CN210749873U - Human body transfer platform for imaging department - Google Patents
Human body transfer platform for imaging department Download PDFInfo
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- CN210749873U CN210749873U CN201920298097.7U CN201920298097U CN210749873U CN 210749873 U CN210749873 U CN 210749873U CN 201920298097 U CN201920298097 U CN 201920298097U CN 210749873 U CN210749873 U CN 210749873U
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Abstract
The utility model relates to a human body transfer platform for image branch of academic or vocational study, including transferring platform and platform frame, transfer the platform with platform frame swing joint, platform frame is adjusting pole and backup pad swing joint through first regulation pole and second, wherein, is increasing first regulation pole with contained angle or increase between the backup pad the second adjust the pole with under the condition of contained angle between the backup pad, the physics focus of platform frame with the length increase of line between the physics focus of backup pad and the contained angle between the vertical extending direction of this line and the backup pad are the acute angle. Can adjust platform frame height and inclination through setting up the cooperation connection between first regulation pole and the second regulation pole when using this transfer platform, the medical personnel of being convenient for further inspect the treatment with the patient from transfer platform transfer to the treatment platform.
Description
Technical Field
The utility model relates to the technical field of medical equipment, especially, relate to a human body transfer platform is used to image branch of academic or vocational study.
Background
At present, in the clinical practice of the department of imaging, when a patient is subjected to nuclear magnetic resonance examination or needs to take prone and supine postures, the patient needs to be transferred from a hospital bed to a movable push bed and then from the push bed to a position designated by medical instruments such as magnetic resonance, and for the patient who cannot stand and move by himself, the patient needs to be lifted by a plurality of people to complete the process.
For example, the patent publication CN204379572U discloses a human body transfer platform for department of imaging, the department of imaging of medical institution such as mainly used hospital, should include platform, platform frame, platform landing leg, chest protecting band, waist protecting band and shank protecting band, the platform frame support by four platform landing legs, platform frame top is equipped with the platform, the platform upper surface is provided with chest protecting band, waist protecting band and shank protecting band, long avris at the platform is close to the intermediate position and is equipped with the handrail, the four corners position of platform frame is equipped with telescopic platform landing leg, the bottom of telescopic platform landing leg is equipped with the universal wheel that can lock.
But this platform does not have the mechanism of adjustment platform frame height, because the height of every treatment platform is different, if do not have the mechanism of adjustment platform frame height, when transferring the treatment platform with the patient from the transfer platform, need medical personnel to lift the transfer platform and shift again and just can transfer to the treatment platform on, unusual inconvenient.
According to the encyclopedia, it is stated that relative motion is the continuous variation of the relative position of an object to another object, i.e. the motion of this object relative to a reference frame fixed to a second object, newton's law of motion is only applicable to inertial reference frames, two methods are generally used to study motion relative to a non-inertial reference frame, ① transforming the known law of motion relative to an inertial frame into a law of motion relative to a non-inertial frame by coordinate transformation, ② writing directly the differential equation of motion relative to the non-inertial frame under investigation and then integrating it, if it is desired to use the form of newton's second law, it is necessary to add inertial forces to the forces acting on the particles.
SUMMERY OF THE UTILITY MODEL
To the deficiency of the prior art, the utility model provides a human body transfer platform for image branch of academic or vocational study, including transferring platform and platform frame, transfer the platform with platform frame swing joint, the platform frame is adjusted pole and backup pad swing joint through first regulation pole and second, wherein, is increasing first regulation pole with contained angle or increase between the backup pad the second adjust the pole with under the condition of contained angle between the backup pad, the physics focus of platform frame with the length increase of line between the physics focus of backup pad and the contained angle between the longitudinal extension direction of this line and the backup pad are the acute angle.
According to a preferred embodiment, the body of rod middle part of first regulation pole and the body of rod middle part of second regulation pole are through set screw swing joint, the one end of first regulation pole with the landing shelf is articulated, the other end and the sliding connection of first regulation pole are in second slider in the backup pad is articulated mutually, wherein, first regulation pole can be according to the second slider is relative backup pad relative slip's mode is wound set screw rotates, and makes first regulation pole with first contained angle between the landing shelf with first regulation pole with second contained angle between the backup pad all increases or all reduces.
