CN112353119A - Occluded concave-convex surface for building cabinet body, module and plate - Google Patents

Abstract

The invention discloses an occlusion concave-convex surface, a module and a plate for building a cabinet body, wherein the occlusion concave-convex surface is mainly formed by connecting a plurality of occlusion units in a rectangular array, each occlusion unit is a rectangular pyramid-like concave-convex surface and comprises four rhombic side surfaces with the same shape and size; or each occlusion unit is a concave-convex surface similar to a quadrangular frustum, and comprises a square top surface and four rhombic side surfaces which are connected with the square top surface, have the same shape and size and are similar to each other; the top surface of the module of the occlusion module is an occlusion concave-convex surface; the occlusion plate comprises a smooth back surface and an occlusion front surface, wherein the occlusion front surface is provided with at least one module groove, and at least one occlusion module is inserted into each module groove; the two snap modules can be aligned up and down or staggered. The wardrobe board connection mode is changed from a traditional mode of locking through screws to a built mode, and the homing and position automatic correction of the board can be realized, so that the wardrobe body is more convenient to connect and more efficient to install.

Description

Occluded concave-convex surface for building cabinet body, module and plate

Technical Field

The invention relates to an occluded concave-convex surface, a module and a plate, which are particularly suitable for building upper and lower wardrobes and belong to the technical field of furniture.

Background

On the market, when the finished product cabinet body was put together, the fixed mode of panel was mainly: the upper and lower plates are punched first, and then the overlapped upper and lower plates are locked by the locking screws. This locking method has many drawbacks: firstly, the wardrobe has incomplete and unattractive appearance due to the holes on the surface of the plate; the hole positions of the upper plate and the lower plate are relatively fixed, so that the punching precision is required, and the position of the installed plate is influenced due to insufficient precision, so that the overall effect of the cabinet body is influenced; thirdly, when the cabinet body is installed, only after the punching positions fixed on the upper plate and the lower plate are overlapped, the cabinet body can be installed and locked, and the installation steps are relatively complex. Therefore, the original plate connection mode is urgently needed to be changed, and a new occlusion structure is designed and used for building plates.

Disclosure of Invention

Aiming at the existing technical problems, the invention provides the meshed concave-convex surface, the module and the plate for building the cabinet body, so that the original plate connection mode is changed, the self-alignment correction of the cabinet body can be realized, the installation steps are simple and efficient, and the installation effect is ensured to the maximum extent.

In order to achieve the purpose, the invention provides an occluded concave-convex surface for building a cabinet body, which is mainly formed by connecting a plurality of occluded units in a rectangular array; each occlusion unit is a rectangular pyramid-like concave-convex surface and comprises four diamond side surfaces which are same in shape and size. In the same occlusion unit, two adjacent rhombus side faces share an upper vertex and an upper side edge; in different occlusion units, two adjacent rhomboid sides share a lower vertex and a lower lateral edge.

The invention also provides an occluded concave-convex surface for building the cabinet body, which is mainly formed by arranging a plurality of occluded units in a rectangular array; each occlusion unit is a concave-convex surface similar to a quadrangular frustum, and comprises a square top surface and four rhombic side surfaces which are connected with the square top surface, have the same shape and size and are similar to each other; the rhombus-like side surface is a hexagonal plane formed by symmetrically changing the top corners of the upper part and the lower part of the rhombus side surface into the top edges and the bottom edges, and the top edges and the bottom edges are parallel to the diagonal line formed by connecting the top points of the left end and the right end of the rhombus side surface.

In the center of a square array formed by four occlusion units, the bottom edges of four different occlusion units form a square bottom surface which is parallel to the square top surface and has the same size; in the same occlusion unit, two adjacent rhomboid side surfaces share one upper side edge, and the top edges of the four rhomboid side surfaces are four edges of a square top surface; in different occlusion units, two adjacent rhomboid side surfaces share one lower side edge, and the adjacent bottom edges are two adjacent edges of the same square bottom surface.

Further, the upper side edge and the lower side edge may be provided with chamfers.

The invention also provides an occluded concave-convex surface for building the cabinet body, which can be any local concave-convex surface in any occluded concave-convex surface.

