阅读说明：本技术 用于车辆的座椅框架 (Seat frame for vehicle ) 是由 李尚宪 黄珍皓 车东垠 于 2020-10-26 设计创作，主要内容包括：一种车辆的座椅框架,包括：主框架,该主框架的一端连接到车辆以能向前和向后移动,该主框架的另一端连接到车辆的环结构以使得主框架的高度被向上和向下调整；副框架,设置在主框架的内部中并连接到主框架,使得副框架能相对于主框架旋转预定角度,从而被展开和折叠,使得该副框架在展开时充当座椅,并且在折叠时充当分隔车辆的内部空间的分隔物；以及导轨,主框架装配于该导轨中,并且该导轨充当路径,主框架沿着该路径移动到车辆的前侧和后侧。(A seat frame for a vehicle, comprising: a main frame having one end connected to the vehicle to be movable forward and backward and the other end connected to a loop structure of the vehicle such that the height of the main frame is adjusted upward and downward; a sub-frame disposed in the interior of the main frame and connected to the main frame such that the sub-frame can rotate by a predetermined angle with respect to the main frame to be unfolded and folded such that the sub-frame functions as a seat when unfolded and functions as a partition partitioning an interior space of a vehicle when folded; and a guide rail in which the main frame is fitted and which serves as a path along which the main frame moves to the front and rear sides of the vehicle.)

1. A seat frame for a vehicle, comprising:

a main frame having one end connected to the vehicle to be movable forward and backward, and the other end connected to a loop structure of the vehicle such that a height of the main frame is adjusted upward and downward;

a sub-frame disposed in an interior of the main frame and connected to the main frame to be rotatable with respect to the main frame so that the sub-frame is unfolded and folded; and

a guide rail in which the main frame is fitted, the guide rail providing a path along which the main frame is configured to move in the vehicle in a direction from a front side of the vehicle to a rear side of the vehicle or in a direction from the rear side of the vehicle to the front side of the vehicle.

2. The seat frame according to claim 1, wherein a lower end of the main frame is movably connected to a floor of the vehicle, and an upper end of the main frame is connected to the loop structure of the vehicle such that a height of the main frame is adjusted according to a height from the floor to the loop structure, and the guide rail is provided on the floor of the vehicle.

3. The seat frame according to claim 1, further comprising: a rack disposed on an inner surface of the guide rail; and a gear provided in the main frame fitted in the guide rail,

and wherein the position of the main frame is moved by the meshing relationship of the rack and the gear.

4. The seat frame according to claim 3, further comprising a driving device that drives the gear, the driving device being provided in the main frame such that the main frame moves along the guide rail with rotation of the driving device.

5. The seat frame according to claim 1, wherein the sub-frame includes a seat back frame and a seat cushion frame, the seat back frame being connected to the main frame side by side, and the seat cushion frame being rotatably connected to the seat back frame relative to the seat back frame such that the seat cushion frame is unfolded and folded.

6. The seat frame according to claim 5, wherein a headrest frame is provided at an upper portion of the seat back frame, the headrest frame being movably connected to the seat back frame upward and downward.

7. The seat frame according to claim 5, wherein the seat cushion frame is located at a rear side of the seat back frame, the seat cushion frame being stored in a straight line form when folded, and having a curved shape when unfolded.

8. The seat frame according to claim 5, further comprising a motor disposed on an inner surface of the seat back frame, a protrusion being embedded in the motor,

wherein the protruding portion protrudes toward the seat back frame when the seat back frame is unfolded, so that the shape of the seat back frame is adjusted.

9. The seat frame according to claim 1, wherein the main frame comprises a rigid material and the sub-frame comprises a flexible material that is more flexible than the rigid material.

10. The seat frame according to claim 1, further comprising an outer cover mounted on the sub-frame, and a spool provided at a lower end of the sub-frame, the outer cover being wound around the spool,

wherein the outer covering is drawn out of or wound into the reel as the sub-frame is unfolded or folded.

11. The seat frame according to claim 10, wherein the outer cover comprises a mesh material.

12. The seat frame according to claim 1, wherein the main frame is provided with a stopper which is provided at a connection point of the main frame and the sub-frame and fixes the sub-frame when the sub-frame is unfolded.

13. The seat frame according to claim 1, wherein the sub-frame is configured to be rotatable by a predetermined angle with respect to the main frame so as to be unfolded and folded.

