LU501916B1 - Device for preventing and diagnosing osteoporosis - Google Patents

Abstract

The invention provides a device for preventing and diagnosing osteoporosis, including a supporting device, wherein the supporting device is fixedly connected to an injection portion, and the injection portion is slidably sheathed on a cleaning and protecting portion; the supporting device is rotatably shaft-connected with a diagnosing device, and a bottom portion of the supporting device is rotatably shaft-connected with a lead protecting device respectively; and a driving device, wherein there are two groups of the driving devices, and the two groups of the driving devices have the same structure; and the two groups of the driving devices are respectively slidably connected to the supporting device, each of two ends of the two groups of the driving devices is fixedly connected with a propulsion portion, and the two propulsion portions are both rotatably and threadedly connected with an adjusting and driving portion.

Description

DEVICE FOR PREVENTING AND DIAGNOSING OSTEOPOROSIS LUS01916

TECHNICAL FIELD

[01] The present invention belongs to the technical field of medical apparatuses and instruments, and more specifically, particularly relates to a device for preventing and diagnosing osteoporosis.

BACKGROUND ART

[02] Osteoporosis is a systemic bone disease in which the bone density and bone quality are decreased due to various reasons, with destroyed bone microstructure and then increased bone fragility, which easily causes the bone fracture; and medical apparatuses and instruments refer to an instrument, a device, an appliance, a vitro diagnostic reagent and a calibrator, a material and other similar or related articles that are directly or indirectly used in a human body. Therefore, a good preventive and diagnostic device for an osteoporosis population is particularly important.

[03] Based on the prior art, it is found that the existing device for preventing and diagnosing the osteoporosis is not provided with a scanning device that may be used for detection and diagnosis of different body parts. It is not flexible and convenient to use, and may not adjust scanning parameters, so that errors exist in scanning data; a preventing and scanning protective device is not arranged, which may not provide better radioactive protection for patients and medical staff, and result in potential safety hazards. An integrated aseptic positioning injection device is not arranged, so that the vein positioning is inaccurate while being injected with a contrast agent, and it is easy to cause infection; meanwhile, the patients have a secondary injury because of repeated injections from the inaccurate positioning, and the degree of pain is increased.

SUMMARY

[04] In order to solve the above technical problems, the present invention provides a device for preventing and diagnosing osteoporosis, so as to solve the problems that the existing device for preventing and diagnosing the osteoporosis is not provided with a scanning device that may be used for detection and diagnosis of different body parts; it is not flexible and convenient to use, and may not adjust scanning parameters, so that errors exist in scanning data; a preventing and scanning protective device is not arranged, which may not provide better radioactive protection for patients and medical staff, and result in potential safety hazards; an integrated aseptic positioning injection device is not arranged, so that the vein positioning is inaccurate while being injected with a contrast agent, and it is easy to cause infection, meanwhile, the patients have a secondary injury because of repeated injections caused by the inaccurate positioning, and the degree of pain is increased.

[05] The purpose and efficacy of the device for preventing and diagnosing the osteoporosis of the present invention are achieved by the following specific technical means.

[06] A device for preventing and diagnosing osteoporosis includes:

[07] a supporting device, wherein the supporting device is fixedly connected to an 1 injection portion, and the injection portion is slidably sheathed on a cleaning and LU501916 protecting portion; the supporting device is rotatably shaft-connected with a diagnosing device, and a bottom portion of the supporting device is rotatably shaft-connected with a lead protecting device respectively; and

[08] a driving device, wherein there are two groups of the driving devices, and the two groups of the driving devices have the same structure; the two groups of the driving devices are respectively slidably connected to the supporting device, each of two ends of the two groups of the driving devices is fixedly connected with a propulsion portion, and the two propulsion portions are both rotatably and threadedly connected with an adjusting and driving portion; and front sides of the two propulsion portions are rotatably and threadedly connected with an angle fixing portion respectively.

[09] Further, the driving device includes:

[10] a slider rack, wherein there are four slider racks, and the four slider racks are respectively slidably connected to the supporting body, and the slider racks are meshed by two reversing gears respectively; and

[11] a gear, wherein there are two gears, and the two gears are both rotatably shaft-connected to the supporting body; by adopting a mode of meshing the slider racks and the gears, the two propulsion plates may be driven to move oppositely at the same time; and by a mode of simultaneous movement of the two propulsion plates arranged, the positioning and scanning work of a central lumbar vertebra and the like may be achieved, it is guaranteed that the scanning position of a scanner is aligned with a spine and the like, and the scanning accuracy is improved.

