CN213606644U - Consumable vein pressing assembly and vein pressing device - Google Patents
Consumable vein pressing assembly and vein pressing device Download PDFInfo
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- CN213606644U CN213606644U CN202022635403.7U CN202022635403U CN213606644U CN 213606644 U CN213606644 U CN 213606644U CN 202022635403 U CN202022635403 U CN 202022635403U CN 213606644 U CN213606644 U CN 213606644U
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Abstract
The utility model relates to a vein equipment field particularly, relates to a consumptive material pressure arteries and veins subassembly and pressure arteries and veins ware. The consumable vein pressing assembly comprises a feeding mechanism and a winding mechanism, wherein the feeding mechanism is used for supplying sanitary consumables to the winding mechanism and can be self-locked when the feeding is stopped; the winding mechanism comprises a driver, a mounting seat, a driving shaft and a driven shaft, the driver and the mounting seat are fixedly arranged, and the driver is in transmission connection with the driving shaft and is used for driving the driving shaft to rotate around a rotation central line; the driven shaft is a damping rotating shaft and is arranged on the mounting seat, the rotation center line of the driving shaft is superposed with the rotation center line of the driven shaft, the driving shaft and the driven shaft are arranged in the direction perpendicular to the rotation center line, and a crack exists between the driving shaft and the driven shaft. The tourniquet comprises the consumable tourniquet component. The utility model provides a arteries and veins subassembly and pressure arteries and veins ware are pressed to consumptive material, and adjustable size scope is very wide, and adaptability is strong, can satisfy all patients' pressure arteries and veins demand basically.
Description
Technical Field
The utility model relates to a vein equipment field particularly, relates to a consumptive material pressure arteries and veins subassembly and pressure arteries and veins ware.
Background
In some occasions, when the medical staff takes blood for the patient, the tourniquet can be replaced by the tourniquet to realize the tourniquet effect on the arm of the patient, so that the medical staff does not need to tighten or loosen the tourniquet manually, and the labor intensity of the medical staff is reduced to a certain extent.
The existing tourniquet device generally comprises a tourniquet ring and a feeding mechanism, wherein the tourniquet ring can be used for tourniquet on the arm of a patient, the feeding mechanism can convey sanitary consumables towards the tourniquet ring, the sanitary consumables are used for separating the arm of the patient from the tourniquet ring, and when one patient is replaced, one section of consumables is replaced, so that cross infection is avoided.
In summary, it is an urgent technical problem to be solved by those skilled in the art to overcome the above-mentioned drawbacks of the existing tourniquets.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a consumptive material tourniquet subassembly and tourniquet ware to it is limited to alleviate the adjustable size scope that the tourniquet ware among the prior art exists, technical problem that adaptability is poor.
The utility model provides a arteries and veins subassembly is pressed to consumptive material, including feed mechanism and winding mechanism, feed mechanism is used for toward winding mechanism department supplies with the health consumptive material to can auto-lock when stopping the feed.
The winding mechanism comprises a driver, an installation seat, a driving shaft and a driven shaft, the driver and the installation seat are fixedly arranged, and the driver is in transmission connection with the driving shaft and is used for driving the driving shaft to rotate around a rotation center line; the driven shaft is a damping rotating shaft and is installed on the installation seat, the rotation center line of the driving shaft is overlapped with that of the driven shaft, the driving shaft and the driven shaft are arranged in the direction perpendicular to the rotation center line, and a crack exists between the driving shaft and the driven shaft.
Preferably, as an implementation mode, the consumable vein pressing assembly further comprises a V-shaped support die, the V-shaped support die is located above the winding mechanism, and an opening of the V-shaped support die faces upwards.
Preferably, as an implementation mode, a feeding channel is arranged between the feeding mechanism and the winding mechanism, the feeding mechanism is used for feeding materials to a feeding hole of the feeding channel, and the gap can be opposite to a discharging hole of the feeding channel.
