CN109770988B - Pedal type leg pressing hemostasis device - Google Patents
Pedal type leg pressing hemostasis device Download PDFInfo
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- CN109770988B CN109770988B CN201910198614.8A CN201910198614A CN109770988B CN 109770988 B CN109770988 B CN 109770988B CN 201910198614 A CN201910198614 A CN 201910198614A CN 109770988 B CN109770988 B CN 109770988B
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Abstract
The invention relates to a foot-operated leg pressing hemostasis device which comprises a hand holding bottom plate, a support frame and a hemostasis device, wherein the support frame is installed at the front end of the hand holding bottom plate, and the hemostasis device is installed at the rear end of the hand holding bottom plate. The invention can solve the problems that when people have outdoor thigh hemorrhage, the legs need to be kept in a bent state, the people cannot keep the bent state for a long time due to pain and need assistance by others, when the thighs have massive hemorrhage, the arteries of the thighs need to be tightened, the existing tourniquet is easy to loosen after being tightened for a period of time and cannot play a role in hemostasis, the people need to be tightened for the second time, and the like.
Description
Technical Field
The invention relates to the field of outdoor hemostatic instrument racks, in particular to a foot-operated leg pressing hemostatic device.
Background
The foot-leg-type human body hemostasis device is always inevitable to be collided with certain bumps in life, such as scratching and pricking, and is inevitable to injure, legs are important parts of the human body, if bleeding occurs, the human body needs to be treated in time, if the bleeding is excessive, shock or death occurs, and therefore bleeding needs to be stopped in time after the human body is injured, and the foot-leg-type human body hemostasis device aims at the condition that the thighs of people bleed in large quantities.
When the personnel are injured outdoors, the following problems occur when the personnel are tightened to stop bleeding: 1. when the thigh of a person outdoors bleeds greatly, the leg needs to be kept in a bent state, and the person is difficult to keep the bent state for a long time due to pain and needs assistance of other people; 2. when the thigh bleeds in a large number, need carry out and tighten thigh artery department, current tourniquet is tied up and is easily pine after a period, can not play hemostatic effect, and personnel need the secondary to tie up.
The Chinese utility model patent with the patent application number of 201620923879.1 discloses a combined pressing tourniquet which has the advantages of convenient operation, moderate pressing force, relatively fixed position, long pressing time, difficult slippage and good pressing effect; the Chinese patent with patent application number 201610651961.8 discloses a pressing type hemostasis device, which utilizes absorbent cotton arranged at the lower part of a pressing cylinder and arranged at the lower end of a silicon rubber sleeve to press a needle hole to stanch, and because only the silicon rubber sleeve is disposable, the use cost is relatively low and the hemostasis effect is good.
However, temporary hemostatic devices are still relatively rare when the thighs of outdoor personnel are injured, so that it is very necessary to design a special temporary hemostatic device for outdoor personnel.
Disclosure of Invention
In order to solve the problems, the invention provides a foot-stepping type leg pressing hemostasis device, which can solve the problems that when a person has large bleeding on the thigh outdoors, the leg needs to be kept in a bent state, the person cannot keep the bent state for a long time due to pain, the person needs to assist by others, when the thigh has large bleeding, the femoral artery needs to be tightened, the existing tourniquet is easy to loosen after being tightened for a period of time, the hemostasis effect cannot be achieved, the person needs to be tightened for the second time, and the like.
In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a hemostasis device is pressed to foot formula shank of stepping on, includes and holds bottom plate, support frame and hemostasis device, the hand front end of holding the bottom plate install the support frame, the hand rear end of holding the bottom plate installs hemostasis device.
The support frame include that the foot steps on mechanism, even board and adjustment mechanism, the left end that the foot stepped on the mechanism is installed even board, and adjustment mechanism is installed to the left end of even board, during concrete work, the foot stepped on the mechanism and drives adjustment mechanism and lift on injured person's shank for injured person's shank is the state of bending, conveniently stanchs.
