KR200484659Y1 - Flash mount for tripods - Google Patents

Abstract

The present invention relates to a mount for fixing a portable flashlight to a tripod, and more particularly to a mount for fixing a flash body of a round tube type. And a mounting portion extending from the lower portion of the coupling portion and being fixed to the fixing plate of the tripod,
The fixing part includes a mounting part having a lower flange part having a lower bolt hole on both sides of the upper end thereof and a semicircular lower coupling groove formed on an inner circumferential surface thereof to form a lower contact pad so that the flash can be seated. And an upper flange portion having an upper flange portion having an upper bolt hole so as to have an engaging force with the lower flange portion is formed on both sides of a lower end thereof, , ≪ / RTI >
The mounting portion includes an extension portion extending to a lower portion of the mounting portion; And a pair of engaging protrusions protruding downward from both sides of the lower end of the extending portion and having a ""-shaped gripping groove formed to oppose the inner surface,
A tripod mount flash mount for easy installation of a portable flashlight on a tripod, but also for providing a fixed mounting force with a simple operation and a stable installation of a flashlight. .

Description

Flash mount for tripods {

The present invention relates to a mount for fixing a portable flashlight to a tripod, and more particularly, to a flashlight mount for a tripod mount for mounting a portable flashlight on a tripod so that the flashlight can be used as a flashlight for fixation.

Generally, a flashlight is an auxiliary illumination means mainly used when it is necessary to identify objects in a dark place as needed, for example, by illuminating the surrounding area for a long period of time such as hiking or hiking.

Meanwhile, such a portable flashlight usually uses a high-luminance lamp such as a halogen or a HID (High Intensity Discharge). However, such a high-luminance lamp has a disadvantage of requiring frequent replacement of the battery because the power consumption is increased and the use time of the battery is shortened .

In order to secure the above-mentioned problems, the flashlight is rapidly being developed. In recent years, an LED lamp having high luminance, low power consumption and low cost has been widely used.

In addition, in recent years, the zoom function has been focused on the flash having the above-mentioned considerable brightness, so that the application of the flash is not limited to the simple auxiliary lighting means but is used as a searchlight or as an auxiliary long pin in a theater, art hall, It is true.

However, in order to apply such a flashlight as a searchlight or a long pin, a separate mounting device must be provided. As a typical mounting device, there is a tripod capable of fixing a camera. In the case of a general flash, The present invention does not have a fixing means for fixing and is used for fixing by means of a separate cable tie or the like.

Korean Utility Model Registration No. 20-0238247. Korean Patent Application No. 10-1061058.

The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide a portable flashlight which can be easily fixedly mounted on a tripod, and can be provided with a fixed mounting force by a simple operation, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a flash fixing mount for a tripod for increasing use of a flash.

In order to achieve the above-mentioned object, there is provided a washing machine comprising: a binding part capable of binding and fixing a flash body of a circular tube shape; And

And a mounting portion extending from the lower portion of the binding portion and being fixed to the fixing plate of the tripod,

In the binding portion,

A mounting portion having a lower flange portion having a lower bolt hole formed on both sides of the upper end thereof and having a semicircular lower coupling groove formed on an inner circumferential surface thereof to form a lower contact pad, And

A semi-circular upper fixing groove formed on an inner circumferential surface thereof to oppose the mounting portion and formed with a semi-circular upper fixing groove formed on an inner circumferential surface thereof, and a cover portion formed on both sides of the lower end with an upper flange portion having an upper bolt hole, ≪ / RTI >

In addition,

An extension extending to the lower portion of the mounting portion; And

And a pair of engaging protrusions formed to protrude downward from both sides of the lower end of the extension portion and formed with "" -shaped gripping grooves so as to oppose the inner side surfaces thereof.

As described above, the present flash fixing mount for tripod mount comprises a fastening portion capable of fastening the flash and a fastening portion extended to the lower portion of the fastening portion, so that the fastening body can be easily fastened and fixed through the fastening portion, The flashlight can be fixedly mounted on the fixing plate of the tripod, and the flashlight can be stably installed without any flow in the tripod.

In addition, it is possible to obtain effects that can be used for various purposes by setting stable irradiation direction of light and minimizing fluctuation of light, as well as protecting the flashlight with a stable fixed installation.

