KR20100110973A - Bollard - Google Patents

Abstract

PURPOSE: A bollard is provided to improve shock absorbing properties by absorbing bending deformation of an upper post pipe and to be simply assembled. CONSTITUTION: A bollard(1) comprises an upper post pipe(3), a lower post pipe(5), a spring unit(7), and a lighting unit(20). The lower post pipe is buried in the ground. The upper post pipe is connected to the top of the lower post pipe and is exposed to outside. Multiple luminous windows are formed in the upper post pipe at uniform intervals. The spring unit connects the upper and lower post pipes and absorbs bending deformation of the upper post pipe. The lighting unit is installed in the top end of the upper post pipe and supplies light to outside using sunlight.

Description

Bollard {BOLLARD}

The present invention relates to a bollard, and more particularly, is installed on the boundary of the sidewalk and the roadway of frequent pedestrian traffic to prevent entry of the sidewalk of the vehicle, the lighting unit is mounted on the upper end of the upper support pipe through the self-illumination It is about a bollard which raises visibility at night.

In general, the bollard (Bollard) is installed at the entrance of the sidewalk, park, playground, etc. partitioned for pedestrians to prevent the entry of vehicles, to ensure the passage and safety of pedestrians, generally cylindrical or rectangular It is installed in a columnar shape.

These bollards are usually manufactured by processing a stone or concrete, such as marble or granite having excellent strength so as not to be easily damaged by external force.

However, when the bollard is buried in the ground and is easily damaged by a large impact force, such as a collision of a vehicle, or when visibility is low at night, and a pedestrian hits the bollard without checking whether it is installed, the pedestrian may be injured. There was a problem such as wearing.

In order to improve the problems of the conventional bollards, a bollard that has been elastically operated so as to be deformed while being restored to its original position while absorbing external impact force has been introduced using a spring.

However, a conventional bollard using such a spring has a disadvantage in that it is not aesthetically pleasing due to corrosion of the spring connection part mainly due to the type in which the spring is exposed to the outside.

In addition, although the conventional bollard is attached to the surface luminous paint or fluorescent reflector to improve the visibility, the above-described conventional technique also has a disadvantage that the discrimination is deteriorated in the place where the light is insufficient.

Therefore, the present invention has been invented to solve the disadvantages of the prior art as described above, the problem to be solved by the present invention has an upper support pipe exposed to the outside and a lower support pipe embedded in the ground, the upper and lower A separate hermetic spring unit is formed between the support pipes to absorb the bending deformation of the upper support pipes against the lower support pipes by external shocks, thereby improving the shock absorbency and simplifying the assembly. To provide a bollard to ensure that

Another problem to be solved by the present invention is to configure the lighting unit inside the upper end of the upper holding tube to supply power to the light emitting device according to the signal of the illumination sensor using the power of the storage battery charged using sunlight during the day itself By emitting light, it is possible to provide a bollard to prevent safety accidents by increasing the visibility of the bollard at night.

Bollard according to the present invention for realizing the above technical problem is a cylindrical lower support pipe embedded in the ground; An upper support tube which is exposed to the outside from an upper portion of the lower support tube, is formed in a cylindrical shape, and a plurality of light emitting windows are formed at regular intervals along an upper circumference thereof, and an upper window is formed on an upper surface thereof; A spring unit connecting the upper support pipe and the lower support pipe to absorb bending deformation of the upper support pipe with respect to the lower support pipe using a spring restoring force; And an illumination unit mounted inside the upper end of the upper support pipe and controlling the supply of power charged using solar light to the light emitting device according to the signal of the illumination sensor to emit light to the outside through the light emitting window.

Here, each of the light emitting windows may be formed in an oblique direction.

