CN215078842U - Medical imaging equipment for intelligent medical engineering - Google Patents
Medical imaging equipment for intelligent medical engineering Download PDFInfo
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- CN215078842U CN215078842U CN202120322392.9U CN202120322392U CN215078842U CN 215078842 U CN215078842 U CN 215078842U CN 202120322392 U CN202120322392 U CN 202120322392U CN 215078842 U CN215078842 U CN 215078842U
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Abstract
The utility model belongs to the field of medical imaging equipment, in particular to medical imaging equipment for intelligent medical engineering, which aims at the problem that when the existing ultrasonic equipment is used, when a doctor is required to independently detect a patient, an ultrasonic probe cannot be operated while controlling the detection frequency and the irradiation depth of the adjusting equipment, and the detection efficiency of the patient is slowed down, the utility model provides a scheme which comprises a movable base and a detection bed, wherein the movable base is positioned below one side of the detection bed, the top of the movable base is respectively provided with a main beam cylinder and a lever support block, a support rod is rotatably connected on the lever support block, one end of the support rod extends into the main beam cylinder, the utility model realizes that when the doctor independently carries out ultrasonic detection on the patient, the hands of the doctor are released to operate the control equipment to adjust the detection equipment, and the detection efficiency is improved, and prevent that detection equipment from getting back and forth and getting the detection head pollution that causes and influencing detection work probably.
Description
Technical Field
The utility model relates to a medical imaging equipment technical field especially relates to a medical imaging equipment for intelligent medical engineering.
Background
Medical imaging devices are widely used as diagnostic tools for evaluating physiological function internally or externally to determine the need for treatment and to evaluate the effect of treatment, when in use the medical imaging device is in contact with the patient's tissue and/or fluids, saline solutions, ultrasound gels and/or other substances rendering the imaging device non-sterile, in the case of reusable devices, after imaging is complete the medical imaging device is sterilized with enzymatic cleaners and disinfectants before it can be used again.
When people speak or sing, the sound heard by people is called sound wave, the frequency of the sound wave is 50-10000 Hz, the sound wave is over 20000Hz, and the sound wave cannot be heard by human ears, so that the sound wave is called ultrasonic wave for short. Ultrasound, when diagnosing disease, has many forms: the device for diagnosing diseases in the form of amplitude (amplitude) is called 'one-dimensional display', the first English letter of amplitude is A, so called A ultrasonic, also called one-dimensional ultrasonic, the form of gray scale, namely brightness (brightness) mode is called 'two-dimensional display', the first English letter of brightness is B, so called B ultrasonic, also called two-dimensional ultrasonic or gray scale ultrasonic, generally comprises a probe (phased array, linear array, convex array, mechanical fan scan, three-dimensional probe, endoscope probe and the like), an ultrasonic transmitting/receiving circuit, signal processing, image display and the like, and simultaneously acquires blood flow motion, tissue motion information and human organ tissue imaging by utilizing the ultrasonic Doppler technology and the ultrasonic echo principle, is used for ultrasonic imaging, measurement and blood flow motion information acquisition for clinical ultrasonic diagnosis and examination, wherein the probe can pass through the internal tissues of a human body in esophagus, blood vessel and operation, and/or in the fields of ultrasound navigation, etc.
