CN112704779A - Multifunctional infusion device for obstetrics and gynecology department - Google Patents

Abstract

The invention discloses a multifunctional transfusion device for obstetrics and gynecology department, which comprises a transfusion device transposition mechanism, a first transmission set of a transfusion device transfusion bottle fixing mechanism, a second transmission set of the transfusion device transfusion bottle fixing mechanism and a transfusion device transfusion bottle fixing and heating mechanism, wherein the first transmission set of the transfusion device transfusion bottle fixing mechanism, the second transmission set of the transfusion device transfusion bottle fixing mechanism and the transfusion device transfusion bottle fixing and heating mechanism are arranged on a rack.

Description

Multifunctional infusion device for obstetrics and gynecology department

Technical Field

The invention relates to the field of fixing of infusion bottles, in particular to a multifunctional infusion device for obstetrics and gynecology department.

Background

Infusion bottle is a new treatment method at present, compared with oral administration and external application, the infusion bottle fixing device has strong permeability, and the existing infusion bottle fixing device can only be hung at a fixed position and cannot well take care of patient experience. In order to solve this problem, application No. CN201720242266.6 discloses a rotatable rack capable of holding multiple bottles of liquid, but the device has a simple structure and cannot perform constant temperature operation on the infusion bottle.

Disclosure of Invention

Aiming at the technical problem, the multifunctional transfusion device for the obstetrics and gynecology department comprises a transfusion device transposition mechanism, a first transmission group of a transfusion bottle fixing mechanism of the transfusion device, a second transmission group of the transfusion bottle fixing mechanism of the transfusion device and a transfusion bottle fixing and heating mechanism of the transfusion device.

The infusion set indexing mechanism comprises an upper connecting beam. The first transmission set of the infusion bottle fixing mechanism of the infusion device comprises a lower right connecting beam, a lower fixing plate, a middle left driven bevel gear and a side connecting beam. The second transmission set of the infusion bottle fixing mechanism of the infusion device comprises a left connecting beam, an upper left driven helical gear, a special-shaped rack and a lower connecting beam. The infusion bottle fixing and heating mechanism of the infusion device comprises a middle connecting beam, a driven connecting rod and a right driven straight gear.

The upper connecting beam is fixedly arranged on the side surface of the upper connecting plate, the lower right connecting beam is fixedly connected with the upper connecting beam, the lower fixing plate is fixedly connected with the lower right connecting beam, the middle left driven helical gear is rotatably arranged on the middle left driven shaft and is positioned on the left side of the turbine, the side connecting beam is fixedly arranged on the side surface of the transmission cabin plate, the left connecting beam is fixedly connected with the side connecting beam, the upper left driven helical gear is rotatably arranged on the upper driven connecting rod, the upper left driven helical gear and the middle left driven helical gear form gear engagement, the lower connecting beam is fixedly arranged on the lower surface of the connecting fixing plate, the middle connecting beam is fixedly connected with the lower connecting beam, two groups of driven connecting rods are respectively rotatably arranged in shaft holes on the left side and the right side of the lower fixing plate, two groups of right, two groups of right driven straight gears are in gear engagement with two sides of the special-shaped rack.

The infusion set indexing mechanism also comprises a device fixing plate, a motor supporting plate, a motor, a driving bevel gear, a connecting beam, a fixing plate, a right belt pulley driven shaft, a driven bevel gear, a right belt pulley, a left belt pulley driven shaft, a left belt pulley, a belt, a left driven bevel gear, an upper side driven shaft, an upper side driven bevel gear and an upper side connecting plate, wherein the motor supporting plate is fixedly arranged on the device fixing plate, the motor is fixedly arranged on the motor supporting plate, the driving bevel gear is rotatably arranged on the motor, the lower surface of the connecting beam is fixedly arranged on the device fixing plate, the fixing plate is fixedly connected with the connecting beam, the right belt pulley driven shaft is rotatably arranged in a right side shaft hole of the fixing plate, the driven bevel gear is rotatably arranged on the right belt pulley driven shaft, the right belt, the left belt pulley is rotatably installed on a left belt pulley driven shaft, a belt is in belt transmission fit with the left belt pulley and the right belt pulley, the left driven helical gear is rotatably installed on the left belt pulley driven shaft and located behind the left belt pulley, the upper side driven shaft and the belt are rotatably installed in an upper side shaft hole of the fixing plate, the upper side driven helical gear is fixedly connected with the upper side driven shaft, the upper side driven helical gear and the left driven helical gear form gear engagement, and the upper side connecting plate is fixedly installed on the upper side driven helical gear.

