JPH0584949U - Buoyancy adjuster - Google Patents

Abstract

(57) [Summary] [Purpose] To obtain the weight of an underwater camera in water as desired. A buoyancy generator for generating buoyancy in water, a connecting member for connecting the buoyancy generator to an underwater camera or an accessory attached to the camera, and an adjusting member for adjusting the volume of the buoyancy generator. The buoyancy adjusting device is provided, and the volume of the buoyancy generator is adjusted by the adjusting member of the device, and the buoyancy in water is adjusted by this adjustment.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a buoyancy adjusting device for adjusting the weight in water when the underwater camera is used underwater.

[0002]

[Prior Art]

 Conventionally, underwater cameras capable of shooting underwater have been developed. When such a camera is used underwater, the weight of the camera in water is the weight of the camera itself on the ground minus the buoyancy caused by the volume of the camera.

[0003]

[Problems to be solved by the device]

 When an accessory such as a speedlight is attached to an underwater camera and the camera is used underwater with an accessory, the underwater weight is often not obtained as the photographer desires. The present invention has been made in view of the above problems, and an object of the present invention is to obtain a desired weight in water as desired.

[0004]

[Means for Solving the Problems]

 In order to solve the above problems, the present invention provides a buoyancy generator that generates buoyancy in water, and a connecting member that connects the buoyancy generator to an underwater camera or an accessory attached to the camera. A buoyancy adjuster comprising an adjusting member for adjusting the volume of the buoyancy generator is provided, and the volume of the buoyancy generator is adjusted by the adjusting member of the device, and the buoyancy in water is adjusted by this adjustment. I chose

[0005]

[Action]

 When the above-mentioned buoyancy adjusting device is attached to the camera to dive in water, in order to obtain the desired weight in water, the volume of the buoyancy generator is adjusted by the adjusting member according to the total weight on the ground. It can be increased or decreased and adjusted to obtain an appropriate buoyancy, and by this adjustment, the total weight in water can be obtained as desired.

[0006]

【Example】

 FIG. 1 is a schematic perspective view according to a first embodiment of the present invention, in which a buoyancy adjusting device 1 includes an accessory shoe 1a fitted to an accessory shoe seat 2a of a camera body 2 and a grid. The container 1b is shaped like a container, a pillar 1c connecting the two, a balloon 1d surrounded by the container 1b, a hollow cylindrical portion 1e for venting air, and an air vent valve 1f.

In addition to the accessory shoe 1a described above, the camera body 2 has an accessory seat 2a attached to a strobe (not shown), a release button 2b, and contacts for exchanging signals with the strobe described above. 2c and. FIG. 2 is a sectional view of the buoyancy adjusting device 1 of FIG. In this figure, the balloon 1d is used as the buoyancy generator described above, and the opening of the balloon 1d is connected to the container 1b by O-rings 3a and 3b. The container 1d, the accessory shoe 1a, and the support 1c are used as a connecting member for connecting the balloon 1d to the underwater camera, and the accessory shoe 1a located below the container 1d is emptied toward the inside of the container 1b. A through hole 1g for injection is provided. A female screw is threaded on a portion of the through hole 1g located outside the container 1b, and a screw 4a for closing the through hole 1g can be screwed into the female screw via the O-ring 4b. . A hollow cylindrical portion 1e provided with a through hole 1h for an air inlet / outlet is provided on the upper part of the container 1b, and an air bleeding valve 1f pierceable through the peripheral surface of the hollow cylindrical portion 1e is arranged. It is set up. A hole 1f ₁ is formed in this valve 1f, and when the valve 1f is moved along the left-right direction in the figure, the hole 1f _{1 of the} valve 1f becomes the through hole 1h of the hollow cylindrical portion 1e or the peripheral wall portion. When the hole 1f _{1 of the} valve 1f is located in the through hole 1h, the through hole 1h penetrates through the hole 1f ₁ to the outside. Alternatively, when the hole 1f ₁ described above is positioned on the peripheral wall portion of the cylindrical portion 1e, the through hole 1h of the cylindrical portion 1e is blocked. The valve 1f is used as an adjusting member for adjusting the volume of the balloon 1d.

