CN112603619A

CN112603619A - Digestion promoting equipment for infants

Info

Publication number: CN112603619A
Application number: CN202011573011.0A
Authority: CN
Inventors: 董旭
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2021-04-06

Abstract

The invention discloses a digestion promoting device for infants, which comprises a moving device, a transmission device, a horizontal moving device and a vertical moving device, wherein the horizontal moving device is arranged on a rack, the horizontal moving device drives a supporting plate on the vertical moving device to move forwards through the operation of a mechanical group in the transmission device, a supporting plate is driven to move downwards through the operation of the mechanical group in the vertical moving device after being moved forwards to the front of the moving device, a child is placed in the supporting plate after the supporting plate moves downwards to a certain height, the mechanical group in the vertical moving device operates to bring the child away from a certain height after the child is placed, the horizontal moving device drives the child to move backwards to the upper part of the moving device through the operation of the mechanical group in the transmission device, and the mechanical group in the moving device operates to realize passive motion for the child so as.

Description

Digestion promoting equipment for infants

Technical Field

The invention relates to the field of infant digestion, in particular to infant digestion promoting equipment.

Background

With the development of national policies, infants gradually increase, and after eating, the infants often have reactions such as dyspepsia and the like and are easy to cause gastrointestinal injuries to the infants, in order to solve the problems, the application number CN201910405992.9 is a food processing device for promoting the digestion of the infants, but the device is modified to only process digestion-promoting food and cannot directly perform passive exercise on the infants so as to achieve the effect of promoting the digestion.

Disclosure of Invention

Aiming at the technical problem, the infant digestion promoting equipment comprises a motion device, a transmission device, a horizontal moving device and a vertical moving device.

The motion device comprises a bottom plate. The transmission device comprises a left driven helical gear on the upper side of a turbine connecting shaft of a left supporting plate of a right supporting plate of a servo motor fixing plate. The horizontal moving device comprises a driven bevel gear connecting plate sliding rail plate on the right side of the fixed foot plate. The vertical moving device comprises a vertical sliding block connected with the fixed plate.

The servo motor fixing plate is fixedly arranged on the bottom plate, the right side supporting plate is fixedly arranged on the right side of the upper surface of the bottom plate, the left side supporting plate is fixedly arranged on the left side of the upper surface of the bottom plate, the turbine connecting shaft is rotatably arranged in a right side shaft hole of the bottom plate, the upside left driven shaft is rotatably arranged in a left side shaft hole of the bottom plate, the upside left driven bevel gear is rotatably arranged on the turbine connecting shaft and positioned above the upside left driven straight gear, the fixing foot plate is provided with two parts which are respectively and fixedly arranged on the left side and the right side of the upper surface of the bottom plate, the right driven bevel gear is rotatably arranged on the right driven shaft, the right driven bevel gear and the upside left driven bevel gear form gear engagement, the connecting plate is fixedly arranged on the left upper surface of the rack fixing plate, the sliding rail plates are fixedly arranged on the left side and the right side of the rack fixing plate respectively, and the vertical sliding blocks are in sliding fit with the two sliding rail plates respectively.

The moving device also comprises a transmission bin, a side plate, a stepping motor, a driving bevel gear, a right driven shaft, a driven bevel gear, a driven spur gear, a left driven shaft, a left driven spur gear, a left driven belt pulley, a fixing plate, a right belt pulley driven shaft, a right belt pulley and a belt, wherein the transmission bin is fixedly arranged on the right upper surface of the bottom plate, the side plate is fixedly arranged on the left upper surface of the transmission bin, the stepping motor is fixedly arranged on the transmission bin, the driving bevel gear is rotatably arranged on the stepping motor, the right driven shaft is rotatably arranged in a shaft hole at the right side of the transmission bin, the driven bevel gear is rotatably arranged on the right driven shaft, the driven bevel gear is in gear engagement with the driving bevel gear, the driven bevel gear is rotatably arranged on the right driven shaft and positioned at the left side of the driven bevel gear, and two ends of the left driven shaft are, the left driven spur gear rotate and install on left driven shaft, left driven spur gear and driven spur gear form gear engagement, left driven pulley rotate and install the centre that lies in transmission storehouse and curb plate on left driven shaft, the fixed plate have two respectively fixed mounting in the left and right sides in transmission storehouse, the both ends of right belt pulley driven shaft rotate respectively and install on two fixed plates, right belt pulley rotate and install on right belt pulley driven shaft.

