CN216059715U - Foldable clothes storage device - Google Patents

Abstract

The utility model relates to a foldable clothes storage device, which comprises a flexible shell and a tensioning support, wherein the tensioning support consists of at least two triangular supports which respectively abut against two opposite side surfaces of the flexible shell and form position constraint with the abutted side surfaces through a fixing ring and a cross rod of which two ends are connected with the top ends of the triangular supports arranged on the two opposite side surfaces, and the flexible shell for containing clothes is opened in a manner of forming a space for allowing the clothes to be placed by the constrained abutting flexible shell, wherein the top end of the triangular support, namely the intersection point of supporting rods of the triangular support, is provided with a rotating assembly for guiding the supporting rods to move along a path in a pivoting motion, and the rotating assembly comprises an ejection buffer element which is connected with the supporting rods and can generate buffer force and power released by the rotating assembly in the unfolding process of the triangular support.

Description

Foldable clothes storage device

Technical Field

The utility model relates to the technical field of household furniture, in particular to a foldable clothes storage device.

Background

The base material that traditional manual system furniture of beating chooseed for use is mostly wooden core board, decorative board, and the product of wooden core board, decorative board etc. on the market is many all levels inferior, hardly up to standard in environmental protection, resistance to deformation. The environment-friendly E0-grade melamine board is mostly adopted in the custom-made integral wardrobe and is formed by cutting, sealing, perforating and assembling in a factory, glue and paint with higher methanol content are not adopted, and the wardrobe is clear in lines, moistureproof, deformation-resistant, strong in wear resistance and high in environmental protection. The traditional wardrobe mainly aims at home, but for people with high mobility, the traditional wardrobe is high, heavy and has a great movement problem.

One prior art folding wardrobe is disclosed in patent publication No. CN 202800669U. The upper end and the lower end of the foldable three-side cloth enclosure of the wardrobe are respectively connected with a wardrobe top plate and a wardrobe bottom plate to form the wardrobe whole body, and the foldable three-side cloth enclosure is connected with a zipper cabinet door. Further, a folding wardrobe proposed by patent document No. CN208286684U includes a folding bracket and a cloth cover; the cloth cover is sleeved outside the folding bracket, and the front of the cloth cover is provided with a split curtain opening; the two ends of the folding bracket are composed of a plurality of groups of symmetrical or corresponding rod pieces which are hinged together in a crossed way; wherein: the end part of the upper group of rod pieces is hinged at the upper end of the lower group of rod pieces, and a plurality of groups of corresponding quadrilateral mechanisms are formed at the two ends of the upper group of rod pieces; in the two end corresponding groups, at least one pair of parallel rod pieces are two bending sections of a U-shaped rod, and the middle section of the U-shaped rod is associated with the two ends of the folding bracket; the middle sections of the plurality of groups of U-shaped rods face to the same side of the folding bracket to form the back of the wardrobe; and a positioning mechanism is arranged between the diagonal hinge points of at least one group of corresponding quadrilateral mechanisms at the two ends. The folding wardrobe realizes the change of the space size through the folding structure of the outer support.

Patent document No. CN211269286U discloses a foldable wardrobe including a wardrobe body and a support frame mounted inside the wardrobe body to stretch and support a top panel of the wardrobe body, the support frame being contoured to the cross section of the wardrobe body so that when the support frame is mounted, the wardrobe body is stretched into a shape, the wardrobe body having a zipper at the front side through which the wardrobe is openably closed, and a lateral front cover at the top that covers a top gap in the front side of the wardrobe. The transverse sleeve is fixedly fixed on the support rod at the top of the wardrobe body at the inner side. A plurality of rings are fixed on the top of the wardrobe body inside by ultrasonic welding or sewing, and arranged in line in the lateral direction to hold a hanging bar for hanging clothes. The structure is suspended and can be automatically unfolded when opened based on gravity.

Based on the simplification operation of the folding wardrobe and the vibration problem in the unfolding process of the folding wardrobe, the utility model designs the folding wardrobe stably supported by a triangular bracket.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor has studied a lot of documents and patents when making the present invention, but the space is not limited to the details and contents listed in the above, however, the present invention is by no means free of the features of the prior art, but the present invention has been provided with all the features of the prior art, and the applicant reserves the right to increase the related prior art in the background.