When the existing ultrasonic equipment is used and a doctor needs to detect a patient independently, the detection efficiency of the patient cannot be slowed down by operating an ultrasonic probe and controlling and adjusting the detection frequency, the irradiation depth and the like of the equipment, so that the medical imaging equipment for intelligent medical engineering is provided for solving the problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving and having ultrasonic equipment among the prior art when using, when needing the doctor to examine patient alone, can't operate ultrasonic probe on one side, control adjusting device's detection frequency and irradiation depth etc. on one side, slowed down the problem to patient's detection efficiency, and the medical imaging equipment who is used for intelligent medical engineering who proposes.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a medical imaging device for intelligent medical engineering comprises a movable base platform and a detection bed, wherein the movable base platform is positioned below one side of the detection bed, a main beam cylinder and a lever supporting block are respectively arranged at the top of the movable base platform, a supporting rod is rotatably connected onto the lever supporting block, one end of the supporting rod extends into the main beam cylinder, a rotating ferrule is movably sleeved on the outer ring of the main beam cylinder, a wiring harness wheel is arranged on the rotating ferrule, a rotating layer is arranged at the top of the main beam cylinder, a rotating platform is rotatably connected onto the rotating layer, a lifting shaft rod which is in sliding connection with the inner wall of the main beam cylinder is arranged in the main beam cylinder, one end of the lifting shaft rod extends into the rotating platform, a main spring is fixedly installed on the inner wall of the top of the main beam cylinder, one end of the main spring is fixedly sleeved on the lifting shaft rod, a suspension arm is rotatably connected onto the rotating platform, and an auxiliary spring is fixedly installed at the top of the inner wall of the rotating platform, and the top of the auxiliary spring is fixedly provided with a stop frame, the top of the lifting shaft lever is provided with a limit nail, the limit nail extends into the stop frame and is rotatably connected with the stop frame, the stop frame is movably clamped with the suspension arm, one end of the suspension arm is provided with a rotating shaft head, the rotating shaft head is respectively and rotatably connected with two transverse shafts, a thrust spring is fixedly connected between the two transverse shafts, transverse shaft blocks are fixedly arranged below the two transverse shafts, the two transverse shaft blocks are slidably connected with the same limit block, the bottom of the limit block is provided with a probe socket, a data wire is wound in the wire harness wheel and penetrates through the suspension arm and extends to one side of the rotating shaft head, one end of the data wire is fixedly connected with the probe socket, and the bottom of the probe socket is movably clamped with an ultrasonic probe.
Preferably, the outer ring of the lifting shaft lever in the main beam cylinder is fixedly sleeved with a plurality of positioning wheel sleeves, and the plurality of positioning wheel sleeves are in contact with the inner wall of the main beam cylinder, so that the stability of the lifting shaft lever in lifting in the main beam cylinder is improved.
Preferably, friction sleeve layers are arranged on the top of the outer ring of the rotating shaft end of the rotating platform and the top of the inner ring of the stopping frame of the suspension arm, and the two friction sleeve layers are in contact with each other, so that the fixing capacity of the stopping frame for clamping the rotating shaft of the suspension arm is improved, the locking capacity of the suspension arm on the rotating platform is improved, and the capacity of fixing the ultrasonic probe is improved.
Preferably, two transverse sliding grooves are formed in the limiting block, two column protrusions are arranged on two sides of the two transverse sliding shaft blocks, the two transverse sliding grooves are respectively in sliding connection with the eight column protrusions, the moving track of the transverse sliding shaft blocks is limited through the two transverse sliding grooves, and the smooth degree of operation of fixing the ultrasonic probe is improved.
Preferably, the fixed cover of the one end that the main beam section of thick bamboo was kept away from to the vaulting pole is equipped with anti-skidding cover, the bottom of removing the base platform is equipped with a plurality of universal wheels, reduces the doctor and steps on smooth and step on empty probability appearing trampling when trampling the vaulting pole.