The transmission device also comprises a servo motor, a right driving bevel gear, a worm connecting shaft, a middle driven bevel gear, a worm wheel, an upper driven straight gear, an upper left driven shaft and an upper left driven straight gear, the servo motor is fixedly arranged on a servo motor fixing plate, the right driving bevel gear is rotatably arranged on the servo motor, the worm connecting shaft is rotatably arranged on a right support plate, the middle driven bevel gear is rotatably arranged on the worm connecting shaft, the middle driven bevel gear and the right driving bevel gear form gear engagement, the worm is rotatably arranged on the left support plate, the worm is welded with the worm connecting shaft, the worm wheel is rotatably arranged on the worm connecting shaft, the worm wheel and the worm form gear engagement, the upper driven straight gear is rotatably arranged above the worm wheel on the worm connecting shaft, the upper left driven spur gear is rotatably arranged on the upper left driven shaft, and the upper left driven spur gear and the upper driven spur gear form gear meshing.

Horizontal migration device still include backup pad, downside connecting plate, right side driven shaft, middle driven spur gear, slider, rack fixed plate and rack, the backup pad have two respectively fixed mounting on two fixed baseboards, downside connecting plate fixed mounting at the middle lower surface of two backup pads, the right side driven shaft rotate and install in the right side backup pad, middle driven spur gear rotate and install on the right side driven shaft, rack fixed plate fixed mounting in the centre of two sliders, rack fixed mounting at the lower surface of rack fixed plate, rack and middle driven spur gear form gear engagement.

The vertical moving device also comprises an asynchronous motor fixing plate, an asynchronous motor, a left shaft supporting plate, a driving straight gear, a lower driven shaft, a lower driven straight gear, a lower driven helical gear, a lower right driven shaft, a lower right driven helical gear, a right shaft connecting plate, a lower left driven shaft, a lower left driven helical gear, a lower left driven straight gear and a vertical rack, wherein the asynchronous motor fixing plate is fixedly arranged on the connecting fixing plate, the asynchronous motor is fixedly arranged on the asynchronous motor fixing plate, the left shaft supporting plate is fixedly arranged on the middle upper surface of the connecting fixing plate, the driving straight gear is rotatably arranged on the asynchronous motor, the lower driven shaft is rotatably arranged in a right shaft hole of the left shaft supporting plate, the lower driven straight gear is rotatably arranged on the lower driven shaft, and the lower driven straight gear and the driving straight gear form gear meshing, the lower driven bevel gear is rotatably arranged on a lower driven shaft and positioned on the right side of the lower driven straight gear, the lower right driven shaft is rotatably arranged in a right shaft hole of the connecting and fixing plate, the lower right driven bevel gear is rotatably arranged on the lower right driven shaft, the lower right driven bevel gear and the lower driven bevel gear form gear engagement, the right shaft connecting plate is fixedly arranged on the upper right surface of the connecting and fixing plate, the lower left driven shaft is rotatably arranged on a right shaft connecting plate, the lower left driven bevel gear is rotatably arranged on the lower left driven shaft, the lower left driven bevel gear and the lower right driven bevel gear form gear engagement, the lower left driven straight gear is rotatably arranged on the lower left driven shaft and positioned on the rear side of the lower left driven bevel gear, and the vertical rack is fixedly arranged on the inner sides of the two vertical sliding blocks, the vertical rack and the left driven spur gear on the lower side form gear engagement, the supporting plate is fixedly installed on the vertical sliding block, and the two guard plates are respectively and fixedly installed on the left side and the right side of the supporting plate.

Furthermore, the belt is in belt transmission engagement with the right belt pulley and the left driven belt pulley.

Further, the belt is in gear engagement with the right pulley and the left driven pulley.

Furthermore, the two sliding blocks are respectively in sliding fit with the two supporting plates.