14. The seat frame according to claim 1, wherein the sub-frame is configured to be deployed such that the sub-frame acts as a seat,

and the sub-frame is configured to be folded such that the sub-frame serves as a partition partitioning an interior space of the vehicle.

Technical Field

The present disclosure relates to a seat frame of a vehicle, which may be movably installed in an inner space of the vehicle forward and backward, and which may be used as a seat when unfolded and as a partition partitioning a luggage space when folded.

Background

The interior space of the vehicle may be mainly divided into a space in which passengers sit and a space for loading articles on the rear side of the vehicle. A seat may be provided in a passenger space in which a passenger sits so that the passenger can sit, and a luggage space for loading items may be provided on a rear side of the vehicle so that the items can be loaded in the luggage space.

Conventionally, in an automobile or a Sport Utility Vehicle (SUV), a first row seat including a driver seat and a passenger seat and a second row seat including a passenger seat located at a rear side of the first row seat are provided, and a luggage space is provided at a rear side of the second row seat. In large SUVs or vans, a third row of seats, either folded or unfolded, may be provided behind the second row of seats. The space of the third row seats may become a seat in which a passenger may sit if the third row seats are unfolded, and may become a luggage space in which articles may be loaded if the third row seats are folded.

Conventional vehicles have limitations in expanding or contracting the luggage space or moving the seat position. Even when the second row seats and the third row seats are not used, there may be a limitation in loading articles because the expansion of the luggage space is greatly limited. Further, even when the luggage space is not used, there is a limitation in expanding the space for the second-row seats or the third-row seats. In addition, in order to separate the passenger space and the luggage space, a separate partition needs to be installed.

Due to these restrictions, the interior space of the vehicle cannot be effectively utilized.

Disclosure of Invention

The present disclosure is directed to solving the above-mentioned problems and providing a seat frame of a vehicle, which is movably connected into an internal space of the vehicle such that the position of the seat frame can be changed, and which can be freely unfolded or folded to be used as a seat or a partition partitioning the internal space.

According to an aspect of the present disclosure, a seat frame for a vehicle includes: a main frame having one end connected to the vehicle to be movable forward and backward and the other end connected to a loop structure of the vehicle such that the height of the main frame is adjusted upward and downward; a sub-frame disposed in an interior of the main frame and connected to the main frame to be rotatable with respect to the main frame such that the sub-frame is unfolded and folded; and a guide rail in which the main frame is fitted, the guide rail providing a path along which the main frame is configured to move in the vehicle in a direction from a front side of the vehicle to a rear side of the vehicle or in a direction from the rear side of the vehicle to the front side of the vehicle.

The lower end of the main frame may be movably connected to a floor of the vehicle, and the upper end of the main frame may be connected to a loop structure of the vehicle, such that the height of the main frame is adjusted according to the height from the floor to the loop structure, and the guide rail is provided on the floor of the vehicle.

A rack gear may be provided on an inner surface of the guide rail, a gear (pinion gear) may be provided in the main frame fitted in the guide rail, and the position of the main frame may be moved by the meshing relationship of the rack gear and the gear.

A driving device that drives the gear may be provided in the main frame such that the main frame moves along the guide rail as the driving device rotates.

The sub-frame may include a seat back frame and a seat cushion frame, the seat back frame being connected to the main frame side by side, and the seat cushion frame may be rotatably connected to the seat back frame with respect to the seat back frame such that the seat cushion frame is unfolded and folded.

A headrest frame may be provided at an upper portion of the seat back frame, the headrest frame being connected to the seat back frame in a manner movable upward and downward.

The seat cushion frame may be located at a rear side of the seat back frame such that the seat cushion frame is stored in a straight line form (linear form) when folded and has a curved shape when unfolded.

A motor may be provided on an inner surface of the seat back frame, a protrusion may be embedded in the motor, and the protrusion protrudes toward the seat back frame when the seat back frame is unfolded, so that the shape of the seat back frame is adjusted.

The primary frame may comprise a rigid material and the secondary frame may comprise a flexible material that is more flexible than the rigid material.

An outer cover may be mounted on the sub-frame, a winding reel (winding reel) may be provided at a lower end of the sub-frame, the outer cover is wound on the winding reel, and the outer cover may be drawn out of or into the winding reel as the sub-frame is unfolded or folded, and the outer cover may include a mesh material.