The spring unit is formed in a cylindrical shape extending downward, the upper joining flange is formed outward along the lower circumference, the upper portion of the upper cover is fitted to the lower end of the upper holding pipe welded; A lower cover having a lower joining flange formed outwardly along an upper circumference and welded to the upper end of the lower support pipe; A deformable cover joined to the upper and lower joint flanges with upper and lower ends respectively connecting the upper cover and the lower cover; The upper cover and the lower cover which are interconnected by the deformation cover is interposed inside the upper cover is fixed to the upper cover, characterized in that consisting of a restoring spring is fitted to the lower cover is fixed.

The deformable cover may be formed in a circular ring shape made of a silicon material.

The lighting unit includes a battery case in which a battery storage chamber is formed in the center on the circular plate, and a circular element mounting plate is formed outside of the battery storage chamber to be fastened through a plurality of bolts on the upper inside of the upper support pipe; A plurality of storage batteries installed in the storage compartment to supply power; A circular control plate installed on the lighting case and receiving power from the storage battery; A plurality of light emitting elements connected to each of the opening windows and installed along the circumference of the control plate and mounted on the device mounting plate; A photovoltaic panel installed at an upper center of the control panel corresponding to the opening window to generate power using solar light to charge the storage battery; An illuminance sensor mounted on one side of an upper surface of the control panel to sense an external brightness and output a signal thereof; It is formed to surround the control panel and the light emitting device, the solar panel and the illumination sensor is characterized in that consisting of a transparent cover installed inside the upper support pipe with the lighting case.

The device mounting plate is characterized in that a plurality of device slots are formed at regular intervals along the periphery so that the respective light emitting devices are inserted and mounted.

Here, each of the light emitting devices may be an LED.

The transparent cover may be made of a colorless transparent acrylic material.

As described above, according to the bollard according to the present invention, by connecting the upper strut tube exposed to the outside and the lower strut tube embedded in the ground separately configured by connecting the spring unit of the closed type to the lower strut tube by the external impact By absorbing the bending deformation of the upper support pipe to improve its shock absorbency, and easy to assemble by simply inserting and welding, there is an advantage that the appearance can be beautiful.

In addition, inside the upper end of the upper support pipe, the lighting unit is configured to self-luminous by supplying power to the light emitting device according to the signal of the illumination sensor using the power of a battery charged with sunlight during the day, especially at night. It is effective to prevent safety accidents by increasing visibility.

Hereinafter, the preferred application configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are a perspective view and an exploded perspective view of a bollard according to an embodiment of the present invention, Figure 3 is a cross-sectional view of the bollard according to an embodiment of the present invention.

As shown in FIG. 1, the bollard 1 according to the present embodiment is basically provided with an upper support pipe 3 and a lower support pipe 5.

The lower support pipe 5 is formed in a cylindrical shape and embedded in the ground.

The upper support pipe 3 is also formed in a cylindrical shape and is connected through the spring unit 7 at the upper portion of the lower support pipe 5 to be exposed to the outside.

As shown in FIG. 2, the upper support tube 3 is formed with a plurality of light emitting windows 9 at regular intervals along its upper circumference, and an open window 11 is opened on the upper surface thereof.

Here, each of the light emitting windows 9 may be formed in an oblique direction as shown in FIG. 2, and may be formed in a circular shape.

And the spring unit 7 is connected to the upper support pipe 3 and the lower support pipe 5, and at the same time using the spring restoring force of the upper support pipe 3 to the lower support pipe (5) It is configured to absorb bending deformation.

That is, the spring unit 7 is composed of an upper cover 13, a lower cover 15, a deformation cover 17 and a restoring spring 19, as shown in Figs.

The upper cover 13 is formed in a cylindrical shape extending downward, the upper joining flange (F1) is formed to the outside along the lower periphery, the upper portion is configured to be fitted to the lower end of the upper support pipe (3).

The lower cover 15 is formed with a lower joining flange (F2) to the outside along the upper periphery, is configured to fit on the upper end of the lower support pipe (5).

The deformable cover 17 has a circular ring shape made of a silicon material, and upper and lower ends thereof are respectively joined to the upper joining flange F1 and the lower joining flange F2, so that the upper cover 13 and the lower cover ( 15) is sealed.

