JP2019192599A - PET bottle heater - Google Patents

Abstract

To solve the problem in which, it should be able to meet demands for such as making milk for infants, eating warm foods, and having warmth in an event of a disaster such as an earthquake and when an evacuation facility is not an overnight evacuation site but a place of a life.SOLUTION: A sheet-like body 51 of a plastic bottle heater 49 is so configured that an electrode is woven as a thread in a cotton fabric impregnated with carbon nanotubes and both sides are covered with plastic films. The sheet-like body 51 is rolled into a cylindrical shape and when stored in a rectangular cylindrical frame 61, it is held in the cylindrical shape. When a plastic bottle B2 is inserted therein, it is surrounded by the sheet-like body 51, so that it receives far infrared rays efficiently, and liquid inside the plastic bottle B2 can be warmed with energy saving. Inserting and removing the plastic bottle B2 is easy and it can be protected not only during use but also after use by storing the sheet-like body 51 in the rectangular cylindrical frame 61.SELECTED DRAWING: Figure 10

Description

  The present invention relates to a heater used to warm a liquid in a plastic bottle.

In the event of a disaster such as an earthquake, it is first required in the electrical field to ensure lighting for facilities that will be shelters. In that case, it should be possible to meet demands such as making milk for infants, eating warm food, and getting warm.
However, the external power source that can be used when the supply of commercial power is interrupted in the event of a disaster is limited, and although the minimum amount of hot water necessary to make milk can be provided, others provide cold lunch boxes and sweet buns. Or provide blankets.

Japanese Patent No. 5887451

By the way, PET bottles are preferentially stockpiled in most stockpiling warehouses as container-packed beverages, and are prepared so that they can be distributed as drinks to disaster victims.
Further, since carbon nanotubes are excellent in heat conduction, recently, a sheet coated with carbon nanotubes dispersed therein has been recognized as a heat generating sheet as described in Patent Document 1.
The present invention has been made by paying attention to the above-mentioned conventional problems, and for the plastic bottle so that the liquid inside the plastic bottle, usually a beverage, can be warmed with power saving by using the above-described heating sheet. The purpose of the present invention is to provide a heater for PET bottles with specially designed ideas.

  The present invention has been made to solve the above-mentioned problems, and the invention of claim 1 is directed to a fabric, a pair of electrodes attached to the fabric, a carbon nanotube applied to the fabric, and the fabric. A flexible sheet-like main body composed of a plastic film coated on both sides, an enclosing means for enclosing a plastic bottle with the sheet-like main body, and attached to the sheet-like main body to be electrically connected to the pair of electrodes, respectively. A pair of terminal portions for applying a heating current, a cord connected to the pair of terminal portions, and a current-carrying portion comprising a connector for connecting the cord to a power source. A heater for a plastic bottle, characterized by heating the carbon nanotube by energization and warming the liquid in the plastic bottle by emitting far infrared rays

  The invention of claim 2 is the plastic bottle heater according to claim 1, wherein the enclosing means is formed of a cylindrical frame body, and a sheet-like body rounded into a cylindrical shape is housed in the cylindrical frame body, It is a heater characterized by surrounding a plastic bottle by putting a plastic bottle in it.

  According to a third aspect of the present invention, in the PET bottle heater according to the first or second aspect, the surrounding means is composed of a pair of male and female hook-and-loop fasteners attached to the sheet-like body, and is cylindrical with respect to the plastic bottle. It is a heater characterized by surrounding the said PET bottle by winding and engaging male and female.

  According to a fourth aspect of the present invention, in the PET bottle heater according to any one of the first to third aspects, the pair of electrodes are woven and attached to the fabric as a thread.

  According to a fifth aspect of the present invention, in the plastic bottle heater according to any one of the first to fourth aspects, the connector comprises a 100 V commercial AC power source or a power plug connected to a DC power source. It is a heater.

  According to the heater for a plastic bottle of the present invention, the liquid in the plastic bottle, usually a beverage, can be warmed with power saving.

It is a disassembled perspective view of the heater for PET bottles which concerns on the 1st Embodiment of this invention. It is a surface view of the expansion | deployment state of the heater for PET bottles of FIG. It is a reverse view of the heater for PET bottles of FIG. It is a perspective view which shows the use condition of the heater for PET bottles of FIG. It is a perspective view which shows the use condition different from FIG. It is a perspective view which shows the use condition different from FIG. 4, FIG. It is the schematic of the heater for PET bottles which concerns on the 2nd Embodiment of this invention. It is the schematic of the heater for PET bottles which concerns on the 3rd Embodiment of this invention. It is the surface view of the sheet-like main body of the heater for PET bottles which concerns on the 4th Embodiment of this invention, and the perspective view of a square cylinder frame. It is explanatory drawing of the usage method of the heater for PET bottles of FIG.