The foot stepping mechanism comprises a first main board, a clamping board, a lifting sliding plate, a foot stepping frame, an entering sliding block, a connecting branched chain and a clamping block, wherein the rear end of the first main board is provided with a hollow groove, the right end of the first main board is uniformly provided with the clamping board, the hollow groove is connected with the lifting sliding plate in a sliding fit mode, the right end of the lifting sliding plate is connected with the entering sliding block in a sliding fit mode, the entering sliding block is installed on the foot stepping frame, the clamping block is installed at the front end of the foot stepping frame, the connecting branched chain is connected between the lifting sliding plate and a connecting plate, when the foot stepping mechanism works in detail, the foot stepping frame is stepped by a person, the foot stepping frame drives an adjusting mechanism to ascend to a proper position to ensure that the legs of injured people are bent, the person drives the foot stepping frame to move forwards to be clamped into the clamping board to limit, the injured.
Hemostasis device include complementary unit, positioning mechanism, the second mainboard, tie up area and control straining device, positioning mechanism is installed in complementary unit's upper end left side, the second mainboard is installed to positioning mechanism's left end, the left end of second mainboard is provided with the round hole, the lower extreme of second mainboard links to each other with tie up the area right-hand member, the left end of tie up area passes the round hole and hugs closely the up end at the second mainboard, control straining device is installed to the lower extreme of second mainboard, when concrete work, complementary unit removes suitable position through diversified drive tie up area, personnel unload the left end of tie up area from the back around the artery department at thigh root, control straining device cooperatees with positioning mechanism and drives tie up the area and carry out the tie up hemostasis, hemostasis device plays the hemostatic effect of short time to injured personnel's shank.
The binding belt comprises a hemostatic rubber belt, a hand-pulling connecting column, two limiting buckle frames, a fixing frame and a reset spring, the hand-pulling connecting column is installed at the left end of the hemostatic rubber belt, the two limiting buckle frames are arranged at the left end and the right end of the hand-pulling connecting column and are connected with the fixing frame in a sliding fit mode, the fixing frame is installed on the outer wall of the hand-pulling connecting column, and the reset spring is connected between the hand-pulling connecting column and the limiting buckle frames.
Furthermore, the connection branch chain include and connect rope, work slide, fixed spout, connecting spring and steering column, connect the upper end of rope and install at the lift slide, connect the lower extreme of rope and install on work slide, work slide passes through sliding fit's mode and links to each other with fixed spout.
The fixed chute is installed on first mainboard, is connected with connecting spring between work slide and the company board, and the middle part of connecting the rope is located the steering column, and the steering column is installed on first mainboard.
Further, adjustment mechanism including solid frame, two extrusion stems, two adjusting pads, the middle pad, assist the board, two spacing branch chains and press the frame, the upper end of solid frame is installed and is set up in the middle, two adjusting pads are installed through the hinge at both ends around the middle pad, two extrusion stems are installed through the hinge at both ends around the solid frame, the board is assisted to the right-hand member of middle pad installation, assist the inside two work grooves that are provided with of board, assist the board middle part and be provided with the sliding tray, be provided with spacing branch chain in the work groove, the sliding tray passes through sliding fit's mode and links to each other with pressing the frame.
Furthermore, the limiting branched chain comprises a spring, a hand pressing plate, two springs and a triangular block, the triangular block is connected with the working groove in a sliding fit mode, the two springs are connected between the triangular block and the inner end of the hand pressing plate, and the spring is connected between the outer end of the hand pressing plate and the working groove.
Further, complementary unit include electronic slider, connecting rod, main shaft, disc, insert the telescopic link and insert the piece, electronic slider installs on handheld bottom plate, is provided with the connecting rod on the electronic slider, installs the main shaft through the bearing on the connecting rod, the disc is installed to the right-hand member of main shaft, evenly is provided with the slot on the disc, installs on the lateral wall of connecting rod and inserts the telescopic link, the top of inserting the telescopic link is installed on inserting the piece.
Further, control elasticity mechanism include powerful telescopic link, locating plate, laminating frame, location cylinder, screens frame and hemostasis ring, powerful telescopic link installs on second mainboard lower extreme right side, powerful telescopic link's top is installed on laminating frame, the locating plate is installed to laminating frame's right-hand member, location cylinder is installed in mainboard lower extreme left side, the top of location cylinder is installed on the screens frame, be equipped with the hemostatic rubber area in the screens frame, the hemostasis ring is installed to the upper end of second mainboard.
