The present invention relates to child safety seats.
A child safety seat is typically used in an automobile vehicle to properly restrain a child in the event of accidental collision. The child safety seat usually has a backrest provided with a headrest that is movable along the backrest for height adjustment in accordance with the size of the child. Unfortunately, this conventional construction can only provide a limited range of height adjustment that may not be suitable for children of all sizes.
Therefore, there is a need for an improved child safety seat that can offer a larger range of height adjustment and address at least the foregoing issues.
The present application describes a child safety seat including a backrest assembly that has multiple stages of height adjustment adapted to children of different sizes and ages.
According to one aspect, the child safety seat includes a seat portion, a backrest assembly connected with the seat portion, and a backrest adjusting system. The backrest assembly includes a first portion, a second portion slidably connected with the first portion, and a third portion slidably connected with the second portion. The backrest adjusting system is carried with the backrest assembly and is configured to provide a first stage of height adjustment where the first and second portions are locked with each other and the third portion is movable relative to the first and second portions for adjustment, and a second stage of height adjustment where the second portion is locked with the third portion and unlocked from the first portion so that the second portion and the third portion are movable in unison relative to the first portion for adjustment. Moreover, the backrest adjusting system includes an adjustment latch carried with the third portion, the adjustment latch being operable to engage with the second portion for locking the third portion in position in the first stage of height adjustment and to engage with the first portion for locking the third portion in position in the second stage of height adjustment.
The backrest portion 20 is connected with the seat portion 10. According to an example of construction, the backrest portion 20 may be pivotally connected with the seat portion 10 about a pivot axis extending transversally (i.e., direction shown with arrow C in
According to an example of construction, the backrest portion 20 may be fixedly attached to the seat portion 10 via a connection that is detachable or not detachable. For example, a lower end of the backrest portion 20 can include one or more catches 204 having a semicircular recess 204a (as shown in
Referring to
The headrest 40 is slidably connected with the backrest portion 30 for sliding movement along the lengthwise axis D of the backrest assembly, whereby the headrest 40 can be adjusted upward and downward relative to the backrest portions 20 and 30 and the seat portion 10 according to the size of a child. According to an example of construction, the headrest 40 may include a head support portion 40A, and a mount panel 40B that is fixedly connected with and projects downward from the head support portion 40A, the mount panel 40B being slidably disposed through a channel provided in the backrest portion 30 for slidably assembling the headrest 40 with the backrest portion 30.
The backrest adjusting system 50 is disposed on the backrest assembly, and is configured to provide multiple stages of height adjustment. According to an embodiment, two stages of height adjustment can be provided: a first stage where the backrest portions 20 and 30 are locked with each other and cannot move relative to each other while the headrest 40 is movable relative to the backrest portions 20 and 30 for adjustment, and a second stage where the backrest portion 30 is unlocked from the backrest portion 20 and is locked with the headrest 40 so that the headrest 40 and the backrest portion 30 are movable in unison relative to the backrest portion 20 for adjustment. The first stage can exemplary correspond to a configuration where the backrest portion 30 is locked with the backrest portion 20 in a predetermined anchor position and the headrest 40 is movable relative to the backrest portions 20 and 30 for adjustment within a first height range. The second stage can exemplary correspond to a configuration where the backrest portion 30 and the headrest 40 locked with each other are movable in unison relative to the backrest portion 20 to adjust the headrest 40 within a second height range lower than the first height range.
In conjunction with
Referring to
Referring to
The backrest portion 20 can include a plurality of height locking sites 201 associated with the second stage of height adjustment of the backrest assembly. The height locking sites 201 may exemplary include openings, recesses, slots or the like, and may be disposed in two symmetric rows parallel to the lengthwise axis D at a left and a right side of the backrest portion 20. The number of height locking sites 201 provided at each of the left and right side of the backrest portion 20 may vary depending on the desirable number of settable positions for the second stage of height adjustment. For example, each of the left and right side of the backrest portion 20 may respectively include 2, 3, 4, 5 or more height locking sites 201 so that the second stage of height adjustment may correspondingly include 2, 3, 4, 5 or more settable positions. The headrest 40 may be locked in any of the settable positions in the second stage of height adjustment by engaging each adjustment latch 2 with a corresponding one of the height locking sites 201. For example, the two adjustment latches 2 can slide away from each other so that each adjustment latch 2 can protrude sideways from the mount panel 40B of the headrest 40 and engage with a corresponding one of the height locking sites 201 for locking the headrest 40 and the backrest portion 30 in position, and can slide toward each other to disengage from the height locking sites 201 and thereby unlock the headrest 40 and the backrest portion 30 for adjustment.