The first transmission set of the infusion bottle fixing mechanism of the infusion device also comprises a lower left connecting beam, a transmission bin plate, a servo motor, a driving straight gear, a lower driven shaft, a lower left driven straight gear, a lower right driven straight gear, an intermediate right driven shaft, an intermediate right driven straight gear, an intermediate right belt pulley, a worm, an intermediate driven belt pulley, a driven belt, an intermediate left driven shaft and a turbine, wherein the lower left connecting beam is fixedly arranged on the left surface of the lower fixed plate, the transmission bin plate is fixedly connected with the lower left connecting beam, the servo motor is fixedly arranged on the transmission bin plate, the driving straight gear is rotatably arranged on the servo motor, the lower driven shaft is rotatably arranged in a left shaft hole of the transmission bin plate, the lower left driven straight gear is rotatably arranged on the lower driven shaft, the lower left driven straight gear is in gear engagement with the driving straight gear, the lower right driven straight gear is rotatably arranged on the lower driven shaft and is positioned on the, the middle right driven shaft rotates and installs in the middle shaft hole of transmission storehouse board, the middle right driven spur gear rotates and installs on the middle right driven shaft, the middle right driven spur gear forms gear engagement with the right driven spur gear of downside, the middle right belt pulley rotates and installs the rear side that lies in the middle right driven spur gear on the middle right driven shaft, the worm rotates and installs in the right side shaft hole of transmission storehouse board, the middle driven belt pulley rotates and installs on the worm, the middle left driven shaft rotates and installs in the upside shaft hole of transmission storehouse board, the turbine rotates and installs on the middle left driven shaft, the turbine forms gear engagement with the worm.

Infusion set infusion bottle fixed establishment second transmission group is still including connecting the fixed plate, the axle backup pad, upside driven connecting rod, upside right side driven straight-teeth gear, slider and rack, connect the lower surface of fixed plate fixed mounting at the tie-beam in left side, axle backup pad fixed mounting is on connecting the fixed plate, upside driven connecting rod rotates and installs in the axle backup pad, upside right side driven straight-teeth gear rotates and installs the right side that lies in upside left driven helical gear on upside driven connecting rod, the slider forms sliding fit with connection fixed plate, heterotypic rack fixed mounting is on the slider, rack fixed mounting is on heterotypic rack, the rack forms gear engagement with upside right side driven straight-teeth gear.

The infusion bottle fixing and heating mechanism of the infusion device also comprises a sliding chute plate, an inner straight gear connecting beam, an inner straight gear, a driving connecting rod, an outer tooth straight gear, a driven auxiliary rod, an infusion bottle fixing plate and a constant temperature heating pipe,

the chute board carries out fixed connection with the intermediate junction roof beam, interior straight-gear tie-beam fixed mounting is at the side surface of chute board, interior straight-gear carries out fixed connection with interior straight-gear tie-beam, the initiative connecting rod rotate and install on driven spur gear of right, the external tooth straight-gear rotates and installs on the initiative connecting rod, driven auxiliary rod carries out fixed connection with the initiative connecting rod, driven auxiliary rod forms sliding fit with the chute board, infusion bottle fixed plate fixed mounting is on driven auxiliary rod, the infusion bottle fixed plate with form the connecting rod cooperation through driven auxiliary rod and initiative connecting rod, interior straight-gear tie-beam, interior straight-gear, the initiative connecting rod, the external tooth straight-gear, driven auxiliary rod and infusion bottle fixed plate have two sets to install respectively in the left and right sides of chute board.

Further, the driven helical gear and the driving helical gear form gear engagement.

Furthermore, the driven belt is in belt transmission fit with the middle right belt pulley through the middle driven belt pulley.

Further, the external spur gear and the internal spur gear form gear engagement.

Compared with the prior art, the invention has the beneficial effects that: (1) the invention can adapt to infusion bottles of various specifications and automatically fix the infusion bottles. (2) The invention can carry out constant temperature operation on the infusion bottle and prevent the discomfort of a patient caused by the excessively cold liquid medicine. (3) The invention can automatically rotate according to the position of the patient, thereby improving the action range of the patient during transfusion.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of an indexing mechanism of the infusion device.