The above buoyancy adjusting device 1 needs to be devised so that its weight is reduced as much as possible and the buoyancy of a balloon in water is not hindered. For example, if the lattice type container 1b is made of aluminum, etc. It is possible to reduce the weight while maintaining the desired strength. When the buoyancy adjusting device 1 is attached to an underwater camera and the water pressure is high when diving underwater, in order to reduce the weight in the water, the balloon 1d should be largely inflated in advance against the water pressure. .. For that purpose, the valve 1f is removed from the cylindrical portion 1e, and air is injected into the balloon 1d through the through hole 1h of the cylindrical portion 1e. By this injection, the balloon 1d is greatly inflated and its volume is increased, and the valve 1f is moved to the peripheral wall portion of the cylindrical portion 1e, and the through hole 1h of the cylindrical portion 1e and the balloon 1d are moved. When the balloon 1d is submerged in water after sealing the opening, the buoyancy of the balloon 1d is increased due to the increased volume of the balloon 1d. Even if you go deeper and the water pressure becomes higher, you can maintain the buoyancy without compressing the balloon 1d due to the large amount of air injection described above, and thus obtain the desired weight in water. You can

Although not shown in FIG. 1, when the speedlight is integrated with the underwater camera and the above-mentioned buoyancy adjusting device 1 via a bracket attached to the bottom surface of the underwater camera, the underwater weight is reduced. In order to obtain the desired amount, air is additionally injected into the inside of the balloon 1d to inflate the balloon further, and the buoyancy of the balloon is further increased by increasing the volume thereof so that the weight in water is obtained as desired. To do. Incidentally, in order to prevent the balloon 1d from being inflated even if it greatly expands, a balloon whose outer shell is thick or made of a durable material is used.

If the weight of the water is too light due to the above-mentioned air injection, the valve 1f is moved and operated, and when the hole 1f ₁ is located in the through hole 1h of the cylindrical portion 1e, the opening is performed. been said through holes 1f ₁ of the valve 1f to release air inside the balloon 1d to the outside of the device 1, is reduced the volume of the balloon 1d is this release, the buoyancy of the balloon 1d weak Mari, Therefore, The weight in water can be adjusted as desired.

Therefore, by opening the opening of the balloon 1d by the valve 1f through the hollow cylindrical portion 1e of the container 1b, air is injected into the balloon 1d or air is discharged to the outside of the balloon 1d. The volume of the balloon 1d is adjusted, and therefore the buoyancy of the balloon 1d is adjusted, and the weight in water can be adjusted as desired. In the above-described embodiment, the support 1c is provided between the container 1b and the accessory shoe 1a, but the present invention is not limited to the support 1c, and the container 1b and the accessory shoe 1a can be directly connected to each other. , May be fixed.

FIG. 3 is a schematic perspective view of a buoyancy adjusting device according to a second embodiment of the present invention, in which a three-dimensional foam polystyrene 6a, a container body 6b surrounding the polystyrene 6a, and a main body 6b thereof are detached. Possible fixing plate 6c, screws 6d and 6e for attaching the fixing plate 6c to the container body 6b, an accessory shoe 6f that can be fitted to the accessory shoe seat 2a of the camera body 1 in FIG. 1, and that and the container 6b. The buoyancy adjusting device 6 is configured by the pillar 6g that connects the Storing the styrofoam 6a to the container body 6b, the screw 6d, the 6e, when screwed into the hole 6c _1, main screw holes 6b ₁ of the container main body 6b side through 6c _2, 6b ₂ of the fixing plate 6c, Styrofoam 6a fixed It is fixed to the container body 6b by the plate 6c.

