JP5166181B2 - Method for producing thermoplastic resin belt - Google Patents

Description

The present invention for instance food or pharmaceutical products, for producing a thermoplastic resin belts for transporting and placing the sanitary goods on the belt back.

  In general, in a belt conveyance system, a conveyance belt such as a flat belt or a toothed belt is rotated by friction or meshing with a pulley to convey an object to be conveyed placed on the back surface of the belt.

  Among conveyor belts, those that transport food, pharmaceuticals, sanitary goods, etc., are made of synthetic resin so that the composition of the belt body does not adhere to or transfer to the object to be transported like rubber belts. Is adopted. Furthermore, among synthetic resin belts, thermoplastic resin belts mainly made of polyurethane, etc. can be made endless by heat-sealing belts cut to a desired length, so that they can be molded into an endless shape. It is easier to obtain a belt having a longer circumference than the thermosetting resin belt to be used, and is often adopted as a transport belt.

  When transporting thermoplastic resin belts that are hot or highly adhesive, or those that dislike gas emitted from plasticizers or softeners contained in a small amount in the belt body, fluororesin or the like is used on the back of the belt. The coated one is used. The coating agent on the back surface of the belt is obtained by dispersing a binder for imparting adhesiveness to a thermoplastic resin in a fluororesin or the like, and coating is repeated until a necessary coating thickness is obtained.

  However, when the coating thickness of the thermoplastic resin belt coated on the back surface of the belt is increased, a predetermined life may not be obtained, for example, the coating may be cracked or dropped due to repeated bending and bending. Many of the binders of the coating agent use a solvent, and the recovery cost of the solvent and the management cost for avoiding adverse effects on the human body are likely to be high.

  In contrast, by attaching a fluororesin film instead of coating, a binder is not required, and the back of the belt has a sufficient thickness without cracking or dropping off the fluororesin. It is conceivable to coat with resin. Thereby, while protecting a thermoplastic resin belt from a to-be-conveyed object, generation | occurrence | production of the gas from a belt main body is suppressed, and it can be anticipated that a belt height is adjusted with a fluorine resin film.

Such a structure in which a fluororesin film is attached to the back surface of the thermoplastic resin belt is not intended to protect the conveyed object, suppress gas generation, or adjust the belt height. In addition, a conveying belt is disclosed in which the back surface of the belt body is easily charged by adhering a fluororesin film so as to adsorb the paper electronically (Patent Document 1).
Japanese Patent Laying-Open No. 2008-30943 (paragraph numbers 0010, 0018, 0031, 0034)

  However, since the fluororesin film has no self-adhesive property, it cannot be firmly attached to a thermoplastic resin. Therefore, a thermoplastic resin belt having a fluororesin film adhered to the back of the belt cannot be transported by adsorbing paper onto the back of the belt body with a fluororesin film interposed as in Patent Document 1. However, the object to be conveyed cannot be placed and conveyed on the back of the belt via the fluororesin film.

The present invention aims to provide a method for producing a thermoplastic resin belts that can be firmly adhered fluororesin film on the belt back.

  In order to achieve the above object, a method for producing a thermoplastic resin belt according to the present invention includes forming a belt main body from a thermoplastic resin, and attaching a fluororesin film subjected to surface adhesion treatment to the back of the belt main body. It is what you wear.

  According to the above configuration, since the surface of the fluororesin film is subjected to surface adhesion treatment, even a fluororesin film having no self-adhesive property is firmly attached to the back surface of the belt body formed of the thermoplastic resin. be able to.

  Here, examples of the thermoplastic resin include a polyurethane resin, a polyester resin, a nylon resin, and a dynamically cross-linked thermoplastic elastomer. In addition, as the fluororesin film, tetrafluoroethylene resin (PTFE), tetrafluoroethylene / perfluoroalkyl vinyl ether copolymer resin (PFA), tetrafluoroethylene / hexafluoropropylene copolymer resin (FEP), Examples thereof include a film made of tetrafluoroethylene / ethylene copolymer resin (ETFE), trifluoroethylene chloride resin (CTFE), and vinylidene fluoride resin (PUDF).

As a procedure for attaching the fluororesin film to the back surface of the belt body, first, the fluororesin film is disposed on the back surface side of the belt body. Next, the belt main body and the fluororesin film are heated, and the belt main body and the fluororesin film are kept for a certain time while setting the melt viscosity of the thermoplastic resin constituting the belt main body in the range of 10 ⁵ to 10 ⁶ poise. Pressurize. Thereafter, the belt main body and the fluororesin film are cooled while being pressurized, thereby sticking the fluororesin film to the back surface of the belt main body.

