CN113499491A - Clinical subcutaneous hydrops processing apparatus of head of neurosurgery - Google Patents

Abstract

The invention belongs to the technical field of effusion treatment equipment, and particularly relates to a neurosurgical clinical head subcutaneous effusion treatment device, which comprises a transmission cavity, wherein an accommodating cavity is connected to the transmission cavity; a transmission mechanism is arranged in the transmission cavity, a rotating disc is arranged in the accommodating cavity, and a plurality of collecting barrels corresponding to the transmission mechanism are arranged on the rotating disc; the accommodating cavity is connected with a connecting pipe corresponding to the collecting barrel, and the other end of the connecting pipe is connected with a collecting soft groove; the transmission structure comprises a power device, and the power device is connected with a rotating device for driving the rotating disc to rotate; the power device is also connected with a lifting device for driving the collecting barrel to lift up and down, the power device is also connected with a pushing device for driving the collecting barrel to move along the radial direction of the rotating disc, a connecting device for driving the collecting barrel to reset is arranged in the rotating disc, and the rotating device, the lifting device and the pushing device synchronously act; the effectual current hydrops processing apparatus degree of automation that has solved of this application is lower, the problem of the change collecting vessel that can not be timely.

Description

Clinical subcutaneous hydrops processing apparatus of head of neurosurgery

Technical Field

The invention belongs to the technical field of effusion treatment equipment, and particularly relates to a neurosurgical clinical head subcutaneous effusion treatment device.

Background

Neurosurgery is mainly used for treating diseases of nervous systems of brain, spinal cord and the like caused by trauma, such as life threatening due to cerebral hemorrhage and bleeding amount, brain trauma caused by car accidents, or operation treatment required by brain tumor compression. At neurosurgery postoperative, produce a large amount of hydrops subcutaneous easy, these hydrops if discharge in time can not, will constitute the injury to the tissue, consequently use corresponding hydrops processing apparatus to discharge the hydrops more to prevent that the hydrops from causing the injury to the patient, promote patient's recovery.

When the existing effusion treatment device is used, medical staff needs to observe a collecting barrel in time and replace the collecting barrel with a new one in time so as to avoid that accumulated liquid in the collecting barrel is too much and influences the process of collecting effusion of a patient by the collecting barrel, thereby undoubtedly causing great labor intensity to the medical staff; in addition, when the collecting barrel is replaced, the degree of automation is low, the collecting barrel is not convenient to replace timely by a user, the practicability is reduced, and the collecting barrel is not convenient to use.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the neurosurgery clinical head subcutaneous effusion treatment device, which effectively solves the problems that the existing effusion treatment device has low automation degree and can not replace a collecting barrel in time.

In order to achieve the purpose, the invention adopts the following technical scheme: a device for treating subcutaneous head effusion in clinical neurosurgery comprises a transmission cavity, wherein an accommodating cavity is connected to the transmission cavity; the transmission cavity is internally provided with a transmission mechanism, the accommodating cavity is internally provided with a rotating disc, and the rotating disc is provided with a plurality of collecting barrels corresponding to the transmission mechanism; the accommodating cavity is connected with a connecting pipe corresponding to the collecting barrel, and the other end of the connecting pipe is connected with a collecting soft groove; the transmission structure comprises a power device, and the power device is connected with a rotating device for driving the rotating disc to rotate; the power device is also connected with a lifting device for driving the collecting barrel to ascend and descend, the power device is also connected with a pushing device for driving the collecting barrel to move along the radial direction of the rotating disc, a connecting device for driving the collecting barrel to reset is arranged in the rotating disc, and the rotating device, the lifting device and the pushing device act synchronously.

Furthermore, the power device comprises a bottom plate fixedly connected with the transmission cavity, and a motor is fixedly connected to the bottom plate; the bottom plate is rotatably connected with a driving grooved pulley, and the driving grooved pulley is coaxially and fixedly connected with a driving shaft; the output end of the motor is connected with a shifting lever which drives the driving grooved wheel to rotate, and the shifting lever is further provided with a first limiting disc matched with the driving grooved wheel.