Fig. 3 is a schematic structural view of a first transmission set of an infusion bottle fixing mechanism of the infusion device.

Fig. 4 is a schematic view of the internal structure of the first transmission set of the infusion bottle fixing mechanism of the infusion device.

Fig. 5 is a schematic view of the internal assembly of the second transmission set of the infusion bottle fixing mechanism of the infusion device.

Fig. 6 is a schematic view of the internal assembly structure of the infusion bottle fixing and heating mechanism of the infusion device.

Fig. 7 is a structural schematic view of a transfusion bottle fixing and heating mechanism of the transfusion device of the invention.

Reference numerals: 1-an infusion set indexing mechanism; 2-a first transmission set of an infusion bottle fixing mechanism of the infusion device; 3-a second transmission group of the infusion bottle fixing mechanism of the infusion device; 4-fixing a heating mechanism on an infusion bottle of the infusion device; 101-device mounting plate; 102-a motor support plate; 103-a motor; 104-driving bevel gear; 105-a connecting beam; 106-fixing plate; 107-right pulley driven shaft; 108-driven bevel gear; 109-right pulley; 110-left pulley driven shaft; 111-a left pulley; 112-a belt; 113-left driven bevel gear; 114-upper driven shaft; 115-upper driven bevel gear; 116-an upper side connection plate; 117-upper side connecting beam; 201-lower right connecting beam; 202-lower side fixing plate; 203-lower left connecting beam; 204-a transmission cabin plate; 205-a servo motor; 206-a spur gear drive; 207-lower driven shaft; 208-lower left driven spur gear; 209-lower right driven spur gear; 210-intermediate right driven shaft; 211-middle right driven spur gear; 212-middle right pulley; 213-worm; 214-an intermediate driven pulley; 215-driven belt; 216 — intermediate left driven shaft; 217-a turbine; 218-middle left driven bevel gear; 219-side connecting beam; 301-left connecting beam; 302-connecting the fixing plate; 303-shaft support plate; 304-upper driven connecting rod; 305-upper left driven bevel gear; 306-upper right driven spur gear; 307-a slide block; 308-special-shaped racks; 309-rack; 310-lower connecting beam; 401-intermediate connecting beam; 402-a chute plate; 403-internal spur gear connecting beam; 404-internal spur gear; 405-a driven connecting rod; 406-right driven spur gear; 407-active link; 408-external spur gear; 409-driven auxiliary rod; 410-infusion bottle fixing plate; 411-constant temperature heating pipe.

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.

Referring to fig. 1, 2, 3, 4, 5, 6 and 7, the multifunctional infusion device for obstetrics and gynecology department comprises an infusion device indexing mechanism 1, an infusion device infusion bottle fixing mechanism first transmission set 2, an infusion device infusion bottle fixing mechanism second transmission set 3 and an infusion device infusion bottle fixing and heating mechanism 4.

The infusion set indexing mechanism 1 includes an upper connecting beam 117. The infusion bottle fixing mechanism first transmission set 2 of the infusion device comprises a lower right connecting beam 201, a lower fixing plate 202, a middle left driven bevel gear 218 and a side connecting beam 219. The second transmission group 3 of the infusion bottle fixing mechanism of the infusion device comprises a left connecting beam 301, an upper left driven helical gear 305, a special-shaped rack 308 and a lower connecting beam 310. The infusion bottle fixing and heating mechanism 4 of the infusion device comprises a middle connecting beam 401, a driven connecting rod 405 and a right driven spur gear 406.

An upper connecting beam 117 is fixedly arranged on the side surface of the upper connecting plate 116, a lower right connecting beam 201 is fixedly connected with the upper connecting beam 117, a lower fixing plate 202 is fixedly connected with the lower right connecting beam 201, a middle left driven bevel gear 218 is rotatably arranged on a middle left driven shaft 216 and is positioned at the left side of a turbine 217, a side connecting beam 219 is fixedly arranged on the side surface of a transmission cabin plate 204, a left connecting beam 301 is fixedly connected with a side connecting beam 219, an upper left driven bevel gear 305 is rotatably arranged on an upper driven connecting rod 304, the upper left driven bevel gear 305 and the middle left driven bevel gear 218 form gear engagement, a lower connecting beam 310 is fixedly arranged on the lower surface of the connecting fixing plate 302, an intermediate connecting beam 401 is fixedly connected with the lower connecting beam 310, two sets of driven connecting rods 405 are respectively rotatably arranged in shaft holes at the left side and the right side 406 of the lower fixing plate 202, two sets of right driven, two groups of right driven spur gears 406 are in gear engagement with two sides of the special-shaped rack 308.

