CN116549111A - Holographic imaging technical device for developmental dislocation pelvis osteotomy - Google Patents

Abstract

The invention provides a holographic image technical device for a developmental hip dislocation pelvis osteotomy, belonging to the technical field of medical image processing; the device comprises a mounting frame, wherein the mounting frame is connected with the hands of a doctor; the mounting mechanism is used for mounting the imaging probe and is connected with the mounting frame; and the first fixed bracket is used for installing the projection equipment. The invention can flexibly apply the imaging probe to the operation of a doctor through the matching arrangement of the mounting frame and the mounting mechanism, can collect images during the operation at any time, is convenient for carrying out clearer conversion projection on the images collected by the imaging probe through the arrangement of the first fixing bracket, is convenient for the doctor to observe the projection images during the operation through the arrangement of the second fixing bracket, further enables the doctor to observe the operation progress at any time, can accurately position the position needing the operation, eliminates the X-ray irradiation for many times, reduces the radiation to the body of the patient, and simultaneously reduces the operation risk.

Description

Holographic imaging technical device for developmental dislocation pelvis osteotomy

Technical Field

The invention relates to the technical field of medical image processing, in particular to a holographic image technical device for a developmental hip dislocation pelvis osteotomy.

Background

The utility model provides a developmental dislocation pelvis osteotomy is through the bone that cuts around the acetabulum, then outwards forwards rotate the acetabulum, change the acetabular orientation, improve the acetabular cover to the femoral head, thereby reach the purpose that alleviates joint wearing and tearing, delay even avoid the long-term joint replacement, in the operation, doctor can constantly use X-ray to obtain the position of osteotome and reduce the operation risk, but only rely on X-ray, doctor is difficult to pinpoint in the operation, also can not see the effect of cutting the bone very intuitively in this process, and a large amount of X-ray demand in the operation also can cause the excessive radiation of patient, and then cause certain injury to the patient, consequently, this application provides a holographic image technical device of developmental dislocation pelvis osteotomy to satisfy the demand.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a holographic image technical device for a developmental hip dislocation pelvis osteotomy to solve the adverse image caused by X-ray used in the existing developmental hip dislocation pelvis osteotomy and to be unfavorable for the operation observation of doctors.

In order to solve the technical problems, the invention provides the following technical scheme:

a holographic imaging technique device for a developmental dislocation pelvic osteotomy, comprising: the installation frame is connected with the hands of a doctor; the mounting mechanism is used for mounting the imaging probe and is connected with the mounting frame; the first fixing bracket is used for installing projection equipment and is connected with the installing mechanism; the second fixed support is used for installing the imaging lens and is fixedly connected with the installing mechanism.

Preferably, the mounting frame comprises a finger sleeve sleeved on the finger of a doctor, two weakening grooves are formed in the finger sleeve, an elastic belt is connected to the finger sleeve in a rotating mode, and the elastic sleeve is connected to the elastic belt in a rotating mode.

Preferably, the mounting mechanism comprises a pair of clamping plates and a telescopic frame body which are connected, wherein the clamping plates are connected with the finger stall, the telescopic frame body is connected with the clamping plates in a clamping manner, and the telescopic frame body is connected with the imaging probe.

Preferably, the clamping plate comprises a fixed section, a pair of weakening sections, a pair of arc sections and a pair of flanging sections which are connected, and the fixed section is fixedly connected with the finger stall.

Preferably, the telescopic frame body comprises a first sleeve which is clamped in the clamping plates, a second sleeve is sleeved in the first sleeve, a waist-shaped hole and a plurality of limiting holes are formed in the outer side wall of the first sleeve, the limiting holes are communicated with the waist-shaped hole, a limiting column is fixedly connected to the outer wall of the top end of the second sleeve and is located in the limiting hole, a rubber ring is fixedly connected to the inner portion of the bottom end of the second sleeve, a protecting sleeve is sleeved in the rubber ring, and the protecting sleeve is connected with the imaging probe.

Preferably, the first fixed support includes fixed connection in the dead lever on first sleeve top, the mounting groove has been seted up to the other end of dead lever, the mounting groove internal rotation is connected with the turning block, the bottom fixedly connected with mounting panel of turning block, the mounting panel with projection equipment fixed connection, the screw hole has been seted up to a side wall of dead lever, threaded hole spiro union has the bolt, the one end of bolt with the turning block is inconsistent.

Preferably, the second fixing support comprises a pair of support posts inserted into the flanging section, the top ends of the support posts are fixedly connected with a U-shaped frame, clamping plates are fixedly connected to the inner top wall and the inner bottom wall of the U-shaped frame, the clamping plates are symmetrically arranged, a pair of side walls, close to each other, of the clamping plates are respectively attached to the imaging lens, a pair of support frames are mounted on the U-shaped frame, and the support frames are symmetrically arranged.

