KR101155241B1 - Camera support - Google Patents

Abstract

PURPOSE: A camera support is provided to optimize the usability and ease because users are able to control an inflow/outflow of air so a leg of the camera support is automatically extended by pressure differences. CONSTITUTION: A camera support comprises a holder(100), a supporting pipe body(200) in which air pressure is generated and an extensible support leg(300). The supporting pipe body is connected to a lower part of the holder and filled with oil inside. The supporting pipe body transfers the oil to the lower part according to pressure differences generated by injecting air. The extensible support leg comprises a first extensible support pipe(320), and a second extensible support pipe(330). The first extensible support pipe is connected to the lower part of the supporting pipe body and receives the transferred oil in order. The first extensible support pipe is moved along an inner surface of a hollow supporting tube(310). The second extensible support pipe is moved along the inner surface of the first extensible support pipe. The first extensible support pipe and the second extensible support pipe are extended with multi-stages.

Description

Camera support

The present invention is configured to extend the legs of the support for supporting the camera to a predetermined height in multiple stages, the user manipulates the inflow and outflow of air, the pressure difference occurs in accordance with the outflow of the air, the support leg is automatically by the pressure Regarding the camera support extending in the form, and more specifically, the detachable portion for attaching and detaching the camera is configured, and constitutes the mounting portion constituting a joint intermittent lever for intermittent rotation of the detachable portion by the joint ball, and the coupling configuration at the lower end of the mounting portion And a pressure generating support body configured to move the received oil downward by the internal pressure difference generated by injecting air in the state of accommodating the oil therein, and coupled to the lower end of the pressure generating support body. As the oil is sequentially received, it slides along the inner surface of the hollow support pipe. Rock configured hollow of the first height and the support tube, to which the first support tube a second height are configured so as to slide along the inner surface of the flow height on the support tube is configured camera support, including the support leg height is configured to extend in multiple stages.

In general, camera supports are used for stably fixing them in applications requiring precision work such as cameras, telescopes, antennas and various measuring devices.

The above camera support may be divided into triple pods or mono pods according to the number of legs, and the support legs are composed of a plurality of stages, so that the support legs are extended as necessary.

At this time, in order to restrain the elongation of the supporting leg, which is composed of multiple stages, a joint (constrainer) restrains the elongation between one end and the other end.

On the other hand, such a camera support should be easy to move and install due to its characteristics, quietness must be maintained during the movement, and should be quickly installed and inclined in a place where the ground is not flat, such as a slope, and also should be light and durable.

Looking at the conventional camera support has been developed and improved to meet these conditions, and to solve various problems are as follows.

In Korean Patent Publication No. 10-1989-0012188 (1989.08.25), a camera tripod consisting of a pipe formed of a square portion and a left-handed body, which is formed in a quadrangle, the long side of the square having a concave surface portion, It consists of a plurality of pipes each having two grooves and two arc-shaped protrusions and a pin housing for accommodating the pins in the circumferential direction and two semi-circular recesses in the longitudinal direction. In spite of use, novice or excessive force, the tripod is always easy to handle in a constant state, and there is no bending and shaking, thus providing a camera tripod for stable shooting.