The utility model discloses in, a medical imaging equipment for intelligent medical engineering:
the utility model discloses a plurality of structures in girder section of thick bamboo and a plurality of structures in the revolving stage, through trampling the skid resistant course end on the vaulting pole, make the other end of vaulting pole prop up the lift axostylus axostyle in the girder section of thick bamboo, the lift axostylus axostyle does the vertical rising motion in the girder section of thick bamboo, make the main spring shrink energy storage in step, and make the spacing nail of lift axostylus axostyle top loosen and pull down the stop frame, make the auxiliary spring pull up the stop frame, accomplish simultaneously and know the fixed and rotation fixed to the davit of opening to the revolving stage, make the pivot head end of davit move in detecting bed multiple spot, has promoted the efficiency that detects patient on detecting bed;
the utility model discloses a through the overhead a plurality of structures of pivot that set up on the davit, through pinching two handles in to, make two sideslip shafts contract in to, two sideslip shaft blocks are synchronous sideslip in stopper is inwards, make ultrasonic probe can be in the overhead turned angle of pivot, promoted the adaptability to the sick position on the body of disease, promoted the detection efficiency to the disease;
the utility model discloses a plurality of structures that set up on removing the base frame have realized carrying out ultrasonic testing time measuring to patient alone at the doctor, fix ultrasonic probe on the detection area of disease through external equipment, and liberation doctor's both hands go to operate control equipment to adjust check out test set, when having promoted detection efficiency to prevent that check out test set from making a round trip to get the detection head pollution that causes and influence detection achievement probably.
Drawings
Fig. 1 is a schematic side view of a main body of a medical imaging apparatus for intelligent medical engineering according to the present invention;
fig. 2 is a schematic side sectional view of the inside of a main body of a medical imaging apparatus for intelligent medical engineering proposed by the present invention;
fig. 3 is the utility model provides a stopper and sideslip axle piece sliding connection back side view section schematic diagram for medical imaging equipment of intelligent medical engineering.
In the figure: the ultrasonic probe comprises a main beam barrel 1, a rotating table 2, a rotating ferrule 3, a wire harness wheel 4, a moving base 5, a lever support block 6, a support rod 7, a suspension arm 8, a rotating shaft head 9, a transverse moving shaft block 10, a limiting block 11, a pinching handle 12, a data wire 13, a rotating layer 14, a universal wheel 15, an anti-slip sleeve 16, a detection bed 17, a lifting shaft rod 18, a positioning wheel sleeve 19, a main spring 20, a stop frame 21, an auxiliary spring 22, a friction sleeve layer 23, a transverse moving shaft 24, a thrust spring 25, a probe socket 26 and an ultrasonic probe 27.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1-3, a medical imaging device for intelligent medical engineering, comprising a movable base 5 and a detection bed 17, wherein the movable base 5 is located under one side of the detection bed 17, a main beam barrel 1 and a lever support block 6 are respectively arranged on the top of the movable base 5, a support rod 7 is rotatably connected to the lever support block 6, one end of the support rod 7 extends into the main beam barrel 1, a rotating collar 3 is movably sleeved on the outer ring of the main beam barrel 1, a wire harness wheel 4 is arranged on the rotating collar 3, a rotating layer 14 is arranged on the top of the main beam barrel 1, a rotating platform 2 is rotatably connected to the rotating layer 14, a lifting shaft lever 18 slidably connected to the inner wall of the main beam barrel 1 is arranged in the main beam barrel 1, one end of the lifting shaft lever 18 extends into the rotating platform 2, a main spring 20 is fixedly arranged on the inner wall of the top of the main beam barrel 1, one end of the main spring 20 is fixedly sleeved on the lifting shaft lever 18, a suspension arm 8 is rotatably connected to the rotating platform 2, an auxiliary spring 22 is fixedly arranged on the top of the inner wall of the rotating platform 2, a stop frame 21 is fixedly arranged on the top of the auxiliary spring 22, a limit pin is arranged on the top of the lifting shaft lever 18, the limit nail extends into the stop frame 21 and is rotationally connected with the stop frame 21, the stop frame 21 is movably clamped with the suspension arm 8, one end of the suspension arm 8 is provided with a rotating shaft head 9, two transverse moving shafts 24 are respectively rotationally connected on the rotating shaft head 9, a thrust spring 25 is fixedly connected between the two traverse shafts 24, traverse shaft blocks 10 are fixedly arranged below the two traverse shafts 24, the two traverse shaft blocks 10 are connected with the same limiting block 11 in a sliding way, the bottom of the limiting block 11 is provided with a probe socket 26, a data wire 13 is wound in the wire harness wheel 4, the data wire 13 penetrates through the suspension arm 8 and extends to one side of the rotating shaft head 9, and one end of the data wire 13 is fixedly connected with the probe socket 26, and the bottom of the probe socket 26 is movably clamped with an ultrasonic probe 27.
