阅读说明：本技术 儿童推车装置 (Children's barrow device ) 是由 罗伯特·E·奥 安卓·J·泰勒 于 2018-04-26 设计创作，主要内容包括：一种儿童推车装置,包括：一推车架；一第一配接器,与所述推车架相枢接,所述第一配接器具有一第一耦接部和一第二耦接部,所述第一耦接部和所述第二耦接部朝不同方向突出,所述第一配接器可相对于所述推车架旋转,从而调整所述第一配接器为第一位置或第二位置,其中,所述第一配接器的第一位置将所述第一耦接部配置为可拆卸式部件的安装部,所述第一配接器的第二位置将所述第二耦接部配置为可拆卸式部件的安装部；以及一第二配接器,与所述推车架相枢接,使所述第二配接器能够介於使用位置和未使用位置之間旋轉,其中,所述第二配接器位於使用位置時适于与可拆卸式部件相卡合,所述第二配接器位於未使用位置時则禁止可拆卸式部件的卡合。(A stroller apparatus, comprising: a cart frame; a first adapter pivotally connected to the stroller frame, the first adapter having a first coupling portion and a second coupling portion, the first coupling portion and the second coupling portion protruding in different directions, the first adapter being rotatable with respect to the stroller frame so as to adjust the first adapter to a first position or a second position, wherein the first position of the first adapter configures the first coupling portion as a mounting portion of a detachable component, and the second position of the first adapter configures the second coupling portion as a mounting portion of a detachable component; and a second adapter pivotally connected to the cart rack for enabling the second adapter to be rotated between a use position and an unused position, wherein the second adapter is adapted to engage with the detachable component when in the use position, and the second adapter is prevented from engaging with the detachable component when in the unused position.)

1. A stroller apparatus, comprising:

a cart frame;

a first adapter pivotally connected to the stroller frame, the first adapter having a first coupling portion and a second coupling portion, the first coupling portion and the second coupling portion protruding in different directions, the first adapter being rotatable with respect to the stroller frame so as to adjust the first adapter to a first position or a second position, wherein the first position of the first adapter configures the first coupling portion as a mounting portion of a detachable component, and the second position of the first adapter configures the second coupling portion as a mounting portion of a detachable component; and

a second adapter pivotally connected to the cart rack for enabling the second adapter to be used in a spin stand between a use position and an unused position, wherein the second adapter is adapted to engage with the detachable component when in the use position, and the second adapter is prevented from engaging with the detachable component when in the unused position.

2. The stroller apparatus of claim 1, wherein: the second adapter has a third coupling portion that protrudes upward in the use position.

3. The stroller apparatus of claim 1, wherein: the second adapter has a third coupling portion that protrudes downward when in an unused position.

4. The stroller apparatus of claim 2, wherein: each of the first coupling portion, the second coupling portion, and the third coupling portion has a symmetrical shape so as to be engaged with detachable members installed in different directions.

5. The stroller apparatus of claim 1, wherein: the first coupling portion protrudes upward when in a first position, and the second coupling portion protrudes upward when in a second position.

6. The stroller apparatus of claim 1, wherein: the first coupling portion and the second coupling portion are respectively adapted to be inserted into a slot provided in a detachable part.

7. The stroller apparatus of claim 1, wherein: the adapter rotates about 90 degrees between a first position and a second position.

8. The stroller apparatus of claim 1, wherein: the first adapter is arranged on the cart frame and is higher than the second adapter.

9. The stroller apparatus of claim 1, wherein: the first adapter is arranged at the front position of the pushchair frame, and the second adapter is arranged at the rear position of the pushchair frame.

10. The stroller apparatus of claim 1, wherein: the cart frame comprises a front foot frame, a pushing hand frame and a rear foot frame, the rear foot frame is further connected with a rear supporting frame, the first adapter is pivoted with the pushing hand frame, and the second adapter is pivoted with the rear supporting frame.