In Korean Patent No. 10-0893535 (2009.04.08), a base plate 110 configured to mount a mounting object on an upper surface thereof is configured, and a shaft-shaped holder holder 120 having a tubular shape extending to a bottom surface of a central portion of the base plate 110 is provided. Is configured, the shaft is installed from the bottom to penetrate the shaft fixing holder 120, the fastening means 130 for attaching / detaching the mounting object on the upper surface of the base plate 110 is configured, the base plate 110 One end is hinged to each of the three-way outer periphery of the), and the other end is fixed to the ground is composed of three pairs of leg rest 140 to adjust the installation angle and height of the base plate 110, the shaft fixing holder 120 ) And a connecting means 150 for link linking between the three pairs of the legrest 140 and a level gauge 160 mounted on one side of the base plate 110 to indicate a horizontal installation state of the base plate 110. The fastening means 130 is a shaft A screw part is formed at an upper end that slides up and down through the inner diameter of the fixing holder 120, and a screw member 131 and an outer diameter of the screw member 131 which form a handle part 131b for rotation at the lower end. Is installed between the inner diameter of the shaft fixing holder 120 is composed of an elastic member 132 to elastically press the screw member 131 in the downward direction, the leg support 140 is hinged the upper end to the base plate 110 The first stage support rods 141 are combined, and the second stage support rods 142 are inserted into the inner diameter of the first stage support rods 141 to adjust the slide length, and the outer diameter of the lower end of the first stage support rods 141 is provided. The length adjustment lever 143 and the second stage support rod 142 are configured to control the slide movement of the second stage support rod 142 by pressing / releaseing the outer diameter of the second stage support rod 142 by a lever operation installed in the form of wrapping. In contact with the ground at the bottom of the The stopper 144 is formed to form a number of irregularities to prevent slipping, the connecting means 150 is a slide ring 151 is coupled to surround the outer diameter of the shaft fixing holder 120 is configured, One-stage support rod by lever operation installed in the form of surrounding the outer diameter of the first stage support rod 141 of the link 152 and the legrest 140, the one end is hinged to the three-way outer periphery of the slide ring 151 ( The outer diameter of the 141 is pressurized / released so that the fixed position on the first stage support bar 141 is moved, and the other end of the link 152 is composed of an angle adjusting lever 153 which is hinged to each other in the outer circumferential direction. The lever operation directions for locking and unlocking the angle control lever 153 and the length control lever 143 are made to be opposite to each other, and the horizontal system 160 is foldably installed on one side of the base plate 110. , Level 1 and 2 feet Because the angle can be adjusted, the installation angle of the tripod can be adjusted in various forms, so it is easy to install, and even when the installation floor is not flat, the horizontal state of the mounting object can be stably maintained, and the screw member of the fastening means By resiliently supporting by the elastic member in the state that the mounting object is removed, the movement is fixed, thereby preventing friction noise during the movement and installation of the tripod, and lever operating direction for locking and unlocking the angle adjusting lever and the length adjusting lever. By installing them in opposite directions, even when the working environment is dark or at night, the tripod can be operated by checking the lever's operation direction using only the hand's hand, and by installing a folding level on one side of the base plate, It's easy to see if the installation is level and after installation Alternatively, when the tripod is moved, it is folded and stored, thereby providing a tripod to prevent breakage.

In Patent No. 10-0960267 (2010.05.20), a first shaft 31 disposed below the shoe 20 is configured, and a second shaft 32 fitted inside the lower side of the first shaft 31. ) And a third shaft 33 fitted inside the lower side of the second shaft 32 so as not to deviate from the second shaft 32, and the first shaft 31 and the second shaft. A first joint 100 is disposed between the shaft 32 and configured to fix / release the first shaft 31 and the second shaft 32. The second shaft 32 and the A second joint 200 disposed between the third shafts 33 and configured to fix / release the second shaft 32 and the third shaft 33 is configured, and the first shaft 31 is formed. The second shaft is fixed to the upper side of the inner side and the lower end slides in the longitudinal direction with the first slider member 41 and the first slider member 41 disposed to penetrate the second shaft 32. A second slider member 42 is disposed through the 32, and the first joint 100 includes a first female screw member 130 fixed to an upper end of the second shaft 32. The first compression ring member 120 is disposed on the upper side of the first female screw 130, is disposed on the upper side of the first compression ring member 120, and penetrates through the first compression ring member 120 And a first male screw member 110 fastened to the first female screw member 130 and through which the first slider member 41 or the second slider member 42 does not go undesirably. 200 is a second female screw member 230 is fixed to the upper end of the third shaft 33, the second compression ring member 220 is disposed on the upper side of the second female screw 230 is configured Is disposed on the upper side of the second pressing ring member 220, is fastened to the second female screw member 230 through the second pressing ring member 220, the second slider member 42 It includes a second male screw member 210 that is not penetrated through the first, the first slider member 41 is formed in a 'c' shape when viewed in a plane and a guide projection (41a) formed on one side of the bottom protruding The second slider member 42 is formed in a 'c' shape when viewed in a plan view, a guide hole 42a is formed at one side, and the guide protrusion 41a is disposed at the guide hole 42a. The first slider member 41 and the second slider member 42 are arranged so as not to be separated from each other, and the first slider member 41 and the second slider member 42 are fitted to face each other and overlap each other. The first slider member 41 and the second slider member 42 are disposed so as not to obscure each other, and the first pressing ring member 120 or the second pressing ring member 220 is made of urethane or rubber. When looking at the cross-sectional shape, the inner and outer surfaces face toward the outer circumferential direction. It is formed bulging, and even if a plurality of joints are configured, by tightening or releasing only the upper joint among the plurality of joints, other joints can be tightened or released, so that the first joint and the second joint can be loosened more quickly. In the joint, the first and second pressing ring members are squeezed outwardly and the inflated surface is pressed against the inner surface of the first shaft or the second shaft disposed outside, and the supporting leg can be fixed. Provides a camera foot that allows tightening (fixing) even when the length is in any position.

