阅读说明：本技术 一种移动式多功能妇产科医疗车 (Portable multi-functional gynaecology and obstetrics medical vehicle ) 是由 不公告发明人 于 2020-06-07 设计创作，主要内容包括：本发明公开一种移动式多功能妇产科医疗车,包括基座、抬升装置、防护装置、自动输液装置、动力及抗震装置。基座为本装置患者的放置平台和各类零件的安装平台,动力及抗震装置为本装置的移动提供动力及在移动过程中的震动消除,保证患者移动的平稳。自动输液装置在移动过程中同时为患者输液。防护装置保证患者在移动过程中不会因为各类因素摔落摔伤,抬升装置保证患者在移动过程中的身体位姿的需要。(The invention discloses a movable multifunctional gynecological medical vehicle which comprises a base, a lifting device, a protection device, an automatic infusion device and a power and anti-seismic device. The base is the mounting platform of this device patient's place the platform and all kinds of parts, and power and antidetonation device provide power and remove at the vibrations of removal in-process for the removal of this device, guarantee the steady that the patient removed. The automatic infusion device simultaneously infuses fluid to a patient during movement. The protection device ensures that the patient cannot fall and be injured due to falling of various factors in the moving process, and the lifting device ensures the requirement of the body position and posture of the patient in the moving process.)

1. A movable multifunctional obstetrics and gynecology department comprises a base (1), a lifting device (2), a protective device (3), an automatic transfusion device (4) and a power and anti-seismic device (5), and is characterized in that;

the base (1) is a placing plane of a patient and is also an installation platform of the lifting device (2), the protective device (3), the automatic transfusion device (4) and the power and anti-seismic device (5);

the base (1) comprises: the device comprises a placing seat (101) and a bottom plate (102), wherein the placing seat (101) is a base of the whole device and is an installation platform, and the bottom plate (102) is welded and installed on the placing seat (101);

the lifting device (2) comprises: the lifting mechanism comprises a supporting rod (201), a swinging rod (202), a lifting motor (203), a gear shaft 204, a straight gear (205), a shaft bracket (206), a turnover shaft (207) and a turnover shaft bracket (208), wherein the supporting rod (201) is installed on the swinging rod (202) and connected with one shaft to form a revolute pair, the swinging rod (202) is fixedly installed on the gear shaft (204), the lifting motor (203) is fixedly installed on a bottom plate (102), the gear shaft (204) is fixedly installed on the shaft bracket (206), the straight gear (205) is fixedly installed on the gear shaft (204), the shaft bracket (206) is fixedly installed on the bottom plate (102), the turnover shaft (207) is installed on the turnover shaft bracket (208) and connected with the turnover shaft bracket to form a revolute pair, and the turnover shaft bracket (208) is fixedly installed on the;

the guard (3) comprises: a rotating shaft (301), a driver (302), a transfer rod (303), a hydraulic rod (304), a hydraulic motor (305), a sliding track (306), a sliding shaft (307), a guardrail (308), a sliding rod (309) and a rotating shaft frame (310), wherein the rotating shaft (301) is fixedly arranged on the placing seat (101), the driver (302) is fixedly arranged at one end of the rotating shaft (301), the transfer rod (303) is fixedly arranged on the driver (302), the hydraulic rod (304) is arranged on the transfer rod (303) to form sliding pair connection with the transfer rod, the hydraulic motor (305) is fixedly arranged on the placing seat (101), the sliding track (306) is fixedly arranged on the placing seat (101), the sliding shaft (307) is fixedly arranged on the guardrail (308) to form sliding pair connection with the sliding shaft (307), the guardrail (308) is fixedly arranged on the sliding shaft (307), and the sliding rod (309) is fixedly arranged on the guardrail (308), the rotating shaft frame (310) is fixedly arranged on the placing seat (101);

