Intra-oral sensor, cradle, and intra-oral sensing system

Abstract

Disclosed are an intra-oral sensor, a cradle, and an intra-oral sensing system. More particularly, the present invention relates to an intra-oral sensor, a cradle, and an intra-oral sensing system, in which the intra-oral sensor can transmit projection data, can be charged with driving power, and can be sterilized at the same time when mounting the intra-oral sensor in the cradle, and can output the projection data including an identifier therein, thereby enabling an operator to easily recognize which part in a set of teeth is represented by image data corresponding to the projection data.

Claims

1. An intra-oral sensing system, comprising: an intra-oral sensor including a data connector transmitting projection data and a charging connector receiving electric power for charging; and a cradle providing a mounting space to mount the intra-oral sensor therein, the cradle including: a data receiving terminal configured to transmit the projection data, a charging terminal configured to supply the electric power, and a sterilizer sterilizing the intra-oral sensor wherein the data receiving terminal is connected to the data connector and the charging terminal is connected to the charging connector while the intra-oral sensor is in the mounting space.

2. The intra-oral sensing system of claim 1, wherein the sterilizer is provided in the mounting space, and sterilizing the intra-oral sensor when the intra-oral sensor is mounted in the cradle.

3. The intra-oral sensing system of claim 2, wherein the sterilizer is an ultraviolet lamp, and is turned on when the intra-oral sensor is mounted in the cradle.

4. The intra-oral sensing system of claim 1, wherein the mounting space of the cradle is provided with a plurality of slots for inserting the intra-oral sensor therein, and distinguishable from each other.

5. The intra-oral sensing system of claim 4, wherein, when the intra-oral sensor is mounted in one of the slots, the cradle outputs the projection data of the mounted intra-oral sensor together with an identifier of the slot.

Description

DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a block diagram schematically illustrating an intra-oral sensor according to an embodiment of the present invention.

(2) FIG. 2 is a view illustrating the intra-oral sensor according to the embodiment of the present invention.

(3) FIG. 3 is a view illustrating an intra-oral sensing system according to an embodiment of the present invention.

(4) FIG. 4 is a view illustrating a cross-section taken along line A-A of a cradle according to an embodiment of the present invention.

(5) FIG. 5 is a view showing a sterilizer of the cradle according to an embodiment of the present invention.

(6) FIG. 6 is a view showing a cradle according to another embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS IN THE DRAWINGS

(7) 110: sensing unit 120: memory 130: data connector 140: battery 150: charging connector 160: casing

Best Mode

(8) Although terms used in the present invention are general terms that are widely used, these terms may be terms arbitrarily selected by the applicant in a specific case, and in this case, these terms should be interpreted as not the titles of the terms but the meaning described in the detailed description for implementing the invention or the meaning of the terms.

(9) Hereinafter, a technical configuration of the present invention will be described in detail with reference to preferred embodiments illustrated in the accompanying drawings.

(10) However, it should be understood that the present invention is not limited to the following embodiments and may be embodied in different ways. Wherever possible, the same reference numerals will be used throughout the drawings and the description to refer to the same or like parts.

(11) FIG. 1 is a block diagram schematically illustrating an intra-oral sensor 100 according to an embodiment of the present invention, and FIG. 2 is a view illustrating the intra-oral sensor 100 according to the embodiment of the present invention.

(12) Referring to FIGS. 1 to 2, the intra-oral sensor 100 according to the embodiment of the present invention is provided for obtaining X-ray projection data of the oral cavity of a patient by being used for intraoral radiography for the patient. The intra-oral sensor 100 is configured to be capable of transmission of data and to be charged by electricity using a cradle 200 when mounting the intra-oral sensor 100 in an external device having the cradle 200, and the intra-oral sensor 100 includes: a sensing unit 110, a memory 120, data connector 130, a battery 140, a charging connector 150, and a casing 160.

(13) Here, the cradle 200 is provided for receiving the data from the intra-oral sensor 100 and charging of the intra-oral sensor 100 with electricity, and thus may be provided with a data receiving terminal 210 so as to receive the data and a charging terminal 220 to supply electric power for charging.

