CN114668266B

CN114668266B - A multifunctional swing carrier for infants and young children

Info

Publication number: CN114668266B
Application number: CN202210243175.XA
Authority: CN
Inventors: 李玮烨; 游詠富; 鄭信夫
Original assignee: Guangdong Roadmate Group Co Ltd
Current assignee: Guangdong Roadmate Group Co Ltd
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2025-03-04
Anticipated expiration: 2042-03-11
Also published as: CN114668266A

Abstract

The invention relates to a multifunctional infant swinging carrier which comprises a carrying unit, a chassis unit, a multidirectional swinging piece and a balancing assembly, wherein the balancing assembly comprises a front balancing element and a rear balancing element which are respectively positioned on the front side and the rear side of the carrying unit, and a plurality of relative angles between the carrying unit and the chassis unit are provided, so that the carrying unit has a plurality of relative positions with the chassis unit. According to the multifunctional infant swinging carrier, when an infant is taken, the carrying unit is driven to swing in multiple directions relative to the underframe unit through the multiple-direction swinging piece, the problem that the swinging direction is single and the swinging mode is single is solved, and the carrying unit swings in multiple directions within a safe range through the balance component. When the seat is touched from outside in this equilibrium state, the seat will generate unoriented micro-swing as if it were floating on water. The infant swaying carrier can achieve the multifunctional effect through the angle change of the carrying unit relative to the underframe unit.

Description

Multifunctional infant infant sways carrier

[ Field of technology ]

The invention relates to the field of infant products, in particular to a multifunctional infant swinging carrier.

[ Background Art ]

The existing rocking chair swings in a single direction or in a single mode, and if the ground is uneven in the swinging process, the rocking chair suddenly jumps, so that the loaded infants are easily frightened or uncomfortable.

[ Invention ]

The invention solves the technical problems that the existing rocking chair is inconvenient to fold and the swing amplitude is not adjustable, and provides a multifunctional infant swing carrier.

The invention is realized by the following technical scheme:

a multifunctional infant swing carrier comprises

The carrying unit is provided with a containing space for carrying infants, and an upper supporting frame is arranged on the carrying unit;

the underframe unit is positioned below the carrying unit, and a lower supporting frame is arranged on the underframe unit;

The multidirectional swinging piece is arranged between the upper support frame and the lower support frame and used for enabling the carrying unit to swing in a multidirectional manner relative to the underframe unit;

the balancing component is arranged between the carrying unit and the underframe unit so as to limit the multidirectional swinging range of the carrying unit relative to the underframe unit, and comprises a front balancing element and a rear balancing element which are respectively positioned at the front side and the rear side of the carrying unit;

the plurality of relative angles of the carrying unit and the underframe unit are provided, so that the carrying unit has a plurality of relative positions with the underframe unit.

In the multifunctional infant swing carrier, the upper support frame is suspended on the lower support frame through the multidirectional swinging piece, and/or the upper support frame part extends below the lower support frame at intervals.

The multifunctional infant swinging carrier is characterized in that the multidirectional swinging piece is a flexible piece or a rigid piece, and the upper end and the lower end of the multidirectional swinging piece are respectively and universally connected with the upper support frame and the lower support frame.

The multifunctional infant swing carrier is characterized in that the balance component is a flexible piece, and the upper end and the lower end of the balance component are connected with the carrying unit and the underframe unit in a universal mode.

The multifunctional infant swing carrier comprises a plurality of infant swing units, wherein the infant swing units are arranged on the chassis unit, and the infant swing units are arranged on the chassis unit.

The multifunctional infant swing carrier is characterized in that the upper support frame is close to the carrying unit and/or the lower support frame is close to the underframe unit, the multifunctional infant swing carrier is in a folded state when the carrying unit is shifted to the horizontal position relative to the underframe unit, the upper support frame is far away from the carrying unit and/or the lower support frame is far away from the underframe unit, and the multifunctional infant swing carrier is in an unfolded state when the carrying unit is shifted to the inclined angle position relative to the underframe unit.

The multifunctional infant swing carrier comprises an adjusting mechanism for adjusting the relative angle of the carrying unit and the underframe unit, and the adjusting mechanism comprises at least one floating section.

The multifunctional infant swing carrier comprises a support adjusting mechanism for changing the hinging angle of the upper support frame and the carrying unit, the support adjusting mechanism comprises an adjusting operation piece, and the carrying unit changes the relative angle with the underframe unit through the support adjusting mechanism.

The multifunctional infant swing carrier comprises an adjusting mechanism, the adjusting mechanism comprises a floating section, the lengths of the front balance element and the rear balance element are adjusted through the floating section, so that the carrying unit moves between the horizontal position and at least one inclination angle position relative to the underframe unit, the carrying unit forms a lying section when in the horizontal position, and the carrying unit forms a sitting section when in the inclination angle position.

The multifunctional infant swing carrier described above, wherein the adjustment mechanism includes at least one floating segment through which the lengths of both the front and rear balance elements are adjusted to move the carrying unit between the reclined position and the upright position.

