Baby bears mobile device
Technical Field
The invention relates to the field of function improvement of a baby carriage, in particular to a baby carrying and moving device.
Background
Along with the continuous progress of society, the living standard of people has also changed, the continuous innovation of science and technology, more science and technology products have also appeared in people's life, for the perambulator, some parents can push child to do shopping when going to the vegetable market with child, but because the function of perambulator is limited, can not better bear the weight of thing, ordinary perambulator also can bear some article that weight is lighter, can not fine satisfy people's demand, consequently in order to satisfy people's demand, in the in-process that promotes child, do not delay bearing heavier article, it is very necessary to design a multi-functional baby and bear device.
Disclosure of Invention
The invention aims to solve the problems and designs an infant bearing and moving device.
The technical scheme of the invention is that the infant bearing and moving device comprises a first rectangular base, wherein a bearing mechanism is arranged on the upper surface of the first rectangular base, a sundry bearing mechanism is arranged on the lower surface of the first rectangular base, a group of first rotating round shafts is arranged at the center of the first rectangular base, a group of second rotating round shafts perpendicular to the group of first rotating round shafts is arranged at the center of the upper surface of the first rectangular base, a moving mechanism is arranged on the side surface of the first rectangular base, a mosquito repelling mechanism is arranged on the side surface of the first rectangular base and on the rear side of the moving mechanism, a pushing mechanism is arranged on the rear side surface of the first rectangular base, and the sundry bearing mechanism comprises two groups of first strip-shaped bearing blocks arranged at the edge of the lower surface of the first rectangular base, a group of first round grooves formed in the lower surface of each first strip-shaped bearing block, a pushing mechanism is arranged on, A first miniature rotating motor embedded in each first round groove and with a downward rotating end, a folded spring clamp which is hinged on two opposite side surfaces of each first strip-shaped bearing block and is matched with a corresponding group of first miniature rotating motors, an arc-shaped fastening frame arranged on one end surface of each folded spring clamp, a first rotating bearing sleeved on the rotating end of each first miniature rotating motor, a first swinging arm sleeved on each first rotating bearing, a group of vertical rings arranged on one end surface of each first swinging arm, a third rotating round shaft embedded in each group of vertical rings, limiting round plates arranged on two end surfaces of each third rotating round shaft, a rectangular uncovered bearing basket sleeved on each third rotating round shaft, a first strip-shaped notch arranged on the lower surface of each rectangular uncovered bearing basket, a second strip-shaped notch arranged on the lower surface of each first swinging arm and overlapped with the corresponding first strip-shaped notch, a second strip-shaped notch arranged on the lower surface of each third rotating round shaft, a second strip-shaped notch arranged on the lower surface of each second swinging arm, a second strip-shaped notch arranged on, The device comprises a group of horizontal sliding grooves formed in two opposite side surfaces in each first strip-shaped groove and each second strip-shaped groove, a first moving plate arranged in each first strip-shaped groove, a first sliding strip fixedly connected to the two opposite side surfaces of each first moving plate and matched with the corresponding group of horizontal sliding grooves, a second moving plate arranged in each second strip-shaped groove, a group of second sliding strips arranged on the two opposite side surfaces of each second moving plate and matched with the corresponding horizontal sliding grooves, and a connecting circular shaft arranged between each first moving plate and the corresponding second moving plate, wherein the lower surface of the first rectangular base is fixedly connected with a group of N-shaped frames, the group of N-shaped frames are movably connected with a storage battery, a controller is arranged on the side surface of the first rectangular base, and the input end of the controller is electrically connected with the storage battery through a lead, the output end of the controller is electrically connected with the first micro rotating motor through a lead.
