JP4768698B2 - camera - Google Patents

Description

  The present invention relates to a camera using a fuel cell containing a fuel liquid as a power source.

  Conventionally, a primary battery such as a manganese battery or a lithium battery or a secondary battery such as a nickel cadmium battery is used as a power source for a portable device such as a camera. On the other hand, fuel cells have higher energy per weight than conventional lithium batteries and the like, and development thereof is proceeding toward mounting on portable devices such as cameras.

The basic configuration of a fuel cell is composed of a pair of electrodes (cell part) sandwiching an electrolyte and an external load circuit connecting the electrodes. Hydrogen or a fuel containing hydrogen is supplied to one of the electrodes and hydrogen ions (H ⁺ ) And electrons (e ⁻ ), and oxygen (air) is supplied to the other electrode. The electrode to which fuel is supplied is the fuel electrode (anode), and the electrode to which oxygen is supplied is It is called the air electrode (cathode).

  There are several types of fuel cells having such a basic configuration, but the type that uses methanol as the fuel is said to be safer than the type that uses hydrogen directly. A fuel cell using methanol is considered to be promising as a battery for power supply of portable devices.

A fuel cell of a system using methanol is one in which methanol is not directly reformed into hydrogen but directly supplied to a cell portion for reaction. That is, at the fuel electrode, the supplied methanol reacts with water and is oxidized to generate CO ₂ , H ⁺ ions, and electrons. H ⁺ ions reach the air electrode through the electrolyte. At the air electrode, O ₂ in the air combines with H ⁺ ions and electrons that have passed through the external load circuit, and is reduced to produce water. In the process, electrons flow to the external load circuit so that current can be taken out.

  Incidentally, in a portable device that generally uses a battery as a power source, battery remaining amount management is important. This is particularly important for devices with high power consumption. For example, in a digital camera, the remaining amount of the battery is displayed on the display unit as needed, and if the remaining amount is likely to run out, a warning is issued in advance and control is performed to urge attention to replace the battery. The reason why sudden shooting is impossible is because it is very inconvenient.

  Although current digital cameras use manganese or lithium batteries, the output voltage of the battery is measured by the power supply unit of the camera, and the remaining amount is estimated and managed by that value. Even when a fuel cell is mounted, since the capacity of the battery is finite, a fuel cell having a configuration different from that of a manganese or lithium battery requires different battery management.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a camera that can easily refuel while the fuel cell is housed in the camera using the fuel cell. To do.

In order to solve the above problems, an invention according to claim 1 is directed to a camera that uses a fuel cell containing a fuel liquid as a power source, and the fuel cell provided with an inlet for replenishing the fuel liquid is provided inside the camera. A battery storage section detachably stored in the battery storage section, and an injection opening provided at a position corresponding to the injection port of the fuel cell stored in the battery storage section. is there.

According to a second aspect of the present invention, in the camera according to the first aspect, a lid for protecting the injection opening is provided, and the injection opening is provided on a side surface or a bottom surface of the camera. It is.

According to a third aspect of the present invention, in the camera according to the second aspect , the battery storage unit stores a fuel cell in which a transmission part is formed for checking the fuel liquid, and the fuel cell is stored in the battery storage unit. A remaining amount confirmation window is provided at a position corresponding to the permeation portion of the fuel cell in the housed state.

  According to a fourth aspect of the present invention, in the camera according to the third aspect, the lid further protects the remaining amount confirmation window.

The invention according to claim 5 is the camera according to claim 3 , wherein the injection opening is provided in a side surface portion of the camera, and the remaining amount confirmation window has a longitudinal direction of the remaining amount confirmation window with respect to the camera bottom portion. It is characterized by being arranged so as to be vertical .

The invention according to claim 6 is the camera according to claim 5 , wherein the remaining amount confirmation window is provided on a surface different from a surface provided with the injection opening .

