Detailed Description
This part works according to what is expressed in figures 1 and 2: the top of sideslip frame 101 left side rotates the bottom left side that is connected with roll-over frame 104, the left and right sides at roll-over frame 104 top has a gag lever post 105 fixedly connected respectively, gripper I107 is equipped with two, the rear side of two gag lever posts 105 is sliding connection respectively has the left and right sides of a gripper I107 bottom, the rear side of two gag lever posts 105 is sliding connection respectively has the left and right sides of another gripper I107 bottom, the middle part rigid coupling on roll-over frame 104 right side has the stiff end of bi-directional push rod 106, the rigid coupling has the right side of two gripper I107 bottoms on two movable ends of bi-directional push rod 106 respectively.
To explain further, because in the intracardiac branch of academic or vocational study pipe intervention operation, need press the shank at some times and be used for the intracardiac branch of academic or vocational study to press hemostasis, can not cause patient's health to produce big rocking when pressing the shank for prevent to cause secondary injury to the patient, thereby when using, drive two clamping jaw I107 on two movable ends of two-way push rod 106 drive two-way push rod 106 are close to each other, place the patient on sideslip frame 101 with preceding shank and carry out thigh root centre gripping, when two clamping jaw I107 are close to each other and remove, can slide at two gag lever posts 105, the slip of being convenient for is stable, the stable patient shank of fixing.
This part works according to what is expressed in figures 1 and 2: the two clamping claws I107 fixedly connected to the two movable ends of the bidirectional push rod 106 are arranged in a mirror symmetry manner.
To further illustrate, the mirror symmetry of the two clamping jaws I107 facilitates clamping the thigh root of the patient from both sides, thereby improving the clamping stability.
This part is according to figures 1, 2, 3. 4. The working procedures expressed in 9 and 10 are: the two convex seats 103 are arranged, the two convex seats 103 are fixedly connected to the front side and the rear side of the left side of the transverse moving frame 101 respectively, the bottom of the transverse moving frame 101 is fixedly connected with the underframe 102, the underframe 102 is rotationally connected with the lead screw 108, the lead screw 108 is in threaded connection with the bottom of the meshing frame 113, the left side of the lifting frame 109 is rotationally connected to the middle part of the upper side of the meshing frame 113, the bottom of the connecting frame 110 is rotationally connected to the right side of the lifting frame 109, the cross rod 111 is fixedly connected to the upper side of the connecting frame 110, the output shaft of the motor I112 is fixedly connected with the lead screw 108 through a coupler, the left side of the underframe 102 is fixedly connected with the motor I112, the right side of the turnover frame 104 is fixedly connected with the left side of the supporting frame 201, and the front side and the rear side of the cross rod 111 are rotationally connected with the front side and the rear side of the right side of the supporting frame 201 respectively.
To further explain, during the use, driving motor i 112 drives lead screw 108 to rotate, and then make rotatory lead screw 108 drive engagement frame 113 remove, further by the engagement frame 113 promotion frame 109 that moves, and then promote the horizontal pole 111 on the link 110, further can be upwards moved by the right side of horizontal pole 111 promotion support frame 201, the left side of support frame 201 and the hookup location of roll-over stand 104 this moment, further by the left side of roll-over stand 104 as the center of rotation, further by support frame 201 with the shank of patient lift, prevent long-time operation of patient, shank cramp, when the shank of patient cramp, can influence the process of operation, thereby lift the shank under the circumstances of timely fixing the thigh root with the shank of patient, form a natural curling state with the shank of patient, prevent the shank cramp of patient, improve the stability of device compression hemostasis.
This part works according to what is expressed in figures 3 and 4: the support 201 is provided with two protruding portions, and the two protruding portions are respectively arranged on the front side and the rear side of the middle portion of the upper side of the support 201.
To further explain, two convex parts are respectively arranged on the front side and the rear side of the middle part of the upper side of the supporting frame 201, so that the thigh of a patient can be stabilized by the two convex parts when the thigh of the patient is placed on the supporting frame 201.
Still include rectangular frame 202, vertical pole 203 and base 204, both sides are equipped with a rectangular frame 202 respectively around the support frame 201 upside, and the middle part of every rectangular frame 202 is equipped with a plurality of vertical poles 203, and the front and back both sides on rectangular frame 202 right side have a base 204 respectively rigid coupling.
This part works according to what is expressed in figures 3 and 4: the rectangular frames 202 are provided with two, the front side and the rear side of the upper side of the support frame 201 are fixedly connected with the two rectangular frames 202 respectively, the vertical rods 203 are provided with a plurality of vertical rods 203, the middle part of each rectangular frame 202 is provided with a plurality of vertical rods 203, the base 204 is provided with two bases 204, and the two bases 204 are fixedly connected with the front side and the rear side of the right side of the rectangular frame 202 respectively.
As further described, the plurality of vertical bars 203 on each rectangular frame 202 facilitate subsequent installation of leg compression devices, facilitating intracardiac compression hemostasis of the patient's legs from both sides.
The plurality of vertical rods 203 positioned in the middle of each rectangular frame 202 are uniformly distributed.
This part works according to what is expressed in figures 3 and 4: the plurality of vertical rods 203 in the middle of each rectangular frame 202 are uniformly distributed in each rectangular frame 202.
To further illustrate, the plurality of vertical bars 203 are uniformly distributed to facilitate the installation of the pressing devices, so that the force applied to the legs of the patient is further uniform when the legs of the patient are pressed.
Still include pressing frame 305, band pulley II 306 and press the seat 307, press frame 305 to be equipped with a plurality ofly, the bottom of every pressing frame 305 all is equipped with a band pulley II 306, and the upside of every pressing frame 305 all fixedly connected with presses the seat 307, all rotates on every vertical pole 203 and is connected with a pressing frame 305.