The main frame may be provided with a stopper which is provided at a connection point of the main frame and the sub-frame and fixes the sub-frame when the sub-frame is unfolded.

The sub-frame may be configured to be rotatable by a predetermined angle with respect to the main frame so as to be unfolded and folded.

The sub-frame may be configured to be unfolded such that the sub-frame functions as a seat, and the sub-frame may be configured to be folded such that the sub-frame functions as a partition partitioning an interior space of the vehicle.

In the seat frame according to the present disclosure, since the seat frame is movably connected to the floor and the loop structure of the vehicle and the height of the main frame may be changed according to the height of the loop structure, the passenger space or the luggage space may be expanded or contracted according to the user's needs, thereby effectively utilizing the space.

Further, since the sub-frame can be unfolded or folded to be used as a seat or a partition, the sub-frame can be used as a seat or a partition as the case may be.

Further, since the sub-frame includes the seat back frame, the seat cushion frame, and the headrest frame, the passenger can feel comfortable and a stable feeling can be provided by the shape and structure of the sub-frame.

Drawings

The above and other aspects, features and advantages of the present disclosure will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings in which:

FIG. 1 is a perspective view of a seat frame of a vehicle according to an embodiment of the present disclosure;

fig. 2 and 3 are views illustrating an appearance in which a seat frame of a vehicle moves according to an embodiment of the present disclosure;

fig. 4 and 5 are views illustrating an appearance in which a seat frame of a vehicle is unfolded or folded according to an embodiment of the present disclosure;

FIG. 6 is a cross-sectional view of a seat frame of a vehicle according to an embodiment of the present disclosure; and

fig. 7 is a cross-sectional view of a mesh seat and a spool of a seat frame of a vehicle according to an embodiment of the present disclosure.

Detailed Description

Specific structural and functional descriptions of the embodiments of the disclosure disclosed in this specification or application are given solely for the purpose of describing the embodiments in accordance with the disclosure. Thus, embodiments in accordance with the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein.

While embodiments in accordance with the present invention are susceptible to various modifications and alternative forms, specific embodiments have been shown in the drawings and will be described in the specification or application. It should be understood, however, that embodiments in accordance with the concepts of the present disclosure are not limited to the specifically disclosed embodiments, and that the present disclosure includes all modifications, equivalents, and alternatives falling within the spirit and scope of the present disclosure.

In the case where an element is referred to as being "connected" or "coupled" to other elements, it will be understood that the element may not only be directly connected or coupled to the other elements, but that additional elements may be present between the element and the other elements. Conversely, where a component is referred to as being "directly connected" or "directly coupled" to another component, it is understood that no component is present between the component and the other component. Other expressions describing the relationship between structural elements, i.e., "between … …" and "between … … only" or "adjacent" and "directly adjacent" should be similarly construed as described above.

Hereinafter, preferred embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. Like reference symbols in the various drawings indicate like elements.

The present disclosure relates to a seat frame connected to be movable along a floor F of a vehicle, and in the present disclosure, a main frame 100 is connected to be movable, and a sub-frame 200 serves as a seat S in a unfolded state and a partition in a folded state, thereby freely utilizing an inner space of the vehicle. Specifically, in the case of having three rows of seats, the seat frame is used as the seat S as needed while dividing the space into a luggage space and an inner space, so that the space can be effectively utilized.

Fig. 1 is a perspective view of a seat frame of a vehicle according to an embodiment of the present disclosure. Referring to fig. 1, a seat frame of a vehicle according to an embodiment of the present disclosure may include a main frame 100, a sub-frame 200, and a guide rail 300.

The main frame 100 may have a ring shape. The lower end of the main frame 100 may be connected to a floor F of the vehicle, and the upper end of the main frame 100 may be connected to a loop structure L of the vehicle.

The lower end of the main frame 100 may be movably connected to the floor F. The guide rail 300 may be disposed on the floor F, and the lower end of the main frame 100 is fitted into the guide rail 300 and connected thereto so as to be movable forward and backward along the guide rail 300. As the main frame 100 moves forward and backward along the guide rail 300 in the inner space of the vehicle, the position of the seat or the position of the divider may be adjusted. Fig. 2 shows a guide rail 300.

The upper end of the main frame 100 may be connected to the loop structure L to be movable along the loop structure L. Since the upper end of the main frame 100 is connected to the loop structure L, the height of the main frame 100 can be adjusted according to the height of the loop structure L. Because the loop structure L of the vehicle has the following shape: the vehicle body is highest at the center and the height of the vehicle body is lowered forward and backward, so the height of the hoop structure L should be varied according to the position of the main frame 100 in the vehicle interior.