[12] Further, the angle fixing portion includes:

[13] a positioning groove, wherein the positioning groove is fixedly connected to the positioning plate; and

[14] a positioning screw rod, wherein the positioning screw rod is rotatably and threadedly connected to the propulsion plate, a bottom portion of the positioning screw rod is provided with a horizontal shaft, and the positioning screw rod is slidably connected to the positioning groove by the bottom horizontal shaft.

[15] Further, the cleaning and protecting portion includes:

[16] a cleaning and protecting box, wherein the cleaning and protecting box is slidably sheathed on the injection needle, a bottom portion of the cleaning and protecting box is provided with medical skin adhesive glue, and the cleaning and protecting box is made of a transparent material; and

[17] a cleaning slide plate, wherein the cleaning slide plate is slidably inserted in the bottom portion of the cleaning and protecting box, and a bottom portion of the cleaning slide plate is provided with a cleaning cotton block.

[18] Further, the supporting device includes:

[19] a supporting body, wherein the supporting body is fixedly connected to the injection portion; and

[20] a thread rod, wherein the thread rod is rotatably shaft-connected to the supporting body by a bracket.

[21] Further, the lead protecting device includes:

[22] a lead protecting plate, wherein the lead protecting plate is rotatably 2 shaft-connected to a bottom portion of the supporting body by the bracket; and LU501916

[23] a linkage groove, wherein the linkage groove is fixedly connected to the lead protecting plate, and a linkage frame is slidably sheathed on the linkage groove; in the movement process of the linkage frame along with the two propulsion plates, the angle of the two lead protecting devices may be driven to change; during the process that the two propulsion plates are pulled outwards, the angle of the two lead protecting plates may be expanded in a mode that the linkage groove is slidably sheathed with the linkage frame; during the process that the two propulsion plates are moved inwards, the lead protecting plates may be driven to shrink inwards; the process is simple and efficient, not only the effective protecting effect may be guaranteed, but also it is convenient for installation of the device on a human body by expansion.

[24] Further, the propulsion portion includes:

[25] a propulsion plate, wherein two groups of the propulsion plates are fixedly arranged, and the structures on the two groups of the propulsion plates are the same; and the two groups of the propulsion plates are respectively fixedly connected on both sides of the driving device;

[26] a linkage frame, wherein the linkage frame is fixedly connected to the propulsion plate; and

[27] a tension spring, wherein the tension spring is fixedly connected between the two propulsion plates.

[28] Further, the injection portion includes:

[29] an injection pump, wherein the injection pump is fixedly connected to the supporting body; and

[30] an injection needle, wherein the injection needle is slidably sheathed on the cleaning and protecting portion.

[31] Further, the diagnosing device includes:

[32] a bracket, wherein the bracket is rotatably shaft-connected to the supporting body, and the bracket is provided with an electric screw rod;

[33] fan-shaped teeth, wherein the fan-shaped teeth are fixedly connected to a shaft end of the scanning bracket, and the fan-shaped teeth are meshed with the thread rod, and

[34] a scanner, wherein the scanner is slidably connected to the scanning bracket, and the scanner is driven by the electric screw rod.

[35] Further, the adjusting and driving portion includes:

[36] an adjusting screw rod, wherein the adjusting screw rod is rotatably and threadedly connected to the propulsion plate; and

[37] a positioning plate, wherein the positioning plate is rotatably shaft-connected to the adjusting screw rod.

[38] Compared with the prior art, the present invention has the following beneficial effects.