The two row regions of the height locking sites 201 on the backrest portion 20 may overlap at least partially with the two row regions of the height locking sites 301 on the backrest portion 30 when the backrest portion 30 moves in the second stage of height adjustment. According to an example of construction, the two rows of the height locking sites 201 may be located between the two rows of the height locking sites 301 in the second stage of height adjustment, and the two adjustment latches 2 may also respectively engage with two ones of the height locking sites 301 (e.g., the lowest ones) on the backrest portion 30 when the headrest 40 and the backrest portion 30 are locked in any positions in the second stage of height adjustment.
Referring to
According to an example of construction, the release actuator 1 may be provided as a handle, and may be disposed at a central region of the headrest 40, e.g., at a central region adjacent to a top of the head support portion 40A. The release actuator 1 can be slidably connected with the headrest 40 for sliding movements along the lengthwise axis D of the backrest assembly. Each linking member 5 connecting the release actuator 1 to one adjustment latch 2 can include a curved shape and can be elastically deformable. For example, each linking member 5 can include a first portion 51 that extends generally parallel to the lengthwise axis D of the backrest assembly and upwardly connects with the release actuator 1, and a second portion 52 having a curved shape that connects with one adjustment latch 2. The headrest 40 may further include a guiding structure 402 configured to guide sliding movements of the linking members 5 during operation. For example, the guiding structure 402 may include ribs and/or slots provided on the mount panel 40B that are in sliding contact with the linking members 5. Once assembled, the adjustment latches 2 and the linking members 5 may be at least partially concealed between the mount panel 40B of the headrest 40 and the backrest portion 20.
With the aforementioned construction, the release actuator 1, the adjustment latches 2 and the linking members 5 are linked with one another, and are movable in unison for locking and unlocking the headrest 40. For example, the release actuator 1 can slide downward when the two adjustment latches 2 slide away from each other to engage with the backrest portion 20 and/or the backrest portion 30 for locking the headrest 40, and the release actuator 1 can be pulled upward to draw the two adjustment latches 2 to slide toward each other and disengage from the backrest portion 20 and/or the backrest portion 30 for unlocking the headrest 40.
Referring to
Referring to
Referring to
Referring to
According to an example of construction, the two anchoring portions 401 can be provided on the mount panel 40B of the headrest 40, and can be grooves, slots, recesses or the like. For example, each anchoring portion 401 may be a curved slot that has a center of curvature on the pivot axis L of the latching part 31 and is adapted to receive the engagement of a corresponding side protrusion 33. The latching part 31 can exemplary rotate in a first direction to displace the two side protrusions 33 forward for engagement with the two anchoring portions 401 of the headrest 40, and can rotate in a second direction opposite to the first direction to displace the two side protrusions 33 rearward for disengagement from the two anchoring portions 401 of the headrest 40. The backrest portion 30 may include two receiving slots 302 (better shown in
Referring to
Moreover, the latching part 32 can be movably connected with the latching part 31 so as to allow relative movement between the latching parts 31 and 32. For example, the latching part 32 can be slidably connected with the latching part 31 for sliding along a front-rear axis E (better shown in
With the aforementioned construction, the latching part 32 can move in one direction to engage with an anchoring portion 202 provided on the backrest portion 20 for locking the backrest portion 30 with the backrest portion 20, and can move in an opposite direction to disengage from the anchoring portion 202 for unlocking the backrest portion 30 from the backrest portion 20. For example, a rotation of the latching part 31 for disengaging the side protrusions 33 and unlocking the headrest 40 can displace the latching part 32 in one direction for engagement with the anchoring portion 202 of the backrest portion 20, and an external force can be applied on the latching part 32 to cause the latching part 32 to move relative to the latching part 31 in an opposite direction for disengaging from the anchoring portion 202 of the backrest portion 20. The spring 34 can be compressed when the latching part 32 moves for disengaging from the anchoring portion 202 of the backrest portion 20.