Accordingly, the main frame 100 may be configured such that the upward/downward height of the main frame 100 is adjusted according to the height from the floor F to the ring structure L. As shown in fig. 1, the height of the main frame 100 may be configured to be changed according to the movement of the main frame. In order to adjust the height of the main frame 100, a side surface of the main frame 100 may have a multi-stepped structure.

The sub-frame 200 may be disposed in the interior of the main frame 100. The sub-frame 200 may be connected to the main frame 100 and may be rotated by a predetermined angle with respect to the main frame 100 to be unfolded or folded. In the deployed condition, the sub-frame 200 defines approximately 90 degrees with the main frame 100, thereby acting as a seat; in the folded state, the sub-frame is disposed side by side with the main frame 100, thereby serving as a partition partitioning the inner space of the vehicle body.

The interior space of the vehicle may be partitioned into a luggage space in which luggage is loaded and a passenger space in which passengers are seated. Since the sub-frame 200 serves as a partition that can partition the interior space of the vehicle in a folded state, the luggage space and the passenger space can be distinguished by changing the position of the sub-frame 200, thereby partitioning the interior space of the vehicle. Therefore, the interior space of the vehicle can be freely partitioned for utilization.

In the case where the seat is required in the interior space of the vehicle, the sub-frame 200 may be used as the seat by positioning the main frame 100 at a suitable position and unfolding the sub-frame 200. Further, when a luggage space should be distinguished from a passenger space for loading luggage, the luggage space may be formed by folding the sub-frame 200 and moving the main frame 100. In this way, the limited interior space of the vehicle can be used effectively.

Fig. 2 and 3 are views illustrating an appearance in which a seat frame of a vehicle moves according to an embodiment of the present disclosure.

Referring to fig. 2 and 3, the guide rail 300 may be a path along which the main frame 100 moves forward and backward in the inner space of the vehicle. The guide rail 300 may be disposed on the floor F of the vehicle, and the lower end of the main frame 100 may be fitted in the guide rail 300.

Referring to fig. 3, a rack 310 may be formed on an inner surface of the guide rail 300, and a gear 101 may be formed on an outer surface of the main frame 100 fitted in the guide rail 300. The gear 101 may move along the rack 310 while moving the main frame 100. That is, the position of the main frame 100 is moved by the meshing relationship of the rack and the pinion. Further, the main frame 100 may simply slide on the guide rail 300, and in this case, a magnetic module may be provided to fix the position of the main frame 100.

Further, the main frame 100 may be provided with a driving device 103 driving the gear 101. The driving device 103 may be connected to the gear 101 through a shaft 102, and may drive the gear 101 such that the gear 101 moves along the rack 310 as the gear 101 rotates. The moving direction of the main frame 100 can be controlled by adjusting the rotating direction of the driving device 103. The position of the main frame 100 can be adjusted by operating the driving device 103.

Fig. 4 and 5 are views illustrating an appearance in which a seat frame of a vehicle according to an embodiment of the present disclosure is unfolded or folded. Fig. 4 is a view showing only the main frame 100 and the sub-frame 200 in fig. 3.

Referring to fig. 4 and 5, a sub-frame 200 of a seat frame of a vehicle according to an embodiment of the present disclosure may include a seat back frame 210 and a seat cushion frame 230. The seat back frame 210 may be connected to the main frame 100 side by side to support a passenger, for example, while the passenger is seated. The seat cushion frame 230 may be rotatably connected to the seat back frame 210 such that the seat cushion frame 230 may be unfolded and folded. As shown in fig. 4 and 5, the seat cushion frame 230 is rotatable to be disposed to face the front side when moved to the lower side of the seat back frame 210, whereby a seat can be formed.

Further, a headrest frame 220 may be provided at an upper portion of the seat back frame 210, and may be connected to the seat back frame 210 in a manner movable forward and downward. The headrest H corresponds to a portion where the head of the passenger is located when the passenger is seated. The headrest frame 220 may be inserted through an upper portion of the seat back frame 210 when not in use, and may be lifted up to protrude to an upper side of the seat back frame 210 when in use. Since the headrest frame 220 can be inserted and extended, the headrest frame 220 can be prevented from unnecessarily occupying space, so that space can be effectively used.

