JP2004145142A - Automatic photograph vending machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate wiring, to suppress miswiring or the generation of an unwired place, and to reduce malfunction due to electromagnetically induced noise. <P>SOLUTION: A light source mount part 50a is provided with a reflecting plate 51 on the bottom surface of a box body 54 and a fluorescent lamp 52 and a xenon light emitting tube 53 are arranged on the reflecting plate 51. Respective ends of the reflecting plate 51 form a cylindrical space 51a, in which twisted pair wires 55 and 56 and an electric wire 57 connected to respective electrodes of the fluorescent lamp 52 and xenon light emitting tube 53 are led around and connected to a female type connector 59. Reflecting plates 51 provided to respective light source mount parts are connected to each other at one point by an unillustrated earth wire, so electrically induced noise is reducible. Further, a male type connector 59 and a turn-on circuit are wired by twisted pair wires equipped with a male connector to facilitate wiring, thereby suppressing miswiring and the generation of an unwired place. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a photo vending device, and more particularly to a photo vending device that outputs an image captured by a digital camera onto a print medium by an image printing device.
[0002]
[Prior art]
2. Description of the Related Art In recent years, in a recreation facility such as a game center, a photograph is automatically taken by charging money or the like, and an image is printed on a printing medium such as a sticker by an image printing device and output. There are many vending machines installed.
[0003]
Recently, the user, who is the subject, freely decides the composition while checking the image of the shooting pose of the subject on a monitor using a fluorescent lamp or the like that is constantly lit, and uses a plurality of strobe lighting such as a xenon arc tube at the time of shooting. A photo vending apparatus has been put to practical use that irradiates sufficient light from various angles to capture a clear image, prints the image on a print medium such as a sticker paper, and outputs the image (for example, Patent Document 1). reference.).
[0004]
A xenon arc tube is a type of gas-filled discharge tube in which a small amount of xenon is sealed in a transparent glass tube and electrodes are provided at both ends, and the light output per unit time is large with a short discharge, and Since it has an almost uniform spectrum from infrared rays to ultraviolet rays, light having good color rendering properties suitable for photography can be radiated in a short time. Therefore, the vending machine equipped with the strobe lighting can match the image at the time of confirming the shooting pose with the image of the print medium actually printed and provide a high quality photograph.
[0005]
[Patent Document 1]
Japanese Patent No. 3226520 (pages 1 to 11)
[0006]
[Problems to be solved by the invention]
However, conventionally, in order to emit light from a xenon arc tube or the like used for strobe lighting, a high-voltage power supply that outputs a DC voltage of about 300 to 400 V is arranged for each light-emitting body such as a xenon arc tube, and the light- (High current pulse) was supplied to the power supply. Therefore, if the number of luminous bodies is increased in order to capture a higher-quality image, the number of high-voltage power supplies and the wiring connected thereto are increased, and a trigger for determining the electric wires for the high-voltage power supplies and the luminous timing of the luminous bodies is increased. There has been a problem that the routing of signal lines and the like becomes messy, and erroneous wiring or unwired portions occur.
[0007]
Also, in terms of weight and cost, it is often difficult to shield because it is often made of plastic or wooden panels, etc., but in spite of crosstalk from a high voltage power supply to each wiring, and from outside such as mobile phone equipment. In order to prevent troubles caused by electromagnetic induction noise and the like, it has been necessary to study the arrangement of each wiring and the shielding of noise in view of social EMC (electromagnetic compatibility) requirements.
[0008]
Further, since the assembling work of the photo vending apparatus is generally performed at the installation location of the photo vending apparatus, it is difficult to unify the wiring between the workers, and the influence of noise fluctuates. This was the cause of an unknown malfunction. In addition, in order to minimize the influence of noise, the worker must work while considering the wiring and the like, and there is a problem that the burden on the worker and the working time are increased.
[0009]
The present invention has been made in view of such circumstances, and it is easy to route wires such as a high-voltage power supply wire and a trigger signal line that determines light emission timing of a light emitter, and it is possible to prevent occurrence of erroneous wiring or an unwired portion. It is an object of the present invention to provide a vending machine for photographs that can be suppressed.
[0010]
Another object of the present invention is to provide a vending machine for photographs, which can reduce crosstalk from a high-voltage power supply to each wiring and malfunctions caused by external electromagnetic induction noise.
[0011]
Further, the present invention is such that a plurality of panels constituting a housing are engaged with each other via a hinge in advance, and wiring is fixed to a panel to be arranged. An object of the present invention is to provide a vending machine for photographs, in which assembly and wiring of a housing are completed and a shielding effect is obtained.
[0012]
[Means for Solving the Problems]
The photo vending apparatus according to claim 1 includes a plurality of electric lighting units, a power supply unit that supplies power to each lighting unit, and a photographing unit that captures an image when each lighting unit emits light. The photo vending apparatus includes a switching element for controlling on / off of power supply from the power supply unit to each lighting unit, and each lighting unit is connected in parallel to the power supply unit. And
[0013]
The photo vending apparatus according to claim 2 is characterized in that the conductor connecting the switching element and the lighting means is a twisted pair wire.
[0014]
The photo vending apparatus according to claim 3, further comprising: a housing configured by a plurality of panels; and a light source mounting unit provided with the lighting unit, wherein the light source mounting unit is disposed on the panel. The mating panels are engaged via a hinge.
