KR101949686B1 - Parasol having structure for forming maximum shade - Google Patents

Abstract

The present invention relates to a parasol having a maximum shadow forming structure, which is capable of efficiently avoiding sunlight. The parasol comprises: a base part fixed to the ground or having wheels to be movable; a first support member; a second support member; a visor member having a visor part formed to be folded and unfolded; and a control unit controlling first and second driving units.

Description

PARASOL HAVING STRUCTURE FOR FORMING MAXIMUM SHADE "

The present invention relates to a parasol having a maximum shade forming structure, and more particularly, to a parasol having a maximum shade forming structure capable of avoiding sunlight so as to maximize a shade according to sunlight.

In general, parasols are folded and unfolded fleshy fabrics combined with tough, unfolded and folded like an umbrella is made to cover the sun is used to create a shade.

Such a parasol was inconvenient to change its position in order to form a shade according to the position of the sun.

As a prior art for solving these problems, Korean Patent Registration No. 10-1697287 (Publication Date: 2017.1.19) discloses a sun tracking parasol and a driving method thereof. These sun tracking parasols were able to move by themselves according to the movement of the sun, and to facilitate the user's convenience.

However, the sun tracking parasol of such a structure is configured to simply change the position of the parasol according to the movement of the sun, and in particular, the rotation of the rotation axis is controlled by a knob and a limit switch.

In addition, the sun tracking parasol according to the related art has a structure in which the shoelace is provided on the single rotation shaft, so that the shoelace can not be positioned at various angles, thereby making it impossible to form a shade having the maximum area.

In addition, the sun tracking parasol according to the related art has a problem in that the sensor for detecting sunlight is exposed to the outside, so that the sensor may be contaminated with foreign matter or damaged by physical force.

. Korean Patent No. 10-1697287 (Publication date: Jan.19, 2017)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a parasol having a maximum shade forming structure capable of effectively avoiding sunlight so as to maximize the shade according to sunlight.

It is another object of the present invention to provide means for preventing photosensor sensors for detecting sunlight from being exposed to the outside, thereby preventing contamination and damage by foreign substances.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to at least partially solve the problems in the conventional arts. It can be understood.

According to an aspect of the present invention, there is provided a driving apparatus for a motor vehicle, comprising: a base portion fixed to a ground or equipped with a wheel; a first supporting member having one end rotatably coupled to the upper end of the base portion by a first driving portion, A second support member coupled at one end to the other end of the first support member and adapted to be rotated upwardly or downwardly by the second drive unit, and a flange portion configured to be capable of being folded and unfolded, And a control unit for controlling the first and second driving units so that the position of the first and second driving units can be changed. The upper end of the first and second sensing units senses the position of the sunlight in a state in which the second sensing unit is unfolded, A sunlight sensing unit for transmitting a position detection signal of sunlight to the control unit so as to maximize a shade area, Branch, height adjusting member which is fastened in the vertical direction with respect to the coupling surface at the top of the eaves portion; Light detecting sensors formed of four to ten and arranged radially on each of the four sides of the height adjusting member; And a light shielding member coupled to an upper end of the height adjusting member so as to selectively adjust a height with respect to the surface and forming a shadow so that the light sensing sensors are not exposed to sunlight, The position of the light sensing sensor, which generates a solar light sensing signal based on the solar light sensing signal sensed by the light sensing sensor which is exposed to the sunlight after leaving the shade formed by the light shielding member, And when the photodetection sensor which generates the photodetection signal is not covered with the shade of the light shielding member and the photodetection sensor detects no sunlight, the first and second driving units are controlled to change the position of the light blocking member, 2 drive unit is stopped so that the shade member is configured to form a shade while moving according to the position of the sun It is achieved by the parasol having a maximum shade forming structure that.

The first driving unit includes: a first driven gear provided at a lower end of the first supporting member; And a first driving motor provided inside the base portion, the first driving gear being engaged with the first driven gear to forwardly or reversely rotate the first driven gear.

The second driving unit includes a fan-shaped second driven gear provided at one end of the second supporting member and axially coupled to an upper end of the first supporting member; And a second drive motor having a second drive gear engaged with the second driven gear to rotate the second support member upward or downward, the second drive motor being installed inside the first support member.

