KR102321568B1 - Safe barrier bar - Google Patents

Abstract

According to one embodiment of the present invention, provided are a vehicle barrier, and a blocking bar, which minimizes an impact, when an object directly collides with the blocking bar, and is structurally improved to prevent a safety accident. According to the present invention, the blocking bar has an elastic unit, and the blocking bar is elastically moved when the object collides with the blocking bar to reduce the impact applied to the blocking bar and the object.

Description

SAFE BARRIER BAR

The following embodiments relate to a circuit breaker, and in more detail, a breaker equipped with a BARRIER BAR is disclosed.

A vehicle breaker is installed at the entrance of the parking lot as a means for controlling the passage of vehicles, and only vehicles allowed through the breaker can enter and exit the parking lot.

In most of these vehicle breakers, the blocking bar goes up by the open signal, and the blocking bar comes down by the loop point signal after the vehicle passes.

At this time, if the next vehicle enters abruptly while the blocking bar is coming down, the vehicle may be damaged by the falling blocking bar. In addition, a pedestrian passing by may hit the blocking bar without realizing that it is coming down and injure his/her head or shoulder.

Recently, as many large shopping malls or residential complexes are built, many vehicle breakers are installed indoors, and safety accidents are also occurring a lot due to this.

In particular, if a vehicle breaker is installed in a location where people frequently enter and exit, there are many cases where a passing pedestrian or cart user does not recognize that there is a vehicle breaker. , the probability of hitting the head or shoulder with the falling blocking bar increased.

Due to the rise in labor costs, an unmanned parking lot management system is being introduced, and with the introduction of the unmanned parking lot, the opportunity to receive guidance or attention for vehicle guidance when entering and exiting the parking lot may gradually decrease. According to this unmanned operation, safety accidents caused by blocking bars may also increase.

When the blocking bar collides with a vehicle or the like, most of the blocking bar is bent or broken by the impact, and damage to the vehicle also occurs. If the blocking bar collides with a pedestrian, hospital treatment may be required due to the impact. In addition, if the blocking bar is damaged or the blocking bar is dislodged from the breaker, after-sales personnel must be dispatched to the site for repair, and a second the cost occurs.

Accordingly, there is a need for a structurally improved vehicle breaker and blocking bar that minimizes the impact when a vehicle, pedestrian, or cart user directly collides with the blocking bar and prevents a safety accident from occurring.

One embodiment may provide a structurally improved vehicle breaker and blocking bar that minimizes the impact when an object directly collides with the blocking bar and prevents a safety accident from occurring.

In one side, the body; and a blocking part attached to the body, wherein the blocking part moves within a specific range to selectively block the entrance when the body is installed on one side of the entrance of the vehicle, and the blocking part includes an elastic part, the blocking part When an impact or force is applied to the portion, at least a portion of the blocking portion is moved in the direction of the impact or force by the elastic portion.

The elastic part may restore the blocking part to a state before the impact or the force is applied.

The blocking part may include a blocking bar connection part to which the blocking bar is attached, a spring, and a body connection part connected to the body.

The spring may be between the blocking bar connection part and the body connection part.

The blocking part may further include a cover covering the spring.

A protrusion or a depression may be formed on a surface of the blocking bar connection part in contact with the spring.

A protrusion or a depression may be formed on a surface of the body connection part in contact with the spring.

The blocking part may further include an arm holder part.

The arm holder part may be coupled to the blocking bar connection part and the body connection part.

At least a portion of the arm holder may penetrate the inside of the spring.

As the arm holder part penetrating the inside of the spring couples the blocking bar connection part and the body connection part, the blocking bar connection part and the body connection part may apply pressure to the spring.

The arm holder part may include a first coupling part and a second coupling part.

The first coupling part may be coupled to the blocking bar connection part.

The second coupling part may be coupled to the body connection part.

The second coupling part may pass through a hole formed at the first end of the first coupling part.

The first end may be a rod and bearing.

The first coupling part may pass through a hole formed in the body connection part and the inside of the spring.

The hole formed in the body connection part may be larger than a cross section passing through the hole formed in the body connection part of the first coupling part.

The hole formed in the body connection part may have a shape that prevents the first coupling part from moving in a specific direction.

The shape may be a semicircle.

The hole may be a hole in the perforated plate coupled to the body connection part.

A structure may be attached to the body connection part to prevent the first coupling part from touching a portion of the hole formed in the body connection part.

The blocking unit may include a blocking bar.

A horizontal groove into which the light emitting part is inserted may be formed in the front surface of the blocking bar.