FIG. 4 shows the state of the present apparatus 6 when using the styrofoam 6h in which the volume of the styrofoam 6a in FIG. 3 is halved, by removing the fixing plate 6c from the container body 6b and replacing the styrofoam 6a, 6h. The volume of the polystyrene foam is adjusted inside the container body 6b. This adjustment also adjusts the buoyancy in the water so that the weight in the water can be adjusted as desired. In addition to the buoyancy adjusting device 6 described above, when an accessory such as a speedlight (not shown) is attached to the underwater camera, in order to reduce the weight in water, the expanded polystyrene foam 6a shown in FIG. The styrofoam volume increases the buoyancy and gives the desired weight in water.

The styrofoam 6a, 6h is used as the above-mentioned buoyancy generator, and the fixing plate 6c and the screws 6d, 6e are used as part of the styrofoam connecting member. Further, the fixing plate 6c and the screws 6d and 6e described above are used not only as a part of the connecting member but also as an adjusting member for removing the foamed polystyrene 6a and 6h from the container body 6b. Be done.

FIG. 5 is a schematic perspective view of a buoyancy adjusting device according to a third embodiment of the present invention, which includes a camera grip type container 7a, a bracket type container 7b integrally formed with the same container 7a, and the same container. A buoyancy adjusting device 7 is constituted by a sealing screw 7d for the air inlet / outlet 7c formed on the side surface of 7b and a mounting screw 7f fitted in a tripod screw hole 7e of the container 7b.

Inside each of the containers 7a and 7b, there is a hollow portion including the connecting portion between the container 7a and the container 7b, and it is located inside the container 7b around the hole 7e. A hollow cylindrical portion (not shown) for penetrating the screw 7f is formed in the portion. Both end surfaces of this cylindrical portion are adhered to the inner surface of the upper portion and the inner surface of the bottom portion of the container 7b. When the mounting screw 7f is screwed into the female screw hole for tripod located on the bottom surface of the camera body 8 through the hollow cylindrical portion and the hole 7e, the device 7 is mounted on the camera body 8.

When diving underwater with the underwater camera equipped with the device 7 as described above, the volume of each of the containers 7a and 7b is not compressed even if the water pressure increases as the water dives deeper. In order to maintain buoyancy so as to resist water pressure, remove the screw 7d from the air inlet / outlet 7c of the container 7b in advance and inject air from the inside of the container 7b to the inside of the container 7a from the inlet / outlet 7c. Then, the inlet / outlet 7c is sealed by screwing the screw 7d into the air inlet / outlet 7c. After that, due to the above-mentioned air injection even by water pressure, the volume of the containers 7a, 7b can be adjusted so as to be kept constant without being compressed, so that a suitable buoyancy force is obtained. Once obtained, the weight in water can be obtained as desired.

In addition to the buoyancy adjusting device 7 shown in FIG. 5, when an accessory such as a speedlight (not shown) is attached to the underwater camera, in order to obtain the desired weight in the water, the above-mentioned container 7a is Air is additionally injected into the inside of the containers 7a and 7b through the inlet / outlet 7c, and after the sealing by the screw 7d, the additional injection of air is performed without compressing the containers 7a and 7b by water pressure. Due to the volume of the containers 7a, 7b according to, a suitable buoyancy is obtained, and therefore the weight in water can be obtained as desired.

Further, when the weight in water is too light, the screw 7d is removed from the inlet / outlet 7c to release air from the inside of the containers 7a, 7b to the outside, and by this release, air in the containers 7a, 7b is discharged. The volume is reduced and the buoyancy is reduced, which makes it possible to control the weight in water. Therefore, the volume of each of the containers 7a and 7b is adjusted by removing the screw 7d and injecting air into or out of the air, and by adjusting the buoyancy accordingly, the weight in water can be adjusted as desired. ..