the automatic infusion device (4) comprises: a motor frame (401), a ratchet motor (402), a pressure shaft frame (403), a pressure shaft (404), ratchet claws (405), a driving gear (406), a driving gear shaft (407), a ratchet (408), a transfusion rod (409), a lifting rod (410), a lifting track (411), a working gear (412), a driven gear (413) and a driven gear shaft (414), wherein the motor frame (401) is fixedly arranged on a placing base (101), the ratchet motor (402) is fixedly arranged on the motor frame (401), the pressure shaft frame (403) is fixedly arranged on the ratchet motor (402), the pressure shaft (404) is fixedly arranged on the pressure shaft frame (403), the ratchet claws (405) are fixedly arranged on the pressure shaft (404), the driving gear (406) is fixedly arranged on the driving gear shaft (407), the driving gear shaft (407) is fixedly arranged on the ratchet motor (402), the ratchet claw (408) is fixedly arranged on the driving gear shaft (407), the transfusion rod (409) is fixedly installed on the lifting rod (410), the lifting rod (410) is installed on a lifting rail (411) to form sliding pair connection with the lifting rail, the lifting rail (411) is fixedly installed on the placing base (101), the working gear (412) is fixedly installed on the driven gear shaft (414), the driven gear (413) is fixedly installed on the driven gear shaft (414), and the driven gear shaft (414) is installed on the lifting rail (411) to form rotating pair connection with the lifting rail;

the power and anti-vibration device (5) comprises: the transmission device comprises a wheel frame (501), a wheel shaft (502), a nam wheel (503), a wheel hub (504), an upper rotating frame (505), an upper swing arm (506), an upper triangular frame (507), a rotating shaft cylinder (508), a swing shaft (509), a spherical rotating shaft (510), an upper connecting frame (511), a power connecting shaft (512), a middle transmission shaft (513), a zigzag frame (514), a right-angle transmission frame (515), a shaft sleeve (516), a lower rotating frame (517), a lower swing arm (518), a lower triangular frame (519), a lower connecting frame (520), a main transmission wheel (521), a transmission shaft (522), a transmission shaft frame (523), a secondary transmission wheel (524), a secondary transmission shaft (525), a meshing transmission wheel (526), a main power gear (527), a main power shaft (528), a shaft coupling (529), a motor power output shaft (530) and a main power motor (531), wherein the wheel frame (501) is fixedly arranged on the wheel shaft (502), the wheel shaft (502), the nanomer wheel (503) is installed on the wheel frame (501) to form a rotating pair with the wheel frame, the wheel hub (504) is fixedly installed on the wheel frame (501), the upper rotating frame (505) is fixedly installed on the wheel hub (504), the upper swing arm (506) is installed on the upper rotating frame (505) to form a rotating pair with the upper rotating frame, the upper triangular frame (507) is installed on the upper swing arm (506) in a welding mode, the rotating shaft barrel (508) is fixedly installed on the upper triangular frame (507), and the swing shaft (509) is fixedly installed inside the rotating shaft barrel (508).

2. The spherical rotating shaft (510) is arranged on a swing shaft (509) to form a rotating pair with the spherical rotating shaft, an upper connecting frame (511) is welded and arranged on the spherical rotating shaft (510), a power connecting shaft (512) is fixedly arranged on a wheel hub (504), a middle transmission shaft (513) is arranged on the power connecting shaft (512) to form a rotating pair with the power connecting shaft, a I-shaped frame (514) is arranged on the middle transmission shaft (513) to form a rotating pair with the middle transmission shaft, a right-angle transmission frame (515) is welded and arranged on a shaft sleeve (516), the shaft sleeve (516) is arranged on a secondary transmission shaft (525) to form a sliding pair connection with the secondary transmission shaft, a lower rotating frame (517) is fixedly arranged on the wheel hub (504), a lower swing arm (518) is arranged on the lower rotating frame (517) to form a rotating pair with the lower swing arm (519), a lower tripod (519) is welded and arranged on the lower swing arm (518), a lower support (520) is welded and arranged on the spherical, a transmission shaft (522) is fixedly arranged on a transmission shaft frame (523), the transmission shaft frame (523) is fixedly arranged on a placing seat (101), an auxiliary transmission wheel (524) is fixedly arranged on the transmission shaft (522), a secondary transmission shaft (525) is arranged in a shaft sleeve (516) and is connected with the shaft sleeve to form a sliding pair, a meshing transmission wheel (526) is fixedly arranged on the secondary transmission shaft (525) and is meshed with the auxiliary transmission wheel (524), a main power gear (527) is fixedly arranged on a main power shaft (528) and is meshed with a main transmission wheel (521), the main power shaft (528) is arranged on a coupler (529), the coupler (529) is fixedly connected with the main power shaft (528), a motor power output shaft (530) is arranged on a main power motor (531), and the main power motor (531) is fixedly arranged on a bottom plate (102);