The light emitting part may be inserted along the groove.

The blocking unit may include a blocking bar.

The blocking portion includes a blocking bar,

The blocking bar may have a shell of a specified material.

The light emitted from the light emitting part attached to the blocking bar may pass through the shell.

Provided are a structurally improved vehicle circuit breaker and a blocking bar that minimizes the impact when an object directly collides with the blocking bar and prevents a safety accident from occurring.

1 shows a form of a circuit breaker according to an embodiment.
2 shows a blocking bar according to an embodiment.
3 shows a refracted blocking bar according to an embodiment.
4 shows a blocking unit using a tension spring according to an example.
5 shows tension springs according to an example.
6 can represent parts of a blocking part according to an embodiment.
7 may show a form in which parts of the blocking unit are combined according to an embodiment.
8 shows a configuration of an arm holder unit according to an embodiment.
9 illustrates an arm holder coupled to a mold spring and the like according to an exemplary embodiment.
10 shows a cross-section of a body connection part according to an embodiment.
11 shows directions in which the first coupling part passing through the hole of the body connection part can move according to an embodiment.
Figure 12 shows the restriction of movement by the semi-circular perforated plate according to an example.
13 illustrates movement in the rear direction of the blocking bar according to an example.
14 illustrates movement in a forward direction of a blocking bar according to an example.
15 illustrates a movement of a blocking unit according to an example.
16 is a cross-sectional view of a body connection part in which a metal anti-friction structure is mounted on a lower portion of a perforated plate according to an example.
17 shows a structure for preventing metal friction of a lower portion of a perforated plate according to an example.
18 shows a cross-section of a blocking bar according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. It should be understood that embodiments are different but need not be mutually exclusive.

Terms used in the embodiments may be interpreted based on the actual meaning of the terms and the contents of the present specification, rather than the simple names of terms.

In embodiments, the connection relationship between the specific part and the other part may include an indirect connection relationship between the specific part and the other part via another part in addition to the direct connection relationship between the two parts. The same reference numerals in each figure may refer to the same member.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0023] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be embodied in other embodiments without departing from the spirit and scope of the invention. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the invention, if properly described, is limited only by the appended claims, along with all scope equivalents to those claimed.

Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects. Shapes and sizes of elements in the drawings may be exaggerated for clearer description.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to enable those of ordinary skill in the art to easily practice the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0010] Reference is made to the accompanying drawings, which illustrate specific embodiments by way of example. These embodiments are described in sufficient detail to enable those skilled in the art to practice the embodiments. It should be understood that various embodiments are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be embodied in other embodiments without departing from the spirit and scope of the invention. In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the embodiment. Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of exemplary embodiments, if properly described, is limited only by the appended claims, along with all scope equivalents to those claimed.

Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects. Shapes and sizes of elements in the drawings may be exaggerated for clearer description.

Terms used in the examples are for describing the examples and are not intended to limit the present invention. In embodiments, the singular also includes the plural unless the phrase specifically dictates otherwise. As used herein, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements mentioned. Or addition is not excluded, and it means that an additional configuration may be included in the scope of the technical spirit of the exemplary embodiments or the implementation of the exemplary embodiments. When a component is referred to as being “connected” or “connected” to another component, the two components may be directly connected or connected to each other, but in the above 2 It should be understood that other components may exist in the middle of the components.

Terms such as first and second may be used to describe various components, but the above components should not be limited by the above terms. The above terms are used to refer to one component as distinct from another component. For example, without departing from the scope of rights, a first component may be named as a second component, and similarly, a second component may also be named as a first component.

In addition, components shown in the embodiments are shown independently to represent different characteristic functions, and it does not mean that each component is made of separate hardware or only one software component unit. That is, each component is listed as each component for convenience of description. For example, at least two of the components may be combined into one component. Also, one component may be divided into a plurality of components. Integrated embodiments and separate embodiments of each of these components are also included in the scope of rights without departing from the essence.

In addition, some of the components are not essential components to perform essential functions, but may be optional components only to improve performance. Embodiments may be implemented including only components essential for implementing the essence of the embodiments, and for example, structures in which optional components are excluded, such as components used only for performance improvement, are also included in the scope of rights.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings in order to enable those of ordinary skill in the art to easily implement the embodiments. In describing the embodiments, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present specification, the detailed description thereof will be omitted.

1 shows a form of a circuit breaker according to an embodiment.

The circuit breaker 100 may include a body 110 and a blocking unit 120 .

