CN217771884U - Skeleton frame and use its bedstead - Google Patents

Abstract

The utility model relates to a skeleton frame and use its bedstead. The existing skeleton is of an integral structure, and is inconvenient to store and transport. The utility model discloses a plate body, the plate body includes two piece at least unit boards from flattening the amalgamation backward, supports on predetermineeing the station through the stabilizer blade rigid coupling of two at least branches of putting between the border of bordering on of adjacent unit board. The plate body is arranged to be of a structure assembled by a plurality of unit plates, the adjacent unit plates are matched and spliced and are fixedly connected through supporting legs, the unit plates can be assembled through splicing to form the plate body, the packaging size can be reduced by disassembling and overlapping the unit plates, the storage and the transportation are convenient, and the use experience is promoted.

Description

Skeleton frame and use its bedstead

Technical Field

The utility model relates to a bedding field, concretely relates to skeleton and use its bedstead.

Background

The existing bedstead comprises a base and a skeleton frame arranged on the base, the skeleton frame comprises a frame and a supporting component arranged on the frame, and the supporting component can form a supporting surface for bearing a mattress, so that the mattress is stably arranged on the bedstead. The frame of the existing skeleton frame is formed by bending a steel pipe and is of an integral structure, so that the size of the skeleton frame is large, the skeleton frame can occupy a large storage space when being stored, the transportation difficulty and the transportation cost can be increased when being transported, and the use experience is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the not enough of prior art, the utility model provides a skeleton frame and use its bedstead sets up the plate body into the structure that polylith cell board was assembled, can pass through stabilizer blade rigid coupling cell board, can also reduce the packing size through dismantling the superpose, and convenient storage and transportation promote to use and experience.

The utility model discloses a following mode realizes: a skeleton frame comprises a plate body, wherein the plate body comprises at least two unit plates which are flatly spliced from front to back, and the adjacent end edges of the adjacent unit plates are fixedly connected through at least two separately arranged support legs and supported on a preset station. Set up the plate body into the structure that polylith cell board was assembled, adjacent cell board matching amalgamation and through the stabilizer blade rigid coupling, can form through amalgamation assembly cell board the plate body can also reduce the package size through dismantling the superpose cell board, conveniently accomodates and transports, promotes to use and experiences.

Preferably, the unit plates have the same length and width to reduce a vertical projected area when the unit plates are vertically stacked and stored. The profile of each cell board is the same, both makes things convenient for the superpose packing, can also promote machining efficiency through the unified each cell plate size structure, reduces the processing cost.

Preferably, the number of the unit plates is two, and the unit plates are arranged in a front-back manner and are spliced to form the plate body; or the number of the unit plates is three, and the unit plates are sequentially arranged from front to back and are spliced to form the plate body. Divide the plate body into two or three with the same vertical projection profile, can come easy to assemble through restriction unit board quantity, promote dismouting efficiency, can also reduce the packing size of skeleton through disassembling the plate body, and then reduce the length of packing, the difference between width and the height, conveniently accomodate and transport, prevent to put forward higher requirement to placing the position space because of arbitrary oversize in length, the width of packing and the height.

Preferably, the cell plate comprises a square frame and a support assembly laid on the top surface of the frame, at least one fixing rod is arranged between the middle part of the front edge and the middle part of the rear edge of the frame, so that the frame is divided into at least two equally-divided areas for the independent installation of the support assembly, and the support assembly comprises a plurality of support bars which are equally divided from front to back. Come to provide the impetus for the installation supporting component through setting up the dead lever, can promote the anti deformability of support bar through the length that shortens the support bar, can also reduce the packing size after the packing of support bar syntropy superpose, convenient storage and transportation.