According to a preferred embodiment, the first adjusting rod is provided with a position adjusting hole with a shape limited by a long strip, and the fixing screw is arranged on the second adjusting rod in a mode of sequentially penetrating through the middle part of the rod body of the second adjusting rod and the position adjusting hole.
According to a preferred embodiment, the fixing screw includes a chuck disposed between the first adjusting rod and the second adjusting rod, and the chuck is disposed on the fixing screw in a manner of being rotatably connected to the fixing screw, wherein the first adjusting rod is relatively fixed to the second adjusting rod in a manner of being rotatable with respect to the fixing screw in a circumferential direction of the fixing screw.
According to a preferred embodiment, include on the chuck about the centre of a circle of chuck is centrosymmetric first connecting rod and second connecting rod the chuck is relative the set screw follows set screw's circumferential direction pivoted condition, first connecting rod with the second connecting rod respectively with locate at least one locating hole joint on the first regulation pole.
According to a preferred embodiment, the one end of second regulation pole with the platform frame is articulated, the other end and the sliding connection of second regulation pole to first slider in the backup pad are articulated mutually, wherein, the second is adjusted the pole and can be according to the second slider is relative the mode that the backup pad slided relatively is wound the set screw rotates, in order to change the third contained angle with the fourth contained angle, and make the second adjust the pole with third contained angle between the platform frame with the second adjust the pole with fourth contained angle between the backup pad all increases or all reduces.
According to a preferred embodiment, the first adjusting part at least comprises a first hydraulic pump, a first hydraulic rod and a first slide block, one end of the first hydraulic rod is fixedly connected with the first slide block, and the other end of the first hydraulic rod is movably connected with the first hydraulic pump, wherein under the condition that the first hydraulic pump drives the first hydraulic rod to extend, the second adjusting rod can respectively increase the third included angle and the fourth included angle in a manner of rotating around the fixed screw rod; or
And under the condition that the first hydraulic pump drives the first hydraulic rod to shorten, the second adjusting rod can respectively reduce the third included angle and the fourth included angle in a mode of rotating around the fixed screw rod.
According to a preferred embodiment, the second adjusting portion at least comprises a second hydraulic pump, a second hydraulic rod and a second slider, one end of the second hydraulic rod is fixedly connected with the second slider, and the other end of the second hydraulic rod is movably connected with the second hydraulic pump, wherein the first adjusting rod can respectively increase the first included angle and the second included angle in a manner of rotating around the fixing screw rod under the condition that the second hydraulic pump drives the second hydraulic rod to extend; or
Under the condition that the second hydraulic pump drives the second hydraulic rod to shorten, the first adjusting rod can respectively reduce the first included angle and the second included angle in a mode of rotating around the fixing screw rod.
According to a preferred embodiment, the first hydraulic pump is fixedly connected with a first fixed block, the first fixed block is fixedly connected with the support plate, the second hydraulic pump is fixedly connected with a second fixed block, and the second fixed block is fixedly connected with the support plate.
According to a preferred embodiment, the platform frame is provided with slideways on both sides.
According to a preferred embodiment, be provided with the arch on the lower surface both sides of transfer platform, be provided with the gyro wheel in the arch, transfer platform based on the arch the gyro wheel with the mode that the slide was mutually supported with platform frame swing joint.
According to a preferred embodiment, the transfer platform is provided with a first handle and a second handle on the ends, and the upper surface of the transfer platform is provided with a chest, waist and leg straps.
According to a preferred embodiment, the four corners of the supporting plate are respectively provided with at least one supporting leg, one end of each supporting leg is fixedly connected with the supporting plate, and the other end of each supporting leg is movably connected with the universal wheel.