A plastic bottle heater 1 according to a first embodiment of the present invention will be described with reference to the drawings.
As shown in FIGS. 1 to 3, the main body 3 of the PET bottle heater 1 has a sheet shape, and the base material is a woven fabric 5. The woven fabric 5 is woven using organic fibers, which are simply called “fibers” such as natural fibers and synthetic fibers, as distinguished from glass fibers and carbon fibers, which are inorganic fibers. Among organic fibers, natural fibers include cotton, hemp, silk, and synthetic fibers include aramid, polyamide, polyester, polyethylene, acrylic, and rayon, with cotton being preferred. This is because cotton is practical, has excellent heat retention, moisture absorption, and dyeability, and is resistant to water, alkali, and heat. The yarns are woven with twisted fibers, and the weaving methods include plain weave, twill weave, oblique weave, satin weave, and pipe weave, but plain weave and oblique weave are preferred. This is because plain weave and the like easily form a high-density fabric.
1 to 3 show a plain weave.

  The fabric 5 has a horizontally long rectangular shape, and can cover most of the peripheral surface even when it is wrapped around a plastic bottle having a maximum 2 L capacity among beverages of various sizes available on the market. Are dimensioned.

In the fabric 5, copper (Cu) wires 7 are woven as warp yarns on the long edges facing each other. The copper wires 7 are woven 15 to 18 adjacent to each other, but the copper wires 7, 7, ... are not in contact with each other. These copper wires 7, 7,... Form a horizontally long strip as a whole. This strip is used as the strip electrode 9.
The strip electrode 9 is exposed on both the front and back surfaces of the fabric 5.
In this way, the fabric 5 is in a state in which the pair of strip-like electrodes 9 and 9 are attached in parallel on the left and right sides.

Carbon nanotubes 11 are applied to the fabric 5 as a heat generating material. Specifically, the fabric 5 is impregnated with a coating material containing the carbon nanotubes 11.
There are metal-based, metal-oxide-based, and carbon-based heat-generating materials, but carbon-based materials, particularly carbon nanotubes, can be thinned in common with carbon-based materials, and have good conductivity and flexibility. High and resistant to bending. Furthermore, semiconductor-type carbon nanotubes generate far infrared rays efficiently when energized to generate heat. Therefore, it can resonate with moisture molecules in the contents of the PET bottle to generate heat energy, and thus heating with energy saving is particularly possible.
Therefore, in the present invention, it is recommended to use a paint containing a semiconductor-type carbon nanotube, which is called a special semiconductor paint.
The carbon nanotubes 11 generate heat upon receiving a current supply from the above-described strip electrode 9.

A pair of metal terminals 13 and 13 are connected to the pair of strip electrodes 9 and 9, respectively.
The metal terminal 13 has a rectangular thin plate as a main body 15 and is folded in half at an intermediate portion in the longitudinal direction. A notch 17 is formed in the folding portion so that it can be easily folded, and three triangular locking claws 19, 19, 19 are formed on one side of the folded piece in a V shape. In the metal terminal 13 that can be seen on the left side in FIG. 1, the two locking claws 19, 19 are cut from the right to the left, and one locking claw 19 is cut from the left to the right in between. It is included. Three small rectangular insertion holes 21, 21, 21 are formed on the other side of the folded piece, and are positioned so that they can be inserted when the locking claws 19, 19, 19 are raised vertically. Yes. The left and right metal terminals 13, 13 are formed with locking claws 19, 19, 19, and insertion holes 21, 21, 21 so as to be symmetrical.

The metal terminal 13 is folded in two together with the lead wire 25 of the power cord 23 while sandwiching the fabric 5 in which the strip electrode 9 is woven from the long side edge, and the raised claw 19, 19, 19 is the fabric. 5 is passed through the insertion holes 21, 21, 21 and then overlaid. Thereby, the strip electrode 9 and the power cord 23 are electrically connected via the metal terminal 13.
The metal terminals 13 and 13 are respectively attached to the same long side edge of the fabric 5, and the power cords 23 and 23 are extended from the metal terminals 13 and 13, respectively. A power plug 29 for a commercial AC power supply of 100V is attached to the section.

The plastic film 31 is affixed on both front and back surfaces of the fabric 5 together with the metal terminals 13 and 13 for protection. The plastic film 31 slightly protrudes from the three edges of the fabric 5, but the edge to which the metal terminal 13 is attached does not protrude and is almost aligned.
The material of the plastic film 31 is preferably polyethylene or polyurethane. This is because both have good insulation, high flexibility, and resistance to bending.