Preferably, as an implementation mode, the driving shaft is provided with a first arc surface part, the first arc surface part faces to a feeding channel when the driven shaft is reset, and the first arc surface part inclines from the inside of the crack to the outside towards one side away from the driven shaft; the driven shaft is provided with a second arc surface portion, the second arc surface portion faces towards the feeding channel when the driven shaft resets, and the second arc surface portion inclines towards one side, deviating from the driven shaft, from the inside of the crack to the outside.
Preferably, as an implementation mode, the driven shaft includes a shaft body and a damping hinge, one end of the damping hinge is installed on the installation seat, and the other end of the damping hinge is connected with the shaft body.
Preferably, as an embodiment, a bearing is installed between the shaft body and the mounting seat.
Preferably, as an implementation mode, the consumable vein pressing assembly further comprises a controller, the driver is electrically connected with the controller, and the controller is used for controlling the driver to drive the driving shaft to rotate clockwise for one turn after the sanitary consumable enters the crack.
Preferably, as an implementation mode, the consumable pulse pressing assembly further comprises a pulse pressing switch, the pulse pressing switch is electrically connected with the controller, and the controller is used for controlling the driver to drive the driving shaft to rotate forwards when the pulse pressing switch is turned on; the controller is used for controlling the driver to stop running when the load borne by the driver reaches a preset value.
Preferably, as an implementation manner, the controller starts timing when the driver stops driving the driving shaft to rotate forward, and controls the driver to drive the driving shaft to rotate backward after timing is finished;
or, the pulse component is pressed to consumptive material still includes the pressure release switch, pressure release switch with the controller electricity is connected, the controller is used for after pressure release switch opens, control the driver drive the driving shaft reversal.
Preferably, as an implementable mode, the driver is a motor, the consumable tourniquet assembly further comprises a zero calibration photoelectric switch which is fixedly arranged, and the driving shaft is fixedly connected with an induction rod.
The induction rod can trigger the zero calibration photoelectric switch when the direction of the driving shaft is the same as the initial state, and the zero calibration photoelectric switch is electrically connected with the controller.
Correspondingly, the utility model also provides a pressure arteries and veins ware, it includes that above-mentioned consumptive material presses arteries and veins subassembly.
The utility model provides a pulse subassembly and pressure arteries and veins ware are pressed to consumptive material's beneficial effect is:
the utility model provides a arteries and veins subassembly is pressed to consumptive material mainly comprises feed mechanism and winding mechanism, and feed mechanism can be toward winding mechanism department supplies with sanitary consumptive material. The winding mechanism comprises a driver, a mounting seat, a driving shaft and a driven shaft, the driver and the mounting seat are fixedly arranged, and the driver is in transmission connection with the driving shaft so as to drive the driving shaft to rotate around a rotation center line; the driven shaft is a damping rotating shaft and is arranged on the mounting seat, the rotation center line of the driving shaft is superposed with the rotation center line of the driven shaft, the driving shaft and the driven shaft are arranged along the direction perpendicular to the rotation center line, and a crack is reserved between the driving shaft and the driven shaft.
When pulse pressing is needed, the feeding mechanism is started, the sanitary consumables are supplied to the winding mechanism by the feeding mechanism, and the end parts of the sanitary consumables are inserted into a crack between the driving shaft and the driven shaft; then, the driver is started, the driving shaft is driven by the driver to rotate forwards around the rotation center line (it should be noted that the forward rotation refers to that the edge of the driving shaft rotates towards the pulse pressing area after passing through one side of the supplied materials of the sanitary consumables), at the moment, the driven shaft does not rotate, therefore, the gap between the driving shaft and the driven shaft becomes narrower and narrower until the driving shaft and the driven shaft clamp the sanitary consumables, and then the driver continues to drive the driving shaft to rotate forwards, and the driven shaft rotates around the rotation center line of the driving shaft under the pushing of the driving shaft. The driven shaft is a damping rotating shaft, so that in the process of pushing the driven shaft to rotate by the driving shaft, the driven shaft cannot be separated from the driving shaft, namely the driving shaft and the driven shaft synchronously rotate around the rotation center line of the driving shaft and the driven shaft, and the driving shaft and the driven shaft can apply certain extrusion force to the sanitary consumables from two sides; when the sanitary consumable is wound for more than half a turn (the specific winding number can be selected according to the requirement), the driver stops running, and the feeding mechanism is kept to feed continuously. Because of the edge of driving shaft behind the supplied material one side of health consumptive material, can rotate towards the pressure arteries and veins region, so after the driver stops the operation, the health consumptive material just can form the loop configuration in the pressure arteries and veins region, patient's arm can stretch into in the loop configuration that is enclosed by the health consumptive material, later, make feeding mechanism stop the feed and the auto-lock, and restart the driver, utilize the driver drive driving shaft to continue corotation, make the health consumptive material enclose into the loop configuration the part can be convoluteed to the periphery of driving shaft and driven shaft, thereby, annular health consumptive material can shrink gradually, finally, wrap up patient's arm, and produce certain pressure with patient's arm, when reaching the pressure arteries and veins dynamics, make the driver stop the operation, thereby, alright utilize the health consumptive material to realize the purpose of pressing arteries and veins.