Compared with the prior art, the invention has the beneficial effects that: (1) the invention can automatically reduce the entering height of the equipment and improve the safety coefficient. (2) The invention can adapt to infants of various ages and can automatically adjust according to the height of the infant. (3) The invention can automatically perform passive movement on the infants entering the equipment and promote digestion.

Drawings

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

Fig. 2 is a schematic view of the exercise apparatus of the present invention.

Fig. 3 is a schematic view of the internal assembly of the transmission of the present invention.

FIG. 4 is a schematic view of the transmission of the present invention.

Fig. 5 is a schematic view of the internal assembly of the horizontal movement apparatus of the present invention.

Fig. 6 is a schematic view of the internal assembly of the vertical movement device of the present invention.

FIG. 7 is a schematic view of a vertical movement device according to the present invention.

Reference numerals: 1-a motion device; 2-a transmission device; 3-a horizontal moving device; 4-a vertical movement device; 101-a base plate; 102-a transmission bin; 103-side plate; 104-a stepper motor; 105-a driving bevel gear; 106-right driven shaft; 107-driven bevel gear; 108-a driven spur gear; 109-left driven shaft; 110-left driven spur gear; 111-left driven pulley; 112-a fixing plate; 113-right pulley driven shaft; 114-a right pulley; 115-a belt; 201-servo motor fixing plate; 202-a servo motor; 203-right driving bevel gear; 204-right support plate; 205-worm connecting shaft; 206-intermediate driven bevel gear; 207-left support plate; 208-a worm; 209-turbine connection shaft; 210-a turbine; 211-upper driven spur gear; 212-upper left driven shaft; 213-upper left driven spur gear; 214-upper left driven bevel gear; 301-fixed foot plate; 302-a support plate; 303-lower side connection plate; 304-right driven shaft; 305-right driven bevel gear; 306-intermediate driven spur gear; 307-a slide block; 308-rack fixed plate; 309-rack; 310-a connecting plate; 311-a slide plate; 401-connecting the fixing plate; 402-asynchronous machine fixed plate; 403-asynchronous machine; 404-left shaft support plate; 405-a spur gear drive; 406-a lower driven shaft; 407-lower driven spur gear; 408-lower driven bevel gear; 409-lower right driven shaft; 410-lower right driven bevel gear; 411-right-side shaft connection plate; 412-lower left driven shaft; 413-lower left driven bevel gear; 414-lower left driven spur gear; 415-vertical slider; 416-a vertical rack; 417-a pallet; 418-guard plate.

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.

The infant digestion promoting device shown in fig. 1, 2, 3, 4, 5, 6 and 7 comprises a motion device 1, a transmission device 2, a horizontal moving device 3 and a vertical moving device 4.

The movement device 1 comprises a base plate 101. The transmission device 2 comprises a servo motor fixing plate 201, a right supporting plate 204, a left supporting plate 207, a turbine connecting shaft 209 and an upper left driven bevel gear 214. The horizontal moving device 3 comprises a driven bevel gear 305 at the right side of a fixed foot plate 301 and a slide rail plate 311 connected with a connecting plate 310. The vertical moving means 4 includes a vertical slider 415 connected to the fixed plate 401.

The servo motor fixing plate 201 is fixedly installed on the bottom plate 101, the right side supporting plate 204 is fixedly installed on the right side of the upper surface of the bottom plate 101, the left side supporting plate 207 is fixedly installed on the left side of the upper surface of the bottom plate 101, the turbine connecting shaft 209 is rotatably installed in the right side shaft hole of the bottom plate 101, the upper side left driven shaft 212 is rotatably installed in the left side shaft hole of the bottom plate 101, the upper side left driven bevel gear 214 is rotatably installed on the turbine connecting shaft 209 above the upper side left driven spur gear 213, the fixing foot plate 301 is provided with two blocks which are respectively fixedly installed on the left and right sides of the upper surface of the bottom plate 101, the right side driven bevel gear 305 is rotatably installed on the right side driven shaft 304, the right side driven bevel gear 305 and the upper side left driven bevel gear 214 form gear engagement, the connecting plate 310 is fixedly installed on the left side upper, the vertical slide 415 has two blocks which are slidably engaged with the two slide plates 311.