  The power cords 23 and 23 protrude from the plastic film 31 as described above. One power cord 23 is longer than the other power cord 23, extends to the other power cord 23 along the long side edge of the fabric 5, and is integrated with a thick power cord 27 near the metal terminal 13. It has become. A rubber tape 33 is used to protect the long edge, and the power cord 23 extending along the long edge and the plastic film 31 on both the front and back surfaces are bonded and protected in a folded state. The rubber tape 33 is protected by adhering not only to the long edge but also to the corners on both sides.

A pair of male and female hook-and-loop fasteners 35 and 37 are attached to the sheet-like main body 3 so as to be wound around the plastic bottle in a cylindrical shape. The male surface fastener 35 is attached to the back surface on one short edge side, and the female surface fastener 37 is attached to the surface on the other short edge side. The hook-and-loop fasteners 35 and 37 are set to have a wide width, and each of the hook-and-loop fasteners 35 and 37 protrudes from the sheet-like main body 3 so that the engaging position of the fastener can be adjusted. In FIG. 2, the female surface of the female surface fastener 37 is exposed, and in FIG. 3, the male surface of the male surface fastener 35 is exposed.
When the hook-and-loop fasteners 35 and 37 are engaged with each other, the sheet-like main body 3 has a cylindrical shape with the back side as the inner surface. By adjusting the engaging position of the fastener, the size of the cylindrical body, that is, the diameter can be reduced. It can be changed.

The PET bottle heater 1 is configured as described above, and can be heated to a predetermined temperature by adjusting the coating amount of the carbon nanotubes 11, and electronic components such as a power supply circuit should be used. In addition, since the configuration is simple, an inexpensive manufacturing cost can be realized. Moreover, since the sheet-like main body 3 is flat in the unfolded state, it can be efficiently stacked in a storage warehouse.
Furthermore, since far infrared rays can be used efficiently, the liquid in the plastic bottle can be warmed with energy saving.

The plastic bottle heater 1 is used by being wound around a plastic bottle by utilizing the flexibility of the sheet-like main body 3.
FIG. 4 shows an example of wrapping around a 500 mL capacity PET bottle B1, and FIG. 5 shows an example of wrapping around a 500 mL capacity PET bottle B1. In FIG. 5, by wrapping twice, a resonance effect between the carbon nanotubes 11 of one sheet-like body 3 and the carbon nanotubes 11 of the other sheet-like body 3 can be obtained, and the liquid inside can be warmed to a higher temperature. it can.
FIG. 6 shows an example in which two bottles of 2L capacity are wound up and down. In this way, it is possible to handle PET bottles of different sizes.

  In addition, since the PET bottles B1 and B2 can be warmed hygienically, the liquid inside can be used as a beverage as it is, or hot water can be used to dissolve powdered milk. It can also be used as a hot water bottle. Furthermore, the plastic bottles B1 and B2 can be used repeatedly.

A PET bottle heater 39 according to a second embodiment of the present invention will be described with reference to FIG.
This plastic bottle heater 39 is different only in that a power plug 41 for a DC 12V power source is attached to the tip of the power cord 27. The power plug 41 can be connected to a car cigar socket. The car battery can be used, so you can warm the plastic bottle on the way to the shelter.

A plastic bottle heater 43 according to a third embodiment of the present invention will be described with reference to FIG.
In this plastic bottle heater 43, a controller 45 is inserted in the power cord 27, and the temperature can be set by operating a dial 47 of the controller 45.
If the controller 45 is used, the configuration becomes a little complicated, but even if the desired temperature differs for each application, it is possible to use it according to a plurality of applications.
Further, an LED (seal) whose color changes with temperature may be attached so that it can be visually confirmed whether the set temperature has been reached.

A plastic bottle heater 49 according to a fourth embodiment of the present invention will be described with reference to FIG.
The sheet-like main body 51 of the PET bottle heater 49 is similar to the sheet-like main body 3 of the PET bottle heater 1 according to the first embodiment in that a strip electrode is formed on a cotton fabric impregnated with carbon nanotubes. It is woven and covered with plastic film to protect both sides. The size of the sheet-like main body 51 corresponds to the 2L capacity plastic bottle B2.
And the rubber tape 53 is stuck on four edge parts. The lead wire of the power cord 55 is connected to the metal terminal connected to the strip electrode, and the power cord 55 is drawn from between the rubber tapes 53.