According to a seventh aspect of the present invention, in the camera according to any one of the second to fourth aspects , the injection opening is provided on a side surface of the camera, and the lid is used for recording a photographed image together with the injection opening. The present invention is characterized in that a medium storage unit for storing a recording medium is protected .

According to an eighth aspect of the present invention, in a camera that uses a fuel cell containing a fuel liquid as a power source, the fuel cell provided with an inlet for replenishing the fuel liquid is detachably housed inside the camera. A battery storage unit for exposing the injection port in the stored state to the outside of the main body of the camera, and a lid for protecting the injection port exposed to the outside of the camera main body so as to be openable and closable. It is what.

According to a ninth aspect of the present invention, in the camera according to the eighth aspect , the battery storage portion stores a fuel cell in which a transmission portion is formed for checking the fuel liquid, and the fuel cell is placed in the battery storage portion. The transmissive portion in the accommodated state is exposed outside the main body of the camera together with the injection port .

According to the first and eighth aspects of the invention, fuel can be replenished while the fuel cell is housed in the camera. According to the second aspect of the invention, the fuel injection opening can be protected from the outside by the lid, and there is little trouble in terms of design. According to the third aspect of the present invention, it is possible to easily check the remaining battery level from the outside of the camera through the transmission part and the remaining battery level check window even when the camera is in use without removing the fuel cell from the camera. It becomes. According to the invention of claim 4, the remaining amount confirmation window is reliably protected. According to the invention of claim 6, Ru can check the fuel liquid remaining amount easily. According to the invention of claim 7, it is possible to protect the media storage unit with without hindrance injection opening in design basis.

  Next, the best mode for carrying out the present invention will be described.

Next, examples will be described. First, a configuration example of a fuel cell which is replaceably retract and the camera according to the present invention. FIG. 1 is a schematic perspective view showing a first configuration example of a fuel cell. In FIG. 1, reference numeral 1 denotes a fuel cell casing, and a cell portion (not shown) composed of a fuel electrode and an air electrode sandwiching an electrolyte is arranged in the upper portion of the casing 1. A fuel liquid 2 such as methyl alcohol is filled and contained in a portion from the central portion to the lower portion. In addition, a transmission part 3 is provided in a part of the casing 1 so that the amount of the fuel liquid filled in the casing 1 can be visually confirmed. Is further calibrated. In FIG. 1, reference numerals 4 and 5 denote terminal portions connected to the fuel electrode and the air electrode, and reference numeral 6 denotes a fuel inlet provided with a valve for replenishing the fuel liquid.

  FIG. 2 is a schematic perspective view showing a second configuration example of the fuel cell. In this configuration example, the side wall portion of the fuel liquid filling internal portion 12 of the fuel cell casing 11 is made of a transparent member, and the amount of the fuel liquid 13 built in the filling internal portion 12 can be visually confirmed. ing. In the upper part 14 of the housing 11, a cell part is arranged in the same manner as in the first configuration example. Further, an upper transmission window 17 and a lower transmission window 18 for optically detecting the amount of the built-in fuel liquid 13 are formed on the upper plate 15 and the lower plate 16 of the casing 11, respectively. In FIG. 2, reference numeral 19 denotes a fuel absorbing member for supplying the fuel liquid 13 to the cell portion disposed in the upper portion 14 of the casing. This fuel absorbing member is also illustrated in the configuration example shown in FIG. Is omitted but provided. Reference numerals 20 and 21 denote terminal portions connected to the fuel electrode and the air electrode, and reference numeral 22 denotes a fuel inlet for replenishing the fuel liquid to the fuel liquid filling and built-in portion 13.