[0015]
The photo vending apparatus according to claim 4, wherein the panel is a conductive metal plate having a cylindrical space whose edge is distorted, and the conductor is arranged in the cylindrical space. Features.
[0016]
The photo vending apparatus according to claim 5, wherein the panel is a non-metallic plate provided with a mesh-shaped conductive metal having a cylindrical space with a distorted edge, and the cylindrical space includes It is characterized in that conductors are arranged.
[0017]
According to a sixth aspect of the present invention, in the photo vending apparatus, the light source mounting unit includes a reflector for reflecting light emitted from the illumination unit.
[0018]
8. The photo vending apparatus according to claim 7, wherein the reflection plate is a conductive metal plate having a cylindrical space whose edge is distorted, and the conductor is arranged in the cylindrical space. It is characterized by.
[0019]
The photo vending apparatus according to claim 8 is characterized in that the surface of the reflection plate has an uneven shape.
[0020]
According to the first aspect of the present invention, there is provided a switching element for controlling ON / OFF of power supply from the power supply unit to each lighting unit, and each lighting unit is connected in parallel to the power supply unit. In addition, the power supply means can be integrated in one place. Therefore, since the control circuit and the trigger circuit for controlling the same can be integrated into one place, it is easy to route each wiring.
[0021]
According to the invention of claim 2, since the conductor connecting the switching element and the lighting means is a twisted pair wire, the direction of the voltage induced in the twisted pair wire by the external electromagnetic field intersects the intersection. Both sides are opposite to each other and can cancel each other, so it is difficult to receive the influence of electromagnetic induction noise from the outside, and the current flows in the opposite direction with the twisted pair wire, so it is difficult to radiate the electromagnetic induction noise to the outside In addition, noise resistance (shielding) and crosstalk characteristics in the line are improved.
[0022]
In the invention according to claim 3, the light source mounting portion provided with the illuminating means is disposed on a plurality of panels constituting the housing, and adjacent panels are engaged via a hinge. Accordingly, when assembling the vending machine, if each panel is rotated and fixed at the installation location, assembly and wiring of the housing can be easily completed.
[0023]
According to the invention of claim 4, the panel is a conductive metal plate having a cylindrical space whose edge is distorted, and a conductor for connecting the switching element and the lighting means is provided in the cylindrical space. The arrangement, that is, the configuration in which the conductive metal plate covers the periphery of the conductor, suppresses electrostatic induction noise generated between the conductor and the ground. In particular, even if a pulsed high-voltage large current flows through the conductor, the electromagnetic induction noise is suppressed from being radiated to the external space.
[0024]
In the invention according to claim 5, the panel is a non-metallic plate on which a mesh-shaped conductive metal having a cylindrical space whose edge is distorted is provided, and the switching element and the switching element are provided in the cylindrical space. The conductor for connecting to the lighting means is arranged, that is, the conductive metal in a mesh shape covers the periphery of the conductor, so that the electrostatic induction noise generated between the conductor and the ground is suppressed. . In particular, even if a pulsed high-voltage large current flows through the conductor, the electromagnetic induction noise is suppressed from being radiated to the external space. Further, the mesh-shaped conductive metal has an appropriate stretchability and plasticity, and is therefore easily processed.
[0025]
According to the sixth aspect of the present invention, since the light emitted from the illumination means can be reflected to the light emission side by providing the reflector for reflecting the light emitted from the illumination means, the light emission of the illumination means can be achieved. Efficiency can be increased.
[0026]
In the invention according to claim 7, the reflecting plate is a conductive metal plate having a cylindrical space with a distorted edge, and the conductor is disposed in the cylindrical space. Is configured to cover the periphery of the conductor, the electrostatic induction noise generated between the conductor and the ground is suppressed. In particular, even if a pulsed high-voltage large current flows through the conductor, the electromagnetic induction noise is suppressed from being radiated to the external space.
[0027]
In the invention according to claim 8, the light emitted from the illumination means is diffused by the surface of the reflection plate having an uneven shape.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings showing the embodiments.
[0029]
FIG. 1 is a schematic perspective view showing the entire configuration of a vending machine for photographs according to the present invention. The photo vending apparatus according to the present invention has a main housing 10 provided with a digital camera as a photographing means and a light source mounting portion for the front, left front side, and right front side on the front, , A sub-housing 20 provided with a light source mounting portion for the upper surface, the left side, and the right side, and reaches the sub-housing 20 from the upper left, upper right, lower left, and lower right portions of the main housing 10, respectively. The main housing 10 and the sub-housing 20 are provided with four columns 3 protruding from the main housing 10 and the sub-housing 20, and a top plate and a floor plate (not shown). They are spaced apart. In addition, a light 4 is mounted substantially at the center of each of the columns 3, and a curtain 5 for blocking external light is suspended from the light. The space surrounded by the main housing 10, the sub-housing 20, the top plate and the floor plate, and the curtain 5 forms a photographing region of the subject.
[0030]
First, the main housing 10 will be described. 2 is a front view of the main housing 10, FIG. 3 is a cross-sectional view taken along the line III-III of FIG. 2, FIG. 4 is an enlarged cross-sectional view of a part of FIG. 3, and FIG. FIG. 5 is a sectional view taken along line VV of FIG. The outer shape of the main housing 10 is configured by combining a plurality of pillars (not shown) and a plurality of panels made of a material having excellent conductivity such as aluminum or iron screwed to the pillars. Various devices, which will be described later, are provided inside an area constituted by panels.
