CN115520256A

CN115520256A - A conveyer for medical instrument

Info

Publication number: CN115520256A
Application number: CN202210448231.3A
Authority: CN
Inventors: 王勤洪
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-27
Filing date: 2022-04-27
Publication date: 2022-12-27

Abstract

The invention relates to a transportation device, in particular to a transportation device for medical instruments. The invention provides a transportation device for medical instruments, which can transport large medical instruments. A transportation device for medical instruments comprises rollers, a transportation plate, a pushing frame, an anti-skid mechanism, a side protection mechanism and the like; the equal rotary type in both sides is equipped with two gyro wheels around the transport plate lower part, and the gyro wheel has four, and the inclined to one side right side in both sides all is equipped with the propelling movement frame around the transport plate upper portion, is equipped with anti-skidding mechanism on the transport plate, is equipped with side protection machanism on the transport plate. According to the invention, large medical instruments are placed between the transport plate and the upper side of the iron frame, and then people manually push the pushing frame, so that the transport plate and the medical instruments move, and the rollers rotate, thereby realizing the effect of transporting the large medical instruments.

Description

A conveyer for medical instrument

Technical Field

The invention relates to a transportation device, in particular to a transportation device for medical instruments.

Background

In the process of using the medical apparatus, people can transfer and transport the medical apparatus according to different use requirements, so a transportation device needs to be designed.

The patent application: CN212654378U, published as 20210305, discloses a transportation equipment for medical instrument, through including the base, the base upper surface is equipped with the transport case, be in the same place through bolted connection between transport case and the base, inside by the last a plurality of baskets of depositing of being equipped with of from top to bottom even of transport case, deposit basket and transport case and peg graft together, the transport bottom of the case portion is equipped with the mounting groove, the inside even a plurality of ultraviolet lamp that are equipped with of mounting groove, this transportation equipment mainly transports in the transport case through placing medical instrument, but this kind of transportation equipment can only transport less medical instrument, can not satisfy the user demand of transporting large-scale medical instrument.

The conveying device for the medical apparatus and instruments, which can convey the large medical apparatus and instruments, is designed to achieve the effect of overcoming the defect that the use requirement of conveying the large medical apparatus and instruments cannot be met when the conventional conveying equipment is used for conveying the medical apparatus and instruments.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a transportation device for medical instruments, which can transport large medical instruments, so as to overcome the defect that the existing transportation equipment can not transport large medical instruments.

In order to achieve the above purpose, the invention is realized by the following scheme: the utility model provides a conveyer for medical instrument, including the gyro wheel, the transport plate, the iron stand, the baffle, promote the frame, anti-skidding mechanism and side protection mechanism, the equal rotary type in both sides is equipped with two gyro wheels around the transport plate lower part, the gyro wheel has four, both sides all are equipped with the iron stand around the transport plate, the inclined to one side right side in both sides all is equipped with around transport plate upper portion pushes away the frame, transport plate upper portion right side is equipped with the baffle, be equipped with on the transport plate and be used for avoiding the anti-skidding mechanism that medical instrument removed from the right side, be equipped with on the transport plate and be used for carrying out reinforced (rfd) side protection mechanism to medical instrument.

As an improvement of the above scheme, the anti-slip mechanism comprises four first support frames, support plates, racks, gears, first torsion springs and first tension springs, wherein two groups of first tension springs are arranged on the front side and the rear side of the upper portion of the transport plate, four first tension springs are arranged in each group, sixteen first tension springs are arranged, the support plates are connected between the upper sides of the four adjacent first tension springs, four support plates are arranged, racks are arranged on the front side and the rear side of the lower portion of each support plate, eight racks are arranged, two groups of gears are arranged on the front side and the rear side of the transport plate in a rotating mode, each two gears are arranged in each group, eight gears are arranged, the racks are meshed with the adjacent gears after moving, the first support frames used for fixing the medical instruments are connected between two gear transmission shafts of each group, four first torsion springs are arranged between the gears and the transport plate, the first torsion springs are wound on the transmission shafts of the gears, and eight first torsion springs are arranged.

