CN216724744U

CN216724744U - Age instrument box

Info

Publication number: CN216724744U
Application number: CN202122784467.8U
Authority: CN
Inventors: 马骁杰; 李一鸣; 邓昊晨; 裘帅斌; 陈俊兴; 闫丁予
Original assignee: Hangzhou Canglan Medical Technology Co ltd
Current assignee: Hangzhou Canglan Medical Technology Co ltd
Priority date: 2021-11-12
Filing date: 2021-11-12
Publication date: 2022-06-14
Anticipated expiration: 2031-11-12

Abstract

The utility model discloses a bone age instrument box body which comprises a detector, a first circuit board, a computer, a switch and a box body, wherein the first circuit board and the computer are both connected with a power line, the switch is connected onto the power line, the first circuit board comprises a data transmission module, the data transmission module is connected with the computer, the box body is made of radiation-proof materials, the box body is of a closed structure with a first cavity, an upper cover plate of the box body is provided with a rectangular beam port, the first circuit board and the computer are both fixedly arranged in the first cavity, the detector is fixedly arranged on an inner bottom plate of the box body, the detector is connected with the first circuit board, the switch is arranged at the lower end of the outer side surface of the box body, and the lower end of the side wall of the box body is provided with an inspection port. The utility model aims to provide a bone age instrument box body which is small in size, convenient to move, compact in structure and convenient to disassemble and assemble.

Description

Box body of bone age instrument

Technical Field

The utility model relates to the field of medical equipment, in particular to an age meter box.

Background

The bone age is called bone age for short, is determined by the degree of calcification of bones, is a bone system which can reflect the growth time most easily and truly in the growth and development process of people, can accurately reflect the development level of people at each age stage from birth to complete maturity, and has important functions in the aspects of analysis and diagnosis of developmental diseases, endocrine diseases, developmental disorders, nutritional disorders, hereditary diseases and metabolic diseases.

At present, the traditional bone age detection method comprises the following steps: the patient opens an examination order at a doctor, and then goes to a radiology department to take a picture through a DR machine; after the shooting is finished, the registration of 20 key points is manually evaluated by a doctor, and the bone age is calculated according to grade grading; and then, calculating the contents of target height, percentile and the like according to the data of the bone age, height, weight and the like of the patient for further calculation, and finally giving a report, wherein the doctor makes a diagnosis through the report, and the diagnosis process of the patient is complicated, time-consuming and labor-consuming.

There are two types of devices available to detect bone age: the method comprises the following steps that firstly, the DR equipment needs to be shot in a radiology department, the radiation dose is large during shooting, the whole body of a patient is exposed to X-rays, other systems need to be matched for calculation, or the bone age is estimated in a manual mode; bone age assessment software is not provided with shooting equipment, and can be used only by being guided into a software system after X-ray films are shot on other equipment, so that the traditional diagnosis process can be used for detection, the whole process cannot be simplified, the X-ray films required by bone age assessment can be guided in from the outside, the shooting quality cannot be guaranteed, the consistency of the quality of the films during multiple shooting cannot be guaranteed, and errors of assessment results are caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bone age instrument box body which is small in size, convenient to move, compact in structure and convenient to disassemble and assemble.

The utility model relates to a bone age instrument box body, which comprises a detector, a first circuit board, a computer, a switch and a box body, the first circuit board and the computer are both connected with a power line, the power line is connected with the switch, the first circuit board comprises a data transmission module, the data transmission module is connected with the computer, the box body is made of radiation-proof materials, the box body is of a closed structure with a first cavity, the upper cover plate of the box body is provided with a rectangular light beam port, the first circuit board and the computer are fixedly arranged in the first cavity, the detector is fixedly arranged on the inner bottom plate of the box body and is connected with the first circuit board, the switch set up in the lower extreme of box body lateral surface, the lower extreme of box body lateral wall is provided with an inspection opening.

The bone age meter box body is characterized in that a vertical plate is arranged in the first cavity, the vertical plate divides the first cavity into a second cavity with a smaller space and a third cavity with a larger space, the first circuit board and the computer are fixedly arranged on the vertical plate in the second cavity, and the detector is positioned in the third cavity.

