KR102387644B1 - Memo Holder - Google Patents

Abstract

In the present invention, when an object detects an approach, a current is applied to the electromagnet to combine with a permanent magnet, and when the detachment of a memo pad is detected, the current applied to the electromagnet is applied in the opposite direction to remote the permanent magnet by changing the polarity of the electromagnet A technology related to a memo holder, comprising an infrared sensor comprising a light emitting unit and a light receiving unit for detecting whether or not an object approaches, a lower holder including an electromagnet, and a plurality of reflectors for diffusely reflecting infrared rays irradiated from the infrared light emitting unit or , including a pad made of black, and an upper holder including a permanent magnet that approaches or remotes to the lower holder when a current is applied to the electromagnet. Therefore, the present invention applies a current to the electromagnet when the object approaches, and the permanent magnet approaches the bar, the object is fixed to the coupling surface of the electromagnet and the permanent magnet, the effect of easy fixing of the object, and the permanent magnet and the electromagnet are combined After that, even if the current applied to the electromagnet is cut off, the permanent magnet is continuously combined with the nonpolar electromagnet, thereby reducing power consumption.

Description

Memo Holder

The present invention relates to a memo holder that determines whether an object approaches and fixes it, and more particularly, when an approach of an object is sensed, a current is applied to the electromagnet to combine with a permanent magnet, and when the detachment of the memo pad is detected, the electromagnet It is a technology related to a memo holder that remotes a permanent magnet by changing the polarity of an electromagnet by applying a current applied to it in the opposite direction.

Holders that can use advertisements, various attachments, or memo papers without tools such as adhesive tapes or pins are used in various places including offices.

As a representative patent, there is Korean Patent Registration No. 10-1839734, and if you look at the literature, the rear body 110 having an attachment means 101 on the bottom surface, and the rear body 110 protruding forward of the rear body 110, both ends A holder case consisting of a front body 120 in which the pressure plate both ends insertion part 121 is formed, the spring installation part 122 is formed in the middle part, and the pressure plate coupling protrusion 123 is formed on both sides inside the spring installation part 122 A memo holder made of (100) is disclosed. In addition, the technology is provided with a conical compression coil spring 215, and the pressure plate 200 is in close contact with the rear body 110 side by the elastic force of the conical compression coil spring 215. .

However, the technology has a problem that not only cannot detect the presence or absence of approach of the memo pad, but also that an external force must be applied to detach the memo pad.

In addition, Korean Patent Laid-Open No. 2015-0033490 discloses various holders using magnets or clips formed on a folding tripod. However, the document shows some similarities to the present invention in that it is a holder using a magnet, but this also cannot detect whether the memo paper is approaching the object, and an external force must be applied to detach the memo paper. there is

Republic of Korea Patent No. 10-1839734 (Registered on Mar. 12, 2018) Republic of Korea Patent Publication No. 10-2015-0033490 (published on April 01, 2015)

The present invention is to solve the problems of the prior art described above, and an object of the present invention is to apply a current to an electromagnet depending on whether an object approaches or not. is to provide

In addition, another object of the present invention is to fix the memo pad using an electromagnet and a permanent magnet, even if the current applied to the electromagnet is blocked after the electromagnet and the permanent magnet are combined, the nonpolar electromagnet is combined with the magnetism of the permanent magnet. It is to provide a memo holder capable of continuously fixing an object.

The object of the present invention is not limited to the object mentioned above, and other objects and advantages of the present invention not mentioned can be understood by the following description, and will be more clearly understood by the examples of the present invention. It will also be readily apparent that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

In order to achieve the above object, the present invention includes an infrared sensor comprising a light emitting unit and a light receiving unit for detecting whether an object approaches, a lower holder including an electromagnet, and a plurality of reflectors for diffusely reflecting infrared rays irradiated from the infrared light emitting unit or a black pad, and an upper holder including a permanent magnet that approaches or remotes to the lower holder when an electric current is applied to the electromagnet.