1 is an exploded perspective view of a flash fixing mount for mounting the tripod.
FIG. 2 is a perspective view of the flash fixing mount for mounting the tripod. FIG.
3 is a sectional view of a flash fixing mount for mounting the tripod.
4 is another embodiment of the fastening portion of the flash fixing mount for mounting the tripod.
Fig. 5 is a view showing another embodiment of the installation of the flash fixing mount for mounting the tripod.
6 is a view showing a state of flash bonding using a flash fixing mount for mounting the tripod.
FIG. 7 is another embodiment of a flash fastening state using a flash fixing mount for mounting the tripod. FIG.
Fig. 8 is a view showing a mounting state on a tripod using a flash fixing mount for mounting the tripod. Fig.
9 is a perspective view of another embodiment of a tripod mount using a flash fixing mount for mounting the tripod.

The terms or words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term to describe its own design in the best possible way It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of a flash fixing mount for mounting the tripod, FIG. 2 is an assembled perspective view of a flash fixing mount for mounting the tripod, and FIG. 3 is a sectional view of the flash mounting mount for mounting the tripod.

As shown in Figs. 1 to 3, the present fastening tripod mounting flash fixture 1 is composed of a binding portion 100 and a mounting portion 200.

Here, the binding unit 100 includes a receiving unit 110 and a lid unit 120 as means for binding and fixing ordinary flashes (not shown).

At this time, the mounting portion 110 is configured to mount and fix the body of the flash, and the upper portion is formed with a lower binding groove 111 in the form of a semicircular groove that opens upward.

In addition, a lower contact pad 112 made of rubber or silicone is provided on the inner circumferential surface of the lower binding groove 111 to provide an adhesion force of the flash body and protect the flash.

A lower flange portion 113 is formed on both sides of the upper end of the mounting portion 110 so as to exert a coupling force with the lid portion 120. The lower flange portion 113 has a lower bolt hole 114 Is formed.

The lid part 120 is configured to close the upper part of the mounting part 110 to constrain the flash. The lower part of the lower part of the lid part 120 is opened downward to form an upper binding groove 121 so as to oppose the lower binding groove 111. do.

In addition, an upper contact pad 122 made of rubber or silicone is provided on the inner circumferential surface of the upper binding groove 121 to apply a pressing force to the flash body and protect the flash.

An upper flange portion 123 is formed on both sides of the lower end of the lid portion 120 so as to exert a coupling force with the mounting portion 110. An upper bolt hole 124 is formed in the upper flange portion 123, Respectively.

That is, the lid part 120 is closed through the upper and lower bolt holes 124 and 114 formed in the upper and lower flange parts 123 and 113 while the upper part of the mounting part 110 is closed. The upper and lower coupling grooves 111 are formed in a circular shape when the mounting part 110 and the lid part 120 are coupled with each other.

4, a screw hole 126 may be further formed at the center of the lid 120 and the upper portion of the lid 120 may be engaged with the upper portion of the lid 120. In this case, And may further include a pressure plate 150 on the inner side of the groove 121.

At this time, the pressure plate 150 is recessed at a curved bottom surface and is formed with an auxiliary fastening groove 151 formed with an auxiliary contact pad 152, and a bolt fastening hole 151 communicating with the screw hole 126 is formed at an upper portion. (153) are formed.

The screw hole 126 is further formed with a fastening bolt 160 and a fastening bolt 160 which is fastened to the fastening hole 153 The pressing plate 150 is configured to be able to move up and down by the fastening force of the pressing bolt 160. [

In other words, as described above, the pressure plate 150 is generally configured to have various sizes instead of being limited in size. The pressure plate 150 is press-fixed according to the size of the flash, .

The mounting portion 200 is configured to extend to the lower portion of the binding portion 100 and is configured to be mountable on a tripod (not shown in the drawing). The mounting portion 200 includes the extension portion 210, And a pair of coupling protrusions 220 and 220 '.

At this time, the extension part 210 is formed in a block shape and extends to the lower part of the mounting part 110 of the binding part 100.

The coupling protrusions 220 and 220 'protrude downward from opposite sides of the lower end of the extension 210.

In this instance, &quot; <"-shaped gripping grooves 221 and 221 'are respectively formed on the inner opposing surfaces of the engaging protrusions 220 and 220', and the gripping grooves 221 and 221 ' > ".

Meanwhile, in the construction of the coupling protrusions 220 and 220 ', the coupling protrusion 220 on one side thereof is separated from the extension 210.

At this time, the separated coupling protrusion 220 is coupled to the extension 210 through the threaded bar 230, and the coupling method can be applied to various embodiments.