According to the multifunctional infant swing carrier, the front balance element and/or the rear balance element are/is provided with the floating section, and when the length of the floating section is changed, the lengths of the front balance element and the rear balance element on the vertical distance between the carrying unit and the underframe unit are changed accordingly.

The multifunctional infant swing carrier comprises a seat frame for supporting the accommodating space, wherein the floating section penetrates through and slides on the seat frame or the upper supporting frame, or the underframe unit comprises an underframe frame, and the floating section penetrates through and slides in the underframe frame.

A multi-functional infant swing carrier as described above, the adjustment mechanism further comprising a control for controlling the compensation of the floating segment to the front and/or rear balance elements to limit or release movement of the load unit or chassis unit relative to the balance assembly.

The multifunctional infant swinging carrier comprises the swinging device with the poking block, wherein the poking block is matched with the upper support frame or the multidirectional swinging piece and is used for driving the carrying unit to swing relative to the underframe unit.

The multifunctional infant swinging carrier, the multidirectional swinging member includes a universal bearing.

A multifunctional infant swing carrier comprises

The multi-directional swinging piece is arranged between the upper support frame and the lower support frame so that the carrying unit can swing in a multi-direction relative to the underframe unit, wherein the upper support frame is suspended on the lower support frame through the multi-directional swinging piece, and/or the upper support frame part extends below the lower support frame at intervals;

the relative angles of the carrying unit and the underframe unit are multiple, so that the carrying unit has multiple relative positions with the underframe unit;

wherein the relative angle of the carrying unit and the underframe unit comprises an angle for enabling the carrying unit to be in a horizontal position and an angle for enabling the carrying unit to be at least in an inclined position.

The multifunctional infant swing carrier is characterized in that the upper support frame is hinged with the carrying unit, a locking and supporting mechanism used for controlling the unfolding angle between the upper support frame and the carrying unit is arranged between the upper support frame and the carrying unit, when the locking and supporting mechanism is released, the carrying unit is close to the upper support frame, and/or a locking mechanism used for locking the position of the lower support frame when the infant swing carrier is in an unfolding state is arranged on the underframe unit, the lower support frame is hinged with the underframe unit, and when the locking mechanism is unlocked, the lower support frame can be close to the underframe unit.

The locking and supporting mechanism comprises a spreading section and a fastener, wherein the spreading section is positioned between the upper support frame and the carrying unit, the fastener is used for locking the spreading section on the upper support frame or the carrying unit, and when the fastener is released, the spreading section is disconnected relative to the upper support frame or the carrying unit, and the carrying unit is close to the upper support frame.

A multifunctional infant swing carrier comprises

the relative angle of the carrying unit and the underframe unit is multiple, wherein the relative angle comprises at least one angle for enabling the carrying unit to be in an inclined angle position.

The multifunctional infant swinging carrier comprises the supporting frame adjusting mechanism connected between the upper supporting frame and the carrying unit, wherein the supporting frame adjusting mechanism comprises an adjusting section and an adjusting operation piece connected with the adjusting section and used for changing the length of the adjusting section.

According to the multifunctional infant swing carrier, the adjusting section and the adjusting operation piece are matched through the threaded structure, and/or when the balance component is a flexible piece, the support frame adjusting mechanism adjusts the tightness of the balance component by changing the hinging angle of the upper support frame and the carrying unit.

Compared with the prior art, the invention has the following advantages:

According to the multifunctional infant swinging carrier, when an infant is taken, the carrying unit is driven to swing in multiple directions relative to the underframe unit through the multiple-direction swinging piece, the problem that the swinging direction is single and the swinging mode is single is solved, and the carrying unit swings in multiple directions within a safe range through the balance component. If the seat is touched outside in the balance state, the seat can generate unoriented micro-swing just like a floating movement mode, the influence of the ground factors placed by the underframe unit on the swinging process of the carrying unit is reduced, the situation that the carrying unit suddenly jumps is avoided, the swinging is kept smoothly, and the comfort level of infants is improved. Furthermore, the infant swinging carrier can achieve the multifunctional effect through the angle change of the carrying unit relative to the underframe unit.

[ Description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a second schematic diagram of the structure of the present invention;

FIG. 3 is a schematic diagram III of the structure of the present invention;

FIG. 4 is a schematic diagram of a fourth embodiment of the present invention;

FIG. 5 is a schematic diagram of a fifth embodiment of the present invention;

FIG. 6 is a semi-sectional view of FIG. 5;

fig. 7 is a schematic structural view of the third embodiment;

FIG. 8 is a semi-sectional view of FIG. 7;

FIG. 9 is a schematic illustration of the invention moving between a reclined position and a sit-up position;

FIG. 10 is a schematic diagram II of the present invention moving between a reclined position and a stand-up position;

FIG. 11 is a schematic diagram of a sixth embodiment of the present invention;

FIG. 12 is a schematic diagram of a seventh embodiment of the present invention;

FIG. 13 is a schematic structural view of the control member;

fig. 14 is a schematic structural view of a second embodiment;

FIG. 15 is a first schematic view illustrating a folded state structure according to the second embodiment;

FIG. 16 is a second schematic view of a folded state structure of the second embodiment;

FIG. 17 is a schematic diagram eight of the construction of the present invention;

FIG. 18 is a rear view of the present invention;

FIG. 19 is an exploded view of the structure of the wobbler;

Fig. 20 is a schematic view showing a state in which the loading unit swings to the left;

fig. 21 is a schematic view showing a state in which the loading unit swings to the right.