  Next, prior to the description of the embodiment of the camera according to the present invention, a first reference example related to the camera according to the present invention will be described based on the schematic perspective view of FIG. In FIG. 3, 101 is a camera body, 102 is a release button, 103 is a photographing lens, 104 is a fuel cell housing part having an opening in a part of the bottom surface of the camera body 101, and 105 is housed in the fuel cell housing part 104. The fuel cell having the permeation portion 105a for confirming the amount of the built-in fuel liquid having the configuration shown in FIG. 1, 106 is a lid portion for storing, holding and protecting the fuel cell 105 stored in the storage portion 104. . In this reference example, the fuel cell from the outside of the camera is positioned at a position corresponding to the transmission portion 105a of the fuel cell 105 housed in the housing portion 104 on the front surface of the camera body 101 where the photographing lens 103 is disposed. A remaining amount confirmation window 107 for confirming the remaining amount of the fuel liquid 105 is provided.

  In the camera configured as described above, the fuel cell 105 is inserted and disposed in the storage portion 104 from the bottom side and is held by the lid portion 106, so that the fuel cell 105 can be reliably held inside the camera. In addition, since the remaining amount confirmation window 107 is provided so as to correspond to the transmission part 105a of the fuel cell 105, the remaining amount of fuel in the fuel cell 105 can be obtained from the outside of the camera without removing the fuel cell 105 from the camera body 101. This can be easily confirmed even when the camera is in use. Further, since the front portion of the camera is a portion where a normal operation unit is not disposed, the remaining amount confirmation window 107 can be easily disposed without being restricted by the operation unit.

  Next, a second reference example related to the present invention will be described. FIG. 4 is a schematic perspective view from the back of the camera according to the second reference example, in which members corresponding to those in the first reference example shown in FIG. In this reference example, as in the first reference example shown in FIG. 3, the fuel cell 105 is inserted into the storage portion 104 from the bottom side of the camera body 101 and stored and held by the lid portion 106. The confirmation window 107 is provided on the back side of the camera body 101 so as to correspond to the transmission part 105a of the stored fuel cell 105. In FIG. 4, reference numeral 108 denotes a TFT liquid crystal display unit for displaying a photographed image and the like, and 109 denotes an input operation button.

  Next, a third reference example related to the present invention will be described. FIG. 5 is a schematic perspective view showing a third reference example, in which members corresponding to those in the first reference example shown in FIG. In this reference example, as in the first and second reference examples shown in FIGS. 3 and 4, the fuel cell 105 is inserted into the storage portion from the bottom side of the camera body 101 and stored and held by the lid portion. However, the remaining amount confirmation window 107 is provided on the side surface portion of the camera body 101 so as to correspond to the transmission portion 105a of the stored fuel cell 105. In addition, illustration of a storage part and a cover part is abbreviate | omitted here.

  Next, a fourth reference example related to the present invention will be described. FIG. 6 is a schematic perspective view showing a fourth reference example, in which members corresponding to those of the second reference example shown in FIG. In this reference example, as in the third reference example shown in FIG. 5, the remaining amount confirmation window 107 is provided on the side surface portion of the camera body 101, but is provided particularly on the side surface portion on the gripped side of the camera. Is.

  Thus, by providing the remaining amount confirmation window 107 on the side portion of the camera to be gripped, the remaining amount of battery can be easily confirmed by effectively using the side surface of the camera, and the fuel cell can be Since it is arranged on the side, a camera with a good weight balance can be configured.

  Next, a fifth reference example related to the present invention will be described. FIG. 7 is a schematic perspective view showing a fifth reference example, in which members corresponding to those in the first reference example shown in FIG. In this reference example, the fuel cell 105 is inserted into the storage portion from the side surface portion of the camera body 101 and stored and held by the lid portion 106, and the transmission portion of the fuel cell 105 stored in the storage portion is provided on the upper surface portion of the camera body. A fuel remaining amount confirmation window 107 is provided at a position corresponding to 105a. Also in this reference example, the illustration of the storage portion of the fuel cell is omitted, and the posture of the camera when checking the remaining amount of fuel when storing in the storage portion of the fuel cell is the same as that of the storage portion of the fuel cell. The posture is such that the insertion port side is positioned downward. The reference examples shown in FIGS. 3 to 7 show the case where the fuel cell of the first configuration example shown in FIG. 1 is housed, but the fuel cell of the second configuration example shown in FIG. Can also be stored.