11. The stroller apparatus of claim 10, wherein: the stroller frame further comprises a connecting rod, and the connecting rod is respectively pivoted with the stroller frame and the rear foot frame.

12. A stroller apparatus, comprising:

a cart frame; and

an adapter pivoted to the cart frame and having a first coupling portion and a second coupling portion, each of the first coupling portion and the second coupling portion being capable of being used as an installation portion of a detachable component, wherein the first coupling portion and the second coupling portion protrude in different directions and are respectively adapted to be embedded into slots provided in the detachable component;

wherein the adapter is rotatable relative to the stroller frame to move the first coupling portion and the second coupling portion, the adapter configuring the first coupling portion as the mounting portion when in a first position and the adapter configuring the second coupling portion as the mounting portion when in a second position.

13. The stroller apparatus of claim 12, wherein: the first coupling portion protrudes upward when in the first position, the second coupling portion protrudes upward when in the second position, and the adapters located in the first position and the second position can be engaged with the detachable child seat installed in the backward position or the forward position.

14. The stroller apparatus of claim 12, wherein: the mounting portion formed by the second coupling portion of the adapter in the second position is disposed forward relative to the mounting portion formed by the first coupling portion of the adapter in the first position.

15. The stroller apparatus of claim 12, wherein: the adapter rotates about 90 degrees between a first position and a second position.

16. The stroller apparatus of claim 12, wherein: the first coupling portion and the second coupling portion protrude in different directions, and a top of the second coupling portion when the adapter is in the second position is substantially the same height as a top of the first coupling portion when the adapter is in the first position.

17. The stroller apparatus of claim 12, wherein: the adapter is locked in the first position and the second position by a latch member movable between a locked position engaging the adapter and locking the adapter in the first position or the second position and an unlocked position disengaging the adapter so that the adapter can be rotated between the first position and the second position.

18. The stroller apparatus of claim 17, wherein: the adapter is pivotally connected to the stroller frame about a pivot axis, and the latch member includes at least one tooth and is slidable along the pivot axis, and the tooth is engageable with the adapter to lock the adapter in the first position or the second position.

19. The stroller apparatus of claim 17, wherein: the latching member is connected to a spring that urges the latching member toward the locking position.

20. The stroller apparatus of claim 17, wherein: the adapter is assembled with an accessible release member that facilitates movement of the latch member from the locked position to the release position.

Technical Field

The invention relates to a child stroller device.

Background

Caregivers often rely on a stroller device to transport infants and children. The stroller device is typically constructed of a metal frame that includes an assembly of metal and plastic components and a fabric that is attached or wrapped around the metal frame. When not in use, the cart device can be folded for convenient storage or transport.

Some existing stroller devices may be configured to include one or more seats to enable one or more children to be transported at a time. However, a stroller apparatus that houses multiple seats has a very large frame structure, which can be difficult to handle, store, and transport.

Therefore, there is a need for an improved stroller apparatus that can be easily operated and that at least ameliorates the above disadvantages.

Disclosure of Invention

The present invention provides a child stroller apparatus that is easy to operate and has a mounting system that can accommodate a variety of removable components, such as one or two removable child seats.

According to an embodiment of the present invention, a stroller apparatus is provided, comprising: a cart frame; a first adapter pivotally connected to the stroller frame, the first adapter having a first coupling portion and a second coupling portion, the first coupling portion and the second coupling portion protruding in different directions, the first adapter being rotatable with respect to the stroller frame so as to adjust the first adapter to a first position or a second position, wherein the first position of the first adapter configures the first coupling portion as a mounting portion of a detachable component, and the second position of the first adapter configures the second coupling portion as a mounting portion of a detachable component; and a second adapter pivotally connected to the cart rack for enabling the second adapter to be rotated between a use position and an unused position, wherein the second adapter is adapted to engage with the detachable component when in the use position, and the second adapter is prevented from engaging with the detachable component when in the unused position.

The child cart device is characterized in that: the second adapter has a third coupling portion that protrudes upward in the use position.