[ Detailed description ] of the invention

In order to make the technical scheme and beneficial effects of the technical problem solved by the invention more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

An embodiment I as shown in FIGS. 1 and 6, a multifunctional infant swing carrier comprises

A carrying unit 1 having a receiving space for carrying infants, wherein an upper support frame 11 is provided on the carrying unit 1;

A chassis unit 2, which is located below the carrying unit 1, and a lower support frame 21 is arranged on the chassis unit 2;

A multidirectional swinging member 3 disposed between the upper support frame 11 and the lower support frame 21, for enabling the carrying unit 1 to swing in multiple directions relative to the chassis unit 2;

A balancing unit 4 disposed between the carrying unit 1 and the underframe unit 2 to limit a range of multi-directional swing of the carrying unit 1 relative to the underframe unit 2, the balancing unit 4 including a front balancing element 41 and a rear balancing element 42 respectively disposed at front and rear sides of the carrying unit 1;

Wherein, the relative angle of the carrying unit 1 and the underframe unit 2 is multiple, so that the carrying unit 1 has multiple relative positions with the underframe unit 2.

According to the multifunctional infant swinging carrier provided by the embodiment of the invention, an infant drives the carrying unit to swing in a multidirectional manner relative to the underframe unit through the multidirectional swinging piece when taking, so that the problems of single swinging direction and single swinging mode are solved, and the carrying unit swings in a multidirectional manner in a safe range through the balance component. If the seat is touched outside in the balance state, the seat can generate unoriented micro-swing just like a floating movement mode, the influence of the ground factors placed by the underframe unit on the swinging process of the carrying unit is reduced, the situation that the carrying unit suddenly jumps is avoided, the swinging is kept smoothly, and the comfort level of infants is improved. Furthermore, the infant swinging carrier can achieve the multifunctional effect through the angle change of the carrying unit relative to the underframe unit.

In this embodiment, the upper support extends below the carrying unit, the lower support extends above the underframe unit, and the balancing components are respectively connected to the periphery of the carrying unit and the periphery of the underframe unit.

As shown in fig. 1, the upper support frame and the lower support frame are in a single-arm form, and the multidirectional swinging member is a single string, so that the carrying unit can be suspended on the underframe unit, and a plurality of balance components arranged around the underframe unit are used for maintaining the balance of the carrying unit, and the carrying unit can slightly swing in an irregular direction when being stirred by external force. The chassis unit is in a bent shape, and swings relative to the bottom surface so as to improve the overall swing amplitude of the infant swing carrier.

The upper support frame and the lower support frame can adopt the form shown in fig. 2 and other forms besides the single-arm form shown in fig. 1. The multi-directional swinging member can adopt the form of hanging at two ends of a single rope in fig. 1, the form of hanging at the middle part of the multi-directional swinging member as shown in fig. 2, and other forms. The underframe unit is planar, and the underframe unit does not swing relative to the bottom surface, so that the overall stability of the infant swing carrier is improved.

In this embodiment, the loading unit 1 comprises a seat or a bed.

Further, as a preferred embodiment of the present invention, but not limited thereto, the upper support frame 11 is suspended from the lower support frame 21 by the multi-directional swing member 3, and/or the upper support frame 11 is partially extended under the lower support frame 21 at a spacing. Through the suspension effect, the carrying unit can swing universally relative to the underframe unit.

In this embodiment, the lower supporting frame 21 and the upper supporting frame 11 are disposed at intervals, and at least partially overlap each other in the vertical direction. The interval space between the lower support frame and the upper support frame is used for placing the multidirectional swinging piece, and the multidirectional swinging piece is connected to the overlapping position of the lower support frame and the upper support frame.

Further, as a preferred embodiment of the present invention, but not limited to, the multi-directional swinging member 3 is a flexible member or a rigid member, and the upper and lower ends of the multi-directional swinging member 3 are respectively and universally connected to the upper support frame 11 and the lower support frame 21. As shown in fig. 1 and 2, the multidirectional swinging member 3 is a flexible member, and as shown in fig. 4, the multidirectional swinging member 3 is a rigid member, and in a use state, the multidirectional swinging member keeps the height of the space between the lower support frame and the upper support frame unchanged.

Further, as a preferred embodiment of the present invention, but not limited to, the multi-directional swinging member 3 includes a universal bearing, and includes a receiving portion having a C-shaped cross section and a spherical or C-shaped pivot portion rotatably connected to the receiving portion, and as shown in fig. 3, the multi-directional swinging member may be a universal bearing, and the receiving portion may be suspended to be engaged with the pivot portion, or may be inverted.