  Next, a sixth reference example related to the present invention will be described. FIG. 8 is a schematic perspective view showing a sixth reference example, in which members corresponding to those of the second reference example shown in FIG. In this reference example, the fuel cell 110 of the second configuration example shown in FIG. 2 is inserted into the housing portion from the bottom surface side of the camera body 101 and is held by the lid 106. At the bottom of the storage unit, a light emission unit 111 of a fuel remaining amount detection sensor is provided at a position facing the upper transmission window 110a of the stored fuel cell 110, and the lid 106 in a closed state is provided. A light receiving portion 112 of a fuel remaining amount detection sensor is provided on the back surface at a position facing the lower transmission window 110b of the fuel cell 110. Further, a remaining amount display unit 113 for displaying detection information of the remaining amount of fuel detected by the remaining amount detection sensor is provided in a part of the TFT liquid crystal display unit 108. In this reference example, the storage portion is not shown.

  In the sixth reference example configured as described above, the remaining amount of fuel liquid in the fuel cell 110 is detected and displayed as follows. That is, the light emitted from the light emitting unit 111 of the remaining amount detection sensor is emitted toward the fuel liquid level via the upper transmission window 110a of the fuel cell 110, and the transmitted light changed in accordance with the remaining amount of the fuel liquid 110c is received. The unit 112 receives the light and detects the remaining amount of the fuel liquid 110c. The detected remaining amount detection information is displayed on the remaining amount display section 113.

  In the sixth reference example, the remaining amount display unit is also used as a TFT liquid crystal display unit that displays a photographed image and the like, and the remaining amount display is performed on a part of the TFT liquid crystal display unit. The remaining amount can be displayed using a monochrome LCD display unit for mode display instead of the liquid crystal display unit.

  Next, a first embodiment of the camera according to the present invention will be described. FIG. 9 is a schematic perspective view showing the first embodiment, and members corresponding to those in the second reference example shown in FIG. In this embodiment, the permeation portion and the fuel inlet provided in the fuel cell of the first configuration example shown in FIG. The fuel liquid can be replenished without removing the fuel cell.

  That is, the fuel cell 105 is inserted from the bottom surface portion of the camera body 101 and is housed in the housing portion, and is held in the camera body by the lid portion 106. The permeation portion 105a and the fuel inlet 105b of the fuel cell 105 are provided. The housing part provided with the memory card is inserted into the adjacent part of the memory card storage insertion slot 116 protected by the openable / closable card cover 115, and the memory card storage insertion is performed by closing the card cover 115. The permeation part 105a and the fuel injection port 105b of the fuel cell 105 together with the port 116 are configured to be simultaneously covered by the card lid 115. Here, the portion covered by the card lid 115 is referred to as a memory card storage unit.

  With this configuration, the memory card can be attached and detached by opening the card cover 115, the remaining amount of the fuel cell 105 can be visually confirmed through the transmission part 105a, and the fuel cell 105 can be removed. The fuel can be replenished through the fuel inlet 105b while being stored. Then, by closing the card lid 115, the memory card storage insertion slot 116 can be protected, and the permeation part 105a and the fuel injection port 105b of the fuel cell 105 can be covered and concealed in appearance.

  In the first embodiment, the permeation part and the fuel inlet part of the fuel cell stored in the battery storage part are directly exposed in the part adjacent to the card storage insertion slot 116 of the memory card storage part. However, a portion of the battery storage portion is exposed in the portion adjacent to the card storage insertion slot 116 of the memory card storage portion, and the permeation portion of the fuel cell and the fuel injection are shown in the exposed storage portion. The fuel remaining amount can be confirmed and the fuel can be replenished through a remaining amount confirmation window and an injection opening provided corresponding to the inlet.

