt rollers 21 rotates to move the endless belts 23 around them.
- the load cell 25 is arranged on the upper surface of the casing 24.
- the load cell 25 is a known pressure sensor, and detects a pressing force described later.
- the pressing force applying unit 72A includes a rotating unit 50A, a supporting portion 73A, and a pressing portion 74A as a pressing unit.
- the rotating unit 50A transmits the power from the coating motor 8 to the roll brazing material 2A and the coating motor 8 as a power source for rotating the roll brazing material 2A.
- a joint member 52 as a power transmission member.
- the coating motor 8 is a known motor, and the driving of the coating motor 8 rotates the roll-shaped brazing material 2A.
- the joint member 52 is made of a known coupling, and has one end connected to the coating motor 8 and the other end connected to the rotary shaft 6.
- the support portion 73A includes a pedestal portion 33A, a pair of bearing members 29 bearing the roll-shaped brazing material 2A, and a third peripheral speed sensor 9 as a peripheral speed detection unit.
- the pedestal portion 33A has a U-shape that opens upward, and supports a pair of bearing members 29 at both end portions thereof.
- the roll-shaped brazing material 2A is supported by the supporting portion 73A by the rotating shaft 6 being borne by the pair of bearing members 29 so that the solid brazing material 7 is located between the pair of bearing members 29. It is rotatably supported.
- the third peripheral speed sensor 9 is provided on the side of the solid brazing material 7.
- the third peripheral velocity sensor 9 is a laser Doppler velocimeter, irradiates the solid brazing material 7 with laser light, detects reflected light from the solid brazing material 7, and is generated between the irradiated light and the reflected light.
- the peripheral speed of the solid brazing material 7 can be detected from the frequency difference.
- the pressing portion 74A includes a support arm 35, a lift mechanism 36 that supports the support arm 35 so that the support arm 35 can move up and down, a lift motor 37A, an optical sensor unit 40 as a first thickness detection unit, and a first thickness detection unit 40A. 2 A mechanical switch 41 as a thickness detection unit is provided.
- the support arm 35 has an L shape, an upper end portion thereof is connected to the pedestal portion 33A, and a lower end portion thereof is connected to the elevating mechanism 36.
- the elevating mechanism 36 includes a cylinder and a piston (not shown) arranged in the cylinder and movable up and down.
- a support arm 35 is connected to the piston (not shown).
- the lifting motor 37A is connected to a piston (not shown) of the lifting mechanism 36.
- the lifting motor 37A is a known motor, and the driving of the lifting motor 37A moves the piston (not shown) up and down, and the support arm 35 can move up and down. As a result, the support portion 73A can move up and down.
- the optical sensor unit 40 is provided in the lifting mechanism 36 (inside the cylinder).
- the optical sensor unit 40 includes a plurality of optical sensors 40a to 40f arranged at equal intervals in the vertical direction.
- Each of the optical sensors 40a to 40f is provided with a light receiving portion and a light emitting portion which are arranged to face each other with the support arm 35 interposed therebetween (see FIG. 3).
- Each of the optical sensors 40a to 40f is turned off when the support arm 35 shields the light.
- the position of the support arm 35 in the vertical direction of the elevating mechanism 36 can be detected by the number of ON and OFF of the optical sensors 40a to 40f.
- control unit 42A controls the aluminum brazing material 3 so that the solid brazing material 7 is always pressed with a constant pressure, so that the vertical position of the support arm 35 is relatively large.
- the thickness of the solid brazing material 7 is thick, and when the vertical position of the support arm 35 is relatively high, the thickness of the solid brazing material 7 is thin, so that the optical sensors 40a to 40f are turned on and off.
- the thickness of the solid brazing material 7 can be detected by the number of and.
- the mechanical switch 41 is provided in the elevating mechanism 36 (inside the cylinder), and is arranged in the vertical direction of the elevating mechanism 36 at the height of the supporting arm 35 corresponding to when the solid brazing material 7 is used up.
- the mechanical switch 41 is a known pressure switch, and is turned on when the mechanical switch 41 and the support arm 35 come into contact with each other.
- the control unit 80A includes a control unit 42A and a display 43.
- the control unit 42A has a microcomputer.
- the control unit 42A includes a first peripheral speed sensor 17, a second peripheral speed sensor 19, a third peripheral speed sensor 9, a load cell 25, a lifting motor 37A, a coating motor 8, a delivery motor 18, a winding motor 20, and an optical sensor unit. 40 and the mechanical switch 41 are electrically connected.
- the control unit 42A controls the drive of the delivery motor 18 based on the peripheral speed of the delivery roller 10A detected by the first peripheral speed sensor 17, and controls the transport speed of the aluminum plate 3 to a constant speed.
- the peripheral speed of the delivery roller 10A decreases as the aluminum plate material 3 wound around the delivery roller 10A decreases.
- the drive of the delivery motor 18 is controlled by the control unit 42A in order to keep the peripheral speed of the delivery roller 10A constant.
- the control unit 42A controls the drive of the winding motor 20 based on the peripheral speed of the winding roller 14A detected by the second peripheral speed sensor 19 to control the transport speed of the aluminum plate 3 to a constant speed.
- the peripheral speed of the winding motor 20 increases as the amount of the aluminum plate 3 wound around the winding motor 20 increases.
- the drive of the winding motor 20 is controlled by the control unit 42A in order to keep the peripheral speed of the winding roller 14A constant.
- the control unit 42A controls the drive of the coating motor 8 based on the peripheral speed of the roll-shaped brazing material 2A detected by the third peripheral speed sensor 9 so that the peripheral speed of the roll-shaped brazing material 2A is constant. To control.
- control unit 42A Based on the pressing force detected by the load cell 25, the control unit 42A drives the lifting motor 37A so that the roll-shaped brazing material 2A can be pressed against the aluminum plate material 3 with a constant pressing force, and the pressing force is reduced. Control.
- the control unit 42A drives the coating motor 8 in accordance with the height level of the support arm 35 detected by the optical sensor unit 40 (corresponding to the thickness of the solid brazing material 7) to perform the roll brazing.
- the peripheral speed of the material 2A is controlled.
- the control unit 42A When the mechanical switch 41 is turned on, the control unit 42A notifies the display 43 that the solid brazing material 7 has been used up, and/or the coating motor 8 and/or the delivery motor 18( Also, the drive of the winding motor 20) is stopped, and the rotation of the roll-shaped brazing material 2A and/or the conveyance of the aluminum plate material 3 are stopped.
- the display 43 is electrically connected to the control unit 42A.
- the display 43 gives a warning that the solid brazing material 7 has been used up by the notification from the control unit 42A.
- the display 43 displays the peripheral speed detected by each peripheral speed sensor and the pressing force detected by the load cell 25 in real time as needed. Further, the peripheral speed of the solid brazing material 7 and the diameter of the solid brazing material 7 calculated based on the rotation speed of the coating motor 8 and/or the solid brazing material 7 detected by the optical sensor unit 40. Displays the thickness of.
- the solid brazing material 7 is applied to the aluminum plate 3 by rotating the solid brazing material 7 and contacting the conveyed aluminum plate 3.
- the long aluminum plate 3 is wound around the delivery roller 10A, and the aluminum plate 3 is bridged between the delivery roller 10A and the winding roller 14A.
- the roll-shaped brazing material 2A is supported by the pair of bearing members 29 in the support portion 73A.
- the aluminum plate 3 is fed by controlling the drive of the feed motor 18 and the winding motor 20.