[0031]
A substantially circular panel 12 having a substantially circular imaging window 11 made of glass or the like having excellent light transmittance is disposed substantially at the center upper portion of the main housing 10, and a plan view is formed around the panel 12. Are provided with four substantially trapezoidal panels 13a. The panel 12 and each panel 13a are engaged with each other via two hinges 15a, and the hinge 15a is configured to be rotatable about a hinge shaft 17a. When the angle between the panel 12 and the panel 13a reaches a predetermined value (the state shown in FIG. 4), the panel 12 is fixed by a locking member (not shown).
[0032]
A light diffusion plate 16a, such as a milky white acrylic plate, is cut out from the panel 13a and disposed substantially at the center of each panel 13a. A light source mounting portion 50a, which mounts a fluorescent lamp as an illuminating means and a xenon arc tube as a plurality of strobe illuminating means for irradiating the subject with light when photographing the subject, is arranged in a state protruding inside the main housing 10. Is established.
[0033]
A panel 13b (13c) having a substantially rectangular shape in plan view is provided on the left (right) of the main housing 10, and a milky white acrylic plate or the like is provided substantially at the center of the panel 13b (13c) as described above. The light diffusion plates 16b (16c) are provided by hollowing out the panels 13b (13c). A light source mounting portion 50b (50c) on which a fluorescent lamp and a xenon arc tube are mounted is disposed on the rear surface of the light diffusion plate 16b (16c) so as to protrude inside the main housing 10.
[0034]
Then, inside the main housing 10, a digital camera 14 that generates an image data by photographing the subject from the photographing window 11, and corrects the hue, saturation, and brightness of the image by receiving the image data from the digital camera 14. And a printing device 23 that receives the image data after image processing transmitted from the computer device 22 and prints it on a print medium based on the received image data. . Further, a lighting circuit 24 for supplying power to a fluorescent lamp and a xenon arc tube, which will be described later, is provided at one corner in the right rear of the main housing 10.
[0035]
Further, a safe (not shown) for storing the inserted money and an uninterruptible power supply (an uninterruptible power supply) for supplying power for a certain period of time even when a power failure occurs in the main housing 10 even when a power failure occurs. (Shown).
[0036]
In addition, an inclined panel 31 is disposed substantially at the center of the main housing 10, and an image of a photographed subject is displayed substantially at the center of the panel 31, and the photographed image is displayed on the photographed image using a touch pen or the like. A display device 32 such as a liquid crystal display for displaying an image in which graffiti or the like has been edited, a photographing / confirmation button 33a to be pressed at the time of confirmation during various operations and photographing, and an upward instruction are provided on the right side of the display device 32. An input device 33 including an upward button 33b, a downward button 33c for instructing a downward direction, and the like is provided. Note that a device such as a touch panel capable of touch input may be provided on the surface of the display device 32 to improve the operability of the input operation. Further, a voice output unit such as a speaker may be provided to output voice guidance of the operation procedure and BGM or the like that excites the atmosphere of the place.
[0037]
In addition, a panel 35 disposed below the panel 31 has a money insertion port 36 for inserting money as a usage fee, a money return port 37 for returning change, and a photo discharge port for discharging printed photographs. 38 and an opening / closing door 39 for facilitating maintenance and replacement of the above-described various devices.
[0038]
Here, as shown in FIG. 6, the panel 31 and the panel 13a, and the panel 35 and the panel 31 are engaged via a hinge 15c, and the hinge 15c is configured to be rotatable about a hinge shaft 17c. Further, it is preferable that necessary wirings 80 are fixed to each panel in advance. In this way, during packing and transportation, the hinges 15a and 15c are rotated so that the panels 13a, 12, 12, 13a, 31 and 35 are flat, and the cardboard or air cushion is formed on the formed flat surface. If it is opposed to the panel 34 for the back of the main housing 10 with the cushioning material 40 sandwiched therebetween, it is possible to make the shape convenient for packing and transportation. At the time of assembly, the hinges 15a and 15c are turned to confirm that the panels 13a, 12, 12, 13a, 31 and 35 are at a predetermined angle (the state shown in FIG. 3), and a locking member is provided. If each panel is fixed by (not shown), the operator will not be confused by a panel having a similar shape, and there will be no erroneous connection of wiring between the panels or omission of wiring, and the assembly of the main housing 10 is completed.
[0039]
Next, the sub-housing 20 will be described. FIG. 7 is a cross-sectional view of the sub-housing 20, and FIG. 8 is an enlarged cross-sectional view of a part of FIG. The sub-housing 20 forms an outer shape by combining a plurality of pillars (not shown) and a plurality of panels made of a material having excellent conductivity such as aluminum or iron screwed to the pillars. Various devices are provided inside an area constituted by panels.
[0040]
The sub-housing 20 has an arch shape in appearance, and panels 13d, 13e, and 13f having a substantially rectangular shape in a plan view are provided on an upper surface, a left side surface, and a right side surface, respectively, on an inner surface thereof. The panel 13d and the panel 13e are engaged with the panel 13d and the panel 13f via a hinge 15b, and the hinge 15b is configured to be rotatable around a hinge shaft 17b. When the angle between the panel 13d and the panel 13e and the angle between the panel 13d and the panel 13f reach a predetermined value (the state shown in FIGS. 8A and 8B), the locking member (not (Shown). Therefore, as in the case of the main housing 10 described above, during packing and transportation, by rotating the hinge 15b, the panel 13d, the panel 13e, and the panel 13f can be formed into a shape convenient for packaging and transportation. At the time of assembly, the angle formed by the panel 13d and the panel 13e and the angle formed by the panel 13d and the panel 13f can be set to predetermined values by locking the hinge 15b.