Furthermore, the rotating device comprises a spherical grooved wheel rotationally connected with the bottom plate, a driving plate for driving the spherical grooved wheel to rotate is fixedly connected to the driving shaft, and a second limiting plate matched with the spherical grooved wheel is connected to the driving plate; the spherical grooved wheel is coaxially and fixedly connected with a lower bevel gear, the bottom plate is rotatably connected with a connecting bevel gear meshed with the lower bevel gear, and the connecting bevel gear is meshed with an upper bevel gear coaxially and fixedly connected with the rotating disc.

Furthermore, the lifting device comprises a driving rod which is rotationally connected with the bottom plate, the middle part of the driving rod is rotationally connected with the bottom plate, and a cam which drives the driving rod to rotate is fixedly connected to the driving shaft; the cam is provided with a cam groove, and the driving rod is provided with a pin shaft matched with the cam groove; the bottom plate is also rotatably connected with a synchronous rod corresponding to the driving rod, and the driving rod is connected with a driving shaft for driving the synchronous rod to rotate; the bottom plate is also rotatably connected with a lifting rod, the synchronous rod is rotatably connected with a push rod, and the push rod is rotatably connected with the middle part of the lifting rod; a sliding cylinder is fixedly connected to the bottom plate, a sliding rod is connected in the sliding cylinder in a sliding mode, and a lifting disc for driving the collecting barrel to lift up and down is fixedly connected to the sliding rod; the sliding rod is further fixedly connected with a lifting block, a lifting chute is arranged on the lifting block, and a pin shaft matched with the lifting chute is arranged on the lifting rod.

Furthermore, the pushing device comprises a first bevel gear set fixedly connected with the driving shaft, and the output end of the first bevel gear set is connected with a second bevel gear set; the output end of the second bevel gear set is connected with a third bevel gear set, and the output end of the third bevel gear set is connected with a fourth bevel gear set; the output ends of the driving shaft and the fourth bevel gear set are fixedly connected with cranks, and the cranks are rotatably connected with connecting rods; the bottom plate is fixedly connected with a supporting plate, the supporting plate is connected with a push plate in a sliding manner, and the connecting rod is rotatably connected with the push plate; the supporting plate is fixedly connected with a guide cylinder, and the guide cylinder is slidably connected with a guide rod fixedly connected with the push plate.

Furthermore, a supporting structure matched with the collecting soft groove is arranged on the accommodating cavity, and the supporting structure comprises a connecting seat fixedly connected with the accommodating cavity; the connecting seat is rotatably connected with a rotating seat, and a fastening screw matched with the rotating seat is arranged on the connecting seat; the rotary seat is rotatably connected with a first adjusting rod, the first adjusting rod is rotatably connected with a second adjusting rod, and the collecting soft groove is rotatably connected with the second adjusting rod.

Furthermore, the connecting device comprises a reset rod fixedly connected with the rotating disc, a reset cylinder matched with the push plate is connected on the reset rod in a sliding manner, and one end of the reset cylinder, which is close to the push plate, extends out of the rotating disc; the reset rod is provided with a reset spring matched with the reset cylinder, and the rotating disc is provided with a sliding groove matched with the reset cylinder.

Furthermore, collecting vessel one end is equipped with the connector corresponding with the connecting pipe, and the collecting vessel other end is equipped with and resets a matched with connecting cylinder, and the collecting vessel carries out the oscilaltion under connecting cylinder and lifting disk cooperation.

Furthermore, an opening matched with the collecting barrel is arranged on the accommodating cavity, and the opening corresponds to the pushing-out device; the opening is rotatably connected with a movable door, and handles are arranged on the movable door and the collecting barrel; the transmission cavity is provided with universal wheels.

