KR100981611B1 - Conductor rotating type clear-view screen using permanent magnet - Google Patents

Abstract

The present invention provides a turning window for rotating the rotating window using the driving force generated by the permanent magnet and the conductor to which power is applied. Such a turning window is provided with a rotating window 20 on the outside of the fixed window 1, and in the turning window configured to rotate the rotating window 20, permanent magnets 70 disposed to face each other and face each other. The conductor 40, which is disposed between the permanent magnets 70 and intermittently applied with power from the outside, converts the driving force generated by the permanent magnets 70 and the conductors 40 into rotational force to rotate the rotation window 20. It comprises a rotational force transmission member for transmitting to).

Description

CONDUCTOR ROTATING TYPE CLEAR-VIEW SCREEN USING PERMANENT MAGNET}

The present invention relates to a conductive rotating swing window using a permanent magnet, more specifically, by installing a rotating window on the fixed window, by rotating the rotating window so that spray, rain, hail, sleet or snow is separated from the fixed window Therefore, the present invention relates to a conductor rotating swiveling window using a permanent magnet to ensure a clear central field of view.

In general, a ship is provided with a turning window on the front fixed window of the steering room to minimize the disturbance of the field of view in order to ensure a clear view in any weather conditions or the state of the Nether.

At this time, the Korean Industrial Standard (KS) KSVISO3904 Shipbuilding and marine structures (Clear-) regarding the method, installation, design and structure (including dimensions, tolerances, materials and electrical equipment) of the turning windows mainly used in ships. view screens). According to this standard, the turning window consists of a metal main frame with a high-speed rotating glass disk (rotating window) driven by an electric motor, and because of the rotation of the glass disk, spraying, rain (rainstorm and drizzle), hail, sleet or snow Is immediately splashed, and moisture does not stick to the turning window, ensuring a clear view through the glass disc.

On the other hand, the Republic of Korea Utility Model Publication No. 1986-0003222 "slewing window" has a cylindrical fixing frame having an inner peripheral surface of the V-shaped cross-section, and an outer peripheral surface of the V-shaped cross-sectional shape corresponding to the V-shaped of the fixing frame, the outer peripheral surface And rotatable assembly in the fixing frame, leaving a gap between the inner peripheral surface of the fixing frame and a rotating frame with a transparent plate, air blowing means for causing the rotating frame to float in the fixing frame by blowing compressed air into the gap; A driving means for rotationally driving the rotary frame, the air blowing means includes a slit extending over the entire circumference of the inner circumferential surface of the fixed frame, and when compressed air is blown into the air blowing means, air is blown into the gap from the slit by force; This air exerts a force on the outer circumferential surface of the rotary frame to support the rotary frame rotatably in the fixed frame, the rotary frame is driven By being rotated by a soaking stage, etc. attached to the transparent plate, which is attached to the rotating frame are removed by a centrifugal force doemeurosseo it proposes a technique for ensuring that a satisfactory clock.

In addition, the Republic of Korea Patent Publication No. 10-0310354 "Moving window with the motor removed from the turning window" is different from the conventional turning window where the motor is located in the center of the turning window to turn the turning window. The gearbox is located at the bottom of the turning window to rotate the turning window at the bottom, and proposes a technology consisting of a hemispherical turning window, support windows inside and outside the turning window, a motor, a gear box, and the like.

As described above, the turning window according to the related art has a technique of rotating the compressed air by blowing it between the rotating window (glass disc) and the ship glass window to solve the problem of blindness caused by the installation of a motor in the center, and the circumference of the circumferential surface of the rotating window. It is proposed a technique of forming a gear in the furnace to rotate the motor. However, in order to apply the respective driving methods to the turning window according to the related art, there is a problem in that the driving device and the drive transmission structure are complicated. For example, a technique of rotating compressed air by rotating it between the rotating window and the ship window requires additional devices for supplying compressed air, and needs to form a structure for supplying the generated compressed air to the rotating window and the ship window. Difficult to manufacture and difficult to maintain In addition, the turning window according to the related art has a problem that it is difficult to control the speed of the rotating window when the size of the rotating window is increased. In addition, the technology to rotate by the motor requires a special processing to form a gear around the circumferential surface of the rotating window, the same as the former technology is difficult to manufacture and maintenance is difficult, and if the diameter of the rotating window is large, according to the gear ratio There is a problem that the speed is reduced by the speed difference.