The body 110 may be installed on one side of the entrance of the vehicle.

The blocking part 120 may be attached to the body 110 . The body 110 may have a rotation shaft, and the blocking part 120 may be connected to the rotation shaft of the body 110 . The blocking unit 120 may rotate within a specific range as the rotating shaft rotates.

The blocking unit 120 may include a blocking bar. Alternatively, the blocking unit 120 may mean a blocking bar.

The rotating shaft may be connected to a motor in the body, and may rotate according to the driving of the motor.

The blocking unit 120 may move within a specific range to selectively block the entrance when the body 110 is installed on one side of the entrance of the vehicle.

For example, through rotation of the rotation shaft, the blocking unit 120 or the blocking bar of the blocking unit 120 may come down to block the entrance. In this case, the blocking unit 120 or the blocking bar of the blocking unit 120 may be horizontal to the ground. In addition, through the rotation of the rotation shaft, the blocking bar 120 or the blocking bar of the blocking unit 120 may rise so that a vehicle or the like can pass through the entrance. At this time, the blocking bar or the blocking bar of the blocking unit 120 may be perpendicular to the ground.

In other words, the specific range may be between a position at which the blocking unit 120 can prevent a vehicle or the like from passing through the entrance and a position at which the blocking unit 120 allows a vehicle or the like to pass through the entrance.

2 shows a blocking bar according to an embodiment.

The blocking bar 200 of the blocking unit 120 may have a straight bar shape as shown in FIG. 2 during operation by being mounted on the circuit breaker 100 or normally.

3 shows a refracted blocking bar according to an embodiment.

The blocking bar 200 of the blocking unit 120 may be bent. In the refracted state, a light emitting unit, which will be described later, may be mounted on the blocking bar 200 .

Blocking part with elasticity

The blocking part 120 may include an elastic part. When an impact or force is applied to the blocking unit 120 , at least a portion of the blocking unit 120 may move in the direction of the impact or the force by the elastic unit. The direction of the impact or force may mean a direction in which the impact or force is applied.

That is, when an impact or force is applied to the blocking part 120 , the elastic part may be bent in a direction in which the impact or the force is applied. Here, at least a portion of the blocking unit 120 may mean the blocking bar 200 and may include the blocking bar 200 .

One end of both ends of the blocking unit 120 may be connected to a rotation shaft. At least a part of the blocking part 120 moving in the direction to which the impact or force is applied may include the other end not connected to the rotation shaft, and may be between the other end and the elastic part. In other words, with the elastic part as the center, the part connected to the body 110 of the blocking part 120 may be fixed, and the part not connected to the body 110 may be moved in the direction of impact or force.

As at least a portion of the blocking unit 120 moves in the direction of impact or force, the impact received by an object (eg, a vehicle passing through the doorway or a person passing around the circuit breaker) that collided with the blocking unit 120 is reduced and damage applied to the blocking unit 120 may be reduced.

When the impact or force applied to the blocking unit 120 disappears, the elastic unit may restore the blocking unit 120 to a state before the impact or force is applied.

Hereinafter, embodiments of the blocking part 120 including the elastic part will be described.

Blocking unit 120 using air

The blocking unit 120 may include a bar-shaped balloon bar filled with air (air) and a coupling unit.

The coupling unit may be a portion coupled to the rotating unit, which is located between the rotating shaft and the balloon bar. The inflatable bar may have a specific length (eg 3 meters) to suit the function of the block.

The elastic portion may be an inflatable bar or a part of the inflatable bar. The balloon may be a blocking bar 120 and an elastic part, and the blocking bar 120 itself may be an elastic part.

In one embodiment, air may be injected into the balloon bar through low-frequency processing when the blocking unit 120 is manufactured.

In one embodiment, air may be continuously injected into the balloon bar through an air compressor mounted on the body 110 or the like.

Blocking part 120 composed of tension spring and rod

4 shows a blocking unit using a tension spring according to an example.

5 shows tension springs according to an example.

The blocking unit 120 may include two rods and a tension spring. Alternatively, the blocking bar 200 may include two rods and a tension spring.

The elastic part may be a tension spring.

A tension spring may connect two rods. For example, the tension spring and rod may be connected via welding.

The rod may have a specific diameter. For example, the diameter of the rod may be 12 mm.

When an impact is applied to the rod, the impact applied to the rod may be alleviated through the elasticity of the tension spring, and the blocking unit 120 may not be broken.

The material of the rod may be aluminum, duralumin or stainless steel. The material of the rod may be selected in consideration of durability, self-bending, diameter, weight, and load applied to the tension spring.