Preferably, the splint is made of elastic materials, a side wall of the splint is fixedly connected with an anti-slip pad, and the anti-slip pad is contacted with the imaging lens.

Preferably, the support frame comprises an arc support plate fixedly connected to the top end of the U-shaped frame, one end of the arc support plate is fixedly connected with a U-shaped plate, the top end of the inner wall of the U-shaped plate is fixedly connected with a rubber pad, the bottom end of the rubber pad is in contact with the imaging lens, and the bottom wall of the U-shaped plate is in contact with the imaging lens.

Preferably, the arc-shaped support plate and the U-shaped plate are of an integrated structure, and the arc-shaped support plate and the U-shaped plate are made of plastic materials.

Compared with the prior art, the invention has at least the following beneficial effects:

in the above-mentioned scheme, through mounting bracket and installation mechanism cooperation setting, when using, can locate the elastic sleeve on the wrist earlier, later locate the dactylotheca on the doctor's finger, break off with fingers and thumb spacing post and spacing hole again, make it enter into waist shape downthehole, through pulling second sleeve downwardly moving, and then can make the second sleeve stretch out in the first sleeve, further can make imaging probe can extend, after the adjustment, with spacing post joint in spacing downthehole again, make the second sleeve can spacing fixedly, thereby make imaging probe can apply to in doctor's operation in a flexible way, and can carry out image acquisition to operation process at any time.

Through setting up first fixed bolster, when using, the accessible twists the bolt, makes it inconsistent with the turning block, and then can make the turning block rotate, when projection equipment adjusts projection angle, this twists the bolt again, makes it contradict with the turning block to be convenient for carry out more clear conversion to the image that imaging probe gathered and throw.

Through setting up the second fixed bolster, when using, can pass through between the both ears of U-shaped board with the one end of formation of image lens to be located between two splint, make slipmat and formation of image lens contact, make rubber pad and formation of image lens contact simultaneously, and then can fix formation of image lens, the image of projection can appear on formation of image lens, thereby be convenient for doctor observe the projection image at the operation in-process.

In conclusion, through the cooperation arrangement, doctors can observe the operation progress at any time, the position needing the operation can be accurately positioned, X-ray irradiation is removed for multiple times, the radiation to the body of a patient is reduced, and meanwhile, the operation risk is also reduced.

Drawings

The accompanying drawings, which are incorporated herein and form a part of the specification, illustrate embodiments of the present disclosure and, together with the description, further serve to explain the principles of the disclosure and to enable a person skilled in the pertinent art to make and use the disclosure.

FIG. 1 is a schematic perspective view of a holographic imaging technique device for a pelvic osteotomy procedure for a developmental dislocation of the hip;

FIG. 2 is a schematic view of a three-dimensional enlarged structure at A in FIG. 1;

FIG. 3 is a schematic view of a three-dimensional enlarged structure at B in FIG. 1;

FIG. 4 is a schematic view of a three-dimensional enlarged structure of a finger glove and a clamping plate;

FIG. 5 is a schematic view of a cross-sectional three-dimensional enlarged structure of a telescopic frame;

FIG. 6 is a schematic view of the enlarged perspective structure of FIG. 5 at C;

fig. 7 is a schematic perspective enlarged structure of the second fixing bracket.

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1. A mounting frame; 2. a finger glove; 3. a weakening groove; 4. an elastic belt; 5. an elastic sleeve; 6. a mounting mechanism; 7. a fixed section; 8. a weakened section; 9. an arc section; 10. a flanging section; 11. a telescopic frame body; 12. a first sleeve; 13. a second sleeve; 14. waist-shaped holes; 15. a limiting hole; 16. a limit column; 17. a protective sleeve; 18. a rubber ring; 19. an imaging probe; 20. a fixed rod; 21. a mounting plate; 22. a projection device; 23. a second fixing bracket; 24. a support post; 25. a U-shaped frame; 26. a clamping plate; 27. a support frame; 28. an arc-shaped support plate; 29. a U-shaped plate; 30. an imaging lens.

While particular structures and devices are shown in the drawings to enable a clear implementation of embodiments of the invention, this is for illustrative purposes only and is not intended to limit the invention to the particular structures, devices and environments, which may be modified or adapted by those of ordinary skill in the art, as desired, and which remain within the scope of the appended claims.

