KR101883160B1

KR101883160B1 - Automatic apparatus for raising national flag

Info

Publication number: KR101883160B1
Application number: KR1020160014837A
Authority: KR
Inventors: 구종철
Original assignee: 구종철
Priority date: 2016-02-05
Filing date: 2016-02-05
Publication date: 2018-07-31
Also published as: KR20170093444A

Abstract

The present invention relates to an automatic flag lifting apparatus and includes an operating housing 111 of a housing part 110 and a screw bolt 121 which is formed perpendicularly to the operating housing 111 and screwed up and down the bracket 123, A lifting and lowering portion 120 for lifting up and down the lifting and lowering bracket 123 by engaging and fixing the bevel gear 122 to the lifting and lowering bracket 123 and a lifting and lowering portion 120 installed on the housing housing 112 of the housing portion 110, The lower end of which is connected to the ascending and descending bracket 123 so as to be able to engage with the bevel gear 133 and the lower end of which is coupled to the bevel gear 131 to correspond to the bevel gear 122 of the computational bolt 121, (130) and a flagpole (130) which surrounds the outer periphery of the flagpole (130) to form a storage space (142) therein and a guide slot (143) (140), a telescopic rod (150) coupled to an upper end of the flagpole (130) Since the control unit 160 is constituted by connecting the motor 161 to the computer bolt 121 of the steel part 120 to rotate or rotate the computer bolt 121 and the bevel gear 122, And can safely store and safely store the machine at the same time.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an automatic flag raising apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic flag lifting apparatus, and more particularly, to an automatic flag lifting apparatus which can automatically control a flags such as a flag or the like automatically and can control various flags simultaneously.

In general, the flag is used as a symbol representing various meanings, and it symbolizes a group or a country, and is carried to various events such as the Olympic Games and national holidays.

On such days as national holidays, when the flag is hoisted, the flag is installed on a full-length or street lamp before that day, and the flag is set up dangerously on the freight vehicle through manual operation by the person. There was a problem.

To solve these problems, Korean Patent Laid-Open Publication No. 2001-87786, Korea Registered Utility Model No. 167765, and Korean Patent Laid-Open No. 10-2004-196883 have been proposed.

However, this conventional technology has a problem that it is not easy to lift or store the flag efficiently, and at the same time, it is difficult to hoist several flags at the same time.

Therefore, the main object of the present invention is to provide an automatic flag hoisting device that not only can hoist flags such as flags automatically, but also can securely hoist flags at the same time by a remote control, There is.

In order to accomplish the above object, the automatic flag lifting device of the present invention is characterized in that a computer bolt is formed perpendicularly to an operating housing of a housing part, and a lifting / lowering bracket is screwed and a bevel gear is fixed to an upper part of a bolt, A lifting and lowering portion formed so as to move up and down with no rotation, and a lifting and lowering portion provided on a housing housing of the housing portion so as to be able to engage flags, A flagpole corresponding to the bevel gear, and a flagpole guide coupled to surround the outer periphery of the flagpole so as to form a storage space therein and to form a guide slot in the longitudinal direction to allow the flag to pass therethrough, As a basic feature in its technical construction.

Accordingly, when the flagpole of the hoisting device coupled to the street lamp is raised, the flagpole is guided by the bending guide, and the flagpole slopes outward. When the top dead point reaches, the automatic flagpost hoisting device of the present invention is located at the front of the hoop of the computer bolt, And the bevel gear of the take-off bolt and the bevel gear of the flag pin are engaged with each other to rotate the flagpole. Thus, the flag is lifted out of the guide slot of the flagpole guide, and the flag is automatically hoisted It is also possible to store and store safely as well as to automatically lift a number of flags at the same time by remote control.

1 is a cross-sectional view showing an automatic flag lifting apparatus according to the present invention before lifting a flag;
2 is a cross-sectional view showing an automatic flag hoisting device according to the present invention before hoisting the flag;
3 is a partial cross-sectional view showing a state before the early hoisting of the automatic flag hoisting device according to the present invention.
4 is a partial cross-sectional view showing an elevated hoist of an automatic flag hoisting device according to the present invention.
FIG. 5 is a cross-sectional view showing the entire hoisting state of an automatic flag hoisting device according to the present invention. FIG.
FIG. 6 is a cross-sectional view showing a picked-up state of a combined flag of an automatic flag hoisting device according to the present invention; FIG.

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

1 to 6, an automatic flag lifting apparatus 100 according to the present invention includes an operating housing 111 formed vertically and a receiving housing 112 connected to an operating housing 111, 112 formed on the upper portion of the housing portion 110 and the operation housing 111 of the housing portion 110 and the bolts 121 are formed perpendicular to the operation housing 111 of the housing portion 110 to screw the lifting / lowering bracket 123 A lifting and lowering portion 120 which is coupled to the upper portion of the computer bolt 121 and fixed to the upper portion of the computer bolt 121 by a bevel gear 122 to raise and lower the lifting and lowering bracket 123, The flap 133 may be coupled to the housing housing 112 so that the flap 133 is coupled to the lifting and lowering bracket 123 at the lower end thereof and the bevel gear 131 is coupled to the lower end of the lifting and lowering bracket 123, (130) corresponding to the gear (122), and an outer peripheral edge of the flagpole (130) A flag guide 140 for forming a storage space 142 inside the guide member 140 and forming a guide slot 143 in the longitudinal direction to allow the flag 133 to pass therethrough; And a control unit 160 that rotates or rotates the computer bolts 121 and the bevel gears 122 by coupling a motor 161 to the computer bolts 121 of the ascending and descending unit 120.