This part works according to what is expressed in figures 5, 6, 9 and 10: the pressing frame 305 is provided with a plurality of, each vertical rod 203 is provided with a pressing frame 305, each vertical rod 203 is rotationally connected with the pressing frame 305, the belt wheel II 306 is provided with a plurality of, the bottom of each pressing frame 305 is fixedly connected with a belt wheel II 306, the pressing seat 307 is provided with a plurality of, and the upper end of each pressing frame 305 is fixedly connected with a pressing seat 307.
To further explain, when the plurality of pressing frames 305 rotatably connected to the vertical rod 203 rotate, the pressing base 307 can be driven to rotate, further, when the pressing base 307 rotates, the legs of the patient can be repeatedly pressed during the cardiology operation, the working pressure of medical staff during the operation is reduced, and the efficiency of uniform stress of the thigh and long-time pressing is improved conveniently.
Each pressing seat 307 is made of solid rubber.
This part works according to what is expressed in figures 5, 6, 9 and 10: each pressing seat 307 fixedly connected to the upper end of the pressing frame 305 is made of solid rubber.
To further illustrate, each pressing seat 307 is made of solid rubber, so that a large force is not generated on the leg when the leg is pressed, and the pressing is buffered to a certain extent.
Still include motor II 301, rotary rod 302, band pulley I303 and belt 304, motor II 301 is equipped with two, two motor II 301 pass through two output shafts respectively with two rotary rod 302 rigid couplings, the upside of every rotary rod 302 all rigid coupling has a band pulley I303, two motor II 301 rigid couplings respectively on two bases 204, belt 304 is equipped with two, band pulley I303 that is located the front side is connected with a plurality of band pulley II 306 transmission that are located the front side respectively through a belt 304, band pulley I303 that is located the rear side is connected with a plurality of band pulley II 306 transmission that are located the rear side respectively through a belt 304.
This part works according to what is expressed in figures 5, 6, 9 and 10: the motor II 301 is provided with two, two output shafts of the two motors II 301 are fixedly connected with two rotating rods 302 through two couplings respectively, the belt wheels I303 are provided with two, two belt wheels I303 are fixedly connected with the upper ends of the two rotating rods 302 respectively, two motors II 301 are fixedly connected to the two bases 204 respectively, the belts 304 are provided with two belt wheels II 306 positioned on the front side are in transmission connection with the belt wheels I303 positioned on the front side through one belt 304, and the belt wheels II 306 positioned on the rear side are in transmission connection with the belt wheels I303 positioned on the rear side through the other belt 304.
To further illustrate, when the plurality of pressing bases 307 rotate, the two motors ii 301 on the two bases 204 are driven to rotate the two rotating rods 302, and further power is transmitted to the plurality of pulleys ii 306 through the belt 304 in transmission connection with the pulley i 303, so that the pressing frame 305 rotates, and further the plurality of pressing bases 307 synchronously rotate, so as to provide continuous power for pressing during operation and press along with the curl of the legs of the patient and the rise of the legs.
Both belts 304 are V-shaped belts.
To further illustrate, both belts 304 are V-shaped belts to facilitate improved and stable transmission efficiency.
This part works according to what is expressed in figures 7, 8, 9 and 10: a hemostasis device is pressed to intracardiac branch of academic or vocational study still include mount 401, the upper end on mount 401 right side is fixed firmly ejector pin 402, the lower extreme rigid coupling on mount 401 right side has sill bar 403, the left and right sides of mount 401 upside is fixed firmly a slide bar 404 respectively, two boss 103 sliding connection are in the front and back both sides of ejector pin 402 respectively, the bottom sliding connection of chassis 102 is on sill bar 403.
To further explain, since the two bosses 103 on the left side of the traverse 101 are slidably connected to the top bar 402, the position of the thigh is adjusted and fixed, and the bottom frame 102 on the bottom of the traverse 101 also moves along with the traverse 101 while the bottom bar 403 is being performed.
This part works according to what is expressed in figures 7, 8, 9 and 10: a hemostasis device is pressed to intracardiac branch of academic or vocational study still include gripper II 501 and spring 503, gripper II 501 is equipped with two, the left and right sides of gripper II 501 bottom is sliding connection respectively in the rear end of two slide bars 404, the left and right sides of another gripper II 501 bottom is sliding connection respectively in the front end of two slide bars 404, the rigid coupling has backing plate 502 on gripper II 501 of front side, the back slip of backing plate 502 is connected on gripper II 501 of rear side in sliding manner, spring 503 is equipped with four, the front and back both ends of every slide bar 404 cup jointed a spring 503 respectively, the rear end rigid coupling of two springs 503 of rear side is in the left and right sides of mount 401 upper end rear side respectively, the front end of two springs 503 of front side is rigid coupling respectively in the left and right sides of mount 401 upper end front side, the front end of two springs 503 of rear side is rigid coupling respectively in the left and right sides of gripper II bottom rear end face of gripper II of rear side.
To explain further, when fixing the thigh root when patient's operation, two gripper jaws II 501 are propped up to both sides to the manual work, further compression both sides's spring 503 for spring 503 is full of elasticity, further makes two gripper jaws II 501 centre gripping patient's waist, when preventing that the shank from curling, patient's waist action is too big, and be convenient for fix patient's waist, prevent that the waist from moving, influence intracardiac branch of academic or vocational study operation, and the leg regulation removal of the compliance patient that corresponds, be convenient for sideslip frame 101 back and forth movement, help medical personnel to change the pressing of both legs.