According to the bone age instrument box body, an infrared sensor and a two-dimensional code sensor are arranged on an inner bottom plate of the box body in the third cavity, a groove with a detector as a groove bottom is formed among the infrared sensor, the two-dimensional code sensor and the detector, detection ends of the infrared sensor and the two-dimensional code sensor extend out of the box body, and the infrared sensor and the two-dimensional code sensor are connected with the first circuit board.

The bone age meter box body is characterized in that an inspection door is arranged on the side wall of the box body and fixedly connected with the box body through a fastener, an inspection opening is formed in the inspection door, and a door curtain made of tungsten materials is arranged in the inspection opening.

The bone age meter box body is characterized in that the inspection door is also provided with an observation window made of lead glass, and the observation window is positioned above the inspection opening.

According to the bone age meter box body, the side wall of the box body, which is arranged in the second cavity and opposite to the vertical plate, is provided with the maintenance plate, and the maintenance plate is fixedly connected with the box body through a fastener.

The utility model relates to a bone age instrument box body, wherein handles are respectively arranged on two opposite sides of a bottom plate of a box body.

The utility model relates to a bone age meter box, wherein a plurality of flexible cushions are arranged below a bottom plate of a box body.

The bone age instrument box body is different from the prior art in that the detector, the first circuit board and the computer are arranged in the box body with a closed structure, the outer side surface of the box body is provided with a switch, the side wall of the box body is provided with an inspection opening, the upper cover plate of the box body is provided with a rectangular beam opening, the first circuit board and the computer are both connected with a power line, the power line is connected with the switch, and the data transmission module is connected with the computer, so that the bone age instrument box body which is small in size, compact in structure, convenient to move, convenient to disassemble and assemble and convenient to carry equipment to use in other places besides hospital detection is provided. When diagnosing the bone age of a patient, the bone age instrument box body is matched with the X-ray generator to realize the whole operation flow of registration, shooting, reading, evaluation and reporting, thereby greatly simplifying the examination steps and improving the bone age diagnosis efficiency of a hospital.

The utility model will be further explained with reference to the drawings.

Drawings

FIG. 1 is a front view of a bone age meter housing of the present invention;

FIG. 2 is a rear view of the bone age meter housing of the present invention;

FIG. 3 is a top view of the bone age meter housing of the present invention;

FIG. 4 is a schematic diagram of the internal structure of the bone age apparatus box of the present invention;

FIG. 5 is a front view of a bone age detection system using the present invention;

FIG. 6 is a rear view of a bone age detection system using the present invention;

fig. 7 is a schematic view showing the internal structure of a bone age detection system using the present invention.

Detailed Description

As shown in fig. 1-4, the bone age meter case of the present invention comprises a probe 1, a first circuit board 2, computer 5, switch 3 and box body 4, first circuit board 2 and computer 5 all are connected with the power cord, be connected with switch 3 on the power cord, first circuit board 2 includes data transmission module, data transmission module is connected with computer 5, box body 4 is made by radiation protection material, box body 4 is for the closed structure who has first cavity, box body 4's upper cover plate 6 is provided with a rectangular beam light mouth 7, first circuit board 2 and computer 5 all fixed set up in the first cavity, detector 1 is fixed to be set up on box body 4's infrabasal plate, detector 1 is connected with first circuit board 2, switch 3 sets up in the lower extreme of box body 4 lateral surface, the lower extreme of box body 4 lateral wall is provided with an inspection hole.

In the embodiment, the riser 8 is arranged in the first cavity, the riser 8 divides the first cavity into the second cavity with a smaller space and the third cavity with a larger space, the first circuit board 2 and the computer 5 are both fixedly arranged on the riser 8 in the second cavity, the detector 1 is positioned in the third cavity, and the riser 8 can maximally utilize the internal space of the bone age instrument box body, so that the structural arrangement of the bone age instrument box body is more reasonable and compact.