The movement device 1 further comprises a transmission bin 102, a side plate 103, a stepping motor 104, a driving bevel gear 105, a right driven shaft 106, a driven bevel gear 107, a driven spur gear 108, a left driven shaft 109, a left driven spur gear 110, a left driven pulley 111, a fixing plate 112, a right pulley driven shaft 113, a right pulley 114 and a belt 115, wherein the transmission bin 102 is fixedly arranged on the upper right surface of the base plate 101, the side plate 103 is fixedly arranged on the upper left surface of the transmission bin 102, the stepping motor 104 is fixedly arranged on the transmission bin 102, the driving bevel gear 105 is rotatably arranged on the stepping motor 104, the stepping motor 104 is a power source, the driving bevel gear 105 is driven to rotate when the stepping motor 104 rotates, the right driven shaft 106 is rotatably arranged in a shaft hole on the right side of the transmission bin 102, the bevel gear 107 is rotatably arranged on the right driven shaft 106, the driven bevel gear 107 forms gear engagement with the driving bevel gear 105, the driven, when the driving bevel gear 105 rotates, the driving bevel gear 107 and a driven spur gear 108 synchronously connected with the driving bevel gear are driven to rotate synchronously, two ends of a left driven shaft 109 are respectively and rotatably arranged on the side plate 103 and the transmission bin 102, a left driven spur gear 110 is rotatably arranged on the left driven shaft 109, the left driven spur gear 110 and the driven spur gear 108 form gear engagement, a left driven pulley 111 is rotatably arranged on the left driven shaft 109 and is positioned between the transmission bin 102 and the side plate 103, when the driven spur gear 108 rotates, the left driven spur gear 110 and the left driven pulley 111 synchronously connected with the left driven spur gear are driven to synchronously rotate, two fixing plates 112 are respectively and fixedly arranged at the left side and the right side of the transmission bin 102, two ends of a driven shaft 113 of a right pulley are respectively and rotatably arranged on the two fixing plates 112, a right pulley 114 is rotatably arranged on the driven shaft 113 of the right pulley, when the left driven pulley 111 rotates, the right pulley 114 is driven by the belt 115 to synchronously drive.

The transmission device 2 further comprises a servo motor 202, a right driving bevel gear 203, a worm connecting shaft 205, a middle driven bevel gear 206, a worm 208, a worm wheel 210, an upper driven spur gear 211, an upper left driven shaft 212 and an upper left driven spur gear 213, wherein the servo motor 202 is fixedly arranged on a servo motor fixing plate 201, the right driving bevel gear 203 is rotatably arranged on the servo motor 202, the servo motor 202 is a power source and drives the right driving bevel gear 203 to rotate when the servo motor 202 rotates, the worm connecting shaft 205 is rotatably arranged on a right supporting plate 204, the middle driven bevel gear 206 is rotatably arranged on the worm connecting shaft 205, the middle driven bevel gear 206 and the right driving bevel gear 203 form gear engagement, the worm 208 is rotatably arranged on the left supporting plate 207, and when the right driving bevel gear 203 rotates, the middle driven bevel gear 206 and the worm 208 synchronously connected with the middle driven bevel, the worm 208 is connected with the worm connecting shaft 205 in a welding mode, the worm wheel 210 is installed on the worm wheel connecting shaft 209 in a rotating mode, the worm wheel 210 and the worm 208 form gear meshing, the upper driven spur gear 211 is installed on the worm wheel connecting shaft 209 in a rotating mode and located above the worm wheel 210, when the worm 208 rotates, the worm wheel 210 and the upper driven spur gear 211 synchronously connected with the worm wheel 210 are driven to rotate synchronously, the upper left driven spur gear 213 is installed on the upper left driven shaft 212 in a rotating mode, the upper left driven spur gear 213 and the upper driven spur gear 211 form gear meshing, and when the upper driven spur gear 211 rotates, the upper left driven spur gear 213 and the upper left driven helical gear 214 synchronously connected with the upper left driven spur gear 213.