SUMMERY OF THE UTILITY MODEL

The application provides a folding clothing storage device, contain the flexible casing that makes the flexible casing open with the mode that forms the space that allows the clothing to place for holding the flexible casing of conflict and restrictive nature tensioning support, tensioning support is contradicted in two relative sides of flexible casing respectively by at least two to form the tripod of position constraint and the horizontal pole that both ends and the top that sets up in the tripod of two relative sides are connected through solid fixed ring and the side of contradicting and constitute.

According to a preferred embodiment, the triangular bracket comprises support bars hinged to each other and a rotating assembly arranged at the hinge point to enable the support bars to rotate along the hinge point. The rotating component comprises an ejection buffer element which is connected with the supporting rod and can generate buffer force in the unfolding process of the triangular support and neutralize the power released by the rotating component.

According to a preferred embodiment, when the energy storage elastic element releases power to the ejection buffer element along the unfolding direction, the buffer force generated by the ejection buffer element for reducing the ejection speed of the energy storage elastic element is larger than the power generated by the energy storage elastic element.

According to a preferred embodiment, the pivoting assembly comprises a power spring for maintaining the triangular frame in the extended state.

According to a preferred embodiment, the ejection buffer element is arranged on the side of the energy storage elastic element in such a way that it can generate at least a greater power than the energy storage elastic element in order to decelerate the energy storage elastic element when the energy storage elastic element releases power in the direction of deployment to the ejection buffer element. The ejection buffer element can also be arranged on two sides of the power storage elastic piece for releasing power.

According to a preferred embodiment, the ejection buffer element comprises a force bearing plate arranged between the force storage elastic part and the support rod and buffer springs uniformly arranged on the force bearing plate at equal intervals, wherein when the force storage elastic part is based on ejection power generated by the force storage and controls the support rod to generate a larger opening angle, the buffer springs neutralize the ejection power of the ejection buffer element in a manner of being extruded and deformed.

According to a preferred embodiment, the buffer spring connected with the force bearing flat plate transmits the ejection power to the support rod in a mode of generating buffer force which is not smaller than the size of the ejection power generated by the force storage elastic piece.

According to a preferred embodiment, at least four buffer springs are distributed on the force bearing flat plate in a single row and at equal intervals along the longitudinal extension direction of the supporting rod.

According to a preferred embodiment, the support bar extends through the flexible housing to the ground in such a way that it can brace the flexible housing off the ground.

According to a preferred embodiment, the extension of the tensioning bracket passes through the securing ring in such a way that it can limit the movement of the tensioning bracket on the flexible housing.

According to a preferred embodiment, the tensioning bracket comprises a return resistance element which is predisposed on the path of movement of the pivoting assembly and which defines the closed position of the tripod in such a way as to hinder the support bars from moving away from each other when the tripod is closed.

The utility model has the advantages that:

this practical information adopts the structure of A-frame to carry out fore-and-aft support design to triangular stability theory keeps away from as the structure, and compares tetragonal vertical design more portably. Furthermore, when the folding wardrobe formed by the support structure of the triangular support needs to be folded to reduce occupied space, the two support rods extending longitudinally of the triangular support move relatively only when needed, so that the triangular support is folded. Compared with the support design of a quadrilateral structure or even a polygonal structure, when the folding is carried out, the quadrilaterals which are oppositely arranged need to be moved to be close to each other, and the movement control needs to be carried out with larger effort. The rotating component is provided with an ejection buffer element for buffering the power storage spring. Since most of the wardrobes that are automatically unfolded or folded are small in size, the gravity thereof hardly opposes the vibration of the unfolding. The ejection buffer element can buffer the impact generated when the wardrobe is automatically unfolded, so that the vibration of the wardrobe is avoided.

Drawings

FIG. 1 is a schematic view of the internal structure of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the triangular support of the utility model.

