CN111728595A - Holographic image equipment based on 5G communication technology and used for medical examination - Google Patents

Abstract

The invention discloses holographic imaging equipment for medical examination based on a 5G communication technology, which comprises a 5G communication module, a fixed base, a protective cover, a motor I, a rotating shaft, a rotating plate, an LED lamp, an operating table, a placing groove, a motor II, a rotating table, a guide rail ring, a sliding block sleeve, a detection cover and a CMOS image sensor, wherein firstly, by rotating an image acquisition mechanism, the holographic imaging equipment not only can acquire a visual image in the head-on direction of a patient, but also can realize 180-degree rotation of a body under the condition that the patient keeps a stationary posture, so as to scan the back of the patient; secondly because of adopting two sets of rotatory image device from top to bottom, can form the 3D holographic image with patient's figure one to one, the medical personnel of being convenient for inspect patient's body surface state or affected part through observing holographic image, cooperate 5G communication module at last, can locate the collection data transmission of device to the B hospital of 5G signal coverage area with A hospital and locate to carry out the holographic image and show on the device, finally pass through the aforesaid to remote holographic image medical examination purpose has been realized.

Description

Holographic image equipment based on 5G communication technology and used for medical examination

Technical Field

The invention relates to the technical field of wireless communication medical examination, in particular to holographic imaging equipment for medical examination based on a 5G communication technology.

Background

5G, the mobile communication standard of the fifth generation mobile phone, also called the fifth generation mobile communication technology. Due to the rapid development of the internet of things industry, higher requirements are placed on the network speed, and the development of the 5G network is promoted. The main objective of the 5G network is to enable the terminal user to be always in a networking state, and meanwhile, the 5G communication-based high-efficiency and high-speed network is achieved, so that the network is primarily applied to the fields of artificial intelligence, unmanned automobiles, remote education, 3D images and the like.

According to the above, in the medical field, there is a problem that always troubles the industry personnel, that is how to make the medical professionals make the remote patients go on-line examination quickly, conveniently and accurately, although the prior art has already been through the use of internet technology, for example: the remote online medical examination to a certain extent is realized by means of video, live broadcast and the like, but due to the restriction of various aspects such as network speed technology and the like, the whole body state or the illness state of a patient cannot be observed more intuitively or relatively truly by medical professionals, and the following problems are solved;

1. the patient needs to lie on the detection bed body horizontally, so that after the scanning and collecting of the front face of the patient are finished, the scanning and collecting of the back of the patient cannot be realized due to the interference and the blocking of the bed plate, and meanwhile, the patient cannot turn over actively due to the illness state and the body factors of part of patients, so that the actual use is greatly influenced.

2. Although some holographic projection devices exist in the prior art, which can project the human body appearance, the projected proportion is inaccurate, for example, the real wound size of a patient is 5 cm, but the existing holographic projection devices generally show a reduced proportion, which affects the intuitive judgment of medical staff and the subsequent related treatment measures.

Therefore, in view of the above drawbacks, it is actually necessary to design a holographic imaging device for medical examination based on 5G communication technology.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: a holographic imaging device for medical examination based on 5G communication technology is provided to solve the problems of the background art, thereby providing a device with patient image data acquisition and holographic display for medical examination.