Accordingly, the present invention has been proposed to solve the problems of the prior art, and an object of the present invention is to provide a conductive rotating swing window using a new type of permanent magnet that can effectively ensure the center view of the swing window. do.

In addition, the present invention provides a conductive rotary swing window using a new type of permanent magnet that can easily configure the drive transmission structure for rotating the rotary window while ensuring the central view of the swing window effectively made and easy maintenance. It aims to do it.

In addition, an object of the present invention is to provide a conductive rotating swing window using a new type of permanent magnet that can effectively control the rotational speed of the rotating window even when the size of the rotating window increases.

According to a feature of the present invention for achieving the above object, the present invention is installed in the rotating window 20 on the outside of the fixed window 1, the rotating window configured to rotate the rotating window 20, each other Permanent magnet 70 is disposed so as to face apart; A conductor 40 disposed between the permanent magnets 70 and to which power is applied from the outside; It includes a rotational force transmission member for converting the driving force generated by the permanent magnet 70 and the conductor 40 to the rotational force to transmit to the rotating window 20.

In the conductive rotating rotary window using a permanent magnet according to the present invention, the rotational force transmitting member is installed inside the fixed window (1), through the through hole (2) formed in the fixed window (1) It is coupled to the rotating window 20 with the fixed window (1) interposed by the shaft 50 is located, the drive disk 30 is installed around the conductor 40, the permanent magnet 70 ) May be disposed above and below the conductor 40 installed on the driving disc 30.

In the conductor rotating type turning window using the permanent magnet according to the present invention, the conductor 40 may be formed of a metal thin plate formed so that one side is cut out and the other side is connected around the driving disc 30. .

According to another feature of the present invention for achieving the above object, the present invention provides a rotary window 20 on the outside of the fixed window (1), the rotating window configured to rotate the rotary window 20, The rotating window 20 is installed inside the fixed window 1 and the fixed window 1 is interposed by a shaft 50 positioned through a through hole 2 formed in the fixed window 1. And a drive disc 30 coupled to the periphery of which the conductor 40 is installed; Permanent magnets 70 disposed above and below the conductors 40 installed on the driving disc 30; And a brush 80 for applying power to the conductor 40 of the driving disc 30.

In the conductive rotary swing window using a permanent magnet according to the present invention, the permanent magnet 70 is positioned so that the upper and lower horizontal parts 62 and 64 are positioned between the outer end of the drive disc 30. The upper and lower horizontal portions 62 and 64 of the supporter 60 attached to the inside of the fixed window 1 are installed to be coupled to each other, and the conductor 40 has one side cut out and the other side the A metal thin plate formed to be connected around the driving disc 30 is attached to the periphery of the outer end of any one of the upper and lower surfaces of the driving disc 30, and the brush 80 is one side of the conductor 40. A first terminal 84 connected to the second terminal and a second terminal 86 connected to the other side of the conductor 40 may be formed and coupled to the supporter 60.

According to the conductive rotary swing window using a permanent magnet according to the present invention, since the element installed in the center of the rotating window can be minimized, securing the central field of view of the swing window is effectively made. In addition, since the rotational force of the rotating window is made of a permanent magnet and a conductor, the drive generation and transmission structure for rotating the rotating window is simpler than in the prior art, and it is easy to install, and it is possible to configure a rotating window of various structures. Maintenance is convenient. In addition, since the rotational speed of the rotating window can be adjusted by the number of permanent magnets and the intensity of the applied power, the rotational speed can be easily adjusted as compared with the related art, and a relatively large diameter rotating window can be applied. In addition, it can be expected to reduce the noise and vibration compared to the conventional method using the compressed air or the motor drive.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, FIGS. 1 to 4F, and like reference numerals denote like elements for performing the same function in FIGS. 1 to 4F. On the other hand, in each drawing, the illustration of the reinforcing ribs (plates), bolts and screws, holes, washers, nuts, etc. for the coupling and fixing of the main elements are briefly or omitted, and the mechanism for the rotational movement that is generally applied to the present invention and The illustration of parts commonly known by those skilled in the art, such as various mechanical parts such as necessary bearings, is omitted, and the parts related to the present invention are shown. In particular, there are parts where the size ratio between the elements is somewhat different or the sizes between the components coupled to each other are different, but the difference in representation of the drawings is easily understood by those skilled in the art. A separate description is omitted.