As an improvement of the scheme, the side protection mechanism comprises a second limiting frame, a third limiting frame, four third tension springs, a first fixing frame, a second supporting frame and a second torsion spring, wherein the two third limiting frames are arranged on the front side and the rear side of the conveying plate, the number of the third limiting frames is four, the second limiting frame is arranged between the two third limiting frames on the same side in a sliding mode, the third tension springs are connected between the left side and the right side of the lower portion of the second limiting frame and the third limiting frames on the same side, the number of the third tension springs is four, the third tension springs are wound on the third limiting frames, the first fixing frame is arranged on the front side and the rear side of the upper portion of the conveying plate, the second supporting frames for reinforcing medical instruments are rotatably arranged on the two first fixing frames, the second limiting frames are magnetically attracted with the second supporting frames on the same side, the second torsion springs are connected between the right sides of the two second supporting frames and the adjacent first fixing frames, and the second torsion springs are wound on the second supporting frames.

As the improvement of the scheme, the device further comprises a clamping mechanism for realizing automatic reinforcement, wherein the clamping mechanism comprises a first connecting shaft, a convex block, a first limiting frame, a second tension spring, a limiting block and a positioning pin, the first connecting shaft is arranged outside the gear transmission shaft on the left side of the front side and the back side and is connected with a conveying plate in a rotating mode, the convex block is arranged on each of the two first connecting shafts, the limiting block is arranged on the left side of the front side and the back side of the conveying plate, the first connecting shaft is connected with the limiting block on the same side in a rotating mode, the first limiting frame is arranged on each of the two first connecting shafts, the positioning pin is arranged on each of the two first limiting frames in a sliding mode, the positioning pin is connected with the limiting block on the same side in a sliding mode, the second tension spring is connected with the first limiting frame on the same side of the two positioning pins, and the second tension spring is wound on the positioning pin.

As the improvement of above-mentioned scheme, still including the layering mechanism that is used for compressing tightly medical instrument, the layering mechanism links up the axle including the second, the stay cord, the second mount, top pressing frame and third torsion spring, two second support frame right sides all are equipped with the second and link up the axle, two second links up the axle right side and all around there being the stay cord, two pushing frame upsides all are equipped with the second mount, the rotary type is equipped with top pressing frame between two second mounts, the one end of two stay cords all is connected with top pressing frame, all be connected with third torsion spring between the second mount of both sides and homonymy around the top pressing frame, third torsion spring is around on top pressing frame.

As the improvement of above-mentioned scheme, still including the emergency brake mechanism who is used for braking the gyro wheel, emergency brake mechanism is including the third mount, the running-board, fourth torque spring and brake block, all be equipped with the third mount on two gyro wheels on right side, equal rotary type is equipped with the running-board on two third mounts, all be connected with fourth torque spring around the running-board between both sides and the third mount close, fourth torque spring has four, fourth torque spring is around on the third mount, two running-board left sides all are equipped with the brake block.

As the improvement of above-mentioned scheme, still including being used for placing small-size medical instrument's small article placement machine structure, small article placement machine constructs including placing the case, the apron, first hinge piece, second hinge piece and fifth torsion spring, transport plate upper portion right side is equipped with places the case, it is equipped with two first hinge pieces to place case upper portion rear side, equal rotary type is equipped with the second hinge piece on two first hinge pieces, all be connected with fifth torsion spring between second hinge piece front and back both sides and the first hinge piece that is close, fifth torsion spring is around on first hinge piece, fifth torsion spring has four, be connected with the apron between two second hinge pieces.

As the improvement of the scheme, the two limit blocks are provided with clamp grooves.

The invention has the advantages that: 1. according to the invention, large-scale medical instruments are placed between the transport plate and the upper side of the iron frame, and then people manually push the pushing frame, so that the transport plate and the medical instruments move, and the rollers rotate, thereby realizing the effect of transporting the large-scale medical instruments;

2. when the lug rotates to be in contact with the second limiting frame, the lug drives the second limiting frame to move downwards, so that the second supporting frame is rotated and reset to be in contact with the medical instrument, and the reinforcing effect is realized;

3. the second support frame rotates to drive the second linking shaft to rotate, so that the pull rope pulls the top pressing frame to rotate, the third torsion spring is deformed in a torsional mode, then the top pressing frame rotates to be in contact with a medical instrument, and the effect of pressing is achieved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic perspective view of a first anti-slip mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a second anti-slip mechanism of the present invention.