The invention further provides an occlusion module for constructing the cabinet body, which comprises a module top surface, a module bottom surface and a module side surface for connecting the edges of the module top surface and the module bottom surface; the top surface of the module is the occlusion concave-convex surface, the bottom surface of the module is parallel to a common surface where the top points of the left end and the right end of each side surface of the occlusion concave-convex surface are located, and the side surfaces of the module are perpendicular to the bottom surface of the module.

Further, when the two occlusion modules are occluded with each other, the occlusion line is a straight line.

The invention further provides an occlusion plate for constructing the cabinet body, which comprises a smooth back surface and an occlusion front surface, wherein the occlusion front surface is provided with at least one module groove, at least one occlusion module is inserted into each module groove, and the shapes and the sizes of the two occlusion modules are matched with each other.

Furthermore, the module groove is rectangular and can be arranged at the front edge, the rear edge, the middle edge, the periphery or the whole surface of the occlusion front surface.

Further, when the two occlusion plates are connected up and down, the occlusion front faces of the two occlusion plates are opposite, and the occlusion modules can be in up-and-down aligned occlusion or staggered occlusion.

Compared with the prior art, the invention has the beneficial effects that:

1. the occlusion concave-convex surface has the spatial effect of the protrusion and the groove, the shape design increases the contact area during occlusion, enhances the occlusion stability and reduces the damage to an occlusion structure.

2. The occlusion module which is occluded up and down has the same size and structure and has the following characteristics: the occlusal line of the two modules after occlusion is a straight line; the occlusion module can still be occluded with the original matched module after being rotated by 180 degrees in the horizontal direction; the two modules can be engaged in a staggered manner.

3. The invention has the characteristic of fixed-point meshing, is mainly applied to the construction of an upper cabinet body and a lower cabinet body of a wardrobe, the upper cabinet group is meshed and locked with the lower cabinet group by utilizing the self weight of a concave-convex structure, and the inclined surface characteristic of the protrusion and the groove ensures that the protrusion part is easily and automatically clamped into the groove part when the wardrobe body is installed, manual work is not needed to deliberately align accurately, and the self-returning and position correcting functions of the wardrobe body can be realized.

Drawings

FIG. 1 is a schematic view of a configuration of an engaging asperity according to the invention;

FIG. 2 is a schematic view of another configuration of the engaging asperity of the present invention;

FIG. 3 is a schematic structural view of a keying module of the present invention;

FIG. 4 is a schematic view of the process of fully snapping two snapping modules of the present invention;

FIG. 5 is a schematic structural view of the bite plate of the present invention;

FIG. 6 is a schematic diagram of the engagement plate and the engagement module shown in FIG. 5;

FIG. 7 is an example of the width of the bite plate shown in FIG. 5;

FIG. 8 is a schematic view of another construction of the bite plate of the present invention;

FIG. 9 is an example of the width of the bite plate shown in FIG. 8;

FIG. 10 is a schematic view of the sliding engagement of the engaging sheet material according to the present invention;

FIG. 11 is a schematic illustration of the spot biting characteristics of the bite plate material of the present invention;

FIG. 12 is a schematic view of the bite plate material of the present invention with the bite plate material having a rear edge that is in line;

FIG. 13 is a schematic illustration of the vertical flip-flop engagement feature of the present invention;

FIG. 14 is a schematic illustration of the horizontal rotational keying feature of the keying sheet material of the present invention;

FIG. 15 is a schematic representation of the cross-hatch characteristics of the bite plates of the present invention;

in the figure: 1. diamond side face, 2, upper vertex, 3, upper side edge, 4, lower vertex, 5, lower side edge, 6, pyramid-like concave-convex face, 7, square top face, 8, square bottom face, 9, diamond-like side face, 10, top edge, 11, bottom edge, 12, pyramid-like concave-convex face, 13, occlusion module, 14, module top face, 15, module bottom face, 16, module side face, 17, occlusion front face, 18, smooth back face, 19, module groove.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in fig. 1, in an embodiment of the engaging concave-convex surface for constructing the cabinet body, a plurality of engaging units are connected in a rectangular array to form a spatial concave-convex surface, each engaging unit is a rectangular pyramid-like concave-convex surface 6 and comprises four diamond-shaped side surfaces 1 with the same shape and size. In the same occlusion unit, two adjacent rhombic side surfaces 1 share an upper vertex 2 and an upper side edge 3; in different occlusion units, two adjacent diamond-shaped sides 1 share a lower vertex 4 and a lower lateral edge 5.