Be provided with infrared sensor 9 and two-dimensional code sensor 10 on the infrabasal plate of box body 4 in the third cavity in this embodiment, infrared sensor 9, form between two-dimensional code sensor 10 and the detector 1 and use detector 1 to be the recess of tank bottom, infrared sensor 9 and two-dimensional code sensor 10's detection end all extends to outside the box body 4, infrared sensor 9 and two-dimensional code sensor 10 all are connected with first circuit board 2, infrared sensor 9 and two-dimensional code sensor 10's setting has improved the automatic diagnostic ability of this embodiment bone age appearance box, the diagnostic flow of patient has been simplified.

Be equipped with inspection door 11 on the lateral wall of box body 4 in this embodiment, inspection door 11 passes through fastener and box body 4 fixed connection, and the inspection opening sets up on inspection door 11, is provided with door curtain 12 that the tungsten material made in the inspection opening, and door curtain 12 can prevent X ray's leakage effectively.

In this embodiment, the inspection door 11 is further provided with an observation window 13 made of lead glass, the observation window 13 is located above the inspection opening, the arrangement of the observation window 13 enables a doctor to observe the hand position of a patient in real time, and repeated shooting caused by position error can be conveniently and timely adjusted and avoided.

In this embodiment, the side wall of the box body 4 arranged opposite to the vertical plate 8 in the second cavity is provided with the access panel 14, the access panel 14 is fixedly connected with the box body 4 through a fastener, and the access panel 14 can be detached, so that the first circuit board 2 and the computer 5 can be conveniently installed and maintained.

In order to facilitate the movement and the transportation of the bone age instrument box body of the utility model, handles 15 are respectively arranged on two opposite sides of the bottom plate of the box body 4.

In order to reduce the vibration of the bone age instrument box body of the utility model, a plurality of flexible cushions 16 are arranged below the bottom plate of the box body 4.

The bone age instrument box of the utility model can be provided with a wireless communication module (not shown in the figure) to realize the utility model for diagnosing the bone age condition of a patient through remote operation of a tablet or a computer. The fastening member in this embodiment may be a bolt, a screw, or a rivet, or may be other fastening members as long as they can perform a fixing function.

In the bone age instrument box body, a detector 1, a first circuit board 2 and a computer 5 are all arranged in a box body 4 with a closed structure, a switch 3 is arranged on the outer side surface of the box body 4, an inspection opening is arranged on the side wall of the box body 4, a rectangular beam opening 7 is arranged on an upper cover plate 6 of the box body 4, the first circuit board 2 and the computer 5 are both connected with a power line, the switch 3 is connected with the power line, and a data transmission module is connected with the computer 5, so that the bone age instrument box body which is small in size, compact in structure, convenient to move, convenient to disassemble and assemble and capable of bringing convenience to equipment used in other places besides hospital detection is provided. When diagnosing the bone age of a patient, the bone age instrument box body is matched with the X-ray generator to realize the whole operation flow of registration, shooting, reading, evaluation and reporting, thereby greatly simplifying the examination steps and improving the bone age diagnosis efficiency of a hospital.

To facilitate a clear description of the bone age monitor housing of the present invention, a bone age monitor system using the present invention will now be described: as shown in FIGS. 5 to 7, a bone age detecting system using the present invention comprises a box body 17 fixedly disposed above an upper cover plate 6 of a box body 4 by a fastener, the box body 17 is made of a radiation-proof material, the upper cover plate 6 of the box body 4 is a lower base plate of the box body 17, an inner cavity of the box body 17 is a fourth cavity, a trapezoidal bracket 18 is disposed in the fourth cavity, the trapezoidal bracket 18 is fixedly disposed on the lower base plate of the box body 17, two legs of the trapezoidal bracket 18 are respectively disposed at two opposite sides of a beam port 7, an X-ray bulb 19 is disposed in the box body 17, the X-ray bulb 19 is fixedly disposed at a top end of the trapezoidal bracket 18, a second circuit board 20 connected to a power line is disposed in the box body 17, the second circuit board 20 is fixedly disposed on any one of the two legs of the trapezoidal bracket 18, the second circuit board 20 comprises a high voltage generator connected to the X-ray bulb 19, the high voltage generator is connected to a computer 5.

