CN113598828A - Doppler fetal rhythm instrument automatically coated with coupling agent and use method - Google Patents
Doppler fetal rhythm instrument automatically coated with coupling agent and use method Download PDFInfo
- Publication number
- CN113598828A CN113598828A CN202110907666.5A CN202110907666A CN113598828A CN 113598828 A CN113598828 A CN 113598828A CN 202110907666 A CN202110907666 A CN 202110907666A CN 113598828 A CN113598828 A CN 113598828A
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- couplant
- limiting
- smearing
- belt pulley
- positioning
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- 238000000034 method Methods 0.000 title claims abstract description 12
- 230000001605 fetal effect Effects 0.000 title claims description 25
- 230000033764 rhythmic process Effects 0.000 title claims description 22
- 239000007822 coupling agent Substances 0.000 title description 12
- 230000007246 mechanism Effects 0.000 claims abstract description 90
- 210000002458 fetal heart Anatomy 0.000 claims abstract description 43
- 239000000523 sample Substances 0.000 claims description 30
- 238000001514 detection method Methods 0.000 claims description 24
- 230000005540 biological transmission Effects 0.000 claims description 6
- 239000003973 paint Substances 0.000 claims description 4
- 230000000694 effects Effects 0.000 claims description 2
- 239000011248 coating agent Substances 0.000 abstract description 3
- 238000000576 coating method Methods 0.000 abstract description 3
- 238000012544 monitoring process Methods 0.000 description 7
- 230000033001 locomotion Effects 0.000 description 6
- 230000008569 process Effects 0.000 description 2
- 210000001015 abdomen Anatomy 0.000 description 1
- 230000002159 abnormal effect Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B8/00—Diagnosis using ultrasonic, sonic or infrasonic waves
- A61B8/02—Measuring pulse or heart rate
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B8/00—Diagnosis using ultrasonic, sonic or infrasonic waves
- A61B8/42—Details of probe positioning or probe attachment to the patient
- A61B8/4272—Details of probe positioning or probe attachment to the patient involving the acoustic interface between the transducer and the tissue
- A61B8/4281—Details of probe positioning or probe attachment to the patient involving the acoustic interface between the transducer and the tissue characterised by sound-transmitting media or devices for coupling the transducer to the tissue
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2503/00—Evaluating a particular growth phase or type of persons or animals
- A61B2503/02—Foetus
Abstract
The Doppler fetal heart monitor comprises a fetal heart monitor body, wherein a supply mechanism is fixedly arranged on one side of the fetal heart monitor body and comprises a pushing block, a pushing rod, a storage groove, a piston, a mechanism shell and a supply pipeline, the supply mechanism is connected with a limiting mechanism, the limiting mechanism comprises a limiting baffle, a movable groove, a limiting seat, a limiting screw hole and a limiting screw rod, a positioning mechanism is fixedly arranged on one side of the supply mechanism on the fetal heart monitor body and comprises a positioning base, a supply port, a movable notch, a limiting block, a spring and a positioning groove, a smearing mechanism is arranged at the bottom of the positioning mechanism, and the smearing mechanism comprises a first belt pulley, a driving motor, a driving belt, a smearing flying disc, a driving shaft, a second belt pulley and a bearing. The invention discloses a Doppler fetal heart monitor capable of automatically coating a couplant and a using method thereof, belongs to the field of fetal heart monitors, and can quickly coat the couplant.
Description
Technical Field
The invention relates to the field of fetal heart meters, in particular to a Doppler fetal heart meter automatically coated with a coupling agent and a using method thereof.
Background
The fetal heart monitor is also called a fetal heart rate monitor, can acquire fetal heart motion information from the abdomen of a pregnant woman according to the Doppler principle, is not used for continuous monitoring, and only acquires the fetal heart motion information. The fetal heart monitoring system is mainly used as an electronic instrument for fetal heart monitoring, and is generally used for fetal heart monitoring in a obstetrical hospital, monitoring whether fetal movement is abnormal or not and performing corresponding treatment according to fetal heart conditions. The new generation of intelligent fetal heart monitor covers the functions of the traditional fetal heart monitor, not only listens to fetal heart, but also can reach the standard of family monitoring fetal heart, draw a monitoring curve, count fetal heart rate and fetal movement, share the fetal heart rate and fetal movement, carry out remote assistance for doctors and the like, and is combined with mobile phone software for use. When the fetal heart monitor is used, a couplant needs to be coated on a detection probe, the conventional couplant is generally coated in a manual mode, and the coating speed is low and uneven.