The child cart device is characterized in that: the second adapter has a third coupling portion that protrudes downward when in an unused position.

The child cart device is characterized in that: each of the first coupling portion, the second coupling portion, and the third coupling portion has a symmetrical shape so as to be engaged with detachable members installed in different directions.

The child cart device is characterized in that: the first coupling portion protrudes upward when in a first position, and the second coupling portion protrudes upward when in a second position.

The child cart device is characterized in that: the first coupling portion and the second coupling portion are respectively adapted to be inserted into a slot provided in a detachable part.

The child cart device is characterized in that: the adapter rotates about 90 degrees between a first position and a second position.

The child cart device is characterized in that: the first adapter is arranged on the cart frame and is higher than the second adapter.

The child cart device is characterized in that: the first adapter is arranged at the front position of the pushchair frame, and the second adapter is arranged at the rear position of the pushchair frame.

The child cart device is characterized in that: the cart frame comprises a front foot frame, a pushing hand frame and a rear foot frame, the rear foot frame is further connected with a rear supporting frame, the first adapter is pivoted with the pushing hand frame, and the second adapter is pivoted with the rear supporting frame.

The child cart device is characterized in that: the stroller frame further comprises a connecting rod, and the connecting rod is respectively pivoted with the stroller frame and the rear foot frame.

According to another embodiment of the present invention, a stroller apparatus is provided, comprising: a cart frame; and an adapter pivotally connected to the cart frame and having a first coupling portion and a second coupling portion, each of the first coupling portion and the second coupling portion being capable of being used as an installation portion of a detachable member, wherein the first coupling portion and the second coupling portion protrude in different directions and are respectively adapted to be inserted into slots provided in the detachable member;

wherein the adapter is rotatable relative to the stroller frame to move the first coupling portion and the second coupling portion, the adapter configuring the first coupling portion as the mounting portion when in a first position and the adapter configuring the second coupling portion as the mounting portion when in a second position.

The child cart device is characterized in that: the first coupling portion protrudes upward when in the first position, the second coupling portion protrudes upward when in the second position, and the adapters located in the first position and the second position can be engaged with the detachable child seat installed in the backward position or the forward position.

The child cart device is characterized in that: the mounting portion formed by the second coupling portion of the adapter in the second position is disposed forward relative to the mounting portion formed by the first coupling portion of the adapter in the first position.

The child cart device is characterized in that: the adapter rotates about 90 degrees between a first position and a second position.

The child cart device is characterized in that: the first coupling portion and the second coupling portion protrude in different directions, and a top of the second coupling portion when the adapter is in the second position is substantially the same height as a top of the first coupling portion when the adapter is in the first position.

The child cart device is characterized in that: the adapter is locked in the first position and the second position by a latch member movable between a locked position engaging the adapter and locking the adapter in the first position or the second position and an unlocked position disengaging the adapter so that the adapter can be rotated between the first position and the second position.

The child cart device is characterized in that: the adapter is pivotally connected to the stroller frame about a pivot axis, and the latch member includes at least one tooth and is slidable along the pivot axis, and the tooth is engageable with the adapter to lock the adapter in the first position or the second position.

The child cart device is characterized in that: the latching member is connected to a spring that urges the latching member toward the locking position.

The child cart device is characterized in that: the adapter is assembled with an accessible release member that facilitates movement of the latch member from the locked position to the release position.

Drawings

Fig. 1 is a perspective view of a stroller apparatus according to an embodiment of the present invention, which includes a mounting system in a first configuration.

Fig. 2 shows a perspective view of the mounting system of the stroller device in a second configuration.

Fig. 3 is an enlarged perspective view showing a partial structural detail of an adapter provided in the mounting system of the stroller apparatus.

Fig. 4 depicts a cross-sectional view of the latch mechanism of fig. 3 with the adapter connected in a release state.

Fig. 5 shows a cross-sectional view of the latch mechanism in a locked state.

Fig. 6 is a perspective view of a portion of the structural details of the support bracket to which the adapter of fig. 3 is pivotally connected.