The horizontal moving device 3 also comprises a supporting plate 302, a lower connecting plate 303, a right driven shaft 304, a middle driven spur gear 306, a sliding block 307, a rack fixing plate 308 and a rack 309, wherein two supporting plates 302 are respectively and fixedly arranged on two fixed foot plates 301, the lower connecting plate 303 is fixedly arranged on the middle lower surface of the two supporting plates 302, the right driven shaft 304 is rotatably arranged on the right supporting plate 204, the middle driven spur gear 306 is rotatably arranged on the right driven shaft 304, when the upper left driven helical gear 214 rotates, the right driven helical gear 305 and the middle driven spur gear 306 synchronously connected with the right driven helical gear are driven to synchronously rotate, the rack fixing plate 308 is fixedly installed between the two sliding blocks 307, the rack 309 is fixedly installed on the lower surface of the rack fixing plate 308, the rack 309 and the middle driven spur gear 306 form gear engagement, and the middle driven spur gear 306 drives the rack 309 to move when rotating.

The vertical moving device 4 further comprises an asynchronous motor fixing plate 402, an asynchronous motor 403, a left shaft support plate 404, a driving spur gear 405, a lower driven shaft 406, a lower driven spur gear 407, a lower driven helical gear 408, a lower right driven shaft 409, a lower right driven helical gear 410, a right shaft connection plate 411, a lower left driven shaft 412, a lower left driven helical gear 413, a lower left driven spur gear 414, and a vertical rack 416, wherein the asynchronous motor fixing plate 402 is fixedly installed on the connection fixing plate 401, the asynchronous motor 403 is fixedly installed on the asynchronous motor fixing plate 402, the left shaft support plate 404 is fixedly installed on the middle upper surface of the connection fixing plate 401, the driving spur gear 405 is rotatably installed on the asynchronous motor 403, the asynchronous motor 403 is a transmission source, when the asynchronous motor 403 rotates, the driving spur gear 405 is driven to rotate, the lower driven shaft 406 is rotatably installed in the right shaft hole of the left shaft, a lower driven spur gear 407 is rotatably mounted on a lower driven shaft 406, the lower driven spur gear 407 is in gear engagement with a driving spur gear 405, a lower driven helical gear 408 is rotatably mounted on the lower driven shaft 406 on the right side of the lower driven spur gear 407, the driving spur gear 405 rotates to drive the lower driven spur gear 407 and the lower driven helical gear 408 synchronously connected therewith to rotate synchronously, a lower right driven shaft 409 is rotatably mounted in a right shaft hole of the connection fixing plate 401, a lower right driven helical gear 410 is rotatably mounted on a lower right driven shaft 409, the lower right driven helical gear 410 is in gear engagement with the lower driven helical gear 408, the lower right driven helical gear 408 rotates to drive the lower right driven helical gear 410 to rotate, a right shaft connecting plate 411 is fixedly mounted on the right upper surface of the connection fixing plate 401, a lower left driven shaft 412 is rotatably mounted on the right shaft connecting plate 411, and a lower left driven helical gear 413 is rotatably mounted on the lower left, the lower left driven helical gear 413 is in gear engagement with the lower right driven helical gear 410, the lower left driven spur gear 414 is rotatably installed on the lower left driven shaft 412 and is positioned at the rear side of the lower left driven helical gear 413, the lower left driven helical gear 413 is driven to synchronously rotate with the lower left driven spur gear 414 synchronously connected with the lower left driven helical gear when the lower right driven helical gear 410 rotates, the vertical rack 416 is fixedly installed on the inner sides of the two vertical sliding blocks 415, the vertical rack 416 is in gear engagement with the lower left driven spur gear 414, the vertical rack 416 is driven to move when the lower left driven spur gear 414 rotates, the supporting plate 417 is fixedly installed on the vertical sliding blocks 415, and the two protective plates 418 are respectively and fixedly installed on the left side and the right side of the supporting plate 417.

The belt 115 is in belt driving engagement with the right pulley 114 and the left driven pulley 111. The belt 115 is in gear engagement with the right pulley 114 and the left driven pulley 111. The two sliding blocks 307 are respectively in sliding fit with the two supporting plates 302.