A shock absorber for supporting the second support member may be provided between the first support member and the second support member when the second support member is rotated upwardly or downwardly.

The diameter of the light shielding member may be larger than a virtual connection circle formed by the optical sensors, and may be 1 to 3 cm larger than the connection circle.

A blocking plate may be provided at an upper edge of the upper edge of the flange portion to block reflected light so that the photodetection sensors are not exposed to the reflected light reflected by the structure of the ground.

The blocking plate may be inclined outwardly so as not to interfere with the sunlight incident on the photo-sensing sensors.

The beveled portion may have an enlarged portion having an area larger than that of the opposite side with respect to the upper end.

Wherein the upper end of the flange portion is divided into an upper body and a lower body, the lower body is rotatably coupled to the upper body in an axial direction, a driven gear is formed on an upper outer peripheral surface of the lower body, A third drive motor having a third drive gear meshed with the driven gear may be provided and the position of the extension may be varied by forward rotation or reverse rotation of the lower body under the control of the controller .

When the rainwater detection signal is generated from the rainwater detection sensor, the control unit confirms whether the second drive unit is operated, and then the second drive unit is operated to turn on the second support member The second driving unit is operated to control the second driving unit so that the second supporting member is in a horizontal state so that the awning unit is configured to form a maximum rainfall-receiving area on the ground surface .

According to the present invention, the solar light sensing unit is provided at the upper end of the flange portion, the first and second support portions are provided with the first and second driving portions, and the control unit detects the position of the flange portion It is possible to provide the effect that the shade of the sunlight can be maximally formed on the ground.

Also, a rainwater sensor is provided on the roof part, and when the rain sensor is mounted on the roof, the rainwater sensor is controlled to maintain the horizontal state at the time of rainy weather, thereby providing a maximum rainwater receiver area on the ground.

In addition, since the extension portion is provided in the flange portion, the position of the extension portion can be changed according to the position of the sun, so that the shadow region can be selectively maximized and maximized.

Further, the light sensing sensor of the sun light sensing part is covered by the light shielding member, so that the light sensing sensor can be protected from external physical force, and the effect that the foreign substance is not contaminated can be provided.

1 is a schematic side view showing a parasol having a maximum shade forming structure according to a first embodiment of the present invention.
2 (a), (b), and (a) and (b) of FIG. 3 are schematic diagrams for explaining the action of a parasol having the maximum shade forming structure shown in FIG.
Fig. 4 is a schematic diagram for explaining the action of the parasol having the maximum shade forming structure shown in Fig. 1. Fig.
5 is a schematic partial enlarged cross-sectional view showing another embodiment of the flange shown in Fig.
6 is a schematic plan view showing a parasol having a maximum shade forming structure according to a second embodiment of the present invention.
7 is a schematic partial enlarged cross-sectional view showing another embodiment of the awning member shown in Fig.
8 is a schematic block diagram for explaining a control unit for controlling a parasol having the maximum shade forming structure shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

1 is a schematic side view showing a parasol having a maximum shade forming structure according to a first embodiment of the present invention, and Figs. 2 (a), 2 (b) and 3 b is a schematic structural view for explaining the action of the parasol having the maximum shade forming structure shown in Fig. 1, and Fig. 4 is a schematic diagram for explaining the action of the parasol having the maximum shade forming structure shown in Fig. to be. FIG. 8 is a schematic block diagram for explaining a control unit for controlling a parasol having the maximum shade forming structure shown in FIG. 1; and FIG. 8 is a schematic block diagram to be.

1 to 5 and 7, a parasol 10 having a maximum shade forming structure according to a first embodiment of the present invention includes a base portion A first support member 40 whose one end is rotatably coupled to the upper end of the base portion 20 so as to be rotatable in a horizontal direction by the first drive portion 30, A second support member 60 coupled to rotate up or down by the second drive unit 50 and a beveled portion 72 configured to be folded and unfolded, And a control unit 80 for controlling the first and second driving units so that the position of the nose portion 72 is varied.