- the peripheral speed of the delivery roller 10A (the aluminum plate 3 on the delivery side) and the peripheral speed of the winding roller 14A (the aluminum plate 3 on the winding side) are determined by the first peripheral speed sensor 17 and the second peripheral speed sensor 19. It is detected and input to the control unit 42A as an electric signal.
- control unit 42A controls the feed motor 18 and the winding motor 20 based on the detections of the first peripheral speed sensor 17 and the second peripheral speed sensor 19 as described above, and the conveying speed of the aluminum plate 3 is constant.
- the control unit 42A controls the feed motor 18 and the winding motor 20 based on the detections of the first peripheral speed sensor 17 and the second peripheral speed sensor 19 as described above, and the conveying speed of the aluminum plate 3 is constant.
- the sent aluminum plate material 3 is wound up by the winding roller 14A.
- the drive of the coating motor 8 is controlled to rotate the solid brazing material 7.
- the solid brazing material 7 is set so that the rotating direction of the solid brazing material 7 and the conveying direction of the aluminum plate material 3 are the same in the contact portion of the solid brazing material 7 and the aluminum plate material 3. Rotate.
- the peripheral speed of the solid brazing material 7 is detected by the third peripheral speed sensor 9 and is input to the control unit 42A as an electric signal.
- control unit 42A controls the coating motor 8 based on the detection of the third peripheral speed sensor 9 so that the peripheral speed of the roll-shaped brazing material 2A (solid brazing material 7) becomes a predetermined speed ratio ( The roll-shaped brazing material 2A is rotated so that the peripheral speed of the solid brazing material 7/the conveying speed of the aluminum plate material 3).
- the speed ratio is adjusted to be less than 1 or more than 1 (not to be 1).
- the peripheral speed of the solid brazing material 7 and the conveying speed of the aluminum plate material 3 are controlled not to be the same.
- the speed ratio is controlled so as to satisfy the following formula (1).
- Speed ratio (application amount/A)+1 (1)
- A satisfies 0 ⁇ A ⁇ 70.
- the unit of A and the coating amount is g/m 2.
- the speed ratio is, for example, more than 1.0, and from the viewpoint of surely increasing the coating amount, it is preferably 1.03 or more, more preferably 1.1 or more, and further preferably 2. It is 0 or more, and for example, 101 or less, preferably 61 or less, more preferably 21 or less.
- control unit 42A controls the coating motor 8 based on the detection of the third peripheral speed sensor 9 so that the rate of change of the set speed ratio is, for example, 30% or less.
- the support arm 35 is pushed up to bring the solid brazing material 7 and the aluminum plate material 3 into contact with each other.
- the solid brazing material 7 is scraped, and the scraped solid brazing material 7 is attached (applied) to the aluminum plate material 3.
- the load cell 25 detects the pressing force applied to the aluminum plate 3 (and the pressing force receiving unit 71) from the solid brazing material 7 and inputs the pressing force to the control unit 42A as an electric signal.
- control unit 42A controls the operation of the lifting motor 37A based on the detection of the load cell 25, and holds the pressing force of the support arm 35 at a predetermined value.
- the rate of change in pressing force should be, for example, 30% or less.
- the rate of change of the pressing force is defined as the ratio of the difference between the setting value of the pressing force and the actual measurement value detected by the load cell 25.
- the solid brazing material 7 is continuously applied to the aluminum plate material 3 with a constant thickness.
- the volume of the solid brazing material 7 decreases (that is, the thickness of the solid brazing material 7 decreases).
- the load cell 25 detects a decrease in pressing force and inputs it to the control unit 42A as an electric signal.
- the control unit 42A controls the operation of the lift motor 37A and pushes the support arm 35 upward. As a result, the pressing force of the support arm 35 is maintained at the predetermined value again.
- the optical sensor unit 40 detects a change in the vertical position of the support arm 35 and inputs it to the control unit 42A as an electric signal.
- the control unit 42A controls the operation of the coating motor 8 to increase the rotation speed of the roll-shaped brazing material 2A.
- control unit 42A increases the number of rotations of the roll-shaped brazing material 2A in accordance with the decrease in the thickness of the solid brazing material 7 while maintaining the pressing force of the support arm 35 at a predetermined value.
- the peripheral speed of the brazing material 2A is kept constant, and the speed ratio is adjusted to fall within a predetermined range.
- control unit 42A detects the signal from the mechanical switch 41 and notifies the display 43 that the solid brazing material 7 has been used up. Then, the display 43 displays the replacement of the solid brazing material 7. And/or the driving of the coating motor 8 is stopped, and the rotation of the roll-shaped brazing material 2A is stopped. And/or the driving of the feeding motor 18 and the driving of the winding motor 20 are stopped, and the conveyance of the aluminum plate 3 is stopped. And/or the drive of the coating motor 8, the drive of the delivery motor 18 and the drive of the winding motor 20 are stopped, and the rotation of the roll-shaped brazing material 2A and the transport of the aluminum plate material 3 are stopped.
- the coating amount is, for example, 2 g/m 2 or more, preferably 5 g/m 2 or more, more preferably 10 g/m 2 or more, and for example, 25 g/m 2 or less, preferably 20 g/m 2. It is the following.
- the coating amount when converted only to the flux component is, for example, 1 g/m 2 or more, preferably 3 g/m 2 or more, and for example, 15 g/m 2. m 2 or less, preferably 10 g/m 2 or less.
- the solid brazing material 7 applied to the aluminum plate 3 is dried during its transportation, and a coating film of the solid brazing material 7 is formed on the aluminum plate 3.
- the thickness of the obtained coating film is, for example, 1 ⁇ m or more, preferably 3 ⁇ m or more, and for example, 25 ⁇ m or less, preferably 20 ⁇ m or less.
- the aluminum plate material 3 provided with such a coating film is suitably used in the production of aluminum or aluminum alloy products, for example, heat exchangers.
- This coating apparatus 1A while the solid brazing material 7 is rotated by the rotary unit 50A, the long aluminum plate material 3 is transported by the transport unit 60A. That is, the solid brazing material 7 is rotated and brought into contact with the transported aluminum plate material 3.
- the solid brazing material 7 can be applied more by the amount of rotation of the solid brazing material 7. Therefore, even if the contact area of the solid brazing material 7 to the aluminum plate material 3 is small, the application amount Can be a lot.
- the rotation unit 50A is controlled by the control unit 42A so that the speed ratio falls within a predetermined range.
- the rotation direction of the solid brazing material 7 and the conveying direction of the aluminum plate material 3 are the same direction at the contact portion of the solid brazing material 7 and the aluminum plate material 3, and the solid brazing material 7 If the speed ratio of the peripheral speed to the transport speed of the aluminum plate material 3 (peripheral speed of the solid brazing material 7/transport speed of the aluminum plate material 3) is less than 1 or exceeds 1, the coating amount can be reliably increased.
- the rotation direction of the solid brazing material 7 and the conveying direction of the aluminum plate material 3 are the same in the contact portion between the solid brazing material 7 and the aluminum plate material 3, and If the speed ratio is not 1, the coating amount can be surely increased.
- the coating amount can be reliably increased.
- the rate of change of the speed ratio is, for example, 30% or less, preferably 20% or less, more preferably 10% or less, a stable coating amount can be maintained. it can.
- control unit 42A controls the peripheral speed of the solid brazing material 7 on the basis of the peripheral speed of the solid brazing material 7 detected by the third peripheral speed sensor 9, and the above-mentioned speed. Adjust the ratio.