Compared with the prior art, the invention has the following beneficial effects:

when the collecting device is used, the rotating device, the lifting device and the pushing-out device are matched for use, the rotating device rotates to enable the collecting barrel to rotate to the position below the connecting pipe, the lifting device connects the collecting barrel with the connecting pipe, the collecting soft groove and the connecting pipe drain accumulated liquid into the collecting barrel, when the accumulated liquid in the collecting barrel is collected enough, the rotating device rotates to enable the collecting barrel to rotate to the pushing-out device, the next collecting barrel rotates to the position below the connecting pipe under the action of the rotating device, the pushing-out device pushes out the collecting barrel, when medical staff observe that the collecting barrel is pushed out, the corresponding collecting barrel can be taken down and replaced by a new collecting barrel, and the operation is repeated; make this application can trade the bucket automatically, and automatic collecting vessel with filling releases, medical personnel only need collect when full at next collecting vessel, to filling with collecting vessel change can, can effectual reduction medical personnel's intensity of labour, improve the degree of automation of this application.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a first isometric view of the drive mechanism of the present invention;

FIG. 4 is a second perspective view of the drive mechanism of the present invention;

figure 5 is a first isometric view of the ejector of the present invention;

FIG. 6 is a second isometric view of the ejector of the present invention;

FIG. 7 is a schematic view of a rotary device according to the present invention;

FIG. 8 is a schematic view of the lifting device of the present invention;

FIG. 9 is a schematic structural view of a power plant according to the present invention;

FIG. 10 is a schematic view of a support structure according to the present invention;

FIG. 11 is a first isometric view of the connection device of the present invention;

FIG. 12 is a second isometric view of the connection device of the present invention;

FIG. 13 is a schematic view of the construction of the collector barrel of the present invention;

in the figure: 1. the device comprises universal wheels, 2, a transmission cavity, 3, a movable door, 4, an accommodating cavity, 5, a supporting structure, 501, a connecting seat, 502, a rotating seat, 503, a first adjusting rod, 504 and a second adjusting rod; 6. connecting pipe, 7, collecting soft groove, 8, transmission mechanism, 801, bottom plate, 802, power device, 803, pushing device, 804, lifting device, 805, driving sheave, 806, first limiting disc, 807, driving lever, 808, first bevel gear set, 809, crank, 810, connecting rod, 811, guide cylinder, 812, guide rod, 813, push plate, 814, supporting plate, 815, second bevel gear set, 816, third bevel gear set, 817, fourth bevel gear set, 818, upper bevel gear, 819, connecting bevel gear, 820, lower bevel gear, 821, spherical sheave, 822, second limiting disc, driving rod, cam, 824, 823, 825, driving shaft, 826, lifting disc, 827, lifting rod, 828, push rod, 829, synchronizing rod, 830, sliding cylinder, 831, lifting block, 832 and motor; 9. the connecting device comprises a connecting device 901, a rotating disc 902, a return spring 903, a sliding groove 904 and a return cylinder; 10. collecting vessel, 11, handle, 12, connector, 13, deflector, 14, connecting cylinder.

Detailed Description

A neurosurgical clinical head subcutaneous effusion treatment device is shown in figures 1-13 and comprises a transmission cavity 2, and an accommodating cavity 4 is connected to the transmission cavity 2; a transmission mechanism 8 is arranged in the transmission cavity 2, a rotating disc 901 is arranged in the accommodating cavity 4, a plurality of collecting barrels 10 corresponding to the transmission mechanism 8 are arranged on the rotating disc 901, and preferably, 4 collecting barrels 10 are arranged; the rotating disc 901 is provided with a guide plate 13 matched with the collecting barrel 10, and the guide plate 13 is arranged to enable the collecting barrel 10 to lift up and down more stably; the accommodating cavity 4 is connected with a connecting pipe 6 corresponding to the collecting barrel 10, a valve is arranged on the connecting pipe 6, and the other end of the connecting pipe 6 is connected with a collecting soft groove 7; the transmission structure comprises a power device 802, and a rotating device for driving the rotating disc 901 to rotate is connected to the power device 802; the power device 802 is further connected with a lifting device 804 for driving the collecting barrel 10 to ascend and descend, the power device 802 is further connected with a pushing device 803 for driving the collecting barrel 10 to move along the radial direction of the rotating disc 901, a connecting device 9 for driving the collecting barrel 10 to reset is arranged in the rotating disc 901, and the rotating device, the lifting device 804 and the pushing device 803 act synchronously.