The upper part 72A of the covering part 72 detects the position of the sunlight in a state where the covering part 72 is spread and detects the position of the sunlight so that the covering part 72 can maximize the area of the shade A solar light sensing unit 90 for transmitting a signal to the control unit 80 is provided.

This will be described in more detail.

The base portion 20 is fixed to the ground or is provided with a wheel so as to be movable. In this embodiment, the base portion 20 will be described with reference to a structure vertically fixed to the ground. A control unit 80 may be provided in the base 20 and a control panel may be provided in the outside. A first driving unit 30 for driving the first support member 40 to rotate forward or backward is provided in the base 20.

The first support member 40 is vertically coupled to the upper end of the base portion 20 and is vertically installed at the upper end of the base portion 20. The first support member 40 is rotatable in the horizontal direction by the first drive portion 30. [ Lt; / RTI > That is, the lower end of the first supporting member 40 is supported by a bearing or the like and is coupled to the upper end inner diameter of the base portion 20.

The first driving unit 30 rotates the first supporting member 40 horizontally or vertically. The first driving unit 30 includes a first driven gear 32 provided at a lower end of the first supporting member 40, And a first drive gear 34A for engaging with the first driven gear 32 to rotate the first driven gear 32 in the normal direction or the reverse direction to rotate the first driven gear 32. The first drive gear 34A meshes with the first driven gear 32, (34). The first driving unit 30 having such a structure is operated by the control unit 80 to rotate the first supporting member 40 horizontally.

One end of the second support member 60 is coupled to the upper end of the first support member 40 to rotate upward or downward about the upper end of the first support member 40 to adjust the angle of the flange portion 72 One end thereof is concealed in the upper end portion of the second supporting member 60 by the second driving portion 50. [

The second driving unit 50 includes a fan-shaped second driven gear 52 provided at one end of the second supporting member 60 and coupled to the upper end of the first supporting member 40 by a shaft 56, And a second drive gear 54A meshing with the second driven gear 52 to rotate the second support member 60 upward or downward. The second drive gear 54A meshes with the second driven gear 52, And a motor 54. At this time, the shaft 56 rotatably couples the second driven gear 52 to the upper end of the first support member 40, while one end of the second support member 60 is connected to the upper end of the first support member 40 As shown in Fig.

1, a shock absorber 100 is provided between the first and second support members 40 and 6. The shock absorber 100 is for supporting the second support member 60 when the second support member 60 rotates upward or downward and has one end rotatably supported on the first support member 40 And the other end is axially coupled to the second support member 60. [ Therefore, when the second supporting member 60 rotates upward or downward, the shock absorber 100 supports the second supporting member 60 at the lower portion of the second supporting member 60, 60 can be smoothly operated and the second driving unit 50 can be prevented from being damaged due to the load of the second supporting member 60 and the eaves member 70. [

The shade member 70 is for forming a shade SH on a surface covered with sunlight and is attached to the other end of the second support member 60 with an eyelid portion 72 configured to be capable of being folded and unfolded . The beveled portion 72 is formed by joining supports to a film made of a waterproof cloth or a flexible vinyl material such as an umbrella. The folding and unfolding structure is general, so a detailed description is omitted.

The upper surface 72A of the upper part 72A of the upper part 72A of the sunshade 72 senses the position of the sunlight in a state in which the upper part 72 of the upper part 72A is opened, A solar light sensing unit 90 for transmitting the position sensing signal to the control unit 80 is provided. The solar light sensing unit 90 includes a height adjusting member 92 coupled to an upper end of the flange 72 in a vertical direction with respect to the surface 72B and a height adjusting member 92, And the light sensing sensors 94 coupled to the upper ends of the height adjusting members 92 to selectively adjust the height based on the surface 72B, And a light shielding member 96 for forming a shadow (SH-1) on the surface 72B so as not to be exposed to sunlight.

At this time, the height adjusting member 92 is coupled with and engaged with the thread groove formed in the upper end 72A, and the height of the edge of the sheathing member 96 is adjusted with respect to the surface 72B as the sheath is rotated in the tightening / .

In addition, although the awning member 96 may have a disc shape, it is formed in an arc-shaped inverted dish shape to effectively block sunlight.