In order to solve the technical problems, the technical scheme of the invention is as follows: a holographic image device for medical examination based on 5G communication technology comprises a 5G communication module, a fixed base, a protective cover, a motor I, a rotating shaft, a rotating plate, LED lamps, an operation table, a placement groove, a motor II, a rotary table, a guide rail ring, a sliding block sleeve, a detection cover and a CMOS image sensor, wherein the protective cover is fixedly arranged on the upper side of the front end of the fixed base, the protective cover is connected with the fixed base through bolts, the motor I is fixedly arranged at the upper end and the lower end inside the protective cover, the motor I is connected with the protective cover through bolts, the rotating shaft is rotatably arranged at the middle end inside the motor I, the rotating shaft is rotatably connected with the motor I, the rotating plate is fixedly arranged at the front end of the rotating shaft, the rotating plate is connected with the rotating shaft through hot melting, the number of the LED lamps is a plurality, the LED lamps are uniformly fixedly arranged at the front end of the rotating plate, and the, the operating table is fixedly arranged at the lower end of the left side of the fixed base, the operating table is connected with the fixed base through bolts, the placing groove is positioned at the top end inside the fixed base, the placing groove is a circular groove, the II motor is fixedly arranged at the upper side of the middle end inside the fixed base, the II motor is connected with the fixed base through bolts, the rotary table is fixedly arranged at the top of the II motor, the rotary table is connected with the II motor in a tight fit manner, the rotary table is rotatably connected with the placing groove, the guide rail ring is fixedly arranged at the top of the fixed base, the guide rail ring is connected with the fixed base through bolts, the slide block sleeve is sleeved on the outer wall of the guide rail ring, the slide block sleeve is connected with the guide rail ring in a sliding manner, the detection cover is fixedly arranged at the top of the slide block sleeve, the detection cover is connected with the slide block sleeve through bolts, and the number of the CMOS image sensors is, the CMOS image sensors are uniformly distributed on the inner wall of the detection cover and are connected with the detection cover through bolts.

Furthermore, unable adjustment base bottom still set firmly a plurality of universal positioning pulley, positioning pulley and unable adjustment base adopt bolted connection, unable adjustment base rear end still set firmly the balancing weight, balancing weight and unable adjustment base adopt bolted connection.

Further, the protection casing be transparent material, the inside cavity of placing of protection casing, the cavity of placing be the rectangle cavity.

Further, the inside middle-end of pivot still set firmly the signal of telecommunication post, the signal of telecommunication post adopt the hot melt to be connected with the pivot, signal of telecommunication post front end still be equipped with the signal of telecommunication piece, signal of telecommunication piece and signal of telecommunication post adopt swing joint, just the signal of telecommunication piece adopt welded connection with the LED lamp of a plurality of quantity respectively.

Further, the inside upper end of operation panel still set firmly the DSP treater, DSP treater and operation panel adopt bolted connection, just DSP treater and CMOS image sensor adopt signal of electricity line connection, the inside upper end of operation panel still set firmly the SOC chip, SOC chip and operation panel adopt bolted connection, just SOC chip adopt signal of electricity line connection with DSP treater and a plurality of quantity of LED lamp respectively, operation panel front end upside still set firmly control panel, control panel and operation panel adopt bolted connection, and control panel adopt signal of electricity line connection with 5G communication module, I motor, II motor, DSP treater and SOC chip respectively, operation panel lower extreme left side still set firmly the battery, battery and operation panel adopt bolted connection, and the battery respectively with 5G communication module, the module, The motor I, the LED lamp, the motor II, the CMOS image sensor, the DSP processor, the SOC chip and the control panel are connected by power lines.

Furthermore, the left side and the right side in the placing groove are fixedly provided with travel switches, the travel switches are connected with the fixed base through bolts, and the travel switches are respectively connected with the II motor, the control panel and the storage battery through electric signal lines.

Further, one side of the lower end of the rotary table is fixedly provided with a trigger plate, the trigger plate and the rotary table are integrally formed, and the trigger plate is connected with the placing groove in a sliding mode.

Further, the slider cover and the detection cover are both arc-shaped structures, a handle is further fixedly arranged in the middle of the rear end of the detection cover, and the handle is connected with the detection cover through bolts.