Preferably, the number of the fixed rods is one, the frame is divided into two equal areas by the fixed rods, and the two groups of the supporting assemblies are respectively arranged on the corresponding equal areas; or, the number of the fixed rods is two, the frame is divided into three equal division areas by the fixed rods, and the three groups of the supporting assemblies are respectively arranged on the corresponding equal division areas. The number of the equal-division areas is adjusted by adjusting the number of the fixing rods, and then the number of the supporting components is adjusted. The contour of the equal division area is the same, so that the equal division area has a uniform requirement on the length of the supporting strip due to the fact that the equal division area has the same width, the length of the supporting strip can be shortened by increasing the equal division area, large-scale processing can be facilitated by using the supporting strip with the uniform length, and processing cost is reduced.

Preferably, the end parts of the supporting bars are buckled on the opposite edges of the frame through fasteners, fastening grooves for inserting the end parts of the supporting bars are formed in the fasteners, and fastening holes for inserting the fasteners are formed in the side edges of the fixing rods and the frame. The fastener is buckled on the buckling hole and sleeved on the two end parts of the supporting bars through buckling grooves arranged in opposite directions, so that the supporting bars are fixedly connected to preset stations on the unit plates, and the adjacent supporting bars are ensured to be arranged in parallel at equal intervals. The support bar is held in place so that the middle section of the support bar bulges upward effectively withstanding the vertical forces from the mattress and the user.

Preferably, a supporting piece for supporting the middle part of the supporting bar is arranged in the frame, and the supporting piece is a supporting rod or a supporting belt. The supporting piece can play the supporting role to the middle part of the supporting bar, prevent the supporting bar from sinking and deforming downwards due to the downward acting force, and ensure that the skeleton frame can stably support the mattress and the user.

Preferably, the supporting bars and the front edge of the frame are arranged in parallel, the supporting bars are arranged in parallel and perpendicular to the supporting pieces arranged in the front-back direction, and a single supporting piece can support all the supporting bars in the same supporting component.

Preferably, the supporting legs comprise connecting plates bridged between adjacent end edges of adjacent unit plates and supporting rods arranged in the middle of the bottom surfaces of the connecting plates, and the adjacent unit plates are fixedly connected with the connecting plates through fasteners and supported on the preset stations through the supporting rods. The connecting plate is forward and backward to the cross-over connection on the border of being adjoined to of adjacent cell plate, play the level to spacing effect to the cell plate, the bracing piece sets up in connecting plate bottom surface middle part, plays vertical bearing effect to the border of cell plate, ensures that the cell plate can level with horizontal gesture and link up.

Preferably, the connecting plate is in a long strip shape, mounting holes for fasteners to penetrate through are formed in two ends of the connecting plate, and the bottom surface of the middle of the connecting plate is fixedly connected with the top end of the supporting rod. The fastener passes through the mounting hole from bottom to top and is screwed and locked with the end edge bottom surface of the corresponding unit plate, so that the firm connection between the connecting plate and the unit plate is ensured, and the unit plate is prevented from being horizontally separated from the connecting plate.

A bedstead comprises the skeleton frame and a seat body for supporting the skeleton frame, and is characterized in that a containing cavity is arranged in the seat body, and the skeleton frame is embedded in the containing cavity and limits the horizontal deviation of the unit boards. Set up in the base and hold the chamber, hold the chamber and both played the level to limiting displacement to the skeleton frame, can ensure that the frame of skeleton frame keeps predetermineeing the profile, can also play horizontal location's effect to each cell board, ensure that the accurate amalgamation of cell board ability forms the plate body.

Preferably, the seat body comprises a front plate, a rear plate and side plates bridging between corresponding ends of the front plate and the rear plate, and the front plate, the rear plate and the side plates enclose to form the accommodating cavity. The pedestal can be divided into front bezel, back plate and curb plate by the split, both made things convenient for the assembly, still conveniently dismantle the superpose and accomodate, promote to use and experience.

Preferably, a side bearing platform is arranged at a corner of the inner side wall of the accommodating cavity, the corner of the skeleton frame is in lap joint with the side bearing platform from top to bottom, a middle bearing platform is arranged at the middle section of the inner side wall of the accommodating cavity, and joints of adjacent unit plates in the skeleton frame are in lap joint with the middle bearing platform from top to bottom. The side bearing platform and the middle bearing platform are arranged on the side wall of the accommodating cavity, the effect of a vertical bearing skeleton frame is achieved, and the top surface of the skeleton frame is enabled to be flush with the top edge of the side plate and to be stably supported on the mattress.