First, as shown in FIGS. 1 to 3, the screw rod 230 may be formed so as to have a free rotational force directly from the outside of the separated coupling protrusion 220 to the penetrating and extending portion 210.

A pressing nut 240 is inserted into the threaded bar 230 from the outside of the coupling protrusion 220. When the pressing nut 240 is loosened, the coupling protrusion 220 moves along the threaded bar 230 It is possible to adjust the spacing of the two coupling projections 220 and 220 'according to the adjustment of the pressing nut 240 such that the left and right free flows are possible and the pressing force of the coupling protrusions 220 is fastened.

5, when the threaded rod 230 is inserted from the outer side of the separated coupling protrusion 220 to the penetrating and other coupling protrusion 220 ', a free rotation force is applied to the coupling protrusion 220. In other words, As shown in Fig.

A pressing nut 240 is inserted into the threaded bar 230 from the outside of the coupling protrusion 220. When the pressing nut 240 is loosened, the coupling protrusion 220 moves along the threaded bar 230 It is possible to adjust the spacing of the two coupling projections 220 and 220 'according to the adjustment of the pressing nut 240 such that the left and right free flows are possible and the pressing force of the coupling protrusions 220 is fastened.

In addition, the body of the screw bar 230 may protrude through the gripping grooves 221 and 221 'formed in the engaging protrusions 220 and 220'.

On the other hand, in the threaded rod 230, a screw thread is formed on the head close part, and the coupling protrusion 220 is screwed. On the end side, threading is not formed. So as to have a free rotational force on the extended portion 210 or the coupling protrusion 220 '.

Hereinafter, the operation of the flash fixing mount for mounting the present invention tripod will be described in detail with reference to the accompanying drawings.

The inventive fixture mount for tripod mount is for fixing a portable flashlight to a tripod so that the flashlight can be fixedly used.

First, the flash may be fastened to the binding portion 100 of the present design mount 1 as shown in FIG. 6 before being installed on the tripod.

1 to 3, the binding unit 100 includes a lower mounting part 110 and an upper lid part 120, and the lid part 120 is formed from the mounting part 110 The flash 10 may be inserted into the lower binding groove 111 of the mounting part 110 in a separated state.

The upper part of the flash 10 is closed with the lid part 120 to confine the flash 10 and the lid part 120 is fixed to the upper part of the flash 10 through the lower lower engaging groove 111 The upper flange portion 123 of the lid portion 120 is brought into contact with the lower flange portion 113 of the mounting portion 110. As a result,

The mounting bolt 130 is then engaged with the upper and lower bolt holes 124 and 114 formed in the upper and lower flange portions 123 and 113. In this case, So that the flash 10 is fixedly fastened to the fastening portion 100.

The upper and lower adhesive pads 122 and 112 are formed in the upper and lower binding grooves 121 and 111 in the case where the flash 10 is fixed and fixed as described above. And the appearance of the flash 10 can be protected.

4, when the presser plate 150 is configured in the lid unit 120, the upper and lower engaging grooves 110 and the lower and upper engaging grooves 110, It is possible to fix the flash 10 having different specifications from the lamps 121 (111).

7, if the circumference of the flash 10 is smaller than the diameter of the upper and lower binding grooves 121, 111, the binding can not be fixed. In this case, the pressing plate 150 is used The flash 10 may be mounted on the lower coupling groove 111 of the mounting part 110 and the lid part 120 may be coupled to the upper part of the mounting part 110 as described above.

At this time, the flash 10 is caused to flow between the upper and lower binding grooves 121 and 111. When the pressing bolt 160 is tightened, the pressure plate 150 is lowered, The groove 151 is pressed against the upper portion of the flash 10 to fix the flash 10.

That is, in the case of the relatively small flash 10 as described above, it is possible to fix the flash 10 by using the pressure plate 150, and it is possible to fix the flash 10 of various sizes. In the pressing process, And the appearance of the flash 10 can be protected.

8 and 9, the mount 1 is mounted on the upper portion of the tripod 20, and the mount 1 is mounted on the tripod 20, And a latching groove 31 may be formed on the upper portion of the fixing plate 30. [

It is possible to use the lower mounting portion 200 of the mount 1 to fix the present design mount 1 on which the flash 10 is mounted to the tripod 20.