Further, the pressing frame comprises an I-shaped frame, three springs and fixing blocks, the three springs are connected between the I-shaped frame and the auxiliary plate, and the fixing blocks are uniformly arranged on the side walls of the front end and the rear end of the I-shaped frame.
Furthermore, positioning mechanism include U type frame, handle pivot and rotor plate, install the handle pivot through the bearing in the U type frame, evenly install the rotor plate in the handle pivot.
Further, hemostatic ring about both ends be provided with two L type poles, two L type poles play fixed effect, the right-hand member of laminating frame is equipped with the through-hole, the left end of laminating frame is provided with the open slot.
The invention has the beneficial effects that:
1. the invention has the advantages that the thigh part of the injured person is kept in a bent state for a long time, the artery at the root of the thigh is tightened to stop bleeding, the thigh does not loosen, the side assistance of other people is not needed, the operation is convenient, and the like;
2. the invention is provided with the support frame, the support frame keeps the thigh part of the injured person in a bent state for a long time without the assistance of other people;
3. the invention is provided with the hemostatic device, the hemostatic device can tighten the artery at the root of the thigh of the injured person to stop bleeding, the hemostatic device cannot loosen after being tightened, the condition that the injured person is tightened again is avoided, and the operation is simple.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the hand-held base plate and the supporting frame of the present invention;
FIG. 3 is a schematic view of the adjustment mechanism of the present invention;
FIG. 4 is a schematic view of the structure between the bottom plate and the hemostatic device;
FIG. 5 is an enlarged view of the X-direction detail of FIG. 3 of the present invention;
fig. 6 is a schematic view of the present invention for tightening the thigh.
Detailed Description
Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.
The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.
As shown in fig. 1 to 6, a pedal type leg pressing hemostasis device comprises a hand holding bottom plate 1, a support frame 2 and a hemostasis device 3, wherein the support frame 2 is installed at the front end of the hand holding bottom plate 1, and the hemostasis device 3 is installed at the rear end of the hand holding bottom plate 1.
The support frame 2 include that the foot steps on mechanism 21, even board 22 and adjustment mechanism 23, even board 22 is installed to the left end of foot steps on mechanism 21, and adjustment mechanism 23 is installed to the left end of even board 22, and during concrete work, foot steps on mechanism 21 and drives adjustment mechanism 23 and lift on injured person's shank for injured person's shank is the state of buckling, convenient hemostasis.
The foot-operated mechanism 21 comprises a first main board 211, a clamping board 212, a lifting sliding board 213, a foot-operated frame 214, an entering sliding block 215, a connecting branched chain 216 and a clamping block 217, wherein the rear end of the first main board 211 is provided with a hollow groove, the right end of the first main board 211 is uniformly provided with the clamping board 212, the hollow groove is connected with the lifting sliding board 213 in a sliding fit manner, the right end of the lifting sliding board 213 is connected with the entering sliding block 215 in a sliding fit manner, the entering sliding block 215 is arranged on the foot-operated frame 214, the front end of the foot-operated frame 214 is provided with the clamping block 217, the connecting branched chain 216 is connected between the lifting sliding board 213 and the connecting board 22, the person steps on the foot-stepping frame 214, the foot-stepping frame 214 drives the adjusting mechanism 23 to ascend to a proper position to ensure that the leg of the injured person bends, the person drives the foot-stepping frame 214 to move forward and clamp into the clamping plate 212 for limiting, the injured person keeps the bending state unchanged, and the foot-stepping mechanism 21 assists the leg of the patient to bend and start.
The connecting branch chain 216 comprises a connecting rope 2161, a work sliding plate 2162, a fixed chute 2163, a connecting spring 2164 and a steering column 2165, wherein the upper end of the connecting rope 2161 is installed on the lifting sliding plate 213, the lower end of the connecting rope 2161 is installed on the work sliding plate 2162, and the work sliding plate 2162 is connected with the fixed chute 2163 in a sliding fit manner.
The fixed chute 2163 is installed on the first main board 211, a connecting spring 2164 is connected between the work sliding plate 2162 and the connecting plate 22, the middle part of the connecting rope 2161 is positioned on the steering column 2165, and the steering column 2165 is installed on the first main board 211.
The connecting branch chain 216 assists the adjusting mechanism 23 to lift, and the connecting spring 2164 plays a role in resetting.