The utility model has the advantages that: the plate body is arranged to be of a structure assembled by a plurality of unit plates, the adjacent unit plates are matched and spliced and are fixedly connected through supporting legs, the unit plates can be assembled through splicing to form the plate body, the packaging size can be reduced by disassembling and overlapping the unit plates, the storage and the transportation are convenient, and the use experience is promoted.

Drawings

FIG. 1 is a schematic view of a disassembled structure of the first embodiment of the skeleton frame;

FIG. 2 is a schematic structural diagram of a frame with support bars mounted thereon according to an embodiment;

FIG. 3 is a schematic structural diagram of a unit board provided with a fixing rod according to an embodiment;

FIG. 4 is a schematic view of the frame with a support belt according to one embodiment;

FIG. 5 is a schematic structural view of the support leg according to the first embodiment;

FIG. 6 is a schematic view of a disassembled structure of the skeleton row according to the second embodiment;

FIG. 7 is a schematic view of a framework of a flat frame according to the second embodiment;

FIG. 8 is a schematic structural view of a unit block provided with a fixing bar according to a second embodiment;

FIG. 9 is a schematic structural diagram of a unit block with two fixing bars according to the second embodiment;

FIG. 10 is a disassembled structure view of the bed frame according to the third embodiment;

FIG. 11 is a schematic view of the frame according to the third embodiment;

in the figure: 1. the unit plate, 2, stabilizer blade, 3, connecting plate, 4, bracing piece, 5, supporting component, 6, frame, 7, support bar, 8, fastener, 9, bearing pole, 10, bearing area, 11, pedestal, 12, hold the chamber, 13, front bezel, 14, back plate, 15, curb plate, 16, side bearing platform, 17, put bearing platform in, 18, dead lever.

Detailed Description

The essential features of the invention will be further explained below with reference to the drawings and the detailed description of the invention.

The first embodiment is as follows:

the present embodiment provides a skeleton frame.

The skeleton frame shown in fig. 1 is composed of plate bodies, wherein each plate body comprises at least two unit plates 1 which are flatly spliced from front to back, and the adjacent end edges of the adjacent unit plates 1 are fixedly connected and supported on a preset station through at least two separately arranged support legs 2. The utility model discloses a portable electronic device, including plate body, unit board 1, amalgamation formation around the unit board 1, adjacent unit board 1 matches the amalgamation and through stabilizer blade 2 rigid coupling, can form through amalgamation assembly unit board 1 the plate body can also reduce the packing size through dismantling superpose unit board 1, convenient storage and transportation, promotes to use and experiences.

In the present embodiment, the unit plates 1 have the same length and width to reduce the vertical projected area when the unit plates 1 are vertically stacked and stored.

When the skeleton frame needs to be assembled, firstly, the unit plates 1 are arranged in a horizontal posture in a front-back direction; then, aligning and attaching the rear edge of the front unit plate 1 and the front edge of the rear unit plate 1, so that the unit plates 1 are spliced to form a plate body; finally, the support feet 2 are connected between the rear edge bottom surface of the front unit plate 1 and the front edge bottom surface of the rear unit plate in a bridging mode through the connecting plates 3, horizontal fixed connection between the unit plates 1 is guaranteed, the support feet 2 are positioned, and the support feet 2 can simultaneously support adjacent unit blocks through the support rods 4 which are abutted to the bottom surfaces.

When needs pack the skeleton and accomodate, tear stabilizer blade 2 off cell board 1 earlier, with the vertical superpose of cell board 1 and packing again. 1 vertical superposes of cell board and is packed into the formation packing, and the packing width is the same with the plate body width, and the length of packing is plate body length half, and the height of packing is plate body thickness twice, makes the profile of packing change to pile up and place through the difference between width, length and the height of reduction packing, reduces packing length through increase packing thickness and reduces the dimensional requirement to placing the space, and then conveniently piles up and accomodate and transport.