Blocking part 120 using mold spring and arm holder

6 can represent parts of a blocking part according to an embodiment.

7 may show a form in which parts of the blocking unit are combined according to an embodiment.

The blocking part 120 may include a blocking bar 200 , a blocking bar connection part 610 , a mold spring 620 , an arm holder part 630 , and a body connection part 640 shown with reference to FIG. 2 .

The blocking bar connection part 610 may be a portion to which the blocking bar 200 is attached. The blocking bar connection part 610 may be a part in contact with the elastic part (ie, the mold spring 620 ) among the blocking parts 120 .

The mold spring 620 may be the aforementioned elastic part or a part of the elastic part. A mold spring may be used so that the blocking part 120 utilizes the elasticity of the spring.

The mold spring 620 may be between the blocking bar connection part 610 and the body connection part 640 .

The body connection part 640 may be a part connected to the body 110 or a rotation axis of the body 110 . The body connection part 640 may be a part in contact with the elastic part (ie, the mold spring 620 ) among the blocking parts 120 .

The arm holder part 630 may be coupled to the blocking bar connection part 610 and the body connection part 640 . The blocking bar connection part 610 and the body connection part 640 may be coupled through the arm holder part 630 .

At least a portion of the arm holder part 630 may penetrate the inside of the mold spring 620 . That is, as the arm holder part 630 passing through the inside of the mold spring 620 combines the blocking bar connection part 610 and the body connection part 640 , the blocking bar connection part 610 and the body connection part 640 are formed by the mold spring. It may be in close contact with the 620 , and a specific pressure may be applied to the mold spring 620 .

The blocking unit 120 may further include a cover 650 . The cover 650 may cover the mold spring 620 so that the mold spring 620 is not exposed. Alternatively, the cover 650 may surround the mold spring 620 and be between the blocking bar connection part 610 and the body connection part 640 . The mold spring 620 may be inserted into the cover 650 .

Since the circuit breaker 100 may be exposed to pedestrians, etc., a safety accident such as a finger being caught between the mold spring 620 may occur. A dedicated cover 650 may be used in order to remove the cause of a safety accident caused by the mold spring 620 .

The cover 650 may have a material having durability while being able to change its shape, such as when folded or bent. For example, the material of the cover 650 may be cloth, plastic, silicone, vinyl, nylon, rubber, or the like.

Even if the mold spring 620 is pressed or bent through the cover 650 , the mold spring 620 can be safely used.

8 shows a configuration of an arm holder unit according to an embodiment.

9 illustrates an arm holder coupled to a mold spring and the like according to an exemplary embodiment.

The arm holder part 630 includes a first coupling part 810 for the blocking bar connection part 610 , a second coupling part 820 for the body connection part 640 , an upper adjustment nut 830 , and a lower adjustment nut 840 . ), the blocking bar connection part coupling nut 850 and the body connection part coupling nut 860 may be included.

The first coupling part 810 may be coupled to the blocking bar connection part 610 . The second coupling part 820 may be coupled to the body connection part 640 .

At least a portion of the first coupling portion 810 may be a (headless) bolt having a thread. At least a portion of the first coupling portion 810 may be a (headless) bolt having a thread.

A first end of both ends of the first coupling part 810 may be a rod end bearing 870 , and a second end of both ends of the first coupling part 810 may be a bolt. have.

The second coupling part 820 may be a (headless) bolt.

The second coupling part 820 may pass through the body connection part 640 through holes formed in the body connection part 640 . Here, the holes may be respectively formed on the two opposite surfaces of the body connecting portion 640 . The second coupling part 820 passing through the body connection part 640 through the holes formed in the body connection part 640 may be perpendicular to the direction of the blocking bar 200 .

The first coupling part 810 may be parallel to the direction of the blocking bar 200 .

The first coupling part 810 and the second coupling part 820 may be configured at right angles.

The second coupling part 820 may pass through a hole formed at the first end of the first coupling part 810 . Here, the hole may be a hole of the rod and bearing 870 . The second coupling part 820 may pass through the rod end bearing 870 of the first coupling part 810 .

As the second coupling part 820 penetrates the hole of the rod end bearing 870 of the first coupling part 810, the first coupling part 810 and the second coupling part 820 have a right angle shape or "T". "It can have the shape of a ruler.

As the second coupling part 820 penetrates the hole of the rod end bearing 870 of the first coupling part 810 , the first coupling part 810 may move in a forward direction and a rearward direction. Accordingly, the blocking bar connection part 610 and the blocking bar 200 coupled to the first coupling part 810 may be bent in the front direction and the rear direction compared to the body connection part 640 .