Next, a seventh reference example related to the present invention will be described. FIG. 10 is a schematic perspective view showing a seventh reference example, in which members corresponding to those in the first embodiment shown in FIG. In this reference example , the fuel cell is fixedly built in the camera body, and the card lid is opened to check the remaining amount of the built-in fuel cell and supply the fuel.

  The fuel cell 121 is fixedly incorporated in the storage part of the camera body 101, and the transmission part 121a and the fuel injection port 121b are adjacent to the memory card storage insertion slot 116 protected by an openable / closable card lid 115. It is arranged so that it is directly exposed, and by closing the card cover 115, the memory card storage insertion slot 116 and the permeable part 121a of the built-in fuel cell 121 and the fuel injection port 121b are simultaneously covered by the card cover 115. To do.

  With this configuration, the memory card can be attached and detached by opening the card lid 115, the remaining amount of the fuel cell 121 can be visually confirmed through the transmission part 121a, and the fuel inlet 121b. The fuel can be supplied to the built-in fuel cell 121 via the above. Then, by closing the card lid 115, the memory card storage insertion slot 116 can be protected, and the transmission part 121a and the fuel injection port 121b of the fuel cell 121 can be covered and concealed in appearance.

Next, an eighth reference example related to the present invention will be described. FIG. 11 is a schematic perspective view in a state in which the camera according to the eighth reference example is inverted and arranged with the bottom side as the upper part. In this reference example , as in the seventh reference example shown in FIG. 10, the fuel cell is fixedly incorporated in the storage portion in the camera body, but the permeation portion 121a of the fuel cell 121 and the fuel The injection port 121b is arranged on the bottom surface side of the camera body 101, and a battery lid 122 that can be opened and closed is provided on the bottom surface of the body so as to cover the transmission part 121a and the injection port 121b.

In the reference example configured as described above, the transmission part 121a of the built-in battery and the fuel injection port 121b can be easily arranged on the bottom side where the operation part of the camera is difficult to be arranged, and the battery cover 122 is opened. As a result, the remaining amount of the fuel cell 121 can be visually confirmed, and the built-in fuel cell 121 can be refueled. When checking the remaining amount of the fuel cell 121, it is assumed that the camera is positioned so that the bottom surface side of the camera body 101 is the side surface side. Further, by closing the battery cover 122, the permeation part 121a and the fuel injection port 121b of the fuel cell 121 can be protected and the appearance of the appearance can be reduced.

In the eighth reference example , in the case where the fuel cell is fixedly housed in the housing portion in the camera, the fuel cell permeation portion and the fuel inlet are arranged on the bottom surface side of the camera body, A battery lid that can be opened and closed is shown. On the other hand, like each reference example and Example 1 shown in FIGS. 3 to 9, a lid for battery storage is separately provided so that the fuel cell can be stored in the storage section in a replaceable manner. The battery storage part with the remaining amount confirmation window and the injection opening corresponding to the permeation part and the fuel injection port of the fuel cell arranged at the bottom part of the camera is arranged, and the remaining amount confirmation window and injection provided in the storage part A battery lid that can be opened and closed with respect to the opening for use may be provided.

Next, a second embodiment of the present invention will be described. Figure 12 is a schematic perspective view showing an embodiment 2 are denoted by the same reference numerals to the corresponding member to the second reference example shown in FIG. In this embodiment , as in the second reference example shown in FIG. 4, the fuel cell 105 is inserted into the storage portion from the bottom surface side of the camera body 101 and is stored and held by the lid portion 106. It is provided on the back side of the camera body so as to correspond to the transmission part 105a of the stored fuel cell 105, but is further injected into the side part of the camera body 101 so as to correspond to the fuel inlet 105b of the fuel cell 105. The opening 123 for use is provided.

  With this configuration, the remaining amount of the fuel cell 105 can be easily confirmed from the outside of the camera without removing the fuel cell 105 from the camera body 101, and the fuel of the fuel cell 105 can be injected from the outside. Replenishment can be made directly through the opening 123.