In addition, the restoring spring 19 is composed of a coil spring is interposed in the upper cover 13 and the lower cover 15 which are interconnected to the deformation cover 17 is attached to the upper cover 13 The upper end is fitted and fixed, and the lower end is fitted and fixed to the lower cover 15.

Thus, the spring unit 7 is configured to fit the upper cover 13 to the lower end of the upper support pipe (3), the lower cover 15 to the upper end of the lower support pipe (5), mutual By welding, the upper support pipe 3 and the lower support pipe 5 are firmly connected.

On the other hand, the lighting unit 20 is mounted inside the upper end of the upper support pipe (3) to the light emitting element 25 to the power charged in the storage battery (23) using the sunlight in accordance with the signal of the illumination sensor 21 The supply control is configured to emit light to the outside through the light emitting window 9.

As shown in FIGS. 2 and 4, the lighting unit 20 is provided with a lighting case 27. The lighting case 27 includes a storage compartment 31 in the center on the circular plate 29. And a circular element mounting plate 33 is formed on the outside of the battery storage chamber 31 to be fastened through four bolts 35 inside the upper support pipe 3.

Here, the element mounting plate 33 is formed by forming a plurality of element slots 37 at regular intervals along its circumference.

In addition, four storage batteries 23 are installed in the storage battery compartment 31, and are configured to charge and supply power.

The controller plate 39 is installed on the upper part of the lighting case 27 as a controller (herein, the controller is defined as a general name of a controller board having a control circuit), and the control board 39 includes a storage battery 23. It is formed in the shape of a circular plate which is electrically connected to receive power from.

In addition, in the state where the plurality of light emitting elements 41 are connected to the control plate 39 along the periphery thereof, corresponding to each light emitting window 9 of the upper support tube 3, the element mounting plate 33 Each element slot 37 is inserted into and mounted.

Here, each of the light emitting elements 41 is preferably composed of LED (LED).

In addition, a solar panel 43 is installed at the upper center of the control panel 39 to correspond to the opening window 11 on the upper support plate 3 to generate power using sunlight to charge the storage battery 23. It is configured to.

In addition, the illumination sensor 21 is mounted on one side of the upper surface of the control panel 39, the illumination sensor 21 is configured to detect the external brightness and output the signal.

These components, that is, the control panel 39, the light emitting element 41, the solar panel 43 and the illuminance sensor 21 are wrapped by a transparent cover 45 together with the lighting case 27 It is installed inside the upper support pipe (3).

Here, the transparent cover 45 is preferably made of a colorless transparent acrylic material.

As shown in FIG. 5, the control panel 39 of the lighting unit 20 receives electrical signals from the solar panel 43 and the illuminance sensor 21 to charge the storage battery 23 or supply power. The control circuit is configured to receive and supply power to the LED, which is the light emitting element 25.

Therefore, in the bollard 1 having the above-described configuration, as shown in FIG. 6, the lower support pipe 5 is embedded in the ground G so that the upper support pipe 3 is exposed to the outside, and pedestrians pass. In the state of being installed at the entrance of the sidewalk, park, playground, etc. partitioned so as to prevent the entry of the vehicle, it is possible to secure the passage and safety of pedestrians.

In addition, the bollard 1 according to the present embodiment is a closed spring unit 7 is applied between the upper support pipe 3 and the lower support pipe 5, as shown in Figure 7, the external impact force (F) ) Acts, the restoring spring 19 therein bends to induce bending deformation of the upper support tube 3 to absorb the external impact force (F), and then return to its original state.

As such, the bollard 1 according to the present embodiment is configured so that the restoring spring 19 is not exposed to the outside, thereby minimizing corrosion and making the appearance of the bollard 1 beautiful.