The above-described conventional camera support is mostly composed of multiple stages for stretching, and each stage is configured with a restraint for controlling the flow (extension) of the support leg, and the operation of the support leg by tightening and releasing such restraint. You can increase or decrease the overall length.

However, the above-mentioned restraint has a hassle that requires the user to manually tighten or loosen each restraint, and when the number of legs is large, the number of restraints increases so much that it requires more time and labor. There is a problem.

Patent Publication No. 10-1989-0012188 (1989.08.25), Patent No. 10-0893535 (2009.04.08), Patent No. 10-0960267 (2010.05.20)

The present invention is to solve the above-mentioned conventional problems, an object of the present invention is configured to extend the legs of the support for supporting the camera mounted to a predetermined height in multiple stages, the user manipulates the inflow and outflow of air, It is an object of the present invention to provide a camera support that causes a pressure difference to occur due to the outflow of the support leg so that the support leg is automatically extended by the pressure.

In order to achieve the above object, the present invention comprises a detachable portion for attaching and detaching the camera, and constitutes a mounting portion constituting a joint intermittent lever for intermittent rotation of the detachable portion by the joint ball, it is coupled to the lower end of the mounting portion A pressure generating support body configured to move the oil received by the internal pressure difference generated by injecting air in the state in which the oil is contained therein and configured to move to the lower end of the pressure generating support body, the oil moved The first kidney support tube is configured to slide and flow along the inner surface of the hollow support tube and the second extension support tube configured to slide and flow along the first extension support tube in multiple stages as it is sequentially received. It is characterized by including the kidney support legs configured to be configured to.

At this time, the pressure generating support body is divided into an upper chamber and a lower chamber by a piston, and a hollow cylinder tubular body for accommodating a predetermined oil in the lower chamber and air flowing in and out in the upper chamber. Comprising the upper end cap to close the upper end, through the center of the upper closing cap, and constitutes an air valve for opening and closing the air to flow in and out of the upper chamber inside the cylinder body, and is connected to the lower end of the air valve, As the air valve is opened and closed, an oil opening rod is configured to open or control the oil contained in the lower chamber inside the cylinder body to move downward through the oil moving hole formed at the lower end, and to control the oil opening and closing inside the cylinder body. Is configured to flow up and down by the guide of the rod, by the air flowing in and out through the air valve The piston flows up and down with the generated pressure to apply a pressure to move the oil contained in the cylinder tube, and configures a lower cap to close the lower end of the cylinder, and is connected to the lower cap. It is fixed so as to, and configured to be located inside the elongated support leg, and constitutes a guide tube for guiding the oil contained in the cylinder tube body to move downward, and when the oil moves up and down, sliding along the outer surface of the guide tube It is characterized in that it comprises an extension guide tube that extends or shortens the flow path in accordance with the up and down movement of the oil by flowing to extend or interrupt the length of the flow.

