KR20240002296A - slide-support pin for seat swivel mechanism of a vehicle and, Seat swivel mechanism having the same - Google Patents

Abstract

The present invention relates to an elastic support for a sheet swivel device and a sheet swivel device equipped with the same. The purpose of the present invention is to elastically support the upper hook by an elastic support that has its own elastic force due to structural characteristics, so that the vertical movement of the top plate is possible. The object is to provide an elastic support for a sheet swivel device that prevents the sheet swivel device from being prevented and a sheet swivel device provided therewith.
In the present invention, when the upper hook is installed on the lower plate and comes into contact with it, the upper hook is elastically supported by an elastic support provided with elastic force by a receiving groove (gap space) formed between the lower plate and the lower plate.

Description

Elastic support for seat swivel device and seat swivel device having same {slide-support pin for seat swivel mechanism of a vehicle and, Seat swivel mechanism having the same}

The present invention relates to an elastic support for a sheet swivel device and a sheet swivel device having the same, for a sheet swivel device in which the upper hook of the upper plate is elastically supported by an elastic support having its own elastic force due to structural characteristics, thereby reducing vibration. It relates to an elastic support and a sheet swivel device having the same.

In general, a seat swivel device is installed between a seat mechanism such as a seat cushion and the car body, or between the seat mechanism and the rail system, and rotates the seat around 180°. It is installed in a passenger vehicle with three or more rows, It is divided into electric seat swivels, which are automatically rotated by a swivel module containing a swivel motor, and manual seat swivels, which are manually rotated by the user's force. Electric seat swivels are widely used to increase user convenience.

The electric seat swivel is connected between a lower plate fixed to a rail system such as a seat track, an upper plate fixed to a seat mechanism such as a seat cushion frame and rotated on the lower plate, and rotated and driven between the upper plate and the lower plate. It is configured to include a swivel module, and when the top plate connected to the seat mechanism is rotated by the swivel module, a retainer is installed between the top plate and the bottom plate to ensure smooth rotation of the top plate, and the seat mechanism is connected to the top plate. In order to improve the separation rigidity, hook parts are installed at the corners of the upper plate and the corners of the lower plate.

In this way, the sheet swivel device is composed of a number of parts such as an upper plate, a lower plate, a swivel module, a hook portion, etc., and in particular, the swivel module includes a configuration in which gears are meshed with each other, so that the dimensional cumulative tolerance of the parts, Gap may occur due to assembly tolerances between parts, meshing distance between gears, assembly precision, etc., which causes vibration in the upper plate not only in the rotational direction but also in the vertical direction.

In particular, the hook parts connected to the upper plate and lower plate, that is, the upper hook installed at the corner of the upper plate and the lower hook installed at the corner of the lower plate, are furthest from the center of rotation of the sheet swivel device, so that when the upper plate vibrates in the vertical direction, Not only did the lifespan of the upper plate decrease, but the upper and lower hooks came into contact with each other, causing damage and noise, and the gap between the upper and lower hooks was not constant, deteriorating swivel operability, etc. There were various problems. .

Registered Patent Publication No. 10-2351262 (2022.01.11) Registered Patent Publication No. 10-0357399 (2002.10.07) Public Patent Publication No. 10-2002-0044765 (2002.06.19) Registered Patent Publication No. 10-0501012 (2005.07.04)

The object of the present invention is to provide an elastic support for a sheet swivel device that prevents the upper and lower movement of the upper plate by elastically supporting the upper hook by an elastic support having its own elastic force due to structural characteristics, and a sheet swivel device including the same. will be.

The elastic support according to the present invention is installed on a lower plate and is formed to provide elastic force by a receiving groove (gap space) formed between the lower plate and the upper hook when contacted.

The sheet swivel device according to the present invention includes an upper plate provided with an upper hook, a lower plate provided with a lower hook, and an elastic supporter installed on the lower plate to elastically support the upper hook.

In the present invention, the upper hook is elastically supported by an elastic supporter installed on the lower plate, which has the effect of preventing vertical vibration and sagging of the upper plate.