The mosquito repelling mechanism consists of a group of second circular grooves formed in the two opposite side surfaces of a first rectangular base, a first compression spring embedded in each second circular groove, a first magnet arranged in each second circular groove and positioned in the first compression spring, a circular fixing shell fixedly connected with one end surface of each first compression spring, an iron block fixedly connected with the rear side surface of each circular fixing shell and matched with the corresponding first magnet, a third circular groove formed in the upper surface of each circular fixing shell, a second miniature rotating motor embedded in each third circular groove and with an upward rotating end, a mosquito repelling swinging rod sleeved on the rotating end of each second miniature rotating motor, a circular fixing disk arranged on the upper surface of each mosquito repelling swinging rod, a plurality of cylindrical bulges arranged on the side surface of each circular fixing disk and a tassel strip sleeved on each cylindrical bulge, the output end of the controller is electrically connected with the second miniature rotating motor through a lead.
Bear the mechanism by opening two sets of rectangle recess No. one at rectangle base upper surface, inlay the vertical rectangle post of dress in every rectangle recess, the setting bears the string bag at the rectangle of two sets of vertical rectangle post upper surfaces, fixed connection is at the ring rail of a rectangle base upper surface edge, the elasticity inoxidizing coating of suit on the ring rail, a set of connecting rod No. one on the ring rail side surface of hinged joint, hinged joint is No. two connecting rods on every connecting rod, the setting shelters from cloth on a set of connecting rod and a set of No. two connecting rods and constitutes jointly.
The moving mechanism is composed of two groups of moving arms fixedly connected to the two opposite side surfaces of the first rectangular base, a group of horizontal cylinders arranged on the two opposite side surfaces of each moving arm and perpendicular to the moving arms, supporting arms sleeved on each horizontal cylinder, second rotating bearings sleeved on each supporting arm, rotating frames sleeved on each second rotating bearing, and rolling wheels arranged on each rotating frame.
The pushing mechanism is composed of a group of rectangular blocks arranged on the side surface of the first rectangular base, a pushing rod arranged on the front surface of each rectangular block, a group of rotating rods arranged among the group of pushing rods, and movable joints arranged among the group of rotating rods.
The number of the plurality of cylindrical protrusions is 4-6.
The lower surface of the first rectangular base is hinged with a circular spring net.
The controller is a controller of MAM-260A, and the storage battery is a battery of WDKH-F.
And a PLC control system is arranged in the controller.
The controller is provided with a capacitive touch screen, and the output end of the controller is electrically connected with the capacitive touch screen through a wire.
The baby carrying and moving device manufactured by the technical scheme of the invention has the advantages of simple structure, good usability, strong reliability, good moving effect and large weight of carried articles, and meets the requirements of people.
Drawings
FIG. 1 is a schematic view of a multi-functional infant carrying mobile device according to the present invention;
FIG. 2 is a top view of a multi-function infant carrying mobile device of the present invention;
FIG. 3 is a top view of a rectangular base of the multifunctional infant carrier mobility device of the present invention;
FIG. 4 is a bottom view of a rectangular uncovered carrying basket of the multi-functional infant carrying mobility device of the present invention;
FIG. 5 is an enlarged view of a portion of the sundries carrying mechanism of the multifunctional infant carrying and moving device of the present invention;
in the figure, 1, a first rectangular base; 2. rotating the round shaft; 3. rotating the round shaft; 4. a first strip-shaped bearing block; 5. a first circular groove; 6. a first micro rotating electrical machine; 7. a fold-shaped spring gripper; 8. an arc-shaped fastening frame; 9. a first rotating bearing; 10. a first swing arm; 11. a vertical circular ring; 12. rotating the circular shaft; 13. a limiting circular plate; 14. a rectangular uncovered carrying basket; 15. a first strip-shaped notch; 16. a second strip-shaped notch; 17. a horizontal chute; 18. moving a first board; 19. a first slide bar; 20. moving the board II; 21. a second slider; 22. connecting the round shaft; 23. an N-shaped frame; 24. a storage battery; 25. a controller; 26. a second circular groove; 27. a compression spring; 28. a first magnet; 29. a circular stationary housing; 30. an iron block; 31. a third circular groove; 32. a second miniature rotating electrical machine; 33. a mosquito repelling swing rod; 34. a circular fixed disk; 35. a cylindrical bulge; 36. tassel strips; 37. a first rectangular groove; 38. a vertical rectangular column; 39. a rectangular bearing net bag; 40. a circular fence; 41. an elastic protective layer; 42. a first connecting rod; 43. a second connecting rod; 44. a shielding cloth; 45. a moving arm; 46. a horizontal cylinder; 47. a support arm; 48. a second rotating bearing; 49. a rotating frame; 50. a rolling wheel; 51. a rectangular block; 52. a push rod; 53. rotating the rod; 54. a movable joint; 55. a circular spring net; 56. a PLC control system; 57. a capacitive touch screen.