And the lower closing cap is configured to communicate with the lower end of the oil opening and closing rods forming the oil movement hole, to constitute an oil stagnant space portion for temporarily accommodating the oil moving through the oil movement hole as the oil opening and closing rod is elevated It has that feature.

In addition, it is characterized in that it further comprises a pressure spring to press the piston to the upper chamber inside the cylinder body of the pressure generating support tube.

In addition, it is characterized in that the sealed inside the second extension support tube configured to communicate with the lower end of the extension guide tube.

As described above, in the present invention, when a user mounts the camera to a predetermined height and shoots, the user operates only the air valve configured in the upper part of the cradle, and the pressure is generated by the pneumatic pressure of the air, which is filled with air and accommodated inside the pressure generating support body. The oil contained in the support pipe moves to the lower side, so that the multi-stage support legs are sequentially extended so that the camera can be mounted at a predetermined height so that the camera can be easily and quickly responded to the environment in which the camera is to be used. It is a novel invention that has the effect of maximizing usability and increasing convenience.

1 is a cross-sectional view showing the configuration of the present invention camera support
Figure 2 is an exemplary cross-sectional view showing a state in which the elongated support legs according to the configuration of the present invention
Figure 3 is an exemplary view showing the configuration of a triple pod according to the configuration of the present invention
Figure 4 is an exemplary view showing another configuration of the camera support of the present invention

In order to achieve the above object, the present invention will be described in detail with reference to the accompanying drawings.

A detachable part 110 configured to attach and detach a camera, and a mounting part 100 constituting an articulation intermittent lever 120 for intermittent rotation of the detachable part 110 by the joint ball 130;

A pressure generating support tube 200 configured to be coupled to a lower end of the mounting part 100 to move the oil received by the internal pressure difference generated by injecting air in a state in which oil is received therein;

A hollow first extension support tube 320 configured to slide along the inner surface of the hollow support tube 310 in order to sequentially receive the moved oil coupled to the lower end of the pressure generating support tube 200; The second extension support pipe 330 configured to slide and flow along the inner surface of the first extension support pipe 320 extends in multiple stages;

At this time, the pressure generating support body 200

The cylinder 250 is divided into upper and lower chambers 211 and 212 by a piston 250 to accommodate a predetermined oil in the lower chamber 212 and air flowing in and out of the upper chamber 211. Wow;

An upper closing cap 220 closing the upper end of the cylinder body 210;

An air valve 230 coupled to the center of the upper closing cap 220 to open and close the cylinder pipe 210 to allow the air to flow in and out of the upper chamber 211;

It is connected to the lower end of the air valve 230, the air valve 230 is lifted as the opening and closing is received in the lower chamber 212 inside the cylinder body 210 through the oil movement hole 241 formed in the lower end An oil opening / closing rod 240 for opening or controlling oil to move downward;

It is configured to flow up and down by the guide of the oil opening and closing rod 240 inside the cylinder body 210, flows up and down by the pressure generated by the air flowing in and out through the air valve 230, the cylinder A piston 250 for applying pressure to move the oil contained in the pipe body 210;

A lower closing cap 260 for closing the lower end of the cylinder body 210;

It is connected to the lower closing cap 260 and fixed to pass through, and configured to be located inside the elongated support leg 300, the guide pipe 270 for guiding the oil contained in the cylinder body 210 to move to the bottom and ;

When the oil moves up and down, the guide flows by sliding along the outer surface of the guide tube 270 to extend or shorten the length, or to configure to interlock, extending or shortening the flow path in accordance with the up and down movement of oil (271); configured to include.

And the lower closing cap 260 is

It is configured to communicate with the lower end of the oil opening and closing rod 240 forming the oil moving hole 241, to temporarily accommodate the oil moving through the oil moving hole 241 as the oil opening and closing rod 240 is elevated. An oil stagnant space portion 261 is configured.

In addition, the pressure generating support body 200 is configured to further include a pressure spring 280 to press the piston 250 in the upper chamber 211 in the cylinder body 210 of the pressure.

In addition, the inside of the sealed second extension support pipe 330 is configured to communicate with the lower end of the extension guide pipe (271).