Disclosure of Invention
The invention mainly aims to provide a Doppler fetal rhythm instrument automatically coated with a coupling agent and a using method thereof, which can effectively solve the problems in the background art.
In order to achieve the purpose, the invention adopts the technical scheme that:
a Doppler fetal rhythm instrument capable of automatically smearing couplant comprises a fetal rhythm instrument body, wherein a display screen is fixedly arranged on the upper surface of the fetal rhythm instrument body, a control button is fixedly arranged on one side of the display screen on the upper surface of the fetal rhythm instrument body, a data line is arranged on the fetal rhythm instrument body, a detection probe is fixedly arranged at the tail end of the data line, a supply mechanism is fixedly arranged on one side of the fetal rhythm instrument body and comprises a pushing block, a pushing rod, a storage groove, a piston, a mechanism shell and a supply pipeline, the supply mechanism is connected with a limiting mechanism, the limiting mechanism comprises a limiting baffle, a movable groove, a limiting seat, a limiting screw hole and a limiting screw rod, a positioning mechanism is fixedly arranged on one side of the supply mechanism on the fetal rhythm instrument body and comprises a positioning base, a supply port, a movable opening, a limiting block, a spring and a positioning groove, the bottom of the positioning mechanism is provided with a smearing mechanism, and the smearing mechanism comprises a first belt pulley, a driving motor, a transmission belt, a smearing flying disc, a driving shaft, a second belt pulley and a bearing.
Preferably, the mechanism shell is fixedly installed on one side of the fetus-voice meter body, a storage groove is fixedly installed in the mechanism shell, a piston is movably installed in the storage groove, a push rod is fixedly installed on the piston, a pushing block is fixedly installed at the tail end of the push rod, and a supply pipeline is fixedly installed at the bottom of the storage groove.
Preferably, the mechanism shell is fixedly installed on one side of the fetus-voice meter body through screws, the storage groove is installed on one side of the fetus-voice meter body through the mechanism shell, one end of the supply pipeline is connected to the storage groove, and the other end of the supply pipeline is connected to a supply port on the positioning mechanism.
Preferably, the mechanism shell is fixedly installed on one side of the fetus-voice meter body through screws, the storage groove is installed on one side of the fetus-voice meter body through the mechanism shell, one end of the supply pipeline is connected to the storage groove, and the other end of the supply pipeline is connected to a supply port on the positioning mechanism.
Preferably, the limiting seat is installed on the push rod, a limiting baffle is fixedly installed on the limiting seat, a movable groove is formed in the middle of the limiting seat, a limiting screw hole is formed in one side of the limiting seat, and a limiting screw rod is installed in the limiting screw hole in a threaded mode. The limiting seat is movably mounted on the push rod through a movable groove, the limiting screw is connected to the limiting seat through a limiting screw hole, and the limiting seat is limited on the push rod through the limiting screw.
Preferably, the positioning base is fixedly installed on one side of the fetus-voice meter body, a positioning groove is formed in the positioning base, a movable opening is formed in the positioning groove, a spring is fixedly installed in the movable opening, a limiting block is movably installed above the spring in the movable opening, and a supply opening is formed in the positioning base.
Preferably, the supply pipeline is connected to the positioning base through a supply opening, the limiting block is movably mounted in the positioning groove through a movable opening, one end of the spring is connected to the bottom of the positioning groove, the other end of the spring is connected to the limiting block, connecting support legs are arranged on two sides of the detection probe, and the connecting support legs are connected to the positioning base through the movable opening.
Preferably, bearing fixed mounting is in positioning groove bottom, fixed mounting has the drive shaft in the bearing, drive shaft intermediate position fixed mounting has the second belt pulley, drive shaft top fixed mounting paints the frisbee, driving motor fixed mounting is in fetal heart appearance organism, driving motor's the terminal fixed mounting of output has first belt pulley, install driving belt between first belt pulley and the second belt pulley.
Preferably, the drive shaft is movably mounted in the positioning groove through a bearing, and the smearing flying disc is movably mounted in the positioning groove through the drive shaft.