The shading member 96 described above is provided to prevent the light sensing sensors 94 from being exposed to sunlight by forming a shade SH-1 on the surface 72B, and the edge diameter R1 of the light shielding member 96 Is formed to be larger than a virtual connection source R2 formed by the light sensing sensors 94 and is formed to be 1 to 3 cm larger than the connection source R2. This is because the sunlight is not reflected on each of the photo-sensing sensors 94 when the sun is positioned vertically upward with respect to the center of the sunshade member 96, and when the sun is inclined, So that the light is sensed by the light sensing sensor 94 so that the light sensing sensor 94 senses the sun light.

The number of the optical surveillance sensors 94 may be four, but the number of the optical surveillance sensors 94 is not limited to four. For example, the number of the optical surveillance sensors 94 may be more precisely detected.

5, in the edge of the upper end portion 72A of the flange portion 72, reflected light is blocked so that the photo-sensing sensors 94 are not exposed to the reflected light on the structure (such as a building) A blocking plate 77 is provided. The upper edge of the blocking plate 77 is inclined outwardly so as not to interfere with the sunlight incident on the photodetection sensors 94. That is, the blocking plate 77 is formed in a ring shape and is coupled with a screw or the like in a state of being fitted to the outer peripheral surface of the upper end portion 72A of the flange portion 72 so as to allow sunlight to enter and block the reflected light.

The control unit 80 is for controlling the first and second driving units 30 and 450 so that the position of the flange portion 72 is variable and the area of the shade SH is changed. A photodetection sensor 94 that generates a photodetection signal based on a photodetection signal sensed by a photodetection sensor 94 that is exposed to sunlight after leaving the shade SH formed by the light blocking member 70 The first and second driving units 30 and 50 are controlled to change the position of the light shielding member 70 in the direction in which the light shielding member 70 is positioned, SH to stop the first and second driving units 30 and 50 when sunlight is not detected, so that the shading member 70 moves in accordance with the position of the sun to form the shade SH.

At this time, the control unit 80 drives the first driving unit 30 or the second driving unit 50 or simultaneously drives the first and second driving units 30 and 50 to change the position of the shielding member 70 It is possible.

A rainwater sensor 200 is provided on the upper surface of the flange portion 72 or the upper surface of the light shielding member 96. The rainwater sensor 200 senses rainwater so that the canopy portion 72 can serve as a rainwater receiver, such as an umbrella. The rainwater detection sensor 200 is connected to the control unit 80. When the rainwater detection signal is generated from the rainwater detection sensor 200, the control unit 80 checks whether the second drive unit 50 is operated, The second driving unit 50 is operated to turn the second supporting member 60 in a horizontal state when the driving unit 50 is operated and the second supporting member 60 rotates upward or downward, Respectively. Therefore, the awning 72 can form a maximum rainfall-receiving area on the ground.

At this time, whether the second support member 60 is operated upwards or downwards can be detected by installing a separate limit switch on the side of the second drive unit 50, and the first and second drive motors 34, 54, < / RTI >

On the other hand, when the parasol 10 having the maximum shade forming structure is installed, the base portion 20 is located on the north side and the side shields 70 are located on the south side. This is because the position of the awning member 70 is smooth and does not interfere with each other when the base 20 is located in the north.

The operation of the parasol 10 having the maximum shade forming structure according to the first embodiment of the present invention will be described.

2 (a) and 2 (b), when the sun is located vertically upward of the shielding member 96, sunlight is blocked by the shielding member 96, Are not exposed to sunlight. Therefore, the control unit 80 keeps the second support member 60 in a horizontal state. That is, when the second support member 60 is operated upward or downward by the operation of the second drive unit 50, the second drive unit 50 is controlled such that the second support member 60 is in a horizontal state.

When the second support member 60 is maintained in the horizontal state, the flange portion 72 is horizontal, so that the maximum shade SH can be formed on the ground.