When the collecting device is used, the rotating device, the lifting device 804 and the pushing-out device 803 are matched for use, the rotating device rotates to enable the collecting barrel 10 to rotate to the position below the connecting pipe 6, the lifting device 804 connects the collecting barrel 10 with the connecting pipe 6, the collecting soft groove 7 and the connecting pipe 6 drain accumulated liquid into the collecting barrel 10, when the accumulated liquid in the collecting barrel 10 is collected enough, the rotating device rotates to enable the collecting barrel 10 to rotate to the pushing-out device 803, the next collecting barrel 10 rotates to the position below the connecting pipe 6 under the action of the rotating device, the pushing-out device 803 pushes out the collecting barrel 10, when medical staff observe that the collecting barrel 10 is pushed out, the corresponding collecting barrel 10 can be taken down, a new collecting barrel 10 is replaced, and the operation is repeated in the way; make this application can trade the bucket automatically, will contain full collecting vessel 10 automatically and release, medical personnel only need collect when full at next collecting vessel 10, to contain full collecting vessel 10 change can, can effectual reduction medical personnel's intensity of labour, improve the degree of automation of this application.

Further, as shown in fig. 9, the power device 802 includes a bottom plate 801 fixedly connected to the transmission cavity 2, and a motor 832 is fixedly connected to the bottom plate 801; a driving grooved pulley 805 is rotatably connected to the bottom plate 801, and a driving shaft is coaxially and fixedly connected to the driving grooved pulley 805; the output end of the motor 832 is connected with a driving lever 807 for driving the driving grooved wheel 805 to rotate, and the driving lever 807 is also provided with a first limiting disc 806 matched with the driving grooved wheel 805; through the arrangement of the motor 832, the driving lever 807, the driving grooved pulley 805 and the first limiting disc 806, the driving shaft can be continuously driven to rotate, and the driving shaft is limited through the first limiting disc 806, so that the stability of the invention is improved.

Further, as shown in fig. 7, the rotating device includes a spherical grooved wheel 821 rotatably connected to the bottom plate 801, a driving shaft is fixedly connected to a driving plate for driving the spherical grooved wheel 821 to rotate, and the driving plate is connected to a second limiting plate 822 matched with the spherical grooved wheel 821; the driving shaft drives the spherical grooved wheel 821 to rotate through the driving plate and the second limiting plate 822; the spherical grooved wheel 821 is coaxially and fixedly connected with a lower bevel gear 820, a connecting bevel gear 819 meshed with the lower bevel gear 820 is rotatably connected onto the bottom plate 801, and an upper bevel gear 818 coaxially and fixedly connected with the rotating disc 901 is meshed onto the connecting bevel gear 819; the rotating disc 901 is driven to rotate by the cooperation of the lower bevel gear 820, the connecting bevel gear 819 and the upper bevel gear 818.

Further, as shown in fig. 8, the lifting device 804 includes a driving rod 824 rotatably connected to the bottom plate 801, the middle of the driving rod 824 is rotatably connected to the bottom plate 801, a cam 823 for driving the driving rod 824 to rotate is fixedly connected to the driving shaft, and the cam 823 is disposed at an angle of 180 degrees with respect to the dial; the cam 823 is provided with a cam 823 groove, and the driving rod 824 is provided with a pin shaft matched with the cam 823 groove; the bottom plate 801 is further rotatably connected with a synchronizing rod 829 corresponding to the driving rod 824, and the driving rod 824 is connected with a driving shaft 825 for driving the synchronizing rod 829 to rotate; the bottom plate 801 is also rotatably connected with a lifting rod 827, the synchronizing rod 829 is rotatably connected with a push rod 828, and the push rod 828 is rotatably connected with the middle part of the lifting rod 827; a sliding barrel 830 is fixedly connected to the bottom plate 801, a sliding rod is slidably connected to the sliding barrel 830, and a lifting disc 826 for driving the collecting barrel 10 to lift up and down is fixedly connected to the sliding rod; the sliding rod is further fixedly connected with a lifting block 831, the lifting block 831 is provided with a lifting chute 903, and a lifting rod 827 is provided with a pin shaft matched with the lifting chute 903. Cooperate through actuating lever 824, cam 823, drive shaft 825 and drive synchronizing bar 829 rotatory, synchronizing bar 829 drives through push rod 828 that the lifting lever is rotatory, and lifting bar 827 drives through promoting spout 903, round pin axle and promotes piece 831 oscilaltion, and promotion piece 831 drives collecting vessel 10 oscilaltion through slide bar, lifting disc 826.

