CN117002597B - A children's stroller frame - Google Patents

Abstract

This invention discloses a stroller frame, including a frame body and a seat connection assembly. The child seat is connected to the frame body via the seat connection assembly. Before folding the entire stroller, the child seat is folded first. Then, the frame body is unlocked, and the frame body is rotated to fold. The frame body unlocks the seat locking mechanism via a linkage seat unlocking mechanism, thereby releasing the locking state of the seat connection assembly relative to the frame body. This allows the child seat to rotate and fold relative to the frame body, thus completing the overall folding of the stroller frame. This design features reliable unlocking and convenient use.

Description

Baby carriage frame

Technical Field

The invention relates to a baby carriage frame.

Background

Currently, many commercial child vehicles include a collapsible child vehicle frame and a collapsible child seat attached to the child vehicle frame.

For the structural scheme of the one-key folding vehicle, as disclosed in China CN107428355B, the backrest unlocking mechanism is operated manually to release the locking state of the backrest relative to the seat part during folding, then the backrest is operated to rotate towards one side of the seat part to fold the child seat, and when the backrest rotates to a preset angle relative to the seat part, the linkage seat part is unlocked relative to the frame, the seat part is overturned under the action of gravity after being unlocked relative to the frame, and the linkage frame joint is unlocked, so that the one-key folding of the whole vehicle is finally realized. However, the frame of the baby carrier designed by adopting the scheme has high linkage matching requirement and high requirements on the manufacturing precision, the service life and the assembly of related parts, and therefore, the frame of the baby carrier adopting the structural design has high manufacturing cost and is not beneficial to improving the market competitiveness of products; in addition, the phenomenon of folding and clamping stagnation is easy to occur due to fatigue abrasion and assembly gaps of parts in the using process.

For the structural scheme of the step-by-step folding vehicle, the backrest unlocking mechanism is manually operated to release the locking state of the backrest relative to the seat part, then the backrest is operated to rotate towards one side of the seat part to fold the child seat, after the backrest is folded on the seat part, the locking relation between the seat part and the vehicle frame is unlocked, the seat part is turned over under the action of gravity after being unlocked relative to the vehicle frame, and the vehicle frame is further linked to be articulated for unlocking, so that the folding of the whole vehicle is finally realized. The scheme has the advantages of step operation, higher reliability and stability and lower manufacturing cost, so that the product has good market competitiveness. The structure also has the problem that after the seat part is unlocked relative to the frame, the seat part is overturned under the action of gravity, and if the gravity of the seat part is insufficient, the frame can not be driven to unlock, so that the folding clamping stagnation phenomenon exists. If the seat part is designed to have larger gravity, the weight of the whole vehicle is correspondingly increased, so that the carrying out is inconvenient.

The present invention has been made in view of the above problems.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide the baby carriage frame, which only needs to manually release the locking state of the frame main body, then the frame main body is linked with the seat unlocking mechanism to unlock the seat locking mechanism, and further the locking state of the seat connecting assembly relative to the frame main body is released, so that the child seat is rotated and folded relative to the frame main body, and the whole folding work of the baby carriage is completed.

In order to solve the technical problems, the invention provides a baby carriage frame, comprising:

A frame body 1, wherein the frame body 1 can be switched from an unfolded state to a folded state;

The seat connecting assembly 2 is used for being connected with the child seat 5 with the folding and unfolding functions, the seat connecting assembly 2 is rotatably connected to the frame body 1, and a seat locking mechanism 3 used for locking the seat connecting assembly 2 relative to the frame body 1 is arranged between the seat connecting assembly 2 and the frame body 1;

A seat unlocking mechanism 4, the seat unlocking mechanism 4 is located between the frame body 1 and the seat connecting assembly 2, and the seat unlocking mechanism 4 is configured to be linked by the frame body 1 to unlock the seat locking mechanism 3 when the frame body 1 is changed from the unfolded state to the folded state, so as to unlock the locking state of the seat connecting assembly 2 relative to the frame body 1.

The frame body 1 of the baby carrier comprises a front foot rod 11, a rear foot rod 12 and a handle rod 15, wherein the upper end of the front foot rod 11, the upper end of the rear foot rod 12 and the lower end of the handle rod 15 are rotatably connected through a frame joint assembly, and the seat unlocking mechanism 4 is configured to be linked by the handle rod 15 to unlock the seat locking mechanism 3 when the handle rod 15 is converted from an unfolding state to a folding state.

Or the frame body 1 comprises a front foot rod 11, a rear foot rod 12, a connecting rod 13, a supporting rod 14 and a handle rod 15, wherein the upper end of the front foot rod 11 is rotatably connected with the upper end of the rear foot rod 12, the lower end of the connecting rod 13 is rotatably connected with the upper end of the rear foot rod 12, the upper end of the connecting rod 13 is rotatably connected with the middle part of the handle rod 15, the lower end of the supporting rod 14 is rotatably connected with the upper part of the rear foot rod 12, the upper end of the supporting rod 14 is rotatably connected with the lower end of the handle rod 15, the frame body 1 further comprises a frame locking mechanism 16 for locking the frame body 1 in an unfolding state and a frame unlocking mechanism 17 for unlocking the frame locking mechanism 16, and the seat unlocking mechanism 4 is configured to be capable of being linked by the supporting rod 14 to unlock the seat locking mechanism 3 when the supporting rod 14 is transformed from the unfolding state to a folding state.