Compared with the prior art, the holographic imaging device for medical examination based on the 5G communication technology has the following advantages:

1. the detection cover is the arc structure, the CMOS image sensor of a plurality of quantity is distributed to the inner wall, can gather the 120 wide-angle visuals of patient's head-on direction, cooperate rotary mechanism simultaneously, do under the patient keeps motionless posture state, realize 180 rotations of patient's health, reach the scanning collection to patient's back visuals then, the detection device that has solved current sleeping and lying, not only because of the interference of bed board, can't realize the scanning collection to patient's back, some patients influence because of the state of an illness and health state in addition, the difficult problem that initiatively stands up also.

2. The height that constitutes through two sets of LED holographic flabellums is 2 meters, the width is 1 meter display device, can form the 3D holographic image of one size to one with patient's figure, medical personnel of being convenient for come to patient's body surface state or affected part through observing the holographic image and inspect, because of adopting one-to-one holographic image, current traditional holographic image device has been solved, though can form images to patient's health, nevertheless can't realize the show of real one-to-one size, for example after scanning the patient in the A hospital, can directly restore out the real size of A hospital patient in the B hospital, do not carry out the expansion of any proportion or reduce, consequently the doctor of the B hospital of being convenient for directly masters patient's real wound size, body surface tumour etc., make its more clear and accurate judgement.

3. The device can transmit data acquired by a CMOS image sensor in the device of the invention of the A hospital to a device of the invention of a B hospital in a 5G signal coverage area to carry out holographic image display by matching with a 5G communication module, thereby realizing remote holographic image medical examination.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a front view of a hologram device for medical examination based on 5G communication technology;

FIG. 2 is a top view of a holographic imaging device for medical examination based on 5G communication technology;

FIG. 3 is a sectional view of a hologram device for medical examination based on 5G communication technology;

FIG. 4 is a B-direction sectional view of a hologram device for medical examination based on the 5G communication technology;

FIG. 5 is a C-direction cross-sectional view of a hologram device for medical examination based on the 5G communication technology;

FIG. 6 is a D-direction sectional view of a hologram device for medical examination based on 5G communication technology;

FIG. 7 is a perspective view of a holographic imaging device for medical examination based on 5G communication technology 1;

FIG. 8 is a perspective view of a holographic imaging device for medical examination based on 5G communication technology 2;

FIG. 9 is a perspective view of a holographic imaging device for medical examination based on 5G communication technology;

fig. 10 is a perspective view of the placement tray in an exposed state;

FIG. 11 is a schematic circuit diagram of a holographic imaging device for medical examination based on 5G communication technology;

FIG. 12 is an enlarged sectional view of the motor portion I;

FIG. 13 is a sectional enlarged view of the motor part II.

The device comprises a 5G communication module 1, a fixed base 2, a protective cover 3, an I motor 4, a rotating shaft 5, a rotating plate 6, an LED lamp 7, an operating table 8, a placing groove 9, an II motor 10, a rotary table 11, a guide rail ring 12, a sliding block sleeve 13, a detection cover 14, a CMOS image sensor 15, a universal positioning pulley 201, a balancing weight 202, a placing cavity 301, an electric signal column 501, an electric signal sheet 502, a DSP processor 801, an SOC chip 802, a control panel 803, a storage battery 804, a travel switch 901, a trigger plate 1101 and a handle 1401.

The following detailed description will be further described in conjunction with the above-identified drawings.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the concepts underlying the described embodiments, however, it will be apparent to one skilled in the art that the described embodiments may be practiced without some or all of these specific details, and in other cases well-known process steps have not been described in detail.