A use method of a Doppler fetal rhythm instrument capable of automatically smearing couplant comprises the following steps:
the method comprises the following steps: the piston is taken out firstly, the couplant can be filled into the storage groove after the piston is taken out, the push rod can be pushed after the couplant is filled into the storage groove, the piston can move towards the inside of the storage groove after the push rod is pushed, the couplant in the storage groove can be extruded after the piston moves towards the inside of the storage groove, and the couplant can enter the positioning groove through the supply pipeline after being extruded.
Step two: the couplant can start driving motor after being squeezed into the positioning groove, and driving motor can drive first belt pulley and rotate after starting driving motor, can drive the rotation of second belt pulley through driving belt after first belt pulley rotates, can drive through the drive shaft after the rotation of second belt pulley and scribble the frisby and rotate.
Step three: the detection probe can be pressed downwards after the smearing flying disc rotates, the tail end of the detection probe can be in contact with the couplant smeared on the smearing flying disc after the detection probe is pressed downwards, and the smearing flying disc rotating at a high speed can evenly smear the couplant on the tail end of the detection probe.
Compared with the prior art, the invention has the following beneficial effects:
in the invention, a coupling agent can be quickly injected into the positioning groove through the arranged supply mechanism, the coupling agent can fall onto the smearing flying disc after being injected into the positioning groove, the driving motor can be started after the coupling agent flows onto the smearing flying disc, the driving motor can drive the first belt pulley to rotate after the driving motor is started, the second belt pulley can be driven to rotate through the driving belt after the first belt pulley rotates, the smearing flying disc can be driven to rotate through the driving shaft after the second belt pulley rotates, the detection probe can be pressed downwards in the high-speed rotation process of the smearing flying disc, the tail end of the detection probe can be contacted with the coupling agent on the smearing flying disc after the detection probe is pressed downwards, so that the coupling agent is quickly and uniformly smeared on the detection probe, the limit screw can be screwed down in the use process, and the limit baffle can block the push rod from moving inwards after the limit screw is screwed down, thereby preventing the coupling agent from being extruded randomly.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of the connection between the limiting mechanism and the supply mechanism of the present invention;
FIG. 3 is a schematic view of a supply mechanism of the present invention;
FIG. 4 is a schematic view of a spacing mechanism of the present invention;
FIG. 5 is a schematic view of the connection between the positioning mechanism and the applying mechanism of the present invention
FIG. 6 is a schematic view of the application mechanism of the present invention;
fig. 7 is a schematic view of the positioning mechanism of the present invention.
In the figure: 1. a fetal heart monitor body; 2. a control key; 3. a display screen; 4. detecting a probe; 5. a data line; 6. a limiting mechanism; 601. a limit baffle; 602. a movable groove; 603. a limiting seat; 604. a limiting screw hole; 605. a limit screw; 7. a supply mechanism; 701. a pushing block; 702. a push rod; 703. a storage recess; 704. a piston; 705. a mechanism housing; 706. a supply conduit; 8. a positioning mechanism; 801. positioning a base; 802. a supply port; 803. a movable gap; 804. a limiting block; 805. a spring; 806. a positioning groove; 9. a smearing mechanism; 901. a first pulley; 902. a drive motor; 903. a drive belt; 904. coating a flying disc; 905. a drive shaft; 906. a second pulley; 907. and a bearing.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
As shown in fig. 1-7, a doppler fetal heart monitor capable of automatically smearing couplant comprises a fetal heart monitor body 1, a display screen 3 is fixedly installed on the upper surface of the fetal heart monitor body 1, a control button 2 is fixedly installed on one side of the display screen 3 on the upper surface of the fetal heart monitor body 1, a data line 5 is installed on the fetal heart monitor body 1, a detection probe 4 is fixedly installed at the tail end of the data line 5, a supply mechanism 7 is fixedly installed on one side of the fetal heart monitor body 1, the supply mechanism 7 comprises a push block 701, a push rod 702, a storage groove 703, a piston 704, a mechanism housing 705 and a supply pipeline 706, the supply mechanism 7 is connected with a limiting mechanism 6, the limiting mechanism 6 comprises a limiting baffle 601, a movable groove 602, a limiting seat 603, a limiting screw hole 604 and a limiting screw rod, a positioning mechanism 8 is fixedly installed on one side of the fetal heart monitor body 1 on the supply mechanism 7, the positioning mechanism 8 comprises a positioning base 801, The device comprises a supply port 802, a movable notch 803, a limiting block 804, a spring 805 and a positioning groove 806, wherein the bottom of a positioning mechanism 8 is provided with an applying mechanism 9, and the applying mechanism 9 comprises a first belt pulley 901, a driving motor 902, a driving belt 903, an applying flying disc 904, a driving shaft 905, a second belt pulley 906 and a bearing 907.