The lower holder includes a control unit for controlling whether current applied to the electromagnet is applied and the direction of the current according to the signal from the infrared light emitting unit and the light receiving unit.

According to the direction of the current applied by the controller, the polarity direction of the electromagnet is set, and the upper holder including the permanent magnet approaches or remotes according to the polarity direction of the electromagnet.

The pad of the upper holder has an embossed shape including a plurality of reflectors, and when the upper holder and the lower holder are combined, the infrared ray irradiated from the infrared emitting unit is diffusely reflected and returned to the light receiving unit, or if no return value occurs, the upper holder It is judged that the object inserted into the coupling surface of the and lower holder has departed.

When the lower holder and the upper holder are in a coupled state, the control unit blocks the current applied to the electromagnet.

According to the present invention, when an object approaches, a current is applied to the electromagnet so that the permanent magnet approaches, the object is fixed to the coupling surface of the electromagnet and the permanent magnet, so that the object is easily fixed.

In addition, according to the present invention, even if the current applied to the electromagnet is cut off after the permanent magnet and the electromagnet are combined, the permanent magnet is continuously combined with the nonpolar electromagnet, thereby reducing power use.

In addition to the above-described effects, the specific effects of the present invention will be described together while describing specific details for carrying out the invention below.

1 is a perspective view of a memo holder according to the present invention.
2 is a cross-sectional view of the upper holder of the memo holder according to the present invention viewed from below.
3 is a perspective view of a coupling part connecting the upper holder and the lower holder of the memo holder according to the present invention.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a memo holder according to the present invention.

1, the present invention includes an infrared sensor 1120 comprising a light emitting unit 1121 and a light receiving unit 1122 to detect whether an object approaches, and an electromagnet 1110 indicating polarity according to current application. It includes a lower holder 1100 and a pad 1220 formed with a plurality of reflecting plates that reflect infrared rays irradiated from the light emitting unit 1121 of the infrared sensor 1120, and is applied to the electromagnet 1110 of the lower holder 1100. It includes an upper holder 1200 including a permanent magnet 1210 that approaches or remotes in the direction of the electromagnet 1110 of the lower holder 1100 according to the direction of the current.

The lower holder 1100 is a configuration constituting the lower portion of the memo holder 1000 and is in contact with the surface on which the memo holder 1000 of the present invention is to be mounted. That is, if the present invention, the memo holder 1000 is to be installed on the monitor, the lower holder is in contact with the monitor. For this purpose, the lower holder 1100 of the memo holder 1000 of the present invention includes an infrared sensor 1120 for detecting the entry or departure of the memo paper, which is an approaching object, between the lower holder 1100 and the upper holder 1200. do. In addition, when the infrared sensor 1200 detects the entry or departure of an object, a current is applied to the conducting wire 1111 wound around the outer circumferential surface, and an electromagnet 1110 indicating polarity is included.

The infrared sensor 1200 includes a light emitting unit 1121 for irradiating infrared rays and a light receiving unit 1122 for receiving infrared rays irradiated from the light emitting unit by being reflected. That is, the infrared ray irradiated from the light emitting unit 1121 is reflected after contacting the surface of the memo paper as an object, and the reflected infrared ray is received by the light receiving unit 1122 . Accordingly, it is possible to detect whether an object approaches or is remote according to a temporal change in which the infrared ray irradiated from the light emitting unit 1121 is received by the light receiving unit 1122 .

The electromagnet 1100 is a magnet using the principle that a magnetic field is generated when a current flows through the conducting wire 1111 . When a current flows through the conductor, a magnetic field is formed around the conductor 1111 according to the laws of Bio and Savar. The magnitude of this magnetic field is proportional to the current and inversely proportional to the square of the distance from the conductor 1111. Therefore, when a current is passed through the conductor 1111 , when viewed from above, if the direction of the current is counterclockwise, a magnetic field is generated in which the upward direction becomes the N pole and the downward direction becomes the S pole. Such a circular conductor 1111 tightly wound in a coil shape is called a solenoid, and the magnetic field generated by this solenoid is almost zero outside the solenoid, and an almost uniform magnetic field is generated inside the solenoid. The end becomes the S pole.