The infusion set indexing mechanism 1 further comprises a set fixing plate 101, a motor supporting plate 102, a motor 103, a driving bevel gear 104, a connecting beam 105, a fixing plate 106, a right pulley driven shaft 107, a driven bevel gear 108, a right pulley 109, a left pulley driven shaft 110, a left pulley 111, a belt 112, a left driven bevel gear 113, an upper driven shaft 114, an upper driven bevel gear 115 and an upper connecting plate 116, wherein the motor supporting plate 102 is fixedly arranged on the set fixing plate 101, the motor 103 is fixedly arranged on the motor supporting plate 102, the driving bevel gear 104 is rotatably arranged on the motor 103, the motor 103 is used as a power source and drives the driving bevel gear 104 to rotate when the motor 103 rotates, the lower surface of the connecting beam 105 is fixedly arranged on the set fixing plate 101, the fixing plate 106 is fixedly connected with the connecting beam 105, the right pulley driven shaft 107, the driven bevel gear 108 is rotatably arranged on the right pulley driven shaft 107, the right pulley 109 is rotatably arranged on the right pulley driven shaft 107 and is positioned behind the driven bevel gear 108, when the driving bevel gear 104 rotates, the driven bevel gear 108 is driven to synchronously rotate with the right pulley 109 fixedly connected with the driven bevel gear 108, the left pulley driven shaft 110 is rotatably arranged in a left shaft hole of the fixing plate 106, the left pulley 111 is rotatably arranged on the left pulley driven shaft 110, the belt 112 is in belt transmission fit with the left pulley 111 and the right pulley 109, the left driven bevel gear 113 is rotatably arranged on the left pulley driven shaft 110 and is positioned behind the left pulley 111, the upper driven shaft 114 is rotatably arranged in an upper shaft hole of the fixing plate 106, the upper driven bevel gear 115 is fixedly connected with the upper driven shaft 114, the upper driven bevel gear 115 is in gear engagement with the left bevel gear driven pulley 113, and when the right pulley 109 rotates, the left pulley 111 and the The wheels 113 rotate synchronously, and the upper connecting plate 116 is fixedly mounted on the upper driven bevel gear 115 to drive the upper driven bevel gear 115 to rotate when the left driven bevel gear 113 rotates.

The infusion bottle fixing mechanism first transmission set 2 of the infusion device further comprises a lower left connecting beam 203, a transmission bin plate 204, a servo motor 205, a driving spur gear 206, a lower driven shaft 207, a lower left driven spur gear 208, a lower right driven spur gear 209, a middle right driven shaft 210, a middle right driven spur gear 211, a middle right belt pulley 212, a worm 213, a middle driven belt pulley 214, a driven belt 215, a middle left driven shaft 216 and a turbine 217, wherein the lower left connecting beam 203 is fixedly arranged on the left side surface of the lower fixing plate 202, the transmission bin plate 204 is fixedly connected with the lower left connecting beam 203, the servo motor 205 is fixedly arranged on the transmission bin plate 204, the driving spur gear 206 is rotatably arranged on the servo motor 205, the servo motor 205 is a power source, when the servo motor 2050 rotates, the driving spur gear 206 rotates, the lower driven shaft 207 rotates and is arranged in a left shaft hole of the transmission bin plate 204, a lower left driven spur gear 208 is rotatably mounted on a lower driven shaft 207, the lower left driven spur gear 208 forms a gear mesh with a driving spur gear 206, a lower right driven spur gear 209 is rotatably mounted on the lower driven shaft 207 at the front side of the lower left driven spur gear 208, the driving spur gear 206 drives the lower left driven spur gear 208 to synchronously rotate with the lower right driven spur gear 209 fixedly connected therewith when rotating, a middle right driven shaft 210 is rotatably mounted in a middle shaft hole of the transmission silo plate 204, a middle right driven spur gear 211 is rotatably mounted on a middle right driven shaft 210, the middle right driven spur gear 211 forms a gear mesh with the lower right driven spur gear 209, a middle right pulley 212 is rotatably mounted on the middle right driven shaft 210 at the rear side of the middle right driven spur gear 211, the middle right driven spur gear 211 is driven to synchronously rotate with a middle right pulley 212 synchronously connected therewith when the lower right driven spur gear 209 rotates, the worm 213 is rotatably installed in the right shaft hole of the transmission chamber plate 204, when the middle right pulley 212 rotates, the middle driven pulley 214 and the worm 213 synchronously connected with the middle driven pulley are driven by the driven belt 215 to rotate synchronously, the middle driven pulley 214 is rotatably installed on the worm 213, the middle left driven shaft 216 is rotatably installed in the upper shaft hole of the transmission chamber plate 204, the worm wheel 217 is rotatably installed on the middle left driven shaft 216, the worm wheel 217 and the worm 213 form gear engagement, and when the worm 213 rotates, the worm wheel 217 and the middle left driven helical gear 218 fixedly connected with the worm wheel 217 are driven to rotate synchronously.