  As a more specific procedure, after pressurizing while heating a part in the circumferential direction of the fluororesin film disposed on the belt body and the back side thereof, by cooling the part while pressurizing, A fluororesin film is attached to the back of the belt body at the site. Furthermore, in the same procedure, the fluororesin film is adhered to the back surface of the belt over the entire circumference while sequentially shifting the positions of the belt body and the fluororesin film in the circumferential direction.

  According to this configuration, since the fluororesin film is stuck to the entire circumference of the belt back surface little by little along the circumferential direction, for example, after making the thermoplastic resin belt cut to a desired length endless The film can be attached using the same hot press as that used for heat-sealing both ends, and a device dedicated to the attachment can be dispensed with.

  As another procedure, the belt main body and the fluorine-based resin film disposed on the back side thereof are hung on the pulley. While rotating the pulley, the belt main body and the fluorine resin film are heated and pressurized on the rear in the rotation direction on the outer periphery of the pulley, and the belt main body and the fluorine system on the front in the rotation direction on the outer periphery of the pulley. By cooling the resin film while being pressurized, the fluororesin film is continuously adhered to the back surface of the belt over the entire circumference.

  According to this configuration, for example, the fluororesin film is continuously adhered over the entire circumference of the belt back surface by heating and cooling while rotating with a pressure roller from the back side while rotating the pulley. Since it can do, the sticking can be made easy.

  Here, as the surface adhesion treatment of the fluorine resin film, the fluorine resin film is treated with a liquid ammonia solution of metal sodium, a treatment with a sodium solution of metal sodium in naphthalene-tetrahydrofuran, a sputter etching treatment in a medium / high vacuum, a low pressure gas. It is possible to exemplify performing plasma treatment in the inside or a certain ion implantation treatment by an ion implanter.

Further, by the manufacturing method described above, a core body that is responsible for belt tension is embedded in a belt body formed of a thermoplastic resin, and a fluorine-based resin film that has been subjected to surface adhesion treatment is attached to the back surface of the belt body. You may make it manufacture a thermoplastic resin belt.

  The thermoplastic resin is a polyurethane resin, a polyester resin, a nylon resin, or a dynamically crosslinked thermoplastic elastomer, and the fluororesin film is a copolymer of tetrafluoroethylene resin (PTFE), tetrafluoroethylene / perfluoroalkyl vinyl ether. Polymerization resin (PFA), Tetrafluoroethylene / hexafluoropropylene copolymer resin (FEP), Tetrafluoroethylene / ethylene copolymer resin (ETFE), Trifluorochlorinated ethylene resin (CTFE), Vinylidene fluoride resin ( PUDF) and the like.

  According to this configuration, since the sticking of the fluororesin film can be strengthened, it can also be used for an application in which an object to be transported is placed on the back of the belt via the fluororesin film and transported. . Thereby, while protecting a thermoplastic resin belt from a to-be-conveyed object, generation | occurrence | production of the gas from a belt main body can be suppressed, and belt thickness can be adjusted with a fluorine resin film.

  If the thickness of the fluororesin film is set to 0.1 mm to 0.8 mm, the generation of gas can be suppressed while sufficiently protecting the belt body, and the bending performance of the thermoplastic resin belt can be maintained. This film thickness range is sufficient to fine-tune the belt thickness. When the film thickness is less than 0.1 mm, protection of the belt main body tends to be insufficient, and when it exceeds 0.8 mm, bending of the thermoplastic resin belt tends to be hindered.

  If the fluororesin film is filled with carbon black, graphite or carbon fiber, the strength of the film can be increased, and since these are conductive, charging of the thermoplastic resin belt can be prevented. . In addition, if the fluororesin film is made porous having a large number of small holes, it is preferable that the surface of the fluororesin film is easily infiltrated with a solution for the adhesion treatment.

  As described above, according to the present invention, since the surface adhesion treatment is performed on the fluororesin film, the fluororesin film can be firmly adhered to the back surface of the belt. Furthermore, after heating the thermoplastic resin constituting the belt body and setting it to a predetermined melt viscosity, pressurizing in a state where the fluororesin film is stacked on the back side, cooling in the pressurized state Thereby, a fluorine resin film can be stuck more firmly.