the portable multi-functional gynecological medical cart of claim 1, further comprising: the main power gear (527) and the main driving wheel (521) transmit power to tires at two ends simultaneously in an inland river transmission mode.

3. The portable multi-functional gynecological medical cart of claim 1, further comprising: the transmission shaft bracket (523) is engaged with the engaging transmission wheel (526) to form matching in the vertical direction.

4. The portable multi-functional gynecological medical cart of claim 1, further comprising: the coupler (529) is coaxially arranged with the main power shaft (528) and the motor power output shaft (530) to connect the main power shaft and the motor power output shaft together.

5. The portable multi-functional gynecological medical cart of claim 1, further comprising: the ratchet wheel claw (405) is pressed down under the action of the pressure shaft (404) to clamp the reverse tooth direction of the ratchet wheel (408).

6. The portable multi-functional gynecological medical cart of claim 1, further comprising: a square sliding block is arranged at the bottom of the lifting rod (410) and can conveniently slide in the lifting track (411).

7. The portable multi-functional gynecological medical cart of claim 1, further comprising: the working gear (412) is meshed with teeth on the lifting rod (410) to form meshing transmission for lifting the transfusion rod (409).

8. The portable multi-functional gynecological medical cart of claim 1, further comprising: the driven gear 413 is in meshed transmission with the driving gear (406), and the speed reduction effect is achieved due to the radius of the gear.

9. The portable multi-functional gynecological medical cart of claim 1, further comprising: the inside of the sliding track 306 is provided with a sliding rail which can enable the circular seat at the bottom of the guardrail (308) to slide in the sliding track.

Technical Field

The invention relates to the technical field of medical care instruments, in particular to a movable multifunctional gynecological medical vehicle.

Background

Need often carry out the removal to the patient in gynaecology and obstetrics's work, face different patient's condition and need satisfy different standard requirements to removing to guarantee that patient's vital sign is stable. Various devices are introduced in the market, such as application number CN206867361U, which discloses a movable gynecological medical vehicle but the device has single function and cannot adapt to the complex situation in the gynecological medical treatment. In order to solve the problem, a movable multifunctional gynecological medical vehicle is designed.

Disclosure of Invention

Aiming at the problems, the invention provides a movable multifunctional obstetrics and gynecology department, which comprises a base, a lifting device, a protection device, an automatic transfusion device and a power and anti-seismic device.

The base is a placing plane of a patient and is also an installation platform of the lifting device, the protective device, the automatic infusion device and the power and anti-seismic device.

The base includes: place seat, bottom plate, place the seat and be the mounting platform for the base of whole device, bottom plate welded mounting is on placing the seat.

The lifting device comprises: the vaulting pole, the pendulum rod, the lifting motor, the gear shaft, the straight-teeth gear, the pedestal, the trip shaft, upset pedestal, the vaulting pole is installed and is formed the revolute pair with a hub connection on the pendulum rod, pendulum rod fixed mounting is on the gear shaft, lifting motor fixed mounting is on the bottom plate, gear shaft fixed mounting is on the pedestal, straight-teeth gear fixed mounting is on the gear shaft, pedestal fixed mounting is on the bottom plate, the trip shaft is installed and is formed the revolute pair with it and be connected on the upset pedestal, upset pedestal fixed mounting is in the side of placing the seat.