FIG. 6 is a schematic perspective view according to a fourth embodiment of the present invention, in which a mounting screw 9c is attached to a tripod on the bottom surface of the camera body through a hole 9b located at the center of the bracket type container 9a. The container 9a is mounted on the camera body 1 when screwed into the female screw hole. FIG. 7 is a schematic cross-sectional view of the bracket type container 9a, the strobe type container 9d and the arm 9e in FIG. 6, the inside of the container 9a is a hollow portion, and the bottom of the container 9a has an air inlet / outlet port. A female screw hole 9f for use is provided. A sealing screw 9h can be screwed into the female screw hole 9f via an O-ring 9g. The arm 9e has an inner space, and a female screw hole 9i for air inlet / outlet is provided in the lower portion of the arm 9e. When the connecting screw 9k is screwed into the female screw hole 9i of the arm 9e through the hole 9j located at the other end of the container 9a, the arm 9e is attached to the container 9a and the arm 9e and the strobe The inside of the container 9d is sealed.

In order to maintain the buoyancy without compressing the volumes of the containers 9a and 9d and the arm 9e even if the pressure in water becomes high, the internal thread 9f of the container 9a is used to keep the buoyancy inside the container 9a. By injecting air, the screw 9h is screwed into the female screw hole 9f, and air is injected into the inside of the container 9d through the inside of the female screw hole 9i of the arm 9e through the inside of the arm 9e. The arm 9e is attached to the container 9a by screwing the connecting screw 9k and the female screw hole 9i through the hole 9j.

To adjust the buoyancy in water, the volume of each object 9a, 9d, 9e may be adjusted by injecting air or releasing air according to the removal of the sealing screw 9h and the connecting screw 9k. Instead, the above objects and the speedlite 9l in FIG. 6 are combined in the following ways to configure the present device 9 and attach it to the camera to adjust the buoyancy in water. ..

First of all, the device 9 is constituted by the container 9a and the mounting screw 9c, and the device 9 is constructed so as to oppose the total weight of the camera and the container 9a on the ground and have a high water pressure. In order to endure the underwater camera 1 with the female screw hole 9f of the container 9a, air is injected into the container 9a and the screw 9h is screwed into the female screw hole 9f and sealed. Attach to. By the above-mentioned air injection, the total weight of the camera and the container 9a and the buoyancy which can withstand the strong water pressure are obtained in the water, and therefore the weight in the water can be reduced. Further, the screw 9h can be removed from the female screw hole 9f of the container 9a to change the volume of the container 9a by releasing the air to the outside, so that the buoyancy in water can be adjusted.

Secondly, the container 9a, the mounting screw 9c, the stroboscopic container 9d and the arm 9e, and the connecting screw 9k constitute the present device 9, and the camera 9 In order to withstand the total weight of the containers 9a and 9d and the arm 9e and to withstand high water pressure, the inside of the container 9a is inserted from the female screw hole 9f of the container 9a, and the arm is inserted from the female screw hole 9i of the arm 9e. 9e and the inside of the container 9d are filled with air, the screws 9h and 9k are screwed into the female screw holes 9f and 9i, respectively, and the container 9a sealed together with the container 9d and the arm 9e is fixed by the screw 9c. Attach to the underwater camera 1. Since the air is injected as described above, the total volume of the containers 9a and 9d and the arm 9e provides buoyancy in water that can withstand the total weight on the ground and the strong water pressure. Can be lightened. Also, the screw 9h can be removed from the female screw hole 9f of the container 9a, or the screw 9k can be removed from the female screw hole 9i of the arm 9e to change the volume of the container by releasing the air to the outside. The buoyancy in the water can also be adjusted.

The speedlight 9l shown in FIG. 6 is used as an accessory for flash photography together with the arm 9m and the synchro cord 9n, and the connecting screw 9q is attached to the end of the arm 9m through the hole 9p of the container 9a. The accessory described above is attached to the first or second main device 9 by being screwed into a female screw hole (not shown) located in the section. At this time, in order to withstand the total weight of the camera 1 and the device 9 and the accessory on the ground and withstand high water pressure, the first device 9 has the female screw hole 9f of the container 9a. After that, air is further injected into the inside of the container 9a. In the second device 9 described above, the air is injected into the container 9a and the arm 9e and the floating portion are passed through the female screw hole 9i of the arm e. Air was further injected into the inside of 9d, and the screws 9h and 9k were attached to the female screw holes 9f and 9i of the container 9a and the arm 9e, respectively, so that the volume of the sealed containers 9a and 9d and the arm 9e brought the water into the water. Has enough buoyancy to withstand the above-mentioned total weight and high water pressure, and therefore can reduce the weight in water. Alternatively, the screws 9h and 9k can be removed, and the buoyancy in water can be adjusted by reinjecting air or discharging the air.