In the frame of the baby carrier, the lower part of the supporting rod 14 is provided with a supporting driving part 140 for linking the seat unlocking mechanism 4 when the supporting rod 14 is changed from the unfolded state to the folded state.

As described above, the frame body 1 further includes a front foot link mechanism 18 between the front foot bar 11 and the support bar 14, and the front foot link mechanism 18 is configured to be linked by the support bar 14 when the support bar 14 is changed from the unfolded state to the folded state, so as to link the front foot bar 11 to rotate and fold toward the rear foot bar 12.

The front foot linkage 18 comprises a front linkage rod 181 and a rear linkage rod 182, wherein the front end of the front linkage rod 181 is rotatably connected with the front foot rod 11, the rear end of the front linkage rod 181 is rotatably connected with the front end of the rear linkage rod 182, and the rear end of the rear linkage rod 182 is relatively fixedly connected with the lower end of the support rod 14.

A stroller frame as described above, the frame locking mechanism 16 is located between the connecting rod 13 and the handlebar 15, the frame locking mechanism 16 being configured to lock the handlebar 15 relative to the connecting rod 13.

The frame locking mechanism 16 of the baby carrier comprises frame locking tooth grooves 161 respectively arranged on opposite sides of the connecting rod 13 and the handle bar 15, a frame locking gear 162 capable of sliding transversely and simultaneously locking the frame locking tooth grooves 161 on the connecting rod 13 and the handle bar 15 is arranged between the connecting ends of the connecting rod 13 and the handle bar 15, a frame locking elastic piece 163 capable of enabling the frame locking gear 162 to simultaneously lock the frame locking gear 162 into the frame locking tooth grooves 161 on the connecting rod 13 and the handle bar 15 is arranged between the frame locking gear 162 and the corresponding end part of the connecting rod 13, and the frame locking gear 162 is configured to be interlocked by the frame unlocking mechanism 17 to withdraw from the frame locking tooth grooves 161 on the handle bar 15.

The frame unlocking mechanism 17 comprises a frame unlocking rotary disc 171 which is rotatably arranged between the handle bar 15 and the frame locking gear 162 and can push the frame locking gear 162 to exit the frame locking tooth groove 161 of the handle bar 15, frame unlocking inclined planes 1711 which are respectively arranged on opposite sides of the frame unlocking rotary disc 171 and the handle bar 15 and are used for enabling the frame unlocking rotary disc 171 to transversely slide when the frame unlocking rotary disc 171 rotates, and a frame unlocking operation member 173 which is arranged on the handle bar 15 and is connected with the frame unlocking rotary disc 171 through a frame unlocking pull rope 172.

A stroller frame as described above, the seat lock mechanism 3 is located between the seat attachment assembly 2 and the rear foot bar 12, and the seat unlock mechanism 4 is located on the rear foot bar 12.

The baby carrier frame comprises seat locking grooves 31 respectively arranged on opposite sides of a seat connecting assembly 2 and a rear foot rod 12, a seat locking gear 32 capable of sliding transversely and being simultaneously locked in the seat locking grooves 31 on the seat connecting assembly 2 and the rear foot rod 12 is arranged between the seat connecting assembly 2 and the rear foot rod 12, a seat locking elastic piece 33 capable of enabling the seat locking gear 32 to be simultaneously locked in the seat locking grooves 31 on the seat connecting assembly 2 and the rear foot rod 12 is arranged between the seat locking gear 32 and the seat connecting assembly 2, and the seat locking gear 32 is configured to be linked by a seat unlocking mechanism 4 to withdraw from the seat locking grooves 31 on the rear foot rod 12.

The seat unlocking mechanism 4 comprises a seat unlocking slide block 41 which is slidably arranged on the rear foot rod 12 and can push the seat locking gear 32 to transversely slide, the opposite sides of the seat unlocking slide block 41 and the rear foot rod 12 are respectively provided with a seat unlocking inclined surface 411 which is used for transversely sliding the seat unlocking slide block 41 when the seat unlocking slide block 41 slides, and the seat unlocking slide block 41 is directly or indirectly provided with a seat unlocking shaft pin 412 for pushing the lower part of the supporting rod 14.

As described above, in one stroller frame, the rear leg 12 is slidably provided with the seat unlocking push rod 42, the seat unlocking shaft pin 412 is relatively fixedly provided on the seat unlocking push rod 42, and when the lower portion of the support rod 14 pushes the seat unlocking shaft pin 412, the seat unlocking shaft pin 412 pushes the seat unlocking push rod 42 to slide relative to the rear leg 12, and the seat unlocking push rod 42 further pushes the seat unlocking slide block 41 to slide.

The child car frame comprises a seat part 51, a backrest part 52 and an armrest part 54, wherein the seat part 51, the backrest part 52 and the armrest part 54 are connected through a seat connecting assembly 2, the lower end of the backrest part 52 is rotatably connected to the seat part 51, a backrest locking mechanism 53 for locking the backrest part 52 relative to the seat part 51 and a backrest unlocking mechanism 534 for unlocking the backrest locking mechanism 53 are arranged between the backrest part 52 and the seat part 51, the armrest part 54 is rotatably connected to the seat part 51 and positioned in front of the backrest part 52, an armrest folding control mechanism 55 is arranged between the armrest part 54 and the backrest part 52, and the armrest folding control mechanism 55 is configured to enable the backrest part 52 to be linked and folded relative to the seat part 51 when the backrest part 52 is rotated forwards relative to the seat part 51 to be folded up to a preset angle, and enable the backrest part to be linked and unfolded relative to the seat part to be rotated backwards when the backrest part 52 is rotated backwards to be unfolded to a preset angle.