The guard device includes: the axis of rotation, the actuator, connect the dowel steel, the hydraulic stem, hydraulic motor, the slip track, the sliding shaft, the guardrail, make the slide bar, the pivot pedestal, axis of rotation fixed mounting places on the seat, actuator fixed mounting is in the one end of axis of rotation, connect dowel steel fixed mounting on the actuator, the hydraulic stem is installed and is connected with it formation slip pair on connecing the dowel steel, hydraulic motor fixed mounting is on placing the seat, slip track fixed mounting is on placing the seat, sliding shaft fixed mounting forms the slip pair with the sliding shaft on the guardrail and is connected, guardrail fixed mounting is on the sliding shaft, make slide bar fixed mounting on the guardrail, pivot pedestal fixed mounting is on placing the seat.

The automatic infusion device comprises: a motor frame, a ratchet motor, a pressure shaft frame, a pressure shaft, a ratchet claw, a driving gear shaft, a ratchet, a transfusion rod, a lifting track, a working gear, a driven gear and a driven gear shaft, wherein the motor frame is fixedly arranged on a placing seat, the ratchet motor is fixedly arranged on the motor frame, the pressure shaft frame is fixedly arranged on the ratchet motor, the pressure shaft is fixedly arranged on the pressure shaft frame, the ratchet claw is fixedly arranged on the pressure shaft, the driving gear is fixedly arranged on the driving gear shaft, the driving gear shaft is fixedly arranged on the ratchet motor, the ratchet is fixedly arranged on the driving gear shaft, the transfusion rod is fixedly arranged on the lifting rod, the lifting rod is arranged on the lifting track to form a sliding pair connection with the lifting rod, the lifting track is fixedly arranged on the placing seat, the working gear is fixedly arranged on the driven gear shaft, the driven gear shaft is arranged on the lifting track and forms a revolute pair connection with the lifting track.

The power and anti-vibration device comprises: wheel carrier, wheel axle, namu wheel, wheel hub, upper rotating frame, upper swinging arm, upper tripod, rotating shaft cylinder, swinging shaft, spherical rotating shaft, upper connecting frame, power connecting shaft, middle transmission shaft, square frame, right-angle transmission frame, shaft sleeve, lower rotating frame, lower swinging arm, lower tripod, lower connecting frame, main transmission wheel, transmission shaft frame, auxiliary transmission wheel, secondary transmission shaft, meshing transmission wheel, main power gear, main power shaft, coupling, motor power output shaft and main power motor, wheel carrier fixed mounting is on the shaft, and the shaft is installed and is received the thumb wheel inside, receives the thumb wheel and installs and form the revolute pair with it on the wheel carrier, and wheel hub fixed mounting is on the wheel carrier, goes up rotating turret fixed mounting on wheel hub, goes up the swing arm and installs and form the revolute pair with it on last rotating turret, goes up the tripod welding and installs on last swing arm, and the rotating shaft section of thick bamboo fixed mounting is on last tripod, and the pendulum shaft fixed mounting is inside the rotating shaft section of thick bamboo. The spherical rotating shaft is arranged on the swing shaft to form a revolute pair with the swing shaft, the upper connecting frame is welded and arranged on the spherical rotating shaft, the power connecting shaft is fixedly arranged on the hub, the middle transmission shaft is arranged on the power connecting shaft to form a revolute pair with the power connecting shaft, the Z-shaped frame is arranged on the middle transmission shaft to form a revolute pair with the middle transmission shaft, the right-angle transmission frame is welded and arranged on the shaft sleeve, the shaft sleeve is arranged on the secondary transmission shaft to form a sliding pair connection with the secondary transmission shaft, the lower rotating frame is fixedly arranged on the hub, the lower swing arm is arranged on the lower rotating frame to form a revolute pair with the lower swing arm, the lower connecting frame is welded and arranged on the spherical rotating shaft, the main transmission wheel is fixedly arranged on the transmission shaft, the transmission shaft is fixedly arranged on the transmission shaft frame, the secondary transmission wheel is fixedly arranged on the placing seat, the secondary transmission shaft is arranged in the shaft to, the main power gear is fixedly arranged on the main power shaft and meshed with the main driving wheel, the main power shaft is arranged on the coupler, the coupler is fixedly connected with the main power shaft, the motor power output shaft is arranged on the main power motor, and the main power motor is fixedly arranged on the bottom plate.