FIG. 7 depicts a perspective view of the support bracket with a portion of the latching mechanism assembled therein.

Fig. 8 is a perspective view of a portion of the structural details of the adapter of fig. 3.

Fig. 9-12 are side views showing examples of arrangements in which the child stroller apparatus is deployed with a detachable child seat mounted at different positions on the stroller frame.

Detailed Description

Fig. 1 is a perspective view of a stroller apparatus 100 according to an embodiment of the invention. Referring to fig. 1, the stroller apparatus 100 may include a stroller frame 101, wherein the stroller frame 101 includes a front foot rest 102, a rear foot rest 104 and a stroller frame 106. According to one embodiment, the front stand 102, the rear stand 104 and the handle bar 106 may be formed of a tubular structure. The front foot rest 102 may include two side sections 102A respectively disposed on the left and right sides of the stroller device 100, and a transverse portion 102B connected to the two side sections 102A. The lower portion of the front foot frame 102 may be provided with a plurality of wheel assemblies 108.

The rear foot stool 104 may include two side sections 104A respectively disposed on the left and right sides of the stroller device 100, and a transverse section 104B connected to the two side sections 104A. The rear foot stool 104 may be provided at a lower portion thereof with a plurality of wheel assemblies 110. In addition, the rear foot stand 104 may be connected to a rear support frame 112. According to an embodiment, the rear support frame 112 may have a substantially U-shape including two side sections 112A connected to the two side sections 104A of the rear foot stool 104, respectively, and a lateral section 112B connected to the two side sections 112A. The rear support frame 112, including the two side sections 112A and the cross section 112B, may be a single component. A bracket 114 may be connected to the lateral section 112B of the rear support frame 112 and the lateral section 104B of the rear foot stand 104, respectively, to provide support for the rear support frame 112.

The stroller frame 106 can include two side sections 106A disposed on the left and right sides of the stroller device 100, respectively, and a transverse section 106B connected to the two side sections 106A. A cup holder 118 and a tray 120 may be connected to the side section 106A in an elevated position for use by an adult.

The same assembly structure may be used at each of the left and right sides of the stroller device 100 to connect the front foot rest 102, the rear foot rest 104, and the handle frame 106. More specifically, the upper end of the side segment 104A is pivotally connected to the corresponding side segment 102A via a pivot 120, so that the front leg frame 102 and the rear leg frame 104 can rotate relative to each other around the pivot 120. Each pivot 120 includes, for example, a pivot axis assembled through side segment 102A and/or side segment 104A. The side section 102A of the front foot frame 102 can be pivotally connected to the corresponding side section 106A of the handle bar 106 via a pivot connection 122, so that the front foot frame 102 and the handle bar 106 can rotate relative to each other around the pivot connection 122. According to one embodiment, each of the pivotal connection portions 122 includes a housing portion 124 fixedly connected to the side section 102A of the front leg frame 102 and a housing portion 126 fixedly connected to the side section 106A of the handle frame 106, and the housing portion 126 is pivotally connected to the housing portion 124. In addition, each of the left and right sides of the stroller apparatus 100 further includes a connecting rod 128, and the connecting rod 128 is pivotally connected to the side section 104A of the rear foot stool 104 and the side section 106A of the handle frame 106 via two pivotal connection portions 130, 132. Thereby, the rear foot stand 104 and the handle bar 106 can be linked with each other to facilitate the folding and unfolding of the stroller apparatus 100.

Referring to fig. 1, the stroller apparatus 100 further includes a handle 134 to facilitate one-handed operation of the stroller apparatus 100. For example, the exterior shape of the grip portion 134 may at least partially define a concave surface to facilitate one-handed gripping of the grip portion 134. The grip portion 134 is made of a rigid material, which may include, but is not limited to, hard plastic, metal, and the like. The grip portion 134 is disposed adjacent to the housing portion 124 and extends below the housing portion 124. For example, the grip portion 134 may have a curved outer shape with two ends adjacent to the housing portion 124 and the pivot portion 120, respectively, wherein the pivot portion 120 couples the side section 102A with the side section 104A, and the grip portion 134 protrudes forward from the housing portion 124 and the side section 102A.