[0041]
At the approximate center of each panel 13d, 13e, 13f, a light diffusion plate 16d, 16e, 16f such as a milky white acrylic plate is provided by hollowing out the panel 13d, 13e, 13f. Light source mounting portions 50d, 50e, and 50f on which fluorescent lamps and xenon arc tubes are mounted are provided on the rear surfaces of 16e and 16f so as to protrude inside the sub-housing 20.
[0042]
Next, the light source mounting unit will be described. The light source mounting units 50a, 50b, 50c, 50d, 50e, and 50f are different in shape, but have the same configuration. Therefore, the light source mounting unit 50a will be described below, and other description will be omitted.
[0043]
FIG. 9 is a perspective view of the light source mounting unit 50a. The light source mounting portion 50a has a substantially trapezoidal bottom surface, and is formed of a box 54 from which one trapezoidal surface is removed. On the bottom surface of the box 54, an aluminum reflector 51 having a substantially trapezoidal shape in a plan view is disposed. One fluorescent lamp 52 is disposed substantially at the center of the reflection plate 51, and two xenon arc tubes 53 are disposed on both sides of the fluorescent lamp 52, respectively. Each end of the reflection plate 51 forms a cylindrical space 51a by folding each side of the reflection plate 51.
[0044]
The twisted pair wires 55 respectively connected to the respective electrodes of the fluorescent lamp 52 are covered with an insulating sheath 60 on the outside, and the twisted pair wires 55 connected to the anode electrode and the cathode electrode of the xenon arc tube 53 respectively. The wires 56 and the electric wires 57 connected to the trigger electrodes of the respective xenon arc tubes 53 are similarly covered by the exterior part 60. The respective wires are routed inside the cylindrical space 51a, and routed outside the light source mounting portion 50a from the wiring hole 58 provided at one corner of the light source mounting portion 50a. It is connected to a predetermined terminal of the connector 59. Here, the reflectors 51 provided in the respective light source mounting portions are connected to each other at one point by a ground wire (not shown).
[0045]
The inner surface of the box 54 is desirably coated with a color excellent in light reflectivity such as white so that the light of the fluorescent lamp 52 and the xenon arc tube 53 can be efficiently reflected. The configuration may be such that 54 itself is made of a material having excellent light reflectivity such as aluminum or stainless steel, and also serves as the reflection plate 51.
[0046]
Therefore, the reflecting plate 51 can change the direction to the emission direction by reflecting the light of the fluorescent lamp 52 and each of the xenon arc tubes 53 emitted in the opposite direction to the emission direction, thereby improving the light use efficiency. Can be. In addition, by laying the twisted pair wires 55 and 56 and the electric wire 57 in the cylindrical space 51 a formed by the reflecting plate 51, the reflecting plate 51 generates the static electricity generated between the twisted pair wires 55 and 56 and the electric wire 57 and the ground. An electromagnetic shield that suppresses induction noise.
[0047]
Next, the configuration of the lighting circuit 24 will be described. The lighting circuit 24 includes a lighting circuit for a fluorescent lamp and a lighting circuit for a xenon arc tube. The fluorescent lamp 52 needs to be constantly turned on, and the lighting circuit for the fluorescent lamp is configured to stably supply power to the fluorescent lamp 52 when the main power supply of the photo vending device is turned on, for example. I just want to.
[0048]
FIG. 10 is a configuration diagram illustrating an example of a configuration of a lighting circuit for a fluorescent lamp. The fluorescent lamp lighting circuit 62 supplies a current for causing the fluorescent lamp 52 to emit light from the commercial AC power supply 63 via the stabilizing circuit 88 to each of the fluorescent lamps 52 of the light source mounting units 50a, 50b,. Stabilize. The fluorescent lamp 52 includes a fluorescent tube 89 and a lighting tube 90 that is connected in parallel and performs switching for lighting. In the drawing, a portion where a pair of wires are twisted indicates a twisted pair wire. Here, the twisted pair wiring portions are balanced from the viewpoint of the noise source, so that the induced currents can be offset in opposite directions on both sides of the intersection, so that the electromagnetic induction noise The wiring portion that is not easily affected, but is not twisted pair, is affected by the electromagnetic induction noise induced from the noise source, so the area surrounded by the route of the wiring portion (shown by hatching in the figure) Is preferably reduced as much as possible. For example, the wiring to the fluorescent lamp 52 is also wired using a twisted pair wire as close to the fluorescent lamp as possible.
[0049]
On the other hand, the xenon arc tube 53 needs to be turned on in synchronization with the timing at the time of photographing, that is, when the photographing / confirmation button 33a is pressed. The lighting circuit for the xenon arc tube identifies the pressing of the photographing / confirmation button 33a, generates a photographing start signal, generates a trigger control signal based on the generated photographing start signal, and turns the trigger control signal on and off. For example, a thyristor (silicon controlled rectifier) is used as a switching element to supply power to the xenon arc tube 53.
[0050]
FIG. 11 is a configuration diagram illustrating an example of a configuration of a lighting circuit for a xenon arc tube. A lighting circuit 61 for a xenon arc tube boosts a desired voltage (300 to 400 V) from a commercial AC power supply 63 via a transformer circuit 64, and extracts a positive voltage (current) component by a rectifier circuit 65. The fluctuation (ripple) rate of the voltage (current) is suppressed by the smoothing circuit 66.