Further, as a preferred embodiment of the present invention, but not limited thereto, the balance assembly 4 is a flexible member, and upper and lower ends are connected to the loading unit 1 and the underframe unit 2 in a universal manner. The balance component can also be a rigid component, as shown in fig. 4, and the balance component at the rear side of the carrying unit is a rigid component, specifically a universal bearing, and two ends of the balance component are respectively and universally connected with the carrying unit and the underframe unit. The balance component positioned at the front side of the carrying unit is a flexible component, in particular a string, and two ends of the string can move universally relative to the carrying unit and the underframe unit by virtue of the flexibility of the balance component.

Further, as a preferred embodiment of the present invention, but not limited thereto, the relative angle of the loading unit 1 and the underframe unit 2 includes an angle that brings the loading unit 1 to a horizontal position and an angle that brings the loading unit 1 to at least an inclined position. The carrying unit can be in a horizontal position relative to the underframe unit and can also be in an inclined position relative to the underframe unit, wherein a plurality of inclined positions are arranged.

Further, as a preferred embodiment of the present invention, but not limited to, the upper support frame 11 is close to the carrying unit 1 and/or the lower support frame 21 is close to the underframe unit 2, the multi-functional infant swing carrier is in a folded state when the carrying unit 1 is shifted to the horizontal position relative to the underframe unit 2, the upper support frame 11 is far away from the carrying unit 1 and/or the lower support frame 21 is far away from the underframe unit 2, and the multi-functional infant swing carrier is in a unfolded state when the carrying unit 1 is shifted to the inclined position relative to the underframe unit 2. When the carrying unit is in a horizontal position relative to the underframe unit, the multifunctional infant swing carrier is in a folded state, and when the carrying unit is in an inclined angle position relative to the underframe unit, the multifunctional infant swing carrier is in an unfolded state. Further, as a preferred embodiment of the present invention, but not limited thereto, the upper support frame 11 is detachably connected to the loading unit 1, or the lower support frame 21 is detachably connected to the bottom frame unit 2. Can be folded in a detachable connection mode.

Further, as a preferred embodiment of the present solution, but not limiting thereto, the upper support frame 11 is hinged to the carrying unit 1 and/or the lower support frame 21 is hinged to the underframe unit 2, as shown in fig. 14-16. Can be turned over and folded in a hinged manner.

Further, as a preferred embodiment of the present invention, but not limited to, the underframe unit 2 is provided with a locking mechanism 8 for locking the position of the lower support frame 21 when the infant swing carrier is in the unfolded state, the lower support frame 21 is hinged to the underframe unit 2, and when the locking mechanism 8 is unlocked, the lower support frame 21 is accessible to the underframe unit 2. The infant swing carrier is kept in an unfolding state through the locking of the locking mechanism, and the infant swing carrier can be switched to a folding state through unlocking of the locking mechanism.

Further, as a preferred embodiment of the present invention, but not limited thereto, the locking mechanism 8 includes a sliding sleeve 81, and the lower support frame 21 is rotatable with respect to the chassis unit 2 when the sliding sleeve 81 is moved to the unlocking position. When locked, the sliding sleeve is sleeved with the lower support frame and the underframe unit, so that the lower support frame cannot rotate relative to the underframe unit. When the sliding sleeve is unlocked, the sliding sleeve moves to be separated from the underframe unit or the lower support frame, so that the lower support frame can rotate relative to the underframe unit.

Further, as a preferred embodiment of the present solution, but not limited to, as shown in fig. 9 to 13, the multi-functional infant swing carrier includes an adjusting mechanism 7 for adjusting the relative angle of the carrying unit 1 and the underframe unit 2, and the adjusting mechanism 7 includes at least one floating section 71. The floating section is used for providing a space for limiting the movement of the carrying unit for the carrying unit, so that the effect of adjusting the relative angle between the carrying unit and the underframe unit is achieved.

Further, as a preferred embodiment of the present invention, but not limited thereto, the multifunctional infant swing carrier includes an adjusting mechanism 7, the adjusting mechanism 7 includes a floating section 71, and the lengths of the front balance member 41 and the rear balance member 42 are adjusted by the floating section 71 so that the carrying unit 1 moves between the horizontal position and at least one of the inclined positions with respect to the chassis unit 2, the carrying unit 1 forms a lying section when in the horizontal position, and the carrying unit 1 forms a sitting section when in the inclined position. The multifunctional infant swing carrier is adjusted to a lying section for the infant to lie down or a sitting section for the infant to sit upright through the adjusting mechanism.

Further, as a preferred embodiment of the present solution, but not limiting, the adjustment mechanism 7 comprises at least one floating segment 71, the length of both the front and rear balancing members 41, 42 being adjusted by the floating segment 71 to move the carrying unit 1 between the sleeping position and the sitting position.

Further, as a preferred embodiment of the present invention, but not limited to, the front balance member 41 and/or the rear balance member 42 are provided with the floating segments 71, and when the length of the floating segments 71 is changed, the lengths of the front balance member 41 and the rear balance member 42 in the vertical distance between the loading unit 1 and the underframe unit 2 are changed accordingly. The adjustment mechanism adjusts the length of the front or rear balance member by releasing or reducing the length of the float section.