Detailed Description

The holographic imaging technical device for the pelvic osteotomy of the developmental dislocation of the hip provided by the invention is described in detail below with reference to the accompanying drawings and specific embodiments. While the invention has been described herein in terms of the preferred and preferred embodiments, the following embodiments are intended to be more illustrative, and may be implemented in many alternative ways as will occur to those of skill in the art; and the accompanying drawings are only for the purpose of describing the embodiments more specifically and are not intended to limit the invention specifically.

It is noted that references in the specification to "one embodiment," "an example embodiment," "some embodiments," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the relevant art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Generally, the terminology may be understood, at least in part, from the use of context. For example, the term "one or more" as used herein may be used to describe any feature, structure, or characteristic in a singular sense, or may be used to describe a combination of features, structures, or characteristics in a plural sense, depending at least in part on the context. In addition, the term "based on" may be understood as not necessarily intended to convey an exclusive set of factors, but may instead, depending at least in part on the context, allow for other factors that are not necessarily explicitly described.

It will be understood that the meanings of "on … …", "over … …" and "over … …" in this disclosure should be interpreted in the broadest sense so that "on … …" means not only "directly on" but also includes meaning "directly on" something with intervening features or layers therebetween, and "over … …" or "over … …" means not only "on" or "over" something, but also may include its meaning "on" or "over" something without intervening features or layers therebetween.

Furthermore, spatially relative terms such as "under …," "under …," "lower," "above …," "upper," and the like may be used herein for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. The device may be otherwise oriented and the spatially relative descriptors used herein may similarly be interpreted accordingly.

As shown in fig. 1-7, embodiments of the present invention provide a holographic imaging technique apparatus for a pelvic osteotomy of a developmental hip dislocation, comprising: the device comprises a mounting frame 1, wherein the mounting frame 1 is connected with a doctor's hand; the finger sleeve 2 is made of metal, two weakening grooves 3 are formed in the finger sleeve 2, the finger sleeve 2 is convenient for the finger sleeve 2 to be matched with fingers with different thicknesses to be installed through the weakening grooves 3, an elastic belt 4 is connected to the finger sleeve 2 in a rotating mode, an elastic sleeve 5 is connected to the elastic belt 4 in a rotating mode, the elastic sleeve 5 is fixed to the wrist of a doctor, the finger sleeve 2 is prevented from moving when in use, the elastic sleeve 5 is made of elastic materials, an installation mechanism 6 is used for installing an imaging probe 19, the installation mechanism 6 is connected with the installation frame 1, and the imaging probe 19 comprises an infrared camera and a connecting wire; a first fixing bracket for mounting the projection device 22, the first fixing bracket being connected with the mounting mechanism 6; the second fixing support 23 is used for installing the imaging lens 30, the second fixing support 23 is fixedly connected with the installing mechanism 6, and the imaging probe 19 and the projection device 22 are electrically connected through connecting wires, which is the prior art.

As shown in fig. 1, fig. 2, fig. 4-fig. 6, the installation mechanism 6 includes a pair of cardboard that is connected, flexible support body 11, the cardboard is connected with the dactylotheca 2, flexible support body 11 and cardboard joint, flexible support body 11 is connected with imaging probe 19, the cardboard is made by the metal material, the cardboard includes fixed section 7 that is connected, a pair of weakening section 8, a pair of arc section 9, a pair of turn-ups section 10, fixed section 7 and dactylotheca 2 fixed connection, fixed section 7, weakening section 8, arc section 9, turn-ups section 10 is a body structure, flexible support body 11 includes the first sleeve 12 of joint in a pair of cardboard, second sleeve 13 has been cup jointed in the first sleeve 12, the top outer wall of second sleeve 13 is laminated with the inside wall of first sleeve 12, waist-shaped hole 14, a plurality of spacing holes 15 have been seted up on the lateral wall of first sleeve 12, spacing hole 15 and waist-shaped hole 14 are linked together, the top outer wall fixedly connected with spacing post 16, spacing post 16 is located spacing hole 15, spacing post 16 and the fixed connection of the inner sleeve 17 has been made to the spacer sleeve 17, the spacer 17 is connected with the inner sleeve 17, the inner wall of the inner sleeve 17 is connected with the inner sleeve 17, the inner wall of the spacer 17 is fixed connection is made to the spacer 17.

Through mounting bracket 1 and installation mechanism 6 cooperation setting, when using, can locate the elastic sleeve 5 cover on the wrist earlier, later locate the dactylotheca 2 cover on the doctor's finger, break off with fingers and thumb spacing post 16 again and spacing hole 15, make it enter into waist shape hole 14 in, through pulling second sleeve 13 downwardly moving, and then can make second sleeve 13 stretch out in the first sleeve 12, further can make imaging probe 19 extend, after the adjustment, with spacing post 16 joint again in spacing hole 15, make second sleeve 13 can spacing fixedly, thereby make imaging probe 19 can apply to in doctor's operation in a flexible way, and can carry out image acquisition to operation process at any time.