[0051]
The transformer circuit 64 may be, for example, a transformer (transformer) that includes two windings (coils) and that determines a step-up rate from the ratio of the number of turns of the primary coil to the secondary coil. The rectifier circuit 65 may be, for example, a full-wave rectifier circuit that includes a bridge circuit using four rectifier elements, and outputs the AC positive component as it is and outputs the inverted negative component. Further, the smoothing circuit 66 may be, for example, an integrating circuit that includes a predetermined resistor and a capacitor and that repeatedly charges and discharges the capacitor. Of course, if a predetermined choke coil is used instead of the predetermined resistance, power loss due to the resistance can be eliminated.
[0052]
A switching element 67 such as a thyristor for controlling on / off of light emission of the xenon arc tube 53 provided in the light source mounting section and a discharge of the xenon arc tube 53 are provided at a subsequent stage of the smoothing circuit 66. The trigger circuit 68 is connected. Each of the xenon arc tubes 53 and the switching element 67 are connected via a balance resistor 67a because the xenon arc tube 53 has a negative resistance. The switching element 67 receives an output on the positive polarity side of the smoothing circuit 66, and inputs a trigger control signal SIG to each gate. On the other hand, all outputs on the negative polarity side of the smoothing circuit 66 are grounded. The trigger circuit 68 includes, for example, an integrating circuit and a transformer. The trigger circuit 68 is charged through a resistor in the capacitor of the integrating circuit. When the switch is turned on, the charge in the capacitor of the trigger circuit 68 passes through the primary coil side of the transformer. Any structure may be used as long as it discharges and generates a pulse voltage (trigger signal) of several thousand V on the secondary coil side. The switching element 67 outputs a high-voltage current synchronized with the trigger control signal SIG, thereby causing a trigger discharge between the trigger electrode 53t and the cathode electrode 53c, and immediately causing each load between the cathode electrode 53c and the anode electrode 53a. The balance between them shifts to the main discharge established by the balance resistor 67a, and the ionized xenon atoms in each xenon arc tube 53 collide with the electrons jumping out from the cathode electrode 53c to be excited, and each xenon arc tube 53 is simultaneously excited. It is configured to emit light.
[0053]
Of course, the trigger control signal may be a signal that controls not to cause all the xenon arc tubes 53 to emit light at the same time, but to cause selected xenon arc tubes 53 to emit light individually. That is, for example, the user selects which of the front, the front left side, the front right side, the top side, the left side, the right side, and the xenon luminous tube 53 of the combination is used, and selects from the input device 33. Enter that information. Then, based on the information and the shooting start signal, a trigger control signal SIG-a for the light source mounting unit 50a, a trigger control signal SIG-b for the light source mounting unit 50b, and a trigger control signal SIG-b for the light source mounting unit 50c. c, generating a trigger control signal SIG-d for the light source mounting unit 50d, a trigger control signal SIG-e for the light source mounting unit 50e, and a trigger control signal SIG-f for the light source mounting unit 50f. Then, as shown in FIG. 12, individual trigger control signals SIG-a, SIG-b,..., SIG-f may be used as trigger control signals and input to the gates of the respective switching elements 67. With such a configuration, since the switching element 67 does not use the balance resistors 67a and 68b, there is no power loss due to the resistors, and the high voltage synchronized with the trigger control signals SIG-a, SIG-b,. By outputting a current, each xenon arc tube 53 can emit light individually. Further, it is preferable that the xenon arc tube 53 be preliminarily illuminated at the time when money or the like is charged into the photo vending machine, and the preliminary luminescence can stabilize the main luminescence (main discharge) during photographing. . Further, by monitoring the status of the preliminary light emission, non-light emission due to the life of the xenon arc tube 53 is detected, and a warning to stop use is notified. By doing so, it is possible to prevent a situation in which the xenon arc tube 53 does not emit light and the photographing cannot be performed even though the user has made various inputs. Further, by performing preliminary light emission once to several times 1 to 3 seconds before photographing, the red-eye effect can be reduced. If the preliminary light emission is used for the counting down of photographing, it is easy to understand if the preliminary light emission is performed once each 3, 2, or 1 second before.
[0054]
FIG. 13 is a perspective view showing the appearance of the lighting circuit 24. FIG. The lighting circuit 24 has a circuit configuration as described above, includes an AC line 71 for connecting to a commercial AC power supply 63 on the input side, and a pair of electric wires for supplying power to the fluorescent lamp 52 on the output side. A pair of wires for supplying an anode electrode 53a and a cathode electrode 53c for supplying power to each xenon arc tube 53c and a wire for supplying power to a trigger electrode 53t of each xenon arc tube 53 with female terminals connected to predetermined terminals. Mold connectors 72a, 72b, 72c, 72d, 72e, 72f are provided. An electric wire for supplying electric power to the fluorescent lamp 52 and the xenon arc tube 53 provided in the light source mounting portion 50a is connected to the female connector 72a. Similarly, the female connectors 72b, 72c,..., 72f are connected to electric wires provided in the light source mounting portions 50b, 50c,. I have. Of course, since there are four light source mounting portions 50a, the lighting circuit 24 includes four female connectors 72a.