Further, as a preferred embodiment of the present invention, but not limited thereto, the loading unit 1 includes a seat frame 12 for supporting the accommodating space, the floating section 71 is penetrated and slid on the seat frame 12 or the upper support frame 11, or the underframe unit 2 includes an underframe frame 22, and the floating section 71 is penetrated and slid within the underframe frame 22.

As shown in fig. 9, the floating section 71 of the adjusting mechanism penetrates into the carrying unit, and both ends thereof are respectively connected with the front balancing unit and the rear balancing unit, when the front side of the carrying unit approaches the chassis unit, the front balancing unit is reduced in length, and the reduced length of the balancing assembly is compensated for the rear balancing unit by the adjusting mechanism, so that the length of the rear balancing unit is correspondingly increased, and vice versa.

As shown in the variation of fig. 10, the floating segment 71 of the adjusting mechanism penetrates into the chassis unit and is connected at both ends thereof to the front balancing unit and the rear balancing unit, respectively, and when the front side of the loading unit approaches the chassis unit, the front balancing unit is reduced in length, and the reduced length of the balancing assembly is compensated for the rear balancing unit by the adjusting mechanism, so that the length of the rear balancing unit is correspondingly increased, and vice versa.

As a variant of the one shown in fig. 11, the floating segments 71 of the adjustment mechanism are provided separately on the front balancing unit and separately on the rear balancing unit, respectively. Or as shown in fig. 12, two ends of one floating segment 71 are respectively disposed between two front balance units 41, wherein a segment is extended out from the carrying unit, and two ends of the other floating segment 71 are respectively disposed between two rear balance units 41, wherein a segment is extended out from the carrying unit (not shown), and a user can adjust the lengths of the front balance units 41 and the rear balance units respectively by operating the middle segment of the floating segment 71 so as to adjust the angle of the carrying unit relative to the underframe unit.

When the carrying unit 1 of fig. 11 and 12 is shifted from the sitting position to the sleeping position, the length of the front balance member 41 increases, the length of the floating section 71 decreases correspondingly, and the length of the rear balance member 42 decreases, the length of the floating section 71 increases correspondingly, and when the carrying unit 1 is shifted from the sleeping position to the sitting position, the length of the front balance member 41 decreases, the length of the floating section 71 increases correspondingly, and the length of the rear balance member 42 increases, the length of the floating section 71 decreases correspondingly.

Further, as a preferred embodiment of the present solution, but not limiting, the adjustment mechanism 7 further comprises a control member 72, said control member 72 being adapted to control the compensation of the front and/or rear balancing members 41, 42 by the floating segment 71 to limit or release the movement of the carrying unit 1 or the underframe unit 2 relative to the balancing assembly 4. The effect of adjusting the swinging tightness degree of the carrying unit relative to the underframe unit can be achieved through the adjusting mechanism.

Further, as a preferred embodiment of the present invention, but not limited to, the control member 72 is provided on the seat frame 12, the control member 72 includes a resilient biasing button 721, the resilient biasing button 721 is provided with a through hole 722 for the balance assembly 4 to pass through, the resilient biasing button 721 protrudes from the carrying unit 1 or the underframe unit 2, or the control member 72 is provided on the floating section 71, as shown in fig. 11 and 12.

Further, as a preferred embodiment of the present invention, but not limited to, the upper support frame 11 is hinged to the carrying unit 1, the multi-functional infant swing carrier includes a bracket adjusting mechanism 6 for changing a hinge angle of the upper support frame 11 to the carrying unit 1, the bracket adjusting mechanism 6 includes an adjustment operating piece 62, and the carrying unit 1 changes a relative angle to the base frame unit 2 through the bracket adjusting mechanism 6.

Further, as a preferred embodiment of the present invention, but not limited to, as shown in fig. 18 to 21, the multi-functional infant swing carrier includes a swing 13 having a toggle block 134, and the toggle block 134 cooperates with the upper support frame 11 or the multi-directional swing member 3 to drive the carrying unit 1 to swing relative to the chassis unit 2. The loading unit can swing relatively to the underframe unit through the multidirectional swinging piece and the balance assembly, and the swinging device provides swinging power for the loading unit, so that the swinging effect is continuously and stably provided, and manual operation is not needed.

Further, as a preferred embodiment of the present invention, but not limited to, the rocker 13 is provided on the lower support frame 21 and pivotally connected to an end portion of the upper support frame 11, so that the upper support frame 11 reciprocates about the multidirectional swinging member 3 as a rotation center. The form of the multidirectional swinging member may take the form of the one listed in the first embodiment, and any other form may be adopted.

Further, as a preferred embodiment of the present invention, but not limited thereto, the wobbler 13 is provided on the chassis unit 2, and includes a toggle block 134 for driving the loading unit 1 or the multi-directional wobbler 3 to swing.

Further, as a preferred embodiment of the present invention, but not limited thereto, the wobbler 13 includes a driving motor 132, and a transmission assembly, through which the driving motor 132 is coupled with the toggle block 134.

Further, as a preferred embodiment of the present invention, but not limited to, the transmission assembly includes a cam 133 disposed at an output end of the driving motor 132 and engaged with the toggle block 134, and the driving motor 132 drives the cam 133 to rotate so that the toggle block 134 rotates along with the cam 133.