1 is a view for explaining a conductive rotary swing window using a permanent magnet according to the present invention.

Referring to Figure 1, the conductive rotating rotary window 10 using a permanent magnet according to the present invention is a fixed window (using the driving force generated by the permanent magnet 70 and the conductor 40 is applied power) It is configured to rotate the rotating window 20 installed on the outside of 1).

Such a turning window 10 is provided with a permanent magnet 70, a conductor 40 and a rotational force transmission member. At this time, the permanent magnets 70 are spaced apart from each other to face each other, the conductor 40 is disposed between the permanent magnets 70 and the power is applied from the outside. The rotational force transmitting member converts the driving force generated by the permanent magnet 70 and the conductor 40 into rotational force and transmits the rotational force to the rotational window 20.

The permanent magnet 70, the conductor 40 and the rotational force transmission member in the conductive rotating rotary window 10 using the permanent magnet of the present invention in various forms in addition to the preferred embodiment of the present invention in its configuration It can be configured. For example, in the present invention, the drive disk 30 coupled to the rotating window 20 through the shaft 50 in the inside of the fixed window 1 is shown as a form of applying the rotational force transmission member, the conductor to the rotating window 20 By installing 40, the rotary window 20 itself can have the function of the rotational force transmission member. And, the conductor 40 is preferably made of a metal thin plate, such as copper foil, but the configuration of such a conductor 40 can also be applied to a variety of forms commonly used for the purpose of the conductive in this field will be. In addition, the configuration in which the external power source 4 is applied to the conductor 40 may apply various types of connection structures applied for power supply, and control of the power source 4 applied to the conductor 40. Representatively it can be made by applying the controller (6) in which the volume switch is installed.

As described above, the conductive rotary swing window 10 using the permanent magnet according to the present invention configures the drive generation mechanism by placing the conductor 40 between electric fields generated by the permanent magnet 70, and the conductor. When the current is supplied to the 40, the driving force (pushing force) generated in the conductor 40 is converted into rotational force through the rotational force transmission member and transmitted to the rotational window 20, so that the rotational window 20 is rotated. It features.

Figure 2 is a view for explaining a conductor rotating swing window using a permanent magnet according to a preferred embodiment of the present invention, Figure 3 is a conductor rotating swing window using a permanent magnet according to a preferred embodiment of the present invention 4A to 4F are diagrams for explaining the components and the coupling relationship of the conductor rotating swiveling window using the permanent magnet shown in FIG. 3. In particular, Figures 4a to 4f shows a preferred assembling sequence of the elements constituting the conductive rotary swing window 10 using a permanent magnet according to a preferred embodiment of the present invention, Figure 4a shows all configurations {conductor ( 40) is a view showing a separated state, Figure 4b is a view showing a state in which the permanent magnet 70, the blocking ring 100 and the support ring 110 is coupled to the respective positions in the same state as in Figure 4a 4C is a view showing a state in which the brush 80 is coupled in the same state as in FIG. 4B, and FIG. 4D is a support window 60 in which the permanent magnet 70 and the brush 80 are coupled to the fixed window 1. 4E is a view showing a state in which the rotating window 20 and the driving disc 30 are coupled using the shaft 50, and FIG. 4F is a state in which the drip cap 90 is coupled. The figure shown. Of course, such an assembly sequence is shown to more clearly identify the conductive rotating swing window 10 using a permanent magnet according to a preferred embodiment of the present invention, which limits the technical features of the present invention It is not.