Therefore, the electromagnet 1110 of the lower holder 1100 according to the present invention selectively implements the direction of the current applied to the conducting wire 1111, thereby changing the polarity of the electromagnet 1110. That is, if the lower part of the permanent magnet 1210 of the upper holder 1200 to be described later is the N pole, the upper part of the electromagnet 1110 is formed as the S pole by selecting the direction of the current applied to the electromagnet when the memoji, which is the object, approaches. Accordingly, the permanent magnet 1210 of the upper holder 1200 having the lower N-pole is approached in the direction of the electromagnet 1110 of the lower holder 1100 . In addition, if the lower part of the permanent magnet 1210 of the upper holder 1200 is the N pole, when the object is separated or wants to depart, the upper part of the electromagnet 1110 is set to the N pole by selective setting of the direction of the current applied to the electromagnet 1110 By setting, the permanent magnet 1210 of the upper holder 1200 whose lower part is the N pole is pushed from the lower holder 1100 .

In addition, the present invention detects the signals of the light emitting unit 1121 and the light receiving unit 1122 of the infrared sensor 1120 described above, based on this, whether or not the current applied to the electromagnet 1110 is applied, the current strength and the direction of the current It includes a control unit that Here, the control unit is Atmel. It means MCU (Micro Controller Unit) such as Arm, Arduino, Attiny, etc. The control unit is not limited to the above-described configuration, and is selected for carrying out the present invention.

In addition, as a method for the control unit to control the current direction of the electromagnet 1100 , it is possible to control the current direction according to the output port selection, and it is possible to control the current direction by the switch circuit. However, since the current direction control of the electromagnet 1100 according to the present invention corresponds to an optional embodiment for carrying out the present invention, a detailed description will be omitted.

Here, the lower holder further includes a battery for supplying a current applied to the electromagnet 1100, and a charging unit for charging the battery. However, the battery and the charging unit are also essential components for carrying out the present invention, but correspond to well-known technologies, and detailed descriptions thereof will be omitted.

2 is a bottom cross-sectional view of the upper holder 1200 according to the present invention.

Referring to FIG. 2 , the upper holder 1200 includes a pad 1220 formed with a plurality of reflectors that reflect infrared rays irradiated from the light emitting part 1121 of the infrared sensor 1120 , and the electromagnet 1110 described above. Including the permanent magnet 1210 for proximity or remote according to the direction of current application, it is possible to fix and release the memo paper which is an object by proximity or remote to the above-described lower holder 1100 .

The pad 1220 has a configuration including a plurality of reflective plates, and is an embossed pad 1220 . This is a configuration for detecting the detachment of the object when the object located between the surfaces to which the upper holder 1200 and the lower holder 1100 are coupled is separated by external pressure. More specifically, when the upper holder 1200 and the lower holder 1100 are coupled, the infrared ray irradiated from the light emitting unit 1121 of the infrared sensor 1120 is not the upper holder 1200, but the memo paper. reflected from the surface. The reflected infrared rays are received by the light receiving unit 1122 . Therefore, in the state in which the lower holder 1100 and the upper holder 1200 are coupled, when an object fixed therein is separated by an external force, the infrared ray irradiated from the light emitting unit 1121 of the lower holder 1100 is the light receiving unit 1122 . There is a sharp change in the return time. Here, when one sheet of paper, such as a commonly used A4 paper, is the object, the change in the recognition value of the infrared sensor may be very small due to the thin thickness even when the object is suddenly separated. Therefore, in order to prevent such a recognition error, the area of the upper holder 1200 in which the infrared ray irradiated from the light emitting unit 1121 of the infrared sensor unit 1120 of the present invention is reflected to the light receiving unit 1122 is formed of a plurality of reflecting plates. It will include an embossed shape or a black pad 1220 . Accordingly, the infrared ray irradiated from the light emitting unit 1121 of the infrared sensor 1120 is diffusely reflected, and the time to return to the light receiving unit 1122 does not change irregularly or return to the light receiving unit does not occur. Therefore, the memo holder 1000 according to the present invention can detect the sudden separation of the object fixed between the lower holder 1100 and the upper holder 1200 due to the change in these values.