(14) Further, the data receiving terminal 210 and the charging terminal 220 may be provided individually or may be provided as a single terminal having a function of transmission of data and charging with electricity.

(15) Further, the cradle 200 may provide projection data transmitted from the intra-oral sensor 100 by being connected to a computing device 20 including a personal computer in a wired or wireless manner. To this end, the cradle 200 may contain a wireless communication module therein.

(16) The sensing unit 110 is provided for converting X-rays projected from an external X-ray projection device to an electrical signal including the projection data. The sensing unit 110 may include an image sensor that generates the electrical signal from X-rays and a signal processing means that processes the electrical signal and generates the projection data, in which the image sensor may adapt an indirect conversion method using a scintillator or a direct conversion method using a photoconductive layer.

(17) The memory 120 is provided for storage of the projection data and is electrically connected to the sensing unit 110, so the memory receives the electrical signal including the projection data from the sensing unit 110 and stores the electrical signal as data therein.

(18) Further, the memory 120 may be provided as a memory device capable of storing and preserving the projection data converted in the sensing unit 110, such as, flash memory or random access memory (RAM).

(19) Further, since the memory 120 is provided in the intra-oral sensor 100, the intra-oral sensor 100 can store and preserve the projection data even if the intra-oral sensor 100 is not provided with an additional communication cable. Thus, the intra-oral sensor 100 has a compact shape due to elimination of the communication cable and a communication module, thereby allowing easily positioning of the intra-oral sensor 100 in the oral cavity without interference of the communication cable during intraoral radiography of a patient.

(20) The data connector 130 is provided for transmission of data with the external device including the cradle 200 and is electrically connected to the memory 120, so the data connector 130 transmits the projection data stored in the memory 120 to the external device including the cradle 200.

(21) Further, when mounting the intra-oral sensor 100 in the cradle 200, the data connector 130 comes into contact with the data receiving terminal 210 of the cradle 200, so the data connector 130 transmits the projection data stored in the memory 120.

(22) The battery 140 is provided for supply of driving power, particularly, driving power for operating the sensing unit 110, and when needed, the battery 140 may supply the driving power for operating the memory 120.

(23) Further, the battery 140 is provided as a rechargeable battery, preferably the battery 140 is charged with electricity by receiving external power and supplies charged electric power as the driving power.

(24) The charging connector 150 is provided for contact between the battery 140 and a means for external charging, so the battery 140 receives electric power for charging from outside. In other words, the charging connector 150 enables electrical connection between the battery 140 and the charging terminal 220 of the cradle 200.

(25) Further, when mounting the intra-oral sensor 100 in the cradle 200, the charging connector 150 comes into contact with the charging terminal 220 of the cradle 200 so the charging connector 150 supplies the external power to the battery 140.

(26) The casing 160 is provided for covering the sensing unit 110, the memory 120, and the battery 140 so as to prevent from exposure to the outside. The casing 160 protects against external shocks and impurities and prevents saliva of the patient from flowing into inside the casing 160 during intraoral radiography.

(27) Further, the casing 160 may have a shape in which an upper casing 160 and a lower casing 160 are coupled to each other, and may be at least waterproofed.

(28) The casing 160 has a structure in which the data connector 130 and the charging connector 150 are partially exposed to the outside, and may be further provided with an additional covering member (not shown) to cover the exposed parts of the data connector 130 and the charging connector 150.

(29) Therefore, in the intra-oral sensor 100 according to the embodiment of the present invention, there is no need for provision of the communication cable for transmission of the obtained projection data so it is possible to easily position the intra-oral sensor 100 in the oral cavity and prevent risk of breakage of internal components due to tension strength of the communication cable.

Mode for Invention

(30) FIG. 3 is a view illustrating an intra-oral sensing system according to an embodiment of the present invention, and FIG. 4 is a view illustrating a cross-section taken along line A-A of a cradle according to an embodiment of the present invention.