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

1. The baby carriage frame is connected with the child seat with the folding function through the seat connecting assembly, the child seat is folded firstly before the whole baby carriage frame is folded, then the locking state of the frame main body is released, the frame main body is operated to rotate and fold, the seat locking mechanism is unlocked through the linkage seat unlocking mechanism, the locking state of the seat connecting assembly relative to the frame main body is further released, the child seat can rotate and fold relative to the frame main body, and therefore the whole folding work of the baby carriage frame is completed.

2. In the invention, four-bar mechanisms are formed among the rear foot bar, the connecting rod, the handle bar and the supporting rod, and four-bar mechanisms are formed among the front foot bar, the rear foot bar, the front linkage bar and the rear linkage bar, and the two four-bar mechanisms form a linkage folding and unfolding structure for the frame main body through the connection relation between the supporting rod and the rear linkage bar, namely, only one four-bar mechanism is locked, the other four-bar mechanism is also locked and is converted into a three-bar connection structure, so that the structural stability and the reliability of the frame main body can be improved, in addition, only one frame locking mechanism is required to be arranged through the linkage of the two four-bar mechanisms, thereby effectively simplifying the connection between the bar members, and having the characteristics of simple structure and minimized overall weight.

3. The seat unlocking mechanism is arranged on the rear foot rod, and skillfully folds and releases the lock by utilizing the frame main body through the support driving part on the support rod, so that a user can fold the whole vehicle without bending down, and the seat unlocking mechanism has the characteristic of convenient use.

4. The backrest part can be linked with the armrest part to rotate and fold relative to the seat part through the armrest folding and unfolding control mechanism, and can be linked with the armrest part to rotate and unfold relative to the seat part when the backrest part rotates and unfolds backwards relative to the seat part to a preset angle, so that the backrest has the characteristic of convenient use.

Drawings

The invention is described in further detail below with reference to the attached drawing figures, wherein:

fig. 1 is a perspective view of the present invention in an expanded state.

Fig. 2 is a side view of the present invention in an expanded state.

Fig. 3 is a perspective view showing the frame body in an unfolded state and the child seat in a folding process in the present invention.

Fig. 4 is a perspective view of the frame body in the unfolded state in the present invention.

Fig. 5 is a positional relationship diagram of the support driving portion and the seat unlocking shaft pin when the frame body is in the unfolded state in the present invention.

Fig. 6 is a perspective view of the present invention during folding.

Fig. 7 is a perspective view of the frame body in the folding process in the present invention.

Fig. 8 is a diagram showing the positional relationship between the support driving part and the seat unlocking shaft pin during the folding process of the frame body according to the present invention.

Fig. 9 is a perspective view of the present invention in a folded state.

Fig. 10 is a side view of the present invention in a collapsed state.

Fig. 11 is a perspective view of the frame body in a folded state in the present invention.

Fig. 12 is a positional relationship diagram of the support driving portion and the seat unlocking shaft pin when the frame body is in a folded state in the present invention.

Fig. 13 is an exploded view of one of the frame locking mechanisms of the present invention.

FIG. 14 is a second exploded view of the locking mechanism of the vehicle frame of the present invention.

Fig. 15 is an exploded view of one of the seat lock mechanism and the seat unlock mechanism in the present invention.

Fig. 16 is a second exploded view of the seat lock mechanism and the seat unlock mechanism in the present invention.

Fig. 17 is a perspective view of the child seat of the present invention in an unfolded state.

Fig. 18 is a partial cross-sectional view of fig. 17.

Fig. 19 is a side view of the backrest of the present invention with the backrest flipped forward to a predetermined angle.

Fig. 20 is a partial cross-sectional view of fig. 19.

Fig. 21 is a side view of the invention with the back and armrest portions in a collapsed state.

Fig. 22 is a partial cross-sectional view of fig. 21.

Fig. 23 is an exploded view of the back lock mechanism of the present invention.

Fig. 24 is a second exploded view of the back lock mechanism of the present invention.

Detailed Description

Embodiments of the present invention are described in detail below with reference to fig. 1-24.

As shown in fig. 1-12, 15 and 16, the baby carriage frame comprises a frame body 1, a seat connecting assembly 2, a seat locking mechanism 3 and a seat unlocking mechanism 4, wherein the frame body 1 can be switched from an unfolded state to a folded state and is connected with a child seat 5 with folding and unfolding functions through the seat connecting assembly 2, the seat connecting assembly 2 is rotatably connected to the frame body 1, the seat locking mechanism 3 for locking the seat connecting assembly 2 relative to the frame body 1 is arranged between the seat connecting assembly 2 and the frame body 1, the seat unlocking mechanism 4 is positioned between the frame body 1 and the seat connecting assembly 2, and the seat unlocking mechanism 4 is configured to be capable of being linked by the frame body 1 to unlock the seat locking mechanism 3 when the frame body 1 is converted from the unfolded state to the folded state, so that the locking state of the seat connecting assembly 2 relative to the frame body 1 is released.

