CN220631581U - Plate circular arc structure - Google Patents

Abstract

The utility model relates to a panel field, especially a panel circular arc structure, including the plate body, offered the draw groove of a plurality of parallels on the face of plate body, the draw groove is along self length direction penetration plate body, fixed being equipped with on the plate body be used for with other part connection's fastener, adopt the wood granule board and offer a plurality of parallels and the draw groove that runs through on its face, the plate body of being convenient for buckles and is circular-arc, with low costs and processing convenience, improve production efficiency, and reduce the risk of plate body fracture deformation, set up the fastener on the plate body, make things convenient for the plate body to be connected with the cabinet body and improve the joint strength between plate body and the cabinet body.

Description

Plate circular arc structure

Technical Field

The application relates to the field of plates, in particular to a plate arc structure.

Background

In the home decoration industry, the application of the decorative plates is very wide, arc surfaces are often formed on existing furniture, for example, arc surfaces are formed on some cabinet bodies, and the decorative plates are required to be decorated, so that the base materials with the arc structures are also very frequently used. In the prior art, the base material with the arc structure mainly comprises a density board, a multi-layer board and the like, a large number of dies are required to be manufactured, the die is manufactured by cold pressing, hot pressing, four-side planing and milling, then film coating and paint spraying, finally the arc board and a cabinet body are connected in a gun nail or gluing mode, the process is complex, the processing efficiency is low, and after the density board or the multi-layer board is subjected to arc bending, the large deformation risk exists.

Disclosure of Invention

In order to solve the problem that current circular arc substrate exists great deformation risk, this application provides a panel circular arc structure.

The application provides a panel circular arc structure adopts following technical scheme:

a plate arc structure comprises a plate body, wherein a plurality of parallel pull grooves are formed in the plate surface of the plate body, the pull grooves penetrate through the plate body along the length direction of the pull grooves, and fasteners used for being connected with other parts are fixedly arranged on the plate body.

Through adopting above-mentioned technical scheme, offer the draw-in groove that runs through on the face of plate body, be convenient for the plate body bend fast in draw-in groove department, do not need preparation mould, pressurize etc. simplify production technology, improve production efficiency to reduce the risk of plate body fracture deformation, and set up a plurality of parallel draw-in grooves, make the plate body can be more nearly circular-arc after buckling, set up fastener make things convenient for the plate body to be connected with the cabinet body etc. convenient for the dismouting, thereby be convenient for on the arc surface of plate body after buckling is connected to the cabinet body.

Further preferably, the plate body has a first plate surface and a second plate surface opposite to each other, and the first plate surface or the second plate surface is provided with a pull groove.

By adopting the technical scheme, the groove is pulled on the first plate surface or the second plate surface, so that the production efficiency is improved.

Further preferably, the plate body is provided with a first plate surface and a second plate surface which are opposite, the first plate surface and the second plate surface are provided with pull grooves, and the pull grooves on the first plate surface and the pull grooves on the second plate surface are staggered.

Through adopting above-mentioned technical scheme, all offer out the draw groove on first face and second face, the messenger plate body is to the first face or when the second face is crooked homogeneous, need not consider positive and negative problem, and it is more convenient to use, and the draw groove on the first face staggers with the draw groove on the second face and sets up, avoids appearing thin wall weak point on the plate body, reduces the cracked risk when crooked moreover.

It is further preferable that the ratio of the slot pitch between adjacent pull slots to the width of the pull slots is 3:5 to 5:3.

By adopting the technical scheme, the situation that the entity between the adjacent pull grooves is interfered can be reduced by selecting the proper ratio of the space between the grooves to the width of the grooves.

It is further preferable that the ratio of the pull groove depth to the plate thickness is 11:12 to 9:10.

By adopting the technical scheme, the proper ratio of the pull groove depth to the plate thickness is selected, so that the risk of bending fracture is reduced.

Further preferably, the plate body is a solid wood particle plate.

By adopting the technical scheme, the cost can be reduced by adopting the solid wood particle board.

It is further preferred that the fastener is secured to either the first panel or the second panel.

Through adopting above-mentioned technical scheme, when fixed setting up the fastener on first face, the plate body is crooked towards first face one side, and the fastener is located between plate body and the cabinet body when being connected such as plate body and cabinet body to hide the fastener, improve the aesthetic property of connecting back plate body and cabinet body.

It is further preferable that the fastener is fixed to both sides of the plate body in the longitudinal direction of the vertical pull groove.

Through adopting above-mentioned technical scheme, fix the fastener on the plate body side, do not influence the draw groove on first face and the second face and offer to make the homoenergetic fluting on whole first face and the second face, thereby enlarge the plate body degree of bending.