(31) Referring to FIGS. 3 to 4, the intra-oral sensing system according to the embodiment of the present invention is configured to include the intra-oral sensor 100 and the cradle 200 where intra-oral sensor 100 is mounted therein.

(32) Further, the intra-oral sensor 100 is provided to convert X-rays projected from the external projection device to the projection data so as to be stored in the memory 120 inside the intra-oral sensor 100, so there is no need for provision of the additional communication cable for transmission of data.

(33) Substantially, the above-mentioned intra-oral sensor 100 is identical to the intra-oral sensor 100 according to the embodiment of the present invention, so a more detailed description will be omitted.

(34) The cradle 200 may be provided with at least one mounting space 230 where the intra-oral sensor 100 is mounted therein, and may be provided with the data receiving terminal 210 receiving the projection data and the charging terminal 220 supplying the electric power for charging when mounting the intra-oral sensor 100 in the cradle 200. Here, the data receiving terminal 210 comes into contact with the data connector 130 of the intra-oral sensor 100, and the charging terminal 220 comes into contact with the charging connector 150 of the intra-oral sensor 100.

(35) In other words, the cradle 200 is configured to receive the projection data stored in the intra-oral sensor 100 and charge the intra-oral sensor 100 with electricity at the same time. To this end, the cradle 200 may receive external power.

(36) Further, the cradle 200 is connected to an external computing device, so when receiving the projection data from the intra-oral sensor 100, the cradle 200 supplies the projection data to the external computing device and supplies electric power received from the external computing device to the intra-oral sensor 100.

(37) Further, referring to FIG. 5, the cradle 200 may be further provided with a sterilizer 240 that sterilizes the intra-oral sensor 100 mounted in the mounting space 230 of the cradle 200.

(38) Further, the sterilizer 240 performs sterilization by being turned on when the intra-oral sensor 100 is mounted in the cradle 200.

(39) In other words, the intra-oral sensor 100 may be sterilized while at the same time transmitting the projection data or being charged with electricity. Thus, time and cost required for sterilization may be reduced.

(40) Further, in the present invention, the sterilizer 240 is provided as an ultraviolet lamp. However, the sterilizer 240 may be substituted with any lamp capable of sterilization.

(41) Further, FIG. 5 shows that one mounting space 230 is provided with one sterilizer 240. However, one mounting space 230 may be provided with a plurality of sterilizers 240, and a plurality of mounting spaces 230 may be provided with one sterilizer 240.

(42) Further, the sterilizer 240 is provided inside the cradle 200 rather than being provided in the mounting space 230, and thus may project sterilization light in the mounting space 230.

(43) Further, the cradle 200 may be provided additionally by being separated from the intra-oral sensing system.

(44) Further, FIG. 6 shows that another embodiment of the cradle 200, in which a cradle 200a according to another embodiment of the present invention is provided with a plurality of slots 231 and 231n where the intra-oral sensor 100 is mounted therein.

(45) In other words, the cradle 200a according to another embodiment of the present invention is a cradle capable of simultaneously mounting a plurality of the intra-oral sensors 100 therein.

(46) Further, the slots 231 and 231n are provided to be distinguishable from each other.

(47) For example, the slots 231 and 231n may be provided as ten slots, and may be distinguished with numbers of a first slot 231 to a tenth slot 231n.

(48) However, the number of the slots 231 and 231n is not be particularly limited.

(49) Further, the slots 231 and 231n may be distinguished with various identifiers such as not only figures but also letters or symbols or images, etc.

(50) Further, the slots 231 and 231n output their own identifiers together with the projection data when the projection data is output from intra-oral sensor 100 loaded in the slot.

(51) As a result, the projection data output from data output terminal 250 of the cradle 200a includes an identifier of a slot.

(52) Likewise, the reason why the projection data including the identifier of the slot is output from the intra-oral sensor 100 is because the intra-oral sensor 100 obtains image data of only a local area of the teeth so as to recognize which part in a set of teeth is represented by the image data corresponding to the obtained projection data.