Before the whole car is folded, the child seat is folded, then the locking state of the car frame main body is released, the car frame main body is operated to rotate and fold, the car frame main body is linked with the seat unlocking mechanism to unlock the seat locking mechanism, and then the locking state of the seat connecting assembly relative to the car frame main body is released, so that the child seat can rotate and fold relative to the car frame main body, the whole folding work of the baby car frame is completed, and the car frame has the characteristics of reliable operation unlocking and convenience in use.

As an embodiment of the present invention, the frame body 1 includes a front foot bar 11, a rear foot bar 12 and a handle bar 15, the upper ends of the front foot bar 11, the rear foot bar 12 and the handle bar 15 are rotatably connected by a frame joint assembly, and the seat unlocking mechanism 4 is configured to be interlocked by the handle bar 15 to unlock the seat locking mechanism 3 when the handle bar 15 is changed from the unfolded state to the folded state. When the folding-up type bicycle frame is folded, the locking state of the frame joint assembly is released, then the handle bar 15 is operated to downwards turn over relative to the rear foot bar 12, and the handle bar 15 is linked with the seat unlocking mechanism 4 to release the locking of the seat locking mechanism 3, so that the locking state of the seat connecting assembly 2 relative to the frame main body 1 is released. In addition, a same moving part which can enable the front foot rod 11 and the handle rod 15 to rotate towards each other and away from each other is arranged between the front foot rod 11 and the handle rod 15, and if the same moving part can be two gears meshed with each other, the folding and unfolding efficiency of the frame main body can be improved, and the operation steps are reduced.

As an embodiment of the present invention, the seat unlocking mechanism 4 includes a seat unlocking slide 41 slidably provided on the rear leg bar 12 and capable of interlocking with the seat locking mechanism 3 for unlocking, and the seat unlocking slide 41 and the rear leg bar 12 are respectively provided on opposite sides with a seat unlocking slope 411 for laterally sliding the seat unlocking slide 41 when the seat unlocking slide 41 slides, and the seat unlocking slide 41 is configured to be capable of being interlocked by the handle bar 15 for unlocking the seat locking mechanism 3 when the handle bar 15 is shifted from the unfolded state to the folded state.

As an embodiment of the present invention, as shown in fig. 1 to 14, the frame body 1 includes a front foot bar 11, a rear foot bar 12, a connecting bar 13, a support bar 14, and a handlebar 15, the upper end of the front foot bar 11 is rotatably connected to the upper end of the rear foot bar 12, the lower end of the connecting bar 13 is rotatably connected to the upper end of the rear foot bar 12, the upper end of the connecting bar 13 is rotatably connected to the middle of the handlebar 15, the lower end of the support bar 14 is rotatably connected to the upper portion of the rear foot bar 12, the upper end of the support bar 14 is rotatably connected to the lower end of the handlebar 15, the frame body 1 further includes a frame locking mechanism 16 for locking the frame body 1 in an unfolded state, and a frame unlocking mechanism 17 for unlocking the frame locking mechanism 16, and the seat unlocking mechanism 4 is configured to be interlocked by the support bar 14 to unlock the seat locking mechanism 3 when the support bar 14 is shifted from the unfolded state to the folded state. In the present embodiment, a four-bar mechanism is formed among the rear foot bar, the connecting bar, the handle bar and the supporting bar, and when the frame main body is in an unfolded state, the four-bar mechanism is converted into a three-bar mechanism to be locked, so that the structural stability and reliability of the frame main body are improved, and when the frame main body is folded, the front foot bar and the connecting bar 13 can be linked in a way of connecting bar or gear, etc. so that the front foot bar and the connecting bar 13 are both close to each other in the direction of the rear foot bar.

Wherein the seat unlocking mechanism 4 comprises a seat unlocking slide block 41 which is slidably arranged on the rear foot rod 12 and can be linked with the seat locking mechanism 3 for unlocking, the opposite sides of the seat unlocking slide block 41 and the rear foot rod 12 are respectively provided with a seat unlocking inclined surface 411 which is used for enabling the seat unlocking slide block 41 to transversely slide when the seat unlocking slide block 41 slides, and the seat unlocking slide block 41 is configured to be linked by the supporting rod 14 for unlocking the seat locking mechanism 3 when the handle rod 15 is converted from an unfolding state to a folding state.

As shown in fig. 1 to 12, 15 and 16, the front foot bar and the connecting bar 13 are linked by a connecting bar, and the frame body 1 further includes a front foot linkage mechanism 18 located between the front foot bar 11 and the supporting bar 14, wherein the front foot linkage mechanism 18 is configured to be linked by the supporting bar 14 when the supporting bar 14 is transformed from the unfolded state to the folded state, so as to link the front foot bar 11 to rotate and fold toward the rear foot bar 12. Specifically, the front foot link mechanism 18 includes a front link lever 181 and a rear link lever 182, the front end of the front link lever 181 is rotatably connected with the front foot lever 11, the rear end of the front link lever 181 is rotatably connected with the front end of the rear link lever 182, and the rear end of the rear link lever 182 is relatively fixedly connected to the lower end of the support lever 14. Preferably, the rear link 182 is integrally formed with the support bar 14 and is J-shaped. In the present embodiment, four-bar mechanisms are formed among the front foot bar 11, the rear foot bar 12, the front link bar 181, and the rear link bar 182, and the four-bar mechanisms are locked in response to the support bar being locked. The frame main body 1 comprises two four-bar mechanisms, namely, only one of the four-bar mechanisms is locked, and the other four-bar mechanism is also locked and is converted into a three-bar connecting structure, so that the structural stability and reliability of the frame main body can be improved.