  As a result, while a fluororesin film having a sufficient thickness is attached to the back surface of the belt, the object to be transported can be placed and transported on the back surface of the belt. In addition to improving the property, wear resistance, adhesion resistance, antibacterial and antifungal properties, the generation of gas from the belt main body can be suppressed, and the belt height can be adjusted by the fluorine resin film. Furthermore, the thing which stuck the fluorine-type resin film does not produce a crack and drop-off like the coating of fluorine-type resin, and can also make the binder used for coating unnecessary.

Hereinafter, the best mode for carrying out the method for producing a thermoplastic resin belts according to the present invention will be described with reference to the drawings. First, the configuration of the thermoplastic resin belt will be described. FIG. 1 is a perspective view of a thermoplastic resin belt.

  The thermoplastic resin belt 1 is a long carrying toothed belt for carrying an article to be carried on the back of the belt and carrying it. Belt tension is applied to a belt body 3 having belt teeth 2 on the inner peripheral side. A core wire 4 made of an aramid fiber or the like is embedded and the belt teeth 2 are covered with a canvas 5 and reinforced.

  The belt body 3 is formed of, for example, a thermoplastic resin such as polyurethane resin having a hardness of 92, and a fluorine resin film 6 such as tetrafluoroethylene resin (PTFE) subjected to surface adhesion treatment is attached to the back surface of the belt body 3. Yes.

  The fluororesin film 6 is made into a porous shape having a large number of small holes so as to enhance the permeability of a solution or the like during surface adhesion treatment, and further prevents the thermoplastic resin belt 1 from being charged while increasing the strength. As such, it is filled with conductive carbon black, graphite, carbon fiber or the like. The thickness of the fluororesin film 6 is set in the range of 0.1 mm to 0.8 mm. With this fluororesin film 6, the heat resistance, wear resistance, and adhesion resistance of the thermoplastic resin belt 1 with respect to the object to be conveyed. While suppressing the generation | occurrence | production of the gas etc. from the thermoplastic resin which comprises the belt main body 3, improving a property, antibacterial antifungal property, etc., the belt thickness is adjusted.

  Next, the manufacturing method of a thermoplastic resin belt is demonstrated. First, while forming the belt body 3 from a polyurethane resin having a hardness of 92, for example, as a thermoplastic resin, the core wire 4 is embedded and the belt teeth 2 are covered with the canvas 5.

  Specifically, once the belt body 3 having a predetermined length with both ends cut is formed, the both ends of the belt body 3 are set in a mold with a predetermined flat plate tooth groove press plate, and a heating press machine, Heat and pressurize to a temperature just before the polyurethane resin constituting the belt body 3 melts. After maintaining this heating / pressurizing state for a certain period of time, the butt portion of the belt main body 3 is cooled to 100 ° C. or less while being pressed, the butt portion is connected, and the belt main body 3 is taken out together with the mold from the heating press. Then, the die body is opened and the endless belt body 3 is taken out.

  Next, a tetrafluoroethylene resin (PTFE) film as the fluororesin film 6 cut out to the same width as this is disposed on the back side of the belt body 3. For tetrafluoroethylene resin (PTFE) film, treatment with liquid ammonia solution of metal sodium, treatment with naphthalene-tetrahydrofuran solution of metal sodium, sputter etching treatment in medium / high vacuum, plasma treatment in low pressure gas, Alternatively, a surface adhesion treatment such as a certain ion implantation treatment by an ion implanter is performed, and the treatment surface is arranged facing the back surface of the belt.

A part of the belt main body 3 and the fluororesin film 6 on the back side in the circumferential direction is set again in the mold, and heated to about 190 ° C. by the heating press machine, and the polyurethane resin constituting the belt main body 3 is made. The belt body 3 and the fluororesin film 6 are pressurized for about 2 to 7 minutes while the melt viscosity is set in the range of 10 ⁵ to 10 ⁶ poise. Thereafter, the part set in the mold is cooled to 100 ° C. or lower while being pressurized, whereby the fluororesin film 6 is adhered to the back surface of the belt body 3 at the part.

  Further, the belt main body 3 and the fluororesin film 6 are removed from the mold, and the fluororesin film 6 is adhered to another part in the circumferential direction of the belt main body 3 in the same procedure as the above procedure, and in the circumferential direction. By repeatedly attaching the fluororesin film 6 while sequentially shifting the position, the fluororesin film 6 is attached to the back of the belt body 3 over the entire circumference.

  Thereafter, by cutting to a desired belt width, a thermoplastic resin belt 1 having a predetermined belt width and circumferential length and having the belt back surface covered with a fluororesin film 6 is obtained.