[39] 1. In this device, the supporting device is arranged. By arranging the thread rod on the supporting device, the entire diagnosing device may be driven to rotate and adjust. During the process, in the mode that the fan-shaped teeth are driven by rotating the thread rod, the structure is simple and the angle rotation of the scanner is achieved, 3 so that the scanning is more accurate. At the same time, the automatic limiting may be LU501916 achieved in a mode of driving by the arranged thread rod, and the stability of the scanner is ensured. The arranged driving device may drive the two propulsion plates to be oppositely moved at the same time in the mode that the slider rack is meshed with the gear. The positioning and scanning work of the central lumbar vertebra and the like may be achieved in the mode that the two propulsion plates arranged are moved at the same time, it is ensured that the scanning position of the scanner is aligned with the spine and the like. At the same time, the mode that the tension spring is fixedly connected between the two propulsion plates is adopted to achieve the automatic tightening, and it is more convenient. At the same time, the adjusting and driving portion is adopted, the positioning plate is driven to adjust the height by rotating the adjusting screw rod, and it is more flexible to use for the different body parts. At the same time, by arrangement of the angle fixing portion and the independent positioning screw rod, the positioning plate may be driven to adjust the angle during the process of being slidably connected in the positioning groove, and the use is more flexible. At the same time, a mode that the adjusting and driving portion is cooperated with the angle fixing portion to adjust the independent height and the angle is adopted to provide more accurate adjustment of a scanning distance of the scanner. The scanning accuracy of the scanner is effectively improved at the same time, avoiding the misdiagnosis, so that the prevention and diagnosis of the osteoporosis are accurate and effective.

[40] 2. In this device, the propulsion portion is arranged, and the propulsion plate on the propulsion portion is fixedly connected to the linkage frame. In the movement process of the linkage frame along with the two propulsion plates, the angle of the two lead protecting devices may be driven to change; during the process that the two propulsion plates are pulled outwards, the angle of the two lead protecting plates may be expanded in the mode that the linkage groove is slidably sheathed with the linkage frame; and during the process that the two propulsion plates are moved inwards, the lead protecting plates may be driven to shrink inwards. The process is simple and efficient, not only the effective protecting effect may be guaranteed, but also it is convenient for installation of the device on the human body by expansion; and the further protection is provided inside the device by arranging the lead protecting devices, the radiation is reduced in the greatest degree, and the patients and working staff are protected.

[41] 3. In this device, the injection portion is arranged. By adopting the mode that the injection portion is connected to the supporting device, the more convenient injection of the contrast agent may be achieved. At the same time, an injection mode of the injection pump is adopted, so that the control of an injection volume of the contrast agent is more accurate. The injection needle arranged adopts the mode of being slidably sheathed on the cleaning and protecting portion; and by cooperating with the cleaning and protecting portion, it may be more convenient for the injection after positioning a blood vessel, the injection is more accurate, and the injection error is avoided to cause the secondary injury to the patient. The cleaning and protecting box arranged on the cleaning and protecting portion may achieve a sterile and dust-free injection environment better; and by means of the cleaning slide plate arranged at the same time, 4 it may quickly stop bleeding after the injection is completed. The operation is simple LU501916 and efficient, and a wound is prevented from being infected. The cleaning and protecting box arranged may also assist the aseptic blood drawing sampling work, and it is more practical.

BRIEFT DESCRIPTION OF THE DRAWINGS

[42] FIG 1 is a schematic diagram of an overall structure of the present invention.

[43] FIG 2 is a schematic diagram of a front side structure of the present invention.

[44] FIG 3 is a schematic diagram of a bottom structure of the present invention.

[45] FIG 4 is a cross-sectional view of a side surface structure of the present invention.

[46] FIG S is a structure schematic diagram of a supporting device of the present invention.

[47] FIG 6 is a structure schematic diagram of a diagnosing device of the present invention.

[48] FIG 7 is a schematic diagram of a meshing connection structure of the diagnosing device of the present invention.

[49] FIG 8 is a structure schematic diagram of a driving device of the present invention.

[50] FIG 9 is a structure schematic diagram of a propulsion portion of the present invention. [S1] FIG 10 is a structure schematic diagram of an adjusting and driving portion of the present invention. [S2] FIG 11 is a structure schematic diagram of an angle fixing portion of the present invention. [S3] FIG 12 is a structure schematic diagram of a lead protecting device of the present invention. [S4] FIG 13 is a structure schematic diagram of an injection portion of the present invention. [S5] FIG 14 is a structure schematic diagram of a cleaning and protecting portion of the present invention. [S6] In the drawings, a corresponding relationship between component names and drawing numbers is as follows: 1. Supporting device; 101. Supporting body; 102. Thread rod; 2. Diagnosing device; 201. Bracket; 202. Fan-shaped teeth; 203. Scanner; 3. Driving device; 301. Slider rack; 302. Gear; 4. Propulsion portion; 401. Propulsion plate; 402. Linkage frame; 403. Tension spring; 5. Adjusting and driving portion; 501. Adjusting screw rod; 502. Positioning plate; 6. Angle fixing portion;