According to a preferred embodiment, the movable connection can be a rotary connection, a hinge connection, a pivot connection, a clamping connection, and the like, and is not limited to only one connection. Preferably, the first hydraulic pump and the second hydraulic pump may be any devices capable of providing power, including a stepping motor, a servo motor, a dc motor, an asynchronous motor, a synchronous motor, a rotary cylinder, and a hydraulic cylinder. The first hydraulic rod and the second hydraulic rod can be an electric push rod, a hydraulic push rod or a linear motor respectively.
The utility model provides a human body transfer platform's for image branch of academic or vocational study beneficial effect includes at least:
the utility model provides a transfer platform can have first regulation pole and second to adjust the pole through adjusting, can realize the regulation of platform frame height, and the medical personnel of being convenient for shift the patient from the transfer platform to the treatment platform in order to carry out further inspection or treatment. Furthermore, the utility model discloses a connecting rod driven mode adopts hydraulic drive will platform frame lifting extremely with treatment platform height together to can change the inclination of platform frame through the mode of rotating chuck, this in-process hydraulic drive combines the driven mode of connecting rod to guarantee that the transmission process is steady and the energy consumption is low, then only need open hydraulic drive or both sides through the unilateral open hydraulic drive simultaneously with the mode opposite in hydraulic drive direction, can realize the removal is controlled to aligning with treatment platform about the platform frame, and whole process is accomplished by hydraulic drive and has not only guaranteed that the transmission process is steady and the displacement adjustment precision is high.
Drawings
Fig. 1 is a simplified structural schematic diagram of a human body transfer platform provided by the present invention;
FIG. 2 is a simplified side view schematic of a preferred embodiment human transfer platform according to the present invention; and
fig. 3 is a simplified side view schematic of another preferred embodiment human transfer platform provided by the present invention.
List of reference numerals
1: the transfer platform 2: platform frame 3: a first regulating part
4: second adjusting portion 5: and (6) a support plate: first adjusting rod
7: the second adjusting lever 8: fixing the screw rod 10: limiting block
11: first fixed block 12: second fixed block 13: roller wheel
14: bump 15: a slideway 16: first handle
17: second handle 18: support leg 19: universal wheel
20: and (3) air holes 21: chest protector band 22: waist protecting belt
23, leg protective strap α, first included angle β, second included angle
θ: third angle γ: fourth angle 31: first hydraulic pump
32: first hydraulic lever 33: first slider 41: second hydraulic pump
42: second hydraulic rod 43: third hydraulic lever 81: position adjusting hole
82: chuck 83: first link 84: second connecting rod
85: first strut 86: second support rod 87: locating hole
Detailed Description
The following detailed description is made with reference to the accompanying drawings.
Example 1
For patients with serious illness, it is necessary to reduce the number of times of moving the stretcher or ensure the stability of the stretcher during moving as much as possible to avoid further deepening of the illness state of the patients. Compared with the way of manually pushing the stretcher by medical staff, the stability of the way of transferring the stretcher by hydraulic drive is far better than that of the way of manually pushing.
When will transfer platform 1 dock to treatment platform, because there is certain difference in height between transfer platform 1 and the treatment platform, medical personnel often have under the condition that positional deviation exists between platform frame 2 and the treatment platform, with platform frame 2 lift to with treatment platform looks high back, remove again about transfer platform 1 for platform frame 2 aims at treatment platform so that transfer the patient from platform frame 2 to the treatment platform. This in-process has not only increased the number of times and the time that patient's stretcher removed, moreover because platform frame 2 passes through the support to be located higher height, moves about manually again transfer platform 1, platform frame 2 can receive to rock the influence and then probably influence the patient's state of an illness.
The utility model discloses a connecting rod driven mode adopts hydraulic drive to put up 2 lifts of platform to the height with the treatment platform is neat, this in-process hydraulic drive combines the driven mode of connecting rod to guarantee that the transmission process is steady and the energy consumption is low, then only need open hydraulic drive or both sides simultaneously with the mode of hydraulic drive opposite direction through the unilateral, can realize that the removal of platform frame 2 is to aligning with the treatment platform, whole process is accomplished by hydraulic drive and has not only guaranteed that the transmission process is steady and the displacement adjustment precision is high.