According to one embodiment, the housing portion 124 and the handle portion 134 may be fixedly connected to a sleeve portion 136, wherein the housing portion 124 is disposed at one end of the sleeve portion 136, and the handle portion 134 is connected to the housing portion 124 and the sleeve portion 136 at two ends. Housing portion 124, grip portion 134 and sleeve portion 136 may be formed as a single piece that may be secured to side section 102A by securing side section 102A through sleeve portion 136, thereby securing housing portion 124 and grip portion 134 to side section 102A. The handle 134 is easy to use and hold to lift the stroller apparatus 100 above a floor surface to facilitate folding of the stroller apparatus 100.

As shown in fig. 1, the handle portion 134 may be coupled to a release member 138, the release member 138 being coupled to a latching mechanism (not shown) disposed in the pivot portion 122 between the two housings 124, 126. The release 138, when operated, causes the pivot 122 to release to fold the stroller apparatus 100.

Referring to fig. 1, the stroller apparatus 100 can further include a mounting system including a plurality of adapters 140, 142 assembled to the stroller frame 101 to mount one or two removable components as desired. More specifically, two adapters 140 may be respectively provided on the two side sections 112A of the rear support frame 112 at a rear position of the cart frame 101, and two adapters 142 may be respectively provided on the two side sections 106A of the cart frame 106 at a front position of the cart frame 101. Examples of removable components that may be mounted to the adapters 140, 142 include, but are not limited to, removable child seats, such as stroller seats and child safety seats, bassinets, storage components, such as storage baskets, and the like.

The two adapters 140 may be similar in structure and configured to receive a removable component mounted at a rearward location of the stroller frame 101. According to one embodiment, two adapters 140 may be pivotally connected to the two side sections 112A of the rear support frame 112, respectively. Each adapter 140 is rotatable relative to the rear support frame 112 between a use position (shown in fig. 1 and 2) in which the coupling portion 140A of the adapter 140 projects upwardly from the side section 112A of the rear support frame 112 to engage with a removable component, and an unused position (shown in fig. 11) in which the coupling portion 140A projects downwardly from the side section 112A of the rear support frame 112 to inhibit engagement of the removable component when the adapter 140 is in the unused position. The coupling portion 140A may have a symmetrical shape so as to be able to receive the engagement of the detachable member in different directions. For example, the removable child seat can be snapped into engagement with the coupling 140A in either the rearward or forward position, as desired.

Referring to fig. 1, the two adapters 142 may be similar in structure and may receive a removable component mounted at a forward location of the stroller frame 101. The adapter 142 is higher than the adapter 140 on the cart frame 101. According to one embodiment, the two adapters 142 are pivotally connected to the two side sections 106A of the stroller frame 106 about a pivot axis Y extending laterally from the left side to the right side of the stroller frame 101. For example, each side section 106A of the handle frame 106 can be fixedly connected to a support bracket 144, and the corresponding adapter 142 can be pivotally connected to the support bracket 144 about the pivot axis Y. According to an embodiment, the adapter 142 may be disposed adjacent to the pivot portion 122, and the pivot portion 122 couples the front leg frame 102 to the handle frame 106.

Each adapter 142 has at least two coupling portions 146, 148, and the two coupling portions 146, 148 can be used as mounting portions for mounting detachable members, respectively. According to one embodiment, the adapter 142 including the two coupling portions 146, 148 may be a rigid single component. The two coupling portions 146, 148 are projected in different directions on the adapter 142. For example, the coupling portion 146 may extend and protrude in a radial direction of the pivot axis Y, and the coupling portion 148 may protrude at a side of the coupling portion 146. Each adapter 142 is rotatable about a pivot axis Y relative to the stroller frame 101 to synchronously move the two coupling portions 146, 148 to change the orientation of the two coupling portions 146, 148. Either one of the two coupling portions 146, 148 may be selected as a mounting portion protruding upward so as to mount the detachable member, wherein each of the coupling portions 146, 148 may have a symmetrical shape so as to be engaged with the detachable member mounted in different directions, respectively. For example, a removable child seat in either a forward or rearward position may be engaged with either of the two coupling portions 146, 148 as desired.