The housing part 110 is vertically formed by connecting the operating housing 111 and the housing housing 112 so as to vertically guide the elongated guide slot 113 between the operating housing 112 and the housing housing 112, And a common engaging member for engaging with the post of the street lamp on the back surface of the operation housing 111. [

Further, it is preferable that an entrance hole 114 is formed at an upper portion of the housing housing 112 so as to be inclined and an opening / closing hole 115 is elastically provided in the entrance hole 114 to maintain a closed state in a free state.

The bending guide tube 113 is inclined at an upper portion of the housing housing 112 and the rotation preventing block 116 is formed at an inner circumferential surface of the bending guide tube 113

The ascending and descending portion 120 is formed by vertically forming a computation bolt 121 on the operation housing 111 of the housing portion 110 and screwing the ascending and descending bracket 123 to the computation bolt 121, And a guide slot 127 is formed in the guide tube 126 in the longitudinal direction.

Since the connecting piece 124 is protruded from the upward and downward bracket 123 and penetrates through the guide slot 127 of the guide pipe 126, the rotational force applied to the lifting and lowering bracket 123 by the rotation of the bolt 121 So that the rotary motion is converted into linear motion and the up-down and down-movement bracket 123 is moved up and down.

In addition, it is preferable that the bevel gear 122 is provided on the upper part of the computer bolt 121 in a downward direction with a resilient force, and a spring is used to provide downward elasticity.

Further, the transfer bolt 121 is configured such that the ascending / descending bracket 123 formed by threading the co-rotating part 125 on the lower side of the bevel gear 122 makes the bevel gear 122 idle at the top dead center, And the solenoid 128 is coupled to prevent the ascending / descending bracket 123 from descending arbitrarily at the top dead center.

The flagpole 130 is installed in the housing housing 112 of the housing part 110 and connected to the lifting and lowering bracket 123 at the lower end so that the flagpole 130 can move up and down. It is preferable that the flags 133 attached to the bevel gears 122 of the computer bolts 121 by being engaged with the bevel gears 122 by rotating or reversing the flags 130 can be wound or unfolded.

Here, the flagpole 130 is formed in a tubular shape, and has a fastening bar 135 which penetrates the fastener barrel 135 in the longitudinal direction by forming a screw part 132 on the outer circumference of the upper part. And a connecting piece 136 is formed at the lower end of the lifting and lowering bracket 123 so as to be coupled to the connecting piece 124 of the lifting and lowering bracket 123 so that the lifting and lowering bracket 123 can be bent while lifting and lowering.

In addition, it is preferable that the support 133 is coupled to the other end of the flag 133 having one end attached to the flag 130 so that the flag 133 can be smoothly expanded or rolled.

The flagpole guide 140 is coupled to surround the outer periphery of the flagpole 130 to form a storage space 142 therein and a guide slot 143 is formed in the lengthwise direction to pass the flag 133 A stopper 141 having a square or hexagonal shape is formed on the outer circumference at the upper end to correspond to the rotation preventing block 116 of the storage housing 112 and a spline 144 is formed at the outer circumference at the upper portion.

The stretchable rod 150 has a downwardly directed spline tube 155 and is fitted into the spline 144 of the flagpole guide 140 with a through hole 154 formed at the center thereof to form a threaded portion 132 of the flagpole 130, And a solenoid 152 for coupling the threaded portion 153 to the lower end of the through hole 154 so as to be engaged with the threaded portion 132 of the flagpole 133 and for controlling the threaded portion 153 So that the threaded portion 153 can be separated from and connected to the threaded portion 132.

The control unit 160 couples the motor 161 having the speed reducer to the computed bolts 121 to rotate or reverse the bolts 121.

When the hoisting apparatuses 100 are connected to each other to form a composite structure, a shaft 166 extending vertically and parallel to each bolt 121 is formed and a control pinion 163 is attached to the upper portion of the shaft 166 And a solenoid 162 is coupled to the adjustment pinion 163 of the left and right shafts 166 to selectively engage the gear 161. The solenoid 162 is coupled to the center shaft 166,

Here, the adjustment pinion 163 is preferably resiliently mounted by a spring 164 so that the adjustment pinion 163 can smoothly operate up and down.

The operation of the present invention will be described as follows.

When the flag 133 is lifted, the flag 130 coupled to the lifting / lowering bracket 123 is lifted by rotating the bolt 121 to lift the lifting and lowering bracket 123. As a result, 150 are guided by the bending guide hole 113 and push the lid 115 which is resiliently installed to come out slantly to the outside.