Furthermore, the main power gear and the main driving wheel are in inland transmission to transmit power to tires at two ends simultaneously.

Further, the transmission shaft bracket is engaged with the meshing transmission wheel in a vertical direction to form matching.

Furthermore, the coupling is coaxially installed with the main power shaft and the motor power output shaft to connect the main power shaft and the motor power output shaft together.

Furthermore, the ratchet wheel claw is pressed down under the action of the pressure shaft to enable the reverse tooth direction of the ratchet wheel to rotate and be blocked.

Furthermore, a square sliding block is arranged at the bottom of the lifting rod, so that the lifting rod can conveniently slide in the lifting track.

Furthermore, the working gear is meshed with the teeth on the lifting rod to form meshing transmission to lift the transfusion rod.

Furthermore, the driven gear is in meshed transmission with the driving gear, and the speed reduction effect is achieved due to the radius of the gear.

Furthermore, a slide rail is arranged in the slide rail, so that the circular seat at the bottom of the guardrail can slide in the slide rail.

Due to the adoption of the technical scheme, the invention has the following advantages: (1) the power and anti-vibration device provides power for the movement of the device and eliminates vibration in the movement process, so that the stability of the movement of the patient is ensured. The automatic transfusion device transfuses the liquid to the patient simultaneously in the moving process; (2) the protective device ensures that the patient cannot fall and fall hurt due to various factors in the moving process; (3) the lifting device ensures the requirement of the body position of the patient in the moving process.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is a schematic view of the protection device of the present invention.

Fig. 3 is a schematic view of an automatic infusion device of the present invention.

Fig. 4 is a schematic view of the power and anti-shock device and lifting device of the present invention.

FIG. 5 is a detailed view of the power and anti-vibration device of the present invention.

Reference numerals: 1-a base; 2-lifting means; 3-a guard device; 4-an automatic infusion device; 5-power and anti-vibration device; 101-placing seats; 102-a backplane; 201-a brace bar; 202-a swing rod; 203-a lifting motor; 204-gear shaft; 205-a spur gear; 206-a pedestal; 207-a turning shaft; 208-overturning the shaft bracket; 301-axis of rotation; 302-an actuator; 303-connecting a transmission rod; 304-hydraulic ram; 305-a hydraulic motor; 306-a sliding track; 307-sliding shaft; 308-a guardrail; 309-make the slide bar; 310-rotating shaft bracket; 401-motor mount; 402-a ratchet motor; 403-pressure shaft bracket; 404-a pressure shaft; 405-ratchet pawl; 406-a drive gear; 407-driving gear shaft; 408-ratchet wheel; 409-infusion rod; 410-a lifter; 411-lifting rail; 412 — a working gear; 413-driven gear; 414-driven gear shaft; 501-wheel carrier; 502-an axle; 503-nahm wheel; 504-a hub; 505-upper rotating frame; 506-upper swing arm; 507-an upper tripod; 508-rotating the shaft barrel; 509-pendulum shaft; 510-a spherical rotating shaft; 511-connecting the frame; 512-power shaft coupling; 513-a central transmission shaft; 514-frame; 515-right angle drive rack; 516-a shaft sleeve; 517-lower rotating frame; 518-lower swing arm; 519-lower tripod; 520-lower frame; 521-a main driving wheel; 522-a drive shaft; 523-transmission shaft bracket; 524-auxiliary driving wheel; 525-a secondary drive shaft; 526-engaging a transmission wheel; 527 — main power gear; 528-main power axis; 529-a coupler; 530-power output shaft of motor; 531-main power motor.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.