- the coating apparatus 1A a predetermined amount of the solid brazing material can be surely coated on the coating object.
- the coating amount for one rotation of the solid brazing material 7 becomes smaller. That is, if the number of revolutions of the solid brazing material 7 remains constant, the coating amount changes as the solid brazing material 7 decreases.
- the control unit 42A holds the solid brazing material at a constant speed without lowering the peripheral speed of the solid brazing material based on the thickness of the solid brazing material 7 detected by the optical sensor unit 40.
- the coating amount is made constant by increasing the rotation speed of the solid brazing material 7. Can be held. As a result, a stable coating amount can be maintained.
- the control unit 42A notifies that the solid brazing material 7 has been used up based on the detection of the mechanical switch 41 and/or rotates and/or rotates the solid brazing material 7. The conveyance of the aluminum plate material 3 is stopped.
- the solid brazing material 7 can be replaced at an optimum timing before the solid brazing material 7 is used up.
- control unit 42A is configured to press the solid brazing material 7 with a constant pressing force against the aluminum plate 3 based on the pressing force detected by the load cell 25. To control.
- the solid brazing material 7 can be brought into contact with the aluminum plate material 3 at a constant pressure, and as a result, The brazing material 7 can be stably applied to the aluminum plate material 3.
- the rate of change in pressing force is, for example, 30% or less, preferably 20% or less, more preferably 10% or less, a stable coating amount can be maintained. it can.
- the method for manufacturing the aluminum plate 3 to which the solid brazing material 7 is applied includes the above-mentioned applying method, and therefore the solid brazing material 7 is applied to the aluminum plate 3 applied at a constant application amount. It can be manufactured.
- this roll-shaped brazing material 2A since it has a roll shape, it can be suitably used in the above-mentioned coating method.
- the roll-shaped brazing material 2A has a roll shape so as to be set in the rotary unit 50A, it can be preferably used in the coating apparatus 1A.
- the roll-shaped brazing material 2A includes the rotating shaft 6, even if the thickness of the solid brazing material 7 is reduced by application, the solid brazing material 7 can be used up to the vicinity of the rotating shaft 6. .. As a result, the yield can be improved. 2. Second Embodiment In the following second embodiment, description will be given with reference to FIGS. 4, 5, and 6, but the same reference numerals are attached to the same members and steps as those in the above-described first embodiment. , Its detailed description is omitted.
- a coating device 1B is installed to continuously coat a roll-shaped brazing material 2B on an aluminum plate 3 as an object to be coated.
- the roll-shaped brazing material 2B includes a connecting member 63 as an attachment member and a solid brazing material 7 arranged around the connecting member 63.
- the connecting member 63 has a cylindrical shape, and a plurality of projections 64 projecting outward in the radial direction are arranged on the outer peripheral surface of the connecting member 63 at intervals along the axial direction and the circumferential direction. There is.
- a plurality of protrusions 64 are arranged at intervals over the entire circumference in the circumferential direction.
- a plurality of the protrusions 64 are arranged along the axial direction of the connecting member 63 at intervals.
- the coating device 1B for coating the roll-shaped brazing material 2B on the aluminum plate 3 will be described in detail below.
- the coating device 1B includes a transport unit 60B as a transport unit, a coating unit 70B, and a control unit 80B as a control unit.
- the transport unit 60B includes a delivery unit 61B and a winding unit 62B.
- the delivery unit 61B and the winding unit 62B are arranged at a predetermined interval in the horizontal direction with the coating unit 70B interposed therebetween.
- the delivery unit 61B is arranged upstream of the coating unit 70B in the transport direction.
- the delivery unit 61B includes a delivery roller 10B and a first guide roller 11Ba in order from the upstream side in the transport direction to the downstream side in the transport direction, and the delivery unit 61B includes a delivery motor 18 and a first torque meter 81.
- the sending roller 10B is a roller that holds the aluminum plate 3 and sends out the aluminum plate 3, and is arranged at the uppermost stream in the transport direction of the aluminum plate 3.
- a long aluminum plate 3 is wound around the delivery roller 10B, and the aluminum 10 can be delivered from the upstream side in the transport direction to the downstream side in the transport direction by rotating the delivery roller 10B.
- a delivery motor 18 is connected to the delivery roller 10B.
- the delivery motor 18 is a known motor, and the delivery motor 18 is driven to rotate the delivery roller 10B to deliver the aluminum plate material 3.
- a first torque meter 81 is connected to the delivery roller 10B.
- the first torque meter 81 is a known torque meter and is capable of detecting the torque acting on the rotating shaft of the feed roller 10B.
- the first guide roller 11Ba is arranged downstream of the delivery roller 10B in the transport direction.
- the first guide roller 11Ba guides the aluminum plate material 3 delivered from the delivery roller 10B to the coating unit 70B.
- the winding unit 62B is arranged on the downstream side in the transport direction with respect to the coating unit 70B.
- the winding unit 62B includes a second guide roller 11Bb, a pair of transport rollers 82, a third guide roller 11Bc, a fourth guide roller 11Bd, and a tension roller 13B in order from the transport direction upstream side to the transport direction downstream side. And a fifth guide roller 11Be, a sixth guide roller 11Bf, and a take-up roller 14B, and the take-up unit 62B includes a conveyance motor 83, a second torque meter 84, and a take-up motor 20.
- the second guide roller 11Bb and the third guide roller 11Bc are arranged at a predetermined interval in the carrying direction so as to sandwich the pair of carrying rollers 82 in the carrying direction.
- the pair of transport rollers 82 are rollers that transport the aluminum plate 3, and are arranged between the second guide roller 11Bb and the third guide roller 11Bc.
- the pair of transport rollers 82 includes a lower transport roller 82a and an upper transport roller 82b that is arranged to face the lower transport roller 82a on the upper side.
- the lower transport roller 82a and the upper transport roller 82b are capable of transporting the aluminum plate 3 from the upstream side in the transport direction to the downstream side in the transport direction by rotating them while sandwiching the aluminum plate 3 therebetween.
- a transport motor 83 is connected to the upper transport roller 82b.
- the transport motor 83 is a known motor, and drives the transport motor 83 to rotate the upper transport roller 82b. Then, the lower transport roller 82a rotates following the rotation of the upper transport roller 82b, and the rotation of the upper transport roller 82b and the lower transport roller 82a moves the aluminum plate 3 from the upstream side in the transport direction to the downstream side in the transport direction. It can be transported.
- the fourth guide roller 11Bd and the fifth guide roller 11Be are arranged on the downstream side of the third guide roller 11Bc in the conveyance direction, and are arranged at predetermined intervals in the conveyance direction so as to sandwich the tension roller 13B in the conveyance direction. ing.
- the tension roller 13B is arranged between the fourth guide roller 11Bd and the fifth guide roller 11Be so as to be vertically movable.
- the tension roller 13B is vertically movable between the fourth guide roller 11Bd and the fifth guide roller 11Be so that the tensile force of the aluminum plate material 3 to be conveyed can be adjusted.
- the sixth guide roller 11Bf is arranged downstream of the fifth guide roller 11Be in the transport direction.
- the sixth guide roller 11Bf guides the aluminum plate 3 conveyed from the fifth guide roller 11Be to the winding roller 14B.
- the take-up roller 14B is a roller for taking up the conveyed aluminum plate 3 and is arranged at the most downstream side in the conveying direction of the aluminum plate 3.
- a winding motor 20 is connected to the winding roller 14B.