Fig. 6 is a schematic perspective view of the locking mechanism of the present invention.

Fig. 7 is a schematic perspective view of a first side protection mechanism according to the present invention.

Fig. 8 is a schematic perspective view of a second side protection mechanism according to the present invention.

Fig. 9 is a schematic perspective view of a laminating mechanism according to the present invention.

Fig. 10 is a schematic perspective view of the emergency brake mechanism of the present invention.

Fig. 11 is a schematic perspective view of the small object placing mechanism according to the present invention.

Fig. 12 is an enlarged perspective view of the invention at a.

Number designation in the figures: 1: roller, 2: transport plate, 3: iron frame, 4: a baffle plate, 5: pushing frame, 6: anti-slip mechanism, 61: first support bracket, 62: support plate, 63: rack, 64: gear, 65: first torsion spring, 66: first tension spring, 7: detent mechanism, 71: first joint shaft, 72: bump, 73: first stopper, 74: second tension spring, 75: a limiting block, 76: positioning pin, 8: side edge protection mechanism, 81: second stopper, 82: third stopper, 83: third tension spring, 84: first mount, 85: second support, 86: second torsion spring, 9: lamination mechanism, 91: second joint shaft, 92: a pull cord, 93: second mount, 94: top pressing frame, 95: third torsion spring, 10: emergency brake mechanism, 101: third mount, 102: foot pedal, 103: fourth torsion spring, 104: brake pad, 11: small article placing mechanism, 111: placing box, 112: cover plate, 113: first hinge plate, 114: second hinge plate, 115: and a fifth torsion spring.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

example 1

The utility model provides a conveyer for medical instrument, now refer to fig. 1-3, including gyro wheel 1, transport plate 2, iron stand 3, baffle 4, push away frame 5, anti-skidding mechanism 6 and side protection mechanism 8, transport plate 2 front and back both sides all are equipped with iron stand 3, transport plate 2 lower part front and back both sides equal rotary type is equipped with two gyro wheels 1, gyro wheel 1 has four, transport plate 2 upper portion front and back both sides inclined to one side right side all is equipped with pushes away frame 5, the welding of transport plate 2 upper portion right side has baffle 4, be equipped with anti-skidding mechanism 6 on transport plate 2, be equipped with side protection mechanism 8 on transport plate 2.

Referring now to fig. 1, 2, 4, 5 and 6, the anti-slip mechanism 6 includes a first support frame 61, a support plate 62, a rack 63, gears 64, a first torsion spring 65 and first tension springs 66, two sets of first tension springs 66 are disposed on the front and rear sides of the upper portion of the transport plate 2, the two sets of first tension springs 66 are disposed in bilateral symmetry, four sets of first tension springs 66 are disposed on each set, sixteen first tension springs 66 are disposed, the support plate 62 is connected between the upper sides of the adjacent four first tension springs 66 through hooks, four support plates 62 are disposed, racks 63 are disposed on the front and rear sides of the lower portion of the support plate 62, eight racks 63 are disposed, two sets of gears 64 are rotatably disposed on the front and rear sides of the transport plate 2, two sets of gears 64 are disposed in bilateral symmetry, each two gears 64 are a set, eight gears 64 are disposed on each gear 64, the racks 63 are engaged with the adjacent gears 64 after moving, the first support frame 61 is welded between the transmission shafts of the two gears 64, four first support frames 61 are disposed, the first torsion spring 65 is connected between the gears 64 and the transport plate 2, the transmission shafts of the first torsion spring 65 are wound on the transmission shafts of the gears 64, and eight first torsion springs 65.

