KR102171165B1 - Card Reader Module - Google Patents

Abstract

Provided is a card reader module including a card inlet through which a card is inserted and an IC processing unit and an RF processing unit. The RF processing unit is installed in a front end part of the card reader module so as to dispose the RF processing unit before the IC processing unit so as to pre-check and process whether the card entering the card reader module is an RF card, and a guide is provided to discharge the processed card to the outside the card reader module at a lower end of the RF processing unit. The guide receives power from a lever to open and close the lower end of the card reader module by a vertical swing motion. When the guide is inclined downward with respect to the bottom of the card reader module, the card falls outside the card reader module along the surface of the guide.

Description

Card Reader Module

The present invention relates to a card reader module, and in more detail, it relates to an RF card processing unit constituting a part of the card reader module. In order to improve errors that may occur when using a contaminated RF card, and to shorten the transaction time, the RF card processing unit It relates to a card reader module that has technical features.

Commonly used card information storage methods include IC Card, magnet stripe, and RFID (Radio Frequency Identification).

Among them, the RF card (Radio Frequency Card) using the RFID (Radio Frequency Identification) method is a card to which a communication method that exchanges information using frequency is applied. The card can be recognized without direct contact by simply bringing the card close to the card reader module that reads the data contained in the card, so it is widely used worldwide as a means of transportation, security system, and payment. In Korea, it is used in ATMs, subways, and buses. Therefore, cards generally used by users are equipped with an RF processing part.

1 corresponds to a perspective view showing a card reader module 1 of a conventional general form used in a kiosk. When a customer receives financial services through a kiosk, he or she chooses either a general ATM transaction or a radio frequency identification (RFID) transaction. Among them, the RFID (Radio Frequency Identification) system is roughly composed of a tag, an antenna, and a card reader module (1). The tag and antenna transmit information wirelessly from several meters to tens of meters, and the card reader module (1) is It receives the signal, decodes the product information, and sends it to the computer. The sent data is a method of sending the recognized data to a computer system for processing.

As can be seen with reference to FIG. 1, when a user who wants to receive financial services in relation to a conventional card reader module 1 selects an RFID (Radio Frequency Identification) transaction, the card reader module 1 is the RF processing unit located in the rearmost part. The card 5 drawn into (4) is moved and recognition is made.

In particular, in addition to the cash withdrawal function using a card, which is popular recently, it is possible to assume the case of an unmanned card refund machine, which is a system that reads an RF card, checks the information entered on the card, refunds the amount, and collects the card. In this case, even though the use of unmanned card refunds is much higher than that of ATM, the structure of the conventional card reader module 1 is a card inlet port due to the characteristic that the RF processing unit 4 is located at the rear of the card reader module 1 Only after the card inserted through (2) passes through the path of the IC card processing unit (3), the original purpose of RF card recognition-related work is inevitably processed.

Therefore, the card reader module 1 is contaminated by foreign substances on the card 5 due to the relatively long card entry time and entry path. In particular, a kiosk form is popular in which workers who have collected sappers from foreign countries check the number of sappers and then issue an RF card containing the amount and receive the amount by inserting the card. In this case, it is in the hands of workers collecting sappers. There arises a problem that silver foreign substances or liquid components in the bottle stain the card, further contaminating the card reader module 1.

In addition, due to the structural characteristics of the card reader module 1, as shown in FIG. 1, if the card falls freely after processing the RF card or if the continuous processing of the RF card exceeds 200 sheets, the card is skewed at the rear of the collecting device, so that the storage condition is poor. It used to happen. Therefore, the present invention has been devised to solve the above problems.

The present invention has a technical value in preventing contamination of a card reader module, improving business processing speed, and eliminating card storage defects in order to solve the problems as in the prior art.

The card reader module according to the present invention includes a card inlet through which a card is introduced, an IC processing unit, and an RF processing unit, and the RF processing unit is capable of pre-checking and processing whether the card is an RF card introduced into the card reader module. It is installed at the front end of the card reader module so as to be disposed before the IC processing unit, and a guide is provided at a lower end of the RF processing unit to discharge the processed card to the outside of the card reader module.

In the above, the card reader module is provided with a lever that transmits power to the guide, and the guide receives power from the lever to open and close the bottom of the card reader module in an up-down swing motion, and the guide slopes downward with respect to the bottom of the card reader module. In this case, the card has a structure in which the card falls outside the card reader module along the surface of the guide.

In the above, the guide is driven within a downward slope of 0° or more and 45° or less based on the lower end of the card reader module.

In the above, the surface of the guide is further provided with an anti-jamming pin that prevents adhesion between the guide and the card to induce smooth fall.

In the above, a shutter is additionally provided at the card inlet, and the shutter is operated to close the card inlet so that it is impossible to insert an additional card into the card reader module during the process of discharging the card.

Through the above problem solving means, the present invention prevents contamination of the card reader module and speeds up business processing of the RF card user by shortening the card movement path entering the RF processing unit in the card reader module when the frequency of use of the RF card is high. It is improved, and through an additional configuration, the processed card can be smoothly discharged to the outside, and external storage defects can be eliminated.