Further, as a preferred embodiment of the present invention, but not limited to, the wobbler 13 includes a wobbler housing 131, the driving motor 132, the transmission assembly and the toggle block 134 are disposed on the wobbler housing 131, and the toggle block 134 extends out of the wobbler housing 131 and cooperates with the load unit 1 or the multi-directional wobbler 3;

The transmission assembly includes a swing limiting pin 135 disposed between the toggle block 134 and the rocker housing 131 to limit the toggle block 134 from reciprocating in one direction. The driving motor drives the cam to rotate, the cam pushes the poking block to move, and the poking block transversely reciprocates due to the fact that the poking block is limited by the swing limiting bolt, so that the upper supporting frame is driven to swing around the multidirectional swinging piece as a swinging supporting point to drive the carrying unit to swing.

Further, as a preferred embodiment of the present invention, but not limited to, the rocker 13 is disposed on the lower support frame 21, and the toggle block 134 is detachably separated from the upper support frame 11, so that the upper support frame 11 swings around the multi-direction swinging member 3 as a rotation center.

Further, as a preferred embodiment of the present solution, but not by way of limitation, the wobbler 13 comprises

A swing case 131 detachably connected to the chassis unit 2;

The toggle block 134 has one end embedded in the upper support frame 11. In this embodiment, the swing device mounting portion is provided with an opening into which the lower support frame is clamped, so as to achieve the effect of dismounting connection. The rocker mounting part can also adopt other conventional structures to realize the effect of disassembling and connecting. The poking block is linked with the upper supporting frame in an embedded mode, so that the poking block is convenient to detach and separate.

As shown in fig. 5 and 6, a sway prevention mechanism 5 for restricting the relative movement of the load unit 1 and the underframe unit 2 is provided between them. The anti-shake mechanism is used for limiting the freedom degree provided by the multidirectional swinging piece for the carrying unit, and the carrying unit and the underframe unit keep relatively static after the anti-shake mechanism limits the carrying unit to move relative to the underframe unit.

Further, as a preferred embodiment of the present solution, but not limited to, the anti-shake mechanism 5 includes a locking member 51 and a locking portion 52 for snap-fitting with the locking member 51, and the form of fitting between the locking member and the locking portion is not limited to snap-fitting, but may also adopt a plug-in fit, a socket-in fit, or the like.

The locking member 51 is provided on the upper support frame 11, the locking portion 52 is provided on the lower support frame 21, or

The locking member 51 is provided on the lower support frame 21, and the locking portion 52 is provided on the upper support frame 11.

In a second embodiment, as shown in fig. 14 to 17, the present embodiment is different from the first embodiment in that a multi-functional infant swing carrier comprises

A multidirectional swing member 3 disposed between the upper support frame 11 and the lower support frame 21 for enabling the carrying unit 1 to swing in multiple directions relative to the underframe unit 2, wherein the upper support frame 11 is suspended on the lower support frame 21 by the multidirectional swing member 3 and/or the upper support frame 11 extends partially under the lower support frame 21 at intervals;

The relative angles of the carrying unit 1 and the underframe unit 2 are multiple, so that the carrying unit 1 has multiple relative positions with the underframe unit 2;

wherein the relative angle of the carrying unit 1 and the underframe unit 2 includes an angle that enables the carrying unit 1 to be in a horizontal position and an angle that enables the carrying unit 1 to be in at least an inclined position.

Further, as a preferred embodiment of the present invention, but not limited to, the upper support frame 11 is hinged to the carrying unit 1, a locking mechanism 9 for controlling a deployment angle between the upper support frame and the carrying unit 1 is provided therebetween, when the locking mechanism 9 is released, the upper support frame 11 is close to the carrying unit, and/or a locking mechanism 8 for locking a position of the lower support frame 21 when the infant swing carrier is in a deployment state is provided on the underframe unit 2, the lower support frame 21 is hinged to the underframe unit 2, and when the locking mechanism 8 is unlocked, the lower support frame 21 is close to the underframe unit 2. When the lower support frame needs to be folded, the locking and supporting mechanism is released, so that the carrying unit can approach the upper support frame.

Further, as a preferred embodiment of the present invention, but not limited to, the locking mechanism 9 includes a spreader section 91 located between the upper support frame 11 and the carrying unit 1, and a fastener 92 for locking the spreader section 91 to the upper support frame 11 or the carrying unit 1, and when the fastener 92 is released, the carrying unit 1 approaches the upper support frame 11 when the connection of the spreader section 91 to the upper support frame 11 or the carrying unit 1 is released. The locking support section enables the upper support frame and the carrying unit to keep the minimum relative angle, and the locking support section is released when the upper support frame and the carrying unit are folded, so that the minimum relative angle is reduced, and the upper support frame and the carrying unit are folded relatively.

An embodiment III, as shown in FIGS. 7-8, is different from the first and second embodiments in that a multi-functional infant swing carrier comprises

The relative angle of the carrying unit 1 and the underframe unit 2 is plural, including at least one angle that makes the carrying unit 1 in an inclined position.