Detailed Description
The invention is described in detail below with reference to the accompanying drawings, and as shown in fig. 1-5, the baby carrying and moving device comprises a first rectangular base (1), wherein a carrying mechanism is arranged on the upper surface of the first rectangular base (1), a sundry carrying mechanism is arranged on the lower surface of the first rectangular base (1), a group of first rotating round shafts (2) is arranged at the center of the first rectangular base (1), a group of second rotating round shafts (3) perpendicular to the group of first rotating round shafts (2) is arranged at the center of the upper surface of the first rectangular base (1), a moving mechanism is arranged on the side surface of the first rectangular base (1), a mosquito repelling mechanism is arranged on the side surface of the first rectangular base (1) and behind the moving mechanism, a pushing mechanism is arranged on the rear side surface of the first rectangular base (1), and the sundry carrying mechanism is composed of two groups of first strip-shaped carrying blocks (4) and second strip-shaped carrying blocks (4) arranged at the edges of the lower surface of the first rectangular base (1, A group of first circular grooves (5) formed in the lower surface of each first strip-shaped bearing block (4), a first miniature rotating motor (6) embedded in each first circular groove (5) and with a downward rotating end, a folded spring clamping hand (7) hinged to the two opposite side surfaces of each first strip-shaped bearing block (4) and matched with the corresponding group of first miniature rotating motors (6), an arc-shaped fastening frame (8) arranged on one end face of each folded spring clamping hand (7), a rotating bearing (9) sleeved on the rotating end of each first miniature rotating motor (6), a swinging arm (10) sleeved on each first rotating bearing (9), a group of vertical rings (11) arranged on one end face of each swinging arm (10), a third rotating circular shaft (12) embedded in each group of vertical rings (11), a limiting circular plate (13) arranged on the face of each third rotating circular shaft (12), and a first rotating shaft (6) and a second rotating shaft (9) arranged on the other end face of each third rotating shaft, The rectangular uncovered bearing basket (14) sleeved on each third rotary circular shaft (12), a first strip-shaped groove (15) formed in the lower surface of each rectangular uncovered bearing basket (14), a second strip-shaped groove (16) formed in the lower surface of each first swing arm (10) and overlapped with the corresponding first strip-shaped groove (15), a group of horizontal sliding grooves (17) formed in two opposite side surfaces of each first strip-shaped groove (15) and each second strip-shaped groove (16), a first moving plate (18) arranged in each first strip-shaped groove (15), a group of first sliding strips (19) fixedly connected to the two opposite side surfaces of each first moving plate (18) and matched with the corresponding group of horizontal sliding grooves (17), a second moving plate (20) arranged in each second strip-shaped groove (16), a group of second sliding strips (21) arranged on the two opposite side surfaces of each second moving plate (20) and matched with the corresponding horizontal sliding grooves (17), The device comprises a first moving plate (18), a second moving plate (20) and a connecting circular shaft (22), wherein the connecting circular shaft is arranged between the first moving plate and the second moving plate, the lower surface of the first rectangular base (1) is fixedly connected with a group of N-shaped frames (23), a storage battery (24) is movably connected onto the group of N-shaped frames (23), a controller (25) is arranged on the side surface of the first rectangular base (1), the