The second transmission set 3 of the infusion bottle fixing mechanism of the infusion device further comprises a connecting fixing plate 302, a shaft supporting plate 303, an upper driven connecting rod 304, an upper right driven spur gear 306, a sliding block 307 and a rack 309, wherein the connecting fixing plate 302 is fixedly arranged on the lower surface of the left connecting beam 301, the shaft supporting plate 303 is fixedly arranged on the connecting fixing plate 302, the upper driven connecting rod 304 is rotatably arranged on the shaft supporting plate 303, the upper right driven spur gear 306 is rotatably arranged on the upper driven connecting rod 304 and positioned at the right side of the upper left driven helical gear 305, the upper left driven helical gear 305 and the upper right driven spur gear 306 synchronously connected with the upper left driven helical gear are driven to synchronously rotate when the middle left driven helical gear 218 rotates, the sliding block 307 and the connecting fixing plate 302 form a sliding fit, the special-shaped rack 308 is fixedly arranged on the sliding block 307, the rack 309 is fixedly arranged on the special, the rack 309 is driven to move when the upper right driven spur gear 306 rotates.

The infusion bottle fixing and heating mechanism 4 of the infusion device further comprises a chute plate 402, an inner straight gear connecting beam 403, an inner straight gear 404, a driving connecting rod 407, an outer straight gear 408, a driven auxiliary rod 409, an infusion bottle fixing plate 410 and a constant temperature heating pipe 411, wherein the chute plate 402 is fixedly connected with a middle connecting beam 401, the inner straight gear connecting beam 403 is fixedly arranged on the side surface of the chute plate 402, the inner straight gear 404 is fixedly connected with the inner straight gear connecting beam 403, when a rack 309 moves, a right driven straight gear 406 is driven to rotate through a special-shaped rack 308, the driving connecting rod 407 is rotatably arranged on the right driven straight gear 406, the outer straight gear 408 is rotatably arranged on the driving connecting rod 407, when the right driven straight gear 406 rotates, the outer straight gear 408 is driven to rotate through the driving connecting rod 407, the driven auxiliary rod 409 is fixedly connected with the driving connecting rod 407, and the driven auxiliary rod 409 forms sliding fit with the chute plate 402, when the external spur gear 408 rotates, the driven auxiliary rod 409 is driven to move, the infusion bottle fixing plate 410 is fixedly installed on the driven auxiliary rod 409, the infusion bottle fixing plate 410 and the driving connecting rod 407 form a connecting rod fit through the driven auxiliary rod 409, and two groups of the internal spur gear connecting beam 403, the internal spur gear 404, the driving connecting rod 407, the external spur gear 408, the driven auxiliary rod 409 and the infusion bottle fixing plate 410 are respectively installed on the left side and the right side of the chute plate 402.

The driven helical gear 108 forms a gear mesh with the driving helical gear 104. The driven belt 215 is in belt driving engagement with the intermediate right pulley 212 via the intermediate driven pulley 214. The outer spur gear 408 is in gear engagement with the inner spur gear 404.