FIG. 8 is a schematic perspective view according to a fifth embodiment of the present invention, in which the device 10 comprises two styrofoam plates 10a formed in a thick plate and mounting screws 10b and 10c. To be done. To attach the slab of styrofoam 10a to the bottom of the camera body 8 by using only one styrofoam plate, one screw 10b should be fitted to the thickness of only one slab, through the hole 10d of the styrofoam 10a. 8 is screwed into the tripod screw hole on the bottom surface of the camera 8 and the two flat plates 10a are stacked and attached to the bottom surface of the camera body 8, the other screw 10c is passed through the through hole 10d to the above-mentioned tripod screw hole. Screw into. Therefore, by mounting one or two flat plates, the volume of the styrofoam can be adjusted, whereby the buoyancy in water is also adjusted and the weight in water can be adjusted as desired.

When an accessory (not shown) is attached to the underwater camera 8, in order to obtain the desired weight in water, two styrofoams 10a and 10b are attached to the underwater camera 8 with screws 10c, and the styrofoam 10a, The total volume of 10b is adjusted to obtain the total weight of the underwater camera and accessories on the ground and the buoyancy force to withstand the water pressure, thereby obtaining the desired weight in the water.

[0028]

[Effect of the device]

 According to the present invention described above, when the above-mentioned buoyancy adjusting device is attached to an underwater camera and dive in water, the adjusting member adjusts the volume of the buoyancy generator to obtain buoyancy capable of countering the pressure in water. In this way, the weight in water can be obtained as desired.

Further, even if a speedlight or the like is integrated with the underwater camera together with the above-mentioned buoyancy adjusting device, the volume of the buoyancy generator is further adjusted by the adjusting member to adjust the buoyancy in water, thereby Weight can be obtained as desired.

[Brief description of drawings]

FIG. 1 is a schematic perspective view of a buoyancy adjusting device 1 and an underwater camera 2 according to a first embodiment of the present invention.

FIG. 2 is a schematic sectional view of the buoyancy adjusting device 1 of FIG.

FIG. 3 is a schematic perspective view of a buoyancy adjusting device 6 according to a second embodiment of the present invention, in which the suspended matter of the device 6 is styrofoam.

FIG. 4 is a schematic perspective view of a buoyancy adjusting device 6 when the polystyrene foam of FIG. 3 is halved in volume, and is used.

FIG. 5 is a schematic perspective view of a buoyancy adjusting device 7 and an underwater camera according to a third embodiment of the present invention.

FIG. 6 is a schematic perspective view of a buoyancy adjusting device 9, an underwater camera and accessories according to a fourth embodiment of the present invention.

7 is a schematic cross-sectional view of the box-shaped container 9, strobe-type floating portion 9d and arm 9e of FIG.

FIG. 8 is a schematic perspective view of a buoyancy adjusting device 10 and an underwater camera according to a fifth embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Buoyancy adjusting device, 1d balloon, 1f Air vent valve 2 Underwater camera, 6 Buoyancy adjusting device, 6a Styrofoam 6h Styrofoam, 7 Buoyancy adjusting device, 7a
Grip combined part 7b Hollow box-shaped container, 7d Sealing screw, 8 Underwater camera 9 Buoyancy adjusting device, 9a Hollow box-shaped container, 9d
Strobe type floating part 9e arm, 9k connecting screw, 10 buoyancy adjusting device 10a Styrofoam, 10b & 10c adjusting and mounting screw

Claims (1)

[Scope of utility model registration request] 1. A buoyancy generator for generating buoyancy in water, a connecting member for connecting the buoyancy generator to an underwater camera or an accessory attached to the camera, and a volume of the buoyancy generator. And a buoyancy adjusting device configured to adjust buoyancy in water.