When the device is needed to be used, a patient firstly lies on the transfer platform 1, the patient is fixed on the transfer platform through the chest protecting belt, the waist protecting belt and the leg protecting belt, the position of the first sliding block 33 is adjusted through the first hydraulic pump 31 to adjust the size of a third included angle theta between the second adjusting rod 7 and the platform frame 2 and a fourth included angle gamma between the second adjusting rod 7 and the supporting plate 5, the position of the second sliding block 43 is adjusted through the second hydraulic pump 41 to adjust the size of a first included angle α between the first adjusting rod 6 and the platform frame 2 and a second included angle β between the first adjusting rod 6 and the supporting plate 5, the height of the platform frame 2 is adjusted through adjusting the first adjusting rod 6 and the second adjusting rod 7, when the height of the platform frame 2 reaches a proper position, the transfer platform 1 is pushed onto the treatment platform through the first handle 16 and the second handle 17, the examination is carried out, when the examination is finished, the transfer platform 1 is pushed back to the platform frame 2, and then the transfer platform 1 is pushed back to a ward.
Among them, it is preferable that, as shown in fig. 1, a longitudinal extension direction of a line connecting a physical gravity center of the stage frame 2 and a physical gravity center of the support plate 5 is perpendicular to the support plate 5 without moving the stage frame 2. Preferably, when only the first hydraulic pump 31 is turned on to extend the first hydraulic rod 32 so as to slide the first slider 33 while keeping the second hydraulic pump 41 turned off, and the second adjustment lever 7 is moved toward the direction close to the first adjustment lever 6 and the fourth included angle γ between the second adjustment lever 7 and the support plate 5 is gradually increased, the first adjustment lever 6 is pushed by the second adjustment lever 7, but since the end of the first adjustment lever 6 is fixed relative to the support plate 5 at this time, the platform frame 2 is translated toward the direction close to the first adjustment lever 6. The platform frame 2 is displaced both in the vertical direction and in the horizontal direction. At this time, the length of the connecting line between the physical gravity center of the platform frame 2 and the physical gravity center of the supporting plate 5 is increased, and the included angle between the longitudinal extension direction of the connecting line and the supporting plate 5 is an acute angle.
Preferably, when the second hydraulic pump 41 is simply turned on to extend the second hydraulic rod 42 so as to slide the second slider 43 while keeping the first hydraulic pump 31 off, and at this time, the first adjusting rod 6 moves toward the direction close to the second adjusting rod 7 and the second included angle β between the first adjusting rod 6 and the supporting plate 5 is gradually increased, the second adjusting rod 7 is pushed by the first adjusting rod 6, but since the end of the second adjusting rod is fixed relative to the supporting plate 5 at this time, the platform frame 2 is translated toward the direction close to the second adjusting rod 7, the platform frame 2 is displaced in both the vertical direction and the horizontal direction, and at this time, the length of the connection line between the physical gravity center of the platform frame 2 and the physical gravity center of the supporting plate 5 is increased and the included angle between the longitudinal extension direction of the connection line and the supporting plate 5 is an acute angle.
Preferably, when the first hydraulic pump 31 and the second hydraulic pump 41 are simultaneously turned on and the motion state of the first hydraulic rod 32 is opposite to the motion state of the second hydraulic rod 42, i.e. one of the two situations that the first hydraulic rod 32 is shortened and the second hydraulic rod 42 is lengthened or that the first hydraulic rod 32 is lengthened and the second hydraulic rod 42 is shortened, it is equivalent to that the platform frame only performs the left-right translation at this time. At this time, the length of the connecting line between the physical gravity center of the platform frame 2 and the physical gravity center of the supporting plate 5 is increased, but the included angle between the longitudinal extending direction of the connecting line and the supporting plate 5 is an acute angle.
According to a preferred embodiment, the first adjusting rod 6 is provided with a position adjusting hole 81 defined by a long strip shape, and the fixing screw 8 is arranged on the second adjusting rod 7 in a mode of sequentially passing through the middle part of the rod body of the second adjusting rod 7 and the position adjusting hole 81.