Further, as shown in fig. 5 and fig. 6, the pushing device 803 includes a first bevel gear set 808 fixedly connected to the driving shaft, and a second bevel gear set 815 is connected to an output end of the first bevel gear set 808; the output end of the second bevel gear set 815 is connected with a third bevel gear set 816, and the output end of the third bevel gear set 816 is connected with a fourth bevel gear set 817; the first bevel gear set 808, the second bevel gear set 815, the third bevel gear set 816 and the fourth bevel gear set 817 respectively comprise a driving bevel gear, a driven bevel gear is meshed with the driving bevel gear, the driving bevel gear is an input end, and the driven bevel gear is an output end; the output ends of the driving shaft and the fourth bevel gear group 817 are fixedly connected with a crank 809, and the crank 809 is rotatably connected with a connecting rod 810; a supporting plate 814 is fixedly connected to the bottom plate 801, a push plate 813 is connected to the supporting plate 814 in a sliding manner, and the connecting rod 810 is rotatably connected with the push plate 813; a guide cylinder 811 is fixedly connected to the support plate 814, and a guide rod 812 fixedly connected to the push plate 813 is slidably connected to the guide cylinder 811. Through the arrangement of the first bevel gear set 808, the second bevel gear set 815, the third bevel gear set 816 and the fourth bevel gear set 817, the pair of cranks 809 synchronously rotate, the pair of cranks 809 drives the push plate 813 to push the collecting bucket 10 through the connecting rod 810, and through the arrangement of the pair of cranks 809, the push-out device 803 is more stable when pushing the collecting bucket 10, so that the stability of the application is improved.

Further, as shown in fig. 10, a supporting structure 5 matched with the collecting soft groove 7 is arranged on the accommodating cavity 4, and the supporting structure 5 includes a connecting seat 501 fixedly connected with the accommodating cavity 4; a rotating seat 502 is rotatably connected to the connecting seat 501, and a fastening screw matched with the rotating seat 502 is arranged on the connecting seat 501; a first adjusting rod 503 is rotatably connected to the rotating base 502, a fastening screw matched with the first adjusting rod 503 is screwed to the rotating base 502, and a pressing plate matched with the first adjusting rod 503 is arranged on the fastening screw; the first adjusting rod 503 is rotatably connected with a second adjusting rod 504, the first adjusting rod 503 is screwed with a fastening screw matched with the second adjusting rod 504, the fastening screw is provided with a pressing plate matched with the second adjusting rod 504, the collecting soft groove 7 is rotatably connected with the second adjusting rod 504, the second adjusting rod 504 is provided with a fastening screw matched with the collecting soft groove 7, and the fastening screw is provided with a pressing plate matched with the collecting soft groove 7; the collection soft groove 7 is supported by the arrangement of the connecting seat 501, the rotating seat 502, the first adjusting rod 503 and the second adjusting rod 504, and the stability of the collection soft groove 7 is improved.

Further, as shown in fig. 11 and 12, the connecting device 9 includes a reset rod fixedly connected to the rotating disc 901, the reset rod is slidably connected to a reset cylinder 904 matched with the push plate 813, and one end of the reset cylinder 904 close to the push plate 813 is disposed to extend out of the rotating disc 901; the reset rod is provided with a reset spring 902 matched with the reset cylinder 904, and the rotating disc 901 is provided with a sliding chute 903 matched with the reset cylinder 904; through the arrangement of the return spring 902 and the return cylinder 904, the collecting barrel 10 is reset after replacement.