After the puncture is finished, the driver is started, the driving shaft is driven to rotate reversely by the driver (the reverse rotation refers to that the edge of the driving shaft rotates in the direction departing from the vein pressing area after passing through one side of the supplied materials of the sanitary consumables), at the moment, the driven shaft rotates reversely along with the driving shaft, and in the process, the annular sanitary consumables are gradually enlarged, so that the arm of a patient can be smoothly drawn out from the annular sanitary consumables; after the driven shaft reversely rotates to the initial state, the driving shaft positively rotates until the driving shaft returns to the initial position, in the process, the driven shaft does not rotate along with the driving shaft any more, but stops at the initial position, at the moment, a crack between the driving shaft and the driven shaft can be opened, so that the end part of the sanitary consumable material can lose the clamping force of the driving shaft and the driven shaft, and the used sanitary consumable material can be smoothly taken down to prepare for next pulse pressing.
Therefore, the utility model provides a arteries and veins subassembly is pressed to consumptive material, the size of annular health consumptive material, and adjustable range is very wide, and adaptability is strong, can satisfy all patients' pressure arteries and veins demand basically.
The utility model provides a vein pressing device, which comprises the consumable vein pressing component.
Therefore, the utility model provides a pressure arteries and veins ware has all advantages of above-mentioned consumptive material pressure arteries and veins subassembly, and adjustable size scope is very wide, and adaptability is strong, can satisfy all patients' pressure arteries and veins demand basically.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic cross-sectional view of a tourniquet according to an embodiment of the present invention;
FIG. 2 is an enlarged view of portion A of FIG. 1;
fig. 3 is a schematic perspective view of a consumable tourniquet assembly according to an embodiment of the present invention;
fig. 4 is a schematic view of a cross-sectional structure of the consumable tourniquet assembly according to an embodiment of the present invention.
Icon:
100-a feeding mechanism;
200-a winding mechanism; 210-a driver; 220-a mounting seat; 230-a drive shaft; 231-a first arc surface portion; 240-driven shaft; 241-a second cambered surface portion; 250-crack; 260-reduction box; 270-induction rod;
300-a feed channel;
400-zero calibration photoelectric switch;
500-V-shaped supporting die.
Detailed Description
The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
In the description of the present invention, it should be noted that the terms "center", "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
The present invention will be described in further detail below with reference to specific embodiments and with reference to the attached drawings.
Referring to fig. 1-4, the embodiment provides a consumable vein pressing assembly, which mainly comprises a feeding mechanism 100 and a winding mechanism 200, wherein the feeding mechanism 100 can feed the sanitary consumables to the winding mechanism 200. The winding mechanism 200 comprises a driver 210, a mounting seat 220, a driving shaft 230 and a driven shaft 240, wherein the driver 210 and the mounting seat 220 are fixedly arranged, and the driver 210 is in transmission connection with the driving shaft 230 so as to drive the driving shaft 230 to rotate around a rotation center line; the driven shaft 240 is a damping rotating shaft, the driven shaft 240 is installed on the installation base 220, a rotation center line of the driving shaft 230 coincides with a rotation center line of the driven shaft 240, the driving shaft 230 and the driven shaft 240 are arranged in a direction perpendicular to the rotation center line, and a gap 250 is left between the driving shaft 230 and the driven shaft 240.