According to a preferred embodiment, the fixing screw 8 comprises a chuck 82 arranged between the first adjusting lever 6 and the second adjusting lever 7, the chuck 82 being arranged on the fixing screw 8 in a rotatable connection with the fixing screw 8, wherein the first adjusting lever 6 is relatively fixable to the second adjusting lever 7 in such a manner that the chuck 82 is rotatable relative to the fixing screw 8 in the circumferential direction of the fixing screw 8. Preferably, the connection between the chuck 82 and the fixing screw 8 is a threaded connection. Preferably, the end part of the fixing screw rod 8 close to the second adjusting rod 7 is provided with a limiting block for keeping the movable connection relationship between the second adjusting rod 7 and the first adjusting rod 6, so that the second adjusting rod 7 is limited to deviate from the first adjusting rod 6, and the second supporting rod 86 can be smoothly clamped into the positioning hole.
According to a preferred embodiment, the chuck 82 includes a first link 83 and a second link 84 that are symmetrical with respect to the center of the chuck 82, and the first link 83 and the second link 84 are engaged with at least one positioning hole 87 provided on the first adjustment lever 6, respectively, when the chuck 82 rotates with respect to the fixing screw 8 in the circumferential direction of the fixing screw 8.
Preferably, as shown in fig. 1, the first link 83 and the second link 84 have the same structural components, and the first link 83 includes at least a first strut 85 and a second strut 86 rotatably connected to each other. The end of the first strut 85 is fixed to the chuck 82 and the end of the second strut 86 is free. The first and second struts 85 and 86 are rotatably connected to each other by an elastic member having a self-return elastic function. Preferably, the elastic component may be a common torsion spring, and an included angle formed between two ends extending from the elastic component is preset to be an acute angle, so that the included angle between the first support rod 85 and the second support rod 86 is an acute angle when the second support rod 86 is not clamped into the positioning hole 87, and is a right angle or an obtuse angle when the second support rod 86 is clamped into the positioning hole 87, which can effectively limit the second support rod 86 from being separated from the positioning hole 87. Preferably, the through hole penetrating direction of the positioning hole 87 is perpendicular to the through hole penetrating direction of the position adjusting hole 81.
When the current angle of the transfer platform is not required to be adjusted, the chuck 82 and the fixing screw 8 are relatively fixed, and the second support rod 86 penetrates through at least one positioning hole 87, the second support rod 86 is relatively fixed in the positioning hole 87 due to the elastic component between the second support rod 86 and the first support rod 85. At this time, the fixing screw 8 cannot move up and down in the position adjustment hole and is restricted at the current position, thereby restricting the relative movement between the first adjustment lever 6 and the second adjustment lever 7.
Need carry out the slope of certain angle with the transfer platform when in actual use to in order to carry out quick steady transfer with the patient between two beds, for when needing platform frame 2 slope promptly, medical personnel rotate chuck 82 a little, make second branch 86 break away from out locating hole 87, second branch 86 restores to the normal position so that aim at locating hole 87 once more according to the mode of elastic component release elasticity potential energy. After the chuck 82 is rotated, the second support rods 86 on the two sides no longer limit the moving trend of the fixing screw rod 8, and at the moment, the fixing screw rod 8 can move up and down in the position adjusting hole by adjusting the extension and retraction of the second hydraulic rod 42, and the inclination degree of the platform frame 2 can be changed because the force arms of the first adjusting rod 6 and the second adjusting rod 7 are not equal any more.