In this embodiment, the cell plate 1 includes a square frame 6 and a support assembly 5 laid on the top surface of the frame 6, a fixing rod 18 is disposed between the middle of the front edge and the middle of the rear edge of the frame 6, the support assemblies 5 are two groups, so that the frame 6 is divided into two equal areas (as shown in fig. 3) which are separated from left to right and are used for the support assemblies 5 to be independently installed, and the support assembly 5 includes a plurality of support bars 7 which are separated from front to back at equal intervals. Specifically, the both sides lateral margin and the dead lever 18 cooperation of frame 6 are respectively the corresponding forehead supporting component 5 of bearing for the corresponding support bar 7 in two sets of supporting components 5 is controlled between and is installed with lining up, both convenient assemblies, still promotes the aesthetic property.

In this embodiment, the area enclosed by the frame 6 is divided into two equal areas with the same contour by the fixing rods 18, the width of each equal area is half of the width of the unit plate 1, the length of each equal area in the front-back direction is the same as that of the unit plate 1, and the supporting bars 7 in the supporting assemblies 5 are sequentially arranged in the corresponding equal areas in parallel and equidistantly from front to back, so that the frame 6 is ensured to be covered by the supporting bars 7.

In this embodiment, the end of the supporting strip 7 is fastened to the opposite edge of the frame 6 through a fastener 8 (as shown in fig. 2), the fastener 8 is provided with a fastening groove for inserting the end of the supporting strip 7, and the fixing rod 18 and the side edge of the frame 6 are provided with fastening holes for inserting the fastener 8. The two ends of the supporting bar 7 are buckled on the adjacent fixing rods 18 through the fasteners 8 respectively, so that the dismounting efficiency can be effectively improved, tools are not needed, and the connecting strength of the supporting bar 7 can meet the use requirement. All be equipped with one on the both sides lateral margin of frame 6 and detain the hole, be equipped with two on the dead lever 18 and detain the hole that corresponds with frame 6 lateral margin respectively, the bottom of fastener 8 is equipped with the anticreep that can closely plant in detaining the hole protruding, be equipped with the catching groove on the lateral wall of fastener 8, during the installation, the tip of support bar 7 inserts the catching groove that corresponds fastener 8, and fastener 8 inserts through the arch and corresponds in detaining the hole to make the both ends of support bar 7 can pass through fastener 8 rigid coupling respectively on dead lever 18 and the 6 lateral margins of frame that correspond. After the installation targets in place, protruding vertical planting is in detaining the hole, plays the spacing effect of level to fastener 8, and support bar 7 is held between the catching groove of seting up in opposite directions corresponding fastener 8, and support bar 7 makes its section take place upwards uplift because of being the horizontal centre gripping, effectively promotes the performance that 7 middle sections of support bar played and resisted the vertical downward effort of putting when bearing mattress and user.

In this embodiment, the frame 6 is provided with a supporting member for supporting the middle part of the supporting bar 7, the supporting member is arranged in the equal-division area from front to back in a penetrating manner, the supporting member 7 arranged in the equal-division area is supported and limited, and the middle section of the supporting bar 7 is prevented from being depressed and deformed due to excessive stress. The supporting piece is a supporting rod 9, the supporting rod 9 is bridged between the front edge and the rear edge of the frame 6, and the supporting rod 9 provides supporting acting force for the supporting bar 7 by utilizing the structural strength of the supporting rod 9. The supporting bars 7 and the front edges of the frame 6 are arranged in parallel, the supporting bars 7 and the supporting rods 9 are arranged vertically, and one supporting rod 9 can simultaneously support all the supporting bars 7 in the same supporting component 5.