Fig. 1 shows each adapter 142 in the stroller device 100 in a first position with the coupling portion 146 projecting upward and the coupling portion 148 projecting forward. As shown in fig. 1, the adapter 142 is configured to mount the coupling portion 146 in the first position and maintain the angle between the coupling portion 146 and the coupling portion 148. According to some embodiments, the detachable member can still be engaged with the coupling portion 148 when the adapter 142 is in the first position.

Fig. 2 shows each adapter 142 in stroller apparatus 100 in a second position with coupling portion 148 projecting upward and coupling portion 146 projecting rearward. According to one embodiment, the adapter 142 is rotatable about 90 degrees between a first position, shown in FIG. 1, and a second position, shown in FIG. 2. In addition, the top 148A of the coupling portion 148 when the adapter 142 is in the second position (shown in fig. 2) is substantially the same height as the top 146A of the coupling portion 146 when the adapter 142 is in the first position (shown in fig. 1). The adapter 142 is in the second position shown in fig. 2, which configures the coupling portion 148 as a mounting portion and maintains the angle between the coupling portion 146 and the coupling portion 148. According to some embodiments, the detachable member can still be engaged with the coupling portion 146 when the adapter 142 is in the second position.

According to one embodiment, the mounting portion formed by the coupling portion 148 of the adapter 142 in the second position is forward relative to the mounting portion formed by the coupling portion 146 of the adapter 142 in the first position. To achieve this configuration, one embodiment of the present invention, for example, disposes the coupling portion 148 on a side offset from the pivot axis Y of the adapter 142 and opposite the coupling portion 146. Thus, the detachable member can be positioned forward on the cart frame 101 when engaged with the adapter 142 in the second position, leaving more room for mounting the second detachable member to the adapter 140.

Fig. 3 shows an enlarged view of a portion of the structure of the adapter 142 in conjunction with fig. 1 and 2. Referring to fig. 1-3, the adapter 142 may include different features to facilitate engagement with different removable components in the first and second positions of fig. 1 and 2. According to one embodiment, the adapter 142 may include two openings 150A, 150B, and the two openings 150A, 150B may engage with the removable child safety seat when the adapter 142 is in the first position shown in fig. 1. The two openings 150A, 150B may be located on either side of the axis of symmetry S1 of the coupling portion 146, and the two openings 150A, 150B may be located below the pivot axis Y of the adapter 142 when the stroller device 100 is deployed with the adapter 142 in the first position. When in the first position, the coupling portion 146 of the adapter 142 is inserted into a slot provided in the detachable child safety seat, and a latch or a mounting structure on the detachable child safety seat is engaged with one of the two openings 150A, 150B. For example, when the removable child safety seat is mounted to the adapter 142 in the rearward position, the latch on the removable child safety seat may engage the opening 150A; when the removable child safety seat is mounted to the adapter 142 in the forward position, the latch on the removable child safety seat may engage the opening 150B.

In addition, the adapter 142 may further include two openings 152A, 152B, and when the adapter 142 is in the second position shown in fig. 2, the two openings 152A, 152B may engage with the detachable child safety seat. The two openings 152A, 152B may be located on either side of the axis of symmetry S2 of the coupling portion 148, and the two openings 152A, 152B may be located below the pivot axis Y of the adapter 142 when the stroller device 100 is deployed with the adapter 142 in the second position. When in the second position, the coupling portion 148 of the adapter 142 is inserted into a slot provided in the removable child safety seat, and a latch or a mounting structure on the removable child safety seat is engaged with one of the two openings 152A, 152B. According to one embodiment, the two openings 152A, 152B of the adapter 142 in the second position of FIG. 2 correspond in spatial position to the first openings 150A, 150B of the adapter 142 in the first position of FIG. 1, enabling similar installation of the child safety seat in either the rearward or forward position. For example, when the removable child safety seat is mounted to the adapter 142 in the rearward position, the latch on the removable child safety seat may engage the opening 152A; when the removable child safety seat is mounted to the adapter 142 in the forward position, the latch on the removable child safety seat engages the opening 152B.