When pulse pressing is needed, the feeding mechanism 100 is started, the sanitary consumables are supplied to the winding mechanism 200 by the feeding mechanism 100, and the end parts of the sanitary consumables are inserted into the crack 250 between the driving shaft 230 and the driven shaft 240; then, the driver 210 is started, the driving shaft 230 is driven by the driver 210 to rotate forward around the rotation center line (the forward rotation here means that the edge of the driving shaft 230 rotates towards the pulse pressing area after passing through one side of the supplied material of the sanitary consumable), at this time, the driven shaft 240 keeps rotating, so that the gap 250 between the driving shaft 230 and the driven shaft 240 becomes narrower and narrower until the driving shaft 230 and the driven shaft 240 clamp the sanitary consumable, and then the driver 210 continues to drive the driving shaft 230 to rotate forward, and the driven shaft 240 rotates around the rotation center line thereof under the pushing of the driving shaft 230. Because the driven shaft 240 is a damping rotating shaft, in the process that the driving shaft 230 pushes the driven shaft 240 to rotate, the driven shaft 240 cannot be separated from the driving shaft 230, namely, the driving shaft 230 and the driven shaft 240 rotate synchronously around the rotation center line thereof, and the driving shaft 230 and the driven shaft 240 can apply certain extrusion force to the hygienic consumables from two sides, so that in the process that the driving shaft 230 pushes the driven shaft 240 to rotate, the end parts of the hygienic consumables can be fixed in the crack 250 between the driving shaft 230 and the driven shaft 240, and in the process that the driving shaft 230 rotates, the hygienic consumables can be wound on the periphery of the driving shaft 230 and the driven shaft 240; when the hygienic consumables are wound for more than half a turn (the specific winding number can be selected according to the requirement), the driver 210 is stopped and the feeding mechanism 100 is kept to continue feeding. Because the edge of the driving shaft 230 rotates towards the pulse pressing area after passing through one side of the supplied material of the sanitary consumable, after the driver 210 stops operating, the sanitary consumable forms a ring structure in the pulse pressing area, the arm of the patient can extend into the ring structure enclosed by the sanitary consumable, then the feeding mechanism 100 stops feeding and self-locks, and the driver 210 is restarted, the driving shaft 230 is driven by the driver 210 to rotate forward continuously, so that the part of the sanitary consumable enclosed into the ring structure can be wound around the peripheries of the driving shaft 230 and the driven shaft 240, therefore, the ring-shaped sanitary consumable shrinks gradually, finally, the arm of the patient is wrapped, a certain pressure is generated between the arm of the patient and the arm of the patient, when the pulse pressing force is reached, the driver 210 stops operating, and therefore, the pulse pressing purpose can be realized by the sanitary consumable.
After the puncture is completed, the driver 210 is started, the driving shaft 230 is driven by the driver 210 to rotate reversely (it should be noted that the reverse rotation here means that the edge of the driving shaft 230 rotates in the direction away from the vein pressing area after passing through one side of the supplied material of the sanitary consumable), at this time, the driven shaft 240 rotates reversely along with the driving shaft 230, in the process, the annular sanitary consumable is gradually enlarged, and therefore, the arm of the patient can be smoothly drawn out from the annular sanitary consumable; after the driven shaft 240 rotates reversely to the initial state, the driving shaft 230 rotates forward until it returns to its initial position, in this process, the driven shaft 240 does not rotate along with the driving shaft 230 but stays at the initial position (see fig. 2 and 4), at this time, the gap 250 between the driving shaft 230 and the driven shaft 240 is opened, so that the end of the sanitary consumable loses the clamping force of the driving shaft 230 and the driven shaft 240, and the used sanitary consumable can be taken down smoothly to prepare for next pulse compression.
Therefore, the consumptive material pressure pulse subassembly that this embodiment provided, the size of annular health consumptive material, adjustable range is very wide, and adaptability is strong, can satisfy all patients' demand basically.