In this embodiment, the supporting legs 2 include a connecting plate 3 spanning between adjacent end edges of adjacent unit plates 1 and a supporting rod 4 (as shown in fig. 5) disposed in the middle of the bottom surface of the connecting plate 3, and the adjacent unit plates 1 are fixedly connected to the connecting plate 3 by fasteners and supported on the preset station by the supporting rod 4. The connecting plate 3 is strip-shaped, mounting holes for fasteners to penetrate through are formed in two ends of the connecting plate 3, and the bottom surface of the middle portion of the connecting plate is fixedly connected with the top end of the supporting rod 4. After the adjacent unit plates 1 are tightly spliced horizontally, the support legs 2 are fixedly connected between the adjacent end edges of the adjacent unit plates 1 through the connecting plates 3, so that the top surfaces of the unit plates 1 are connected flatly. The bottom surface of bracing piece 4 is contradicted on the bottom surface, plays the supporting role simultaneously to two cell boards 1, ensures that cell board 1 remains the horizontal gesture throughout.

It should be understood that the supporting member for the skeleton rib is a supporting belt 10 (as shown in fig. 4), the supporting belt 10 is pulled and fixed in the equal partition area, the two ends of the supporting belt 10 are pulled tightly to reduce the lifting deformation amplitude of the middle part, and further the supporting strip 7 is supported, and this should also be regarded as a specific embodiment of this embodiment. Hanging holes are formed in the front edge and the rear edge of the frame 6, and two ends of the bearing belt 10 are respectively hooked in the corresponding hanging holes through hooks, so that the bearing belt 10 is tensioned and positioned.

Example two:

compared with the first embodiment, the present embodiment provides another skeleton row structure.

As shown in fig. 6, the number of the unit plates 1 is three, the unit plates 1 are sequentially arranged from front to back and are spliced to form the plate body, and adjacent unit blocks are fixedly connected and lapped on the ground through the support legs 2, so that the unit plates 1 are spliced flatly in a horizontal posture.

In this embodiment, the fixing rod 18 is one (as shown in fig. 8), so that two sets of supporting assemblies 5 are disposed on each cell plate 1, and the cell plates 1 can be joined together to form a flat bearing surface.

It should be understood that each of the divided regions is provided with a support rod 9 (as shown in fig. 7) for supporting the support bars 7 on the divided regions, and should be regarded as an embodiment of the present embodiment.

It should be understood that two fixing rods 18 (as shown in fig. 9), the frame 6 divided into three equal sections by the fixing rods 18, and three sets of supporting members 5 respectively mounted on the corresponding equal sections should also be considered as specific embodiments of the present embodiment.

Other structures and effects of the skeleton frame in this embodiment are all consistent with those in this embodiment, and are not described again.

Example three:

compared with the first or second embodiment, the present embodiment provides a bed frame.

As shown in fig. 10, a bed frame includes the skeleton frame and a seat body 11 supporting the skeleton frame, wherein an accommodating cavity 12 is provided in the seat body 11, and the skeleton frame is embedded in the accommodating cavity 12 and limits the horizontal deviation of the unit board 1.

In this embodiment, the seat body 11 includes a front plate 13, a rear plate 14, and a side plate 15 bridging between corresponding ends of the front plate 13 and the rear plate 14, the front plate 13, the rear plate 14, and the side plate 15 enclose to form the accommodating cavity 12, and the front plate 13 and the side plate 15, and the side plate 15 and the rear plate 14 are vertically fixed by connecting members, so as to enclose to form the accommodating cavity 12. The skeleton is embedded in the accommodating cavity 12 from top to bottom, and plays a horizontal limiting role for the skeleton.

In this embodiment, the middle part and the corner of the inner side wall of the accommodating cavity 12 are respectively provided with a middle supporting platform 17 and a side supporting platform 16, and the skeleton frame is embedded in the accommodating cavity 12 from top to bottom and is lapped on the middle supporting platform 17 and the side supporting platform 16 (as shown in fig. 11), so as to ensure that the skeleton frame is horizontally supported. Specifically, the periphery of the skeleton frame is supported by the middle supporting platform 17 and the side supporting platform 16, and the middle part of the skeleton frame is supported by the supporting feet 2, so that the skeleton frame is installed in the accommodating cavity 12 in a horizontal posture. The middle bearing platform 17 and the side bearing platforms 16 are arranged at the same height, the height of the support legs 2 is matched with the distance from the middle bearing platform 17 to the ground, the bottom surfaces of the support legs 2 can be guaranteed to be abutted against the bottom surfaces, and stable support is provided for the middle of the framework.