The main frame 100 may be connected to a frame of a vehicle and may be made of a rigid material, such as metal, to firmly support the sub-frame 200. Because the sub-frame 200 contacts the body of the passenger, the sub-frame may be made of a flexible material that is more flexible than a rigid material.

The seat-cushion frame 230 may be inserted into a rear side of the seat back frame 210 to be stored in a folded state, and the seat-cushion frame may maintain a linear shape by the seat back frame 210 in the stored state, and when unfolded, the seat-cushion frame may have a curved shape so that a passenger may sit. The sub-frame 200 may be made of a flexible material so that the shape of the seat cushion frame 230 may be deformed according to their use state. Therefore, when the sub-frame 200 is used as a spacer, the seat cushion frame 230 may be stored in a straight line form to obtain a luggage space, and when the sub-frame 200 is used as a seat, the seat cushion frame 230 may have a curved shape to make a passenger feel comfortable while sitting.

Further, the seat cushion frame 230 may include a first seat cushion frame 231 supporting the lower body of the seated passenger and a second seat cushion frame 232 that may hold an arm. The second seat cushion frame 232 may be disposed at the height of the passenger's arms, and the center of the second seat cushion frame 232 may have an upwardly curved shape so as to be supportable for the passenger's arms.

Referring to fig. 5, the main frame 100 may be provided with a stopper 500 fixing the sub-frame 200. The stopper 500 may be inserted into the sub-frame 200 at a point where the sub-frame 200 is connected to the main frame 100. If the stopper 500 is inserted into the sub-frame 200 in a state where the sub-frame 200 is rotated to be unfolded, the sub-frame 200 may be fixed so as to prevent the reverse rotation. Accordingly, when the passenger is seated, the seat can be stably fixed by inserting the stopper 500 into the sub-frame 200.

Fig. 6 is a cross-sectional view of a seat frame of a vehicle according to an embodiment of the present disclosure. Fig. 5 shows the sub-frame 200 in an expanded state.

Referring to fig. 6, a motor 240 may be provided on an inner surface of the seat back frame 210. Since the passenger leans his or her back on the seat back frame 210, the passenger may feel comfortable when the seat back frame 210 has a shape similar to the back. A protrusion 250 protruding toward the seat back frame 210 is embedded in the motor 240, and the protrusion 250 may be protruded in a case where the motor 240 is driven. The protrusion 250 may push the seat back frame 210 outward to bendably deform the shape of the seat back frame 210.

The motor 240 may be configured to be driven by movement of the seat cushion frame 230. In the case where the seat cushion frame 230 rotates, the shape of the seat back frame 210 is curved due to the protrusion 250 protruding from the motor 240, so that the seat back frame 210 may become a shape that feels comfortable when a passenger sits.

Fig. 7 is a cross-sectional view of a mesh seat and spool 410 of a seat frame of a vehicle according to an embodiment of the present disclosure.

Referring to fig. 7, an outer cover 400 may be mounted on the sub-frame 200. The outer cover 400 may be made of a mesh material exhibiting excellent ventilation efficiency and excellent drying efficiency. A reel 410 on which the outer cover 400 is wound may be provided at the lower end of the sub-frame 200.

The outer cover 400 may be wound on a reel 410 to be stored, and the outer cover may be protruded from or wound into the reel 410 to a desired degree according to a folded or unfolded state of the sub-frame 200. If the sub-frame 200 is folded and then unfolded, the outer cover 400 is extended from the reel 410 along the sub-frame 200 to cover the entire sub-frame 200.

As described above, the seat frame of the vehicle according to the present disclosure may be movably installed in the inner space of the vehicle, and may utilize the space because the space may be expanded and contracted into the passenger space or the luggage space. When some passengers are seated, the main frame 100 may be moved to the rear side of the vehicle to obtain a wide passenger space. Further, when a large number of items are loaded, the main frame 100 may be moved to the front side of the vehicle to obtain a wide luggage space.

Specifically, the sub-frame 200 may be rotatably connected to the main frame 100 so as to be foldable or unfoldable, and thus may be used as a seat or a partition, and thus, it is not necessary to separately provide a seat and a partition.

While the present disclosure has been shown and described with respect to the specific embodiments thereof, it will be apparent to those skilled in the art that various modifications and changes may be made thereto without departing from the spirit and scope of the disclosure as defined in the appended claims.