On the other hand, the bollard 1 according to the present embodiment, as shown in Figure 6, the upper surface of the upper support pipe (3), the illuminance using the power of the storage battery 23 charged with sunlight during the day At night according to the signal of the sensor 21, the power supply is supplied to the LED, which is the light emitting element 25, the self-illuminated lighting unit 20 is configured, thereby making the function of increasing the visibility of the bollard 1, especially at night do.

Here, the lighting method of the light emitting device 25 may be implemented according to the use purpose or the need, such as lighting the plurality of light emitting devices 25 sequentially or lighting at once.

In the above, the present invention has been described with reference to the presently considered embodiments, but the present invention should not be construed as being limited to the above embodiments, and in the technical field to which the present invention pertains from the above-described embodiments of the present invention. It should be construed as including all modifications that are easily changed by those skilled in the art and considered equivalent.

1 is a perspective view of a bollard according to an embodiment of the present invention.

2 is an exploded perspective view of a bollard according to an embodiment of the present invention.

3 is a cross-sectional view of a bollard in accordance with an embodiment of the present invention.

4 is an enlarged cross-sectional view of a portion A of FIG. 3.

5 is a control block diagram of a lighting unit applied to a bollard according to an embodiment of the present invention.

6 is an operational state diagram of the lighting unit applied to the bollard according to an embodiment of the present invention.

7 is an operational state diagram when an external impact force acts on the bollard according to the embodiment of the present invention.

Claims (8)

For bollards, A cylindrical lower support tube embedded in the ground; An upper support tube which is exposed to the outside from an upper portion of the lower support tube, is formed in a cylindrical shape, and a plurality of light emitting windows are formed at regular intervals along an upper circumference thereof, and an upper window is formed on an upper surface thereof; A spring unit connecting the upper support pipe and the lower support pipe to absorb bending deformation of the upper support pipe with respect to the lower support pipe using a spring restoring force; And an illumination unit mounted inside the upper end of the upper support pipe to control the supply of power charged using solar light to the light emitting device according to the signal of the illumination sensor to emit light to the outside through the light emitting window. Bollard. In claim 1, Each light emitting window Bollard, characterized in that formed in an oblique direction. In claim 1, The spring unit An upper cover formed in a cylindrical shape extending downward, and having an upper joining flange formed outwardly along a lower circumference thereof, the upper part of which is inserted into a lower end of the upper support pipe and welded to it; A lower cover having a lower joining flange formed outwardly along an upper circumference and welded to the upper end of the lower support pipe; A deformable cover joined to the upper and lower joint flanges with upper and lower ends respectively connecting the upper cover and the lower cover; The bollard, characterized in that consisting of a restoring spring interposed in the upper cover and the lower cover interconnected by the deformable cover is fitted with the upper end is fixed to the upper cover, the lower end is fitted to the lower cover. 4. The method of claim 3, The deformation cover is Bollard characterized in that the material is formed in a circular ring shape made of a silicon material. In claim 1, The lighting unit A lighting case formed at the center of the circular plate, the lighting case being fastened through a plurality of bolts inside the upper support pipe by forming a circular element mounting plate outside the storage compartment; A plurality of storage batteries installed in the storage compartment to supply power; A circular control plate installed on the lighting case and receiving power from the storage battery; A plurality of light emitting elements connected to each of the opening windows and installed along the circumference of the control plate and mounted on the device mounting plate; A photovoltaic panel installed at an upper center of the control panel corresponding to the opening window to generate power using solar light to charge the storage battery; An illuminance sensor mounted on one side of an upper surface of the control panel to sense an external brightness and output a signal thereof; And a transparent cover formed to surround the control panel, the light emitting device, the solar panel, and an illuminance sensor and installed inside the upper support tube together with the lighting case. In claim 5, In the device mounting plate Bollard, characterized in that a plurality of device slots are formed at regular intervals along the circumference so that the respective light emitting devices are inserted and mounted. The method of claim 1 or 5, Each light emitting device Bollard characterized by being an LED (LED). In claim 5, The transparent cover Bollard, characterized in that the material is made of a colorless transparent acrylic material.

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