  According to the above configuration, the fluorine resin film 6 is subjected to surface adhesion treatment, and is heated, pressurized and cooled so as to overlap the belt back surface, whereby the fluorine resin is formed on the back surface of the belt body 3 made of thermoplastic resin. Since the film 6 is stuck, the fluorine-based resin film 6 having no self-adhesiveness can be firmly stuck without changing the dimensions of the belt body 3. Thereby, the fluororesin film 6 having a predetermined thickness can be attached to protect the back surface of the belt, the generation of gas from the back surface of the belt can be prevented, and the belt thickness can be adjusted.

  In addition, this invention is not limited to said embodiment, A change can be suitably added within the scope of the present invention. For example, the thermoplastic resin belt 1 does not need to be provided with the canvas 5 covering the belt teeth 2, and is not limited to a toothed belt, but may be any belt such as a flat belt or a V-ribbed belt.

  The thermoplastic resin constituting the belt body 3 is not limited to a polyurethane resin, but may be a polyester resin, a nylon resin, or a dynamically cross-linked thermoplastic elastomer. The fluorine-based resin film 6 is not limited to tetrafluoroethylene resin (PTFE), but also tetrafluoroethylene / perfluoroalkyl vinyl ether copolymer resin (PFA), tetrafluoroethylene / hexafluoropropylene copolymer resin (PFA). It may be a film made of FEP), tetrafluoroethylene / ethylene copolymer resin (ETFE), trifluoroethylene chloride resin (CTFE), vinylidene fluoride resin (PUDF), or the like.

  In addition, instead of intermittently attaching the fluororesin film 6 to the back surface of the belt body 3 part by part along the circumferential direction using a heating press and a mold, the belt body 3 and The fluorine-based resin film 6 stacked on the back side can be hung on a pulley, and the pulley can be continuously attached while rotating the pulley.

  Specifically, first, the belt main body 3 and the fluororesin film 6 disposed on the back side thereof are hung on a pulley. Next, while rotating the pulley, the belt body 3 and the fluororesin film 6 are heated with a pressure roller or the like from the back side while heating the belt body 3 and the fluororesin film 6 on the pulley outer periphery, and on the pulley outer periphery. The belt main body 3 and the fluororesin film 6 are cooled while being pressed in the forward direction of the rotation, whereby the fluororesin film 6 is continuously adhered to the back surface of the belt main body 3 over the entire circumference.

Perspective view of thermoplastic resin belt

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Thermoplastic resin belt 2 Belt tooth 3 Belt main body 4 Core wire 5 Canvas 6 Fluorine resin film

Claims (3)

The belt body is formed of a thermoplastic resin, on the back side of the belt body, and place the fluorine-based resin film subjected to surface adhesion treatment, and then, the peripheral of the fluorine-based resin film placed on the belt body and its rear side While heating a part in the direction , the belt body and the part of the fluororesin film are pressurized for a certain time while setting the melt viscosity of the thermoplastic resin constituting the belt body in the range of 10 ⁵ to 10 ⁶ poise. Then, by cooling the belt main body and the part of the fluororesin film while being pressurized, the fluororesin film is attached to the back of the belt main body at the part, and the belt main body and Adhere the fluororesin film to the back of the belt over the entire circumference while sequentially shifting the position of the fluororesin film in the circumferential direction. A method for producing a thermoplastic resin belt. A belt body is formed of a thermoplastic resin, a fluorine resin film subjected to surface adhesion treatment is disposed on the back side of the belt body, and then the belt body and the fluorine resin film disposed on the back side thereof are pulleys. to multiply, while rotating the pulley, in the rotation direction rear of the pulley periphery, the belt body and a fluorine-based resin film by heating the thermoplastic ¹⁰⁵ to the melt viscosity of the resin constituting the belt body ^While setting the range of ⁶ poise, pressurizing the belt main body and the fluororesin film for a certain time , and cooling the belt main body and the fluororesin film while pressing the belt main body and the fluororesin film at the front in the rotation direction on the pulley outer periphery, Made in thermoplastic resin belt you characterized by adhering the fluorine resin film on the belt back continuously over its entire periphery Manufacturing method. As the surface adhesion treatment, a fluorine resin film is treated with a liquid ammonia solution of metallic sodium, a treatment with a naphthalene-tetrahydrofuran solution of metallic sodium, a sputter etching treatment in a medium or high vacuum, a plasma treatment in a low pressure gas, or an ion. the method for producing a thermoplastic resin belt according to claim 1 or 2, characterized by applying a constant ion implantation process by the injection machine.

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