- the winding motor 20 is a known motor, and by driving the winding motor 20, the winding roller 14 is rotated to wind the aluminum plate material 3.
- a second torque meter 84 is connected to the winding roller 14B.
- the second torque meter 84 is a known torque meter and can detect the torque acting on the rotation shaft of the winding roller 14B.
- the coating unit 70B includes a pressing force receiving unit 71 and a pressing force applying unit 72B.
- the pressing force receiving unit 71 and the pressing force applying unit 72B are arranged at a predetermined interval in the vertical direction with the aluminum plate material 3 conveyed by the conveying unit 60 interposed therebetween.
- the pressing force receiving unit 71 is arranged on the upper side of the aluminum plate 3 in the frame of the second support member 54 (described later), and is arranged vertically opposite to the pressing force applying unit 72B.
- the pressing force receiving unit 71 includes the same members as those in the first embodiment described above.
- the pressing force applying unit 72B includes a rotating unit 50B, a supporting portion 73B, and a pressing portion 74B as a pressing unit.
- the rotation unit 50B transmits the power from the coating motor 8 to the roll brazing material 2A and the coating motor 8 as a power source for rotating the roll brazing material 2B.
- the rotary shaft 51 as a power transmission member.
- the rotating shaft 51 has a cylindrical shape, is connected to the coating motor 8 via a coupling (not shown), and has one end rotatably supported by the supporting portion 73B.
- the roll-shaped brazing material 2B is set on the rotary unit 50B by the method described later.
- the support portion 73B has a plate shape that extends in the vertical direction.
- the support portion 73B supports the rotating shaft 51 and the coating motor 8.
- the pressing portion 74B serves as a first support member 53 that supports the support portion 73B, a second support member 54 that supports the first support member 53, a lifting motor 37B, and a first thickness detection unit and a second thickness detection unit.
- the first support member 53 extends in the vertical direction, and the support portion 73B is connected to the side surface thereof.
- the second support member 54 has a frame shape that extends in the vertical direction.
- a first support member 53 having a ball screw (not shown) is connected to one side surface in the frame so as to be vertically movable.
- the lifting motor 37B is a known motor, and the first supporting member 53 can be moved up and down by driving the lifting motor 37B. As a result, the roll-shaped brazing material 2B can move up and down.
- the distance sensor 85 is arranged on the upper side of the first support member 53 with a space therebetween.
- the distance sensor 85 is a known laser distance sensor, and the distance sensor 85 is obtained by irradiating the first supporting member 53 with laser light, detecting the reflected light from the first supporting member 53, and converting the reflected light into a distance. The distance between the first support member 53 and the first support member 53 can be detected.
- the control unit 42B keeps the pressing force detected by the load cell 25 at a predetermined value, so that the volume of the solid brazing material 7 is reduced (that is, the thickness of the solid brazing material 7 is reduced). (By the amount of decrease), the first support member 53 is moved in the vertical direction. At that time, the change amount of the vertical position corresponds to the change amount of the vertical position of the distance.
- control unit 42B determines the amount of decrease in the thickness of the solid brazing material 7 (the amount of decrease in the diameter of the solid brazing material 7 based on the amount of change in the vertical position of the distance detected by the distance sensor 85). ) Can be calculated, and thereby the diameter of the solid brazing material 7 is calculated.
- the control unit 80B includes a control unit 42B and a display 43.
- the control unit 42B has a microcomputer.
- the control unit 42B is electrically connected to the transport motor 83, the first torque meter 81, the second torque meter 84, the load cell 25, the lifting motor 37B, the coating motor 8, the feeding motor 18, the winding motor 20, and the distance sensor 85. Has been done.
- the control unit 42B controls the driving of the carry motor 83 to control the carry speed of the aluminum plate 3 to a constant speed.
- the control unit 42B based on the torque acting on the rotating shaft of the delivery roller 10B and the torque acting on the rotating shaft of the winding roller 14B detected by the first torque meter 81 and the second torque meter 84, the tensile force of the aluminum plate member 3
- the drive of the feed motor 18 and the take-up motor 20 is controlled so that is constant.
- control unit 42B Based on the pressing force detected by the load cell 25, the control unit 42B drives the elevating motor 37B so that the roll-shaped brazing material 2B can be pressed with a constant pressing force against the aluminum plate material 3 to reduce the pressing force. Control.
- the control unit 42B detects the distance between the distance sensor 85 detected by the distance sensor 85 and the first support member 53. Then, the control unit 42B calculates the peripheral speed of the roll-shaped brazing material 2B based on the diameter of the solid brazing material 7 calculated from this distance and the rotation speed of the coating motor 8, and the coating motor. 8 is controlled to control the peripheral speed of the roll-shaped brazing material 2B at a constant speed.
- the control unit 42B notifies the display 43 that the solid brazing material 7 has been used up and/or the application when the distance between the distance sensor 85 and the lifting motor 37B reaches a predetermined value.
- the drive of the motor 8 and/or the transport motor 83 (and the delivery motor 18 and the winding motor 20) is stopped, and the rotation of the roll-shaped brazing material 2B and/or the transport of the aluminum plate material 3 are stopped.
- the display 43 is electrically connected to the control unit 42B.
- the display 43 gives a warning that the solid brazing material 7 has been used up by the notification from the control unit 42B.
- the display 43 is, if necessary, the diameter of the solid brazing material 7 calculated based on the distance detected by the distance sensor 85, and the solid brazing material calculated based on the diameter and the rotation speed of the coating motor 8.
- the peripheral speed of the attachment 7, the pressing force detected by the load cell 25, the transfer speed controlled by the transfer motor 83, and the tensile force of the aluminum plate 3 detected by each torque meter are displayed in real time.
- the solid brazing material 7 is applied to the aluminum plate 3 by rotating the solid brazing material 7 and contacting the conveyed aluminum plate 3.
- the long aluminum plate 3 is wound around the delivery roller 10B, and the aluminum plate 3 is bridged between the delivery roller 10B and the winding roller 14B.
- the connecting member 63 of the roll-shaped brazing material 2B is inserted into the rotary shaft 51.
- the roll-shaped brazing material 2B and the rotary shaft 51 are fastened using a known friction fastener (for example, a hub member 12 described later).
- the hub member 12 is inserted into the rotary shaft 51, and the hub member 12 is set in the hollow portion of the connecting member 63.
- transfer speed is the same as the transfer speed of the first embodiment described above.
- the first torque meter 81 and the second torque meter 84 detect the torque acting on the rotating shaft of the delivery roller 10B and the torque acting on the rotating shaft of the winding roller 14B, and are input to the control unit 42B as electric signals. ..
- control unit 42B controls the drive of the feed motor 18 and the winding motor 20 based on the detection of the first torque meter 81 and the second torque meter 84 so that the tensile force of the aluminum plate material 3 becomes constant.
- the sent aluminum plate material 3 is wound up by the winding roller 14B.
- the drive of the coating motor 8 is controlled to rotate the solid brazing material 7.
- the rotation direction of the solid brazing material 7 and the conveying direction of the aluminum plate material 3 are the same in the contact portion of the solid brazing material 7 and the aluminum plate material 3, and a predetermined speed ratio (solid brazing material) is used.
- the solid brazing material 7 is rotated so that the peripheral speed of the brazing material 7/the conveying speed of the aluminum plate material 3).
- predetermined speed ratio is the same as the speed ratio of the first embodiment described above.
- the solid brazing material 7 is scraped, and the scraped solid brazing material 7 is attached (applied) to the aluminum plate material 3.