601. Positioning groove; 602. Positioning screw rod; LU501916 7. Lead protecting device; 701. Lead protecting plate; 702. Linkage groove; 8. Injection portion; 801. Injection pump; 802. Injection needle; 9. Cleaning and protecting portion; 901. Cleaning and protecting box; 902. Cleaning slide plate.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[S7] Implementation modes of the present invention are further described in detail below with reference to drawings and embodiments. The following embodiments are used to describe the present invention, but not to limit a scope of the present invention. [S8] In the description of the present invention, unless otherwise stated, "plurality" means two or more; the orientation or position relationship indicated by terms "upper", "lower", "left", "right", "inner", "outer", "front end", "rear end", "head", "tail" and the like is based on an orientation or position relationship shown in the drawings, only for the convenience of describing the present invention and simplifying the description, but not to indicate or imply that a referred device or element must have a specific orientation or be constructed and operated in the specific orientation. Thus, it may not be construed as limitation to the present invention. In addition, terms "first", "second", "third" and the like are used for a descriptive purpose only, and should not be construed to indicate or imply the relative importance. [S9] In the description of the present invention, it should be noted that, unless otherwise expressly specified and limited, terms "connected" and "linked" should be understood in a broad sense, for example, it may be a fixed connection, or a detachable connection, or an integral connection; it may be a mechanical connection, or an electrical connection; and it may be a direct connection, or an indirect connection by an intermediate medium. For those of ordinary skill in the art, the specific meanings of the above terms in the present invention may be understood in specific situations.

[60] Embodiment

[61] As shown in FIG 1 to FIG 14,

[62] the present invention provides a device for preventing and diagnosing osteoporosis, including a supporting device 1, wherein the supporting device 1 is fixedly connected to an injection portion 8, and the injection portion 8 is slidably sheathed on a cleaning and protecting portion 9; the supporting device 1 is rotatably shaft-connected with a diagnosing device 2, and a bottom portion of the supporting device 1 is rotatably shaft-connected with a lead protecting device 7 respectively; and a driving device 3, wherein there are two groups of the driving devices 3, and the two groups of the driving devices 3 have the same structure; the two groups of the driving devices 3 are respectively slidably connected to the supporting device 1, each of two ends of the two groups of the driving devices 3 is fixedly connected with a propulsion portion 4, and the two propulsion portions 4 are both rotatably and threadedly connected with an adjusting and driving portion 5; and front sides of the two propulsion portions 4 are rotatably and threadedly connected with an angle fixing portion 6 respectively. 6

[63] As shown in FIG 5 to FIG 11, the supporting device 1 includes a supporting LUS01916 body 101, wherein the supporting body 101 is fixedly connected to the injection portion 8; and a thread rod 102, wherein the thread rod 102 is rotatably shaft-connected to the supporting body 101 by a bracket.

The diagnosing device 2 includes a bracket 201, wherein the bracket 201 is rotatably shaft-connected to the supporting body 101, and the bracket 201 is provided with an electric screw rod; fan-shaped teeth 202, wherein the fan-shaped teeth 202 are fixedly connected to a shaft end of the scanning bracket 201, and the fan-shaped teeth 202 are meshed with the thread rod 102; and a scanner 203, wherein the scanner 203 is slidably connected to the scanning bracket 201, and the scanner 203 is driven by the electric screw rod.

The driving device 3 includes a slider rack 301, wherein there are four slider racks 301, and the four slider racks 301 are respectively slidably connected to the supporting body 101, and the slider racks 301 are meshed by two reversing gears 302 respectively; and a gear 302, wherein there are two gears 302, and the two gears 302 are both rotatably shaft-connected to the supporting body 101. The adjusting and driving portion 5 includes an adjusting screw rod 501, wherein the adjusting screw rod 501 is rotatably and threadedly connected to the propulsion plate 401; and a positioning plate 502, wherein the positioning plate 502 is rotatably shaft-connected to the adjusting screw rod 501. The angle fixing portion 6 includes a positioning groove 601, wherein the positioning groove 601 is fixedly connected to the positioning plate 502; and a positioning screw rod 602, wherein the positioning screw rod 602 is rotatably and threadedly connected to the propulsion plate 401, a bottom portion of the positioning screw rod 602 is provided with a horizontal shaft, and the positioning screw rod 602 is slidably connected to the positioning groove 601 by the bottom horizontal shaft.