As shown in fig. 2, in an embodiment of the engaging concave-convex surface for constructing the cabinet body, a plurality of engaging units are connected in a rectangular array to form a spatial concave-convex surface, each engaging unit is a quadrangular frustum like concave-convex surface 12, and comprises a square top surface 7 and four rhombic side surfaces 9 which are connected with the top surface and have the same shape and size. The diamond-like side surface 9 is a hexagonal plane formed by symmetrically changing the top corners of the upper and lower sides of the diamond-like side surface 1 into the top edge 10 and the bottom edge 11, and the top edge 10 and the bottom edge 11 are all parallel to the diagonal line formed by connecting the top points of the left end and the right end of the diamond-like side surface 1.

In the center of the square array of four engaging elements, four bottom edges 11 from different engaging elements enclose a square bottom surface 8, and the square bottom surface 8 is parallel to and equal in size to the square top surface 7. In the same occlusion unit, two adjacent rhomboid-shaped side surfaces 9 share one upper side edge 3, and four rhomboid-shaped side surfaces 9 and the square top surface 7 share four top edges 10. In different occlusion units, two adjacent rhomboid side surfaces 9 share one lower side edge 5, and the bottom edges 11 of two adjacent rhomboid sides form two adjacent edges of the square bottom surface 8. In the implementation, in order to reduce the possibility of collision of the occluded part, the positions of the upper side edge 3 and the lower side edge 5 are safely chamfered.

In the two embodiments, the three-dimensional array space concave-convex surface of the pyramid-like structure formed by the diamond side surfaces 1 and the three-dimensional array space concave-convex surface of the pyramid-like structure formed by removing the vertex angles above and below the diamond structure can be infinitely extended horizontally and vertically to form space concave-convex surfaces with protrusions and grooves periodically and alternately arranged, and the properties of the two space concave-convex surfaces are completely consistent. Moreover, the local concave-convex surface in the two spatial concave-convex surfaces can meet the technical purpose of the invention by any screenshot, and the screenshot is within the protection scope of the invention.

As shown in fig. 3, the interlocking module 13 for constructing a cabinet of the present invention comprises a module top surface 14, a module bottom surface 15, and a module side surface 16 connecting both edges; the top surface 14 of the module is an engaging concave-convex surface in the above embodiments, the bottom surface 15 of the module is parallel to a common surface where the top points of the left and right ends of each side surface of the engaging concave-convex surface are located, and the side surfaces 16 of the module are perpendicular to the bottom surface 15 of the module. In practice, the bottom surface of the module may be rectangular 15, or may have a corresponding shape according to actual requirements.

As shown in fig. 3 and 4, the module bottom surface 15 of the engaging module 13 is a smooth surface and can be used for an engaging plate material, and the module top surface 14 is a concave-convex surface and can be used for engaging with another engaging plate material. When the two snap-in modules 13 are spliced up and down, the top surfaces 14 of the two modules can be completely snapped together in contact. The process of the contact occlusion of the two occlusion modules 13 is a surface-to-surface contact process, namely, the two occlusion concave-convex surfaces are completely overlapped from contact to contact, and the design of the occlusion concave-convex surfaces reduces direct impact between the occlusion modules 13 in the process, so that the occlusion modules 13 are more impact-resistant in the occlusion process.

In addition, the invention makes the occlusion concave-convex surface into an independent occlusion module, and fixes the occlusion module 13 on the occlusion plate material to carry out occlusion of the upper plate material and the lower plate material. As shown in fig. 5, the interlocking sheet material for constructing the cabinet of the present invention comprises a smooth back surface 18 and an interlocking front surface 17, wherein the interlocking front surface 17 is provided with at least one module groove 19, at least one interlocking module 13 is inserted into each module groove 19, and the shape and the size of the two interlocking modules are matched with each other. As shown in fig. 9, the engaging front surface 17 may be provided with a rib. As shown in fig. 11, the smooth back surface 18 ensures the smoothness of one side of the occluded sheet material, and when the occluded sheet material is placed in the cabinet, the smooth back surface 18 serves as the inner side of the cabinet, so that the smoothness of the inner side of the cabinet is ensured. When the interlocking module 13 is partially used in the interlocking sheet material, the characteristics of the interlocking concave-convex surface are completely consistent.