- the load cell 25 detects the pressing force applied to the aluminum plate 3 (and the pressing force receiving unit 71) from the solid brazing material 7 and inputs the pressing force to the control unit 42B as an electric signal.
- control unit 42B controls the operation of the lifting motor 37B based on the detection of the load cell 25, and holds the pressing force of the first support member 53 at a predetermined value.
- the rate of change in pressing force should be, for example, 30% or less.
- the solid brazing material 7 is continuously applied to the aluminum plate material 3 with a constant thickness.
- the volume of the solid brazing material 7 decreases (that is, the thickness of the solid brazing material 7 decreases).
- the load cell 25 detects a decrease in pressing force and inputs it to the control unit 42B as an electric signal.
- control unit 42B controls the operation of the lifting motor 37B and pushes the first support member 53 upward.
- the pressing force of the first support member 53 is maintained at the predetermined value again.
- the distance sensor 85 detects a change in the vertical position of the first support member 53 and inputs it to the control unit 42B as an electric signal.
- the control unit 42B controls the operation of the coating motor 8 to increase the rotation speed of the roll-shaped brazing material 2B.
- control unit 42B increases the rotation speed of the roll-shaped brazing material 2B in accordance with the decrease in the thickness of the solid brazing material 7 while maintaining the pressing force of the first supporting member 53 at a predetermined value.
- the peripheral speed of the roll-shaped brazing material 2B is kept constant, and the speed ratio is adjusted to fall within a predetermined range.
- the vertical position of the first support member 53 gradually increases, and when the predetermined position is reached, the distance sensor 85 sends an electric signal. Input to the control unit 42B.
- the control unit 42B detects the signal from the distance sensor 85 and notifies the display 43 that the solid brazing material 7 has been used up. Then, the display 43 displays the replacement of the solid brazing material 7. And/or the driving of the coating motor 8 is stopped, and the rotation of the roll-shaped brazing material 2A is stopped. And/or the driving of the feeding motor 18, the driving of the winding motor 20, and the driving of the transport motor 83 are stopped, and the transport of the aluminum plate material 3 is stopped. And/or the drive of the coating motor 8, the drive of the delivery motor 18, the drive of the winding motor 20 and the drive of the transport motor 83 are stopped, and the rotation of the roll-shaped brazing material 2B and the transport of the aluminum plate material 3 are stopped. Stop.
- the amount applied is the same as the amount applied in the first embodiment described above.
- the solid brazing material 7 applied to the aluminum plate 3 is dried during its transportation, and a coating film of the solid brazing material 7 is formed on the aluminum plate 3.
- the thickness of the obtained coating film is the same as that of the above-described first embodiment.
- the aluminum plate material 3 provided with such a coating film is suitably used in the production of aluminum or aluminum alloy products, for example, heat exchangers.
- the coating apparatus 1B and the coating method described above apply the solid brazing material 7 to the aluminum plate material 3 as in the case of the above-described first embodiment, and thus do not require a drying facility for drying a solvent or the like, which reduces costs. It can be reduced.
- the coating device 1B of the second embodiment has the same effects as the coating device 1A of the first embodiment.
- the control unit 42B controls the solid brazing material 7 based on the diameter (thickness) of the solid brazing material 7 detected by the distance sensor 85 and the rotation speed of the coating motor 8.
- the peripheral speed is adjusted so as to be kept constant without lowering (that is, the number of rotations is increased).
- the number of rotations of the solid brazing material 7 is increased even if the diameter of the solid brazing material 7 is gradually reduced.
- the applied amount can be held constant. As a result, a stable coating amount can be maintained.
- the control unit 42B notifies that the solid brazing material 7 has been used up based on the detection of the distance sensor 85, and/or rotates and/or rotates the solid brazing material 7. The conveyance of the aluminum plate material 3 is stopped.
- the solid brazing material 7 can be replaced at an optimum timing before the solid brazing material 7 is used up.
- the thickness of the solid brazing material 7 is detected by the optical sensor unit 40 and the mechanical switch 41, but in the coating device 1B, the thickness of the solid brazing material 7 is detected by one distance sensor 85. can do.
- the distance sensor 85 can calculate the peripheral speed of the solid brazing material 7 based on the diameter of the solid brazing material 7 and the rotation speed of the coating motor 8.
- This coating device 1B can omit the third peripheral speed sensor 9 as the peripheral speed detecting unit in the first embodiment.
- the peripheral speed of the upper transfer roller 82b (that is, the transfer speed of the aluminum plate material 3) can be calculated by the rotation speed of the transfer motor 83, and thus the first rotation in the first embodiment.
- the speed sensor 17 and the second peripheral speed sensor 19 can be omitted.
- the coating motor 8 is controlled and the peripheral speed of the roll-shaped brazing material 2A is controlled so that the above-mentioned speed ratio is constant while the transport speed of the aluminum plate material 3 is constant.
- the coating motor 8 is controlled so that the speed ratio becomes constant, the peripheral speed of the roll-shaped brazing material 2A is controlled, and the delivery motor 18 and the winding motor 20 are controlled to control the aluminum. It is also possible to control the transport speed of the plate material 3.
- the solid brazing material 7 detected by the optical sensor unit 40 is Based on the thickness, the peripheral speed of the solid brazing material 7 was kept constant and adjusted so that the speed ratio was within a predetermined range.
- the solid brazing material detected by the third peripheral speed sensor 9 The peripheral speed of the solid brazing material 7 may be controlled on the basis of the peripheral speed of 7 to adjust the speed ratio within a predetermined range.
- the aluminum plate 3 is conveyed by driving the feed motor 18 and the winding motor 20, but the feed motor 18 is not provided and the aluminum plate 3 is conveyed by driving the winding motor 20. Good.
- the coating apparatus 1A includes the mechanical switch 41 as the second thickness detection unit, but the optical sensor unit 40 may be used as the second thickness detection unit.
- the predetermined thickness of the solid brazing material 7 is detected stepwise by the number of ON and OFF of the optical sensor unit 40 (optical sensors 40a to 40f).
- the notification corresponding to the predetermined thickness of the solid brazing material 7 (specifically, the notification corresponding to the remaining amount of the solid brazing material 7 (for example, remaining amount 50%, 30%, 20%)).
- control unit 42A detects the signal of the optical sensor unit 40, and the display 43 displays the remaining amount of the solid brazing material 7.
- the lifting mechanism 36 may be replaced with a cylinder and a piston, and a rack and pinion or a ball screw may be used.
- the roll shape of the roll-shaped brazing material 2 includes both a hollow shape having a hollow at the center and a solid shape having no hollow at the center.
- the roll-shaped brazing material 2 has a hollow roll shape including the rotary shaft 6, but a solid brazing material having a solid roll shape without the rotary shaft 6 ( (Not shown) (hereinafter, referred to as a solid roll brazing material) may be used.
- the rotating shaft 6 has a cylindrical shape
- a protrusion and/or a roughened surface may be provided in a portion in contact with the solid brazing material 7.
- the solid brazing material 7 can be more reliably fixed to the rotating shaft 6.
- the shape of the protrusion can be a rectangular parallelepiped, an arch shape, a trapezoid, a triangular shape, etc., to increase the contact area between the rotating shaft and the solid brazing material, and/or to increase the anchoring force between the protrusion and the solid brazing material 7.
- Various shapes may be used.
- the rotary shaft 6 is set at the stage of solidifying the solid brazing material 7 to obtain the roll-shaped brazing material 2A in which the rotary shaft 6 and the solid brazing material 7 are integrated.