[0055]
Next, connection of the lighting circuit 24 to the fluorescent lamp 52 and the xenon arc tube 53 will be described. As described above, the lighting circuit 24 includes the female connectors 72a, 72b,..., 72f on the output side, while the light source mounting units 50a, 50b,. And a female connector 59 connected to each of the electrodes. Therefore, a twisted pair having male connectors at both ends is provided between the female connectors 72a, 72b,..., 72f provided in the lighting circuit 24 and the female connectors 59 provided in the light source mounting portions 50a, 50b,. What is necessary is just to connect with a line. As a result, the fluorescent lamp 52 and the xenon arc tube 53 are connected in parallel to the smoothing circuit 66, that is, the lighting circuit 24, respectively. Further, when the noise is strong, using a shielded twisted pair wire that shields the outside of the twisted pair wire and grounding the shield at one point can prevent the noise from entering and exiting more effectively.
[0056]
FIG. 14 is a wiring diagram illustrating a connection state between the lighting circuit 24 and the light source mounting portion 50a provided in the main housing 10. Although the main housing 10 has four light source mounting portions 50a, FIG. 14 shows a state in which only the upper light source mounting portion 50a is wired so that the wiring state can be easily understood. A substantially rectangular panel 81a provided on the right side surface of the main housing 10 (the left side in the figure: FIG. 14 is perspectively viewed from the back of the main housing 10 and is represented as such) is made of aluminum, iron, or the like. Is made of a material having excellent conductivity, and each side of the panel 81a is folded inside the main housing 10 (shown by broken lines in the figure, the same applies hereinafter), so that each end of the panel 81a is formed into a cylindrical space 92a. Is formed. Similarly, the above-mentioned panels 13a, 13b, and 13c have their respective sides folded inside the main housing 10, so that the respective ends of the panels 13a, 13b, and 13c form cylindrical spaces 91a, 91b, and 91c. Each has formed.
[0057]
The twisted pair wires 83, which are electric wires connecting the lighting circuit 24 and the light source mounting portion 50a, each have a male connector 85 at both ends, and the male connector 85 at one end is provided in the lighting circuit 24. 72a. Then, the twisted pair wire 83 is sequentially routed into the cylindrical spaces 92a, 91c, 91a, and the male connector 85 at the other end is connected to the female connector 59 provided in the light source mounting portion 50a. The connection between the lighting circuit 24 and the light source mounting units 50b and 50c is the same as that of the light source mounting unit 50a described above, and a description thereof will be omitted.
[0058]
FIG. 15 is a wiring diagram illustrating a connection state between the lighting circuit 24 and the light source mounting unit 50d provided in the sub-housing 20. The right side surface of the sub-housing 20 (the left side surface in the figure: FIG. 15 is perspectively viewed from the back surface of the main housing 10 and is expressed as described above; the same applies hereinafter) and the right bottom surface (the bottom surface on the left side in the drawing). Are formed of a material having excellent conductivity such as aluminum or iron, and each side thereof is folded inside the sub-housing 20 (shown by broken lines in FIG. Accordingly, the ends of the panels 81b and 81c form cylindrical spaces 92b and 92c. Similarly, the above-mentioned panels 13d, 13e, and 13f have their respective sides folded back into the sub-housing 20, so that the ends of the panels 13d, 13e, and 13f form cylindrical spaces 91d, 91e, and 91f. Each has formed. The column 3 connecting the main housing 10 and the sub-housing 20 is made of a material having excellent conductivity, such as aluminum or iron, and has a cylindrical space 3a in cross section. Wiring holes 95a and 95b are provided in appropriate regions of the contact surface between the support 3 and the panels 81a and 81b, respectively.
[0059]
The twisted pair wires 83, which are electric wires connecting the lighting circuit 24 and the light source mounting unit 50d, each have a male connector 85 at both ends, and the male connector 85 at one end is a male connector provided in the lighting circuit 24. 72d. Then, the twisted pair wire 83 is sequentially routed into the cylindrical space 92a, the wiring hole 95a, the cylindrical space 3a, the wiring hole 95b, and the cylindrical spaces 92b, 92c, 91f, 91d, and the other end. The male connector 85 is connected to the female connector 59 provided on the light source mounting part 50d. The connection between the lighting circuit 24 and the light source mounting units 50e and 50f is the same as that of the above-described light source mounting unit 50d, and a description thereof will be omitted.
[0060]
As a result, the lighting circuit 24 is connected to the fluorescent lamp 52 and the xenon arc tube 53, and the directions of the voltages induced in the twisted pair wires 83 by the external electromagnetic field are opposite to each other on both sides of the intersection. Therefore, it is hard to receive the influence of electromagnetic induction noise from the outside, and the current flows in opposite directions in the twisted pair wire 83. Therefore, it is difficult to radiate the electromagnetic induction noise to the outside. (Shield) and crosstalk characteristics are improved. Each panel is made of a material having excellent conductivity, and the cylindrical space provided at the end of the panel covers the periphery of the twisted pair wire 83, so that static electricity generated between the twisted pair wire 83 and the ground is formed. Electric induction noise is suppressed. In particular, even if a pulsed high-voltage large current flows through the twisted pair wire 83, the electromagnetic induction noise is suppressed from being radiated to the external space. Of course, a coaxial line may be used instead of the twisted pair line 83 connecting the lighting circuit 24 to the fluorescent lamp 52 and the xenon arc tube 53.