Further preferably, the fastener is a three-in-one connecting piece, the fastener comprises a rod piece, an eccentric wheel and a pre-buried nut, one end of the rod piece is fixed on the plate body, the other end of the rod piece is fixedly connected with the eccentric wheel, and the pre-buried nut is detachably connected with the eccentric wheel.

Through adopting above-mentioned technical scheme, adopt trinity connecting piece, improve the concealment of fastener, improve the aesthetic property after plate body and the cabinet body are connected.

Further preferably, the plate body is provided with a threaded hole, and the rod piece and the plate body are detachably fixed through threads.

Through adopting above-mentioned technical scheme, can dismantle through the screw thread between member and the plate body and be connected, be convenient for change the fastener.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the application, the solid wood particle board is adopted, the board surface of the solid wood particle board is provided with a plurality of parallel and penetrating pull grooves, the board body is convenient to bend into an arc shape, the cost is low, the processing is convenient, the production efficiency is improved, the risk of fracture deformation of the board body is reduced, the board body is provided with the fastening piece, the board body is convenient to be connected with the cabinet body, and the connection strength between the board body and the cabinet body is improved;

2. in the further arrangement of the application, the fastening piece is arranged on the plate body, so that the plate body is conveniently bent into an arc shape and then is arranged on the arc surface of the cabinet body, and the assembly is convenient;

3. in this application further sets up, the fastener adopts trinity connecting piece, improves the concealment to improve the aesthetic property after plate body and the cabinet body connect.

Drawings

FIG. 1 is a schematic view of a plate structure according to an embodiment;

FIG. 2 is a schematic view of a first connection between a first plate and a cabinet according to an embodiment;

FIG. 3 is a schematic view of a second connection between a first plate and a cabinet according to an embodiment;

FIG. 4 is an enlarged schematic view of FIG. 2A;

FIG. 5 is a schematic view of a two-plate structure according to an embodiment;

FIG. 6 is a schematic diagram of the connection between the second plate and the cabinet according to the embodiment;

FIG. 7 is a schematic view of a three-plate structure according to an embodiment;

FIG. 8 is a schematic diagram of the third embodiment of FIG. 4;

fig. 9 is a schematic view of a four-plate structure according to an embodiment.

Reference numerals illustrate: 1. a plate body; 11. a first panel; 12. a second panel; 13. drawing a groove; 14. a fastener; 141. an eccentric wheel; 142. a rod piece; 2. a cabinet body; 21. an arc surface; 22. and embedding holes.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-9.

The embodiment of the application discloses panel circular arc structure can be with the panel crooked circular arc shape and install on corresponding circular arc decorative surface such as cabinet body 2, for being convenient for panel plate body 1 and cabinet body 2 etc. are connected, fixedly mounted with fastener 14 on plate body 1 improves the joint strength between plate body 1 and the cabinet body 2. Specifically, the present application discloses the following examples:

example 1

As shown in figure 1, the plate structure comprises a plate body 1, wherein a fastener 14 is fixedly arranged on the plate body 1, the fastener 14 is convenient for fixedly connecting the plate body 1 with other parts such as a cabinet body 2, a plurality of parallel pull grooves 13 are formed in the plate surface of the plate body 1, the pull grooves 13 penetrate through the plate body 1 along the length direction of the plate body 1, the plate body 1 adopts a solid wood particle plate, and the plate structure is convenient for processing the pull grooves 13 relative to a solid wood multilayer plate, a density plate and the like, and improves the production efficiency and has low cost.

Specifically, the pull groove 13 is formed in a penetrating manner along the front-back direction of the plate body 1, so that the plate body 1 is bent rapidly at the pull groove 13, and a plurality of parallel pull grooves 13 are formed, so that the plate body 1 can be more approximate to an arc shape after being bent, and is convenient to attach to the arc surface 21 of the cabinet body 2. Compared with a multi-layer board, a density board and the like, the solid wood particle board does not need to be manufactured into a die, pressure maintaining and the like, the production process is simplified, the production efficiency is improved, and the risk of fracture deformation of the board body 1 is reduced.

Further, the board body 1 has a first board 11 and a second board 12 opposite to each other, and for convenience of distinction, an upper board of the board body 1 is the first board 11, and a lower board is the second board 12. In this embodiment, only the pull groove 13 is formed on the first plate surface 11, the second plate surface 12 is still planar, and when the plate body 1 is mounted on the cabinet body 2 in a bending manner, the plate body 1 may be bent to form an arc shape toward the first plate surface 11 side, or may be bent to form an arc shape toward the second plate surface 12 side, and the plate surface on the inner arc-shaped side of the plate body 1 is bonded to the cabinet body 2.