1 is a perspective view showing a conventional card reader module with an RF processing part attached to the rear;
2 to 3 are cross-sectional views of a card reader module according to an embodiment of the present invention,
4 is a perspective view showing a lower portion of the RF processing unit of the card reader module according to an embodiment of the present invention;
5 to 6 are cross-sectional views of an RF processing unit of a card reader module according to an embodiment of the present invention,
7 is a perspective view showing an anti-jamming pin installed for smooth drop of a card in a card reader module according to an embodiment of the present invention;
8 is a perspective view illustrating a shutter function of a card reader module according to an embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in more detail by presenting them in more detail through the drawings. In particular, the technical characteristics and embodiments of the structure of the card reader module are illustrated on the assumption that the frequency of use of the unmanned card refund function is far greater than that of ATM. However, the following examples are provided so that the present invention may be sufficiently understood by those of ordinary skill in the art, and may be modified in various other forms, and the present invention is not limited by the above examples. .

2 to 3 correspond to cross-sectional views of a card reader module according to an embodiment of the present invention.

As can be seen with reference to FIGS. 2 to 3, in the case of the card reader module 10 according to an embodiment of the present invention, a card inlet 203 through which a card is introduced, an RF processing unit 20 for processing an RF card, and an IC It comprises an IC processing unit 30 to process the card. The basic shape is a rectangular trailer or container shape, and the RF processing unit 20 has a relatively shorter card movement path and volume than the IC processing unit 30. In this case, when there are many users who prefer a radio frequency identification (RFID) transaction, the present invention has the following technical characteristics for smooth financial service.

Card reader module 10 according to an embodiment of the present invention is a card reader module 10 by modifying the configuration in which the RF processing unit is implemented behind the conventional IC processing unit and moving the RF processing unit 20 in front of the IC processing unit 30. Implement Since the frequency of RFID (Radio Frequency Identification) transactions is frequent, the user's card inserted into the card reader module 10 through the card inlet 203 is transferred through the RF processing unit 20 disposed at the front end of the card reader module 10. First, the RF card is identified, and if it corresponds to the RF card, RF processing is performed, and if it is not an RF card, it moves to the IC processing unit 30 disposed at the rear end of the card reader module 10 to perform business processing. do.

Therefore, in the case of the present invention, there is an advantage of improving the business processing speed under the assumption of frequent Radio Frequency Identification (RFID) transactions. This is because the conventional IC processing unit 30 is used with the card reader module disposed at the front end of the card reader module 10. Compared with, it produces a remarkable effect.

4 is a perspective view showing a lower portion of the RF processing unit of the card reader module according to an embodiment of the present invention, and FIGS. 5 to 6 are cross-sectional views of the RF processing unit of the card reader module according to an embodiment of the present invention, and FIG. 7 Corresponds to a perspective view showing an anti-jamming pin installed for smooth drop of a card in a card reader module according to an embodiment of the present invention.

As can be seen with reference to FIGS. 4 to 7, when the card inserted through the card inlet 203 is not an RF card, the process and design part of moving to the IC processing unit 30 for other transactions will be omitted. When the incoming card is an RF card, when financial service processing is completed, the RF card must be discharged to the outside of the card reader module 10. Accordingly, a guide 201 is provided below the RF processing unit 20 of the card reader module 10 to discharge the processed RF card to the outside of the card reader module 10. The guide serves as a kind of lower passage and generally has a rectangular plate shape. The driving method of the guide 201 is as follows.

In order for the guide 201 to be driven, a predetermined power is required. Therefore, the card reader module 10 is additionally provided with a lever 202 for transmitting power to the guide 201. Since the lever 202 and the guide 201 are interconnected, power is transmitted by the lever 202 receiving an electronic signal, and the guide 201 is driven. The guide 201 opens and closes the lower end of the card reader module 10 by a vertical swing operation. When the lever 202 moves upward, the guide 201 also rises upward and closes the card reader module 10, and when the lever 202 moves downward, the guide 201 also moves downward and the card reader Open the module 10.

When the guide 201 is inclined downward with respect to the lower end of the card reader module 10, that is, when the guide 201 goes down and the lower end of the card reader module 10 is opened, the financial service processing is completed. The RF card falls on the surface of the guide 201 to the outside of the card reader module 10. In the case of cards that are not generally returned, they are accumulated in a card collection box (not shown) installed under the card reader module 10.

Preferably, the guide 201 may be characterized in that it is driven within a downward slope of 0° or more and 45° or less based on the lower end of the card reader module 10. It is for smooth card ejection because it is not much different from free fall when the inclination exceeds 45° to close to 90°.

Through the above structure, unlike the conventional technology, the card ejection is smooth even if more than 200 cards are continuously ejected, and the RF processing unit 20 and the guide are arranged at the front end of the card reader module 10 and then in a downward direction. Since it falls at an angle, it can be loaded in the center of the card collection box (not shown), and thus it is possible to solve the problem that it is installed at the rear end of the card reader module 10 and piled up at the rear of the card collection box (not shown). This corresponds to the effect proven as a result through numerous repeated experiments.