Claims

1. An infant digestion promoting device, characterized by: including telecontrol equipment (1), transmission (2), horizontal migration device (3) and vertical migration device (4), its characterized in that:

the movement device (1) comprises a bottom plate (101);

the transmission device (2) comprises a servo motor fixing plate (201), a right side supporting plate (204), a left side supporting plate (207), a left driven bevel gear (214) on the upper side of a turbine connecting shaft (209);

the horizontal moving device (3) comprises a fixed foot plate (301), a driven bevel gear (305) at the right side, a connecting plate (310) and a sliding rail plate (311);

the vertical moving device 4 comprises a vertical sliding block (415) connected with a fixed plate (401);

servo motor fixed plate (201) fixed mounting on bottom plate (101), right side backup pad (204) fixed mounting on the right side of the upper surface of bottom plate (101), left side backup pad (207) fixed mounting in the left side of the upper surface of bottom plate (101), turbine connecting axle (209) rotate and install in the right side shaft hole of bottom plate (101), upside left driven shaft (212) rotate and install in the left side shaft hole of bottom plate (101), upside left driven helical gear (214) rotate and install the top that lies in upside left driven straight-tooth gear (213) on turbine connecting axle (209), fixed sole (301) have two respectively the left and right sides of fixed mounting at the upper surface of bottom plate (101), right side driven helical gear (305) rotate and install on right side driven shaft (304), right side driven helical gear (305) and upside left driven helical gear (214) form gear engagement, the connecting plate (310) is fixedly arranged on the upper surface of the left side of the rack fixing plate (308), the connecting fixing plate (401) is fixedly arranged on the connecting plate (310), two sliding rail plates (311) are respectively and fixedly arranged on the left side and the right side of the rack fixing plate (308), and two vertical sliding blocks (415) are respectively in sliding fit with the two sliding rail plates (311).

2. An infant digestion promoting apparatus as defined in claim 1, wherein: the telecontrol equipment (1) still include transmission storehouse (102), curb plate (103), step motor (104), initiative helical gear (105), right driven shaft (106), driven helical gear (107), driven spur gear (108), left driven shaft (109), left driven spur gear (110), left driven pulley (111), fixed plate (112), right pulley driven shaft (113), right pulley (114) and belt (115), transmission storehouse (102) fixed mounting on the right side upper surface of bottom plate (101), curb plate (103) fixed mounting on the left side upper surface of transmission storehouse (102), step motor (104) fixed mounting on transmission storehouse (102), initiative helical gear (105) rotate and install on step motor (104), right driven shaft (106) rotate and install in transmission storehouse (102) right side shaft hole, step motor (104), driven helical gear (107) rotate and install on right driven shaft (106), driven helical gear (107) and initiative helical gear (105) form gear engagement, driven spur gear (108) rotate and install the left side that lies in driven helical gear (107) on right driven shaft (106), the both ends of left driven shaft (109) rotate respectively and install on curb plate (103) and transmission storehouse (102), left driven spur gear (110) rotate and install on left driven shaft (109), left driven spur gear (110) and driven spur gear (108) form gear engagement, left driven pulley (111) rotate and install the centre that lies in transmission storehouse (102) and curb plate (103) on left driven shaft (109), fixed plate (112) have two respectively fixed mounting in the left and right sides of transmission storehouse (102), the both ends of right pulley driven shaft (113) rotate respectively and install on two fixed plates (112), the right belt pulley (114) is rotatably arranged on a right belt pulley driven shaft (113).

3. An infant digestion promoting apparatus as defined in claim 1, wherein: transmission (2) still include servo motor (202), right driving helical gear (203), worm connecting axle (205), middle driven helical gear (206), worm (208), turbine (210), go up driven spur gear (211), upside left driven shaft (212) and upside left driven spur gear (213), servo motor (202) fixed mounting on servo motor fixed plate (201), right driving helical gear (203) rotate and install on servo motor (202), worm connecting axle (205) rotate and install on right side backup pad (204), middle driven helical gear (206) rotate and install on worm connecting axle (205), middle driven helical gear (206) and right driving helical gear (203) form gear engagement, worm (208) rotate and install on left side backup pad (207), worm (208) and worm connecting axle (205) welded connection, turbine (210) rotate and install on turbine connecting axle (209), turbine (210) and worm (208) form gear engagement, last driven spur gear (211) rotate and install the top that lies in turbine (210) on turbine connecting axle (209), upside left driven spur gear (213) rotate and install on upside left driven shaft (212), upside left driven spur gear (213) and last driven spur gear (211) form gear engagement.