In this embodiment, in order to uniformly apply the couplant on the detection probe 4, a supply mechanism 7 is fixedly installed on one side of the fetal heart monitor body 1, the supply mechanism 7 includes a push block 701, a push rod 702, a storage groove 703, a piston 704, a mechanism housing 705 and a supply pipeline 706, a positioning mechanism 8 is fixedly installed on one side of the supply mechanism 7 on the fetal heart monitor body 1, the positioning mechanism 8 includes a positioning base 801, a supply port 802, a movable opening 803, a limit block 804, a spring 805 and a positioning groove 806, an application mechanism 9 is installed at the bottom of the positioning mechanism 8, the application mechanism 9 includes a first belt pulley 901, a driving motor 902, a transmission belt 903, an application flying disc 904, a driving shaft 905, a second belt pulley 906 and a bearing 907, the mechanism housing 705 is fixedly installed on one side of the fetal heart monitor body 1, the storage groove 703 is fixedly installed in the mechanism housing 705, the piston 704 is movably installed in the storage groove 703, a push rod 702 is fixedly arranged on a piston 704, a push block 701 is fixedly arranged at the tail end of the push rod 702, a supply pipeline 706 is fixedly arranged at the bottom of a storage groove 703, a mechanism shell 705 is fixedly arranged at one side of a fetal heart apparatus body 1 through screws, the storage groove 703 is arranged at one side of the fetal heart apparatus body 1 through the mechanism shell 705, one end of the supply pipeline 706 is connected on the storage groove 703, the other end of the supply pipeline 706 is connected in a supply port 802 on a positioning mechanism 8, a positioning base 801 is fixedly arranged at one side of the fetal heart apparatus body 1, a positioning groove 806 is arranged on the positioning base 801, a movable notch 803 is arranged in the positioning groove 806, a spring 805 is fixedly arranged in the movable notch 803, a limit block 804 is movably arranged above the spring 805 in the movable notch 803, a supply port 802 is arranged on the positioning base 801, the supply pipeline 706 is connected on the positioning base 801 through the supply port 802, and the limit block 804 is movably arranged in the positioning groove 806 through the movable notch 803, one end of a spring 805 is connected to the bottom of a positioning groove 806, the other end of the spring 805 is connected to a limiting block 804, two sides of a detection probe 4 are provided with connecting support legs, the connecting support legs are connected to a positioning base 801 through movable notches 803, a bearing 907 is fixedly arranged at the bottom of the positioning groove 806, a driving shaft 905 is fixedly arranged in the bearing 907, a second belt pulley 906 is fixedly arranged in the middle of the driving shaft 905, the top end of the driving shaft 905 is fixedly provided with a smearing flying disc 904, the driving motor 902 is fixedly arranged in the fetal heart instrument body 1, the output tail end of the driving motor 902 is fixedly provided with a first belt pulley 901, a transmission belt 903 is arranged between the first belt pulley 901 and the second belt pulley 906, the driving shaft 905 is movably arranged in the positioning groove 806 through the bearing 907, the smearing flying disc 904 is movably arranged in the positioning groove 806 through the driving shaft 905, a coupling agent can be quickly injected into the positioning groove 806 through a supply mechanism 7, the couplant can drop to scribble on the frisbee 904 after pouring into in the positioning groove 806, the couplant can start driving motor 902 after flowing on scribbling frisbee 904, driving motor 902 can drive first belt pulley 901 and rotate after starting driving motor 902, can drive second belt pulley 906 through driving belt 903 after first belt pulley 901 rotates and rotate, can drive to scribble frisbee 904 through drive shaft 905 and rotate after second belt pulley 906 rotates, scribble the high-speed in-process of rotating of frisbee 904 and can press test probe 4 downwards, press test probe 4's the terminal of test probe 4 and scribble the couplant on frisbee 904 and contact downwards after test probe 4 to scribble the couplant on test probe 4 fast evenly.