Specifically, can add V-arrangement die 500 that the opening faced up in winding mechanism 200's top, so, after driver 210 drive driving shaft 230 rotated the round and stopped, the health consumptive material of continuous supply can get into in the space that V-arrangement die 500 encloses, under V-arrangement die 500's bearing, the health consumptive material is difficult for collapsing, that is to say, V-arrangement die 500 can make the ring that the health consumptive material encloses more be close circularly, thereby, patient's arm can stretch into the intra-ring that the health consumptive material encloses more smoothly.
Specifically, referring to fig. 1, a feeding channel 300 may be further added between the feeding mechanism 100 and the winding mechanism 200, and the feeding mechanism 100 can feed materials to a feeding port of the feeding channel 300, that is, the sanitary consumables can enter the feeding channel 300 from the feeding port of the feeding channel 300, can travel along the feeding channel 300, and finally extend out from a discharging port of the feeding channel 300; when the driving shaft 230 and the driven shaft 240 are both in the initial position, the crack 250 between the driving shaft 230 and the driven shaft 240 is opposite to the discharge hole of the feeding channel 300, so that the sanitary consumables can smoothly extend into the crack 250 between the driving shaft 230 and the driven shaft 240 after extending out of the discharge hole of the feeding channel 300, and the use is convenient without human intervention.
Further, referring to fig. 2, the driving shaft 230 has a first arc portion 231, the first arc portion 231 faces the feeding path 300 when the driven shaft 240 is reset, and the first arc portion 231 is inclined from the inside of the nip 250 to the outside toward the side away from the driven shaft 240; correspondingly, the driven shaft 240 is provided with the second arc-shaped surface portion 241, the second arc-shaped surface portion 241 faces the feeding channel 300 when the driven shaft 240 is reset, and the second arc-shaped surface portion 241 is inclined towards one side departing from the driven shaft 240 from the inside of the crack 250 to the outside, so that in an initial state, the crack 250 can form a flaring towards the incoming material direction of the sanitary consumables, and therefore the sanitary consumables can enter the crack 250 more smoothly, and the reliability is higher.
A shaft body and a damping hinge may be provided in a specific structure of the driven shaft 240, one end of the damping hinge is mounted on the mount 220, and the other end of the damping hinge is connected to the shaft body.
Preferably, a bearing may be installed between the shaft body and the mounting seat 220, so that the bearing may be used to bear a tensile force, thereby improving structural stability.
Still can add the controller in the concrete structure of pulse subassembly is pressed to the consumptive material, be connected above-mentioned driver 210 with the controller electricity, get into back in the crack 250 between driving shaft 230 and the driven shaft 240 at the health consumptive material, steerable driver 210 corotation round, thus, can wrap up the clean health consumptive material of round not with the patient contact earlier in driving shaft 230 and driven shaft 240's periphery, so that follow-up health consumptive material that has contacted with the patient can twine on last round health consumptive material, thereby, the health consumptive material is difficult for polluting driving shaft 230 and driven shaft 240, and then, difficult cross infection that takes place between the patient.
Whether the sanitary consumables extend into the gap 250 between the driving shaft 230 and the driven shaft 240 can be determined according to the length of the sanitary consumables output by the feeding mechanism 100, that is, when the length of the sanitary consumables output by the feeding mechanism 100 reaches a preset length, the controller judges that the sanitary consumables extend into the gap 250 between the driving shaft 230 and the driven shaft 240, and at the moment, the driver 210 can be controlled to drive the driving shaft 230 to rotate forwards for one circle.
In the specific structure of the consumable pulse-compressing component provided in this embodiment, a pulse-compressing switch may be disposed, and the pulse-compressing switch is electrically connected to the controller, so that when the arm of the patient extends into the annular sanitary consumable and is in a suitable pulse-compressing position, the pulse-compressing switch may be turned on, and at this time, the controller may control the driver 210 to drive the driving shaft 230 to rotate forward according to the signal of the pulse-compressing switch, so as to achieve the purpose of compressing the pulse. In the process of corotation of the driver 210, the controller can acquire the load borne by the driver 210 in real time, the load can be used for reflecting the pulse pressing force of the sanitary consumables on the arm of the patient, when the load borne by the driver 210 reaches a preset value, the pulse pressing force of the sanitary consumables on the arm of the patient reaches the due force, at the moment, the controller can control the driver 210 to stop running, and therefore the pulse pressing force does not need to be judged manually, and the pulse pressing force is very intelligent.
