CN112618049A

CN112618049A - Medical imaging equipment with laser lamp is adjusted and is fixed a position

Info

Publication number: CN112618049A
Application number: CN202011467429.3A
Authority: CN
Inventors: 李新兴
Original assignee: Qingdao Zhuosenna Biological Engineering Co ltd
Current assignee: BEIJING ARRAYS MEDICAL IMAGING Corp.
Priority date: 2020-12-14
Filing date: 2020-12-14
Publication date: 2021-04-09
Anticipated expiration: 2040-12-14
Also published as: CN112618049B

Abstract

The invention discloses medical imaging equipment with a laser lamp for adjusting and positioning, which comprises a support, a transition mirror and a positioning frame, wherein a detection device is fixed above the support, a fixed disc is arranged on the left side in the detection device, a frame disc is fixed on the right side in the detection device, a lens is embedded in the middle of the frame disc, an image projection screen is arranged in the middle of the transition mirror, the transition mirror is positioned on the right side connected with a telescopic sleeve, the positioning disc is arranged above the positioning frame, and the positioning frame is positioned on the right side of a vertical plate. According to the invention, through the arrangement of the connecting rod, the angle between the projection disk and the fixed disk can be adjusted in a rotating manner at the outer side of the detection device, the connecting rod is rotated to rotate the projection disk, the projection direction of each projector is changed, the detection device can better complete self-imaging, the positioning detection purpose is realized, the projection range is expanded by the annularly distributed projectors, the projection visual angle is also expanded, and the detection feedback is more accurate and reliable.

Description

Medical imaging equipment with laser lamp is adjusted and is fixed a position

Technical Field

The invention relates to the technical field of medical imaging equipment, in particular to medical imaging equipment with a laser lamp for adjusting and positioning.

Background

Medical imaging refers to the technique and process of obtaining images of internal tissues of a human body or a part of the human body in a non-invasive manner for medical or medical research, and includes two relatively independent directions of research: medical imaging systems, the former refers to the process of image formation, and the latter refers to the further processing of already acquired images.

At present, medical imaging equipment often meets the problem that the image deviation or the image is not clear enough caused by reasons such as unclear vision or inaccurate positioning when imaging, because medical image is to human disease position, if medical image is not accurate enough, then cause medical treatment judgement error very easily, this is very unfavorable to patient.

Disclosure of Invention

The invention aims to provide medical imaging equipment with a laser lamp for adjusting and positioning, and solves the problem that the image deviation or the image is not clear enough due to unclear vision or inaccurate positioning and the like when the conventional medical imaging equipment is used for imaging.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a medical imaging equipment with laser lamp regulation location, includes support, transition mirror and locating rack, the top of support is fixed with detection device, and detection device's inside left side installs the fixed disk, detection device's inside right side is fixed with a set of dishes, and the centre of a set of dishes inlays and have lens, detection device's right side is provided with connects the telescope tube, the centre of transition mirror is provided with the screen of shooing, and the transition mirror is located the right side of connecting the telescope tube, the right side of transition mirror is fixed with the frame plate, the riser is installed on the right side of frame plate, the top of locating rack is provided with the locating disk, and the locating rack is located the right side of riser, the base is installed to the below of locating rack, and the inside of base is provided with the spout.

Preferably, the connecting rod has been run through in the middle of fixed disk, and the inboard of fixed disk is provided with the projection dish, the right side fixed surface of projection dish has the caulking groove, and the inboard of caulking groove is provided with the projecting apparatus, the projecting apparatus is cyclic annular evenly distributed about the axis of projection dish.

Preferably, the inside wall of frame plate is provided with the fixed slot, and the inboard of fixed slot installs the regulation lens, it is identical with the size between the fixed slot to adjust the lens, and adjusts the lens along the horizontal direction evenly distributed of frame plate, be parallel to each other between each regulation lens, and thickness equals between each regulation lens.