input end of the controller (25) is electrically connected with the storage battery (24) through a lead, and the output end of the controller (25) is electrically connected with a first micro rotating motor (6) through a lead; the mosquito repelling mechanism comprises a group of second round grooves (26) formed in two opposite side surfaces of a first rectangular base (1), a first compression spring (27) embedded in each second round groove (26), a first magnet (28) arranged in each second round groove (26) and positioned in the first compression spring (27), a round fixing shell (29) fixedly connected to one end surface of each first compression spring (27), an iron block (30) fixedly connected to the rear side surface of each round fixing shell (29) and matched with the corresponding first magnet (28), a third round groove (31) formed in the upper surface of each round fixing shell (29), a second micro rotary motor (32) embedded in each third round groove (31) and with an upward rotary end, a mosquito repelling swing rod (33) sleeved on the rotary end of each second micro rotary motor (32), and a mosquito repelling swing rod (33), The mosquito repelling swing rod comprises a circular fixed disk (34) arranged on the upper surface of each mosquito repelling swing rod (33), a plurality of cylindrical protrusions (35) arranged on the side surface of each circular fixed disk (34), and tassel strips (36) sleeved on the cylindrical protrusions (35), wherein the output end of the controller (25) is electrically connected with a second miniature rotating motor (32) through a lead; the bearing mechanism is composed of two groups of first rectangular grooves (37) formed in the upper surface of a first rectangular base (1), vertical rectangular columns (38) embedded in the first rectangular grooves (37), rectangular bearing net bags (39) arranged on the upper surfaces of the two groups of vertical rectangular columns (38), a circular ring fence (40) fixedly connected to the edge of the upper surface of the first rectangular base (1), an elastic protective layer (41) sleeved on the circular ring fence (40), a group of first connecting rods (42) hinged to the side surface of the circular ring fence (40), a second connecting rod (43) hinged to each first connecting rod (42), and shielding cloth (44) arranged on the group of first connecting rods (42) and the group of second connecting rods (43); the moving mechanism is composed of two groups of moving arms (45) fixedly connected to two opposite side surfaces of a first rectangular base (1), a group of horizontal cylinders (46) which are arranged on the two opposite side surfaces of each moving arm (45) and are vertical to the moving arms (45), supporting arms (47) sleeved on each horizontal cylinder (46), a second rotating bearing (48) sleeved on each supporting arm (47), a rotating frame (49) sleeved on each second rotating bearing (48), and rolling wheels (50) arranged on each rotating frame (49); the pushing mechanism is formed by a group of rectangular blocks (51) arranged on the side surface of the first rectangular base (1), pushing rods (52) arranged on the front surface of each rectangular block (51), a group of rotating rods (53) arranged among the group of pushing rods (52) and movable joints (54) arranged among the group of rotating rods (53); the number of the plurality of cylindrical protrusions (35) is 4-6; the lower surface of the first rectangular base (1) is hinged with a circular spring net (55); the controller (25) is a controller of MAM-260A, and the storage battery (24) is a battery of WDKH-F; a PLC control system (56) is arranged in the controller (25); the controller (25) is provided with a capacitive touch screen (57), and the output end of the controller (25) is electrically connected with the capacitive touch screen (57) through a lead.