[0061]
The photo vending apparatus thus configured can rotate the hinges 15a, 15b, and 15c provided on the panel into a shape convenient for packing and transportation during packing and transportation. Since the hinges 15a, 15b, and 15c need only be locked at a predetermined angle, screwing work at the installation location where the vending machine is installed can be reduced. Further, if the lighting circuit 24 and the female connectors 59 provided in the light source mounting portions 50a, 50b,..., 50f are connected by a twisted pair wire 83 having male connectors 85 at both ends, wiring is completed. In addition, wiring work at the installation location can be reduced. Further, the female connectors 59, 59, ..., 59 provided on the light source mounting portions 50a, 50b, ..., 50f and the female connectors 72a, 72b, ... 72f provided on the lighting circuit 24 have the following shapes. Different ones are intentionally used, and the respective male connectors 85 provided at both ends of the twisted pair wire 83 are connected to the respective female connectors 59, 59,..., 59, 72a, 72b,. By using a matching one, erroneous wiring during assembly can be prevented.
[0062]
In the present embodiment, the panels used for the main housing 10 and the sub-housing 20 are made of a material having excellent conductivity such as aluminum or iron. However, the present invention is not limited to this. It may be a non-metal plate made of wood, plastic, or paper provided with a mesh-shaped conductive metal such as expanded metal, and the end of the conductive metal may be bent to form a cylindrical space. Thus, the twisted pair wire 83 may be wired in the formed cylindrical space. Further, expanded metal is easy to process because it has moderate elasticity and plasticity. Further, by using a panel made of wood, plastic, paper, or the like, the weight of the photo vending apparatus can be reduced, so that the work efficiency during transportation and assembly can be improved. Further, as the expanded metal, a metal having a surface that has been subjected to a conductive surface treatment is used to form a cylindrical space by bending, and the twisted pair wire 83 is housed in the formed cylindrical space. If it makes contact with the other end, the shielding effect is improved.
[0063]
Also, as shown in FIG. 16, for example, if an inclination is formed on the contact surface of the hinges 15a of the panels 12 and 13a, when the angle between the panel 12 and the panel 13a required at the time of assembly completion becomes a predetermined value, the panel Since the rotation of the panel 12 and the panel 13a cannot exceed the angle, the work efficiency at the time of assembling can be further improved, and variations in the workmanship of the apparatus can be suppressed.
[0064]
In addition, a mode has been described in which the panel 12 and the panel 13a are engaged with each other at a fixed hinge at 15a, and the panels 13d, 13e, and 13f are engaged at 15b with a fixed hinge. If it is necessary to divide the panel during transportation, a detachable hinge may be attached to each panel in advance, and the panels may be engaged during assembly. For example, as shown in FIG. 17, a detachable male hinge 18 is attached to the panel 12 so that its engagement axis faces upward, while a detachable female hinge 19 is attached to the left and right panel 13a. Attach so that the engagement hole faces downward. At the time of assembling, as shown by a dashed line in the figure, by engaging the engagement shaft of the male hinge 18 with the engagement hole of the female hinge 19, the assembly of the panel 12 and the panel 13a is completed. In addition, the weight of the panel 13a itself can reduce the labor of the operator when engaging the panel 13a with the panel 12. Furthermore, a twisted pair wire 83 having a male connector 85 attached to the end is attached to the panel in advance so that the worker is not involved in wiring to the panel, so that a fixed wiring can always be mounted. It is possible to stabilize the anti-noise characteristics, which are influenced by the noise, and improve the efficiency of the operation.
[0065]
In addition, although the description has been given of the configuration in which the surface shape of the reflector 51 provided in the light source mounting units 50a, 50b,..., 50f is a plane, the present invention is not limited to this. For example, as shown in the cross-sectional view of the light source mounting portion in FIG. 18, a reflector 51 having an uneven surface shape is provided inside a box 54, and a xenon arc tube 53 emits light toward the bottom of the box 54. In this case, the light emitted from the xenon arc tube 53 is further diffused, so that the subject is uniformly irradiated with light. The reflecting plate 51 can also serve as the light source mounting portions 50a, 50b,..., 50f by setting the thickness of the reflecting plate 51 to have a moderate strength, and the thermal energy generated from the fluorescent lamp 52 and the xenon arc tube 53 can be used. Excellent heat dissipation.
[0066]
In addition, it is desirable that the twist pitch of the twisted pair wire be equal to or less than an interval (for example, λ / 10) sufficiently shorter than the wavelength λ of an external electromagnetic wave. For example, in order to reduce the effects of 800 MHz and 1.5 GHz electromagnetic waves used in a mobile phone, which is a powerful noise source for electronic circuits, the twist pitch is set to the shorter of 375 mm and 200 mm, which is the wavelength λ of the electromagnetic waves. If the length is 20 mm or less, which is / 10 or less, the direction of the current induced in the electric wire by the electromagnetic wave can be offset in opposite directions on both sides of the intersection, so that the influence of the electromagnetic wave is reduced. You. Of course, it is preferable that the twist pitch be shorter.
[0067]
Also, the embodiment in which the support 3 is made of a highly conductive material such as aluminum or iron has been described. However, when the support 3 is made of a nonconductive material such as plastic, nickel or the like having excellent conductivity is used. May be formed by electroless metal plating.
[0068]
Furthermore, although the form in which the printing device 23 is provided in the main housing 10 has been described, the invention is not limited to this, and the printing device 23 may be provided separately. In this case, the image data generated on the main housing 10 side is transmitted to the printing device 23 on the separate side via the communication device, and the image data is printed on a print medium based on the received image data. Good.