- the roll-shaped brazing material 2A may be obtained by first forming the hollow solid brazing material 7 and then inserting the rotary shaft 6 into the hollow portion.
- the pressing portion 74A includes the optical sensor unit 40 as the first thickness detecting unit and the mechanical switch 41 as the second thickness detecting unit, but the pressing portion 74A does not include these. Good.
- the distance sensor 85 detects the thickness of the solid brazing material 7, but the detection can be omitted.
- the pressing portion 74B may include the optical sensor unit 40 of the first embodiment as the first thickness detection unit and the mechanical switch 41 as the second thickness detection unit, or the first thickness detection unit. The thickness detection unit and the second thickness detection unit may not be provided.
- the coating motor 8 is controlled and the peripheral speed of the roll-shaped brazing material 2B is controlled so that the above-mentioned speed ratio becomes constant while the transport speed of the aluminum plate material 3 is constant.
- the coating motor 8 is controlled so that the above speed ratio is constant, the peripheral speed of the roll-shaped brazing material 2B is controlled, and the transport motor 83 is controlled to transport the aluminum plate material 3. Can also be controlled.
- first torque meter 81 and the second torque meter 84 are externally attached to the sending roller 10B and the winding roller 14B, respectively, but the first torque meter 81 and the second torque meter 84 are not provided.
- the delivery roller 10B and the winding roller 14B may be incorporated.
- the connecting member 63 is used as the attachment member, but the friction type fastener (hub member 12) can be directly used as the attachment member without using the connecting member 63.
- the roll-shaped brazing material 2B includes the hub member 12 and the solid brazing material 7 arranged around the hub member 12, as shown in FIG. 7.
- the hub member 12 is a friction type fastener including an inner ring 91 and an outer ring 92. That is, the hub member 12 has a friction type fastening mechanism.
- the inner ring 91 includes a cylindrical portion 95 having a cylindrical shape, and a flange 94 that extends in the radial direction at one axial end of the cylindrical portion 95.
- a first taper surface 98 is formed on the outer peripheral surface of the tubular portion 95 so as to decrease in diameter toward the other end.
- the flange 94 has an annular shape, and a plurality of first screw holes 96 penetrating in the axial direction are arranged at intervals along the circumferential direction.
- the outer ring 92 has a thick-walled cylindrical shape, and a plurality of second screw holes 100 penetrating in the axial direction are arranged at intervals along the circumferential direction.
- the second screw hole 100 is provided corresponding to the first screw hole 96.
- a second tapered surface 101 is formed on the inner peripheral surface of the outer ring 92 so as to decrease in diameter toward the other end and faces the first tapered surface 98.
- the inner diameter of one end of the outer ring 92 is larger than the outer diameter of the other end of the tubular portion 95, and the inner diameter of the other end of the outer ring 92 is smaller than the outer diameter of one end of the tubular portion 95.
- a plurality of projections 97 protruding outward in the radial direction are arranged at intervals along the axial direction and the circumferential direction.
- a plurality of protrusions 97 are arranged over the entire circumference in the circumferential direction at intervals.
- the plurality of protrusions 97 are arranged at intervals along the axial direction of the outer ring 92.
- the contact area between the outer ring 92 and the solid brazing material 7 is increased, and an anchoring force acts between the protrusion 97 and the solid brazing material 7 to secure the solid brazing material 7 to the outer surface. It can be securely fixed to the ring 92.
- the outer ring 92 is arranged in the hollow portion of the solid brazing material 7.
- the rotary shaft 51 is inserted into the tubular portion 95 of the hub member 12 of the roll-shaped brazing material 2B.
- the shape of the protrusions is not particularly limited, and for example, the contact area between the attachment member and the solid brazing material 7 can be increased, such as a rectangular parallelepiped, an arch shape, a trapezoid, and a triangle shape.
- the contact area between the attachment member and the solid brazing material 7 can be increased, such as a rectangular parallelepiped, an arch shape, a trapezoid, and a triangle shape.
- Various shapes that can increase the anchoring force between the protrusions (the protrusion 64 and the protrusion 97) and the solid brazing material 7 can also be used.
- the surface instead of the protrusions (the protrusion 64 and the protrusion 97), the surface can be roughened.
- the outer surface of the rotating shaft 51 and the inner surface of the hub member 12 are smooth surfaces, but in the portion of the rotating shaft 51 where the roll-shaped brazing material 2B is fixed, the outer surface of the rotating shaft 51 is It may be deformed into a known power-transmittable shape such as a set screw, a clamping, a key groove, and a gear so that the inner surface of the hub member 12 can be fitted together.
- the inner ring 91 and the outer ring 92 are in contact with each other on their tapered surfaces and are fastened with each other by the plurality of bolts 93, but the invention is not limited to tapered surfaces, and for example, a set screw, clamping A known shape capable of transmitting power, such as a keyway or a gear, may be used. Further, in such a case, the inner ring 91 and the outer ring 92 can be fastened without using the plurality of bolts 93.
- the outer ring 92 described above can also be used as an attachment member.
- the roll-shaped brazing material 2B includes the outer ring 92 and the solid brazing material 7 arranged around the outer ring 92.
- friction type fastener a known hydraulic type friction type fastener may be used instead of the wedge type friction type fastener such as the hub member 12 described above.
- a commercially available product may be used as the friction type fastener, and examples of the wedge type friction type fastener include AS series (manufactured by Tsubakimoto Chain Co., Ltd.).
- connection member 63 is set at the stage of solidifying the solid brazing material 7 to obtain the roll-shaped brazing material 2B in which the connection member 63 and the solid brazing material 7 are integrated. It is also possible to obtain the roll-shaped brazing material 2B by first forming the hollow solid brazing material 7 and then disposing the connecting member 63 in the hollow portion.
- the first support member 53 may be replaced with a ball screw, and a rack and pinion, a cylinder and a piston, or the like may be used.
- the rotation unit 50 includes a power source and a power transmission member, but the power source and the power transmission member are not limited to the members described above, and, for example, as a power transmission member, For example, gears can be used. Further, the rotation unit 50 may include only a power source.
- the transport unit 60A may include only the delivery roller 10A and the winding roller 14A in order from the transport direction upstream side to the transport direction downstream side, and in the second embodiment, the transport unit 60B. Can also include only the delivery roller 10B, the pair of transport rollers 82, and the winding roller 14B in this order from the upstream side in the transport direction to the downstream side in the transport direction.
- the transported aluminum plate material 3 is wound by the winding roller 14, but the winding roller 14 is not provided, and the transported aluminum plate material 3 is not wound. It can be processed as it is.
- the transport unit 60A includes the delivery roller 10A and optionally other rollers (first guide roller 11Aa, second guide roller 11Ab, tension roller 13A, third guide roller 11Ac). , And a fourth guide roller 11Ad).
- the transport unit 60B includes the delivery roller 10B, a pair of transport rollers 82, and optionally other rollers (first guide roller 11Ba, second guide roller 11Bb, third guide roller 11Bc, The fourth guide roller 11Bd, the tension roller 13B, the fifth guide roller 11Be, and the sixth guide roller 11Bf).
- one application unit 70 (solid brazing material 7) is arranged, but the number of application units 70 (solid brazing material 7) is not particularly limited, and a plurality of arrangements are possible. You may.
- a plurality of (two) pressing force applying units 72 may be arranged at intervals below the pressing force receiving unit 71 in the transport direction. ..