3 (a) and 3 (b), when the position of the sun is inclined to one side from the vertical upward position, the light sensing sensor 94A located on the side where the sun is inclined is exposed to sunlight. Accordingly, the light sensing sensor 94A generates a solar light sensing signal and transmits it to the control unit 80. [ The control unit 80 controls the second driving unit 50 to tilt the flange 72 in the direction in which the photodetection sensor 94A that generates the sunlight sensing signal is positioned so that the second supporting member 60 is inclined with respect to the sun And rotates downward in the forward direction.

In this process, the sun shade 72 is inclined in a direction in which the sun is inclined, so that the maximum shade SH is formed on the ground. The shade SH-1 is formed on the surface 72B by the light shielding member 96 since the center of the light shielding member 96 and the sun are positioned on a straight line by this operation, It is not exposed to sunlight.

On the other hand, when the sun moves from the east to the west (substantially, when the position of the sun changes according to the rotation of the earth), each light sensing sensor 94 senses this and transmits a sensing signal to the control unit 80, Operates the first driving unit 30 to rotate the first supporting member 40. [ Accordingly, since the flange portion 72 rotates and changes its position along the sun, the shade SH formed on the ground can always form a maximum area. For example, as shown in FIG. 4, when sunlight is projected on the photodetection sensor 94D located on the east side and the photodetection sensor 94A located on the south side, the controller 80 judges that the position of the sun is variable Thereby operating the first driving unit 30. At this time, in order to more precisely and quickly grasp the position of the sun, 6 to 10 photo-detecting sensors 94 are installed, and when two or more photo-detecting sensors 94 are exposed to sunlight, the photo- It is determined that the sun moves in the direction in which the sun is located and the operation of the first driving unit 30 is controlled.

In this way, the sunlight sensing unit 90 accurately senses the sunlight position, and the control unit 80 controls the first and second driving units 30 and 50 to adjust the position and angle of the sunshade member 70 So that the maximum shade (SH) can be formed on the ground.

In particular, since the light detecting sensors 94 are covered by the light shielding member 96, the phenomenon of being damaged by an external force can be prevented.

Meanwhile, since the height of the light shielding member 96 can be adjusted by tightening or loosening the height adjusting member 92, the incident amount of sunlight or the like can be adjusted in consideration of a change in the position of the sun over the season or time. That is, if the height of the light shielding member 96 is increased, the incident amount of sunlight can be increased, and if the height is decreased, the incident amount can be reduced. Accordingly, by controlling the height of the light shielding member 96, it is possible to control the incident amount of sunlight due to the seasonal change or the change of the position of the sun with time.

6 is a schematic plan view showing a parasol having a maximum shade forming structure according to a second embodiment of the present invention.

6, in the parasol 10 having the maximum shade forming structure according to the second embodiment, the area of one side with respect to the upper end 72 is larger than the area of the other side with respect to the opposite side Except that the extended portion 72C is formed.

When the extended portion 72C is formed on the flange portion 72 as described above, the maximum shade SH can be formed on the ground by varying the position of the flange portion 72. [ In particular, when the inclination of the sun is large, such as during winter or in the afternoon, the enlarged shade (SH) can be formed by positioning the extended portion 72C in the direction in which the sun is inclined.

6 is a schematic partial enlarged cross-sectional view showing another embodiment of the shade member shown in Fig. 7, Fig. 6, and the like in the accompanying drawings.

As shown in Fig. 7, the shade member 70 according to another embodiment is constituted as follows. That is, the upper end portion 72A of the flange portion 72 is divided into an upper body 72E and a lower body 72F, and the lower body 72F is coupled to the upper body 72E in a rotatable manner And a driven gear 72G is formed on the upper outer circumferential surface of the lower body 72F and a third drive gear 72H engaged with the driven gear 72G in the upper body 72E. (72I) is provided. And the position of the extension portion 72C is changed by forward rotation or reverse rotation of the lower body 72F under the control of the control unit 80. [

That is, when the extension portion 72C is provided on the flange portion 72, the lower portion 72F is rotated so that the extension portion 72C is moved in the direction in which the sun is positioned, ) Can be formed.