In the present invention, the upper surface of the slide in contact with the upper hook has a convex shape, so that frictional resistance due to contact with the upper hook is minimized, and this has the effect of enabling smooth sheet swivel operation.

In particular, in the present invention, the upper surface of the slide of the elastic supporter is made in a convex shape, so that the entire upper surface of the slide of the elastic supporter is not contacted and supported by the upper hook, but only the central part is in elastic contact, so that the sheet swivel operation is made more smoothly. There is.

In the present invention, the elastic support that elastically supports the upper hook is configured to have structural elasticity, so there is little decrease in elasticity even when used for a long period of time.

In the present invention, the elastic support can be made of a material that minimizes frictional resistance, which has the effect of reducing noise generation.

The present invention has a simple structure in which the elastic support is one-touch coupled to the lower plate, so it is not only easy to produce, but also has many benefits, such as easy assembly and installation, and significantly shortened assembly time.

1 is an exemplary diagram showing the configuration of a sheet swivel device according to the present invention.
Figure 2 is an exemplary diagram showing the installation state of the elastic support according to the present invention.
Figure 3 is an exemplary diagram showing the configuration of an elastic support according to the present invention.
Figure 4 is another example showing the configuration of an elastic support according to the present invention.
Figure 5 is an illustration showing the elastic support state by the elastic support of the present invention.
Figure 6 is an exemplary diagram showing the operating state of the elastic support according to the present invention.
Figure 7 is an exemplary diagram showing the operating state of the elastic support during the swivel operation according to the present invention.

Figure 1 is an exemplary diagram showing the configuration of the sheet swivel device according to the present invention, Figure 2 is an exemplary diagram showing the installation state of the elastic support according to the present invention, and Figure 3 is an exemplary diagram showing the configuration of the elastic support according to the present invention. Figure 4 is another exemplary diagram showing the configuration of the elastic support according to the present invention, Figure 5 is an exemplary diagram showing the elastic support state by the elastic support according to the present invention, and Figure 6 is an elastic support according to the present invention. Figure 7 shows an exemplary diagram showing the operating state of the elastic support during the swivel operation according to the present invention,

The elastic support 30 according to the present invention is installed on the lower plate and is formed to provide elastic force when the upper hook comes into contact with the receiving groove (gap space) formed between the lower plate and the lower plate.

The sheet swivel device 100 according to the present invention is installed on an upper plate 20 provided with an upper hook 21, a lower plate 10 provided with a lower hook 11, and the lower plate 10, and the upper hook 21 is installed on the lower plate 10. It includes an elastic supporter (30) that elastically supports (21).

Such a sheet swivel device 100 has a matching section between the upper hook 21 of the upper plate and the lower hook 11 of the lower plate (the upper hook is formed by rotation of the upper plate) by means of an elastic support 30 that is structurally formed to have elastic force. and the section where the lower hook overlaps) or in some sections of the matching section, the upper hook 21 provided on the upper plate is elastically supported by the elastic supporter 30 to prevent vibration of the upper plate 20.

The seat swivel device 100 includes both an electric seat swivel that is automatically rotated by a swivel module including a swivel motor and a manual seat swivel that is manually rotated by the user's force. Although an electric seat swivel is shown in Figure 1, this is an illustration to aid understanding of the present invention and the configuration of the present invention is not limited thereto.

As shown in FIGS. 1 and 5, the upper hook 21 is installed with a predetermined width on the lower edge of the upper plate 10, and extends in the direction of the lower plate and has a curved hook at the lower end ( 21a) is provided. That is, the upper hook 21 is installed with an overall 'J' shaped cross-sectional structure.

As shown in FIGS. 1, 2, and 5, the lower hook 11 has a predetermined width and is installed on the upper corner of the lower plate 10, and extends in the direction of the upper plate and has a curved shape at the upper end. A ring (11a) is provided. That is, the lower hook 11 is installed with an inverted 'J' shaped cross-sectional structure.