The adjusting mechanism 23 comprises a fixing frame 231, two extrusion rods 232, two adjusting pads 233, a middle pad 234, an auxiliary plate 235, two limiting branched chains 236 and a pressing frame 237, the upper end of the fixing frame 231 is installed on the middle pad 234, the front end and the rear end of the middle pad 234 are provided with the two adjusting pads 233 through hinges, the front end and the rear end of the fixing frame 231 are provided with the two extrusion rods 232 through hinges, the right end of the middle pad 234 is provided with the auxiliary plate 235, two working grooves are formed in the auxiliary plate 235, a sliding groove is formed in the middle of the auxiliary plate 235, the limiting branched chains 236 are arranged in the working grooves, the sliding groove is connected with the pressing frame 237 through a sliding fit mode, during specific work, a person presses the pressing frame 237, the pressing frame 237 drives the two extrusion rods 232 to be extruded outwards until the two adjusting pads 233 are tightly attached to the root of the rear end of the knee of the injured person, the two limiting branched chains 236 limit the pressing frame 237, the adjusting mechanism 23 drives the two adjusting pads 233 to cling to the root of the back end of the knee of the injured person, so that the comfort level of the injured person is improved.
The limiting branched chain 236 comprises a spring 2361, a hand pressing plate 2362, two springs 2363 and a triangular block 2364, the triangular block 2364 is connected with the working groove in a sliding fit mode, the two springs 2363 are connected between the triangular block 2364 and the inner end of the hand pressing plate 2362, and the spring 2361 is connected between the outer end of the hand pressing plate 2362 and the working groove.
The pressing frame 237 comprises an I-shaped frame 2371, three springs 2372 and fixed blocks 2373, the three springs 2372 are connected between the I-shaped frame 2371 and the auxiliary plate 235, the fixed blocks 2373 are uniformly arranged on the side walls of the front end and the rear end of the I-shaped frame 2371, the I-shaped frame 2371 is pressed to descend to a proper position during specific work, the three square blocks 2364 limit the fixed blocks 2373, when the I-shaped frame 2371 ascends, a person presses the hand pressing plate 2362, the three square blocks 2364 move outwards, the I-shaped frame 2371 ascends, the limiting branched chain 236 performs auxiliary limiting on the pressing frame 237, and the two adjusting pads 233 are kept unchanged.
The hemostasis device 3 comprises an auxiliary mechanism 31, a positioning mechanism 32, a second main board 33, a tightening belt 34 and a control tightness mechanism 35, the positioning mechanism 32 is installed on the left side of the upper end of the auxiliary mechanism 31, the second main board 33 is installed at the left end of the positioning mechanism 32, a round hole is formed in the left end of the second main board 33, the lower end of the second main board 33 is connected with the right end of the tightening belt 34, the left end of the tightening belt 34 passes through the round hole to be tightly attached to the upper end face of the second main board 33, the control tightness mechanism 35 is installed at the lower end of the second main board 33, when the hemostasis device works specifically, complementary unit 31 removes suitable position through diversified drive binding band 34, and the personnel will bind the left end of taking 34 and unload from the artery department around the thigh root after, and control straining device 35 cooperatees with positioning mechanism 32 and drives binding band 34 and tie up the hemostasis, and hemostasis device 3 plays the hemostatic effect of short time to injured person's shank.
The tightening belt 34 comprises a hemostatic rubber belt 341, a hand-pulling connecting column 342, two limit buckle frames 343, a fixing frame 344 and a return spring 345, the hand-pulling connecting column 342 is installed at the left end of the hemostatic rubber belt 341, the two limit buckle frames 343 are arranged at the left end and the right end of the hand-pulling connecting column 342, the limit buckle frames 343 are connected with the fixing frame 344 in a sliding fit manner, the fixing frame 344 is installed on the outer wall of the hand-pulling connecting column 342, and the return spring 345 is connected between the hand-pulling connecting column 342 and the limit buckle frames 343.