As described above, by detecting the position of the light sensing sensor 94 exposed to sunlight and changing the position of the flange portion 72 based on the position of the light sensing sensor 94, a maximum shade SH can be always formed on the ground.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

10: parasol 20: base part
30: first driving part 40: first supporting member
50: second driving part 60: second supporting member
70: a washer member 72:
80: control unit 90: sunlight sensing unit
92: height adjusting member 94: light detecting sensor
96: Shielding member 100: Shock absorber
200: Rainwater sensor

Claims (10)

A base fixed to the ground or having a wheel so as to be movable; A first support member having one end connected to the upper end of the base portion so as to be rotatable in the horizontal direction by the first drive portion; A second support member having one end coupled to the other end of the first support member and adapted to be rotated upwardly or downwardly by the second drive unit; An awning member coupled to the other end of the second support member, the eclipse member including a flange configured to be foldable and unfoldable; And a control unit for controlling the first and second driving units such that the position of the beating unit is variable,
A solar light sensing unit for sensing a position of sunlight in a state in which the supporter is unfolded and transmitting a sunlight position sensing signal to the control unit so as to maximize a shade area on the ground surface of the supporter, The light-
A height adjusting member coupled to the upper end of the flange portion in a vertical direction with respect to the surface; Light detecting sensors formed of four to ten and arranged radially on each of the four sides of the height adjusting member; And a light shielding member coupled to an upper end of the height adjusting member so as to selectively adjust a height with respect to the surface and forming a shade so that the light sensing sensors are not exposed to sunlight,
The control unit may be configured to detect a sun light sensing signal based on a solar light sensing signal sensed by a light sensing sensor which is exposed to sunlight after the sun light is out of the shade formed by the light shielding member, The operation of the first and second driving units is controlled so as to change the position of the light shielding member in the direction in which the light sensing sensor is located, and when the light sensing sensor generating the solar light sensing signal is hidden in the shade of the light shielding member, The first and second driving units are stopped so that the shade member is configured to form a shade while moving according to the position of the sun,
The upper end portion of the upper end portion is divided into the upper end portion and the lower end portion and the upper end portion of the upper end portion is separated from the upper end portion of the upper end portion of the upper end portion, A third drive motor having a driven gear formed on an outer circumferential surface of an upper end of the lower body and a third drive gear meshing with the driven gear in the upper body, Wherein the position of the extension part is changed by forward rotation or reverse rotation of the lower body under the control of the control part.
Parasol with maximum shade formation. The method according to claim 1,
Wherein the first driving unit includes:
A first driven gear provided at a lower end of the first support member; And
And a first drive motor provided in the base portion, the first drive gear being engaged with the first driven gear to forwardly or reversely rotate the first driven gear.
Parasol with maximum shade formation. The method according to claim 1,
Wherein the second driver comprises:
A fan-shaped second driven gear provided at one end of the second support member and axially coupled to an upper end of the first support member; And
And a second drive motor which is provided inside the first support member and includes a second drive gear engaged with the second driven gear so as to rotate the second support member upward or downward,
Parasol with maximum shade formation. The method according to claim 1,
Between the first support member and the second support member,
And a shock absorber for supporting the second support member when the second support member is rotated upwardly or downwardly.
Parasol with maximum shade formation. 5. The method of claim 4,
The diameter of the light-
Wherein the optical sensor is formed to be larger than a virtual connection circle formed by the optical sensors, and is formed to be 1 to 3 cm larger than the connection circle.
Parasol with maximum shade formation. The method according to claim 1,
At the upper end edge of the above-
And a blocking plate for blocking the light sensing sensors from being exposed to the reflected light reflected by the structure of the ground,
Parasol with maximum shade formation. The method according to claim 6,
The blocking plate
Wherein the optical sensor is formed so as to be inclined outward so as not to interfere with the sunlight incident on the optical sensors.
Parasol with maximum shade formation. delete delete 8. The method according to any one of claims 1 to 7,
In the above-
A rainwater detection sensor is provided and when the rainwater detection signal is generated from the rainwater detection sensor, after confirming whether the second drive unit is operated, the second drive unit is operated to turn the second support member upward or downward Wherein the second driving unit is operated to control the second driving unit so that the second supporting member is in a horizontal state when the first and second supporting members are rotated,
Parasol with maximum shade formation.

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