Example 1

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, a holographic imaging device for medical examination based on 5G communication technology comprises a 5G communication module 1, a fixed base 2, a protective cover 3, an I motor 4, a rotating shaft 5, a rotating plate 6, an LED lamp 7, an operation table 8, a placement groove 9, an II motor 10, a rotating table 11, a guide rail ring 12, a slider sleeve 13, a detection cover 14, and a CMOS image sensor 15, wherein the protective cover 3 is fixedly arranged on the upper side of the front end of the fixed base 2, the protective cover 3 is connected with the fixed base 2 by bolts, the I motor 4 is fixedly arranged at the upper and lower ends inside the protective cover 3, the I motor 4 is connected with the protective cover 3 by bolts, the rotating shaft 5 is rotatably arranged at the middle end inside the I motor 4, the rotating shaft 5 is rotatably connected with the I motor 4, the rotating plate 6 is fixedly arranged at the front end of the rotating shaft 5, the rotating plate 6 is connected with the rotating shaft 5 in a hot melting manner, the LED lamps 7 are uniformly and fixedly arranged at the front end of the rotating plate 6, the LED lamps 7 are connected with the rotating plate 6 in a bolt manner, the operating table 8 is fixedly arranged at the lower end of the left side of the fixed base 2, the operating table 8 is connected with the fixed base 2 in a bolt manner, the placing groove 9 is positioned at the top end inside the fixed base 2, the placing groove 9 is a circular groove, the II motor 10 is fixedly arranged at the upper side of the middle end inside the fixed base 2, the II motor 10 is connected with the fixed base 2 in a bolt manner, the rotary table 11 is fixedly arranged at the top of the II motor 10, the rotary table 11 is connected with the II motor 10 in a tight fit manner, the rotary table 11 is rotatably connected with the placing groove 9, the guide rail ring 12 is fixedly arranged at the top of the fixed base 2, the guide rail ring 12 is connected with the fixed base 2 through bolts, the sliding block sleeve 13 is sleeved on the outer wall of the guide rail ring 12, the sliding block sleeve 13 is connected with the guide rail ring 12 in a sliding mode, the detection cover 14 is fixedly arranged at the top of the sliding block sleeve 13, the detection cover 14 is connected with the sliding block sleeve 13 through bolts, the number of the CMOS image sensors 15 is multiple, the CMOS image sensors 15 are uniformly distributed on the inner wall of the detection cover 14, and the CMOS image sensors 15 are connected with the detection cover 14 through bolts;

it should be noted that the 5G communication module 1 is fixed at the top end inside the operation table 8 through a bolt for 5G signal transmission, the protective cover 3 is fixed at the upper side of the front end of the fixed base 2 through a bolt, the appearance is rectangular, the width is 1 meter, the height is 2 meters, so as to display a one-to-one figure of most common patients, the I motor 4 is fixed at the upper and lower ends of the rear side inside the protective cover 3 through a bolt, the rear side can be connected with a power cord, the I motor 4 is a speed regulating motor, the rotating speed can be adjusted to 25-30 turns per second, so as to be convenient for human eyes to observe and image, the rotating shaft 5 can rotate inside the I motor 4, the front end is connected with the rotating plate 6, the rear end extends out, the rotating plate 6 is fixed at the front end of the rotating shaft 5 through heating plastic, the shape is in a straight shape, the left-right, the LED lamp fixing device comprises a plurality of LED lamps 7, a plurality of operating tables 8, a fixed base 2, a placing groove 9, a turntable 11, a motor II 10, a stepping motor II 10, a guide rail ring 12, a sliding block sleeve 13, a sliding block sleeve 12 and a sliding block sleeve, wherein the LED lamps 7 are fixed at the front end of a rotating plate 6 in a bolt mode, each LED lamp 7 is positioned on the same plane, the operating tables 8 are fixed at the front end of the left side of the fixed base 2 in a bolt mode, the placing groove 9 is a groove formed in the upper end inside the fixed base 2 and is convenient for embedding the turntable 11, the motor II 10 is fixed at the lower end inside the fixed base 2 in a bolt mode and is positioned at the central position of the placing groove 9, the motor II 10 is a stepping motor and is low in rotating speed and improves stability, the turntable 11 is tightly sleeved on a rotating shaft, the detection cover 14 is fixed at the top of the sliding block sleeve 13 in a bolt mode, the width is 1 meter, the height is 2 meters, the detection cover is consistent with the size of the protective cover 3, and a plurality of CMOS image sensors 15 are uniformly fixed on the inner side of the detection cover 14 through bolts, so that the image acquisition effect is improved;