- a plurality of pressing force applying units 72 may be arranged at intervals on the upper side of the aluminum plate material 3 in the transport direction.
- the pressing force receiving unit 71 is arranged below the aluminum plate 3.
- the load cell 25 is arranged in the pressing force receiving unit 71, but the load cell 25 may be arranged in the pressing force applying unit 72.
- a plurality of pressing force applying units 72 are arranged at intervals in the conveying direction, and further, the pressing force applying units 72 on the upper and lower sides are arranged to face each other.
- the upper and lower surfaces of the aluminum plate material 3 can also be applied simultaneously.
- the load cell 25 is arranged in the pressing force applying unit 72.
- the rotation direction of the solid brazing material 7 and the conveying direction of the aluminum plate material 3 are the same in the contact portion of the solid brazing material 7 and the aluminum plate material 3. Although the solid brazing material 7 is rotated, the solid brazing material 7 may be rotated in the opposite direction.
- the solid brazing material 7 is rotated so that the rotating direction of the solid brazing material 7 and the conveying direction of the aluminum plate material 3 are opposite to each other at the contact portion between the solid brazing material 7 and the aluminum plate material 3, Since the solid brazing material 7 can be applied more as the solid brazing material 7 rotates, the application amount can be increased even if the contact area of the solid brazing material 7 with the aluminum plate 3 is small.
- the speed ratio is preferably controlled so as to satisfy the following expression (2).
- Speed ratio (application amount/A)-1 (2) (In the formula, A satisfies 0 ⁇ A ⁇ 70.
- the unit of A and the coating amount is g/m 2. )
- the speed ratio exceeds, for example, 0, preferably 0.1 or more, more preferably 0.5 or more, still more preferably 1.0 or more, and particularly preferably 2.0 or more. And is, for example, 99 or less, preferably 59 or less, more preferably 19 or less.
- the solid brazing material 7 is rotated so that the rotation direction of the solid brazing material 7 and the conveying direction of the aluminum plate material 3 are the same in the contact portion of the solid brazing material 7 and the aluminum plate material 3.
- the long aluminum plate material 3 is used as the object to be coated, but the object to be coated is not only the plate material but also the object to be coated such as a flat tube. It is also possible to use a flat and rollable member.
- the number of pressing force receiving units 71 is not particularly limited, and the pressing direction receiving unit 71 is disposed on the opposite side to the pressing force applying unit 72 in the conveyance direction.
- a plurality of pressing force receiving units 71 can be arranged at intervals.
- the endless belt mechanism 26 includes the pair of endless belt rollers 21 and the endless belt 23 wound around the pair of endless belt rollers 21, but
- the belt mechanism 26 may further include an applicator table 30 (see the broken line in FIG. 1) or one or more rollers (not shown) between the pair of endless belt rollers 21.
- the control unit 42 presses the roll-shaped brazing material 2 against the aluminum plate material 3 with a constant pressing force based on the pressing force detected by the load cell 25.
- the lifting motor 37 was driven to control the pressing force so that the control unit 42 controls the pressing force receiving unit 71 or the coating table in the pressing force receiving unit 71 based on the pressing force detected by the load cell 25.
- the pressing force can be controlled by moving 30 or a roller (not shown).
- the members (mechanical elements) in the above-described first and second embodiments are not limited to the members in the above-described embodiment, and can be replaced by known members.
- an encoder may be used to detect the position of the support arm 35 in the vertical direction of the elevating mechanism 36.
- the coating device 1 in order to control the temperature of the solid brazing material 7, can be arranged in the casing controlled at a predetermined temperature.
- the coating unit 70 may include a fluorescent X-ray analysis device 90 as a coating amount detecting means.
- the fluorescent X-ray analysis device 90 is arranged below the aluminum plate 3 between the coating unit 70B and the second guide roller 11Bb.
- the fluorescent X-ray analysis device 90 is a known fluorescent X-ray analysis device, and an electron beam or X-ray is applied to the lower side (the surface coated with the solid brazing material 7) of the aluminum plate 3 delivered from the coating unit 70B. It is possible to detect the fluorescent X-ray from the aluminum plate material 3 by irradiating the wire and detect the application amount of the solid brazing material 7 from the detection intensity of the desired element.
- the fluorescent X-ray analyzer 90 is also electrically connected to the control unit B.
- control unit 42B controls the drive of the transport motor 83 based on the application amount of the solid brazing material 7 detected by the fluorescent X-ray analysis device 90, and controls the transport speed of the aluminum plate material 3. It is controlled to a constant speed and/or the drive of the coating motor 8 is controlled to control the peripheral speed of the roll-shaped brazing material 2B to a constant speed, and/or with respect to the aluminum plate material 3,