In this embodiment, in order to prevent the coupling agent from being extruded out at will, the supply mechanism 7 is connected with a limit mechanism 6, the limit mechanism 6 comprises a limit baffle 601 and a movable groove 602, spacing seat 603, spacing screw 604 and stop screw 605, spacing seat 603 is installed on push rod 702, fixed mounting has stop baffle 601 on spacing seat 603, movable groove 602 has been seted up to spacing seat 603 intermediate position, spacing screw 604 has been seted up to spacing seat 603 one side, stop screw 605 is installed to stop screw 604 internal thread, spacing seat 603 is through movable groove 602 movable mounting on push rod 702, stop screw 605 is connected on spacing seat 603 through stop screw 604, spacing seat 603 passes through stop screw 605 restriction on push rod 702, stop screw 605 can be screwed up in the use, stop baffle 601 can hinder the inboard motion of push rod 702 after screwing up stop screw 605, thereby prevent that the couplant from being extruded at will.
It should be noted that, when the doppler fetal rhythm instrument for automatically smearing couplant of the present invention is used, firstly, the piston 704 is taken out, the couplant can be filled into the storage groove 703 after the piston 704 is taken out, the push rod 702 can be pushed after the couplant is filled into the storage groove 703, the piston 704 can move towards the inside of the storage groove 703 after the push rod 702 is pushed, the couplant in the storage groove 703 can be extruded after the piston 704 moves towards the inside of the storage groove 703, the couplant can enter the positioning groove 806 through the supply pipe 706 after being extruded, the driving motor 902 can be started after the couplant is extruded into the positioning groove 806, the driving motor 902 can drive the first pulley 901 to rotate after the driving motor 902 is started, the second pulley 906 can be driven to rotate through the transmission belt 903 after the first pulley 901 rotates, the second pulley 906 can drive the smearing flying disc 904 to rotate through the driving shaft 905 after the second pulley 906 rotates, after the smearing flying disc 904 rotates, the detection probe 4 can be pressed downwards, after the detection probe 4 is pressed downwards, the tail end of the detection probe 4 can be in contact with the couplant on the smearing flying disc 904, and at the moment, the smearing flying disc 904 rotating at a high speed can evenly smear the couplant on the tail end of the detection probe 4.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. The utility model provides an automatic scribble Doppler fetal rhythm appearance of couplant which characterized in that: the device comprises a fetus-voice meter body (1), wherein a display screen (3) is fixedly arranged on the upper surface of the fetus-voice meter body (1), a control key (2) is fixedly arranged on one side of the display screen (3) on the upper surface of the fetus-voice meter body (1), a data line (5) is arranged on the fetus-voice meter body (1), a detection probe (4) is fixedly arranged at the tail end of the data line (5), a supply mechanism (7) is fixedly arranged on one side of the fetus-voice meter body (1), the supply mechanism (7) comprises a pushing block (701), a push rod (702), a storage groove (703), a piston (704), a mechanism shell (705) and a supply pipeline (706), a limit mechanism (6) is connected onto the supply mechanism (7), and the limit mechanism (6) comprises a limit baffle (601), a movable groove (602), a limit seat (603), a limit screw hole (604) and a limit screw (605), locating mechanism (8) is fixedly installed on one side of supply mechanism (7) on child heart appearance organism (1), locating mechanism (8) is including location base (801), supply mouth (802), activity opening (803), stopper (804), spring (805) and positioning groove (806), locating mechanism (8) bottom is equipped with paints mechanism (9), paint mechanism (9) including first belt pulley (901), driving motor (902), driving belt (903), paint frisby (904), drive shaft (905), second belt pulley (906) and bearing (907).
2. The Doppler fetal rhythm instrument capable of automatically smearing couplant according to claim 1, wherein: the mechanism comprises a mechanism shell (705), a storage groove (703) is fixedly mounted in the mechanism shell (705), a piston (704) is movably mounted in the storage groove (703), a push rod (702) is fixedly mounted on the piston (704), a push block (701) is fixedly mounted at the tail end of the push rod (702), and a supply pipeline (706) is fixedly mounted at the bottom of the storage groove (703).
3. The Doppler fetal rhythm instrument capable of automatically smearing couplant as claimed in claim 2, wherein: the mechanism shell (705) is fixedly arranged on one side of the fetal heart rate apparatus body (1) through screws, the storage groove (703) is arranged on one side of the fetal heart rate apparatus body (1) through the mechanism shell (705), one end of the supply pipeline (706) is connected to the storage groove (703), and the other end of the supply pipeline (706) is connected into a supply port (802) on the positioning mechanism (8).