[0069]
【The invention's effect】
As described in detail above, the vending machine according to the present invention includes a switching element that controls on / off of the power supply from the power supply unit to each lighting unit, and each lighting unit is connected to the power supply unit. By being connected in parallel, the power supply means can be centralized at one location, and the control circuit and trigger circuit for controlling the power supply means can be centralized at one location. The occurrence of wiring locations can be suppressed.
[0070]
Further, according to the photo vending apparatus of the present invention, since the conductor connecting the switching element and the illuminating means is a twisted pair wire, the direction of the voltage induced in the twisted pair wire by the external electromagnetic field may be at the intersection. Since the two sides can be offset in opposite directions on both sides, they are less susceptible to electromagnetic induction noise from the outside, and the current flows in opposite directions on the twisted pair wire, radiating the electromagnetic induction noise to the outside. In addition, noise resistance (shielding) and crosstalk characteristics in the line are improved, and crosstalk from the high-voltage power supply to each wiring and malfunction due to external electromagnetic induction noise can be reduced.
[0071]
Further, according to the photo vending apparatus of the present invention, the light source mounting portion provided with the illuminating means is disposed on a plurality of panels constituting the housing, and the adjacent panels are engaged via a hinge. Thus, when assembling the vending machine, if each panel is rotated and fixed at the installation location, assembly and wiring of the housing are easily completed. Further, the panel is a conductive metal plate having a cylindrical space whose edge is distorted, or a non-metallic plate provided with a mesh-shaped conductive metal having a cylindrical space whose edge is distorted, By disposing the conductor in the cylindrical space, electrostatic induction noise generated between the electric wire and the ground can be suppressed, and malfunction due to the electrostatic induction noise can be reduced. Furthermore, if the wiring is mounted on the panel in advance at the factory, an excellent effect can be obtained such that the noise resistance characteristic which is influenced by the arrangement of the wiring can be made constant.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing the entire configuration of a photo vending apparatus according to the present invention.
FIG. 2 is a front view of a main housing.
FIG. 3 is a sectional view taken along the line III-III in FIG. 2;
FIG. 4 is an enlarged sectional view of a part of FIG.
FIG. 5 is a sectional view taken along line VV in FIG. 2;
FIG. 6 is a diagram illustrating a state of packing and transporting a panel constituting a main housing.
FIG. 7 is a sectional view of a sub-housing.
8 is an enlarged sectional view of a part of FIG. 7;
FIG. 9 is a perspective view of a light source mounting unit.
FIG. 10 is a configuration diagram illustrating an example of a configuration of a lighting circuit for a fluorescent lamp.
FIG. 11 is a configuration diagram showing an example of a configuration of a lighting circuit for a xenon arc tube.
FIG. 12 is a configuration diagram showing another configuration example of a lighting circuit for a xenon arc tube.
FIG. 13 is a perspective view illustrating an appearance of a lighting circuit.
FIG. 14 is a wiring diagram showing a connection state between a lighting circuit and a light source mounting portion provided in a main housing.
FIG. 15 is a wiring diagram illustrating a connection state between a lighting circuit and a light source mounting unit provided in a sub-housing.
FIG. 16 is a diagram showing another example of the engagement state of the panel.
FIG. 17 is a diagram showing an example in which a detachable hinge is used as a hinge for engaging a panel.
FIG. 18 is a sectional view of another example of the light source mounting section.
[Explanation of symbols]
10 Main housing
12, 13a, 13b, 13c, 13d, 13e, 13f, 31, 34, 35, 81a, 81b, 81c Panel
14 Digital Camera
15a, 15b, 15c hinge
17a, 17b, 17c hinge axis
18 Male hinge
19 Female Hinge
20 Sub-housing
23 Printer
24 Lighting circuit
50a, 50b, 50c, 50d, 50e, 50f Light source mounting unit
51 Reflector
52 fluorescent light
53 Xenon arc tube
55,56,83 twisted pair wire
63 Commercial AC power supply
64 Transformer circuit
65 Rectifier circuit
66 Smoothing circuit
67 Switching element
68 trigger circuit

Claims (8)

A plurality of electric lighting means, a power supply means for supplying power to each lighting means, and a photograph vending apparatus comprising a photographing means for taking an image when each lighting means irradiates light,
A switching element that controls on / off of power supply from the power supply unit to each lighting unit;
A vending machine for photographs, wherein each lighting unit is connected in parallel to the power supply unit. 2. The photo vending apparatus according to claim 1, wherein a conductor connecting the switching element and the lighting unit is a twisted pair wire. A housing constituted by a plurality of panels, and a light source mounting unit provided with the lighting means,
3. The vending machine according to claim 1, wherein the light source mounting portion is provided on the panel, and adjacent panels are engaged with each other via a hinge. 4. The panel is a conductive metal plate having a cylindrical space whose edge is distorted,
The photo vending apparatus according to claim 3, wherein the conductor is disposed in the cylindrical space. The panel is a non-metallic plate provided with a mesh-shaped conductive metal having a cylindrical space whose edge is distorted,
The photo vending apparatus according to claim 3, wherein the conductor is disposed in the cylindrical space. The photo vending apparatus according to claim 3, wherein the light source mounting unit includes a reflector for reflecting light emitted by the illumination unit. The reflecting plate is a conductive metal plate having a cylindrical space whose edge is distorted,
The photo vending apparatus according to claim 6, wherein the conductor is arranged in the cylindrical space. The vending machine according to claim 6, wherein a surface of the reflector has an uneven shape.

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