Referring to fig. 1, the adapter 142 may further include an opening 154, and when the adapter 142 is in the first position of fig. 1, the opening 154 may be engaged with the detachable stroller seat. The opening 154 may be disposed on the symmetry axis S1 of the coupling portion 146, and the opening 154 may be located above the pivot axis Y of the adapter 142 in the coupling portion 146 when the stroller device 100 is unfolded and the adapter 142 is in the first position. When in the first position, the coupling portion 146 of the adapter 142 is inserted into a slot formed in the stroller seat, and a latch or mounting structure on the stroller seat is engaged with the opening 154. Thus, the detachable stroller seat can be mounted on the adapter 142 in either a rearward position or a forward position as desired.

According to one embodiment, the adapter 142 may be configured to receive installation of the removable child safety seat or the removable stroller seat in a rearward position, a forward position, when in the first position shown in fig. 1, and only to receive installation of the removable child safety seat in a rearward position, a forward position, when in the second position shown in fig. 2. The adapter 142 in the second position shown in fig. 2 does not have a corresponding opening that is functionally similar to the opening 154 that is capable of engaging with a removable stroller seat, such that the adapter 142 in the second position is not capable of receiving the stroller seat installation.

Fig. 4-8, in conjunction with fig. 1-3, depict schematic views of a latching mechanism 158 for locking the adapter 142 in the first position of fig. 1 and the second position of fig. 2. More specifically, FIG. 4 depicts a cross-sectional view of the latch mechanism 158 in a unlocked state. Fig. 5 shows a cross-sectional view of the latch mechanism 158 in a locked state. Fig. 6 shows a perspective view of a partial structural detail of the support bracket 144. Fig. 7 depicts a perspective view of a portion of the latch mechanism 158 assembled in the support bracket 144. Fig. 8 is a perspective view of a portion of the structural details of the adapter 142 pivotally connected to the support bracket 144. Referring to fig. 4-8, the latching mechanism 158 may include a latch 160, a spring 162, and a release 164.

An interior cavity 166 may be at least partially defined between the adapter 142 and the support bracket 144, and the latch member 160 may be assembled within the interior cavity 166. For example, the support bracket 144 may include a receiving slot 168 (best shown in fig. 6), and the adapter 142 may be pivotally connected to the support bracket 144 adjacent the receiving slot 168, thereby at least partially defining the interior cavity 166. The latch member 160 is movable within the internal cavity 166 between a locked position, wherein the latch member 160 rotationally locks the adapter 142 and the support bracket 144 in either the first or second positions, and an unlocked position, wherein the latch member 160 permits rotation of the adapter 142 relative to the support bracket 144 between the first and second positions.

According to one embodiment, the latch 160 is slidably supported by a center post 170 to which the adapter 142 is affixed. For example, the central post 170 may extend through a through hole 172 in the latch 160. The support bracket 144 may be fixedly coupled to an inner shaft 174, and the inner shaft 174 may be assembled through the interior of the center post 170 such that the adapter 142 and the support bracket 144 are pivotally coupled about the pivot axis Y. Thus, the latch member 160 is slidable along the pivot axis Y between the locked position and the unlocked position. The latch member 160 engages the adapter 142 and the support bracket 144 when in the locked position to prevent relative rotation between the adapter 142 and the support bracket 144, thereby locking the adapter 142 in either the first position shown in fig. 1 or the second position shown in fig. 2. The latch 160 disengages the adapter 142 in the unlocked position to allow the adapter 142 to rotate relative to the support bracket 144 between the first position and the second position. Fig. 4 shows the latch 160 in the unlocked position and fig. 5 shows the latch 142 in the locked position.