Example 2
As shown in fig. 1, the present embodiment provides a human body transfer platform for an image department, the platform includes a transfer platform 1 and a platform frame 2, the transfer platform 1 is movably connected with the platform frame 2, preferably, the platform frame 2 is movably connected with a support plate 5 through a first adjusting rod 6 and a second adjusting rod 7, one end of the first adjusting rod 6 is hinged with the platform frame 2, the other end of the first adjusting rod 6 is hinged with a second slider 43, the second slider 43 is positioned on the support plate 5 and movably connected with the support plate 5, the support plate 5 is provided with a second sliding slot capable of allowing the second slider 43 to slide, one end of the second adjusting rod 7 is hinged with the platform frame 2, the other end of the second adjusting rod 7 is hinged with a first slider 33, the first slider 33 is positioned on the support plate 5 and movably connected with the support plate 5, the support plate 5 is provided with a first sliding slot capable of allowing the first slider 33 to slide, the first adjusting rod 6 is movably connected with the second adjusting rod 7 through a fixing screw 8, the first adjusting rod 6 and the second adjusting rod 7 can rotate around the fixing screw 8, an included angle is formed between the first adjusting rod 6 and the platform frame 2, an included angle formed between the first adjusting rod 356 and the second adjusting rod 365 and a fourth adjusting rod 365, an included angle formed between the platform frame and a fourth adjusting rod β for transferring a medical care treatment is convenient for a patient from a patient to a medical care table rack, and a medical care table β formed between the platform.
Preferably, the first adjusting lever 6 adjusts the position of the second slider 43 based on the second adjusting portion 4, so as to adjust the first included angle α and the second included angle β, the second adjusting portion 4 includes a second hydraulic pump 41, a second hydraulic rod 42 and a second slider 43, one end of the second hydraulic rod 42 is fixedly connected to the second slider 43, and the other end of the second hydraulic rod 42 is movably connected to the second hydraulic pump 41, the second slider 43 is disposed on the support plate 5 and movably connected to the support plate 5, the support plate 5 is provided with a second sliding slot for the second slider 43 to slide, the second hydraulic pump 41 is fixedly connected to the second fixed block 12, and the second fixed block 12 is fixedly connected to the support plate 5, when the second hydraulic pump 41 extends the second hydraulic rod 42, the first adjusting lever 6 rotates around the fixing screw 8 to increase the first included angle α and the second included angle β, and when the second hydraulic rod 41 shortens the first adjusting lever 6 rotates around the fixing screw 8 to decrease the first included angle α and the second included angle β.
Preferably, the second adjustment lever 7 adjusts the position of the first slider 33 based on the first adjustment portion 3, so as to adjust the magnitudes of the third included angle θ and the fourth included angle γ. The first adjusting part 3 includes a first hydraulic pump 31, a first hydraulic rod 32 and a first slider 33, one end of the first hydraulic rod 32 is fixedly connected with the first slider 33, and the other end of the first hydraulic rod 32 is movably connected with the first hydraulic pump 31. First slider 33 sets up on backup pad 5 and backup pad 5 swing joint, is provided with the gliding first spout that can supply first slider 33 on the backup pad 5. The first hydraulic pump 31 is fixedly connected with the first fixing block 11, and the first fixing block 11 is fixedly connected with the support plate 5. When the first hydraulic pump 31 extends the first hydraulic rod 32, the second adjustment lever 7 rotates about the fixing screw 8 to increase the third angle θ and the fourth angle γ. When the first hydraulic pump 31 shortens the first hydraulic rod 32, the second adjusting rod 7 rotates about the fixing screw 8 to decrease the third angle θ and the fourth angle γ.
Preferably, the first sliding groove and the second sliding groove on the supporting plate 5 are provided with the limiting blocks 10, and the limiting blocks 10 can limit the maximum sliding distance of the first sliding block 33 and the second sliding block 43. When the first sliding block 33 and the second sliding block 43 are closest to the limiting block 10, the first adjusting rod 6 and the second adjusting rod 7 can adjust the platform frame 2 to reach the highest position. Supporting legs 18 are arranged at four corners of the supporting plate 5, one ends of the supporting legs 18 are fixedly connected with the supporting plate 5, and the other ends of the supporting legs 18 are connected with universal wheels 19.