Here, the control unit of the memo holder 1000 according to the present invention applies a current to the electromagnet 1110 and blocks the current applied to the electromagnet 1110 when it is coupled with the permanent magnet 1210 of the upper holder 1200 . do. Even if the current applied to the electromagnet 1110 is blocked in the state in which the electromagnet 1110 and the permanent magnet 1210 are combined, the state continuously coupled with the non-polar electromagnet 1110 by the magnetism of the permanent magnet 1210 is maintained. . Accordingly, since current is not continuously applied to the electromagnet 1110, unnecessary power loss can be prevented.

3 is a perspective view of a coupling part connecting the upper holder and the lower holder of the memo holder according to the present invention.

Referring to FIG. 3 , the memo holder 1000 according to the present invention further includes a coupling part 1300 for connecting and fixing the lower holder 1100 and the upper holder 1200 . A preferred coupling portion 1300 is a torsion spring. A torsion spring refers to a rod-shaped spring steel material that uses the property to return to its original position with rigidity when twisted. Since the force of the spring is determined by the length, cross-sectional area, and material of the bar, it is also called a torsion bar spring. This is a bar having an energy absorption rate per unit weight that is three times that of a leaf spring and 1.4 times that of a coil spring, and is a spring showing the effect of weight reduction and miniaturization. The lower holder 1100 and the upper holder 1200 of the present invention It is suitable for the configuration of connecting and fixing.

In addition, the coupling part 1300 according to the present invention may represent the shape of a hinge. However, the main object of the present invention is to apply a current to the electromagnet depending on whether or not an object approaches, and the memo pad can be fixed by combining the electromagnet and the permanent magnet, and the memo pad is fixed using the electromagnet and the permanent magnet, After the electromagnet and the permanent magnet are combined, even if the current applied to the electromagnet is blocked, it is a technology that can continuously fix the object by combining it with the non-polar electromagnet by the magnetism of the permanent magnet. 1300) is not limited in any case.

As described above, the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed in the present specification. It is obvious that variations can be made. In addition, although the effects according to the configuration of the present invention have not been explicitly described and described while describing the embodiments of the present invention, it is natural that the effects predictable by the configuration should also be recognized.

1000: memo holder 1100: lower holder
1110: electromagnet 1111: conducting wire
1120: infrared sensor 1121: light emitting part
1122: light receiving unit 1200: upper holder
1210: permanent magnet 1220: pad
1300: coupling part

Claims (5)

a lower holder including an infrared sensor comprising a light emitting unit and a light receiving unit for detecting whether an object approaches or not, and including an electromagnet; and
An upper holder comprising a plurality of reflectors that diffusely reflect the infrared rays irradiated from the light emitting unit, or including a pad made of black, and including a permanent magnet that approaches or remotes the lower holder when a current is applied to the electromagnet; including,
The lower holder includes a control unit for controlling whether current applied to the electromagnet is applied according to the signal of the light emitting unit and the light receiving unit, the current strength, and the current direction;
The polarity direction of the electromagnet is set according to the direction of the current applied by the control unit, and the upper holder including the permanent magnet approaches or remotes according to the polarity direction of the electromagnet. delete delete The method of claim 1,
The pad of the upper holder has a shape of embossing including a plurality of reflectors, and when the upper holder and the lower holder are combined,
A memo holder that determines that the object inserted into the coupling surface of the upper holder and the lower holder is detached when the infrared rays irradiated from the light emitting unit are diffusely reflected and return to the light receiving unit, or when a return signal is not detected. 5. The method of claim 4,
When the lower holder and the upper holder are in a coupled state, the control unit cuts off the current applied to the electromagnet.

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