Looking at the detailed configuration and the embodiment of the present invention with reference to the drawings as follows.

The present invention provides a camera support that is easily and quickly extended by a manipulation of an air valve that allows air to flow in and out without extending the support leg by manipulating a fastening means for controlling the extension of the support leg which is made up of multiple stages. The present invention relates to a camera support for extending a support leg configured in multiple stages by applying air pressure to an oil contained therein to a predetermined length to mount the camera at a predetermined height.

Looking at the configuration of the present invention that exhibits such a function with reference to Figure 1 to Figure 3, the mounting portion 100 to mount the camera large, and the outside air flows in and out to apply pressure to the oil filled in the inside to move the oil Consists of the pressure generating support body 200 and the elongated support leg 300 is elongated by receiving the moved oil sequentially.

Looking at each of the components in more detail, first, the mounting portion 100 is configured on the top detachable portion 110 for attaching and detaching the camera, the camera mounted on the detachable portion 110 in the lower portion of the detachable portion 110 It constitutes a joint sphere 130 to rotate at various angles, and constitutes a joint intermittent lever 120 to control the detachable portion 110 is rotated by the joint sphere 130.

The lower side of the joint sphere 130 constitutes a coupling portion 131 extending downward, the coupling portion 131 is configured in the form of a hollow tube with the upper end blocked, the air valve 230 in the center of the blocked upper end ) Through-holes are formed so that one side is penetrated.

In addition, the upper portion of the pressure generating support pipe 200 is coupled to the coupling part 131 which is the lower end of the mounting part 100, and the function of the pressure generating support pipe 200 is filled with oil filled therein. The oil contained in the filling is discharged downward by the internal pressure difference generated by the air injection in the state.

Looking at the configuration of the pressure generating support tube 200 in detail, it is configured to accommodate a predetermined oil filled in the inside, and to form a hollow cylinder tube 210 for receiving the air flowing in, the cylinder body 210 inside There is a piston 250 that flows up and down.

At this time, the cylinder body 210 is divided into an upper chamber 211 for accommodating air and a lower chamber 212 for accommodating oil by the piston 250, and the upper part is flown up and down by the piston 250. The capacity of the chamber 211 and the lower chamber 212 is variable.

In addition, the upper end of the cylinder body 210 is coupled to the upper end cap 220, the finish, and penetrates the center of the upper end cap 220 to form an air valve 230 is coupled.

The air valve 230 is configured to communicate with the upper chamber 211 of the cylinder body 210 for receiving air, the air flows into the upper chamber 211 as the air valve 230 is opened and closed The air pressure in the upper chamber 211 is increased or decreased.

At this time, the upper end of the air valve 230 is guided through the through hole of the coupling portion 131, the valve handle 231 is configured by the upper end of the derived air valve 230, the valve handle 231 By the operation of the air valve 230 to be operated.

And it is configured by connecting the oil opening and closing rod 240 to the lower end of the air valve 230, the oil opening and closing rod 240 is elevated as the air valve 230 is opened and closed, the air outlet hole 242 As the air valve 230 is opened and closed to form air, the air enters into the cylinder tube 210 from the outside through the air outlet hole 242 or exits from the cylinder tube 210 to the outside. An oil movement hole 241 is connected to a lower end thereof so that the oil contained in the lower chamber 212 of the cylinder body 210 moves downward or moves downwards as the air valve 230 is opened and closed. The movement to the lower chamber 212 is controlled.

The oil movement control function of the oil opening and closing rod 240 will be described in more detail below.

In addition, the piston 250 partitioning the inside of the cylinder body 210 into the upper chamber 211 and the lower chamber 212 flows up and down by the guide of the oil opening / closing rod 240 inside the cylinder body 210. It is configured, and flows up and down with a pressure difference generated by the air flowing in and out through the air valve 230 to apply a pressure to move the oil contained in the cylinder body 210.

And the lower end of the cylinder body 210 by combining the lower closing cap 260, and finishes.