The power cord 55 is drawn from the middle of the short side edge side of the sheet-like main body 51, and a power plug 57 for a 24V DC power source is attached to the front end portion thereof.
The power plug 57 is connected to a connector of an AC / DC converter connected to a commercial power supply so that a direct current power is supplied.
The drawn power cord 55 is protected by a spiral guard 59.

Reference numeral 61 denotes a rectangular tube frame. The rectangular tube frame 61 has a square cross section in the vertical direction and has a bottom.
The material of the rectangular tubular frame 61 is only required to have a certain degree of shape retention and heat resistance. In consideration of easiness of disposal, it is made of corrugated cardboard, and the corners are joined by the gummed tape 63. However, it is also conceivable to use a polystyrene foam.

As shown in FIG. 10, the sheet-like main body 51 is wound around the plastic bottle B <b> 2 and stored in the rectangular tubular frame 61. Since the sheet-like main body 51 is held in a cylindrical shape, the plastic bottle B2 is stably surrounded.
Taking out the PET bottle B2 is easier than winding around the PET bottle B2 when using a hook-and-loop fastener and removing it after heating, and is convenient for sequentially heating the plurality of PET bottles B2. Further, the sheet-like main body 51 can be protected not only during use but also after use by being housed in the rectangular tube-like frame body 61.

  The sheet-like main body 51 is for a 2L-capacity plastic bottle B2, and since it is stored in the rectangular tube-shaped frame 61, when it is used for a 500 mL-capacity plastic bottle B1, its size is separately provided. A sheet-like body corresponding to the above will be prepared.

  The embodiment of the present invention has been described in detail above. However, the specific configuration is not limited to this embodiment, and the present invention can be changed even if there is a design change without departing from the gist of the present invention. included.

  The present inventor has previously applied for a power failure switching system (Japanese Patent Laying-Open No. 2015-47038). However, there has been proposed a system that can use a limited external power source from a power outlet. . The heater for a plastic bottle of the present invention can warm the liquid in the plastic bottle with a remarkable energy-saving effect, and since the plastic bottle is preferentially stockpiled for disasters, It is expected that effective disaster countermeasures can be planned by using it together with the power switching system.

1 ... PET bottle heater (first embodiment)
DESCRIPTION OF SYMBOLS 3 ... Sheet-like main body 5 ... Textile 7 ... Copper wire 9 ... Band-shaped electrode 11 ... Carbon nanotube 13 ... Metal terminal 15 ... Main body 17 ... Notch 19 ... Locking claw 21 ... Insertion hole 23 ... Power cord 25 ... Lead wire 27 ... Power source Code 29 ... Power plug 31 ... Plastic film 33 ... Rubber tape 35, 37 ... Hook fastener 39 ... Pet bottle heater (second embodiment)
41 ... Power plug 43 ... Pet bottle heater (third embodiment)
45 ... Controller 47 ... Dial 49 ... PET bottle heater (fourth embodiment)
DESCRIPTION OF SYMBOLS 51 ... Sheet-like main body 53 ... Rubber tape 55 ... Power cord 57 ... Power plug 59 ... Spiral guard 61 ... Square cylindrical frame 63 ... Gum tape B1, B2 ... PET bottle

Claims (5)

A flexible sheet-like body composed of a fabric, a pair of electrodes attached to the fabric, carbon nanotubes applied to the fabric, and a plastic film coated on both sides of the fabric; and the sheet Enclosing means for enclosing the plastic bottle with the main body, a pair of terminal portions for applying a heating current attached to the sheet main body and electrically connected to the pair of electrodes, and a cord connected to the pair of terminal portions, And a current-carrying part configured with a connector for connecting the cord to a power source,
A PET bottle heater, wherein the carbon nanotubes are heated by energization from the energization unit and the liquid in the PET bottle is warmed by emitting far infrared rays. In the heater for a plastic bottle according to claim 1,
The enclosing means is composed of a cylindrical frame, and is characterized in that a sheet-like main body rolled into a cylindrical shape is contained in the cylindrical frame, and the plastic bottle is enclosed by putting the plastic bottle therein. Heater. The heater for a plastic bottle according to claim 1 or 2,
The enclosing means is composed of a pair of male and female hook-and-loop fasteners attached to a sheet-like main body, and is wrapped around the PET bottle in a cylindrical shape to engage the male and female to surround the PET bottle. In the heater for PET bottles in any one of Claim 1 to 3,
A pair of electrodes are woven and attached to a fabric as a thread. In the heater for a plastic bottle according to any one of claims 1 to 4,
The connector comprises a 100V commercial AC power supply or a power plug connected to a DC power supply.