Further, as shown in fig. 13, one end of the collecting barrel 10 is provided with a connection port 12 corresponding to the connection pipe 6, the other end of the collecting barrel 10 is provided with a connection barrel 14 matched with the reset barrel 904, the lifting disc 826 penetrates through the reset barrel 904 to be connected with the connection barrel 14, and the connection barrel 14 drives the collecting barrel 10 to lift up and down.

Furthermore, an opening matched with the collecting barrel 10 is arranged on the accommodating cavity 4, and the opening corresponds to the pushing-out device 803; the opening is rotatably connected with a movable door 3, and handles 11 are arranged on the movable door 3 and the collecting barrel 10; the universal wheel 1 is arranged on the transmission cavity 2, and the universal wheel 1 is arranged, so that the movable type bicycle is convenient to move.

The working process of the invention is as follows:

when the device is used, the connecting seat 501, the rotating seat 502, the first adjusting rod 503 and the second adjusting rod 504 are adjusted, so that the collection soft groove 7 is placed at a liquid accumulation collection position to collect liquid accumulation; collect soft groove 7, connecting pipe 6 in with hydrops drainage to corresponding collecting vessel 10, as shown in fig. 2, collecting vessel 10 under connecting pipe 6 is in collecting when full this moment, and hoisting device 804 falls collecting vessel 10 and separates and ejecting device 803 and connecting device 9 cooperate and drive collecting vessel 10 of new change and reset with connecting pipe 6, and the following figure of this application all is this state drawing.

The motor 832 rotates twice again, the motor 832 drives the driving grooved pulley 805 to rotate 180 degrees through the driving lever 807, and the driving shaft rotates 180 degrees; a rotating device: the driving shaft drives the spherical sheave 821 to rotate 90 degrees through the driving plate and the second limiting disc 822, the spherical sheave 821 drives the rotating disc 901 to rotate 90 degrees through the lower bevel gear 820, the connecting bevel gear 819 and the upper bevel gear 818, and the rotating disc 901 drives the collecting barrel 10 to rotate 90 degrees; at this time, the collecting barrel 10 which is full of collecting is rotated to the position corresponding to the opening, and the next empty collecting barrel 10 is rotated to the position right below the connecting pipe 6; meanwhile, the cam 823 rotates by 180 degrees without driving the driving rod 824, i.e., the lifting device 804 does not work; the crank 809 rotates 180 degrees, and the crank 809 drives the push plate 813 to move between the reset cylinder 904 and the upper bevel gear 818 through the connecting rod 810 without contacting with the reset cylinder 904.

The motor 832 rotates one circle again, the motor 832 drives the driving grooved pulley 805 to rotate 90 degrees through the driving lever 807, and the driving shaft rotates 90 degrees; the lifting device 804: the cam 823 drives the driving rod 824 to rotate, the driving rod 824 drives the synchronizing rod 829 to rotate through the driving shaft 825, the synchronizing rod 829 drives the lifting rod to rotate through the push rod 828, the lifting rod 827 drives the lifting block 831 to ascend through the lifting chute 903 and the pin shaft, the lifting block 831 ascends through the sliding rod and the lifting disc 826, the lifting disc 826 penetrates the resetting cylinder 904 to be connected with the connecting cylinder 14, and the collecting cylinder 10 is driven to ascend through the connecting cylinder 14. At the same time, the dial is rotated 90 degrees, the dial is not in contact with the spherical sheave 821, i.e., the rotary dial 901 is stationary.

The pushing-out device 803: under the action of the first bevel gear set 808, the second bevel gear set 815, the third bevel gear set 816 and the fourth bevel gear set 817, the pair of cranks 809 synchronously rotate, the cranks 809 drive the push plate 813 to slide along the support plate 814 through the connecting rod 810, the push plate 813 drives the collecting barrel 10 to radially slide along the rotating disc 901 through the matching of the reset barrel 904 and the connecting barrel 14, namely, the collecting barrel 10 is pushed out; medical personnel only need to change the collecting vessel 10 that contains full when next collecting vessel 10 collects full can.