Further, as a preferred embodiment of the present invention, but not limited thereto, the multifunctional infant swing carrier includes a bracket adjusting mechanism 6 connected between the upper bracket 11 and the carrying unit 1, the bracket adjusting mechanism 6 including an adjusting section 61, and an adjusting operation member 62 connected to the adjusting section 61 for changing the length of the adjusting section 61.

Further, as a preferred embodiment of the present invention, but not limited thereto, the adjustment section 61 and the adjustment operating member 62 are engaged with each other in a threaded structure, and/or when the balance assembly 4 is a flexible member, the bracket adjustment mechanism adjusts the tightness of the balance assembly 4 by changing the hinge angle of the upper bracket 11 and the load unit 1. When the adjusting operation piece rotates, one end of the adjusting section, which is connected with the adjusting operation piece, moves relative to the adjusting operation piece, and the adjusting section is tensioned or loosened along with the adjusting operation piece, so that the tightness of the balance assembly is adjusted.

The working principle of this embodiment is as follows:

When the infant swinging carrier is used, an infant is taken on the carrying unit, the infant can move, the external force and the swinging device can trigger the carrying unit, and the carrying unit swings in multiple directions relative to the underframe unit through the multiple-direction swinging piece, and the swinging amplitude of the carrying unit is limited by the balance element. When the swinging device touches the riding unit, the driving motor is linked with the poking block through the transmission component, so that the poking block moves reciprocally in one direction, and the riding unit is driven to swing reciprocally. The angle between the carrying unit and the underframe unit can be adjusted according to the use requirement, so that the infant swinging carrier has the functions of unfolding or folding, fine adjusting the inclination angle of the carrying unit and moving the carrying unit between the sleeping position and the standing position.

The embodiments provided above in connection with the specific disclosure are not intended to limit the practice of the application to those descriptions. The present application should be considered as the protection scope of the present application, if the structure of the method is similar to that of the present application, or if several technical deductions or substitutions are made on the premise of the present application.

Claims

1. A multifunctional infant swinging carrier is characterized by comprising

The infant riding device comprises a riding unit (1) which is provided with a containing space for riding infants, wherein an upper supporting frame (11) is arranged on the riding unit (1);

The underframe unit (2) is positioned below the carrying unit (1), and a lower supporting frame (21) is arranged on the underframe unit (2);

The multidirectional swinging piece (3) is arranged between the upper supporting frame (11) and the lower supporting frame (21) so that the carrying unit (1) can swing in a multidirectional manner relative to the underframe unit (2);

A balancing component (4) arranged between the carrying unit (1) and the underframe unit (2) to limit the range of multidirectional swinging of the carrying unit (1) relative to the underframe unit (2), wherein the balancing component (4) comprises a front balancing element (41) and a rear balancing element (42) which are respectively positioned on the front side and the rear side of the carrying unit (1);

Wherein the relative angle of the carrying unit (1) and the underframe unit (2) is multiple, so that the carrying unit (1) has multiple relative positions with the underframe unit (2);

the upper end and the lower end of the balance assembly (4) are connected with the carrying unit (1) and the underframe unit (2) in a universal way;

The upper support frame (11) is suspended on the lower support frame (21) through the multidirectional swinging piece (3), and/or the upper support frame (11) partially extends below the lower support frame (21) at intervals;

the multidirectional swinging piece (3) is a flexible piece or a rigid piece, and the upper end and the lower end of the multidirectional swinging piece (3) are respectively and universally connected with the upper supporting frame (11) and the lower supporting frame (21);

the relative angle of the carrying unit (1) and the underframe unit (2) comprises an angle for enabling the carrying unit (1) to be in a horizontal position and an angle for enabling the carrying unit (1) to be at least in an inclined position;

The multifunctional infant swing carrier comprises an adjusting mechanism (7), the adjusting mechanism (7) comprises a floating section (71), the lengths of the front balance element (41) and the rear balance element (42) are adjusted through the floating section (71) so that the carrying unit (1) moves between the horizontal position and at least one inclined angle position relative to the underframe unit (2), the carrying unit (1) forms a lying section when in the horizontal position, and the carrying unit (1) forms a sitting section when in the inclined angle position.

2. The multi-functional infant swing carrier according to claim 1, wherein the balance member (4) is a flexible member.

3. The multi-functional infant swing carrier according to claim 1, wherein the upper support frame (11) is adjacent to the carrying unit (1) and/or the lower support frame (21) is adjacent to the underframe unit (2), and the carrying unit (1) is in a folded state when being shifted to the horizontal position relative to the underframe unit (2);

the upper support frame (11) is far away from the carrying unit (1) and/or the lower support frame (21) is far away from the underframe unit (2), and when the carrying unit (1) is transformed to the inclination angle position relative to the underframe unit (2), the multifunctional infant swing carrier is in an unfolding state.

4. The multi-functional infant swing carrier according to claim 1, wherein the multi-functional infant swing carrier includes an adjustment mechanism (7) for adjusting the relative angle of the carrying unit (1) and the chassis unit (2), the adjustment mechanism (7) including at least one floating segment (71).