As shown in fig. 13 and 14, the frame locking mechanism 16 includes frame locking tooth grooves 161 provided on opposite sides of the connecting rod 13 and the handle bar 15, respectively, a frame locking gear 162 provided between the connecting end of the connecting rod 13 and the handle bar 15 and capable of sliding laterally and simultaneously locking the frame locking tooth grooves 161 on the connecting rod 13 and the handle bar 15, a frame locking elastic member 163 provided between the frame locking gear 162 and the corresponding end of the connecting rod 13 and capable of simultaneously locking the frame locking gear 162 into the frame locking tooth grooves 161 on the connecting rod 13 and the handle bar 15, a frame unlocking mechanism 17 including a frame unlocking dial 171 rotatably provided between the handle bar 15 and the frame locking gear 162 and capable of pushing the frame locking gear 162 out of the handle bar 15, frame unlocking dial 171 and frame unlocking dial 171 provided on opposite sides of the handle bar 15, respectively, for sliding the frame unlocking dial 171 laterally when the frame unlocking dial 171 rotates, and a frame unlocking rope 171 provided on the handle bar 15, and a frame unlocking operating member 173 provided on the handle bar 15, connected to the frame unlocking dial 171 by the frame unlocking operating member 173 via the frame unlocking dial 172.

When the frame body needs to be folded, a user manually acts on the frame unlocking operation member 173, the frame unlocking operation member 173 pulls the frame unlocking rotary table 171 to rotate through the frame unlocking pull rope 172, the frame unlocking rotary table 171 pushes the frame locking gear 162 to transversely slide under the action of the frame unlocking inclined plane 1711, so that the frame locking gear 162 exits the frame locking tooth groove 161 of the handle bar 15, the locking state of the handle bar 15 relative to the connecting rod 13 is released, the locking state of the two four-bar mechanism is simultaneously released, then the handle bar 15 is operated to be folded forwards relative to the connecting rod 13, the connecting rod 13 is folded backwards, meanwhile, the upper end of the supporting rod 14 rotates downwards around the pivot of the supporting rod and the rear foot rod, correspondingly, as shown in fig. 6 and 7, the lower end of the supporting rod 14 is tilted upwards, and when the supporting rod rotates by a certain angle, the lower part of the supporting rod 14 is linked with the seat unlocking mechanism 4 to release the locking state of the seat locking mechanism 3, and the locking state of the seat connecting assembly 2 relative to the frame body 1 is released. Meanwhile, the lower end of the supporting rod 14 also enables the front end of the rear linkage rod 182 to drag the rear end of the front linkage rod 181 to move upwards, so that the front foot rod 11 rotates towards the rear foot rod 12 for folding.

As shown in fig. 15 and 16, a support driving part 140 for linking the seat unlocking mechanism 4 during the transition of the support bar 14 from the unfolded state to the folded state is provided at the lower part of the support bar 14, the seat locking mechanism 3 is located between the seat connecting assembly 2 and the rear foot bar 12, and the seat unlocking mechanism 4 is located on the rear foot bar 12. The seat locking mechanism 3 comprises seat locking tooth grooves 31 which are respectively arranged on opposite sides of the seat connecting assembly 2 and the rear foot rod 12, a seat locking gear 32 which can transversely slide and can be simultaneously clamped into the seat locking tooth grooves 31 on the seat connecting assembly 2 and the rear foot rod 12 is arranged between the seat connecting assembly 2 and the rear foot rod 12, a seat locking elastic piece 33 which can enable the seat locking gear 32 to be elastically clamped into the seat locking tooth grooves 31 on the seat connecting assembly 2 and the rear foot rod 12 is arranged between the seat locking gear 32 and the seat connecting assembly 2, the seat unlocking mechanism 4 comprises a seat unlocking slide block 41 which can be slidably arranged on the rear foot rod 12 and can push the seat locking gear 32 to transversely slide, a avoidance long hole is correspondingly arranged on the seat unlocking slide block 41, and a pivot of the seat connecting assembly 2 penetrates through the long hole on the seat unlocking slide block 41 to ensure that the seat unlocking slide block 41 can slide relative to the rear foot rod. The seat unlocking slide 41 and the rear foot bar 12 are respectively provided with a seat unlocking slope 411 for forcing the seat unlocking slide 41 to slide laterally when the seat unlocking slide 41 slides, and the seat unlocking slide 41 is directly or indirectly provided with a seat unlocking shaft pin 412. Preferably, the seat unlocking shaft pin 412 extends out of the inner side surface of the rear foot rod to be matched with the support driving part 140, the inner side surface of the rear foot rod is correspondingly provided with an avoidance long strip hole for the seat unlocking shaft pin 412 to slide, the support driving part 140 is a support driving cambered surface arranged on the lower part of the support rod 14, so that the seat unlocking mechanism is conveniently linked, and meanwhile, the interference clamping phenomenon between the support driving part 140 and the seat unlocking shaft pin 412 of the seat unlocking mechanism is avoided, and smooth linkage is ensured.

When the frame body is changed from the unfolded state to the folded state, the supporting driving portion 140 pushes the seat unlocking shaft pin 412 to slide, so that the seat unlocking slide block 41 slides upwards relative to the rear leg 12, the seat unlocking slide block 41 pushes the seat locking gear 32 to slide laterally under the action of the seat unlocking inclined plane 411, and finally the seat locking gear 32 is retracted out of the seat locking slot 31 of the rear leg 12, so that the locked state of the seat connecting assembly 2 relative to the rear leg 12 is released, and at this time, the child seat 5 connected to the seat connecting assembly 2 can rotate and fold relative to the frame body under the action of gravity, as shown in fig. 9 and 10.