4. The Doppler fetal rhythm instrument capable of automatically smearing couplant as claimed in claim 3, wherein: the limiting base (603) is arranged on the push rod (702), a limiting baffle (601) is fixedly arranged on the limiting base (603), a movable groove (602) is formed in the middle of the limiting base (603), a limiting screw hole (604) is formed in one side of the limiting base (603), and a limiting screw (605) is arranged in the limiting screw hole (604) in an internal thread mode.
5. The Doppler fetal rhythm instrument capable of automatically smearing couplant as claimed in claim 4, wherein: the limiting seat (603) is movably mounted on the push rod (702) through a movable groove (602), the limiting screw (605) is connected to the limiting seat (603) through a limiting screw hole (604), and the limiting seat (603) is limited on the push rod (702) through the limiting screw (605).
6. The Doppler fetal rhythm instrument capable of automatically smearing couplant as claimed in claim 5, wherein: the positioning base (801) is fixedly installed on one side of the fetal heart monitor body (1), a positioning groove (806) is formed in the positioning base (801), a movable opening (803) is formed in the positioning groove (806), a spring (805) is fixedly installed in the movable opening (803), a limiting block (804) is movably installed above the spring (805) in the movable opening (803), and a supply opening (802) is formed in the positioning base (801).
7. The Doppler fetal rhythm instrument capable of automatically smearing couplant as claimed in claim 6, wherein: the supply pipeline (706) is connected to the positioning base (801) through a supply opening (802), the limiting block (804) is movably mounted in a positioning groove (806) through a movable opening (803), one end of the spring (805) is connected to the bottom of the positioning groove (806), the other end of the spring (805) is connected to the limiting block (804), connecting support legs are arranged on two sides of the detection probe (4), and the connecting support legs are connected to the positioning base (801) through the movable opening (803).
8. The Doppler fetal rhythm instrument capable of automatically smearing couplant as claimed in claim 7, wherein: the device comprises a bearing (907), a driving shaft (905), a second belt pulley (906), a smearing flying disc (904), a driving motor (902), a first belt pulley (901), and a transmission belt (903) are fixedly installed between the first belt pulley (901) and the second belt pulley (906), wherein the second belt pulley (906) is fixedly installed at the middle position of the driving shaft (905), the smearing flying disc (904) is fixedly installed at the top end of the driving shaft (905), the driving motor (902) is fixedly installed in a fetal heart instrument body (1), and the output tail end of the driving motor (902) is fixedly installed with the first belt pulley (901).
9. The Doppler fetal rhythm instrument capable of automatically smearing couplant as claimed in claim 8, wherein: the driving shaft (905) is movably arranged in the positioning groove (806) through a bearing (907), and the smearing flying disc (904) is movably arranged in the positioning groove (806) through the driving shaft (905).
10. The use method of the Doppler fetal rhythm instrument for automatically applying couplant as claimed in claim 9, comprising the steps of:
the method comprises the following steps: the piston (704) is firstly taken out, couplant can be filled into the storage groove (703) after the piston (704) is taken out, the push rod (702) can be pushed after the couplant is filled into the storage groove (703), the piston (704) can move towards the inside of the storage groove (703) after the push rod (702) is pushed, the couplant in the storage groove (703) can be extruded out after the piston (704) moves towards the inside of the storage groove (703), and the couplant can enter the positioning groove (806) through the supply pipeline (706) after being extruded out.
Step two: after the couplant is squeezed into the positioning groove (806), the driving motor (902) can be started, after the driving motor (902) is started, the driving motor (902) can drive the first belt pulley (901) to rotate, after the first belt pulley (901) rotates, the second belt pulley (906) can be driven to rotate through the transmission belt (903), and after the second belt pulley (906) rotates, the smearing flying disc (904) can be driven to rotate through the driving shaft (905).
Step three: after the smearing flying disc (904) rotates, the detection probe (4) can be pressed downwards, after the detection probe (4) is pressed downwards, the tail end of the detection probe (4) can be in contact with the couplant on the smearing flying disc (904), and at the moment, the smearing flying disc (904) rotating at a high speed can evenly smear the couplant on the tail end of the detection probe (4).
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