The supporting device 1 is arranged, and the entire diagnosing device 2 may be driven to rotate and adjust by providing the thread rod 102 on the supporting device 1. During the process, in the mode that the fan-shaped teeth 202 are driven by rotating the thread rod 102, the structure is simple and the angle rotation of the scanner 203 is achieved, so that the scanning is more accurate.

At the same time, the automatic limiting may be achieved in a mode of driving by the arranged thread rod 102, and the stability of the scanner 203 is ensured.

The arranged driving device may drive the two propulsion plates 401 to be oppositely moved at the same time in the mode that the slider rack 301 is meshed with the gear 302. The positioning and scanning work of the central lumbar vertebra and the like may be achieved in the mode that the two propulsion plates 401 arranged are moved at the same time; and it is ensured that the scanning position of the scanner 203 is aligned with the spine and the like.

At the same time, the mode that the tension spring 403 is fixedly connected between the two propulsion plates 401 is adopted to achieve the automatic tightening, and it is more convenient.

At the same time, the adjusting and driving portion 5 is adopted, the positioning plate 502 is driven to adjust the height by rotating the adjusting screw rod 501, and it is more flexible to use for the different body parts.

At the same time, by arrangement of the angle fixing portion 6 and the independent positioning screw rod 601, the positioning plate 502 may be driven to adjust the angle during the process of being slidably connected in the positioning groove 602, and the use is more flexible.

At the same time, a mode that the adjusting and driving portion 5 is cooperated 7 with the angle fixing portion 6 to adjust the independent height and the angle is adopted LU501916 to provide more accurate adjustment of a scanning distance of the scanner 203, and the scanning accuracy of the scanner 203 is effectively improved at the same time, avoiding the misdiagnosis, so that the diagnosis of the osteoporosis is accurate and effective. At the same time, the accurate detection may play an effective prevention role, and reduce the incidence of the osteoporosis.

[64] As shown in FIGS. 9 and 12, the propulsion portion 4 includes a propulsion plate 401, wherein two groups of the propulsion plates 401 are fixedly arranged, the structures on the two groups of the propulsion plates 401 are the same, and the two groups of the propulsion plates 401 are respectively fixedly connected on both sides of the driving device 3; a linkage frame 402, wherein the linkage frame 402 is fixedly connected to the propulsion plate 401; and a tension spring 403, wherein the tension spring 403 is fixedly connected between the two propulsion plates 401. The lead protecting device 7 includes a lead protecting plate 701, wherein the lead protecting plate 701 is rotatably shaft-connected to a bottom portion of the supporting body 101 by the bracket; and a linkage groove 702, wherein the linkage groove 702 is fixedly connected to the lead protecting plate 701, and a linkage frame 402 is slidably sheathed on the linkage groove 702. The propulsion portion 4 is arranged, and the propulsion plate 401 on the propulsion portion 4 is fixedly connected to the linkage frame 402. In the movement process of the linkage frame 402 along with the two propulsion plates 401, the angle of the two lead protecting devices 7 may be driven to change; during the process that the two propulsion plates are pulled outwards, the angle of the two lead protecting plates 701 may be expanded in the mode that the linkage groove 702 is slidably sheathed with the linkage frame 402, and during the process that the two propulsion plates 401 are moved inwards, the lead protecting plates 701 may be driven to shrink inwards, the process is simple and efficient, not only the effective protecting effect may be guaranteed, but also it is convenient for installation of the device on the human body by expansion; and the further protection is provided inside the device by arranging the lead protecting devices 7, the radiation is reduced in the greatest degree, and the patients and working staff are protected.