At this time, the lower closing cap 260 is configured to be connected to the lower end of the oil opening and closing rod 240 and the oil moving hole 241 forming the oil moving hole 241, the oil opening and closing rod 240 is elevated Along the oil moving hole 241 is configured an oil stagnant space portion 261 for temporarily receiving the oil.

Therefore, the oil movement control of the oil opening and closing rod 240, when the oil opening and closing rod 240 is lowered, the oil movement hole 241 configured on the upper side is located in the lower chamber 212 containing the oil, the lower oil movement hole ( 241 is located in the oil stagnant space portion 261, the oil movement hole 241 is in communication with the oil movement.

In this case, the oil opening / closing rod 240 is lowered to indicate that external air is filled into the upper chamber 211 by the air valve 230, and thus the upper chamber 211 receives the lower chamber 212 containing oil. Since the pressure is relatively high, the oil moves downward through the oil stagnant space portion 261, and the piston 250 built in the cylinder body 210 moves downward by the pressure of the upper chamber 211. The oil is pressurized while the oil moves smoothly.

When the oil opening and closing rod 240 is raised, the lower oil moving hole 241 formed at the lower end of the oil opening and closing rod 240 is positioned at the connection portion of the lower closing cap 260, and the lower closing cap ( The connection part 262 of the 260 is sealed so that oil movement is not performed.

In addition, the lower portion of the lower cap 260 is configured to guide the guide pipe 270 to guide the oil to move downward, and the extension guide pipe 271, the guide tube 270 is the lower dead cap 260 It is configured to be fixed to the lower closing cap 260 so as to pass through the lower portion of the oil stabilization space portion 261 and pass through.

The guide tube 270 and the extension guide tube 271 are configured to be positioned inside the extension support leg 300, so that the oil is extended when the oil accommodated in the cylinder body 210 moves downward. It guides to the second kidney support tube (330) of the bottom of the 300.

At this time, the elongation guide pipe 271 is configured to slide along the outer surface of the guide pipe 270 to flow to extend the flow path, the second end of the elongated support leg 300 when the oil moves up, down When the extension support tube 330 flows downward, it is elongated correspondingly to guide the oil to the second extension support tube 330.

In addition, as shown in FIG. 4, a pressure spring 280 is formed in the upper chamber 211 of the cylinder body 210 as another configuration of the pressure generating support body 200, and the air valve 230 is operated. In addition, the external air is filled and accommodated in the upper chamber 211 and the pressure spring 280 may be configured to pressurize the piston 250.

By this configuration, the extension support leg 300 can be quickly expanded at one time by opening the air valve 230 at the first time.

The elongated support leg 300 is configured to be coupled to the lower end of the pressure generating support body 200 to extend in multiple stages as the oil spills sequentially receive the elongated support leg 300. A support tube 310, a first extension support tube 320 sliding along an inner surface of the support tube 310, and a second extension extension by sliding along an inner surface of the first extension support tube 320. It consists of kidney support tube (330).

The support tube 310 is integrally formed by a closing holder 311 in a state in which the guide tube 270 and the elongation guide tube 271 are housed in the lower end of the pressure generating support tube 200 as a hollow tube. Configure the combination.

And the first extension support tube 320 is configured to flow up and down by sliding along the inner surface of the support tube 310 in a hollow tube, the guide tube 270 and the extension guide tube 271 therein And it is coupled to the node holder 410 so as not to be separated from the support tube 310 is separated.

At this time, the lowermost end of the support tube 310 and the upper end of the first extension support tube 320 maintains an airtight inside, the guide of the guide tube 270 and the elongation guide tube 271 to prevent the flow of mol The floating cock 420 is configured to be coupled.

And the second extension support pipe 330 is configured to flow up and down by sliding along the inner surface of the first extension support pipe 320 in a hollow tube, the upper end of the second extension support pipe 330 The extension guide tube 271 is configured to communicate with the lower end, and the lower end is coupled to the sealing cock 331 so that oil does not leak to the outside, and the support cap 332 made of a rubber material is coupled to the outside.

The second kidney support tube 330 is also coupled to the node holder 410 so as not to be separated from the first kidney support tube 320.