Here, the front direction may be a direction facing the vehicle approaching the blocking unit 120 of the circuit breaker 100 when the body 110 is installed on one side of the entrance of the vehicle. The backward direction may be opposite to the forward direction.

For example, when the vehicle approaches and collides with the blocking unit 120 , the blocking bar 200 and the first coupling unit 810 may move in a rearward direction.

When the first coupling part 810 and the second coupling part 820 are disposed in the form of a right angle, the top adjustment nut 830 at the position of the upper end of the first coupling part 810 is the second coupling part 820 . may be coupled to, and the lower adjustment nut 840 may be coupled to the second coupling part 820 at a position of the lower end of the first coupling part 810 . In other words, the first end of the first coupling portion 810 may be located between the upper adjustment nut 830 and the lower adjustment nut 840 .

The upper adjustment nut 830 and the lower adjustment nut 840 may move respectively along the thread of the second coupling part 820 . Through this movement, the width between the upper adjustment nut 830 and the lower adjustment nut 840 may be adjusted. A width between the upper adjustment nut 830 and the lower adjustment nut 840 may be greater than a thickness of the first coupling portion 810 . In other words, there may be a first gap between the first coupling portion 810 and the upper adjustment nut 830 , and there may be a second gap between the first coupling portion 810 and the lower adjustment nut 840 . have.

Through the first gap and the second gap, the first coupling part 810 may move in an upward direction and a downward direction. Accordingly, the blocking bar connection part 610 and the blocking bar 200 coupled to the first coupling part 810 may be bent in an upward direction and a downward direction compared to the body connection part 640 .

Here, the downward direction may be a direction toward the ground when the body 110 is installed on one side of the entrance of the vehicle. The upward direction may be opposite to the downward direction.

For example, if the blocking bar 200 collides with a vehicle or a person passing around the circuit breaker 100 while descending, the blocking bar 200 and the first coupling part 810 may move in an upward direction. .

As described above, at least a portion of the blocking portion 120 such as the blocking bar 200 through the first coupling portion 810 and the second coupling portion 820 (when an impact or force is applied to the portion) It can move forward, backward, up and down. In addition, through the elasticity of the mold spring 620 (when the impact or force disappears), at least a portion of the blocking portion 120 such as the blocking bar 200 may return to its original shape.

In a state where the second coupling part 820 penetrates the body connection part 640 , the body connection part coupling nuts 860 may be coupled to the second coupling part 820 . The body connection part coupling nut 860 may be plural. The body connection part coupling nuts 860 may be coupled at both ends of the second coupling part 820 , respectively. As the coupled body connection part coupling nuts 860 are tightened in the direction of the body connection part 640 , the arm holder part 630 and the second coupling part 820 may be fixed with respect to the body connection part 640 .

The bolt of the second end of the first coupling part 810 may pass through the hole formed in the body connection part 640 , the inside of the mold spring 620 and the hole formed in the blocking bar connection part 610 .

The hole of the body connection part 640 may be formed on a surface in contact with the mold spring 620 of the body connection part 640 . The hole of the blocking bar connection part 610 may be formed on the surface of the blocking bar connection part 610 in contact with the mold spring 620 . That is, one surface of the body connection part 640 and one surface of the blocking bar connection part 610 may contact both ends of the mold spring 620 .

In a state where the bolt of the second end of the first coupling part 810 penetrates the hole formed in the blocking bar connection part 610 , the blocking bar connection part coupling nut 850 may be coupled to the first coupling part 810 . .

As shown in FIG. 9 , the second coupling part 820 may be coupled to the body connection part 640 . Also, one surface of the mold spring 620 may contact one surface of the body connection part 640 . One surface of the blocking bar connection part 610 may contact the other surface of the mold spring 620 . In addition, one surface of the blocking bar connection part 610 may move in the direction of the body connection part 640 as the blocking bar connection part coupling nut 850 is tightened to the first coupling part 810 .

As the blocking bar connection part coupling nut 850 is tightened to the first coupling part 810 , one surface of the blocking bar connection part 610 moves in the direction of the body connection part 640 , and one surface of the body connection part 640 . And one side of the blocking bar connection part 610 may press the mold spring 620 from both sides. As the mold spring 620 is pressed, an appropriate tension may be generated between the blocking bar connection part 610 and the body connection part 640 by the mold spring 620 .