Referring to fig. 1, 2, 7, 8 and 9, the side protection mechanism 8 includes two third limiting frames 81, a third limiting frame 82, a third tension spring 83, a first fixing frame 84, a second supporting frame 85 and a second torsion spring 86, two third limiting frames 82 are welded on the front and rear sides of the transport plate 2, four third limiting frames 82 are provided, the second limiting frame 81 is slidably provided between the two third limiting frames 82 on the same side, the third tension springs 83 are respectively connected between the left and right sides of the lower portion of the second limiting frame 81 and the third limiting frame 82 on the same side, the third tension springs 83 are wound on the third limiting frame 82, the first fixing frames 84 are fixedly connected on the front and rear sides of the upper portion of the transport plate 2 through bolts, the second supporting frames 85 are rotatably provided on the two first fixing frames 84, the second limiting frames 81 are magnetically attracted to the second supporting frames 85 on the same side, the second torsion springs 86 are respectively connected between the right sides of the two second supporting frames 85 and the first fixing frames 84 on the same side, and the second torsion springs 86 are magnetically attracted on the second supporting frames 85.

When people need to transport large-scale medical instruments, people can use the transportation device for the medical instruments, firstly, people place the medical instruments between the transportation plate 2 and the upper side of the iron frame 3 and are positioned at the left side of the baffle plate 4, so that the medical instruments are contacted with the supporting plate 62, the supporting plate 62 moves downwards under the action of gravity, so that the rack 63 moves downwards, the first tension spring 66 is compressed, when the rack 63 moves downwards and is meshed with the gear 64 at the same side, the rack 63 drives the gear 64 to rotate, so that the first supporting frame 61 rotates, the first tension spring 65 is twisted and deformed, then the first supporting frame 61 rotates and is contacted with the medical instruments, thereby realizing the stable effect, avoiding the left-right movement of the medical instruments in the transportation process, when people need to fix the front side and the back side of the medical instruments, people can manually rotate to move the second limiting frame 81 downwards, thereby enabling the second limiting frame 81 to be far away from the second supporting frame 85 on the same side, the third tension spring 83 to be compressed, at the moment, the magnetic force of the second limiting frame 81 to the second supporting frame 85 on the same side is smaller, the second torsion spring 86 in torsional deformation resets to drive the second supporting frame 85 to rotate to be in contact with the medical apparatus, thereby realizing the reinforcing effect, then people loosen the second limiting frame 81, thereby enabling the third tension spring 83 to reset to drive the second limiting frame 81 to move upwards for resetting, then people manually push the pushing frame 5 to enable the conveying plate 2 and the iron frame 3 to move, the roller 1 rotates, further the medical apparatus moves, thereby realizing the conveying effect, when people need to unload the medical apparatus, people can manually rotate the second supporting frame 85 in reverse direction, thereby enabling the second torsion spring 86 to be in torsional deformation, when the second supporting frame 85 rotates in reverse direction to be in contact with the second limiting frame 81 on the same side, the second support frame 85 on the same side is magnetically attracted by the second limiting frame 81, and then people can move the medical instrument out, the first tension spring 66 resets to drive the support plate 62 and the rack 63 to move upwards for resetting, and the first torsion spring 65 resets to drive the first support frame 61 to rotate reversely for resetting.

Example 2

On the basis of embodiment 1, referring to fig. 1, 2, 6 and 7, the present disclosure further includes a clamping mechanism 7, where the clamping mechanism 7 includes a first connecting shaft 71, a protruding block 72, a first limiting frame 73, a second tension spring 74, a limiting block 75 and a positioning pin 76, the outer sides of the transmission shafts of the gears 64 on the left sides of the front and rear sides are respectively provided with the first connecting shaft 71, the first connecting shaft 71 is rotatably connected with the transport plate 2, the two first connecting shafts 71 are respectively welded with the protruding block 72, the protruding block 72 is rotated to be in contact with the second limiting frame 81 on the same side, the front and rear sides of the transport plate 2 are respectively provided with the limiting block 75, the first connecting shaft 71 is rotatably connected with the limiting block 75 on the same side, the two limiting blocks 75 are respectively provided with a clamping slot, the two first connecting shafts 71 are respectively provided with the first limiting frame 73, the two first limiting frames 73 are respectively provided with the positioning pin 76 in a sliding manner, the positioning pin 76 is connected with the limiting block 75 on the same side, the two first limiting frames 76 are respectively connected with the second limiting spring 74, and the second positioning pin 74 is wound on the same side.