At this time, when the ascending / descending bracket 123 reaches the top dead center, the solenoid 128 is positioned at the pivoting end 125 of the computation bolt 121 and the solenoid 128 supports the lower portion of the lifting / lowering bracket 123, The gear 132 and the bevel gear 131 of the flag 130 are engaged with each other to rotate the flag 130 so that the flag 133 is lifted out of the guide slot 143 of the flag guide 140.

On the other hand, when descending the flags 133, proceed in the reverse order as described above. When the flag 133 is completely wound, sensing the load hanging on the bevel gear or counting the number of revolutions counts off the supporting state of the solenoid 128, The lifting and lowering bracket 123 in the idle state is engaged with the bolts 121 to be lowered and thereby the flagpole 130 is housed in the housing housing 112.

Furthermore, the hoisting device of the present invention can automatically lift or lower the flags 133 selectively and can safely store and store the flags 133 in combination. It can be raised or lowered.

100: hoisting device 110: housing part
111: Operation housing 112: Storage housing
113: Bending guide member 114: Outlet hole
115: lid 116: anti-rotation block
120: ascending / descending portion 121: computational bolt
122: Bevel gear 123: Up and down bracket
124: Connection 125: All of the assembly
126: guide tube 127: guide slot
128: Solenoid
130: Flagstaff 131: Bevel gear
132: thread 133: flag
134: support member 135: fastening bar
136: connecting piece 137: fastening member
140: Flag guide 141: Stopper
142: storage space 143: guide slot
144: spline 150: stretch rod
151: cap 152: solenoid
153: screw fitting 154: through hole
155: spline tube 160:
161: motor 162: solenoid
163: regulating gear 164: spring
165: support 166: shaft

Claims

A housing part 110 which is formed by vertically forming an operating housing 111 and connecting the housing housing 112 to the operating housing 111 so as to form an outlet hole 114 at an upper end of the housing housing 112,
A bolt 121 is formed perpendicularly to the operating housing 111 of the housing part 110 so that the ascending and descending bracket 123 is screwed and the bevel gear 122 is fastened to the upper part of the bolt 121, A lifting and lowering portion 120 formed so as to move upwardly and downwardly without rotating the lifting and lowering bracket 123,
The flap 133 is coupled to the lifting and lowering bracket 123 at the lower end so as to be interlocked with the lifting and lowering bracket 123 at the lower end and the bevel gear 131 is coupled to the lower end of the lifting and lowering bracket 123 A flag 130 that corresponds to the bevel gear 122 of the computer bolt 121,
A flagpole guide 140 is provided to enclose the outer periphery of the flagpole 130 so as to form a storage space 142 therein and to form a guide slot 143 in the longitudinal direction to allow the flag 133 to pass therethrough;
A telescopic rod 150 coupled to the upper end of the flagpole 130,
And a controller 160 for rotating the computer bolt 121 and the bevel gear 122 by rotating the motor 161 to the computer bolt 121 of the ascending and descending portion 120. [ Device.

The method according to claim 1,
The housing part 110 has a bending guide pipe 113 formed at an upper portion of the housing housing 112 and an inlet hole 114 formed at an upper end of the bending guide pipe 113, 115) are provided on the inner peripheral surface of the bending guide pipe (113), and a rotation preventing block (116) is formed on the inner peripheral surface of the bending guide pipe (113).

The method according to claim 1,
The ascending and descending portion 120 is formed by connecting a guide tube 126 to the outer circumference of the computer bolt 121 and forming a guide slot 127 in the guide tube 126 in the longitudinal direction, And the bevel gear 122 is resiliently mounted on the lower bolt 121 of the bevel gear 122 so that the bolt 125 is formed on the lower bolt 121 of the bevel gear 122 and the solenoid (128) are combined with each other.

The method according to claim 1,
The flagpole 130 is formed in a tubular shape and has a fastening bar 135 which penetrates the fastener barrel 135 in the longitudinal direction by forming a screw part 132 on the outer circumference of the upper part. 137), and a connecting piece (136) is formed at the lower end thereof and is connected to the connecting piece (124) of the elevating and lowering bracket (123) .

The method according to claim 1,
Wherein the flag guide (140) is formed by forming a stopper (141) at an outer circumference at an upper end thereof and forming a spline (144) at an outer circumference thereof.

The method according to claim 1,
The extension rod 150 is formed with a spline pipe 155 downward and a through hole 154 is formed at the center and a screw coupling hole 153 is coupled to the lower end of the through hole 154, And a solenoid (152) for controlling the solenoid (152).

The method according to claim 1,
The control unit 160 forms a shaft 166 extending perpendicularly to each bolt 121 when the hoisting apparatus 100 is connected to the hoist apparatus 100. The control unit 160 includes a control pinion 163 on the shaft 166, And the control pinion 163 is controlled by coupling the motor 161 to the center shaft 166 and the solenoid 162 to the adjustment pinion 163 of the left and right shafts 166 Features automatic flag hoisting device.