Preferably, the platform frame 2 is provided with slideways 15 at both sides. The platform frame 2 is provided with the transfer platform 1 above, and the both sides of transfer platform 1 are provided with arch 14. The protrusions 14 are provided with a plurality of sets of rollers 13. The projections 14 and the rollers 13 cooperate with the runners 15. Thrust is applied to the transfer platform 1, and the transfer platform 1 is movably connected with the platform frame 2 in a sliding mode based on the rollers 13. As shown in fig. 3, a first handle 16 and a second handle 17 are provided on the ends of the transfer platform 1. As shown in fig. 2, the transfer platform 1 is provided with a plurality of air holes 20. The upper surface of the transfer platform 1 is provided with a chest protecting belt 21, a waist protecting belt 22 and a leg protecting belt 23. The chest protecting belt 21 is a straight belt-shaped protecting belt, the waist protecting belt 22 is an arc belt-shaped protecting belt, the leg protecting belt 23 is an arc belt-shaped protecting belt, and the widths of the chest protecting belt 21, the waist protecting belt 22 and the leg protecting belt 23 are all 10-15 cm.
Preferably, when the device is used, a patient lies on the transfer platform 1, the patient is fixed on the transfer platform through the chest protecting strap, the waist protecting strap and the leg protecting strap, the position of the first sliding block 33 is adjusted through the first hydraulic pump 31 to adjust the size of the third included angle theta between the second adjusting rod 7 and the platform frame 2 and the size of the fourth included angle gamma between the second adjusting rod 7 and the supporting plate 5, the position of the second sliding block 43 is adjusted through the second hydraulic pump 41 to adjust the size of the first included angle α between the first adjusting rod 6 and the platform frame 2 and the second included angle β between the first adjusting rod 6 and the supporting plate 5, the height of the platform frame 2 is adjusted through the first adjusting rod 6 and the second adjusting rod 7, when the height of the platform frame 2 reaches a proper position, the transfer platform 1 is pushed onto the treatment platform through the first handle 16 and the second handle 17, the examination is performed, when the examination is completed, the transfer platform 1 is pushed back to the platform frame 2, and then the transfer platform 1 is pushed back to the ward.
It should be noted that the above-mentioned embodiments are exemplary, and those skilled in the art can devise various solutions in light of the present disclosure, which are also within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present specification and drawings are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.
Claims (10)
1. The utility model provides a human body transfer platform for image branch of academic or vocational study, includes transfer platform (1) and platform frame (2), transfer platform (1) with platform frame (2) swing joint, its characterized in that, platform frame (2) are adjusted pole (7) and backup pad (5) swing joint through first regulation pole (6) and second, wherein, are increasing first regulation pole (6) with contained angle or increase between backup pad (5) second regulation pole (7) with under the condition of contained angle between backup pad (5), the physics focus of platform frame (2) with the length increase of line between the physics focus of backup pad (5) and the contained angle between the vertical extending direction of this line and backup pad (5) are the acute angle.
2. The transfer platform according to claim 1, characterized in that the middle of the rod of the first adjusting rod (6) and the middle of the rod of the second adjusting rod (7) are movably connected by a fixed screw (8), one end of the first adjusting rod (6) is hinged with the platform frame (2), the other end of the first adjusting rod (6) is hinged with a second slide block (43) which is slidably connected to the supporting plate (5), wherein,
the first adjusting rod (6) can rotate around the fixing screw rod (8) in a mode that the second sliding block (43) slides relative to the supporting plate (5), and a first included angle (α) between the first adjusting rod (6) and the platform frame (2) and a second included angle (β) between the first adjusting rod (6) and the supporting plate (5) are increased or decreased.
3. The transfer platform according to claim 2, wherein the first adjusting rod (6) is provided with a position adjusting hole (81) having a shape defined by a long strip, and the fixing screw (8) is arranged on the second adjusting rod (7) in a manner of sequentially passing through the middle of the rod body of the second adjusting rod (7) and the position adjusting hole (81).
4. Transfer platform according to claim 3, characterized in that the fixing screw (8) comprises a chuck (82) arranged between the first adjusting lever (6) and the second adjusting lever (7), which chuck (82) is arranged on the fixing screw (8) in a rotatable connection with the fixing screw (8), wherein,
the first adjusting rod (6) can be fixed relative to the second adjusting rod (7) in such a manner that the chuck (82) rotates relative to the fixing screw (8) in the circumferential direction of the fixing screw (8).