The mosquito repelling device is characterized in that a bearing mechanism is arranged on the upper surface of a first rectangular base, a sundry bearing mechanism is arranged on the lower surface of the first rectangular base, a group of first rotating round shafts is arranged at the center of the first rectangular base, a group of second rotating round shafts perpendicular to the group of first rotating round shafts is arranged at the center of the upper surface of the first rectangular base, a moving mechanism is arranged on the side surface of the first rectangular base, a mosquito repelling mechanism is arranged on the side surface of the first rectangular base and on the rear side of the moving mechanism, a pushing mechanism is arranged on the rear side surface of the first rectangular base, the sundry bearing mechanism is composed of two groups of first bar-shaped bearing blocks arranged at the edge of the lower surface of the first rectangular base, a group of first circular grooves formed in the lower surface of each first bar-shaped bearing block, a first micro rotating motor embedded in each first circular groove and with a downward rotating end, and folded springs hinged to the two opposite side surfaces of each first bar-shaped bearing block and matched with the corresponding The device comprises a clamp, an arc fastening frame arranged on one end face of each zigzag spring clamp, a first rotating bearing sleeved on the rotating end of each first micro rotating motor, a first swing arm sleeved on each first rotating bearing, a group of vertical rings arranged on one end face of each first swing arm, a third rotating circular shaft embedded in each group of vertical rings, limiting circular plates arranged on two end faces of each third rotating circular shaft, a rectangular uncovered bearing basket sleeved on each third rotating circular shaft, a first strip-shaped notch formed in the lower surface of each rectangular uncovered bearing basket, a second strip-shaped notch formed in the lower surface of each first swing arm and overlapped with the corresponding first strip-shaped notch, a group of horizontal sliding grooves formed in two opposite side surfaces of each first strip-shaped notch and each second strip-shaped notch, a first moving plate arranged in each first strip-shaped notch, a second moving plate arranged in each first strip-shaped notch, a first rotating shaft arranged in the rotating circular shaft, a second rotating shaft arranged in the horizontal sliding grooves, and a second rotating shaft, The first sliding strips are fixedly connected to the two opposite side surfaces of each first moving plate and matched with the corresponding group of horizontal sliding grooves, the second moving plate is arranged in each second strip-shaped notch, the second sliding strips are arranged on the two opposite side surfaces of each second moving plate and matched with the corresponding horizontal sliding grooves, and a connecting circular shaft is arranged between each first moving plate and the corresponding second moving plate, the lower surface of the first rectangular base is fixedly connected with a group of N-shaped frames, the group of N-shaped frames are movably connected with a storage battery, the side surface of the first rectangular base is provided with a controller, the input end of the controller is electrically connected with the storage battery through a lead, the output end of the controller is electrically connected with the first micro rotating motor through a lead, the structure is simple, the usability is good, the reliability is high, the moving effect is good, and the weight of a load-bearing article is high, the device meets the requirements of people.
In this embodiment, the controller is first turned on and the entire device is started. The output end of the controller with the model of MAM-260A controls the operation of the first micro rotating motor, the second micro rotating motor and the capacitive touch screen through the conducting wire. The accumulator with the model of WDKH-F is used for providing electric energy. The PLC control system provides program support for the device and controls the whole device through the capacitive touch screen. When the whole device is started, a baby is placed on the rectangular bearing net bag on the vertical rectangular column, and the shading cloth is put down through the first connecting rod and the second connecting rod on the circular fence for shading. The device can move freely through a rotating rod and a movable joint pushing device on the pushing rod, a moving arm, a horizontal cylinder and a supporting arm supporting device, and through a second rotating bearing, a rotating frame and a rolling wheel. In the moving process of the device, the second miniature rotating motor drives the round fixed disc, the cylindrical protrusions and the tassel strips on the mosquito repelling swinging rod to rotate to repel mosquitoes. Wherein circular fixed shell is fixed and is dismantled through a compression spring, magnet and iron plate. The round spring net and the rectangular uncovered bearing basket can be used for containing sundries, the angle of the rectangular uncovered bearing basket can be adjusted through the first miniature rotating motor, the first swing arm and the rectangular uncovered bearing basket can be folded through the vertical circular ring, the third rotating circular shaft and the limiting circular plate, and the folding of the first swing arm and the rectangular uncovered bearing basket can be locked and released through the first movable plate, the first sliding strip, the second movable plate, the second sliding strip and the connecting circular shaft. A first rectangular base in the device can be folded through a first rotating round shaft and a second rotating round shaft, and the device is more convenient to store and carry.
The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.