(53) For example, the first to fifth slots out of ten slots may be used for receiving projection data of an upper jaw, and sixth to tenth slots may be used for receiving projection data of a lower jaw.

(54) Further, a first slot may be used for receiving projection data of a molar area of a right upper jaw, a fifth slot may be used for receiving projection data of a molar area of a left upper jaw, a sixth slot may be used for receiving projection data of a molar area of a right lower jaw, and a tenth slot may be used for receiving projection data of a molar area of a left lower jaw.

(55) In other words, when an operator performs intraoral radiography on the molar area of the right upper jaw of the patient using the intra-oral sensor 100 and then inserts the intra-oral sensor 100 into the first slot, the projection data of the molar area of the right upper jaw and the identifier of the first slot are output together through the data output terminal 230.

(56) Meanwhile, the projection data output from the cradle 200a is typically transmitted to a computer system 20 of the operator through a picture archiving and communication system (PACS) 10, so the projection data is displayed in the form of an electronic dental chart 21.

(57) Further, the electronic dental chart 21 is provided with a patient information output section 21a where patient information is output thereto and a teeth image output section 21b where the teeth image of the patient is output thereto, in which the teeth image output section 21b is provided with a plurality of partial teeth image output sections 21bb where the partial teeth image of the patient is output thereto.

(58) In other words, in the case that the projection data is data input into the first slot, the projection data is brought to be output to a section 21bb for displaying the molar area of the right upper jaw in the partial teeth image output sections 21bb. Thus, the operator can easily recognize which part in a set of teeth of the patient is represented by projection data corresponding to the projection data output to the section 21bb.

(59) Further, a process of transmitting the projection data of a radiography subject to the computing device will be briefly described by using the intra-oral sensing system according to the present invention. First, when not in use, the intra-oral sensor 100 is charged by being input electric power that is transmitted from the computing device through the cradle 200 while being mounted in the cradle 200.

(60) Next, when performing intraoral radiography on the radiography subject, the operator separates the intra-oral sensor 100 from the cradle 200 and inserts the sensor 100 into the subject's oral cavity, and then projects X-rays onto the intra-oral sensor 100 in the oral cavity of the radiography subject by using the external X-ray projection device, whereby the intra-oral sensor 100 generates projection data from X-rays and stores the projection data.

(61) Here, intraoral radiography on the radiography subject may be performed plural times so the intra-oral sensor 100 stores all of a plurality of the projection data, and the intra-oral sensor 100 is not provided with the additional communication and power cables so the intra-oral sensor 100 may be easily positioned inside the oral cavity of the radiography subject.

(62) Next, when removing the intra-oral sensor 100 from the oral cavity of the radiography subject and mounting it in the cradle 200, the projection data stored in the intra-oral sensor 100 is transmitted to the computing device 20 through the cradle 200 and the intra-oral sensor 100 is simultaneously charged with electricity. At the same time, the intra-oral sensor 100 is sterilized by the sterilizer 240.

(63) In other words, there is an advantage in that the intra-oral sensor 100 performs charging of electricity and transmission of the projection data at the same time through a simple process of mounting the intra-oral sensor 100 in the cradle 200.

(64) Next, the operator can recognize information about teeth in the oral cavity of the radiography subject through corresponding projection data that is transmitted to the computing device 20.

(65) Further, the projection data output from the cradle 200 may be transmitted to the computing device 20 of the operator through the picture archiving and communication system (PACS).

(66) Further, in the computing device 20, when the projection data input to the computing device 20 includes the identifier of the slot, the computing device 2 outputs the projection data that is input to the teeth image data output section 21b corresponding to the identifier of the slot in the teeth image data output section 21b of the electronic dental chart 21.

(67) Therefore, the operator can easily recognize which part in a set of teeth is represented by the projection data input to the computing device 20.

(68) Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

INDUSTRIAL APPLICABILITY

(69) The present invention can be used for an apparatus for obtaining a medical radiography image data, more particularly, for an apparatus for obtaining a dental radiography image data.