As an embodiment, the controller starts timing when the driver 210 stops driving the driving shaft 230 to rotate forward, and controls the driver 210 to drive the driving shaft 230 to rotate backward after timing is finished, that is, after pulse compression is finished, the controller will leave a certain time for puncturing, and then the controller will automatically determine that puncturing is finished, and control the driver 210 to drive the driving shaft 230 to rotate backward, so that the annular hygienic consumables can release the arm of the patient.
As another possible embodiment, a pressure relief switch may be additionally provided and electrically connected to the controller, and after the puncture is completed, the pressure relief switch may be turned on, and then the controller controls the driver 210 to drive the driving shaft 230 to rotate reversely, so that the annular hygienic consumables may loosen the arm of the patient.
A motor may be used as the driver 210.
A reduction gearbox 260 may be provided between the motor and the drive shaft 230 to coaxially fix the output shaft of the motor and the input end gear of the reduction gearbox 260 and to coaxially fix the output end gear of the reduction gearbox 260 and the drive shaft 230.
Preferably, a zero calibration photoelectric switch 400 is additionally arranged in the consumable pulse compression assembly provided by this embodiment, the zero calibration photoelectric switch 400 is fixedly arranged, and meanwhile, the sensing rod 270 is fixedly connected to the driving shaft 230, and when the orientation of the driving shaft 230 is the same as the initial state, the sensing rod 270 can trigger the zero calibration photoelectric switch 400, that is, the zero calibration photoelectric switch 400 is triggered once when the motor drives the driving shaft 230 to rotate for one turn; the zero calibration photoelectric switch 400 is electrically connected to a controller, so that the controller is used to accumulate the triggering times of the zero calibration photoelectric switch 400 and obtain the rotation angle of the encoder of the motor.
In the process of forward rotation of the motor, if the zero calibration photoelectric switch 400 is triggered N times, in the process of reverse rotation of the motor, when the zero calibration photoelectric switch 400 is triggered N +1 times, the controller can judge that the driving shaft 230 is reset, at this time, the controller continues to control the reverse rotation of the motor, and obtains the rotation angle of an encoder of the motor; when the driven shaft 240 is reset under the pushing of the driving shaft 230, when the rotation angle of the encoder of the motor just reaches a first preset angle, at this time, the controller controls the motor to rotate forward, and obtains the rotation angle of the encoder of the motor again, and in the process, the driven shaft 240 does not rotate forward along with the driving shaft 230 any more, but keeps a reset state; when the zero calibration photoelectric switch 400 is triggered for N +2 times, the controller can judge that the driving shaft 230 is reset again, at the moment, the controller controls the motor to stop running, so that the automatic reset of the driving shaft 230 and the driven shaft 240 can be completed, and the automation degree is high.
The embodiment also provides a tourniquet which comprises the consumable tourniquet assembly.
Therefore, the tourniquet provided by the embodiment has all the advantages of the consumable tourniquet assembly, has a wide adjustable size range and strong adaptability, and can basically meet the tourniquet requirements of all patients.
To sum up, the utility model discloses a consumptive material pressure arteries and veins subassembly and pressure arteries and veins ware, it has overcome a great deal of technical defect of traditional pressure arteries and veins ware. The consumptive material tourniquet subassembly and the tourniquet ware that this embodiment provided, adjustable size range is very wide, and adaptability is strong, can satisfy all patients' tourniquet demands basically.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.
Claims (10)
1. The consumable vein pressing assembly is characterized by comprising a feeding mechanism (100) and a winding mechanism (200), wherein the feeding mechanism (100) is used for supplying sanitary consumables to the winding mechanism (200) and can be self-locked when the feeding is stopped;
the winding mechanism (200) comprises a driver (210), an installation seat (220), a driving shaft (230) and a driven shaft (240), the driver (210) and the installation seat (220) are fixedly arranged, and the driver (210) is in transmission connection with the driving shaft (230) and is used for driving the driving shaft (230) to rotate around a rotation center line; the damping device is characterized in that the driven shaft (240) is a damping rotating shaft, the driven shaft (240) is installed on the installation seat (220), the rotating center line of the driving shaft (230) is overlapped with the rotating center line of the driven shaft (240), the driving shaft (230) and the driven shaft (240) are arranged in the direction perpendicular to the rotating center line, and a crack (250) exists between the driving shaft (230) and the driven shaft (240).