- the lifting motor 37B is driven to control the pressing force so that the roll-shaped brazing material 2B can be pressed with a constant pressing force.
- the method for applying a solid brazing material, the method for producing an applied product, the application device, and the roll-shaped solid brazing material of the present invention are preferably used in the production of an aluminum or aluminum alloy product, for example, a heat exchanger. ..
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Abstract
Description
速度比=(塗布量/A)+1 (1)
速度比=(塗布量/A)-1 (2)
(式中、Aは、0<A≦70を満たす。なお、Aおよび塗布量の単位は、g/m2である。)
この固形ろう付け材の塗布方法によれば、速度比が、上記式(1)または上記式(2)を満足するため、塗布量を確実に多くできる。
図1において、塗布装置1Aは、被塗布物としてのアルミニウム板材3に、ロール状の固形ろう付け材2Aを連続的に塗布するために設備されている。
速度比=(塗布量/A)+1 (1)
(式中、Aは、0<A≦70を満たす。なお、Aおよび塗布量の単位は、g/m2である。)
具体的には、速度比は、例えば、1.0を超過、塗布量を確実に多くする観点から、好ましくは、1.03以上、より好ましくは、1.1以上、さらに好ましくは、2.0以上であり、また、例えば、101以下、好ましくは、61以下、より好ましくは、21以下である。
(作用効果)
この塗布装置1Aによれば、回転ユニット50Aによって、固形ろう付け材7を回転させながら、搬送ユニット60Aによって、長尺のアルミニウム板材3を搬送する。つまり、固形ろう付け材7を回転させながら、搬送されるアルミニウム板材3に接触させる。
2.第2実施形態
以下の第2実施形態において、図4、図5および図6を参照して説明するが、上記した第1実施形態と同様の部材および工程については、同一の参照符号を付し、その詳細な説明を省略する。
(作用効果)
第2実施形態の塗布装置1Bは、第1実施形態の塗布装置1Aと同様の効果を奏する。
第1実施形態では、アルミニウム板材3の搬送速度を一定としつつ、上記の速度比が一定になるように、塗布用モータ8を制御し、ロール状ろう付け材2Aの周速度を制御したが、固形ろう付け材7の周速度を一定としつつ、上記の速度比が一定になるように、送出モータ18および巻取モータ20を制御して、アルミニウム板材3の搬送速度を制御することもできる。さらには、上記の速度比が一定になるように、塗布用モータ8を制御し、ロール状ろう付け材2Aの周速度を制御するとともに、送出モータ18および巻取モータ20を制御して、アルミニウム板材3の搬送速度を制御することもできる。
速度比=(塗布量/A)-1 (2)
(式中、Aは、0<A≦70を満たす。なお、Aおよび塗布量の単位は、g/m2である。)
具体的には、速度比は、例えば、0を超過し、好ましくは、0.1以上、より好ましくは、0.5以上、さらに好ましくは、1.0以上、とりわけ好ましくは、2.0以上であり、また、例えば、99以下、好ましくは、59以下、より好ましくは、19以下である。
2 ロール状の固形ろう付け材
3 アルミニウム板材
6 回転軸
7 固形ろう付け材
9 第3周速度センサー
25 ロードセル
40 光センサーユニット
41 メカスイッチ
42 制御ユニット
50 回転ユニット
60 搬送ユニット
63 接続部材
74 押圧部
90 蛍光X線分析装置
Claims (19)
- 固形ろう付け材を回転させながら、搬送される被塗布物に接触させることで、前記固形ろう付け材を、前記被塗布物に塗布することを特徴とする、固形ろう付け材の塗布方法。
- 前記固形ろう付け材の回転方向と前記被塗布物の搬送方向とが、前記固形ろう付け材および前記被塗布物の接触部分において、逆方向であるか、または、
前記固形ろう付け材の回転方向と前記被塗布物の搬送方向とが、前記固形ろう付け材および前記被塗布物の接触部分において、同一方向であり、
前記固形ろう付け材の周速度の前記被塗布物の搬送速度に対する速度比(固形ろう付け材の周速度/被塗布物の搬送速度)が、前記同一方向の場合は、1未満または1を超過することを特徴とする、請求項1に記載の固形ろう付け材の塗布方法。 - 前記固形ろう付け材の回転方向と前記被塗布物の搬送方向とが、前記固形ろう付け材および前記被塗布物の接触部分において、同一方向であり、かつ、上記速度比が、下記式(1)を満足するか、または、
前記固形ろう付け材の回転方向と前記被塗布物の搬送方向とが、固形ろう付け材および前記被塗布物の接触部分において、逆方向であり、かつ、上記速度比が、下記式(2)を満足することを特徴とする、請求項2に記載の固形ろう付け材の塗布方法。
速度比=(塗布量/A)+1 (1)
速度比=(塗布量/A)-1 (2)
(式中、Aは、0<A≦70を満たす。なお、Aおよび塗布量の単位は、g/m2である。) - 前記速度比の変化率が30%以下であることを特徴とする、請求項2に記載の固形ろう付け材の塗布方法。
- 前記固形ろう付け材の減少に応じて、前記固形ろう付け材の回転数を上げる、および/または、前記被塗布物の搬送速度を下げることを特徴とする、請求項1に記載の固形ろう付け材の塗布方法。
- 複数の前記固形ろう付け材を配置し、複数の前記固形ろう付け材の全部または一部を回転させながら、搬送される被塗布物に接触させることで、前記固形ろう付け材を、前記被塗布物に塗布することを特徴とする、請求項1に記載の固形ろう付け材の塗布方法。
- 請求項1に記載の固形ろう付け材の塗布方法を備えることを特徴とする、塗布物の製造方法。
- ロール状の固形ろう付け材を回転させる回転ユニットと、
長尺の被塗布物を搬送する搬送ユニットとを備えることを特徴とする、塗布装置。 - 前記固形ろう付け材の周速度の前記被塗布物の搬送速度に対する速度比(固形ろう付け材の周速度/被塗布物の搬送速度)が所定の範囲となるように、前記回転ユニットおよび/または前記搬送ユニットを制御する制御ユニットを備えることを特徴とする、請求項8に記載の塗布装置。
- さらに、前記固形ろう付け材の周速度を検知する周速度検知ユニットを備え、
前記制御ユニットは、前記周速度検知ユニットによって検知される前記固形ろう付け材の周速度に基づいて、前記速度比を制御することを特徴とする、請求項9に記載の塗布装置。 - さらに、前記固形ろう付け材の厚みを検知する第1厚み検知ユニットを備え、
前記制御ユニットは、前記第1厚み検知ユニットによって検知される前記固形ろう付け材の厚みに基づいて、前記速度比を制御することを特徴とする、請求項9に記載の塗布装置。 - さらに、前記固形ろう付け材の厚みを検知する第2厚み検知ユニットを備え、
前記制御ユニットは、前記第2厚み検知ユニットの検知に基づいて、前記固形ろう付け材の厚みが、所定の厚みとなったことを通知するか、および/または、前記固形ろう付け材の回転および/または前記被塗布物の搬送を停止させることを特徴とする、請求項9に記載の塗布装置。 - 前記被塗布物に対して、前記固形ろう付け材を押圧する押圧ユニットと、
前記被塗布物に対する押圧力を検知する押圧力検知ユニットとを備え、
前記制御ユニットは、前記押圧力検知ユニットにより検知された押圧力に基づいて、前記被塗布物に対して、前記固形ろう付け材を一定の押圧力で押圧できるように、押圧力を制御することを特徴とする、請求項9に記載の塗布装置。 - 前記制御ユニットが、前記押圧力の変化率を30%以下に制御することを特徴とする、請求項13に記載の塗布装置。
- さらに、前記固形ろう付け材の塗布量を検知する塗布量検知手段を備えることを特徴とする、請求項8に記載の塗布装置。
- 請求項1に記載の固形ろう付け材の塗布方法において用いられることを特徴とする、ロール形状の固形ろう付け材。
- 請求項8に記載の塗布装置において、前記回転ユニットにセットされることを特徴とする、ロール形状の固形ろう付け材。
- アタッチメント部材と、
前記アタッチメント部材の周りに配置される固形ろう付け材とを備えることを特徴とする、請求項17に記載のロール形状の固形ろう付け材。 - 前記アタッチメント部材が、摩擦式締結機構を有することを特徴とする、請求項18に記載のロール形状の固形ろう付け材。
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MX2021010006A MX2021010006A (es) | 2019-02-22 | 2020-02-21 | Metodo de aplicacion de material solido de soldadura fuerte, metodo de produccion de pieza de trabajo recubierta, aparato de aplicacion y material solido de soldadura fuerte en forma de rollo. |
EP24168346.5A EP4378615A2 (en) | 2019-02-22 | 2020-02-21 | Method for applying solid brazing material, method for manufacturing coated object, application device, and roll-shaped solid brazing material |
US17/421,941 US20220118540A1 (en) | 2019-02-22 | 2020-02-21 | Method of applying solid brazing material, method of producing coated workpiece, application apparatus, and roll-shaped solid brazing material |
EP20759927.5A EP3928906A4 (en) | 2019-02-22 | 2020-02-21 | METHOD OF APPLYING A SOLID BRAZE, METHOD OF MAKING A COATED OBJECT, APPLICATION DEVICE AND ROLLER BRAZING MATERIAL |
CN202080009932.6A CN113316495A (zh) | 2019-02-22 | 2020-02-21 | 固态钎焊材的涂布方法、涂布物制造方法、涂布装置和卷状固态钎焊材 |
JP2021502193A JP7458366B2 (ja) | 2019-02-22 | 2020-02-21 | 固形ろう付け材の塗布方法、塗布物の製造方法、塗布装置、および、ロール形状の固形ろう付け材 |
KR1020217020697A KR20210125984A (ko) | 2019-02-22 | 2020-02-21 | 고형 땜납재의 도포 방법, 도포물의 제조 방법, 도포 장치, 및 롤 형상의 고형 땜납재 |
BR112021016404-9A BR112021016404A2 (pt) | 2019-02-22 | 2020-02-21 | Método de aplicação de material de brasagem sólido, método de produção de peça de trabalho revestida, aparelho de aplicação e material de brasagem sólido de perfil laminado |
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