When the collecting barrel 10 is fully collected again, the motor 832 rotates one circle again, the motor 832 drives the driving grooved pulley 805 to rotate 90 degrees through the driving lever 807, and the driving shaft rotates 90 degrees; the lifting device 804: cam 823 drives the drive lever 824 and rotates, and drive lever 824 drives the synchronizing bar 829 rotation through drive shaft 825, and the synchronizing bar 829 drives through push rod 828 that the lifting lever is rotatory, and lifting bar 827 drives lifting block 831 through promoting spout 903, round pin axle and descends, and lifting block 831 descends through slide bar, lifting tray 826, and collecting bucket 10 descends under the effect of lifting tray 826 and self gravity. At the same time, the dial is rotated again by 90 degrees, the dial is not in contact with the spherical sheave 821, i.e. the rotary dial 901 is stationary.

The pushing-out device 803: under the action of the first bevel gear set 808, the second bevel gear set 815, the third bevel gear set 816 and the fourth bevel gear set 817, the pair of cranks 809 synchronously rotate, the cranks 809 drive the push plate 813 to slide and reset along the supporting plate 814 through the connecting rod 810, and the collecting barrel 10 resets under the action of the resetting barrel 904 and the resetting spring 902; so reciprocal, make this application can move the bucket automatically, release full collecting vessel 10 automatically, medical personnel only need when next collecting vessel 10 collects full, to full collecting vessel 10 change can, can effectual reduction medical personnel's intensity of labour, improve the degree of automation of this application.

Claims (9)

1. The utility model provides a clinical subcutaneous hydrops in head of neurosurgery processing apparatus which characterized in that: comprises a transmission cavity (2), and an accommodating cavity (4) is connected to the transmission cavity (2); a transmission mechanism (8) is arranged in the transmission cavity (2), a rotating disc (901) is arranged in the accommodating cavity (4), and a plurality of collecting barrels (10) corresponding to the transmission mechanism (8) are arranged on the rotating disc (901); the accommodating cavity (4) is connected with a connecting pipe (6) corresponding to the collecting barrel (10), and the other end of the connecting pipe (6) is connected with a collecting soft groove (7); the transmission structure comprises a power device (802), and the power device (802) is connected with a rotating device for driving the rotating disc (901) to rotate; the power device (802) is further connected with a lifting device (804) for driving the collecting barrel (10) to ascend and descend, the power device (802) is further connected with a pushing device (803) for driving the collecting barrel (10) to move along the radial direction of the rotating disc (901), a connecting device (9) for driving the collecting barrel (10) to reset is arranged in the rotating disc (901), and the rotating device, the lifting device (804) and the pushing device (803) synchronously act.

2. The neurosurgical clinical subhead effusion treatment device according to claim 1, characterized in that: the power device (802) comprises a bottom plate (801) fixedly connected with the transmission cavity (2), and a motor (832) is fixedly connected to the bottom plate (801); the bottom plate (801) is rotatably connected with a driving grooved wheel (805), and the driving grooved wheel (805) is coaxially and fixedly connected with a driving shaft; the output end of the motor (832) is connected with a driving lever (807) which drives the driving grooved wheel (805) to rotate, and the driving lever (807) is also provided with a first limiting disc (806) matched with the driving grooved wheel (805).

3. The neurosurgical clinical subhead effusion treatment device according to claim 2, characterized in that: the rotating device comprises a spherical grooved wheel (821) rotationally connected with the bottom plate (801), a driving shaft is fixedly connected with a driving plate driving the spherical grooved wheel (821) to rotate, and a second limiting plate (822) matched with the spherical grooved wheel (821) is connected to the driving plate; the spherical grooved wheel (821) is coaxially and fixedly connected with a lower bevel gear (820), a connecting bevel gear (819) meshed with the lower bevel gear (820) is rotatably connected onto the bottom plate (801), and an upper bevel gear (818) coaxially and fixedly connected with the rotating disc (901) is meshed onto the connecting bevel gear (819).