List of reference numerals

100: tensioning the bracket; 110: a triangular bracket; 111: a support bar; 122: a top end; 120: a cross bar; 130: a rotating assembly; 131: a force-storing elastic member; 132: ejecting the buffer element; 1321: a force bearing flat plate; 1322: a buffer spring; 200: a flexible housing; 210: a fixing ring; 300: longitudinal direction; 400: and (4) transverse direction.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

The present application provides a foldable clothes storage device, comprising a flexible casing 200 and a tension bracket 100, wherein the tension bracket 100 is composed of at least two triangular brackets 110 which respectively butt against two opposite sides of the flexible casing 200 and form position constraint with the butted sides through a fixing ring 210 and a cross bar 120 of which two ends are connected with the top ends 122 of the triangular brackets 110 arranged on the two opposite sides, and the flexible casing 200 for holding clothes is opened in a manner of forming a space for allowing the clothes to be placed. In contrast to the prior art design of the longitudinal 300 support of a quadrilateral shape, the tensioning frame 100 of the folding wardrobe according to the utility model for supporting and weighing can be formed by at least two oppositely arranged triangular frames 110 and a cross bar 120 connecting the top ends 122 of the triangular frames 110. The triangular bracket 110 is composed of two support rods 111 having one ends connected to each other and forming an included angle. The extension part of the support rod 111 along the longitudinal direction 300 is abutted against the flexible casing 200 and can be fixed in the transverse direction 400 by the fixing ring 210 arranged on the flexible casing 200, so that the support rod 111 drives the flexible casing 200 to change the shape when being folded or unfolded. Preferably, the triangular bracket 110 can be an a-fold bracket. The flexible shell 200 can be a cloth or plastic sheet-like casing that circumscribes and tensions the support 100 for forming a fixed-shape wardrobe. The top end 122 of the tripod 110 is connected with a bearing. The bearing is a structure in which the cross bar 120 and the two support bars 111 are coupled to each other and can allow the support bars 111 coupled to each other to move relatively. The opening angle and the extending distance of the support rods 111 determine the size of the supporting space, i.e. the distance between the extending ends of the two intersecting support rods 111 is the longest length of one side edge of the wardrobe.

According to a preferred embodiment, the triangular bracket 110 includes support bars 111 hinged to each other and a rotation assembly 130 disposed at a hinge point to enable the support bars 111 to rotate along the hinge point. The pivoting member 130 includes an ejection buffer member 132 coupled to the support rod 111 and capable of generating a buffer force during the deployment of the triangular bracket 110 and neutralizing the power released from the pivoting member 130, as shown in fig. 1. The pivoting assembly 130 includes a power storage elastic member 131 for restraining the triangular bracket 110 in the unfolded state by allowing the intersecting support rods 111 to make point contact in a relaxed state. The rotating assembly 130 can control the relative position of the supporting rods 111 connected to each other to move, that is, the rotating assembly 130 abuts against the supporting rods 111 connected to each other, and the rotating assembly 130 can increase the included angle formed at the top end 122 of the supporting rods 111. The power spring 131 can have different charging mechanisms for the at least one spring. The arrangement of the mechanism is such that the at least one spring is charged after the tripod 110 has been opened, based on the closing process of the tripod 110. The elastic energy storage member 131 in a relaxed state forms the triangular bracket 110 to a maximum opening angle. When the triangular bracket 110 is in the closed state, the force accumulation elastic member 131 is in a force accumulation contracted state based on the deformation.