The utility model discloses in, the fixed cover is equipped with a plurality of location wheel covers 19 on the outer lane that lift axostylus axostyle 18 is located girder section of thick bamboo 1, and a plurality of location wheel covers 19 all contact with girder section of thick bamboo 1's inner wall, has promoted the stability of lift axostylus axostyle 18 when going up and down in girder section of thick bamboo 1.
The utility model discloses in, the davit 8 is located the pivot end outer lane of revolving stage 2 and the inner circle top of ending a frame 21 all is equipped with friction jacket layer 23, and two friction jacket layers 23 contact, has promoted and has ended a frame 21 and clamped the fixed ability of davit 8 pivot, has promoted the locking ability of davit 8 on revolving stage 2, has promoted fixed ultrasonic probe 27's ability.
The utility model discloses in, be equipped with two horizontal spouts in the stopper 11, two sideslip axle piece 10's both sides all are equipped with two post archs, two horizontal spouts respectively with eight protruding sliding connection of post, have carried on spacingly to the removal orbit of sideslip axle piece 10 through two horizontal spouts, have promoted fixed ultrasonic probe 27's operation in the same direction as smooth degree.
The utility model discloses in, the fixed cover of one end that the main beam section of thick bamboo 1 was kept away from to vaulting pole 7 is equipped with anti-skidding cover 16, and the bottom of removing base frame 5 is equipped with a plurality of universal wheels 15, reduces the probability that the doctor appears stepping on smoothly and stepping on empty when trampling vaulting pole 7.
In the utility model, firstly, the data wire 13 is connected to the control terminal, then the ultrasonic probe 27 is installed on the probe socket 26, then the patient lies on the detection bed 17, then the device main body is pushed to the proper position on one side of the detection bed 17, then two pinching handles 12 are respectively held and the lower support rod 7 is trampled, the support rod 7 drives the lifting shaft rod 18 in the main beam barrel 1 to rise, after the lifting shaft rod 18 rises, the stop frame 21 can be pulled and raised by the auxiliary spring 22, after the two friction sleeve layers 23 are disconnected and contacted, the rotating platform 2 can horizontally rotate, the suspension arm 8 can also vertically rotate, then the ultrasonic probe 27 is aligned with the patient position to be detected by inwardly pinching the two pinching handles 12, after the detection position is aligned, when the control terminal is operated, the two pinching handles 12 are firstly released and held, the thrust spring 25 on the pinching handles 12 pushes the two transverse moving shafts 24 to be abutted on the two ends of the rotating shaft head 9, then the stepping support rod 7 is loosened, the main spring 20 pushes the lifting shaft rod 18 downwards, the limit pin at the top of the lifting shaft rod 18 pulls the stop frame 21 downwards, the friction sleeve layer 23 on the stop frame 21 and the friction sleeve layer 23 on the suspension arm 8 are in contact with each other to fix the suspension arm 8, the stop frame 21 is pulled through the limit pin to make the rotating platform 2 friction fixed, the control terminal can be operated to adjust the detection parameters, after the detection is finished, the stepping support rod 7 is stepped again, the wire harness wheel 4 pulls the data wire 13 to lift the suspension arm 8, the ultrasonic probe 27 is detached to be cleaned, and the primary detection is finished.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (5)
1. A medical imaging device for intelligent medical engineering comprises a movable base (5) and a detection bed (17), wherein the movable base (5) is positioned below one side of the detection bed (17), and is characterized in that the top of the movable base (5) is respectively provided with a main beam cylinder (1) and a lever supporting block (6), the lever supporting block (6) is rotatably connected with a supporting rod (7), one end of the supporting rod (7) extends into the main beam cylinder (1), a rotating ferrule (3) is movably sleeved on the outer ring of the main beam cylinder (1), a wiring harness wheel (4) is arranged on the rotating ferrule (3), the top of the main beam cylinder (1) is provided with a rotating layer (14), the