Through this tension, the blocking part 120 such as the blocking bar 200 (made of a relatively light material) can be prevented from being drooped down by the load of the blocking bar 200, and an external shock or It is possible to prevent the blocking part 120 from being bent in a powerless situation.

As tension is generated in the mold spring 620 , the mold spring 620 may be separated from the blocking bar connection part 610 and/or the body connection part 640 in up-and-down directions.

In order to prevent such separation, a protrusion or a depression may be formed on one surface of the blocking bar connection part 610 . Here, one surface may be a surface in contact with the mold spring 620 .

In addition, a protrusion or a depression may be formed on one surface of the body connection part 640 . Here, one surface may be a surface in contact with the mold spring 620 .

The protrusion or depression of the blocking bar connection part 610 may fix one end of the mold spring 620 in the vertical and forward and backward directions.

For example, the protrusion of the blocking bar connection part 610 may have a circular or cylindrical shape protruding outward, and the diameter of the protrusion of the blocking bar connection part 610 may be the same as the inner diameter of the mold spring 620 . Alternatively, the diameter of the protrusion of the blocking bar connection part 610 may be smaller than the inner diameter of the mold spring 620 . Accordingly, the protrusion of the blocking bar connection part 610 may be inserted into one end of the mold spring 620 . Alternatively, the protrusion of the blocking bar connection part 610 may be fitted inside one end of the mold spring 620 .

For example, the recessed portion of the blocking bar connecting portion 610 may have a circular or cylindrical shape recessed inward, and the diameter of the recessed portion of the blocking bar connecting portion 610 may be the same as the outer diameter of the mold spring 620 . Alternatively, the diameter of the recessed portion of the blocking bar connecting portion 610 may be larger than the outer diameter of the mold spring 620 . Accordingly, one end of the mold spring 620 may be inserted into the recessed portion of the blocking bar connecting portion 610 . Alternatively, one end of the mold spring 620 may be fitted inside the depression of the blocking bar connection part 610 .

The protrusion or depression of the body connection part 640 may fix one end of the mold spring 620 in the vertical and backward directions.

For example, the protrusion of the body connecting part 640 may have a circular or cylindrical shape protruding outward, and the diameter of the protrusion of the body connecting part 640 may be the same as the inner diameter of the mold spring 620 . Alternatively, the diameter of the protrusion of the body connection part 640 may be smaller than the inner diameter of the mold spring 620 . Accordingly, the protrusion of the body connection part 640 may be inserted into one end of the mold spring 620 . Alternatively, the protrusion of the body connection part 640 may be fitted inside one end of the mold spring 620 .

For example, the recessed portion of the body connecting portion 640 may have a circular or cylindrical shape recessed inward, and the diameter of the recessed portion of the body connecting portion 640 may be the same as the outer diameter of the mold spring 620 . Alternatively, the diameter of the recessed portion of the body connecting portion 640 may be larger than the outer diameter of the mold spring 620 . Accordingly, one end of the mold spring 620 may be inserted into the depression of the silver body connection part 640 . Alternatively, one end of the mold spring 620 may be fitted inside the depression of the body connection part 640 .

Through the protrusions and/or depressions of the blocking bar connection part 610 and the body connection part 640 , even if the mold spring 620 and the blocking part 120 are bent to some extent, the mold spring 620 is not connected to the blocking bar connection part 610 . ) and the body connection portion 640 may be engaged without departing.

10 shows a cross-section of a body connection part according to an embodiment.

11 shows directions in which the first coupling part passing through the hole of the body connection part can move according to an embodiment.

As described above, the bolt of the second end of the first coupling portion 810 may pass through the hole formed in the body connection portion 640 , the inside of the mold spring 620 and the hole formed in the blocking bar connection portion 610 . . In order for the first coupling part 810 to move in the forward direction, the back direction, the upward direction, and the downward direction, the hole formed in the body connection part 640 forms the hole of the first coupling part 810 . It may be larger than the cross-section through.

For example, when the cross-section of the first coupling part 810 is circular, the diameter of the circular hole formed in the body connection part 640 may be larger than the diameter of the circular cross-section of the first coupling part 810 .

On the principle of operation of the blocking bar 200 , it may be preferable that the blocking bar 200 moves only in the forward direction, the rear direction, and the upward direction, and does not move in the downward direction. For example, on the principle of operation of the blocking bar 200 , it can be seen that there is almost no case in which an impact or force is applied on the blocking bar 200 . In addition, it may be rather inappropriate for the purpose of the circuit breaker 100 and the blocking bar 200 for the blocking bar 200 to move in the downward direction or to sag in the downward direction due to causes such as gravity.