The upper hook 21 and the lower hook 11 configured in this way are installed on the upper and lower plates as a single piece by welding, etc., and are positioned opposite each other at a predetermined gap in the matching section, and are used for collision or collision of vehicles. When an upward load is generated on the upper plate due to, for example, the hook (21a) of the upper hook and the hook (11a) of the lower hook are respectively engaged in the vertical direction to prevent separation and deformation of the upper plate.

The elastic supporter 30 is installed on one side of the lower hook 11, that is, at a corner of the lower plate 10, so that the upper hook 21 can be elastically supported, and is structurally configured to have elastic force.

As shown in FIG. 5, when the upper hook 21 is contacted, the elastic support 30 elastically supports the upper hook 21 in the upward direction, thereby absorbing and preventing vibration of the upper plate 10. In addition, it has a function to keep the gap between the upper hook 21 and the lower hook 11 constant.

In addition, the elastic supporter 30 has a function of providing a predetermined elastic force to the upper hook 21 so that the upper hook 21 can move smoothly in the rotation direction during the sheet swivel operation.

As shown in FIG. 3, the elastic support 30 is formed integrally with the elastic plate 40, which has its own elastic force, and is fitted into the installation groove 12 of the lower plate 10. Includes a pin fixture (50).

The elastic plate 40 includes an elastic portion 41 that elastically supports the upper hook 21 and a pair of support portions that are integrally formed at both ends of the elastic portion 41 and provide elastic force to the elastic portion 41 ( 42) and a receiving groove 43 formed by the elastic part 41 and a pair of support parts 42 to accommodate the elastic deformation of the elastic part 41 due to contact with the upper hook 21, The slide upper surface 44 connected to the elastic portion 41 and the pair of support portions 42 is formed to have a curved or inclined surface with a convex center in the longitudinal direction (L).

The elastic portion 41 is elastically deformed by contact with the upper hook 21 and elastically supports the upper hook 21 in the upward direction (A), thereby preventing and absorbing vibration of the upper plate 20. That is, when the elastic support 30 is assembled and installed on the lower plate 10, the lower surface 41a is spaced apart from the lower plate 10 so that a receiving groove 43 is provided therebetween.

The support portion 42 has a function of providing elastic force to the elastic portion 41 by contact with the lower plate 10. When the elastic support 30 is assembled and installed on the lower plate 10, the lower surface 42a ) is in close contact with the lower plate (10).

The receiving groove 43 is a gap space formed between the lower plate 10 and the lower surface 41a of the elastic part due to the step between the lower surface 41a of the elastic part and the lower surface 42a of the support part, and is connected to the upper hook 21. It is formed to have a predetermined volume to accommodate elastic deformation of the elastic portion 41 due to contact.

The upper surface 44 of the slide is the part where the upper hook 21 comes into contact, and has a structure in which the upper surface 41b of the elastic part and the upper surface 42b of the support part are integrally connected, and the upper surface 44 of the slide part is connected to the upper surface 42 of the upper hook 21. The height (distance from the lower plate to the upper surface, based on the state installed on the lower plate) increases toward the center of the elastic support portion 41, that is, it is formed to have a curved or inclined surface with a convex center in the longitudinal direction (L). there is.

The shape of the upper surface of the slide (44) is such that, as the upper plate (20) rotates to the matching section between the upper hook and the lower hook, the elastic force applied to the upper hook (21) gradually increases, and the upper hook of the upper plate moves closer to the upper surface of the slide. When entering the convex uppermost part of the top hook (21), the elastic force acting on the upper hook (21) reaches its maximum value, and when the swivel motion of the upper plate begins, the elastic force acting on the upper hook (21) gradually decreases, making the sheet swivel motion smooth. This is to ensure that the vibration transmitted from the top plate is effectively cushioned/absorbed.

In addition, the elastic portion 41 and the support portion 42 are described separately to facilitate understanding of the elastic plate 40, and are not formed separately and connected, but are formed integrally through injection molding or the like.

The pin fixture 50 fixes the position of the elastic plate 40 and consists of a pair of couplers 52 and 53 formed to face each other with a gap 51 in between. The upper ends of the couplers 52 and 53 are integrally connected to the elastic portion 41 of the elastic plate.