Referring to fig. 1, 2, 3 and 9, the laminating mechanism 9 further includes a laminating mechanism 9, the laminating mechanism 9 includes a second joining shaft 91, a pulling rope 92, a second fixing frame 93, a top pressing frame 94 and a third torsion spring 95, the second joining shaft 91 is welded on the right side of each of the two second supporting frames 85, the pulling rope 92 is wound on the right side of each of the two second joining shafts 91, the second fixing frames 93 are arranged on the upper sides of the two pushing frames 5, the top pressing frame 94 is rotatably arranged between the two second fixing frames 93, one end of each of the two pulling ropes 92 is connected with the top pressing frame 94, the third torsion spring 95 is connected between the front side and the rear side of the top pressing frame 94 and the second fixing frame 93 on the same side, and the third torsion spring 95 is wound on the top pressing frame 94.

Referring to fig. 1, 2, 3 and 10, the emergency brake mechanism 10 is further included, the emergency brake mechanism 10 includes a third fixing frame 101, a pedal plate 102, a fourth torsion spring 103 and a brake pad 104, the two rollers 1 on the right side are respectively provided with the third fixing frame 101, the two third fixing frames 101 are respectively provided with the pedal plate 102 in a rotating manner, the fourth torsion spring 103 is respectively connected between the front side and the rear side of the pedal plate 102 and the adjacent third fixing frame 101, the number of the fourth torsion springs 103 is four, the fourth torsion spring 103 is wound on the third fixing frame 101, the brake pad 104 is welded on the left side of each of the two pedal plates 102, and the brake pad 104 is in contact with the roller 1 on the same side after rotating.

Referring to fig. 1, 2, 3, 11 and 12, the small article placing device 11 further includes a small article placing mechanism 11, the small article placing mechanism 11 includes a placing box 111, a cover plate 112, first hinge pieces 113, second hinge pieces 114 and a fifth torsion spring 115, the placing box 111 is disposed on the right side of the upper portion of the transport plate 2, two first hinge pieces 113 are fixedly connected to the rear side of the upper portion of the placing box 111 through bolts, the second hinge pieces 114 are rotatably disposed on the two first hinge pieces 113, the fifth torsion spring 115 is connected between the front side and the rear side of the second hinge piece 114 and the adjacent first hinge pieces 113, the fifth torsion spring 115 is wound on the first hinge piece 113, the number of the fifth torsion springs 115 is four, the cover plate 112 is fixedly connected between the two second hinge pieces 114 through bolts, and the cover plate 112 is in contact with the placing box 111.

The transmission shaft of the gear 64 rotates to drive the first connecting shaft 71 to rotate, so that the bump 72 and the first limiting frame 73 rotate, the positioning pin 76 rotates, when the positioning pin 76 rotates to the position of the limiting block 75 clamping groove on the same side, the stretched second tension spring 74 resets to drive the positioning pin 76 to move inwards and reset, the positioning pin 76 is clamped in the limiting block 75 clamping groove on the same side, the medical instrument is fixed by the first supporting frame 61, and simultaneously, when the bump 72 rotates to contact with the second limiting frame 81 on the same side, the bump 72 drives the second limiting frame 81 on the same side to move downwards, so that the third tension spring 83 is compressed, and the second supporting frame 85 rotates to reset to clamp the medical instrument, thereby realizing the effect of automatic reinforcement, people can manually move the positioning pin 76 outwards, so that the second tension spring 74 is stretched, meanwhile, people manually rotate the first support frame 61 reversely, the transmission shaft of the gear 64 rotates reversely to drive the first connecting shaft 71 to rotate reversely, the lug 72 rotates reversely with the first limiting frame 73, so that the positioning pin 76 rotates reversely, people loosen the positioning pin 76 at the moment, the limiting block 75 supports the positioning pin 76, the second tension spring 74 is still in a stretched state, when the lug 72 rotates reversely, the pressure of the lug 72 on the second limiting frame 81 on the same side is smaller, the third tension spring 83 resets to drive the second limiting frame 81 to move upwards, and then people manually rotate the second support frame 85 reversely to contact with the second limiting frame 81 on the same side.