2 to 4F, the turning window 10 according to the preferred embodiment of the present invention includes a driving disc 30, a permanent magnet 70, and a brush 80 on the outside of the fixed window 1. It is configured to rotate the rotating window 20 is installed.

At this time, the driving disc 30 is installed inside the fixed window 1, and the fixed window 1 is sandwiched by a shaft 50 located through the through hole 2 formed in the fixed window 1. It is combined with the rotating window 20, the conductor 40 is installed around. In the present embodiment, the size of the driving disc 30 is not limited to the size of the rotating window 20. Although not shown, the shaft 50 is supported by a bearing that is coupled to the fixed window 1. Of course, the support structure of such a shaft 50 is possible in a variety of forms. In the present embodiment, as shown in FIG. 3, the conductors 40 are cut at one side (outside in the present embodiment) and the other side (inside in this embodiment) are connected around the driving disc 30. The thin metal plate is formed to be attached around the outer end of any one of the upper and lower surfaces of the drive disk 30 (upper surface in the present embodiment). Of course, such a conductor 40 may be configured by attaching metal thin plates formed to be cut without integration by press working around the outer end of the upper surface of the driving disc 30.

In addition, the permanent magnet 70 is disposed up and down the conductor 40 is installed on the drive disc 30. In the present embodiment, the permanent magnet 70 is attached to the inside of the fixed window (1) so that the upper and lower horizontal parts (62, 64) are positioned with the outer end circumference of the drive disc 30 in between. Coupled to the inside of each of the upper and lower horizontal portions 62 and 64 of the two supporters 60 are installed.

In addition, the two brushes 80 for supplying power to the conductor 40 of the driving disc 30 are connected to the first terminal 84 and the other side of the conductor 40 connected to one side of the conductor 40. The second terminals 86 to be connected are separately formed so as to be coupled to each supporter 60. Of course, such a brush 80 is configured as a whole such that the conductor 40 as described above in parallel (for example, only the outer side in Figure 3 is connected to the circumference, but the inner side is also connected to the circumference)}, It is also possible to configure two brushes to be installed on the brush 80.

Meanwhile, referring to FIG. 3, when the power applying mechanism of the conductor rotating swiveling window 10 using the permanent magnet according to the present embodiment is applied, first, the brush 80 is connected to an external power source or a battery power source 4. The first terminal 84 and the second terminal 86 are arranged to be spaced apart on both sides, respectively. In addition, the conductor 40 provided on the driving disc 30 corresponds to the first terminal 84 and the second terminal 86 of the brush 80 around the driving disc 30 and has a first radial direction. The conducting wire 42 is provided, and the 2nd conducting wire 46 of the circumferential direction which connects the inside of this 1st conducting wire 42 in parallel is provided. Through such a configuration, the brush 80 allows power (DC current) to be supplied to the conductor 40. That is, when a current is supplied to the brush 80, since the brush 80 is in contact with the conductor 40 placed between the permanent magnets 70, the current flows in the contacted conductor 40, and the current is conducted. The sieve 40 flows to the brush 80 in contact with the opposite side of the conductor 40 along the metal plate on the inner circumference where the sieve 40 is attached to each other. Eventually, the force pushed by the current of the permanent magnet 70 and the conductor 40 is generated in the brush 80 and the permanent magnet 70, this force is rotated through the drive disk 30 to rotate the rotating window 20 Let's go.

On the other hand, in the conductive rotary swing window 10 using a permanent magnet according to the present embodiment is provided with a drip cap 90 and the blocking ring 100 to prevent water from entering the rotary window 20 from the outside, A support ring 110 supporting the circumference of the rotating window 20 is installed. And, although not shown, the drip cap 90 is to form a groove to allow the water flowing into the inside of the rotary window 20 to fall out when facing down when installed. Of course, such a combination of the drip cap 90, the blocking ring 100 and the backing ring 110 may be made by applying a variety of bonding methods and fastening methods used in this field.