Claims (8)

1. The utility model provides a multi-functional infusion set of gynaecology and obstetrics which characterized in that: the device comprises an infusion device indexing mechanism (1), an infusion device infusion bottle fixing mechanism first transmission group (2), an infusion device infusion bottle fixing mechanism second transmission group (3) and an infusion device infusion bottle fixing and heating mechanism (4), and is characterized in that:

the infusion device indexing mechanism (1) comprises an upper connecting beam (117);

the first transmission set (2) of the infusion bottle fixing mechanism of the infusion device comprises a lower right connecting beam (201), a lower fixing plate (202), a middle left driven bevel gear (218) and a side connecting beam (219);

the second transmission group (3) of the infusion bottle fixing mechanism of the infusion device comprises a left connecting beam (301), an upper left driven helical gear (305), a special-shaped rack (308) and a lower connecting beam (310);

the infusion bottle fixing and heating mechanism (4) of the infusion device comprises a middle connecting beam (401), a driven connecting rod (405) and a right driven spur gear (406);

the upper connecting beam (117) is fixedly arranged on the side surface of the upper connecting plate (116), the lower right connecting beam (201) is fixedly connected with the upper connecting beam (117), the lower fixing plate (202) is fixedly connected with the lower right connecting beam (201), the middle left driven helical gear (218) is rotatably arranged on the middle left driven shaft (216) and is positioned on the left side of the turbine (217), the side connecting beam (219) is fixedly arranged on the side surface of the transmission cabin plate (204), the left connecting beam (301) is fixedly connected with the side connecting beam (219), the upper left driven helical gear (305) is rotatably arranged on the upper driven connecting rod (304), the upper driven helical gear (305) is in gear engagement with the middle left driven helical gear (218), and the lower connecting beam (310) is fixedly arranged on the lower surface of the connecting fixing plate 302, middle coupling roof beam (401) and lower coupling roof beam (310) carry out fixed connection, driven link rod (405) have two sets ofly to rotate respectively and install in the left and right sides shaft hole of downside fixed plate (202), right driven spur gear (406) have two sets ofly to rotate respectively and install on two sets of driven link rod (405), two sets of right driven spur gear (406) and the both sides of abnormal shape rack (308) form gear engagement.

2. The multifunctional infusion device of claim 1, wherein: the indexing mechanism (1) of the infusion device further comprises a device fixing plate (101), a motor supporting plate (102), a motor (103), a driving bevel gear (104), a connecting beam (105), a fixing plate (106), a right belt pulley driven shaft (107), a driven bevel gear (108), a right belt pulley (109), a left belt pulley driven shaft (110), a left belt pulley (111), a belt (112), a left driven bevel gear (113), an upper side driven shaft (114), an upper side driven bevel gear (115) and an upper side connecting plate (116), wherein the motor supporting plate (102) is fixedly arranged on the device fixing plate (101), the motor (103) is fixedly arranged on the motor supporting plate (102), the driving bevel gear (104) is rotatably arranged on the motor (103), the lower surface of the connecting beam (105) is fixedly arranged on the device fixing plate (101), and the fixing plate (106) is fixedly connected with the connecting beam (105), the right belt pulley driven shaft (107) is rotatably installed in a right shaft hole of the fixing plate (106), the driven bevel gear (108) is rotatably installed on the right belt pulley driven shaft (107), the right belt pulley (109) is rotatably installed on the right belt pulley driven shaft (107) and is positioned behind the driven bevel gear (108), the left belt pulley driven shaft (110) is rotatably installed in a left shaft hole of the fixing plate (106), the left belt pulley (111) is rotatably installed on the left belt pulley driven shaft (110), the belt (112) is in belt transmission fit with the left belt pulley (111) and the right belt pulley (109), the left driven bevel gear (113) is rotatably installed on the left belt pulley driven shaft (110) and is positioned behind the left belt pulley (111), and the upper driven shaft (114) and the upper shaft hole of the fixing plate (106) are rotatably installed, the upper driven bevel gear (115) is fixedly connected with an upper driven shaft (114), the upper driven bevel gear (115) is in gear engagement with the left driven bevel gear (113), and the upper connecting plate (116) is fixedly installed on the upper driven bevel gear (115).