rotating layer (14) is rotatably connected with a rotating platform (2), a lifting shaft lever (18) connected with the inner wall of the main beam cylinder (1) in a sliding manner is arranged in the main beam cylinder (1), and one end of the lifting shaft lever (18) extends into the rotating platform (2), the main spring (20) is fixedly installed on the inner wall of the top of the main beam barrel (1), one end of the main spring (20) is fixedly sleeved on the lifting shaft lever (18), the rotating table (2) is connected with the suspension arm (8) in a rotating mode, the top of the inner wall of the rotating table (2) is fixedly provided with the auxiliary spring (22), the top of the auxiliary spring (22) is fixedly provided with the stop frame (21), the top of the lifting shaft lever (18) is provided with the limit pin, the limit pin extends into the stop frame (21) and is connected with the stop frame (21) in a rotating mode, the stop frame (21) is movably clamped with the suspension arm (8), one end of the suspension arm (8) is provided with a rotating shaft head (9), the rotating shaft head (9) is respectively connected with two transverse moving shafts (24) in a rotating mode, a thrust spring (25) is fixedly connected between the two transverse moving shafts (24), and transverse moving shaft blocks (10) are fixedly installed below the two transverse moving shafts (24), the two traverse shaft blocks (10) are connected with the same limiting block (11) in a sliding mode, a probe socket (26) is arranged at the bottom of the limiting block (11), a data wire (13) is wound in the wire harness wheel (4), the data wire (13) penetrates through the suspension arm (8) and extends to one side of the rotating shaft head (9), one end of the data wire (13) is fixedly connected with the probe socket (26), and an ultrasonic probe (27) is movably clamped at the bottom of the probe socket (26).
2. Medical imaging device for intelligent medical engineering according to claim 1, wherein the outer ring of the lifting shaft (18) inside the main beam cylinder (1) is fixedly sleeved with a plurality of positioning wheel sleeves (19), and the plurality of positioning wheel sleeves (19) are all in contact with the inner wall of the main beam cylinder (1).
3. A medical imaging device for intelligent medical engineering according to claim 1, wherein the outer ring of the rotation shaft end of the suspension arm (8) on the rotating table (2) and the top of the inner ring of the stop frame (21) are provided with friction sleeve layers (23), and the two friction sleeve layers (23) are in contact.
4. The medical imaging device for intelligent medical engineering according to claim 1, wherein two lateral sliding grooves are formed in the limiting block (11), two column protrusions are arranged on two sides of each of the two lateral shaft blocks (10), and the two lateral sliding grooves are respectively connected with the eight column protrusions in a sliding mode.
5. Medical imaging device for intelligent medical engineering, according to claim 1, wherein the end of the stay bar (7) away from the main beam cylinder (1) is fixedly sleeved with an anti-slip sleeve (16), and the bottom of the moving base (5) is provided with a plurality of universal wheels (15).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120322392.9U CN215078842U (en) | 2021-02-04 | 2021-02-04 | Medical imaging equipment for intelligent medical engineering |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120322392.9U CN215078842U (en) | 2021-02-04 | 2021-02-04 | Medical imaging equipment for intelligent medical engineering |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN215078842U true CN215078842U (en) | 2021-12-10 |
Family
ID=79334751
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202120322392.9U Expired - Fee Related CN215078842U (en) | 2021-02-04 | 2021-02-04 | Medical imaging equipment for intelligent medical engineering |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN215078842U (en) |
-
2021
- 2021-02-04 CN CN202120322392.9U patent/CN215078842U/en not_active Expired - Fee Related
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| Date | Code | Title | Description |
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| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20211210 |
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| CF01 | Termination of patent right due to non-payment of annual fee |