Preferably, the middle of the vertical plate is provided with a through groove, the middle of the through groove is provided with a fixing bolt, the rear side of the vertical plate is provided with a display panel, the display panel and the vertical plate form a rotating structure through the fixing bolt, and the fixing bolt is matched with the through groove in size.

Preferably, a laser lamp panel is installed in the middle of the positioning disc, a laser fixing disc is fixed on the surface of the laser lamp panel, laser projection holes are uniformly formed in the surface of the laser fixing disc in an annular mode, and a fastening pressing block is installed in the middle of the laser lamp panel.

Preferably, the number of the laser lamp panels is two, and the two laser lamp panels are rotatably connected through a fastening pressing block.

Preferably, a telescopic rod is arranged between the lower part of the transition mirror and the lower part of the positioning frame, and the transition mirror and the positioning frame form a vertical angle with the telescopic rod.

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

1. according to the invention, through the arrangement of the connecting rod, the angle between the projection disk and the fixed disk can be adjusted in a rotating manner at the outer side of the detection device, the connecting rod is rotated to rotate the projection disk, the projection direction of each projector is changed, the detection device can better complete self-imaging, the positioning detection purpose is realized, the projection range is expanded by the annularly distributed projectors, the projection visual angle is also expanded, and the detection feedback is more accurate and reliable.

2. The invention can lead the frame plate to bear and fix the adjusting lens through the matching between the fixed groove and the adjusting lens, the adjusting lens plays a role of adjusting distance and is used for filtering the image projected by the image projection screen, provides a function similar to that of myopia glasses for the image transmission process, and gathers the image on the image display plate as clearly as possible, the plurality of adjusting lenses are beneficial to improving the processing capability of the image definition, and the adjusting lens can freely select the adjusting lenses with proper quantity through the matching between the adjusting lens and the fixed groove so as to facilitate the imaging definition.

3. According to the invention, the imaging plate is rotated on the basis of the vertical plate through the fixing bolt, the inclination angle of the imaging plate can be changed in different degrees, the angle deflection of the imaging plate is utilized to change the angle variable of an imaging area for image projection, the arrangement height of the imaging plate is adjusted by means of the matching between the vertical plate and the through groove, and the imaging plate is fixed by the fixing bolt.

4. The invention is used for projecting laser rays through the annular laser projection holes arranged on the laser lamp panels and projecting the laser rays onto the display panel, judges whether the positioning of the medical imaging equipment is accurate or not by utilizing a ray capturing mode, and fixes the positions of the two laser lamp panels by adjusting the included angle between the two laser lamp panels by the fastening pressing block so as to ensure the normal projection of the laser.

5. The telescopic rod is used for controlling the distance between the positioning frame and the transition mirror, the position of the positioning frame is not fixed singly, the position adjustment of the proper distance is beneficial to the gathering and emission of laser, the accuracy of positioning and detection feedback is ensured, the positioning frame correspondingly slides and displaces under the action of the sliding groove along with the telescopic action of the telescopic rod, and the stability of the positioning frame in the moving process is ensured.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the projection disk of the present invention;

FIG. 3 is a schematic view of a positioning plate according to the present invention.