3. The multifunctional infusion device of claim 1, wherein: the first transmission group (2) of the infusion bottle fixing mechanism of the infusion device further comprises a lower left connecting beam (203), a transmission bin plate (204), a servo motor (205), a driving spur gear (206), a lower driven shaft (207), a lower left driven spur gear (208), a lower right driven spur gear (209), an intermediate right driven shaft (210), an intermediate right driven spur gear (211), an intermediate right belt pulley (212), a worm (213), an intermediate driven belt pulley (214), a driven belt (215), an intermediate left driven shaft (216) and a turbine (217), wherein the lower left connecting beam (203) is fixedly arranged on the left surface of the lower fixing plate (202), the transmission bin plate (204) is fixedly connected with the lower left connecting beam (203), the servo motor (205) is fixedly arranged on the transmission bin plate (204), the driving spur gear (206) is rotatably arranged on the servo motor (205), downside driven shaft (207) rotate and install in the left side shaft hole of transmission bulkhead (204), downside left driven spur gear (208) rotate and install on downside driven shaft (207), downside left driven spur gear (208) form gear engagement with driving spur gear (206), downside right driven spur gear (209) rotate and install the front side that lies in downside left driven spur gear (208) on downside driven shaft (207), middle right driven shaft (210) rotate and install in the middle shaft hole of transmission bulkhead (204), middle right driven spur gear (211) rotate and install on middle right driven shaft (210), middle right driven spur gear (211) form gear engagement with downside right driven spur gear (209), middle right belt pulley (212) rotate and install the rear side that lies in middle right driven spur gear (211) on middle right driven shaft (210), worm (213) rotate and install in the right side shaft hole of transmission storehouse board (204), middle driven pulley (214) rotate and install on worm (213), middle left driven shaft (216) rotate and install in the upside shaft hole of transmission storehouse board (204), turbine (217) rotate and install on middle left driven shaft (216), turbine (217) and worm (213) form gear engagement.

4. The multifunctional infusion device of claim 1, wherein: the second transmission set (3) of the infusion bottle fixing mechanism of the infusion device further comprises a connecting fixing plate (302), a shaft supporting plate (303), an upper side driven connecting rod (304), an upper side right driven straight gear (306), a sliding block (307) and a rack (309), wherein the connecting fixing plate (302) is fixedly arranged on the lower surface of a left side connecting beam (301), the shaft supporting plate (303) is fixedly arranged on the connecting fixing plate (302), the upper side driven connecting rod (304) is rotatably arranged on the shaft supporting plate (303), the upper side right driven straight gear (306) is rotatably arranged on the upper side driven connecting rod (304) and positioned on the right side of the upper side left driven straight gear (305), the sliding block (307) and the connecting fixing plate (302) form sliding fit, the special-shaped rack (308) is fixedly arranged on the sliding block (307), and the rack (309) is fixedly arranged on the special-shaped rack (308), the rack (309) is in gear engagement with the upper right driven spur gear (306).

5. The multifunctional infusion device of claim 1, wherein: the infusion apparatus infusion bottle fixing and heating mechanism (4) further comprises a sliding chute plate (402), an inner straight gear connecting beam (403), an inner straight gear (404), a driving connecting rod (407), an outer straight gear (408), a driven auxiliary rod (409), an infusion bottle fixing plate (410) and a constant temperature heating pipe (411), wherein the sliding chute plate (402) is fixedly connected with a middle connecting beam (401), the inner straight gear connecting beam (403) is fixedly arranged on the side surface of the sliding chute plate (402), the inner straight gear (404) is fixedly connected with the inner straight gear connecting beam (403), the driving connecting rod (407) is rotatably arranged on a right driven straight gear (406), the outer straight gear (408) is rotatably arranged on the driving connecting rod (407), the driven auxiliary rod (409) is fixedly connected with the driving connecting rod (407), and the driven auxiliary rod (409) and the sliding chute plate (402) form sliding fit, the infusion bottle fixing plate (410) is fixedly arranged on the driven auxiliary rod (409), the infusion bottle fixing plate (410) is in connecting rod fit with the driving connecting rod (407) through the driven auxiliary rod (409), and two groups of the inner straight gear connecting beam (403), the inner straight gear (404), the driving connecting rod (407), the outer tooth straight gear (408), the driven auxiliary rod (409) and the infusion bottle fixing plate (410) are respectively arranged on the left side and the right side of the sliding groove plate (402).

6. The multifunctional infusion device of claim 1, wherein: the driven bevel gear (108) and the driving bevel gear (104) form gear engagement.

7. The multifunctional infusion device of claim 1, wherein: the driven belt (215) is in belt transmission fit with the middle right pulley (212) through the middle driven pulley (214).

8. The multifunctional infusion device of claim 1, wherein: the external spur gear (408) is in gear engagement with the internal spur gear 404.

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