The auxiliary mechanism 31 comprises an electric slider 311, a connecting rod 312, a main shaft 313, a disc 314, an insertion telescopic rod 315 and an insertion block 316, the electric slider 311 is installed on the handheld bottom plate 1, the connecting rod 312 is arranged on the electric slider 311, the main shaft 313 is installed on the connecting rod 312 through a bearing, the disc 314 is installed at the right end of the main shaft 313, slots are evenly formed in the disc 314, the insertion telescopic rod 315 is installed on the side wall of the connecting rod 312, the top end of the insertion telescopic rod 315 is installed on the insertion block 316, the structural characteristics, the working principle and the control method of the electric slider 311 are the prior art, during specific work, the electric slider 311 drives the connecting rod 312 to move left and right, the insertion block 316 is pulled downwards, a person rotates the positioning mechanism 32 to a proper angle, the insertion block 316 is loosened, the insertion block 316 is clamped into the.
The positioning mechanism 32 comprises a U-shaped frame 321, a handle rotating shaft 322 and a rotating plate 323, the handle rotating shaft 322 is installed in the U-shaped frame 321 through a bearing, the rotating plate 323 is evenly installed on the handle rotating shaft 322, the structural characteristics, the working principle and the control method of the positioning cylinder 354 are the prior art, when the positioning mechanism works specifically, a person presses two limiting buckle frames 343 oppositely to enable the hemostatic rubber belt 341 to be separated from the second main board 33, the person drives the hemostatic rubber belt 341 to wind a circle on the femoral root artery of the injured person, the hemostatic rubber belt 341 is buckled on the second main board 33 again, the handle rotating shaft 322 is rotated, the rotating plate 323 does not limit the positioning plate 352 any more, the powerful telescopic rod 351 drives the jointing frame 353 to cling to the upper side of the femoral root, the positioning cylinder 354 drives the clamping frame 355 to move rightwards, the clamping frame 355 drives the current hemostatic rubber belt 341 to move rightwards to enable the hemostatic rubber belt 341, the personnel upwards stimulate the hand-pulling connecting column 342 to make the two limit buckle frames 343 and the hemostatic ring 356 mutually limit, and at the moment, the hemostatic rubber belt 341 tightens the thigh root of the injured personnel to play a role in temporary hemostasis.
Bending the legs of the injured person: the person slowly holds the injured person to lie down, then, the person steps on the foot stepping frame 214, the foot stepping frame 214 drives the adjusting mechanism 23 to ascend to a proper position to ensure that the legs of the injured person bend up, the person drives the foot stepping frame 214 to move forward and clamp into the clamping plate 212 for limiting, the injured person keeps the bending state unchanged, then, the person presses the pressing frame 237, the pressing frame 237 drives the two extrusion rods 232 to extrude outwards until the two adjusting pads 233 are tightly attached to the roots of the rear ends of the knees of the injured person, the two limiting branched chains 236 limit the pressing frame 237, and the two adjusting pads 233 keep unchanged;
the thighs of the injured person are tied to stop bleeding: the auxiliary mechanism 31 drives the tightening belt 34 to move to a proper position in a multi-azimuth manner, then, the person presses the two limit buckle frames 343 in opposite directions to make the hemostatic rubber belt 341 separate from the second main board 33, the person drives the hemostatic rubber belt 341 to wind a circle around the artery at the root of the thigh of the injured person, the hemostatic rubber belt 341 is buckled into the second main board 33 again, the handle rotating shaft 322 is rotated, the rotating plate 323 no longer limits the positioning plate 352, the strong telescopic rod 351 drives the close frame 353 to cling to the upper side of the root of the thigh, the positioning cylinder 354 drives the clamp frame 355 to move to the right, the clamp frame 355 drives the current hemostatic rubber belt 341 to move to the right to make the hemostatic rubber belt 341 in a tightened state, the person pulls the hand pull connecting column 342 upwards to make the two limit buckle frames 343 and the hemostatic ring 356 limit each other, at this time, the hemostatic rubber belt 341 tightens the root of the injured person, and the time is not longer than ten minutes and the rescue is waited.