Other structures and effects of the skeleton frame in this embodiment are the same as those in the first or second embodiment, and are not described again.

Claims (10)

1. The framed bent comprises a plate body and is characterized in that the plate body comprises at least two unit plates (1) which are flatly spliced from front to back, and the adjacent end edges of the adjacent unit plates (1) are fixedly connected and supported on a preset station through at least two separately arranged support legs (2).

2. A skeleton rib according to claim 1, characterized in that the unit panels (1) have the same length and width to reduce the vertical projected area when the unit panels (1) are stacked vertically and stored.

3. The skeleton frame according to claim 2, wherein the number of the unit plates (1) is two, and the unit plates (1) are arranged in front and at the back and are spliced to form the plate body; or the number of the unit plates (1) is three, and the unit plates (1) are sequentially arranged from front to back and are spliced to form the plate body.

4. A skeleton frame according to any one of claims 1-3, wherein the unit panels (1) comprise a square frame (6) and support members (5) laid on the top surface of the frame (6), at least one fixing rod (18) is arranged between the middle parts of the front edge and the rear edge of the frame (6) so that the frame is divided into at least two equal sections for the independent installation of the support members, and the support members (5) comprise a plurality of support bars (7) arranged at equal intervals from front to back.

5. The skeleton rib of claim 4, wherein the fixing rods (18) are one, the frame (6) is divided into two equal sections by the fixing rods (18), the support assemblies (5) are two groups and are respectively arranged on the corresponding equal sections; or, the number of the fixing rods (18) is two, the frame (6) is divided into three equal areas by the fixing rods (18), and the support assemblies (5) are three groups and are respectively installed on the corresponding equal areas.

6. The skeleton rib of claim 4, wherein the ends of the supporting strips (7) are fastened to the opposite edges of the frame (6) by fasteners (8), the fasteners (8) are provided with fastening grooves for the ends of the supporting strips (7) to be inserted, and the fixing rods (18) and the side edges of the frame (6) are provided with fastening holes for the fasteners to be inserted; or, a supporting piece for supporting the middle part of the supporting bar (7) is arranged in the frame (6),

the supporting piece is a supporting rod (9) or a supporting belt (10); or the supporting strips (7) and the front edge of the frame are arranged in parallel.

7. A skeleton rib according to any one of claims 1-3, characterized in that the supporting legs (2) comprise connecting plates (3) bridging the adjacent end edges of the adjacent unit plates (1) and supporting bars (4) arranged in the middle of the bottom surfaces of the connecting plates (3), and the adjacent unit plates (1) are fixedly connected with the connecting plates (3) through fasteners and supported on preset stations through the supporting bars (4).

8. The skeleton frame according to claim 7, wherein the connecting plate (3) is an elongated strip, the two ends of the connecting plate (3) are provided with mounting holes for fasteners to pass through, and the bottom surface of the middle part is fixedly connected with the top ends of the supporting rods (4).

9. A bed frame comprising a skeleton frame according to any one of claims 1 to 8 and a base (11) for supporting the skeleton frame, wherein the base (11) is provided with a receiving cavity (12), and the skeleton frame is embedded in the receiving cavity (12) and limits the horizontal deviation of the unit board (1).

10. A bed base according to claim 9, characterised in that the seat (11) comprises a front plate (13), a rear plate (14) and side plates (15) bridging between the corresponding ends of the front plate (13) and the rear plate (14), the front plate (13), the rear plate (14) and the side plates (15) enclosing the housing (12); or a side bearing platform (16) is arranged at the corner of the inner side wall of the accommodating cavity (12), and the corner of the skeleton is lapped on the side bearing platform (16) from top to bottom; or a middle bearing platform (17) is arranged in the middle section of the inner side wall of the accommodating cavity (12), and the joint of the adjacent unit plates (1) in the skeleton is lapped on the middle bearing platform (17) from top to bottom.

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