The module recess 19 is rectangular and may be located at the front and rear edges, the middle, the periphery or the entire surface of the front side of the engagement. As shown in fig. 5 and 6, in practice, the module recess 19 is rectangular and is disposed in the middle of the snap front 17, in which one or more snap modules 13 are inserted. The plurality of bite modules 13 and the grooved sheet material are fixed to each other to realize the bite sheet material of the present invention.

As shown in fig. 7, the width of the interlocking plate can be designed into different sizes such as 300mm, 400mm, 500mm, 600mm, 700mm, 800mm and the like according to the practical application environment, the module groove 19 can have the same width, and a plurality of interlocking modules 13 are fixed on the module grooves 19 with different widths in parallel to form interlocking plates with different concave-convex surfaces, so that interlocking between the interlocking plates can be realized.

As shown in fig. 9, the width of the snap plates can be designed into different sizes of 300mm, 400mm, 500mm, 600mm, 700mm, 800mm and the like according to the practical application environment, when two snap plates are snapped and spliced up and down, the snap faces 17 of the two snap plates are opposite, and the snap modules 13 are snapped and meshed up and down in an aligned or staggered manner.

In practice, as shown in fig. 10, the bite plate is mounted on the top or bottom surface of the cabinet. When the two cabinets are built into a whole up and down, the bottom surface of the upper cabinet is provided with the meshed plate and is acted by downward gravity, and the top surface of the lower cabinet is also provided with the meshed plate and is acted by upward supporting force. Under the action of gravity and supporting force, the engaging concave-convex surfaces of the upper plate and the lower plate slide relatively until the two plates are aligned and completely engaged.

The occlusal plate of the invention has the characteristic of self-correction. The upper and lower occlusal plates can slide relatively, so the occlusal plates can be self-corrected. In the installation of actual cabinet body, this characteristic can reduce the operation degree of difficulty when installer aligns the cabinet body, and the cupboard can align automatically and interlock completely under the effect of gravity promptly. The design of the occluded concave-convex surface not only can reduce the installation difficulty, but also can ensure the integral effect of the assembled cabinet body, and the cabinet body is horizontal, vertical and neat.

As shown in fig. 11, the bite plate material of the present invention has a spot bite characteristic. Because the meshed concave-convex surfaces are the concave-convex surfaces which are arranged in order, the two plates are meshed on the concave-convex surfaces which are multiples of a fixed distance in the meshing process, so that the positions where the plates are meshed can be precisely positioned, the artificial positioning error and the installation difficulty are reduced, the installation effect is ensured, and the cabinet body can be quickly and accurately installed.

As shown in fig. 12, the interlocking board of the present invention has the characteristic that the edges of the two interlocking boards are straight after interlocking, i.e. the two interlocking boards are directly stacked, and the edges of the two interlocking boards are straight after interlocking, and have no obvious difference from the common boards in appearance, which is very important in the appearance of the wardrobe. The interlock panel is convenient to mount, simultaneously takes the appearance of the cabinet body into consideration, enables the interlock panel to be mutually unified with other panels of the wardrobe in appearance, is easier to accept by consumers, and increases the application range of the interlock panel.

As shown in fig. 13, when the occlusal plate of the present invention is occluded, the upper and lower occlusal modules are designed to be identical, so that the number of modules required for occlusion is reduced, the cost is reduced, and the present invention has important significance in the cabinet body: when the top and bottom plates used by the cabinet body are the same, the cabinet body can rotate upwards or downwards for 180 degrees and then is occluded with the original occlusion module, so that the door opening direction of the cabinet body can be changed. The door plate can be rotated by the middle point of the cabinet door, so that the possibility of mistakenly installing the door plate of the cabinet body on site is avoided, the installation specialty is reduced, and the attractiveness of the installation effect is ensured.

As shown in fig. 14, the bite plate of the present invention has a horizontal rotation bite characteristic, that is, after the bite plate is rotated 180 degrees in the horizontal direction (rotated 180 degrees in both the horizontal and vertical directions at the same time during rotation), the bite plate can be completely bitten together with the plate below the original position. The meaning of this design in the cabinet is: when the top and bottom plates used by the cabinet body are the same, the cabinet body can use the meshing module 13 as a rotation center, and after the horizontal rotation is 180 degrees, the cabinet body is meshed with the original meshing plate which is matched up and down, so that the direction of taking articles from the cabinet body is changed.