Referring to fig. 2 and 3, the upper surface of the cabinet body 2 is an arc surface 21 protruding upwards, and the plate body 1 needs to be attached to the arc surface 21 after being bent. In fig. 2, the plate body 1 is bent toward the first plate surface 11, and since the upper plate surface of the plate body 1 is the first plate surface 11, after the plate body 1 is bent toward the first plate surface 11, the plate body 1 is in a downward convex shape, so that the plate body 1 needs to be turned up and down by 180 ° and then the first plate surface 11 is attached to the circular arc surface 21, and the plate body 1 in fig. 2 is in a turned shape. At this time, after the board body 1 is attached to the cabinet body 2, the planar second board surface 12 faces outward, so that the aesthetic property can be improved.

In fig. 3, the plate body 1 is bent toward the second plate surface 12 to form an upwardly convex shape, and the second plate surface 12 and the circular arc surface 21 can be attached and mounted at this time.

The two mounting modes in fig. 2 and fig. 3 are different in that the first plate surface 11 provided with the pull groove 13 faces inwards or outwards. In the actual bending process of the plate body 1, the bending mode in fig. 2 can enable the solid parts between the adjacent pull grooves 13 to be close to each other, and if the bending radian is too large, interference problem can occur; whereas the bending in fig. 3 would cause the solid portions between adjacent pull grooves 13 to be separated from each other, no interference problem occurs.

In this regard, the ratio of the slot spacing between adjacent pull slots 13 to the width of the pull slots 13 is preferably 3:5 to 5:3, and in this embodiment, the ratio is preferably 1:1. Specifically, the pull grooves 13 have a width of 4mm and a groove pitch of 4mm. In the bending installation mode of fig. 2, the plate body 1 does not interfere with the solid portions between the adjacent pull grooves 13 to a certain degree.

In addition, the depth of the pull groove 13 affects the breaking strength of the plate body 1 after bending. In this embodiment, the ratio of the depth of the pull groove 13 to the thickness of the plate body 1 is 11:12 to 9:10, and the ratio is preferably 11:12. Specifically, the thickness of the plate body 1 is 18mm, and the depth of the pull groove 13 is 16.5mm.

In another way of opening the pull groove 13 in the present embodiment, the pull groove 13 is only formed on the second plate surface 12, and the first plate surface 11 is still planar. It should be noted that, the first plate surface 11 and the second plate surface 12 are only used for convenience of distinction, and in actual use, the plate body 1 in fig. 1 can be considered as the pull groove 13 formed on the second plate surface 12 after being turned up and down by 180 °.

In further setting, the fastener 14 adopts trinity connecting piece, and to trinity connecting piece, it includes member 142, eccentric 141 and embedded nut (not shown), and member 142 one end is fixed on plate body 1, and the eccentric 141 is fixed to the other end, and embedded nut and eccentric 141 can dismantle the connection, offer the hole of being convenient for wear to establish member 142 and be used for the embedded hole 22 of embedded installation embedded nut on cabinet body 2. In this embodiment, the fastening members 14 are fixed on two sides of the plate body 1 in the longitudinal direction of the vertical pull groove 13, that is, the fastening members 14 are fixedly connected on both the left and right sides of the plate body 1.

Specifically, as shown in fig. 4, since the fastening members 14 are mounted on the side surfaces of the plate body 1, the pull grooves 13 may be formed in the first plate surface 11 or the second plate surface 12 in all the left-right directions, so that the entire plate body 1 can be bent into an arc shape. In this embodiment, the left and right edges of the plate body 1 are provided with portions where the pull grooves 13 are not formed, and the portions can be tangent to the arc-shaped portions of the plate body 1, so that the fasteners 14 can be installed.

In addition, the rod member 142 of the fastener 14 is detachably connected with the plate body 1 through threads, a corresponding threaded hole (not shown) is formed in the plate body 1, and a corresponding thread (not shown) is formed in the rod member 142, so that the fastener 14 can be conveniently disassembled and replaced.

The fastener 14 can be hidden by adopting the three-in-one connecting piece, so that the attractive appearance is improved.

Example two

The difference from the first embodiment, shown in connection with fig. 5, is that: the first plate surface 11 and the second plate surface 12 are provided with pull grooves 13, and the pull grooves 13 on the first plate surface 11 are staggered with the pull grooves 13 on the second plate surface 12. Note that, the slot pitch between the adjacent pull slots 13 mentioned in the first embodiment refers to: the groove spacing between the pull groove 13 on the adjacent first plate surface 11 and the pull groove 13 on the second plate surface 12.