According to an example of construction, the anchoring portion 202 can include an opening provided on a front wall 20A of the backrest portion 20, and the protuberant portion 32A of the latching part 32 can engage with the anchoring portion 202 for locking the backrest portion 30 with the backrest portion 20. The anchoring portion 202 may be exemplary disposed in a central region on the front wall 20A of the backrest portion 20. More specifically, the anchoring portion 202 may be exemplary disposed in a recessed region 203 of the front wall 20A (better shown in
Referring to
Referring to
According to an example of implementation, the anchor position of the backrest portion 30 relative to the backrest portion 20 may correspond to a most extended position of the backrest portion 30 relative to the backrest portion 20, which may be exemplary when the backrest portion 30 is at a highest position relative to the backrest portion 20 with the adjustment latch 2 on each of the and right side located above or at the same level as a highest one of the height locking sites 201 on the backrest portion 20. However, it will be appreciated that the anchor position of the backrest portion 30 relative to the backrest portion 20 may be set at other locations. For example, the anchor position of the backrest portion 30 relative to the backrest portion 20 may be any lower position where the adjustment latch 2 on each of the and right side is located above or at the same level as any height locking site 201 that is higher than the lowest height locking site 201 and lower than the highest height locking site 201 on the backrest portion 20.
According to an example of construction, the switching actuator 4 can be fixedly connected with the backrest portion 20, and the lock 3 can move toward or away from the switching actuator 4 when the backrest portion 30 slides relative to the backrest portion 20 in the second stage of height adjustment. The switching actuator 4 may be a single part fixedly attached to the backrest portion 20, or may be a part integrally formed with the backrest portion 20. As the backrest portion 30 locked with the headrest 40 by the latching part 31 slides upward and reaches the anchor position relative to the backrest portion 20, the switching actuator 4 can contact and urge the lock 3 to switch from the second locking state to the first locking state. More specifically, the switching actuator 4 can contact and urge the latching part 31 to rotate for disengaging the side protrusions 33 from the anchoring portions 401 of the headrest 40 and for engaging the latching part 32 with the anchoring portion 202 of the backrest portion 20. For example, a ramp surface 41 provided on the switching actuator 4 may contact and push against a ramp surface 311 provided on the latching part 31 to urge the latching part 31 in rotation for disengaging from the headrest 40 as the backrest portion 30 slides upward and reaches the anchor position.
Exemplary operation of the backrest adjusting system 50 is described hereinafter with reference to
When the backrest assembly is to be switched from the first stage of height adjustment to the second stage of height adjustment for adjusting the headrest 40 within the second height range lower than the first height range, a caregiver can operate the release actuator 1 to cause the adjustment latches 2 to disengage from the backrest portion 30, which thereby unlocks the headrest 40 from the backrest portion 30. While the backrest portions 20 and 30 are locked with each other by the latching part 32 and remain stationary, the unlocked headrest 40 then can be moved downward until the headrest 40 reaches a proper position relative to the backrest portion 30 and the lock 3 that enables locking engagement of the lock 3 with the anchoring portions 401 of the headrest 40. This proper position may be, for example, a lowest position of the headrest 40 relative to the backrest portion 30 corresponding to the lowest ones of the height locking sites 301. Once the headrest 40 is in the proper position relative to the backrest portion 30, the caregiver can release the release actuator 1 so that the adjustment latches 2 can engage with the corresponding ones of the height locking sites 301 so as to lock the headrest 40 with the backrest portion 30. Then the protuberant part 32A can be pressed inward so as to cause the latching part 32 to slide relative to the latching part 31 and the backrest portion 30 and disengage from the anchoring portion 202 of the backrest portion 20, whereby the backrest portions 20 and 30 are unlocked from each other. As the latching part 32 moves to disengage from the backrest portion 20, the abutting portion 321 of the latching part 32 can move away from the abutting portion 311 of the latching part 31. Subsequently, the headrest 40 and the backrest portion 30 locked with each other by the adjustment latches 2 can move downward in unison relative to the backrest portion 20, which also causes the latching part 31 to move downward along with the backrest portion 30. As a result, the latching part 31 can move away and disengage from the switching actuator 4, and can rotate and engage with the anchoring portions 401 of the headrest 40 owing to the biasing force applied by the spring 35. The lock 3 can be thereby switched to the second locking state, and the backrest portion 30 and the headrest 40 can be locked with each other by the latching part 31 for the second stage of height adjustment. Once the headrest 40 and the backrest portion 30 are adjusted to a desired position, the adjustment latches 2 can engage with two corresponding ones of the height locking sites 201 on the backrest portion 20 for locking the headrest 40 and the backrest portion 30 in position with respect to the backrest portion 20.