According to a preferred embodiment, the rotating member 130 includes an ejection buffer member 132 connected to the support bar 111 and capable of generating a buffer force during the deployment of the triangular bracket 110 to neutralize the power released from the rotating member 130, as shown in fig. 2. The damping force of ejection damping element 132 that can be generated to slow the ejection speed of power spring 131 is greater than the power that is generated in dependence on the speed and is directed in line with power spring 131. When power is released from power storage elastic member 131 to eject buffer member 132 in the expansion direction, eject buffer member 132 is disposed on the side of power storage elastic member 131 so as to generate power at least larger than that generated by power storage elastic member 131 and decelerate power storage elastic member 131. When the triangular support 110 is opened under the control of the rotating assembly 130, the power storage elastic part 131 can generate ejection power based on the charging energy of the contracted state, and the ejection power drives the support rod 111 to be folded to be unfolded, so that the triangular support 110 plays a role in supporting, bearing and expanding in the convergence of the tensioning support 100 is unfolded. In order to ensure that the unfolded state of the triangular bracket 110 is completely presented, the ejection power can be larger than and far beyond the force for preventing the supporting rod 111 from being unfolded. When the overload ejection power acts on the support rod 111, and even the cross bar 120 connected with the triangular bracket 110 formed by the support rod 111 and the connected flexible shell 200 are vibrated. The overload ejection power makes the support rod 111 form an included angle exceeding a preset angle, so that the distance between the extending ends of the support rod 111 is increased, and the length, width and height of the flexible housing 200 are fixed, so that the extending ends of the support rod 111 which are excessively spread have the possibility of breaking the flexible housing 200. In order to cope with excessive ejection power generated by the power storage elastic member 131, an ejection buffer member 132 is provided in the movement path of the power storage elastic member 131. The cushion spring 1322 connected to the force-bearing flat plate 1321 opposes the deformation of the force-storing elastic member 131 in such a manner as to generate a cushion force of not less than the magnitude of the ejection power generated by the force-storing elastic member 131. During the deformation of the power storage elastic member 131, the action of the ejection power on the ejection buffer member 132 causes the ejection buffer member 132 to generate a buffer force for resisting the ejection power, thereby protecting the support rod 111 connected with the ejection buffer member 132. In order to ensure that the ejection power does not act on the support rod 111 through the ejection buffer member 132, the ejection power acting on the ejection buffer member 132 can be smaller than the buffer force generated by the ejection buffer member 132. In order to satisfy the condition for generating the damping force, the ejection buffer member 132 needs to be provided with a structure for generating at least the damping force satisfying the magnitude of the above condition.

According to a preferred embodiment, the ejection buffer member 132 comprises a force-bearing plate 1321 disposed between the force-storing elastic member 131 and the support rod 111 and buffer springs 1322 equidistantly and uniformly disposed on the force-bearing plate 1321, wherein the buffer springs 1322 are configured to maintain the stability of the support rod 111 connected with the buffer springs 1322 in a deformation manner when the force-storing elastic member 131 controls the support rod 111 to generate a larger opening angle based on the ejection power generated by the force storing, and the buffer force generated by the deformation is opposite to the ejection power. Preferably, two ends of the force storage elastic member 131 are respectively connected to a force bearing flat plate 1321, and at least two buffer springs 1322 are uniformly and equidistantly distributed on the force bearing flat plate 1321 relative to one side of the force bearing flat plate 1321 connected to the force storage elastic member 131. The other end of the buffer spring 1322 is connected to the support rod 111. When the tripod is separated from the limit of the restoring block member, the force accumulating elastic member 131 can change from the contracted state to the relaxed state and deform. The ejection power generated by the power storage elastic member 131 causes the power storage elastic member 131 to generate a thrust force to the support rods 111 indirectly connected at both sides thereof. The force bearing flat plate 1321 directly connected with the force storage elastic member 131 receives the pushing action of the ejection power to the force bearing flat plate 1321, and the buffer spring 1322 arranged between the force bearing flat plate 1321 and the support rod 111 generates a counteracting buffer force based on the extrusion of the force bearing flat plate 1321 to the force bearing flat plate, so that the pushing speed of the force storage elastic member 131 to the support rod 111 is reduced. Preferably, at least four cushion springs 1322 are arranged on the force bearing plate 1321 along the longitudinal direction 300 of the support rod 111 in a single row and at equal intervals. When the ejection power acts on the ejection buffer element 132, the force bearing flat plate 1321 receives the ejection power. In the buffering process, the even buffer spring 1322 who sets up can make the dull and stereotyped 1321 of load receive even extrusion, if buffer spring 1322 inhomogeneous arranges on the dull and stereotyped 1321 of load, make the dull and stereotyped 1321 of load can produce the region of buffer power and can not excessively be extruded when the dull and stereotyped 1321 atress of load, and keep away from the region that produces the buffer power and then receive excessive extrusion to make the dull and stereotyped 1321 of load slope, lead to the stretching action to buffer spring 1322 among the slope process, cause the inefficiency of buffering effect.

According to a preferred embodiment, the extension of the tension bracket 100 passes through the fixing ring 210 in such a way as to limit the movement of the tension bracket 100 on the flexible casing 200. The support rod 111 extends through the flexible housing 200 to the ground in such a manner as to be able to support the flexible housing 200 off the ground. The fixing ring 210 has a semi-annular structure with openings at both ends, and the support rod 111 and the cross rod 120 constituting the tension bracket 100 can penetrate through the openings at both ends of the fixing ring 210. The support rod 111 is supported on the ground to keep the flexible casing 200 away from the ground, so as to ensure that the storage of the clothes and accessories is not interfered by the ground environment.