5. The transfer platform of claim 4, wherein the chuck (82) comprises a first connecting rod (83) and a second connecting rod (84) which are symmetrical with respect to the center of the circle of the chuck (82),
chuck (82) are relative fixing screw (8) are followed under the circumferencial direction pivoted condition of fixing screw (8), first connecting rod (83) with second connecting rod (84) respectively with locate at least one locating hole (87) joint on first regulation pole (6).
6. Transfer platform according to claim 5, characterized in that one end of the second adjustment bar (7) is hinged to the platform frame (2) and the other end of the second adjustment bar (7) is hinged to a first slider (33) slidably connected to the support plate (5), wherein,
the second adjusting rod (7) can rotate around the fixing screw rod (8) in a mode that the second sliding block (43) is opposite to the supporting plate (5) in a relative sliding mode, so that the first included angle (α) and the second included angle (β) are changed, and the third included angle (theta) between the second adjusting rod (7) and the platform frame (2) and the fourth included angle (gamma) between the second adjusting rod (7) and the supporting plate (5) are increased or decreased.
7. The transfer platform of claim 6, wherein the first adjustment part (3) comprises at least a first hydraulic pump (31), a first hydraulic lever (32) and the first slider (33), one end of the first hydraulic lever (32) is fixedly connected with the first slider (33), and the other end of the first hydraulic lever (32) is movably connected with the first hydraulic pump (31), wherein,
the second adjusting rod (7) can respectively increase the third included angle (theta) and the fourth included angle (gamma) in a manner of rotating around the fixed screw (8) under the condition that the first hydraulic pump (31) drives the first hydraulic rod (32) to extend; or
Under the condition that the first hydraulic pump (31) drives the first hydraulic rod (32) to shorten, the second adjusting rod (7) can respectively reduce the third included angle (theta) and the fourth included angle (gamma) in a mode of rotating around the fixed screw rod (8).
8. The transfer platform of claim 7, wherein the second adjusting portion (4) comprises at least a second hydraulic pump (41), a second hydraulic rod (42) and the second slider (43), one end of the second hydraulic rod (42) is fixedly connected with the second slider (43), the other end of the second hydraulic rod (42) is movably connected with the second hydraulic pump (41),
when the second hydraulic pump (41) drives the second hydraulic rod (42) to extend, the first adjusting rod (6) can respectively increase the first included angle (α) and the second included angle (β) in a manner of rotating around the fixing screw rod (8), or
Under the condition that the second hydraulic pump (41) drives the second hydraulic rod (42) to shorten, the first adjusting rod (6) can respectively reduce the first included angle (α) and the second included angle (β) in a manner of rotating around the fixing screw rod (8).
9. The transfer platform according to claim 8, wherein the first hydraulic pump (31) is fixedly connected to a first fixed block (11), the first fixed block (11) is fixedly connected to the support plate (5), the second hydraulic pump (41) is fixedly connected to a second fixed block (12), and the second fixed block (12) is fixedly connected to the support plate (5).
10. Transfer platform according to claim 9, characterized in that the platform frame (2) is provided with skids (15) on both sides.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201920298097.7U CN210749873U (en) | 2019-03-08 | 2019-03-08 | Human body transfer platform for imaging department |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920298097.7U CN210749873U (en) | 2019-03-08 | 2019-03-08 | Human body transfer platform for imaging department |
Publications (1)
Publication Number | Publication Date |
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CN210749873U true CN210749873U (en) | 2020-06-16 |
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CN112850059A (en) * | 2020-12-29 | 2021-05-28 | 山东晟阳新型建材有限公司 | Concrete block overturning workbench and block overturning method |
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Cited By (1)
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CN112850059A (en) * | 2020-12-29 | 2021-05-28 | 山东晟阳新型建材有限公司 | Concrete block overturning workbench and block overturning method |
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