In conclusion, the working process solves the problems that when the thigh of a person is subjected to heavy bleeding outdoors, the leg of the person needs to be kept in a bent state, the person cannot keep the bent state for a long time due to pain, the person needs to assist by others, when the thigh is subjected to heavy bleeding, the femoral artery needs to be tightened, the existing tourniquet is easy to loosen after being tightened for a period of time, cannot play a role in hemostasis, the person needs to be tightened for the second time, and the like, and the aim is achieved.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (9)
1. The utility model provides a hemostasis device is pressed to formula shank is stepped on to foot, includes and holds bottom plate (1), support frame (2) and hemostasis device (3), its characterized in that: the front end of the hand holding bottom plate (1) is provided with a support frame (2), and the rear end of the hand holding bottom plate (1) is provided with a hemostatic device (3);
the supporting frame (2) comprises a foot stepping mechanism (21), a connecting plate (22) and an adjusting mechanism (23), the connecting plate (22) is installed at the left end of the foot stepping mechanism (21), and the adjusting mechanism (23) is installed at the left end of the connecting plate (22);
the foot stepping mechanism (21) comprises a first main board (211), a clamping board (212), a lifting sliding board (213), a foot stepping frame (214), an entering sliding block (215), a connecting branch chain (216) and a clamping block (217), wherein the rear end of the first main board (211) is provided with a hollow groove, the clamping board (212) is uniformly arranged at the right end of the first main board (211), the hollow groove is connected with the lifting sliding board (213) in a sliding fit manner, the right end of the lifting sliding board (213) is connected with the entering sliding block (215) in a sliding fit manner, the entering sliding block (215) is arranged on the foot stepping frame (214), the clamping block (217) is arranged at the front end of the foot stepping frame (214), and the connecting branch chain (216) is connected between the lifting sliding board (213) and the connecting board (22);
the hemostasis device (3) comprises an auxiliary mechanism (31), a positioning mechanism (32), a second main board (33), a tightening belt (34) and a control tightening mechanism (35), wherein the positioning mechanism (32) is installed on the left side of the upper end of the auxiliary mechanism (31), the second main board (33) is installed at the left end of the positioning mechanism (32), a round hole is formed in the left end of the second main board (33), the lower end of the second main board (33) is connected with the right end of the tightening belt (34), the left end of the tightening belt (34) penetrates through the round hole to be tightly attached to the upper end face of the second main board (33), and the control tightening mechanism (35) is installed at the lower end of the second main board (33);
binding band (34) including hemostatic rubber area (341), the hand power links post (342), two spacing knot framves (343), mount (344) and reset spring (345), the hand power is installed to the left end of hemostatic rubber area (341) and is linked post (342), both ends are equipped with two spacing knot framves (343) about the hand power links post (342), spacing knot frame (343) link to each other with mount (344) through sliding fit's mode, mount (344) are installed on the outer wall of hand power links post (342), be connected with reset spring (345) between hand power links post (342) and spacing knot frame (343).
2. The foot-operated leg compression hemostasis device as claimed in claim 1, wherein: the connecting branch chain (216) comprises a connecting rope (2161), a working sliding plate (2162), a fixed chute (2163), a connecting spring (2164) and a steering column (2165), the upper end of the connecting rope (2161) is installed on the lifting sliding plate (213), the lower end of the connecting rope (2161) is installed on the working sliding plate (2162), and the working sliding plate (2162) is connected with the fixed chute (2163) in a sliding fit manner;
the fixed chute (2163) is installed on the first main board (211), a connecting spring (2164) is connected between the working sliding plate (2162) and the connecting plate (22), the middle part of the connecting rope (2161) is positioned on the steering column (2165), and the steering column (2165) is installed on the first main board (211).
3. The foot-operated leg compression hemostasis device as claimed in claim 1, wherein: adjusting mechanism (23) including solid frame (231), two extrusion stem (232), two adjusting pad (233), middle pad (234), supplementary board (235), two spacing branch chain (236) and press frame (237), the upper end of solid frame (231) is installed on middle pad (234), two adjusting pad (233) have been installed through the hinge in the front and back both ends of middle pad (234), two extrusion stem (232) have been installed through the hinge in the front and back both ends of solid frame (231), supplementary board (235) are installed to the right-hand member of middle pad (234), inside two work grooves that are provided with of supplementary board (235), supplementary board (235) middle part is provided with the sliding tray, be provided with spacing branch chain (236) in the work groove, the sliding tray passes through sliding fit's mode and presses frame (237) and links to each other.
4. A foot-operated leg compression hemostasis device in accordance with claim 3, wherein: spacing branch chain (236) include a spring (2361), hand according board (2362), two springs (2363) and triangle block (2364), triangle block (2364) link to each other with the work groove through sliding fit's mode, be connected with two springs (2363) between triangle block (2364) and hand according board (2362) inner, be connected with a spring (2361) between hand according the outer end of board (2362) and the work groove.