In the figure: a01 bracket, A02 detection device, A03 fixed disc, A04 connecting rod, A05 projection disc, A06 caulking groove, A07 projector, A08 frame disc, A09 lens, A10 connecting telescopic sleeve, A11 transition mirror, A12 projection screen, A13 frame plate, A14 fixing groove, A15 adjusting lens, A16 vertical plate, A17 through groove, A18 fixing bolt, A19 display panel, A20 locating frame, A21 locating disc, A22 laser lamp disc, A23 laser fixed disc, A24 laser projection hole, A25 fastening pressing block, A26 base, A27 sliding groove and A28 telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a medical imaging apparatus with laser lamp adjustment and positioning function includes a bracket a01, a detection device a02, a fixed disk a03, a connecting rod a04, a projection disk a05, an embedding slot a06, a projector a07, a bracket disk a08, a lens a09, a connecting telescopic sleeve a10, a transition mirror a11, a projection screen a12, a bracket plate a13, a fixing slot a14, an adjusting lens a15, a bracket a16, a through slot a17, a fixing bolt a18, a display panel a19, a positioning bracket a20, a positioning disk a20, a laser lamp disk a20, a laser fixed disk a20, a laser projection hole a20, a fastening pressing block a20, a base a20, a sliding slot a20 and a telescopic rod a20, wherein the detection device a20 is fixed above the bracket a20, the projection disk a20 is provided with a20 a left side of the detection fixed with a20, the middle of the projection disk a20 a is provided with a through the embedding slot a, and the right side of the projection disk is provided with the embedding slot a20 a through which is provided with the embedding slot, the projectors A07 are uniformly distributed in a ring shape about the central axis of a projection disk A05, the angle between the projection disk A05 and a fixed disk A03 can be adjusted in a rotating manner at the outer side of a detection device A02 through the arrangement of a connecting rod A04, the connecting rod A04 is rotated to rotate the projection disk A05, the projection direction of each projector A07 is changed, the detection device A02 can better complete self-imaging, the positioning detection purpose is realized, the projection range is expanded through the annularly distributed projectors A07, the projection angle is also expanded, the detection feedback is more accurate and reliable, a frame disk A08 is fixed at the right side of the interior of the detection device A02, a lens A09 is embedded in the middle of the frame disk A08, a10 connected with a telescopic sleeve A10 is arranged at the right side of the detection device A02, an image projection screen A12 is arranged in the middle of a transition mirror A11, the transition mirror A11 is positioned at the right side of the telescopic sleeve A10, a fixing groove A11 is fixed at the right side of the transition mirror A11, a fixing, the adjusting lenses A15 are arranged on the inner sides of the fixing grooves A14, the adjusting lenses A15 are matched with the fixing grooves A14 in size, the adjusting lenses A15 are uniformly distributed along the horizontal direction of the frame plate A13, the adjusting lenses A15 are parallel to each other, the thicknesses of the adjusting lenses A15 are equal, the frame plate A13 can bear and fix the adjusting lenses A15 through the matching between the fixing grooves A14 and the adjusting lenses A15, the adjusting lenses A15 have the distance adjusting function and are used for filtering images projected by the projection screen A12, the functions similar to myopia glasses are provided for the image transmission process, the processing capacity of image definition is improved through the multiple arrangement of the adjusting lenses A15, the adjusting lenses A15 can be freely selected in proper number through the matching between the adjusting lenses A4642 and the fixing grooves A14 to facilitate image definition, the vertical plate A16 is arranged on the right side of the frame plate A13, a through groove A17 is arranged in the middle of the vertical plate A16, a fixing bolt a18 is installed in the middle of the through groove a17, a display panel a19 is arranged on the rear side of the upright plate a16, the display panel a19 forms a rotating structure with an upright plate a16 through a fixing bolt a18, the fixing bolt a18 is matched with the through groove a17 in size, the display panel a19 is rotated on the basis of the upright plate a16 through the fixing bolt a18, the inclination angle of the display panel a19 can be changed to different degrees, the imaging area angle variable of image projection is changed by utilizing the angle deflection of the display panel a19, the placing height of the display panel a19 is adjusted by means of the matching between the upright plate a19 and the through groove a19, the display panel a19 is fixed by the fixing bolt a19, a positioning plate a19 is arranged above the positioning frame a19, the positioning frame a19 is positioned on the right side of the upright plate a19, a laser lamp panel a19 is installed in the middle of the positioning plate a19, and a laser lamp panel a19 is fixed with a laser lamp panel a19, and a laser lamp panel 19 is provided with a laser fixing plate 19 with a, a fastening pressing block A25 is arranged in the middle of the laser lamp panel A22, two annular laser projection holes A24 are arranged on the laser lamp panel A22 and are used for projecting laser rays, the laser rays are projected on a display panel A19, whether the positioning of the medical imaging equipment is accurate or not is judged by using a light capturing mode, the two laser lamp panels A22 are arranged, the two laser lamp panels A22 are rotatably connected through the fastening pressing block A25, the fastening pressing block A25 adjusts the included angle between the two laser lamp panels A22 and fixes the positions of the two laser lamp panels A22 so as to ensure the normal projection of the laser, a base A26 is arranged below the positioning frame A20, a sliding groove A27 is arranged inside the base A26, a telescopic rod A28 is arranged between the lower part of the transition mirror A11 and the lower part of the positioning frame A20, the transition mirror A11 and the positioning frame A20 form a vertical angle with the telescopic rod A28, and the transition mirror A28 is used for controlling the distance between the positioning frame A20 and the positioning frame A11, the position of locating rack A20 is not single fixed, and the position control of suitable distance helps the gathering transmission of laser, guarantees the accuracy of location and detection feedback, and along with telescopic link A28's flexible action, locating rack A20 is corresponding to take place sliding displacement under spout A27's effect, has guaranteed the stability of locating rack A20 removal in-process.