2. The consumable vein assembly according to claim 1, further comprising a V-shaped support die (500), wherein the V-shaped support die (500) is located above the winding mechanism (200), and an opening of the V-shaped support die (500) faces upward.
3. The consumable vein pressing assembly according to claim 1, wherein a feeding channel (300) is arranged between the feeding mechanism (100) and the winding mechanism (200), the feeding mechanism (100) is used for feeding materials to a feeding port of the feeding channel (300), and the gap (250) can be opposite to a discharging port of the feeding channel (300).
4. The consumable tourniquet assembly of claim 3, wherein the drive shaft (230) has a first arcuate portion (231), the first arcuate portion (231) facing the feed channel (300) when the driven shaft (240) is repositioned, the first arcuate portion (231) being inclined from inside the nip (250) to outside towards a side facing away from the driven shaft (240); the driven shaft (240) is provided with a second arc surface portion (241), the second arc surface portion (241) faces towards the feeding channel (300) when the driven shaft (240) is reset, and the second arc surface portion (241) is inclined towards one side away from the driven shaft (240) from the inside of the crack (250) to the outside.
5. The consumable tourniquet assembly of claim 1, wherein the driven shaft (240) comprises a shaft body and a damping hinge, one end of the damping hinge is mounted on the mounting block (220), and the other end of the damping hinge is connected to the shaft body;
and/or a bearing is arranged between the driven shaft (240) and the mounting seat (220).
6. The consumable vein assembly according to any one of claims 1 to 5, further comprising a controller, wherein the driver (210) is electrically connected to the controller, and the controller is configured to control the driver (210) to drive the driving shaft (230) to rotate in one rotation after the sanitary consumable enters the nip (250).
7. The consumable tourniquet assembly of claim 6, further comprising a tourniquet switch electrically connected to the controller, the controller configured to control the driver (210) to drive the drive shaft (230) in a forward direction when the tourniquet switch is turned on; the controller is used for controlling the driver (210) to stop running when the load borne by the driver (210) reaches a preset value.
8. The consumable pulse compression assembly of claim 7, wherein the controller starts timing when the driver (210) stops driving the driving shaft (230) to rotate forward, and controls the driver (210) to drive the driving shaft (230) to rotate backward after timing is finished;
or, the consumable pulse pressing assembly further comprises a pressure relief switch, the pressure relief switch is electrically connected with the controller, and the controller is used for controlling the driver (210) to drive the driving shaft (230) to rotate reversely after the pressure relief switch is turned on.
9. The consumable tourniquet assembly of claim 6, wherein the driver (210) is a motor, the consumable tourniquet assembly further comprises a fixed zero calibration photoelectric switch (400), and the driving shaft (230) is fixedly connected with an induction rod (270);
the induction rod (270) can trigger the zero calibration photoelectric switch (400) when the orientation of the driving shaft (230) is the same as the initial state, and the zero calibration photoelectric switch (400) is electrically connected with the controller.
10. A tourniquet comprising a consumable tourniquet assembly according to any of claims 1 to 9.
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CN202022635403.7U CN213606644U (en) | 2020-11-13 | 2020-11-13 | Consumable vein pressing assembly and vein pressing device |
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CN202022635403.7U CN213606644U (en) | 2020-11-13 | 2020-11-13 | Consumable vein pressing assembly and vein pressing device |
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CN112244930A (en) * | 2020-11-13 | 2021-01-22 | 海宁哈工我耀机器人有限公司 | Consumable vein pressing assembly and vein pressing device |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN112244930A (en) * | 2020-11-13 | 2021-01-22 | 海宁哈工我耀机器人有限公司 | Consumable vein pressing assembly and vein pressing device |
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