the bottom of the fixed base 2 is also fixedly provided with a plurality of universal positioning pulleys 201, the universal positioning pulleys 201 are connected with the fixed base 2 through bolts, the rear end of the fixed base 2 is also fixedly provided with a balancing weight 202, and the balancing weight 202 is connected with the fixed base 2 through bolts;

it should be noted that four universal positioning pulleys 201 are fixed at the bottom of the fixed base 2 by bolts, and have a locking and fixing function, and the counterweight block 202 is fixed at the rear end of the fixed base 2 by bolts, and is used for balancing the weight of the front-end protective cover 3 and improving the placing stability of the fixed base 2;

the protective cover 3 is made of transparent materials, a placing cavity 301 is formed inside the protective cover 3, and the placing cavity 301 is a rectangular cavity;

the protective cover 3 is made of transparent material, an acrylic plate or toughened glass can be selected, and a hollow sealed placing cavity 301 is formed inside the protective cover, so that the rotating plate 6 is avoided, and external dust particles are prevented from entering the protective cover;

an electrical signal column 501 is fixedly arranged at the middle end inside the rotating shaft 5, the electrical signal column 501 is connected with the rotating shaft 5 in a hot melting mode, an electrical signal sheet 502 is arranged at the front end of the electrical signal column 501, the electrical signal sheet 502 is movably connected with the electrical signal column 501, and the electrical signal sheet 501 is respectively connected with a plurality of LED lamps 7 in a welding mode;

it should be noted that the electrical signal post 501 is fixed at the middle end inside the rotating shaft 5 in a hot melting manner, the front end of the electrical signal post is always in contact with the electrical signal sheet 502, the rear end of the electrical signal post is always in contact with an external electrical signal line in the same manner as the front end electrical signal sheet 502, so that power supply and control are realized, the electrical signal sheet 502 is welded and clamped on the rotating plate 6 by the front end LED lamp 7, and individual circuit connection can be performed on pixel points of the LED lamps 7;

the upper end in the operating platform 8 is fixedly provided with a DSP processor 801, the DSP processor 801 is connected with the operating platform 8 through bolts, the DSP processor 801 is connected with the CMOS image sensor 15 through an electric signal line, the upper end in the operating platform 8 is fixedly provided with an SOC chip 802, the SOC chip 802 is connected with the operating platform 8 through bolts, the SOC chip 802 is respectively connected with the DSP processor 801 and a plurality of LED lamps 7 through electric signal lines, the upper side of the front end of the operating platform 8 is fixedly provided with a control panel 803, the control panel 803 is connected with the operating platform 8 through bolts, the control panel 803 is respectively connected with the 5G communication module 1, the I motor 4, the II motor 10, the DSP processor 801 and the SOC chip 802 through electric signal lines, the left side of the lower end of the operating platform 8 is fixedly provided with a storage battery 804, the storage battery 804 is connected with the operating platform 8 through bolts, the storage battery 804 is respectively connected with the 5G communication module 1, the I motor 4, the LED lamp 7, the II motor 10, the CMOS image sensor 15, the DSP processor 801, the SOC chip 802 and the control panel 803 by power lines;

it should be noted that the DSP processor 801 is fixed inside the console 8 by a bolt for image analysis and fast composite processing, and has a special hardware multiplier due to the use of a huff structure for separately storing and transmitting programs and data, so that fast processing of real-time images can be realized, the SOC chip 802 is fixed inside the console 8 by a bolt, an integrated circuit with a built-in single chip microcomputer is capable of controlling the switching and color change of pixel points of a plurality of LED lamps 7 according to transmitted image data, the control panel 803 is fixed at the front end of the console 8 by a bolt, and is provided with operation keys capable of performing command control on the 5G communication module 1, the I motor 4, the II motor 10, the DSP processor 801 and the SOC chip 802, and the storage battery 804 is fixed at the lower end inside the console 8 by a bolt capable of performing command control on the 5G communication module 1, the I motor 4, and the SOC chip 802, The LED lamp 7, the II motor 10, the CMOS image sensor 15, the DSP processor 801, the SOC chip 802 and the control panel 803 are used for supplying power, and the specific structure and the working principle of the components are not described and limited in detail;