Second support frame 85 rotates and drives the second and link up axle 91 and rotate, second link up axle 91 rotates this moment and winds up stay cord 92, make stay cord 92 pull dynamic pressure footstock 94 rotate, thereby make third torsion spring 95 twist deformation, push frame 94 rotates and contacts with medical instrument this moment, with this effect that has realized compressing tightly, second support frame 85 antiport drives the second and links up axle 91 antiport, the second links up axle 91 antiport at this moment and emits stay cord 92, make stay cord 92 less to the pulling force of pressing footstock 94, thereby make third torsion spring 95 reset and drive dynamic pressure footstock 94 antiport.

When people need the roller 1 not to rotate, people can step on the pedal plate 102 downwards by feet, so that the fourth torsion spring 103 is deformed in a torsional mode, the brake pad 104 is rotated to be in contact with the roller 1 on the same side, and the roller 1 does not rotate, the braking effect is realized, when the medical instrument is dismounted, people loosen the pedal plate 102, the fourth torsion spring 103 is reset to drive the pedal plate 102 to rotate reversely to reset, and the brake pad 104 rotates reversely to be far away from the roller 1 on the same side.

When people need to transport smaller medical instruments, people can manually rotate the cover plate 112, the second hinge piece 114 rotates, the fifth torsion spring 115 is in torsional deformation, the placing box 111 is opened at the moment, people can place the smaller medical instruments into the placing box 111, after the placing is completed, people loosen the cover plate 112, the fifth torsion spring 115 is reset to drive the second hinge piece 114 to reversely rotate and reset, the cover plate 112 is reversely rotated and reset to close the placing box 111, the placing effect is achieved, and when people need to take out the smaller medical instruments, people can manually rotate the cover plate 112 according to the steps.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. The utility model provides a conveyer for medical instrument, including gyro wheel (1), transport plate (2), iron stand (3), baffle (4) and promotion frame (5), transport plate (2) lower part front and back both sides equal rotary type is equipped with two gyro wheels (1), gyro wheel (1) have four, transport plate (2) front and back both sides all are equipped with iron stand (3), transport plate (2) upper portion front and back both sides right side all is equipped with and pushes away frame (5), transport plate (2) upper portion right side is equipped with baffle (4), a serial communication port, still including anti-skidding mechanism (6) and side protection mechanism (8), be equipped with on transport plate (2) and be used for avoiding the anti-skidding mechanism (6) that medical instrument removed from side to side, be equipped with on transport plate (2) and be used for carrying out reinforced (n) side protection mechanism (8) to medical instrument.

2. A transporting arrangement for medical instruments according to claim 1, characterised in that the anti-slip means (6) comprises a first support (61), a support plate (62), a rack (63), gear (64), first torsion spring (65) and first tension spring (66), both sides all are equipped with two sets of first tension spring (66) around transport plate (2) upper portion, every group first tension spring (66) are four, first tension spring (66) have sixteen, be connected with backup pad (62) between four adjacent first tension spring (66) upsides, backup pad (62) have four, both sides all are equipped with rack (63) around backup pad (62) lower part, rack (63) have eight, transport plate (2) both sides equal rotary type is equipped with two sets of gear (64) around, per two gear (64) are a set of, gear (64) have eight, rack (63) remove back and close gear (64) meshing, be connected with first support frame (61) that are used for fixed medical instrument between two gear (64) the transmission shaft of every group, first support frame (61) have four, be connected with first torsion spring (65) between gear (64) and transport plate (2), first torsion spring (65) is around on the transmission shaft of gear (64), first torsion spring (65) have eight.

3. The transportation device for medical instruments according to claim 2, wherein the side protection mechanism (8) comprises a second limiting frame (81), a third limiting frame (82), a third tension spring (83), a first fixing frame (84), a second supporting frame (85) and a second torsion spring (86), two third limiting frames (82) are arranged on the front side and the rear side of the transportation plate (2), four third limiting frames (82) are arranged, the second limiting frame (81) is arranged between the two third limiting frames (82) on the same side in a sliding manner, the third tension spring (83) is arranged between the left side and the right side of the lower portion of the second limiting frame (81) and the third limiting frame (82) on the same side in a sliding manner, four third tension springs (83) are arranged, the third tension springs (83) are arranged on the third limiting frames (82), the first tension springs (84) are arranged on the front side and the rear side of the upper portion of the transportation plate (2), the second supporting frame (85) for reinforcing the medical instruments is arranged on the two first fixing frames (84), the second tension springs (85) are arranged on the same side of the second limiting frame (81), and the second tension springs (85) and the second tension springs (86) are arranged on the same side in a rotating manner, and the same side of the second fixing frame (85).