In addition, an anti-jamming pin 210 may be additionally provided on the surface of the guide 201 to prevent adhesion between the guide 201 and the RF card to induce a smooth fall. When a contaminated RF card is introduced through the card inlet 203 and passed through the RF processing unit 20 and is discharged to the outside through the guide 201, if the contaminated material is a material having adhesive properties, the RF card is placed on the surface of the guide 201. There occurs a case where the RF card cannot be discharged smoothly due to sticking or friction between the guide 201 and the RF card. In addition, a collision with an incoming RF card occurs or stacked with each other, causing a device failure.

Therefore, by adding the anti-jamming pin 210 to the surface of the guide 201, a certain portion of the surface area of the RF card is separated from the surface of the guide 201, thereby solving the above problems. The anti-jamming pin 210 has a column shape and has a ballpoint pen-shaped structure in which the area of the end in contact with the card is relatively narrow, thereby minimizing friction with the RF card. The anti-jamming pin 210 is most preferably located in the center of the surface of the left side of the guide 201 (the part where the slope starts) based on FIG. 7, and has an appropriate height in a line that does not interfere with the fall of the RF card. Installed.

When the RF card is simply loaded on the guide 201, the jam prevention pin 210 does not protrude due to the step difference between the guide 201 and the jam prevention pin 210, so that the RF card is also horizontal to maintain a flat shape. However, when the guide 201 is inclined downward through the lever 202 so that the RF card is discharged and the lower end of the card reader module 10 is opened, the anti-jamming pin 210 is fixed and the guide 201 The height difference occurs because of the downward movement, and in the case of the RF card loaded above, the part in contact with the anti-jamming pin 210 is spaced apart from the surface of the guide 201 and is obliquely inclined, and the friction with the surface decreases. The process of smoothly sliding and discharging by gravity is sequentially performed.

8 is a perspective view illustrating a shutter function of a card reader module according to an embodiment of the present invention.

Referring to FIG. 8, it can be seen that a shutter 204 is additionally provided at the card inlet 203 of the card reader module 10. When the financial service of one RF card is completed and is discharged to the outside of the card reader module 10 and recovered, when an additional RF card is inserted from the card inlet 203, the RF card processing process overlaps, and one RF As the card is retrieved with other RF cards that are additionally inserted, it may cause RF processing defects. Therefore, to prevent such an operation from occurring, the card inlet 203 is blocked with the shutter 204 during the card retrieval process so that the RF card cannot be inserted from the outside.

In the case of the shutter 204, it is driven by an electrical signal. When a signal is transmitted that the card retrieval process, that is, one card is discharged to the outside of the card reader module 10 through the guide 201, the card inlet 203 is closed during the process, and the process is terminated. After that, the card inlet 203 is opened again to help inflow of other RF cards.

Comprehensively, the technical characteristics and driving process of the card reader module 10 according to the present invention will be described as follows.

When the RF card is introduced into the card reader module 10 through the card inlet 203, and financial service processing is completed through the RF processing unit 20 provided in the front end of the card reader module 10, the lever is applied by an electronic signal. 202 transmits power to the guide 201 provided at the bottom of the card reader module 10 so that the guide 201 forms a downward slope, and the lower end of the card reader module 10 is opened. In order to facilitate the smooth discharge of the RF card sliding and falling on the surface of the guide 201, an anti-jamming pin 210 is provided to separate the surface of the guide 210 and the end surface of the card. In order to prevent input, the shutter 204 is lowered and the card inlet 203 is closed.

Until now, the card reader module according to the present invention has been described with reference to the embodiment shown in the drawings, but this is only exemplary, and anyone skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of protection should be determined by the technical spirit of the appended claims.

10: card reader module 20: RF processing unit
30: IC processing unit 201: guide
202: lever 203: card inlet
204: shutter 210: jam prevention pin

Claims (5)

In the card reader module including a card inlet and an IC processing unit and an RF processing unit into which a card is introduced,
It is installed in the front end of the card reader module so that the RF processing unit is disposed before the IC processing unit so that the card entering the card reader module can be processed by pre-checking whether the card is an RF card,
A guide is provided at the bottom of the RF processing unit to discharge the processed card to the outside of the card reader module,
The card reader module is provided with a lever for transmitting power to the guide,
The guide receives power from the lever and opens and closes the lower end of the card reader module in a vertical swing motion,
When the guide is inclined downward with respect to the lower end of the card reader module, the card falls on the surface of the guide and falls to the center of the card collection box located outside the lower end of the card reader module, so that the card can be evenly loaded in the collection box. Card reader module, characterized in that to be. delete The method of claim 1,
The card reader module, characterized in that the guide is driven within a downward slope of 0° or more and 45° or less with respect to the bottom of the card reader module. The method of claim 1,
The card reader module, characterized in that further provided with an anti-jamming pin that prevents adhesion between the guide and the card and induces a smooth fall. The method according to any one of claims 1, 3, and 4,
A shutter is additionally provided at the card inlet,
A card reader module, characterized in that during the process of discharging the card, a shutter is operated so that an additional card cannot be inserted into the card reader module to close the card inlet.

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