As shown in fig. 1 and 3, the first fixing support comprises a fixing rod 20 fixedly connected to the top end of the first sleeve 12, a mounting groove is formed in the other end of the fixing rod 20, a rotating block is rotationally connected in the mounting groove, a mounting plate 21 is fixedly connected to the bottom end of the rotating block, the mounting plate 21 is fixedly connected with a projection device 22, a threaded hole is formed in one side wall of the fixing rod 20, a bolt is screwed into the threaded hole, and one end of the bolt is abutted to the rotating block.

Through setting up first fixed bolster, when using, the accessible twists the bolt, makes it inconsistent with the turning block, and then can make the turning block rotate, when projection equipment 22 has adjusted projection angle, this twists the bolt again, makes it contradict with the turning block to be convenient for carry out more clear conversion to the image of gathering and throw.

As shown in fig. 1 and 7, the second fixing support 23 includes a pair of struts 24 inserted in the flanging section 10, the top ends of the struts 24 are fixedly connected with a U-shaped frame 25, the inner top wall and the inner bottom wall of the U-shaped frame 25 are fixedly connected with clamping plates 26, the clamping plates 26 are symmetrically arranged, a side wall of the clamping plates 26, which is close to each other, is attached to an imaging lens 30, the clamping plates 26 are used for limiting and fixing the imaging lens 30, the clamping plates 26 are made of elastic materials, one side wall of the clamping plates 26 is fixedly connected with an anti-slip pad, the anti-slip pad is contacted with the imaging lens 30, a pair of support frames 27 are mounted on the U-shaped frame 25, the support frames 27 are symmetrically arranged, each support frame 27 comprises an arc-shaped support plate 28 fixedly connected to the top end of the U-shaped frame 25, one end of each arc-shaped support plate 28 is fixedly connected with a U-shaped plate 29, each arc-shaped support plate 28 and each U-shaped plate 29 are integrally structured, each arc-shaped support plate 28 and each U-shaped plate 29 is made of plastic materials, the top end of the inner wall of each U-shaped plate 29 is fixedly connected with a rubber pad, the bottom end of each rubber pad contacts with the imaging lens 30, the inner bottom wall of each rubber pad is made of the corresponding to the imaging lens 30, each side of the imaging lens 30, each bottom wall of each U-shaped support is in contact with the imaging lens 30, each inner bottom wall of each U-shaped support plate is made of each imaging lens 30 is made of an elastic material, each side, and the imaging lens 30 is provided with each imaging lens, and each inner bottom is, and each side is arranged, and the imaging lens is can be matched with the corresponding to the imaging lens 30.

Through setting up second fixed bolster 23, when using, can pass through between the both ears of U-shaped plate 29 with the one end of imaging lens 30 to be located between two splint 26, make slipmat and imaging lens 30 contact, make rubber pad and imaging lens 30 contact simultaneously, and then can fix imaging lens 30, the image of projection can appear on imaging lens 30, thereby the doctor of being convenient for observes the projection image at the operation in-process.

According to the technical scheme, the mounting frame and the mounting mechanism are matched, when the imaging probe is used, the elastic sleeve can be sleeved on the wrist, then the finger sleeve is sleeved on the finger of a doctor, the hand-pulled limiting column is separated from the limiting hole, the hand-pulled limiting column enters the kidney-shaped hole, the second sleeve is pulled to move downwards, the second sleeve extends out of the first sleeve, the imaging probe can be further extended, the limiting column is clamped in the limiting hole again after the adjustment, the second sleeve is limited and fixed, and therefore the imaging probe can be flexibly applied to a doctor operation, and image acquisition can be carried out on an operation process at any time.

Through setting up first fixed bolster, when using, the accessible twists the bolt, makes it inconsistent with the turning block, and then can make the turning block rotate, when projection equipment adjusts projection angle, this twists the bolt again, makes it contradict with the turning block to be convenient for carry out more clear conversion to the image that imaging probe gathered and throw.

Through setting up the second fixed bolster, when using, can pass through between the both ears of U-shaped board with the one end of formation of image lens to be located between two splint, make slipmat and formation of image lens contact, make rubber pad and formation of image lens contact simultaneously, and then can fix formation of image lens, the image of projection can appear on formation of image lens, thereby be convenient for doctor observe the projection image at the operation in-process.