Looking at the embodiment of the present invention based on the configuration of the present invention described above are as follows.

First, the lower chamber 212 and the oil stagnant space portion 261 of the cylinder body 210 divided into the upper chamber 211 and the lower chamber 212 by the piston 250 internally installed therein, the guide tube ( 270), while filling the oil so that air does not remain in the second extension support pipe 330, the air is injected into the upper chamber 211 to the upper and lower chambers 211 and 212. Allow internal pressure to build up.

It operates the air valve 230 of the pressure generating support body 200, the additional air is introduced into the upper chamber 211, by the operation of the air valve 230

 The oil opening and closing rod 240 is also linked together, the oil opening and closing rod 240 is lowered, the flow path is opened by the oil movement hole 241 formed at the lower end of the oil opening and closing rod 240, the lower chamber 212 The oil accommodated in) moves along the oil stagnant space portion 261 and the guide tube 270 into the second extension support tube 330.

At this time, the oil pressure is increased due to physical characteristics that are not compressed, and the first and second extension support tubes 320 and 330 of the elongated support leg 300 are gradually expanded by the expansion of the oil pressure. The length adjustment of the support can be done automatically simply.

In more detail, when the user wants to mount the camera at a predetermined position for the first time, the user extends the extension support leg 300 of the camera support, and the valve handle 231 configured on the pressure generating support body 200. As the user manipulates (pressurizes) the valve handle 231 using a finger, the air valve 230 is operated, and thus the oil opening / closing rod 240 is lowered.

At this time, the oil retention space of the lower chamber 212 and the lower closing cap 260, the oil is accommodated by opening the flow path by the oil movement hole 241 is communicated with the upper, lower side formed in the lower end of the oil opening and closing rod 240 Part 261 is in communication with each other, the movement flow of oil is caused by the communication between the lower chamber 212 and the oil stagnant space portion 261.

In addition, the upper chamber 211 formed by lowering the pressure in the lower chamber 212 of the pressure generating support tube 200 as oil flows into the second extension support tube 330, and being injected with air. The internal pressure of the lower chamber 212 is not lowered by the action of pushing down the piston 250 toward the lower chamber 212 by the internal pressure of the oil, thereby maintaining the flow of oil.

And the internal pressure of the second extension support pipe 330 is gradually increased due to the flow of oil and eventually the first extension support pipe 320 in the support pipe 310 of the pressure generating support body 200, The second kidney support tube 300 extends and extends.

At this time, the extension guide tube 271 is also elongated when the second extension support tube 212 extends to maintain a flow path.

The stretching action of the elongate support leg 300 described above releases the pressurized state of the valve handle 231, so that the oil opening / closing rod 240 returns to the upper side, or the upper chamber 211 and the lower part. The chamber 212 continues until the internal pressures of each other become equal.

On the other hand, when the pressurized state of the valve handle 231 is released, the air valve 230 can be automatically raised by the gas movement characteristic to achieve the external discharge by the internal pressure generation of the upper chamber 211. .

On the other hand, to adjust the elongated support leg 300 to be shortened again, the valve handle 231 is also manipulated to lower the oil opening and closing rod 240 by the oil moving hole 241. In the state where the flow path between the lower chamber 212 and the oil stagnant space portion 261 of the lower closing cap 260 is opened, the user lowers the second extension support pipe 330 of the elongated support leg 300. Presses strongly on the ground so that the internal pressure of the lower chamber 212 is greater than the internal pressure of the upper chamber 211, so that the air contained in the upper chamber 211 is returned to the outside through the air valve 230. Simultaneously with the discharge, the piston 250 moves upward, so that the oil contained in the second extension support pipe 330 and the extension guide pipe 271 has a movement flow to the lower chamber 212.

As a result, the oil contained in the second extension support pipe 330 passes through the oil retention space 261 of the lower closing cap 260 after passing through the elongation guide pipe 271 and the guide pipe 270. After entering the lower chamber 212, the first and second extension support tubes 320 and 330 are accommodated into the support tube 310 to achieve a length adjustment in which the length of the extension support leg 300 is shortened. It is.