As described above, the conductive rotary swing window 10 using the permanent magnet according to the preferred embodiment of the present invention rotates the rotating window 20 using the permanent magnet 70 and the conductor 40 to which DC power is applied. It is configured to control the speed by adjusting the size of the DC power applied to the conductor 40. And, in the present embodiment, the permanent magnet 70 and the brush 80 can increase the number to obtain the required rotational force, so that the conductive rotary swing window 10 using the permanent magnet according to the present invention is known in the prior art. Compared to the size of the rotating window can be easily increased.

As described above, the conductive rotating swing window 10 using the permanent magnet according to the present invention uses the permanent magnet 70 and the conductor 40 to convert the force generated when a current flows between the magnetic field into a rotating force to rotate the rotating window. It is configured to rotate the 20, widen the view of the turning window, and controls the rotational speed and torque of the rotating window 20 only by the size of the DC current without a separate electric motor and control device, the permanent magnet 70 and the current The output of the turning window 20 can also be adjusted according to the number of conductors 40 supplied.

As described above, the conductive rotary swing window using a permanent magnet according to a preferred embodiment of the present invention is shown in accordance with the above description and drawings, but this is only an example and does not depart from the spirit of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view for explaining a conductor rotating swiveling window using a permanent magnet according to the present invention;

2 is a view for explaining a conductor rotating swing window using a permanent magnet according to a preferred embodiment of the present invention;

Figure 3 is a view for explaining the power supply mechanism of the conductor in the conductor rotating swing window using a permanent magnet according to a preferred embodiment of the present invention;

4A to 4F are diagrams for explaining the components of the conductive rotating swing window using the permanent magnet shown in FIG. 3 and their coupling relationship.

Explanation of symbols on the main parts of the drawings

1: fixed window 2: through hole

10: (Conductor Rotation Type Using Permanent Magnet) Slewing Window

20: rotating window 30: drive disc

40: conductor 50: shaft

60: supporter 62, 64: horizontal part

70: permanent magnet 80: brush

84: first terminal 86: second terminal

Claims (5)

In the turning window configured to install the rotating window 20 on the outside of the fixed window 1, and to rotate the rotating window 20, Permanent magnets 70 disposed to face each other and face each other; A conductor 40 disposed between the permanent magnets 70 and to which power is applied from the outside; It includes a rotational force transmission member for converting the driving force generated by the permanent magnet 70 and the conductor 40 to the rotational force to transmit to the rotating window 20, The rotational force transmitting member is installed inside the fixed window 1, and is interposed between the fixed window 1 by a shaft 50 located through a through hole 2 formed in the fixed window 1. It is coupled to the rotating window 20, the drive disc 30 is installed around the conductor 40, The permanent magnet 70 is a conductor rotation type swing window using a permanent magnet, characterized in that arranged above and below the conductor 40 is installed in the drive disc 30. delete The method of claim 1, The conductor 40 is a conductive rotary swing window using a permanent magnet, characterized in that the one side is cut in each other and the other side is formed of a thin metal plate is connected to the circumference of the drive disc (30). In the turning window configured to install the rotating window 20 on the outside of the fixed window 1, and to rotate the rotating window 20, The rotating window 20 is installed inside the fixed window 1 and the fixed window 1 is interposed by a shaft 50 positioned through a through hole 2 formed in the fixed window 1. And a drive disc 30 coupled to the periphery of which the conductor 40 is installed; A permanent magnet 70 disposed above and below the conductor 40 installed on the driving disc 30; Conductor rotating swiveling window using a permanent magnet including a brush 80 for applying power to the conductor 40 of the drive disc 30. The method of claim 4, wherein The permanent magnet 70 supports the upper and lower horizontal parts 62 and 64 so as to be positioned with the outer end circumference of the driving disc 30 interposed therebetween and attached to the inside of the fixed window 1. It is installed coupled to the inside of the upper and lower horizontal portions 62 and 64, The conductor 40 is installed to be attached to the outer periphery of the outer end of any one of the upper and lower surfaces of the driving disk 30, the metal thin plate is formed so that one side is cut each other and the other side is connected around the driving disk 30. , The brush 80 has a first terminal 84 connected to one side of the conductor 40 and a second terminal 86 connected to the other side of the conductor 40 to form the supporter 60. Conductor rotary swing window using a permanent magnet, characterized in that coupled to be installed.

Images