travel switches 901 are fixedly arranged on the left side and the right side inside the placing groove 9, the travel switches 901 are connected with the fixed base 2 through bolts, and the travel switches 901 are respectively connected with the II motor 10, the control panel 803 and the storage battery 804 through electric signal lines;

it should be noted that the travel switches 901 are fixed at the left and right sides of the placement groove 9 in the fixing base 2 by bolts, and can block the trigger plate 1101, so that the trigger plate 1101 can only rotate in 180 degrees, and is used for controlling the forward and reverse rotation and stop of the motor 10 of II, and meanwhile, the power is supplied by the storage battery 804;

a trigger plate 1101 is fixedly arranged on one side of the lower end of the rotary table 11, the trigger plate 1101 and the rotary table 11 are integrally formed, and the trigger plate 1101 is connected with the placing groove 9 in a sliding manner;

it should be noted that the trigger plate 1101 and the turntable 11 are integrally formed by injection molding, and can synchronously rotate along with the turntable 11 to trigger the travel switch 901;

the sliding block sleeve 13 and the detection cover 14 are both arc-shaped structures, a handle 1401 is fixedly arranged in the middle of the rear end of the detection cover 14, and the handle 1401 and the detection cover 14 are connected through bolts;

it should be noted that the sliding block sleeve 13 and the detection cover 14 are both arc-shaped, so that the protective cover 3 cannot be touched and interfered in the rotation process, and the handle is fixed at the rear end of the detection cover 14 in a bolt mode through 1401, so that medical personnel can conveniently pull and adjust the handle;

the holographic imaging device for medical examination based on the 5G communication technology is characterized in that during remote examination, a 5G communication module 1 of a device at a hospital A and a same device at a remote hospital B are in signal communication, then a patient stands on a rotary table 11 and faces an examination cover area, namely, medical staff operates a control panel 803 to start a CMOS image sensor 15 to collect images on the front of the patient, a synchronous DSP (digital signal processor) 801 can collect data collected by the CMOS image sensor 15 and perform calculation analysis processing, then the calculation processing result of the DSP 801 is transmitted to an SOC (system on chip) 802 of the device at the remote hospital B from the 5G communication module 1 of the device at the hospital A through the SOC 802, then the SOC chip 801 of the device at the hospital B controls the pixel point switches and color changes of a plurality of LED lamps 7 according to the transmitted image data, a synchronous I motor 4 drives a rotating shaft 5 to drive a rotating plate 6 to rotate, when the rotating speed of the rotating plate 6 per second reaches 25, planar light emitted by the LED lamp 7 on the rotating plate 6 forms three-dimensional continuous visual images through rotation, and finally achieves the effect of naked eye 3D imaging, because the rotating plate 6 is divided into an upper group and a lower group, the integral effect can be presented after synchronous rotation, simultaneously, the length of the rotating plate 6 is consistent with that of the protective cover 3 with the size of 1 meter, the image with the height of about 2 meters and the width of about one meter can be presented to the maximum extent, so that a 3D holographic image with the size of one meter of the body of a patient can be formed, medical staff at the position of a hospital B can conveniently inspect the body surface state or the affected part of the patient at the hospital A through observing the holographic image, the medical staff can also conveniently and clearly and accurately judge the size of the wound of the patient, the size of the body surface tumor and the like, in addition, the, the II motor 10 drives the top rotary table 11 to rotate, when the rotary table 11 rotates 180 degrees, the trigger plate 1101 contacts the travel switch 901, the II motor 10 is stopped, at the moment, the back of the patient faces the acquisition area of the CMOS image sensor 15 under the condition that the patient keeps a stationary posture, and scanning and acquisition of the back video of the patient are further achieved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A holographic image device for medical examination based on 5G communication technology comprises a 5G communication module, and is characterized by further comprising a fixed base, a protective cover, a motor I, a rotating shaft, a rotating plate, LED lamps, an operating platform, a placing groove, a motor II, a rotating platform, a guide rail ring, a sliding block sleeve, a detection cover and a CMOS image sensor, wherein the protective cover is fixedly arranged on the upper side of the front end of the fixed base, the motor I is fixedly arranged at the upper end and the lower end inside the protective cover, the rotating shaft is rotatably arranged at the middle end inside the motor I, the rotating plate is fixedly arranged at the front end of the rotating shaft, the number of the LED lamps is a plurality of pieces, the LED lamps are uniformly and fixedly arranged at the front end of the rotating plate, the operating platform is fixedly arranged at the lower end of the left side of the fixed base, the placing groove is positioned at the top end inside the fixed base, the motor II is fixedly arranged, the rotary table is rotatably connected with the placing groove, the guide rail ring is fixedly arranged at the top of the fixed base, the outer wall of the guide rail ring is sleeved with the sliding block sleeve, the detection cover is fixedly arranged at the top of the sliding block sleeve, the number of the CMOS image sensors is a plurality of pieces, and the CMOS image sensors are uniformly distributed on the inner wall of the detection cover.