Such undesirable movement of the blocking bar 200 may be restricted through a hole formed in the body connection portion 640 . The hole formed in the body connection part 640 may have a shape restricting movement of the first coupling part 810 , the blocking bar connection part 610 , and the blocking bar 200 .

The hole formed in the body connection part 640 may have a shape allowing the first coupling part 810, the blocking bar connection part 610, and the blocking bar 200 to move in a specific first direction. In addition, the hole formed in the body connection part 640 may have a shape that prevents the first coupling part 810 , the blocking bar connection part 610 , and the blocking bar 200 from moving in a specific second direction.

For example, the first direction may include a forward direction, a backward direction, and an upward direction. In addition, the first direction may include a direction between the front direction and the upper direction, and may include a direction between the upper direction and the rear direction.

For example, the second direction may include a downward direction.

For example, the shape of the hole formed in the body connection part 640 may be a semicircle.

For example, the hole formed in the body connecting portion 640 may have a horizontal cross-section in the lower portion and the remaining portion may be circular or oval.

For example, the hole formed in the body connection part 640 has a cross-section of a horizontal line that prevents the first coupling part 810 from moving downward, and the first coupling part 810 has a front direction, a rear direction, and an upward direction. It may have a circular or elliptical cross-section that allows it to move in the direction of

Figure 12 shows the restriction of movement by the semi-circular perforated plate according to an example.

In FIG. 12 , a yellow arrow may indicate a direction in which the first coupling part 810 , the blocking bar connection part 610 , and the blocking bar 200 can move. A red arrow may indicate a direction in which the first coupling part 810, the blocking bar connection part 610, and the blocking bar 200 cannot move.

A perforated plate having a hole formed therein may be coupled to the body connection part 640 . Alternatively, the body connection part 640 may include a perforated plate.

For example, the perforated plate may be a plate made of a rigid material, such as a metal plate, with holes formed therein.

The hole of the body connection part 640 through which the above-described first coupling part 810 passes may be a hole of the perforated plate coupled to the body connection part 640 . The description of the hole formed in the body connection portion 640 described above may be applied to the hole formed in the perforated plate.

The perforated plate may be coupled to the body connecting portion 640 as a protruding surface of the protruding portion of the aforementioned body connecting portion 640 or a recessed surface of the concave portion of the aforementioned body connecting portion 640 .

According to the shape of the hole of the semi-circular perforated plate, as shown in FIG. 12 , the movement of the first coupling part 810 , the blocking bar connection part 610 and the blocking bar 200 may be restricted.

13 illustrates movement in the rear direction of the blocking bar according to an example.

14 illustrates movement in a forward direction of a blocking bar according to an example.

As shown in FIGS. 13 and 14 , when the blocking bar 200 is mounted on the circuit breaker 100 , the separation in the front direction and the rear direction with respect to the blocking bar 200 may be provided.

As shown in FIGS. 13 and 14 , even if a person pulls the blocking bar 200 in the rear direction by applying a force or pushes the blocking bar 200 in the forward direction, the blocking bar 200 is tucked or may not be broken.

In addition, when a person does not apply force (ie, when the impact disappears), the blocking bar 200 may return to its original position and be automatically restored to its original state.

15 illustrates a movement of a blocking unit according to an example.

As indicated by the dotted line in FIG. 15 , when an impact or force is applied to the first coupling part 810 through the blocking bar 200 through the blocking bar 200 , the first end of the first coupling part 810 is It can move in the direction of an impact or force, and a part of the impact or force can be absorbed through the movement.

16 is a cross-sectional view of a body connection part in which a metal anti-friction structure is mounted on a lower portion of a perforated plate according to an example.

17 shows a structure for preventing metal friction of a lower portion of a perforated plate according to an example.

In general, the first coupling part 810 , the rod end bearing 870 , the body connection part 640 , and the perforated plate may be made of a metal having high hardness or the like.

Metal friction with the body connection part 640 or the perforated plate may occur due to the movement of the blocking bar 200 , the first coupling part 810 , or the rod and bearing 870 , and due to the peeling of the paint due to friction, Rust may occur.

As shown in the dotted line of FIG. 17 , there may be a structure next to a hole or a perforated plate through which the first coupling part 810 of the body connection part 640 passes. The structure may be attached to the body connection part 640 or the perforated plate.

The structure may prevent the first coupling part 820 from touching the hole or part of the hole when the first coupling part 820 moves.