8, the distance between the engaging protrusions 220 and 220 'formed on both sides of the lower end of the mounting portion 200 is adjusted by releasing the pressing nut 240, 220 are controlled to be sufficiently wider than the interval of the fixing plate 30 by moving the pressing force of the pressing protrusions 220 and 220 from the releasing and extending portion 210 to the outside.

Thereafter, when the gripping grooves 221 and 221 'formed on the inner side of the coupling projections 220 and 220' are positioned on both sides of the fixing plate 30, the pressing nut 240 is rotated and tightened again A pressing force is applied to the coupling protrusions 220 so that the gap between the coupling protrusions 220 and 220 'is narrowed and both sides of the fixing plate 30 are pressed and held.

As described above, when the engaging protrusions 220 and 220 'are engaged with the engaging protrusions 220 and 220' in the process of pressing and holding the fixing plate 30, 'Can be stably gripped on the outside of the fixing plate 30.

5, when the fastening groove 31 is formed in the fastening plate 30 in the fixing plate 30 of the tripod 20 using the mounting portion 200 as described above, In the process of grasping the fixing plate 30, the threaded rod 230 protrudes between the two side holding grooves 221 and 221 'as shown in FIG. 230 are embedded in the engaging groove 31 of the fixing plate 30 and the sliding movement of the extended portion 210 can be prevented.

As described above, the present flash fixing mount for a tripod mount can fix a flash fixture and stabilize installation on a tripod when a portable flashlight is fixed to a tripod, and can be used for various purposes of a flashlight do.

100: binding portion 110: mounting portion
111: lower binding groove 112: lower adhesion pad
113: lower flange portion 114: lower bolt hole
120: lid part 121: upper fastening groove
122: upper contact pad 123: upper flange portion
124: upper bolt hole 126: screw hole
130: coupling bolt 150: pressure plate
151: auxiliary bonding groove 152: auxiliary contact pad
153: bolt fastening hole 160: pressure bolt
200: installation part 210: extension part
220, 220 ': Coupling protrusion 221, 221': Finger groove
230: Nasa bar 240: Pressurizing nut

Claims (4)

A binding portion 100 capable of binding and fixing a flash body of a circular tube shape; And
And a mounting part (200) extending downward from the binding part (100) and being fixed to a fixing plate of a tripod,
The binding unit 100 includes:
A mounting portion 110 which is opened upward to allow the flash to be seated and in which a lower flange portion 113 having a semicircular lower coupling groove 111 and a lower bolt hole 114 is formed on both upper ends thereof; And
The lower flange portion 113 and the coupling bolt 130 are fastened to both sides of the lower end of the upper bolt hole 124 And an upper flange 123 formed on the upper flange 123,
The mounting portion 200,
An extension part 210 extending to a lower portion of the mounting part 110; And
And both side coupling protrusions 220 and 220 'which are protruded downward from both sides of the lower end of the extension part 210 and formed with "" -shaped gripping grooves 221 and 221' Respectively,
Lower and upper contact pads 112 are formed on inner circumferential surfaces of the semicircular lower and upper binding grooves 111 and 121,
The mounting portion 200 is configured such that the coupling protrusion 220 on one side is separated from the extended portion 210 and the split bar 230 penetrates through the separated coupling protrusion 220 and the coupling protrusion 220 ' And a nut 240 is inserted into the threaded bar 230 on the outer side of the coupling protrusion 220 and the body of the threaded bar 230 is inserted into the coupling protrusion 220, The gap between the engaging protrusions 220 and 220 'is adjusted by tightening and loosening the pressing nut 240. The engaging protrusions 220 and 220' A flash mounting fixture for a tripod, comprising:
A screw hole 126 is further formed in the center of the lid part 120 of the binding part 100,
A pressing plate 150 having a bolt fastening hole 153 formed at an upper portion thereof is formed on the inner side of the lid portion 120 with a concave bottom surface formed with a curved curvature and an auxiliary fastening groove 151 formed with an auxiliary fastening pad 152 And,
A press bolt 160 is inserted into the screw hole 126 and is fastened to the bolt fastening hole 153 of the pressure plate 150,
The mounting portion 200,
The coupling protrusion 220 of one side is separated from the extension 210,
The split coupling part 220 is formed so that the threaded rod 230 is formed so as to have a free rotational force in the penetrating and extending part 210,
The pressing nut 240 is inserted into the threaded bar 230 on the outer side of the coupling protrusion 220,
Wherein the spacing between the coupling projections (220, 220 ') is adjusted by tightening and loosening the pressing nut (240). delete delete delete

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