4. An infant digestion promoting apparatus as defined in claim 1, wherein: the horizontal moving device (3) also comprises a supporting plate (302), a lower side connecting plate (303), a right side driven shaft (304), a middle driven straight gear (306), a sliding block (307), a rack fixing plate (308) and a rack (309), two support plates (302) are respectively and fixedly arranged on the two fixed foot plates (301), the lower side connecting plate (303) is fixedly arranged on the lower surface of the middle of the two supporting plates (302), the right driven shaft (304) is rotatably arranged on the right supporting plate (204), the middle driven spur gear (306) is rotationally arranged on the right driven shaft (304), the rack fixing plate (308) is fixedly arranged between the two sliding blocks (307), the rack (309) is fixedly arranged on the lower surface of the rack fixing plate (308), the rack (309) is in gear engagement with the intermediate driven spur gear (306).

5. An infant digestion promoting apparatus as defined in claim 1, wherein: the vertical moving device (4) further comprises an asynchronous motor fixing plate (402), an asynchronous motor (403), a left side shaft supporting plate (404), a driving straight gear (405), a lower driven shaft (406), a lower driven straight gear (407), a lower driven helical gear (408), a lower right driven shaft (409), a lower right driven helical gear (410), a right side shaft connecting plate (411), a lower left driven shaft (412), a lower left driven helical gear (413), a lower left driven straight gear (414) and a vertical rack (416), wherein the asynchronous motor fixing plate (402) is fixedly arranged on the connecting fixing plate (401), the asynchronous motor (403) is fixedly arranged on the asynchronous motor fixing plate (402), the left side shaft supporting plate (404) is fixedly arranged on the middle upper surface of the connecting fixing plate (401), the driving straight gear (405) is rotatably arranged on the asynchronous motor (403), the lower driven shaft (406) rotates and is installed in the right shaft hole of the left shaft supporting plate (404), the lower driven spur gear (407) rotates and is installed on the lower driven shaft (406), the lower driven spur gear (407) and the driving spur gear (405) form gear engagement, the lower driven helical gear (408) rotates and is installed on the lower driven shaft (406) on the right side of the lower driven spur gear (407), the lower right driven shaft (409) rotates and is installed in the right shaft hole of the connecting and fixing plate (401), the lower right driven helical gear (410) rotates and is installed on the lower right driven shaft (409), the lower right driven helical gear (410) and the lower helical gear (408) form gear engagement, the right shaft connecting plate (411) is fixedly installed on the right upper surface of the connecting and fixing plate (401), the lower left driven shaft (412) rotates and is installed on the right shaft connecting plate (411), downside left driven helical gear (413) rotate and install on downside left driven shaft (412), downside left driven helical gear (413) form gear engagement with downside right driven helical gear (410), downside left driven spur gear (414) rotate and install the rear side that lies in downside left driven helical gear (413) on downside left driven shaft (412), perpendicular rack (416) fixed mounting in the inboard of two perpendicular sliders (415), perpendicular rack (416) and downside left driven spur gear (414) form gear engagement, layer board (417) fixed mounting on perpendicular slider (415), backplate (418) have two respectively fixed mounting in the left and right sides of layer board (417).

6. An infant digestion promoting apparatus as defined in claim 1, wherein: the belt (115) is in belt driving engagement with the right pulley (114) and the left driven pulley (111).

7. An infant digestion promoting apparatus as defined in claim 1, wherein: the belt (115) is in gear engagement with the right pulley (114) and the left driven pulley (111).

8. An infant digestion promoting apparatus as defined in claim 1, wherein: the two sliding blocks (307) are respectively in sliding fit with the two supporting plates 302.