The structure may prevent the first coupling part 820 from touching a hole or part of the hole as the first coupling part 810 sags down.

For example, the top face of the structure may be higher than the cross section below the hole.

The structure is made of a material that is strong and durable enough to continuously support the first coupling part 810 and does not damage the first coupling part 820 even when in contact or friction with the first coupling part 810 . can get

For example, the material of the structure may be polycarbonate (PC).

The structure may be designed to be easily replaced when worn, and may be attached or fixed to the body connection portion 640 or the perforated plate in a replaceable manner.

18 shows a cross-section of a blocking bar according to an embodiment.

The blocking bar 200 may be made of a strong and lightweight material. For example, the blocking bar 200 may be manufactured by aluminum injection.

A light emitting unit may be mounted on the front and rear surfaces of the blocking bar 200 . The light emitting unit may include a red LED and a green LED that emit red and green light.

A horizontal groove into which the light emitting part is inserted may be formed on the front surface of the blocking bar 200 . The light emitting part on the front side may be inserted along the groove on the front side. Here, the front side may be a side facing the front direction.

A horizontal groove into which the light emitting part is inserted may be formed on the rear surface of the blocking bar 200 . The light emitting part of the front surface may be inserted along the groove of the front surface. Here, the rear surface may be a surface facing the rear direction.

When the blocking bar 200 applies an impact to a vehicle or pedestrian, etc., the blocking bar 200 may have an outer shell of a specified material in order to alleviate the impact and prevent damage or injury. For example, the material of the outer shell may be polyethylene (PE) foam.

The light emitted from the light emitting unit attached to the blocking bar 200 may pass through the outer shell of the PE foam, and the driver and pedestrian of the vehicle can easily identify the transmitted light and the blocking bar 200 with the naked eye.

The blocking bar 200 of the circuit breaker 100 described above uses the elasticity of the spring and is designed based on the principle of operation of the spring, so it may not be broken or bent even when a collision with a vehicle or a pedestrian occurs. In addition, even if the blocking bar 200 collides with a vehicle or a pedestrian, an impact applied to the vehicle or pedestrian may be remarkably reduced, and pain may not occur even when the pedestrian is directly hit.

Therefore, the circuit breaker 100 of the embodiment is designed to give priority to the safety of vehicles and pedestrians, and is suitable for an unmanned parking control system.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art.

100: breaker
110: body
120: blocking unit

Claims (18)

body; and
Blocking part attached to the body
including,
The blocking unit moves within a specific range to selectively block the doorway when the body is installed on one side of the doorway of the vehicle,
The blocking part includes an elastic part,
When an impact or force is applied to the blocking part, at least a part of the blocking part by the elastic part moves in the direction of the impact or the force,
The blocking part includes a blocking bar connection part to which the blocking bar is attached, a spring, and a body connection part connected to the body,
The spring is between the blocking bar connection part and the body connection part,
The blocking part further includes an arm holder part,
One end of the arm holder part is coupled to the blocking bar connection part, and the other end of the arm holder part is coupled to the body connection part,
At least a portion of the arm holder part passes through the inside of the spring. According to claim 1,
The circuit breaker, wherein the elastic portion restores the blocking portion to a state before the impact or the force is applied. delete According to claim 1,
The blocker further comprises a cover covering the spring. delete delete delete According to claim 1,
As the arm holder part penetrating the inside of the spring couples the blocking bar connection part and the body connection part, the blocking bar connection part and the body connection part apply pressure to the spring. According to claim 1,
The arm holder part includes a first coupling part and a second coupling part,
The first coupling part is coupled to the blocking bar connection part,
The second coupling portion is coupled to the body connection portion,
The second coupling portion passes through a first hole formed at the first end of the first coupling portion. 10. The method of claim 9,
wherein the first end is a rod and bearing. 10. The method of claim 9,
The first coupling portion passes through the second hole formed in the body connection portion and the inside of the spring, the circuit breaker. 12. The method of claim 11,
and the second hole is larger than a cross-section of the first coupling portion passing through the second hole. 12. The method of claim 11,
and the second hole has the shape of a semicircle. delete delete delete According to claim 1,
The blocking portion includes a blocking bar,
A horizontal groove into which the light emitting part is inserted is formed on the front surface of the blocking bar,
and the light emitting part is inserted along the groove. According to claim 1,
The blocking portion includes a blocking bar,
The blocking bar has a shell of a specified material,
The light emitted from the light emitting unit attached to the blocking bar is transmitted through the shell, the blocker.

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