The couplers (52, 53) and the installation grooves (12) are configured so that the couplers (52, 53) can move up and down within the installation grooves (12) but do not rotate. For example, the installation groove is formed as a square groove, and the couplers 52 and 53 may have a square cross-sectional shape so that they can be fitted into the installation groove 12. Additionally, the couplers 52 and 53 may be formed to have various cross-sectional structures according to the shape of the installation groove 12.

The pin fixture 50 configured in this way has a pair of coupling tools 52 and 53 fitted into the installation groove 12 formed in the lower plate 10 by a one-touch method, and the coupling tool for the installation groove 12 Separation is prevented by the catching contact of (52, 53), and when elastic deformation occurs in the elastic plate (40) due to contact with the upper hook (21), the installation groove (12) is adjusted according to the amount of deformation of the elastic plate (40). ) moves in the up and down direction. Since the configuration and one-touch coupling of the couplers 52 and 53 and the installation groove 12 use known techniques, detailed description thereof will be omitted.

In the elastic support body 30 configured as described above, the elastic plate 40 and the pin fixture 50 are integrally molded by injection molding. That is, the elastic support 30 according to the present invention does not elastically support the upper hook 21 by elastic force depending on the material, but is an elastic plate including an elastic portion 41, a support portion 42, and a receiving groove 43. Due to the connection configuration of (40) and the pin fixture (50), the elastic portion (41) operates elastically to provide elastic support to the upper hook (21).

In addition, the elastic support 30 can be formed not only by injection molding, but also by materials and processing methods that can provide structural elasticity (elasticity of the elastic part according to the support part and the receiving groove).

Additionally, the elastic support 30 may be configured so that the elastic material 60 is disposed within the receiving groove 43.

That is, as shown in FIG. 4, the elastic support 30 is formed integrally with the elastic plate 40 having its own elastic force and is installed in the installation groove 12 of the lower plate 10. Includes a pin fixture (50) that is fitted,

The elastic plate 40 includes an elastic portion 41 that elastically supports the upper hook 21 and a pair of support portions that are integrally formed at both ends of the elastic portion 41 and provide elastic force to the elastic portion 41 ( 42) and a receiving groove 43 formed by the elastic part 41 and a pair of support parts 42 to accommodate the elastic deformation of the elastic part 41 due to contact with the upper hook 21, and the receiving groove 43 It includes an elastic material 60 installed to be disposed within the groove 43, and the upper surface 44 of the slide connected to the elastic portion 41 and the pair of support portions 42 is a curved surface with a convex center in the longitudinal direction (L). Or, it is formed to have an inclined surface.

At this time, the elastic material 60 is disposed in the receiving groove 43 so as not to affect the close contact between the support portion 42 and the lower plate 10, and has the function of accommodating the elastic deformation of the elastic plate 40 as well as , It has a function of buffering/absorbing vibration transmitted to the elastic plate (40) through the upper hook (21).

Additionally, the elastic material 60 may be attached to the lower surface 41a of the elastic part excluding the pin fixture 50, or may be molded integrally with the elastic plate 40 to fill the receiving groove 43.

In addition, the elastic material 60 may be made of not only rubber and silicone materials, but also sponge, polyurethane, synthetic resin foam, etc., which have elasticity.

The elastic support 30 is fixedly installed by one-touch coupling to the installation groove 12 of the lower plate by a pin fixture 50 so that the longitudinal direction of the elastic plate is located in the rotation direction of the upper hook 21.

The elastic supporter 30 configured as above is preferably installed in the installation hole of the lower plate so that the upper hook 21 is elastically supported. However, the upper plate is installed so that the installation hole is formed in the upper plate and the lower hook 11 is elastically supported. It can be installed with one touch in the hole.

Figure 6 shows an exemplary diagram showing the operating state of the elastic support according to the present invention. Figure 6 (a) is a state in which the upper hook and the lower hook of the upper plate enter the matching section due to the rotational force caused by the swivel operation, Figure 6(b) shows a state in which the upper hook is elastically supported by an elastic supporter.