When the backrest assembly is to be switched from the second stage of height adjustment to the first stage of height adjustment for adjusting the headrest 40 within the first height range, a caregiver can operate the release actuator 1 to cause the adjustment latches 2 to disengage from the backrest portion 20 and thereby unlock the headrest 40 and the backrest portion 30 from the backrest portion 20, wherein the the headrest 40 and the backrest portion 30 remain locked with each other by the latching part 31. Then the headrest 40 and the backrest portion 30 can be moved upward in unison until the backrest portion 30 reaches the predetermined anchor position relative to the backrest portion 20, which can exemplary correspond to a most extended position of the backrest portion 30 relative to the backrest portion 20. This upward movement of the backrest portion 30 can move the latching part 31 toward the switching actuator 4. When the backrest portion 30 reaches the anchor position relative to the backrest portion 20, the latching part 32 can engage with the anchoring portion 202 of the backrest portion 20 under the biasing action of the spring 34, and the switching actuator 4 can contact and urge the latching part 31 to rotate about the pivot axis L for disengaging the side protrusions 33 of the latching part 31 from the anchoring portions 401 of the headrest 40. In an embodiment, the relative positions of the anchoring portion 202 and the switching actuator 4 are properly set related to the locations of the latching parts 31 and 32, so that as the latching part 31 rotates for disengaging from the headrest 40, the latching part 32 can move concurrently under the biasing action of the spring 34 for engaging with the anchoring portion 202 of the backrest portion 20. In other words, the locking status of the latching parts 31 and 32 can be switched at a same time. Accordingly, the latching parts 31 and 32 are movable in a concurrent manner for switching the lock 3 from the second locking state to the first locking state so that the backrest portion 30 is locked with the backrest portion 20 in the anchor position by the latching part 32, and the headrest 40 is unlocked from the backrest portion 30 and can slide relative to the backrest portions 20 and 30 for adjustment. Once the headrest 40 is adjusted to a desired position, the adjustment latches 2 can engage with two corresponding ones of the height locking sites 301 on the backrest portion 30 for locking the headrest 40 in position with respect to the backrest portion 30.
Advantages of the child safety seat described herein include a backrest assembly that has multiple stages of height adjustment adapted to children of different sizes and ages. Accordingly, the child safety seat may offer an extended service life.
Although the embodiments described herein provide a particular construction of the lock 3 having the aforementioned latching parts 31 and 32 that can respectively engage with the headrest 40 and the backrest portion 20, it will be appreciated that other constructions may be possible. For example, another construction may provide a lock that is slidably connected with the backrest portion 30 and can slide to selectively attach either of the backrest portion 20 and the headrest 40 to the backrest portion 30, the switching actuator 4 contacting with the lock to cause displacement of the lock for switching from the second locking state to the first locking state. Another exemplary construction may provide a lock that is movably connected with the backrest portion 30 via a resilient arm and can be moved to selectively attach either of the backrest portion 20 and the headrest 40 to the backrest portion 30, the switching actuator 4 being configured to push against the resilient arm so as to cause an elastic deformation of the resilient arm that displaces the lock for switching from the second locking state to the first locking state. Other possible constructions can provide a lock including magnetic and/or electromagnetic elements capable of selectively attaching either of the backrest portion 20 and the headrest 40 to the backrest portion 30, a lock including elastic elements capable of selectively attaching either of the backrest portion 20 and the headrest 40 to the backrest portion 30, or any combinations thereof.
Realization of the child safety seat has been described in the context of particular embodiments. These embodiments are meant to be illustrative and not limiting. Many variations, modifications, additions, and improvements are possible. These and other variations, modifications, additions, and improvements may fall within the scope of the inventions as defined in the claims that follow.
Number | Date | Country | Kind |
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201811357761.7 | Nov 2018 | CN | national |
This application is a continuation of U.S. patent application Ser. No. 17/126,008 filed on Dec. 17, 2020 and issued as U.S. Pat. No. 11,260,778 B2, which is a continuation of U.S. patent application Ser. No. 16/682,256 filed on Nov. 13, 2019 and issued as U.S. Pat. No. 10,906,434 B2, which claims priority to Chinese patent application no. 201811357761.7 filed on Nov. 14, 2018.
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Number | Date | Country | |
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20220134916 A1 | May 2022 | US |
Number | Date | Country | |
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Parent | 17126008 | Dec 2020 | US |
Child | 17579696 | US | |
Parent | 16682256 | Nov 2019 | US |
Child | 17126008 | US |