5. The multifunctional infant swing carrier according to claim 1, wherein the upper support frame (11) is hinged to the carrying unit (1), the multifunctional infant swing carrier comprises a support frame adjusting mechanism (6) for changing the hinge angle of the upper support frame (11) and the carrying unit (1), the support frame adjusting mechanism (6) comprises an adjusting operation member (62), and the carrying unit (1) changes the relative angle with the underframe unit (2) through the support frame adjusting mechanism (6).

6. A multi-functional infant swing carrier according to claim 1, wherein the adjustment mechanism (7) includes at least one float section (71), the lengths of both the front and rear balance elements (41, 42) being adjusted by the float section (71) to move the carrying unit (1) between a sleeping position and a standing sitting position.

7. The multi-functional infant swing carrier according to claim 1, wherein the front and/or rear balance members (41, 42) are provided with the floating segments (71), and the lengths of the front and rear balance members (41, 42) are changed when the lengths of the floating segments (71) are changed, respectively, in a vertical distance between the carrying unit (1) and the chassis unit (2).

8. The multi-functional infant swing carrier according to claim 1, wherein the carrying unit (1) includes a seat frame (12) for supporting the accommodation space, the floating section (71) is threaded and slid on the seat frame (12) or the upper support frame (11), or the chassis unit (2) includes a chassis frame (22), and the floating section (71) is threaded and slid within the chassis frame (22).

9. A multi-functional infant swing carrier according to claim 1, wherein the adjustment mechanism (7) further comprises a control member (72), the control member (72) being adapted to control the compensation of the front balance element (41) and/or the rear balance element (42) by the floating section (71) to limit or release the movement of the carrying unit (1) or the chassis unit (2) relative to the balance assembly (4).

10. The multi-functional infant swing carrier according to claim 1, wherein the multi-functional infant swing carrier includes a swing (13) having a toggle block (134), the toggle block (134) being engaged with the upper support frame (11) or the multi-directional swing (3) for driving the carrying unit (1) to swing relative to the chassis unit (2).

11. A multi-functional infant swing carrier according to claim 1, wherein the multi-directional swing (3) includes a universal bearing.

12. The multifunctional infant swing carrier is characterized by comprising a carrying unit (1) which is provided with a containing space for carrying an infant, wherein an upper supporting frame (11) is arranged on the carrying unit (1);

wherein the upper support frame (11) is suspended on the lower support frame (21) through the multidirectional swinging member (3), and/or the upper support frame (11) extends below the lower support frame (21) at intervals;

-the relative angle of the carrying unit (1) to the chassis unit (2) is plural, such that the carrying unit (1) has plural relative positions to the chassis unit (2);

wherein the relative angle of the carrying unit (1) and the underframe unit (2) comprises an angle for enabling the carrying unit (1) to be in a horizontal position and an angle for enabling the carrying unit (1) to be at least in an inclined position;

the upper end and the lower end of the balance component (4) are connected with the carrying unit (1) and the underframe unit (2) in a universal mode.

13. The multifunctional infant swing carrier according to claim 12, wherein the upper support frame (11) is hinged to the carrying unit (1), a locking and supporting mechanism (9) for controlling the unfolding angle between the upper support frame and the carrying unit is arranged between the upper support frame and the carrying unit, when the locking and supporting mechanism (9) is released, the carrying unit (1) is close to the upper support frame (11), and/or a locking mechanism (8) for locking the position of the lower support frame (21) when the infant swing carrier is in an unfolding state is arranged on the underframe unit (2), the lower support frame (21) is hinged to the underframe unit (2), and when the locking mechanism (8) is unlocked, the lower support frame (21) can be close to the underframe unit (2).

14. The multi-functional infant swing carrier according to claim 13, wherein the lock mechanism (9) includes a spreader section (91) between the upper support frame (11) and the carrying unit (1), and a fastener (92) for locking the spreader section (91) to the upper support frame (11) or the carrying unit (1), and when the fastener (92) is released, the carrying unit (1) is brought into proximity with the upper support frame (11) when the connection of the spreader section (91) to the upper support frame (11) or the carrying unit (1) is released.

15. The multifunctional infant swing carrier is characterized by comprising a carrying unit (1) which is provided with a containing space for carrying an infant, wherein an upper supporting frame (11) is arranged on the carrying unit (1);

The relative angles of the carrying unit (1) and the underframe unit (2) are multiple, wherein the relative angles comprise at least one angle for enabling the carrying unit (1) to be in an inclined angle position;

16. The infant swing carrier according to claim 15, which includes a bracket adjustment mechanism (6) connected between the upper bracket (11) and the carrying unit (1), the bracket adjustment mechanism (6) including an adjustment section (61), and an adjustment operating member (62) connected to the adjustment section (61) for changing a length of the adjustment section (61).

17. The multi-functional infant swing carrier according to claim 16, wherein the adjustment section (61) and the adjustment operating member (62) are engaged with each other in a threaded structure, and/or when the balance assembly (4) is a flexible member, the bracket adjustment mechanism (6) adjusts the tightness of the balance assembly (4) by changing the hinge angle of the upper bracket (11) and the carrying unit (1).