In the present invention, when the upper plate enters the matching section of the upper hook and the lower hook by a swivel operation and the upper hook contacts the elastic support, the upper hook of the upper plate rotates while contacting the upper surface of the slide of the elastic plate provided on the elastic support. do.

At this time, since the upper surface of the slide consists of a curved or inclined surface with a convex center, the elastic play is gradually elastically deformed by contact with the rotational movement of the upper hook, providing an elastic force to elastically support the upper hook in the upward direction, and swivel action. Upon completion, when the upper hook of the upper plate contacts the convex uppermost part of the upper surface of the slide, the upper hook is elastically supported by the elastic plate with the elastic deformation at its maximum (maximum elastic force), so the upper plate remains stable without shaking. It will happen. In other words, the seat mechanism connected to the top plate is maintained stably without vibration.

Figure 7 shows an exemplary diagram showing the operating state of the elastic support during the swivel operation according to the present invention. As shown in (b) of Figure 6, the swivel operation of the upper plate is performed with the upper hook elastically supported by the elastic support. When starting, as the upper plate rotates, the upper hook also contacts the upper surface of the slide of the elastic plate and rotates downward. At this time, since the elastic force of the elastic plate is transmitted to the upper hook through the upper surface of the slide, force is generated by the elastic force in the rotation direction of the upper hook, making the swivel operation more smooth.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes fall within the scope of the claims.

Additionally, the terms described in the present invention are intended to distinguish one component from another component and aid understanding of the present invention, and therefore the components of the present invention are not limited by the described terms.

(10): Bottom plate (11): Bottom hook
(12): Installation groove (20): Top plate
(21): Top hook (30): Elastic support
(40): Elastic plate (41): Elastic part
(41a): Bottom surface of elastic part (41b): Top surface of elastic part
(42): Support portion (42a): Bottom surface of support portion
(42b): Upper surface of support (43): Receiving groove
(44): Slide upper surface (50): Pin fixture
(51): Gap part (52,53): Coupler
(60): Elastic material (100): Sheet swivel device

Claims (7)

An elastic support for a sheet swivel device, characterized in that it is installed on the lower plate and is provided with elastic force by a receiving groove (gap space) formed between the lower plate and the upper hook when it comes into contact with the lower plate.
In claim 1;
The elastic support,
An elastic plate equipped with its own elastic force through a receiving groove (gap space),
An elastic support for a sheet swivel device, characterized in that it includes a pin fixture that is formed integrally with the elastic plate and is fitted into an installation groove of the lower plate.
In claim 2
The pin fixture includes a pair of couplers formed to face each other with a gap between them, and the coupler is configured to allow up and down movement within the installation groove of the lower plate but not to rotate. Support.
In claim 2;
The elastic plate is formed by an elastic part that elastically supports the upper hook, a pair of support parts that are integrally formed at both ends of the elastic part to give elastic force to the elastic part, and an elastic part and a pair of support parts that are connected to the upper hook. An elastic support for a sheet swivel device, comprising a receiving groove that accommodates the elastic deformation of the elastic portion due to contact.
In claim 2;
The elastic plate is formed by an elastic part that elastically supports the upper hook, a pair of support parts that are integrally formed at both ends of the elastic part to give elastic force to the elastic part, and an elastic part and a pair of support parts that are connected to the upper hook. An elastic support for a sheet swivel device, comprising a receiving groove that accommodates the elastic deformation of the elastic portion due to contact, and an elastic material installed to be disposed in the receiving groove.
In claim 4 or claim 5;
The elastic plate has an upper surface of a slide connected to an elastic part and a pair of supports, and the upper surface of the slide is formed to have a curved or inclined surface with a convex center in the longitudinal direction (L). An elastic support for a sheet swivel device.
Top plate equipped with a top hook;
A lower plate provided with a lower hook;
A sheet swivel device comprising: an elastic supporter according to any one of claims 1 to 5, which is installed on the lower plate and elastically supports the upper hook.