In this embodiment, as shown in fig. 6, pull grooves 13 are formed in the first plate surface 11 and the second plate surface 12, so that the plate body 1 is bent towards the first plate surface 11 or the second plate surface 12, the positive and negative problems do not need to be considered, the use is more convenient, the pull grooves 13 on the first plate surface 11 and the pull grooves 13 on the second plate surface 12 are staggered, the thin-wall weak points on the plate body 1 are avoided, and the risk of breakage during bending is reduced.

Example III

Referring to fig. 7 and 8, the difference from the first embodiment is that: the fastening piece 14 is fixed on the first plate surface 11 or the second plate surface 12, and holes for penetrating the rod piece 142 and embedded holes 22 for installing embedded nuts are formed in corresponding positions of the cabinet body 2.

In this embodiment, when the first plate 11 is provided with the pull groove 13 and the fastener 14 is fixed on the first plate 11, the second plate 12 faces outwards after the plate 1 is bent and connected with the cabinet 2; when the pull groove 13 is formed in the first plate surface 11 and the fastener 14 is fixed on the second plate surface 12, the first plate surface 11 faces outwards after the plate body 1 is bent and connected with the cabinet body 2.

Similarly, when the pull groove 13 is formed on the second plate surface 12 and the fastener 14 is fixed on the second plate surface 12, the first plate surface 11 faces outwards after the plate body 1 is bent and connected with the cabinet body 2; when the pull groove 13 is formed in the second plate surface 12 and the fastener 14 is fixed on the first plate surface 11, the second plate surface 12 faces outwards after the plate body 1 is bent and connected with the cabinet body 2.

More preferably, the threaded holes penetrate through the first plate surface 11 and the second plate surface, so that on the same plate body 1, the rod 142 is optionally installed on the first plate surface 11 or the second plate surface 12, so that the plate body 1 is suitable for more installation requirements.

Example IV

The difference from the second embodiment, shown in fig. 9, is that: the fastening piece 14 is fixed on the first plate surface 11 or the second plate surface 12, and the pull groove 13 is formed on each of the first plate surface 11 and the second plate surface 12, so that the fastening piece 14 is fixed on the first plate surface 11 or the second plate surface 12, the effect is the same after the whole plate body 1 is connected with the cabinet body 2, and the forward and reverse directions of the plate body 1 do not need to be considered.

In this embodiment, the threaded hole is formed as a blind hole.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. The plate arc structure is characterized by comprising a plate body (1), wherein a plurality of parallel pull grooves (13) are formed in the plate surface of the plate body (1), the pull grooves (13) penetrate through the plate body (1) along the length direction of the plate body, and fasteners (14) used for being connected with other parts are fixedly arranged on the plate body (1); the fastener (14) is a three-in-one connecting piece, the fastener (14) comprises a rod piece (142), an eccentric wheel (141) and an embedded nut, one end of the rod piece (142) is fixed on the plate body (1), the other end of the rod piece is fixedly connected with the eccentric wheel (141), and the embedded nut is detachably connected with the eccentric wheel (141).

2. The plate arc structure according to claim 1, wherein the plate body (1) is provided with a first plate surface (11) and a second plate surface (12) which are opposite, and the pull groove (13) is formed on the first plate surface (11) or the second plate surface (12).

3. The plate arc structure according to claim 1, wherein the plate body (1) is provided with a first plate surface (11) and a second plate surface (12) which are opposite, the first plate surface (11) and the second plate surface (12) are provided with pull grooves (13), and the pull grooves (13) on the first plate surface (11) and the pull grooves (13) on the second plate surface (12) are staggered.

4. The plate arc structure according to claim 1, wherein a ratio of a slot pitch between adjacent pull slots (13) to a width of the pull slots (13) is 3:5 to 5:3.

5. The plate arc structure according to claim 1, wherein the ratio of the depth of the pull groove (13) to the thickness of the plate body (1) is 11:12-9:10.

6. The plate arc structure according to claim 1, characterized in that the plate body (1) is a solid wood particle plate.

7. -the panel arc structure according to claim 2 or 3, characterized in that the fastening element (14) is fixed on the first panel (11) or on the second panel (12).

8. The plate circular arc structure according to claim 1, wherein the fastening members (14) are fixed to both side surfaces of the plate body (1) perpendicular to the length direction of the pull groove (13).

9. The plate arc structure according to claim 1, wherein the plate body (1) is provided with a threaded hole, and the rod (142) and the plate body (1) are detachably fixed through threads.