[65] As shown in FIGS. 13 and 14, the injection portion 8 includes an injection pump 801, wherein the injection pump 801 is fixedly connected to the supporting body 101; and an injection needle 802, wherein the injection needle 802 is slidably sheathed on the cleaning and protecting portion 9. The cleaning and protecting portion 9 includes: a cleaning and protecting box 901, wherein the cleaning and protecting box 901 is slidably sheathed on the injection needle 802, and a bottom portion of the cleaning and protecting box 901 is provided with medical skin adhesive glue; and a cleaning slide plate 902, wherein the cleaning slide plate 902 is slidably inserted in the bottom portion of the cleaning and protecting box 901, and a bottom portion of the cleaning slide plate 902 is provided with a cleaning cotton block. The injection portion 8 is arranged, and by adopting the mode that the injection portion 8 is connected to the supporting device 1, the more convenient injection of the contrast agent may be achieved. At the same time, an injection mode of the injection pump 801 is adopted, so that the control of an injection volume of the contrast agent is more accurate. The injection needle arranged 8 adopts the mode of being slidably sheathed on the cleaning and protecting portion 9; LU501916 and by cooperating with the cleaning and protecting portion 9, it may be more convenient for the injection after positioning a blood vessel, the injection is more accurate, and the injection error is avoided to cause the secondary injury to the patient.

The cleaning and protecting box 901 arranged on the cleaning and protecting portion 9 may achieve a sterile and dust-free injection environment better; and by means of the cleaning slide plate 902 arranged at the same time, it may quickly stop bleeding after the injection is completed. The operation is simple and efficient, and a wound is prevented from being infected. The cleaning and protecting box 901 arranged may also assist the aseptic blood drawing sampling work, and it is more practical.

[66] In another embodiment, other structures remain unchanged. This embodiment provides another structural form of the linkage frame 402. A rubber sleeve is sheathed on the front side of the linkage frame 402; and the wear resistance between the linkage frame 402 and the linkage groove 702 may be effectively improved by arranging the rubber sleeve, and the service life is improved.

[67] In use, firstly, the propulsion plate 401 on the device is pulled; and during the process, the driving device arranged may drive the two propulsion plates 401 to be oppositely moved at the same time by adopting the mode that the slider rack 301 is meshed with the gear 302. In the mode that the two propulsion plates 401 are moved at the same time, the positioning and scanning work of the central lumbar vertebra and the like may be achieved; and it is ensured that the scanning position of the scanner 203 is aligned with the spine and the like. In the clamping process of the two propulsion plates 401; and in the mode that the linkage groove 702 is slidably sheathed with the linkage frame 402, the angle of the two lead protecting plates 701 may be expanded during the process that the two propulsion plates 401 are pulled outwards. During the process that the two propulsion plates 401 are moved inwards, the two lead protecting plates 701 may be driven to shrink inwards; and the process is simple and efficient, not only the effective protecting effect may be guaranteed, but also it is convenient for installation of the device on the human body by expansion. At the same time, in the mode that the tension spring 403 is fixedly connected between the two propulsion plates 401, and during the automatic tightening process, the positioning plate 502 is driven to adjust the height by rotating the adjusting screw rod 501, the use is more flexible for the different body parts. At the same time, the arranged angle fixing portion 6 is cooperated; and by arranging the independent positioning screw rod 601, the positioning plate 502 may be driven to adjust the angle during the process of being slidably connected to the positioning groove 602. After the positioning and fixing work for the patient is completed, the scanner 203 may be driven and adjusted in a mode of rotating the thread rod 102 to mesh and drive the fan-shaped teeth 202. Subsequently, under the driving of the electric screw rod, the scanner 203 may be driven to scan the bone density of the patient. During the process, the two lead protecting plates 701 may reduce the radiation damage. Before that, while the injection of the contrast agent is performed on the patient, an injection site is firstly disinfected and wiped, and then the injection position is checked and positioned. After the positioning is completed, the cleaning and protecting box 901 is bonded to the skin at the injection site, and then the injection needle 802 is 9 used for accurate injection in a mode of sliding. After the injection is completed, the LU501916 cleaning slide plate 902 slides, the cleaning cotton block at the bottom portion of the cleaning slide plate 902 fits the injection wound to stop the bleeding, and finally the prevention and diagnosis work for the osteoporosis is completed.

[68] The embodiments of the present invention are presented for purposes of illustration and description, and are not intended to be exhaustive or to limit the present invention to the form disclosed. Many modifications and variations are apparent to those of ordinary skill in the art. The embodiments are chosen and described in order to better explain the principles and practical applications of the present invention, and to enable those of ordinary skill in the art to understand the present invention, thereby the various embodiments with the various modifications suitable for specific uses are designed.