The working principle of using the bone age detection system of the present invention is described below:

firstly, the switch 3 is turned on, a patient comes to the front side of the bone age detection system and places a two-dimensional code recording personal information (such as height, weight, age, height of parents and the like) at the position of a two-dimensional code sensor 10, the two-dimensional code sensor 10 transmits the acquired information to a first circuit board 2, meanwhile, an infrared sensor 9 transmits the acquired information (whether the patient is on the front side of a box body 4) to the first circuit board 2, then the patient places the hand in a groove formed by the infrared sensor 9, the two-dimensional code sensor 10 and a detector 1 through an inspection opening, the first circuit board 2 transmits the received information from the two-dimensional code sensor 10 and the infrared sensor 9 to a computer 5 through a built-in data transmission module, the computer 5 sends an instruction to a high voltage generator in a second circuit board 20 after analyzing and recording, the high voltage generator enables an X-ray bulb 19 to send an X-ray beam in a scattering state, the X-ray beam in a scattering state passes through a beam port 7 on an upper cover plate 6 and then is converted into a fan-shaped X-ray beam, the fan-shaped X-ray beam passes through the hand of a patient and then enters a detector 1, the detector 1 transmits acquired information to a first circuit board 2, the first circuit board 2 transmits the received information from the detector 1 to a computer 5 through a built-in data transmission module, the computer 5 automatically evaluates and calculates the bone age of the patient within a few seconds after analysis and processing, then the computer 5 displays the evaluation result to a doctor through a browsing device connected with the outside, the doctor can adjust the evaluation result as required to evaluate the condition of the patient, the computer 5 can also provide data such as the bone age, a percentile graph, a target body and the like and display the data to the doctor for reference through the browsing device connected with the outside, the doctor diagnoses the condition of the patient according to the data, and finally generates a report according to the condition of the patient, therefore, the bone age detection system can independently complete the whole operation flow of registration, shooting, reading, evaluation and report, greatly simplifies the examination steps and improves the bone age diagnosis efficiency of hospitals.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims

1. The utility model provides an age appearance box which characterized in that: including detector, first circuit board, computer, switch and box body, first circuit board and computer all are connected with the power cord, be connected with on the power cord the switch, first circuit board includes data transmission module, data transmission module with the computer is connected, the box body is made by radiation protection material, the box body is for having the closed structure of first cavity, the upper cover plate of box body is provided with a rectangle beam light mouth, first circuit board and computer all fixed set up in the first cavity, the detector fixed set up in on the infrabasal plate of box body, the detector with first circuit board is connected, the switch set up in the lower extreme of box body lateral surface, the lower extreme of box body lateral wall is provided with an inspection opening.

2. The bone age instrument housing of claim 1, wherein: the detector is characterized in that a vertical plate is arranged in the first cavity, the vertical plate divides the first cavity into a second cavity with a smaller space and a third cavity with a larger space, the first circuit board and the computer are fixedly arranged on the vertical plate in the second cavity, and the detector is located in the third cavity.

3. The bone age instrument housing of claim 2, wherein: the utility model discloses a box body, including box body, third cavity, infrared ray sensor and two-dimensional code sensor, be provided with infrared ray sensor and two-dimensional code sensor on the infrabasal plate of box body in the third cavity, form between infrared ray sensor, two-dimensional code sensor and the detector and use the detector to be the recess of tank bottom, infrared ray sensor and two-dimensional code sensor's detection end all extends to this is external to the box, infrared ray sensor and two-dimensional code sensor all with first circuit board is connected.

4. The bone age instrument housing of claim 3, wherein: the side wall of the box body is provided with an inspection door, the inspection door is fixedly connected with the box body through a fastening piece, an inspection opening is formed in the inspection door, and a door curtain made of tungsten materials is arranged in the inspection opening.

5. The bone age instrument housing of claim 4, wherein: the inspection door is further provided with an observation window made of lead glass, and the observation window is located above the inspection opening.

6. The bone age instrument housing of claim 5, wherein: and an access panel is arranged on the side wall of the box body in the second cavity and opposite to the vertical plate, and the access panel is fixedly connected with the box body through a fastener.

7. The bone age instrument housing of claim 6, wherein: and handles are respectively arranged on two opposite sides of the bottom plate of the box body.

8. The bone age meter box of claim 7, wherein: a plurality of flexible pads are arranged below the bottom plate of the box body.