4. A transporter for medical instruments according to claim 3, further comprising a clamping mechanism (7) for realizing automatic reinforcement, wherein the clamping mechanism (7) comprises a first connecting shaft (71), a bump (72), a first limiting frame (73), a second tension spring (74), limiting blocks (75) and a positioning pin (76), the first connecting shaft (71) is arranged outside the transmission shaft of the gear (64) on the left side of the front side and the rear side, the first connecting shaft (71) is rotatably connected with the transport plate (2), the bump (72) is arranged on each of the two first connecting shafts (71), the limiting blocks (75) are arranged on the left side of the front side and the rear side of the transport plate (2), the first connecting shaft (71) is rotatably connected with the limiting blocks (75) on the same side, the first limiting frames (73) are arranged on each of the two first connecting shafts (71), the positioning pins (76) are slidably arranged on each of the two first limiting frames (73), the positioning pins (76) are slidably connected with the limiting blocks (75) on the same side, the two limiting blocks (76) are slidably connected with the second limiting pins (74), and the second limiting blocks (73) are wound on the same side of the second spring (74).

5. The conveying device for the medical instrument according to claim 4, further comprising a laminating mechanism (9) for pressing the medical instrument, wherein the laminating mechanism (9) comprises a second connecting shaft (91), pulling ropes (92), second fixing frames (93), a top pressing frame (94) and third torsion springs (95), the second connecting shaft (91) is arranged on the right sides of the two second supporting frames (85), the pulling ropes (92) are wound on the right sides of the two second connecting shafts (91), the second fixing frames (93) are arranged on the upper sides of the two pushing frames (5), the top pressing frame (94) is rotatably arranged between the two second fixing frames (93), one ends of the two pulling ropes (92) are connected with the top pressing frame (94), the third torsion springs (95) are connected between the front side and the rear side of the top pressing frame (94) and the second fixing frames (93) on the same side, and the third torsion springs (95) are wound on the top pressing frame (94).

6. The conveying device for the medical equipment according to claim 5, further comprising an emergency brake mechanism (10) for braking the rollers (1), wherein the emergency brake mechanism (10) comprises a third fixing frame (101), a pedal plate (102), a fourth torsion spring (103) and brake pads (104), the two rollers (1) on the right side are respectively provided with the third fixing frame (101), the two third fixing frames (101) are respectively and rotatably provided with the pedal plate (102), the four torsion springs (103) are respectively connected between the front side and the rear side of the pedal plate (102) and the adjacent third fixing frame (101), the number of the fourth torsion springs (103) is four, the fourth torsion spring (103) is wound on the third fixing frame (101), and the left sides of the two pedal plates (102) are respectively provided with the brake pads (104).

7. The conveying device for the medical instrument according to claim 6, further comprising a small article placing mechanism (11) for placing the small medical instrument, wherein the small article placing mechanism (11) comprises a placing box (111), a cover plate (112), first hinge plates (113), second hinge plates (114) and fifth torsion springs (115), the placing box (111) is arranged on the right side of the upper portion of the conveying plate (2), two first hinge plates (113) are arranged on the rear side of the upper portion of the placing box (111), the second hinge plates (114) are rotatably arranged on the two first hinge plates (113), the fifth torsion springs (115) are respectively connected between the front side and the rear side of each second hinge plate (114) and the adjacent first hinge plate (113), the fifth torsion springs (115) are wound on the first hinge plates (113), the number of the fifth torsion springs (115) is four, and the cover plate (112) is connected between the two second hinge plates (114).

8. A transporting device for medical instruments according to claim 4, characterised in that the two stoppers (75) are provided with snap-in grooves.