5. The foot-operated leg compression hemostasis device as claimed in claim 1, wherein: the auxiliary mechanism (31) comprises an electric slider (311), a connecting rod (312), a main shaft (313), a disc (314), an inserted telescopic rod (315) and an inserted block (316), the electric slider (311) is installed on the hand bottom plate (1), the connecting rod (312) is arranged on the electric slider (311), the main shaft (313) is installed on the connecting rod (312) through a bearing, the disc (314) is installed at the right end of the main shaft (313), slots are evenly formed in the disc (314), the inserted telescopic rod (315) is installed on the side wall of the connecting rod (312), and the top end of the inserted telescopic rod (315) is installed on the inserted block (316).
6. The foot-operated leg compression hemostasis device as claimed in claim 1, wherein: control elasticity mechanism (35) include powerful telescopic link (351), locating plate (352), laminating frame (353), location cylinder (354), screens frame (355) and hemostasis ring (356), install on second mainboard (33) lower extreme right side powerful telescopic link (351), install on laminating frame (353) on the top of powerful telescopic link (351), locating plate (352) are installed to the right-hand member of laminating frame (353), location cylinder (354) are installed on second mainboard (33) lower extreme left side, install on screens frame (355) on the top of location cylinder (354), be equipped with hemostasis rubber tape (341) in screens frame (355), hemostasis ring (356) are installed to the upper end of second mainboard (33).
7. A foot-operated leg compression hemostasis device in accordance with claim 3, wherein: the pressing frame (237) comprises an I-shaped frame (2371), three springs (2372) and fixed blocks (2373), the three springs (2372) are connected between the I-shaped frame (2371) and the auxiliary plate (235), and the fixed blocks (2373) are uniformly arranged on the side walls of the front end and the rear end of the I-shaped frame (2371).
8. The foot-operated leg compression hemostasis device as claimed in claim 1, wherein: the positioning mechanism (32) comprises a U-shaped frame (321), a handle rotating shaft (322) and a rotating plate (323), the handle rotating shaft (322) is installed in the U-shaped frame (321) through a bearing, and the rotating plate (323) is evenly installed on the handle rotating shaft (322).
9. The foot-operated leg compression hemostasis device as claimed in claim 6, wherein: two L-shaped rods are arranged at the left end and the right end of the hemostasis ring (356), a through hole is formed in the right end of the attaching frame (353), and an open slot is formed in the left end of the attaching frame (353).
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CN108158625A (en) * | 2018-01-31 | 2018-06-15 | 李志强 | A kind of Cardiological hemostasis device |
CN108245219A (en) * | 2018-03-19 | 2018-07-06 | 丁赛赛 | A kind of intubation intervention operation surface of a wound haemostat |
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2019
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US4299213A (en) * | 1980-02-04 | 1981-11-10 | Violet James T | Leg stabilizer construction |
US4457302A (en) * | 1982-11-05 | 1984-07-03 | Precision Surgical Instruments, Inc. | Leg immobilizing apparatus for arthroscopic surgery |
US4549540A (en) * | 1983-11-16 | 1985-10-29 | Precision Surgical Instruments, Inc. | Thigh restraining apparatus and method |
CN2843356Y (en) * | 2005-11-21 | 2006-12-06 | 杜玉花 | Interventional therapy femoral hemostasis pad |
CN202458552U (en) * | 2012-03-19 | 2012-10-03 | 薛光玉 | Medical portable tourniquet |
WO2017051193A2 (en) * | 2015-09-23 | 2017-03-30 | North Tees And Hartlepool Nhs Foundation Trust | Improved tourniquet release device and tourniquet incorporating the same |
CN207203024U (en) * | 2017-02-20 | 2018-04-10 | 金华市中心医院 | Lower limb brake fixator with hemostasis by compression function |
CN108158625A (en) * | 2018-01-31 | 2018-06-15 | 李志强 | A kind of Cardiological hemostasis device |
CN108245219A (en) * | 2018-03-19 | 2018-07-06 | 丁赛赛 | A kind of intubation intervention operation surface of a wound haemostat |
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