4. The neurosurgical clinical subhead effusion treatment device according to claim 3, characterized in that: the lifting device (804) comprises a driving rod (824) rotatably connected with the bottom plate (801), the middle part of the driving rod (824) is rotatably connected with the bottom plate (801), and a cam (823) for driving the driving rod (824) to rotate is fixedly connected to the driving shaft; the cam (823) is provided with a cam (823) groove, and the driving rod (824) is provided with a pin shaft matched with the cam (823) groove; the bottom plate (801) is also rotatably connected with a synchronizing rod (829) corresponding to the driving rod (824), and the driving rod (824) is connected with a driving shaft (825) for driving the synchronizing rod (829) to rotate; the bottom plate (801) is also rotatably connected with a lifting rod (827), the synchronizing rod (829) is rotatably connected with a push rod (828), and the push rod (828) is rotatably connected with the middle part of the lifting rod (827); a sliding cylinder (830) is fixedly connected to the bottom plate (801), a sliding rod is connected in the sliding cylinder (830) in a sliding mode, and a lifting disc (826) for driving the collecting barrel (10) to lift up and down is fixedly connected to the sliding rod; still the rigid coupling has promotion piece (831) on the slide bar, is equipped with on promotion piece (831) and promotes spout (903), is equipped with on promotion pole (827) and promotes spout (903) matched with round pin axle.

5. The neurosurgical clinical subcutaneous head fluid management device according to claim 4, wherein: the push-out device (803) comprises a first bevel gear set (808) fixedly connected with the driving shaft, and the output end of the first bevel gear set (808) is connected with a second bevel gear set (815); the output end of the second bevel gear set (815) is connected with a third bevel gear set (816), and the output end of the third bevel gear set (816) is connected with a fourth bevel gear set (817); the output ends of the driving shaft and the fourth bevel gear set (817) are fixedly connected with a crank (809), and the crank (809) is rotatably connected with a connecting rod (810); the bottom plate (801) is fixedly connected with a supporting plate (814), the supporting plate (814) is connected with a push plate (813) in a sliding mode, and the connecting rod (810) is rotatably connected with the push plate (813).

6. The neurosurgical clinical subhead effusion treatment device according to claim 1, characterized in that: a supporting structure (5) matched with the collecting soft groove (7) is arranged on the accommodating cavity (4), and the supporting structure (5) comprises a connecting seat (501) fixedly connected with the accommodating cavity (4); the connecting seat (501) is rotatably connected with a rotating seat (502), and a fastening screw matched with the rotating seat (502) is arranged on the connecting seat (501); the rotating base (502) is rotatably connected with a first adjusting rod (503), the first adjusting rod (503) is rotatably connected with a second adjusting rod (504), and the collecting soft groove (7) is rotatably connected with the second adjusting rod (504).

7. The neurosurgical clinical subcutaneous head fluid management device according to claim 5, wherein: the connecting device (9) comprises a reset rod fixedly connected with the rotating disc (901), a reset cylinder (904) matched with the push plate (813) is connected to the reset rod in a sliding mode, and one end, close to the push plate (813), of the reset cylinder (904) extends out of the rotating disc (901); the reset rod is provided with a reset spring (902) matched with the reset cylinder (904), and the rotating disc (901) is provided with a sliding groove (903) matched with the reset cylinder (904).

8. The neurosurgical clinical subcutaneous head fluid management device according to claim 7, wherein: one end of the collecting barrel (10) is provided with a connecting port (12) corresponding to the connecting pipe (6), the other end of the collecting barrel (10) is provided with a connecting barrel (14) matched with the resetting barrel (904), and the collecting barrel (10) is lifted up and down under the matching of the connecting barrel (14) and the lifting disc (826).

9. The neurosurgical clinical subcutaneous head fluid management device according to claim 8, wherein: an opening matched with the collecting barrel (10) is arranged on the accommodating cavity (4), and corresponds to the pushing-out device (803); the opening is rotatably connected with a movable door (3), and the movable door (3) and the collecting barrel (10) are both provided with handles (11); the transmission cavity (2) is provided with universal wheels (1).

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