As shown in fig. 15 and 16, in order to achieve better interlocking unlocking, a seat unlocking push rod 42 for pushing the seat unlocking slide 41 to slide is slidably provided in the rear leg bar 12, and a seat unlocking shaft pin 412 is provided on the seat unlocking push rod 42.

As shown in fig. 17 to 24, the child seat 5 includes a seat portion 51, a backrest portion 52 and an armrest portion 54 for relatively fixedly connecting the seat connection assembly 2, the lower end of the backrest portion 52 is rotatably connected to the seat portion 51, a backrest locking mechanism 53 for locking the backrest portion 52 relative to the seat portion 51 and a backrest unlocking mechanism 534 for unlocking the backrest locking mechanism 53 are provided between the backrest portion 52 and the seat portion 51, the armrest portion 54 is rotatably connected to the seat portion 51 and located in front of the backrest portion 52, an armrest folding control mechanism 55 is provided between the armrest portion 54 and the backrest portion 52, and the armrest folding control mechanism 55 is configured to cause the backrest portion 52 to be interlocked with the armrest portion 54 to be folded relative to the seat portion 51 when the backrest portion 52 is rotated forward to a preset angle relative to the seat portion 51, and to cause the armrest portion 54 to be unfolded relative to the seat portion 51 when the backrest portion 52 is rotated backward to a preset angle.

As shown in fig. 23 and 24, the seat portion 51 includes a seat connecting seat 511, the backrest portion 52 includes a backrest connecting seat 521 for rotatable connection with the seat connecting seat 511, and the backrest locking mechanism 53 is located between the seat connecting seat 511 and the backrest connecting seat 521.

As shown in fig. 18, 20, 22 to 24, in order to link the armrest portion to rotate, the armrest portion 54 includes an armrest connecting seat 541 for rotatably connecting with the seat connecting seat 511, and the armrest folding and unfolding control mechanism 55 is located between the backrest connecting seat 521 and the armrest connecting seat 541, and is connected between the backrest connecting seat 521 and the seat connecting seat 511 by a rotation axis a located at a central axis of the seat connecting seat 511, and is connected between the armrest connecting seat 541 and the seat connecting seat 511 by a rotation axis B eccentrically provided with respect to the central axis of the seat connecting seat 511.

As shown in fig. 18, 20 and 22-24, the armrest folding and unfolding control mechanism 55 comprises an armrest folding and unfolding control groove 551 and an armrest folding and unfolding control shaft pin 552, wherein the armrest folding and unfolding control groove 551 is arranged on the armrest connecting seat 541, the armrest folding and unfolding control shaft pin 552 is arranged on the backrest connecting seat 521, the driving end of the armrest folding and unfolding control shaft pin 552 penetrates through the armrest folding and unfolding control groove 551, and an avoidance cambered surface 5511 for avoiding the armrest folding and unfolding control shaft pin 552 when the armrest part 54 is in a unfolded state is arranged on the inner wall of the armrest folding and unfolding control groove 551, so that the backrest part can conveniently rotate to adjust the inclination angle.

And the armrest connecting seat 541 is provided with an armrest guide groove 5411 for the rotation axis a to pass through and cooperate with, the armrest guide groove 5411 is communicated with the armrest folding and unfolding control groove 551, wherein an included angle is formed between the armrest guide groove 5411 and the armrest folding and unfolding control groove 551, the armrest guide groove 5411 is an arc-shaped groove, and the circle center is positioned on the rotation axis B. As shown in fig. 18 and 20, when the armrest portion is fully extended, the rotation axis a abuts against the front end of the armrest guide slot 5411, and the armrest coupling seat 541 is restricted from continuing to rotate rearward.

When the armrest portion is fully folded, as shown in fig. 22, the rotation axis a abuts against the rear end of the armrest guiding slot 5411, and the armrest connecting seat 541 is limited to continue to fold forward.

As shown in fig. 23, 24, in order to better lock the backrest portion, the backrest lock mechanism 53 includes backrest lock grooves 531 provided on opposite sides of the seat connection base 511 and the backrest connection base 521, respectively, backrest lock gears 532 provided between the seat connection base 511 and the backrest connection base 521 so as to be capable of being simultaneously engaged in the seat connection base 511 and the backrest lock grooves 351 of the backrest connection base 521 in a laterally slidable manner, backrest lock elastic members 533 for holding the backrest lock gears 532 elastically engaged in the seat connection base 532 and the backrest lock grooves 531 of the backrest connection base 521 are provided between the backrest lock gears 532 and the seat connection base 511, the backrest lock mechanism 534 includes backrest unlock rotary discs 5341 rotatably provided between the backrest lock gears 532 and the backrest connection base 521 and capable of pushing the backrest lock gears 532 out of the backrest lock grooves 531, backrest lock rotary discs 5341 and backrest connection base 521 are provided on opposite sides of the backrest lock rotary discs 5341 and backrest connection base 521, respectively, and the backrest lock rotary discs 5341 are further provided on opposite sides of the backrest lock rotary discs 5341 for allowing the backrest lock rotary discs 5341 to be laterally slidably engaged in the backrest lock elastic members 531, and backrest lock elastic members 5343 are provided on the backrest lock rotary discs 521, and backrest lock elastic members 5343 are also provided by unlocking operation members 5343, and unlocking the backrest lock mechanism 534. When the locked state of the backrest by the backrest locking mechanism 53 is released, the backrest can be rotated relative to the seat portion, and when the backrest is rotated to a proper angle, the backrest locking operation piece 5343 is released, so that the backrest locking gear 532 can be simultaneously locked in the backrest locking grooves 531 of the seat connecting seat 511 and the backrest connecting seat 521, and the backrest is locked, thereby realizing the adjustment function.