When the adjustable glasses are used, the connecting rod A04 is rotated firstly, the projection disk A05 is adjusted in a rotating mode, the projection direction of each projector A07 is changed, the models of each projector A07 are all micro-My 100 micro-projectors, after each projector A07 is connected through a computer lead, the appropriate projector A07 is controlled to project images, the images are collected through the lens A09 and then are obtained through the projection screen A12, the images are projected through the projection screen A12 and penetrate through each adjustable lens A15, the adjustable lens A15 plays a role in distance adjustment and is used for filtering the images projected through the projection screen A12, the effect similar to that of myopia glasses is provided for the image transmission process, the images are collected on the display panel A19 as clearly as possible, the multiple settings of the adjustable lens A15 are beneficial to improving the processing capacity of image definition, the adjustable lens A15 is matched with the fixed groove A14, the adjustable lens A15 in an appropriate number can be selected freely, so that the images can be conveniently and no waste, before the image is projected on the display board A19, the inclination of the display board A19 can be adjusted, the inclined picture plate A19 is fixed by the fixing bolt A18, and by the matching between the fixing bolt A18 and the through groove A17, the position height of the display board A19 is adjusted, after the image is normally projected on the display board A19, the laser projection hole A24 projects laser, the light capturing mode is used to judge whether the positioning of the medical imaging equipment is accurate, the fastening pressing block A25 adjusts the included angle between the two laser lamp panels A22 and fixes the positions of the two laser lamp panels A22, so as to ensure the normal projection of the laser, after the whole medical imaging equipment is positioned, the projector A07 is connected to the direct imaging equipment such as CT equipment, the real human body lesion image is projected on the imaging plate A19 according to the previous steps, the position of each laser point is combined to judge whether the image is in right position, if so, the image is adjusted again on the equipment such as CT.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A medical imaging device with laser lamp adjusting and positioning function comprises a support (A01), a transition mirror (A11) and a positioning frame (A20), and is characterized in that: a detection device (A02) is fixed above the bracket (A01), a fixed disc (A03) is installed on the left side of the interior of the detection device (A02), a bracket disc (A08) is fixed on the right side of the interior of the detection device (A02), and a lens (A09) is embedded in the middle of the frame disc (A08), a connecting telescopic sleeve (A10) is arranged on the right side of the detection device (A02), an image projection screen (A12) is arranged in the middle of the transition mirror (A11), and the transition mirror (A11) is positioned at the right side of the connecting telescopic sleeve (A10), a frame plate (A13) is fixed at the right side of the transition mirror (A11), a vertical plate (A16) is arranged on the right side of the frame plate (A13), a positioning disc (A21) is arranged above the positioning frame (A20), and the positioning frame (A20) is positioned on the right side of the vertical plate (A16), a base (A26) is arranged below the positioning frame (A20), and a sliding groove (A27) is arranged in the base (A26).

2. The medical imaging device with the adjustable positioning of the laser lamp according to claim 1, wherein: connecting rod (A04) has been run through in the middle of fixed disk (A03), and the inboard of fixed disk (A03) is provided with projection dish (A05), the right side fixed surface of projection dish (A05) has caulking groove (A06), and the inboard of caulking groove (A06) is provided with projecting apparatus (A07), projecting apparatus (A07) is cyclic annular evenly distributed about the axis of projection dish (A05).