According to a preferred embodiment, the tensioning bracket 100 comprises a return stop which is predisposed on the path of movement of the pivoting member 130 and which defines the closed position of the triangular bracket 110 in such a way as to hinder the support bars 111 from moving away from each other when the tripod is closed. Since the elastic force storage member 131 cannot be separated from the external force to maintain the compressed state of the force storage property when the triangular bracket 110 is in the folded state, the restoring stopper is provided. The restoring resistor is disposed on a moving path of the rotating assembly 130 to define the rotating assembly 130 at an arbitrary position at a minimum distance. The restoring stopper can control the support rod 111 to close or control the rotating assembly 130 to make the power storage elastic member 131 in a contracted state. Preferably, the restoring resistor can be a band having both ends respectively connected to the support rods 111.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the utility model. Throughout this document, the features referred to as "preferably" are only an optional feature and should not be understood as necessarily requiring that such applicant reserves the right to disclaim or delete the associated preferred feature at any time. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the utility model is defined by the claims and their equivalents.

Claims (10)

1. A foldable clothes storage device, comprising a flexible casing (200) for accommodating clothes and a tension bracket (100) which is restrictively abutted against the flexible casing (200) to expand the flexible casing (200) in such a manner as to form a space for allowing the clothes to be placed, the tension bracket (100) being composed of at least two triangular brackets (110) which are respectively abutted against opposite sides of the flexible casing (200) and form position restriction with the abutted sides through fixing rings (210) and cross bars (120) of which both ends are connected with top ends (122) of the triangular brackets (110) arranged at the opposite sides,

it is characterized in that the preparation method is characterized in that,

the triangular bracket (110) comprises support rods (111) hinged to each other and a rotating assembly (130) arranged at a hinge point so that the support rods (111) can rotate along the hinge point,

the rotating component (130) comprises an ejection buffer element (132) which is connected with the supporting rod (111) and can generate buffer force during the unfolding process of the triangular support (110).

2. The laundry receiving device according to claim 1, characterized in that the rotating assembly (130) comprises a power elastic member (131) for keeping the triangular bracket (110) in the unfolded state.

3. The garment storage device of claim 2, wherein when the power spring (131) releases power to the ejection cushioning element (132) in the deployment direction, the cushioning force generated by the ejection cushioning element (132) to slow the ejection speed of the power spring (131) is greater than the power generated by the power spring (131).

4. A garment storage device as claimed in claim 3, wherein the ejector cushioning element (132) is located on either side of the power-releasing resilient member (131).

5. The laundry receiving device according to claim 4, wherein the ejecting buffer member (132) comprises a force-bearing plate (1321) disposed between the energy-storing elastic member (131) and the supporting rod (111) and buffer springs (1322) disposed on the force-bearing plate (1321) at equal intervals, wherein when the ejecting power generated by the energy-storing elastic member (131) controls the supporting rod (111) to generate a larger opening angle, the buffer springs (1322) neutralize the ejecting power toward the ejecting buffer member (132) in a manner of being pressed and deformed.

6. The clothes storage device according to claim 5, wherein the buffering spring (1322) connected to the force bearing plate (1321) transmits the ejecting power to the support rod (111) in such a manner as to generate a buffering force not less than the ejecting power generated by the force accumulating elastic member (131).

7. The clothes storage device of claim 6, wherein at least four of said cushion springs (1322) are equidistantly distributed on said force bearing plate (1321) along a single row in a longitudinal (300) extending direction of the support rod (111).

8. The laundry storage device of claim 7, characterized in that the support rod (111) extends through the flexible housing (200) to the ground in a manner that enables the flexible housing (200) to stand off the ground.

9. The laundry receiving device according to claim 8, characterized in that the extension of the tensioning bracket (100) passes through the fixing ring (210) in such a way that the movement of the tensioning bracket (100) on the flexible casing (200) can be limited.

10. The clothes storage device of claim 9, wherein the tensioning bracket (100) comprises a return resistance member which is preset on the moving path of the rotating component (130) and defines the closed position of the triangular bracket (110) in a manner of blocking the support rods (111) from moving away from each other when the triangular bracket is closed.

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