Firstly, a user operates a backrest unlocking operation piece 5343, pulls a backrest unlocking rotary table 5341 to rotate through a backrest unlocking pull rope 5342, at the moment, the backrest unlocking rotary table 5341 transversely slides under the cooperation of a driving inclined plane 53411, and a backrest locking gear 532 is pushed by the backrest unlocking rotary table 5341 to slide towards one side of a seat connecting seat 511, so that the backrest locking gear 532 is withdrawn from a backrest locking groove 531 on the backrest connecting seat 521, and the locking state of the backrest connecting seat 521 relative to the seat connecting seat 511 is released;

Next, as shown in fig. 3, the backrest 52 is turned and folded forward relative to the seat 51, and is engaged with the armrest folding control groove 551 by the armrest folding control shaft pin 552 to rotate and fold the armrest until the armrest 54 and the backrest 52 are both closed on the seat 51.

Then, the user acts on the frame unlocking operation member 173, the frame unlocking operation member 173 pulls the frame unlocking rotary disc 171 to rotate through the frame unlocking pull rope 172, and the frame unlocking rotary disc 171 pushes the frame locking gear 162 to slide transversely under the action of the frame unlocking inclined plane 1711, so that the frame locking gear 162 exits the frame locking tooth groove 161 of the handle bar 15, and the locking state of the handle bar 15 relative to the connecting rod 13 is released; the handle bar 15 is turned forwards relative to the connecting rod 13, the handle bar 15 drives the connecting rod 13 and the supporting rod 14 to rotate downwards, as shown in fig. 6 and 7, in the rotating and folding process of the supporting rod 14, the supporting driving part 140 pushes the seat unlocking shaft pin 412 to enable the seat unlocking slide block 41 to slide upwards relative to the rear foot rod 12, the seat unlocking slide block 41 pushes the seat locking gear 32 to slide transversely under the action of the seat unlocking inclined plane 411, the seat locking gear 32 is enabled to withdraw from the seat locking tooth groove 31 of the rear foot rod 12, the locking state of the seat part 51 of the seat connecting assembly 2 relative to the rear foot rod 12 is released, at the moment, the child seat 5 connected to the seat connecting assembly 2 can rotate and fold relative to the frame body, as shown in fig. 9 and 10, meanwhile, the lower end of the supporting rod 14 enables the front end of the rear linkage rod 182 and the rear end of the front linkage rod 181 to move upwards, and pulls the front foot rod 11 to draw close to one side of the rear foot rod 12;

finally, as shown in fig. 9, the whole folding work of the frame of the baby carrier is completed.

Claims (10)

1. A stroller frame, comprising:

a frame body (1), wherein the frame body (1) can be switched from an unfolding state to a folding state;

The seat connecting assembly (2) is used for being connected with the child seat (5) with folding and unfolding functions, the seat connecting assembly (2) is rotatably connected to the frame main body (1), and a seat locking mechanism (3) used for locking the seat connecting assembly (2) relative to the frame main body (1) is arranged between the seat connecting assembly (2) and the frame main body (1);

A seat unlocking mechanism (4), wherein the seat unlocking mechanism (4) is positioned between the frame body (1) and the seat connecting assembly (2), and the seat unlocking mechanism (4) is configured to be linked by the frame body (1) to unlock the seat locking mechanism (3) when the frame body (1) is converted from an unfolded state to a folded state, so that the locking state of the seat connecting assembly (2) relative to the frame body (1) is released;

the frame main body (1) comprises a front foot rod (11), a rear foot rod (12), a connecting rod (13), a supporting rod (14) and a handle rod (15), wherein the upper end of the front foot rod (11) is rotatably connected with the upper end of the rear foot rod (12);

the lower end of the connecting rod (13) is rotatably connected with the upper end of the rear foot rod (12), and the upper end of the connecting rod (13) is rotatably connected with the middle part of the handle rod (15);

The lower end of the supporting rod (14) is rotatably connected with the upper part of the rear foot rod (12), and the upper end of the supporting rod (14) is rotatably connected with the lower end of the handle rod (15);

The frame main body (1) further comprises a frame locking mechanism (16) for locking the frame main body (1) in an unfolding state and a frame unlocking mechanism (17) for unlocking the frame locking mechanism (16);

The seat unlocking mechanism (4) is configured to be linked by the support rod (14) to unlock the seat locking mechanism (3) when the support rod (14) is changed from an unfolding state to a folding state;

The lower part of the supporting rod (14) is provided with a supporting driving part (140) for linking the seat unlocking mechanism (4) in the process of changing the supporting rod (14) from an unfolding state to a folding state;

The frame locking mechanism (16) is located between the connecting rod (13) and the handlebar (15), and the frame locking mechanism (16) is configured for locking the handlebar (15) relative to the connecting rod (13).