2. The holographic imaging device for medical examination based on 5G communication technology as claimed in claim 1, wherein a plurality of universal positioning pulleys are further fixed at the bottom of the fixing base, and a weight block is further fixed at the rear end of the fixing base.

3. The holographic imaging device for medical examination based on 5G communication technology as claimed in claim 1, wherein the protective cover is made of transparent material, and the interior of the protective cover is a cavity for placing.

4. The holographic imaging device for medical examination based on 5G communication technology as claimed in claim 1, wherein an electrical signal post is further fixedly disposed at the middle end of the inside of the rotating shaft, an electrical signal sheet is further disposed at the front end of the electrical signal post, and the electrical signal sheet is respectively connected with a plurality of LED lamps by welding.

5. The holographic imaging device for medical examination based on 5G communication technology as claimed in claim 1, it is characterized in that the upper end in the operation table is fixedly provided with a DSP processor, the DSP processor is connected with the CMOS image sensor by adopting an electric signal line, the upper end in the operation table is fixedly provided with an SOC chip, the SOC chip is respectively connected with the DSP processor and a plurality of LED lamps by adopting electric signal wires, the upper side of the front end of the operating platform is fixedly provided with a control panel, the control panel is respectively connected with the 5G communication module, the motor I, the motor II, the DSP processor and the SOC chip by adopting electric signal wires, the left side of the lower end of the operating platform is also fixedly provided with a storage battery, and the storage battery is respectively connected with the 5G communication module, the I motor, the LED lamp, the II motor, the CMOS image sensor, the DSP processor, the SOC chip and the control panel by power lines.

6. The holographic imaging device for medical examination based on 5G communication technology as claimed in claim 1, wherein travel switches are further fixedly disposed at the left and right sides inside the placing groove, and the travel switches are respectively connected with the II motor, the control panel and the storage battery by electrical signal lines.

7. The holographic imaging device for medical examination based on 5G communication technology as claimed in claim 1, wherein a trigger plate is further fixedly arranged at one side of the lower end of the rotary table, and the trigger plate is slidably connected with the placing groove.

8. The holographic imaging device for medical examination based on 5G communication technology as claimed in claim 1, wherein the slider sleeve and the detection cover are both arc-shaped, and a handle is further fixed at the middle of the rear end of the detection cover.

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