In conclusion, through the cooperation arrangement, doctors can observe the operation progress at any time, the position needing the operation can be accurately positioned, X-ray irradiation is removed for multiple times, the radiation to the body of a patient is reduced, and meanwhile, the operation risk is also reduced.

The invention is intended to cover any alternatives, modifications, equivalents, and variations that fall within the spirit and scope of the invention. In the above description of the preferred embodiments of the invention, specific details are set forth in order to provide a thorough understanding of the invention, and the invention will fully be understood to those skilled in the art without such details. In other instances, well-known methods, procedures, flows, components, circuits, and the like have not been described in detail so as not to unnecessarily obscure aspects of the present invention.

Those of ordinary skill in the art will appreciate that all or a portion of the steps in implementing the methods of the embodiments described above may be implemented by a program that instructs associated hardware, and the program may be stored on a computer readable storage medium, such as: ROM/RAM, magnetic disks, optical disks, etc.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (10)

1. A holographic imaging technique device for a pelvic osteotomy procedure for a developmental dislocation of the hip, comprising: the installation frame is connected with the hands of a doctor;

the mounting mechanism is used for mounting the imaging probe and is connected with the mounting frame;

the first fixing bracket is used for installing projection equipment and is connected with the installing mechanism;

the second fixed support is used for installing the imaging lens and is fixedly connected with the installing mechanism.

2. The holographic imaging device of claim 1, wherein the mounting frame comprises a finger sleeve sleeved on a finger of a doctor, two weakening grooves are formed in the finger sleeve, an elastic belt is rotatably connected to the finger sleeve, and an elastic sleeve is rotatably connected to the elastic belt.

3. The holographic imaging technique device of claim 2, wherein said mounting mechanism comprises a pair of connected clamping plates, a telescoping frame, said clamping plates being connected to said finger glove, said telescoping frame being engaged with said clamping plates, said telescoping frame being connected to said imaging probe.

4. The holographic imaging technique device of claim 3, wherein said clamping plate comprises a fixed segment, a pair of weakened segments, a pair of arcuate segments, a pair of flange segments connected, said fixed segment being fixedly connected to said finger glove.

5. The holographic imaging device for the pelvic osteotomy of developmental dislocation of hip joint according to claim 4, wherein the telescopic frame body comprises a first sleeve clamped in the pair of clamping plates, a second sleeve is sleeved in the first sleeve, a waist-shaped hole and a plurality of limiting holes are formed in the outer side wall of the first sleeve, the limiting holes are communicated with the waist-shaped hole, a limiting column is fixedly connected to the outer wall of the top end of the second sleeve and is positioned in the limiting holes, a rubber ring is fixedly connected to the inner part of the bottom end of the second sleeve, a protecting sleeve is sleeved in the rubber ring, and the protecting sleeve is connected with the imaging probe.

6. The holographic imaging device for the pelvic osteotomy of developmental dislocation of hip joint according to claim 5, wherein the first fixing support comprises a fixing rod fixedly connected to the top end of the first sleeve, the other end of the fixing rod is provided with a mounting groove, a rotating block is rotationally connected in the mounting groove, the bottom end of the rotating block is fixedly connected with a mounting plate, the mounting plate is fixedly connected with the projection equipment, a side wall of the fixing rod is provided with a threaded hole, a bolt is screwed in the threaded hole, and one end of the bolt is in contact with the rotating block.

7. The holographic imaging device of claim 4, wherein the second fixing bracket comprises a pair of struts inserted into the flanging section, the top ends of the struts are fixedly connected with a U-shaped frame together, the inner top wall and the inner bottom wall of the U-shaped frame are fixedly connected with clamping plates, the clamping plates are symmetrically arranged, a side wall of the clamping plates, which is close to each other, is attached to the imaging lens, and a pair of support frames are arranged on the U-shaped frame and symmetrically arranged.

8. The holographic imaging technique device of claim 7, wherein said splint is made of an elastic material, and a sliding pad is fixedly connected to a side wall of said splint, said sliding pad being in contact with said imaging lens.

9. The holographic imaging technique device of claim 7, wherein the support comprises an arc-shaped support plate fixedly connected to the top end of the U-shaped support, one end of the arc-shaped support plate is fixedly connected with a U-shaped plate, the top end of the inner wall of the U-shaped plate is fixedly connected with a rubber pad, the bottom end of the rubber pad is in contact with the imaging lens, and the inner bottom wall of the U-shaped plate is in contact with the imaging lens.

10. The holographic imaging technique device of claim 9, wherein said arc-shaped support plate and said U-shaped plate are integrally formed, said arc-shaped support plate and said U-shaped plate being made of plastic material.