2. A stroller frame according to claim 1, characterized in that the frame body (1) further comprises a front foot linkage (18) between the front foot bar (11) and the support bar (14), the front foot linkage (18) being configured to be linked by the support bar (14) when the support bar (14) is changed from the unfolded state to the folded state, thereby linking the front foot bar (11) to rotate and fold towards the rear foot bar (12).

3. A stroller frame according to claim 2, characterized in that the front foot link (18) comprises a front link (181) and a rear link (182), the front end of the front link (181) is rotatably connected to the front foot bar (11), the rear end of the front link (181) is rotatably connected to the front end of the rear link (182), and the rear end of the rear link (182) is relatively fixedly connected to the lower end of the support bar (14).

4. A stroller frame according to claim 1, characterized in that the frame locking mechanism (16) comprises frame locking slots (161) provided on opposite sides of the connecting rod (13) and the handle bar (15), respectively, a frame locking gear (162) being provided between the connecting rod (13) and the connecting end of the handle bar (15) and being slidable laterally and being capable of simultaneously being snapped into the frame locking slots (161) on the connecting rod (13) and the handle bar (15), a frame locking elastic member (163) being provided between the frame locking gear (162) and the corresponding end of the connecting rod (13) and being capable of simultaneously being snapped into the frame locking slots (161) on the connecting rod (13) and the handle bar (15), the frame locking gear (162) being configured to be interlocked by the frame unlocking mechanism (17) to be withdrawn from the frame locking slots (161) on the handle bar (15).

5. The stroller frame according to claim 4, characterized in that the frame unlocking mechanism (17) comprises a frame unlocking rotary table (171) rotatably arranged between the handle bar (15) and the frame locking gear (162) and capable of pushing the frame locking gear (162) out of the frame locking tooth slot (161) of the handle bar (15), frame unlocking inclined surfaces (1711) for enabling the frame unlocking rotary table (171) to transversely slide when the frame unlocking rotary table (171) rotates are respectively arranged on opposite sides of the frame unlocking rotary table (171) and the handle bar (15), and the frame unlocking mechanism (17) further comprises a frame unlocking operation member (173) arranged on the handle bar (15), wherein the frame unlocking operation member (173) is connected with the frame unlocking rotary table (171) through the frame unlocking pull rope (172).

6. A stroller frame according to any one of claims 1-5, characterized in that the seat locking mechanism (3) is located between the seat connection assembly (2) and the rear foot bar (12), and the seat unlocking mechanism (4) is located on the rear foot bar (12).

7. A stroller frame according to claim 6, characterized in that the seat locking mechanism (3) comprises seat locking grooves (31) arranged on opposite sides of the seat connecting assembly (2) and the rear foot bar (12), respectively, a seat locking gear (32) being arranged between the seat connecting assembly (2) and the rear foot bar (12) and being capable of sliding laterally and being simultaneously clamped into the seat locking grooves (31) on the seat connecting assembly (2) and the rear foot bar (12), a seat locking elastic piece (33) being arranged between the seat locking gear (32) and the seat connecting assembly (2) and being capable of enabling the seat locking gear (32) to be simultaneously clamped into the seat locking grooves (31) on the seat connecting assembly (2) and the rear foot bar (12), the seat locking gear (32) being configured to be retracted out of the seat locking grooves (31) on the rear foot bar (12) by the seat unlocking mechanism (4).

8. The stroller frame according to claim 7, characterized in that the seat unlocking mechanism (4) comprises a seat unlocking slide block (41) slidably arranged on the rear foot bar (12) and capable of pushing the seat locking gear (32) to slide transversely, the opposite sides of the seat unlocking slide block (41) and the rear foot bar (12) are respectively provided with a seat unlocking inclined surface (411) for enabling the seat unlocking slide block (41) to slide transversely when the seat unlocking slide block (41) slides, and the seat unlocking slide block (41) is directly or indirectly provided with a seat unlocking shaft pin (412) for pushing the lower part of the supporting bar (14).

9. The stroller frame according to claim 8, characterized in that the rear leg bar (12) is slidably provided with a seat unlocking push rod (42), the seat unlocking shaft pin (412) is relatively fixedly arranged on the seat unlocking push rod (42), and when the lower part of the supporting bar (14) pushes the seat unlocking shaft pin (412), the seat unlocking shaft pin (412) pushes the seat unlocking push rod (42) to slide relative to the rear leg bar (12), and the seat unlocking push rod (42) further pushes the seat unlocking slide block (41) to slide.

10. A stroller frame according to any one of claims 1-5, characterized in that the child seat (5) comprises a seat part (51) for connection of the seat connection assembly (2), a backrest part (52) and an armrest part (54), the lower end of the backrest part (52) being rotatably connected to the seat part (51), a backrest locking mechanism (53) for locking the backrest part (52) relative to the seat part (51) and a backrest unlocking mechanism (534) for unlocking the backrest locking mechanism (53) being provided between the backrest part (52) and the seat part (51), the armrest part (54) being rotatably connected to the seat part (51) in front of the backrest part (52), a retraction control mechanism (55) being provided between the armrest part (54) and the backrest part (52), the retraction control mechanism (55) being configured to cause the armrest part (52) to be linked to rotate the backrest part (52) relative to the seat part (51) when the backrest part (52) is folded forward to a preset angle, and to allow the armrest part (52) to be rotated relative to the seat part (51) to be unfolded relative to the armrest part.