Claims (10)

WHAT IS CLAIMED IS: LUS01916

1. A device for preventing and diagnosing osteoporosis, characterized by comprising: a supporting device (1), wherein the supporting device (1) is fixedly connected to an injection portion (8), and the injection portion (8) is slidably sheathed on a cleaning and protecting portion (9); the supporting device (1) is rotatably shaft-connected with a diagnosing device (2), and a bottom portion of the supporting device (1) is rotatably shaft-connected with a lead protecting device (7) respectively; and a driving device (3), wherein there are two groups of the driving devices (3), and the two groups of the driving devices (3) have the same structure; the two groups of the driving devices (3) are respectively slidably connected to the supporting device (1), each of two ends of the two groups of the driving devices (3) is fixedly connected with a propulsion portion (4), and the two propulsion portions (4) are both rotatably and threadedly connected with an adjusting and driving portion (5); and front sides of the two propulsion portions (4) are rotatably and threadedly connected with an angle fixing portion (6) respectively.

2. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the supporting device (1) comprises: a supporting body (101), wherein the supporting body (101) is fixedly connected to the injection portion (8); and a thread rod (102), wherein the thread rod (102) is rotatably shaft-connected to the supporting body (101) by a bracket.

3. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the diagnosing device (2) comprises: a bracket (201), wherein the bracket (201) is rotatably shaft-connected to the supporting body (101), and the bracket (201) is provided with an electric screw rod; fan-shaped teeth (202), wherein the fan-shaped teeth (202) are fixedly connected to a shaft end of the scanning bracket (201), and the fan-shaped teeth (202) are meshed with the thread rod (102); and a scanner (203), wherein the scanner (203) is slidably connected to the scanning bracket (201), and the scanner (203) is driven by the electric screw rod.

4. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the driving device (3) comprises: a slider rack (301), wherein there are four slider racks (301), and the four slider racks (301) are respectively slidably connected to the supporting body (101); and the four slider racks (301) are meshed by two reversing gears (302) respectively; and a gear (302), wherein there are two gears (302), and the two gears (302) are both rotatably shaft-connected to the supporting body (101).

5. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the propulsion portion (4) comprises: a propulsion plate (401), wherein two groups of the propulsion plates (401) are fixedly arranged, the structures on the two groups of the propulsion plates (401) are the same, and the two groups of the propulsion plates (401) are respectively fixedly 1 connected on both sides of the driving device (3); LU501916 a linkage frame (402), wherein the linkage frame (402) is fixedly connected to the propulsion plate (401); and a tension spring (403), wherein the tension spring (403) is fixedly connected between the two propulsion plates (401).

6. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the adjusting and driving portion (5) comprises: an adjusting screw rod (501), wherein the adjusting screw rod (501) is rotatably and threadedly connected to the propulsion plate (401); and a positioning plate (502), wherein the positioning plate (502) is rotatably shaft-connected to the adjusting screw rod (501).

7. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the angle fixing portion (6) comprises: a positioning groove (601), wherein the positioning groove (601) is fixedly connected to the positioning plate (502); and a positioning screw rod (602), wherein the positioning screw rod (602) is rotatably and threadedly connected to the propulsion plate (401), a bottom portion of the positioning screw rod (602) is provided with a horizontal shaft, and the positioning screw rod (602) is slidably connected to the positioning groove (601) by the bottom horizontal shaft.

8. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the lead protecting device (7) comprises: a lead protecting plate (701), wherein the lead protecting plate (701) is rotatably shaft-connected to a bottom portion of the supporting body (101) by the bracket; and a linkage groove (702), wherein the linkage groove (702) is fixedly connected to the lead protecting plate (701), and a linkage frame (402) is slidably sheathed on the linkage groove (702).

9. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the injection portion (8) comprises: an injection pump (801), wherein the injection pump (801) is fixedly connected to the supporting body (101); and an injection needle (802), wherein the injection needle (802) is slidably sheathed on the cleaning and protecting portion (9).

10. The device for preventing and diagnosing the osteoporosis as claimed in claim 1, characterized in that the cleaning and protecting portion (9) comprises: a cleaning and protecting box (901), wherein the cleaning and protecting box (901) is slidably sheathed on the injection needle (802), and a bottom portion of the cleaning and protecting box (901) is provided with medical skin adhesive glue; and a cleaning slide plate (902), wherein the cleaning slide plate (902) is slidably inserted in the bottom portion of the cleaning and protecting box (901), and a bottom portion of the cleaning slide plate (902) is provided with a cleaning cotton block. 2