This working relationship is continued until the operation of the valve handle 231 is terminated to block the flow of oil or until the internal pressures of the upper chamber 211 and the lower chamber 212 become equal.

As described above, the present invention has been described in detail by using a preferred embodiment, but the scope of the present invention is not limited to the specific embodiment, it should be interpreted by the appended claims. In addition, those of ordinary skill in the art that various modifications can be made without departing from the scope and spirit of the present invention.

♠ Explanation of Main Drawing Code ♠
100: mounting portion 110: removable portion 120: joint control lever
130: joint sphere 131: coupling portion 200: pressure generating support body
210: cylinder body 211: upper chamber 212: lower chamber
220: upper closing cap 230: air valve 231: valve handle
240: oil opening and closing rod 241: oil movement hole 250: piston
260: lower closing cap 261: oil stagnation space 270: guide tube
271: extension guide pipe 280: pressure spring 300: kidney support leg
310: support tube 311: closing holder 320: first height support tube
330: second extension support tube 331: hermetic coke 332: base cap
410: node holder 420: floating cock

Claims (5)

In constructing a camera support in which the support legs for supporting the camera are extended in multiple stages,
A detachable part 110 configured to attach and detach a camera, and a mounting part 100 constituting an articulation intermittent lever 120 for intermittent rotation of the detachable part 110 by the joint ball 130;
A pressure generating support tube 200 configured to be coupled to a lower end of the mounting part 100 to move the oil received by the internal pressure difference generated by injecting air in a state in which oil is received therein;
A hollow first extension support tube 320 configured to slide along the inner surface of the hollow support tube 310 in order to sequentially receive the moved oil coupled to the lower end of the pressure generating support tube 200; And a second extension support pipe (300) configured to extend in multiple stages so that the second extension support pipe (330) configured to slide and flow along the inner surface of the first extension support pipe (320) is configured to include a camera support.
The method according to claim 1,
At this time, the pressure generating support body 200
The cylinder 250 is divided into upper and lower chambers 211 and 212 by a piston 250 to accommodate a predetermined oil in the lower chamber 212 and air flowing in and out of the upper chamber 211. Wow;
An upper closing cap 220 closing the upper end of the cylinder body 210;
An air valve 230 coupled to the center of the upper closing cap 220 to open and close the cylinder pipe 210 to allow the air to flow in and out of the upper chamber 211;
It is connected to the lower end of the air valve 230, the air valve 230 is lifted as the opening and closing is received in the lower chamber 212 inside the cylinder body 210 through the oil movement hole 241 formed in the lower end An oil opening / closing rod 240 for opening or controlling oil to move downward;
It is configured to flow up and down by the guide of the oil opening and closing rod 240 inside the cylinder body 210, flows up and down by the pressure generated by the air flowing in and out through the air valve 230, the cylinder A piston 250 for applying pressure to move the oil contained in the pipe body 210;
A lower closing cap 260 for closing the lower end of the cylinder body 210;
It is connected to the lower closing cap 260 and fixed to pass through, and configured to be located inside the elongated support leg 300, the guide pipe 270 for guiding the oil contained in the cylinder body 210 to move to the bottom and ;
When the oil moves up and down, the guide flows by sliding along the outer surface of the guide tube 270 to extend or shorten the length, or to configure to interlock, extending or shortening the flow path in accordance with the up and down movement of oil (271); camera support comprising a.
The method according to claim 2,
The lower closing cap 260 is
It is configured to communicate with the lower end of the oil opening and closing rod 240 forming the oil moving hole 241, to temporarily accommodate the oil moving through the oil moving hole 241 as the oil opening and closing rod 240 is elevated. A camera support, characterized in that the oil remaining space portion 261 is configured.
The method according to claim 2,
In addition, the camera support, characterized in that configured to further comprise a pressure spring (280) to press the piston 250 in the upper chamber (211) inside the cylinder body 210 of the pressure generating support body (200).
The method according to claim 2,
Camera support, characterized in that configured to be in communication with the lower end of the second extension support pipe 330, the extension guide pipe (271).

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