3. The medical imaging device with the adjustable positioning of the laser lamp according to claim 1, wherein: the inside wall of frame plate (A13) is provided with fixed slot (A14), and the inboard of fixed slot (A14) is installed and is adjusted lens (A15), adjust lens (A15) and fixed slot (A14) between the size identical, and adjust lens (A15) along the horizontal direction evenly distributed of frame plate (A13), each is adjusted and is parallel to each other between lens (A15), and thickness equals between each adjusting lens (A15).

4. The medical imaging device with the adjustable positioning of the laser lamp according to claim 1, wherein: the middle of the vertical plate (A16) is provided with a through groove (A17), the middle of the through groove (A17) is provided with a fixing bolt (A18), the rear side of the vertical plate (A16) is provided with a display panel (A19), the display panel (A19) and the vertical plate (A16) form a rotating structure through the fixing bolt (A18), and the fixing bolt (A18) and the through groove (A17) are matched in size.

5. The medical imaging device with the adjustable positioning of the laser lamp according to claim 1, wherein: the laser lamp panel (A22) is installed in the middle of positioning disk (A21), and the fixed surface of laser lamp panel (A22) has laser fixed disk (A23), the surface of laser fixed disk (A23) is the cyclic annular laser and throws hole (A24) that evenly is provided with, and the fastening briquetting (A25) is installed in the middle of laser lamp panel (A22).

6. The medical imaging device with the adjustable positioning of the laser lamp according to claim 5, wherein: the laser lamp panels (A22) are provided with two laser lamp panels (A22) which are rotatably connected through a fastening pressing block (A25).

7. The medical imaging device with the adjustable positioning of the laser lamp according to claim 1, wherein: a telescopic rod (A28) is arranged between the lower portion of the transition mirror (A11) and the lower portion of the positioning frame (A20), and the transition mirror (A11) and the positioning frame (A20) form a vertical angle with the telescopic rod (A28).

8. The utility model provides an application of medical imaging equipment with laser lamp is adjusted location which characterized in that: when the adjustable glasses are used, the connecting rod A04 is rotated firstly, the projection disk A05 is adjusted in a rotating mode, the projection direction of each projector A07 is changed, the models of each projector A07 are all micro-My 100 micro-projectors, after each projector A07 is connected through a computer lead, the appropriate projector A07 is controlled to project images, the images are collected through the lens A09 and then are obtained through the projection screen A12, the images are projected through the projection screen A12 and penetrate through each adjustable lens A15, the adjustable lens A15 plays a role in distance adjustment and is used for filtering the images projected through the projection screen A12, the effect similar to that of myopia glasses is provided for the image transmission process, the images are collected on the display panel A19 as clearly as possible, the multiple settings of the adjustable lens A15 are beneficial to improving the processing capacity of image definition, the adjustable lens A15 is matched with the fixed groove A14, the adjustable lens A15 in an appropriate number can be selected freely, so that the images can be conveniently and no waste, before the image is projected on the display board A19, the inclination of the display board A19 can be adjusted, the inclined picture plate A19 is fixed by the fixing bolt A18, and by the matching between the fixing bolt A18 and the through groove A17, the position height of the display board A19 is adjusted, after the image is normally projected on the display board A19, the laser projection hole A24 projects laser, the light capturing mode is used to judge whether the positioning of the medical imaging equipment is accurate, the fastening pressing block A25 adjusts the included angle between the two laser lamp panels A22 and fixes the positions of the two laser lamp panels A22, so as to ensure the normal projection of the laser, after the whole medical imaging equipment is positioned, the projector A07 is connected to the direct imaging equipment such as CT equipment, the real human body lesion image is projected on the imaging plate A19 according to the previous steps, the position of each laser point is combined to judge whether the image is in right position, if so, the image is adjusted again on the equipment such as CT.