In this embodiment , an injection opening for refueling is provided on the side surface of the camera body. However, depending on the manner in which the fuel cell is inserted into the camera body, other external surfaces of the camera body are provided. The remaining amount confirmation window and the injection opening may be provided on the same surface according to the form of the fuel cell. Furthermore, as in the case of providing the built-in fuel cell in the eighth reference example shown in FIG. 11, it is also possible to provide a lid that covers the remaining amount confirmation window and the injection opening.

It is a schematic block diagram which shows the 1st structural example of a fuel cell. It is a schematic block diagram which shows the 2nd structural example of a fuel cell. It is a schematic perspective view which shows the 1st reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows the 2nd reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows the 3rd reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows the 4th reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows the 5th reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows the 6th reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows Example 1 of the camera which concerns on this invention. It is a schematic perspective view which shows the 7th reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows the 8th reference example relevant to the camera which concerns on this invention. It is a schematic perspective view which shows Example 2 of the camera which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Fuel cell housing | casing 2 Fuel liquid 3 Permeation | transmission part 4,5 Terminal part 6 Fuel inlet
11 Fuel cell housing
12 Fuel liquid filling built-in part
13 Fuel liquid
14 Upper case
15 Housing top plate
16 Housing lower plate
17 Upper transmission window
18 Lower transmission window
19 Fuel absorber
20, 21 terminal
101 Camera body
102 Release button
103 Photo lens
104 Fuel cell compartment
105 Fuel cell
105a Transmission part
105b Fuel inlet
106 Fuel cell lid
107 Remaining capacity check window
108 TFT LCD
109 Input control block
110 Fuel cell
110a Upper transmission window
110b Bottom transmission window
111 Light emitter
112 Receiver
113 Remaining capacity display
115 Card cover
116 Memory card slot
121 Built-in fuel cell
121a Transmission part
121b Fuel inlet
122 Battery cover
123 Fuel injection opening

Claims (9)

In a camera that uses a fuel cell containing a fuel liquid as a power source,
A battery storage section for detachably storing a fuel cell provided with an inlet for replenishing the fuel liquid in the camera;
An injection opening provided at a position corresponding to the injection port of the fuel cell stored in the battery storage unit;
A camera characterized by being provided with. A lid for protecting the injection opening;
The camera according to claim 1, wherein the injection opening is provided on a side surface or a bottom surface of the camera.   The battery storage portion stores a fuel cell in which a permeable portion is formed for checking the fuel liquid, and a position corresponding to the permeable portion of the fuel cell in a state where the fuel cell is stored in the battery storage portion. The camera according to claim 2, further comprising a remaining amount confirmation window. The camera according to claim 3, wherein the lid further protects the remaining amount confirmation window. The injection opening is provided in a side surface portion of a camera, and the remaining amount confirmation window is disposed so that a longitudinal direction of the remaining amount confirmation window is perpendicular to a camera bottom portion. Camera according to 3. The camera according to claim 5, wherein the remaining amount confirmation window is provided on a surface different from a surface provided with the injection opening.   5. The injection opening is provided in a side surface portion of a camera, and the lid protects a medium storage portion for storing a recording medium for recording a photographed image together with the injection opening. A camera according to item 1. In a camera that uses a fuel cell containing a fuel liquid as a power source,
A battery storage section for removably storing a fuel cell provided with an inlet for replenishing the fuel liquid inside the camera, and for exposing the inlet in the stored state to the outside of the camera body; ,
A camera, comprising: a lid that protects the injection port exposed outside the camera body so as to be openable and closable. The battery storage part stores a fuel cell in which a transmission part is formed for checking the fuel liquid, and the transmission part in a state where the fuel cell is stored in the battery storage part together with the injection port. The camera according to claim 8, wherein the camera is exposed outside the main body.

Images