Referring to fig. 4-8, the latch member 160 includes one or more teeth that engage corresponding recesses provided in the receiving slots 168 of the adapter 142 and the support bracket 144 to lock the adapter 142 in the first or second position. For example, the latching member 160 may include two teeth 176A, 176B disposed on the periphery of the latching member 160. The two teeth 176A, 176B of the latch member 160 are respectively received in two recesses 178A, 178B formed in the receiving slot portion 168 of the support bracket 144, and are engageable with or disengageable from a plurality of recesses 180A, 180B, 182A, 182B of the adapter 142 that are distributed in different radial directions with respect to the center post 170. For example, the two teeth 176A, 176B engage with the two grooves 180A, 180B of the adapter 142 respectively to lock the adapter 142 in the first position shown in fig. 1, and the two teeth 176A, 176B engage with the two grooves 182A, 182B of the adapter 142 respectively to lock the adapter 142 in the second position shown in fig. 2.

Referring to fig. 4 and 5, a spring 162 may be provided to urge the latch member 160 toward the locking position. The spring 162 may be disposed about the center post 170 and connected at opposite ends to the latch 160 and the support bracket 144, respectively.

Referring to fig. 1, 2, 4 and 5, the release member 164 is engaged with the adapter 142, and the release member 164 is operable to contact and urge the latch member 160 along the pivot axis Y from the latched position to the released position. According to one embodiment, the release 164 may be a single piece and the release 164 may be exposed on the adapter 142 on the inside edge of the handle frame 106 for operation. The latch 164 is depressed to cause the latch 160 to move to the latched position.

Fig. 9-12 show side views of exemplary configurations of the stroller apparatus 100 with a detachable child seat mounted at different positions on the stroller frame 101 when deployed, in conjunction with fig. 1 and 2. When the stroller device 100 is in the unfolded state, the pivot portion 122 is located above the pivot portion 120 and below the pivot portion 132, and the pivot portion 130 is located below the pivot portion 120. In addition, the pivoting portions 120, 130, 132 may form three vertices of a triangle, and the pivoting portion 122 is located at a side of the adjacent triangle between the vertices of the connecting pivoting portions 120, 132. The adapter 140 and/or the adapter 142 may receive the installation of the detachable components, respectively, when the stroller device 100 is in the deployed state.

In the example configuration shown in fig. 9, the stroller device 100 is in the deployed state, the adapter 142 is in the first position, and the stroller seat 202 is mounted to the adapter 142 in the forward position.

In the example configuration shown in fig. 10, the stroller device 100 is in the deployed state, the adapter 140 is in the use position, and the stroller seat 204 is mounted to the adapter 140 in the forward position.

In the example configuration shown in fig. 11, the stroller device 100 is in the deployed state, the adapter 142 is in the first position, and the child safety seat 206 is mounted on the adapter 142 in the rearward position.

In the example configuration shown in fig. 12, the stroller device 100 is in the deployed state, the adapter 140 is in the use position and the adapter 142 is in the second position (shown in fig. 2), and the stroller seat 204 and the child safety seat 206 are mounted on the adapters 140, 142 in the forward and rearward positions, respectively.

It should be noted that the configuration examples shown in fig. 9-12 are only used to illustrate the configuration principle of the present invention, and the installation system provided by the present invention is also suitable for other installation configurations.

The child stroller apparatus provided by the present invention is easy to operate, and the mounting system provided therein may be configured to mount one or more removable child seats or other removable components, as desired. Therefore, the use elasticity of the child stroller device is improved.

Certain embodiments of the stroller apparatus have been described above. These embodiments are merely preferred examples of the present invention, which should not be construed as limiting the scope of the invention, and therefore all equivalent variations made in the claims are intended to be included therein.