As shown in fig. 15, the interlocking sheet material of the present invention has a characteristic of interlocking, i.e., when a plurality of interlocking modules 13 are arranged in two vertical and horizontal directions for use, they can be interlocked in the vertical and horizontal directions. When one upper occlusion plate is used for occluding two lower plates at the same time, the two lower occlusion plates can slide towards the middle gradually and reduce the gap under the action of the weight of the upper plate when the two lower occlusion plates bear supporting force, so that the two lower plates can be closed in the occlusion process of the upper and lower plates. When two blocks of occlusion plates below are supported, the plates around can be firmly grabbed and gathered together manually, so that the gap can be effectively reduced, and the self-correction between the plates is facilitated.

To sum up, adopt interlock panel to come the interlock fixed between the upper and lower both sides layer cabinet body of wardrobe, the point position that the cabinet body between the layer carries out the interlock promptly is for being equipped with interlock concave-convex interlock module 13, and last one deck group utilizes interlock module 13 to lock with next deck group through self weight, because the inclined plane characteristic of arch and recess on interlock module 13, need not accurate alignment during the module interlock, can realize the proper motion playback and the correction position of the cabinet body, and guaranteed that the interlock line is the straight line. Compared with the connection mode of locking the locking screws on the market, the invention greatly reduces the installation difficulty and the installation time of the cabinet body and leads the appearance of the cabinet body to be beautiful and neat.

Claims (9)

1. An occlusion concave-convex surface for building a cabinet body is characterized by mainly comprising a plurality of occlusion units which are connected in a rectangular array;

each occlusion unit is a rectangular pyramid-like concave-convex surface and comprises four diamond side surfaces which are the same in shape and size;

in the same occlusion unit, two adjacent rhombus side faces share an upper vertex and an upper side edge;

in different occlusion units, two adjacent rhomboid sides share a lower vertex and a lower lateral edge.

2. An occlusion concave-convex surface for building a cabinet body is characterized by mainly comprising a plurality of occlusion units which are arranged in a rectangular array;

each occlusion unit is a concave-convex surface similar to a quadrangular frustum, and comprises a square top surface and four rhombic side surfaces which are connected with the square top surface, have the same shape and size and are similar to each other; the diamond-like side surface is a hexagonal plane formed by symmetrically changing the top corners of the upper part and the lower part of the diamond-like side surface into the top side and the bottom side, and the top side and the bottom side are both parallel to a diagonal line formed by connecting the top points of the left end and the right end of the diamond-like side surface;

in the center of a square array formed by four occlusion units, the bottom edges of four different occlusion units form a square bottom surface which is parallel to the square top surface and has the same size;

in the same occlusion unit, two adjacent rhomboid side surfaces share one upper side edge, and the top edges of the four rhomboid side surfaces are four edges of a square top surface;

in different occlusion units, two adjacent rhomboid side surfaces share one lower side edge, and the adjacent bottom edges are two adjacent edges of the same square bottom surface.

3. An engaging concave-convex surface for building a cabinet according to claim 2, wherein the upper side edge and the lower side edge may be chamfered.

4. An occlusion concave-convex surface for building a cabinet body is characterized in that the occlusion concave-convex surface can be any local concave-convex surface in the occlusion concave-convex surface of any one of claims 1 to 3.

5. An occlusion module for building a cabinet body is characterized by comprising a module top surface, a module bottom surface and a module side surface for connecting the edges of the module top surface and the module bottom surface; the top surface of the module is the occlusion concave-convex surface of any one of claims 1 to 4, the bottom surface of the module is parallel to a common surface where the top points of the left end and the right end of each side surface of the occlusion concave-convex surface are located, and the side surfaces of the module are vertical to the bottom surface of the module.

6. A cabinet construction bite module as claimed in claim 5, wherein when two bite modules are engaged with each other, the bite line is a straight line.

7. The occlusion plate for constructing the cabinet body is characterized by comprising a smooth back surface and an occlusion front surface, wherein the occlusion front surface is provided with at least one module groove, at least one occlusion module according to the right 5 or 6 is inserted into each module groove, and the shapes and the sizes of the two occlusion modules are matched with each other.

8. The interlocking board for constructing cabinets according to claim 7, wherein the module grooves are rectangular and can be arranged at the front and rear edges, the middle, the periphery or the whole surface of the interlocking front face.

9. The interlocking sheet material for building a cabinet according to claim 7, wherein when two interlocking sheet materials are connected up and down, the interlocking faces of the two interlocking sheet materials are opposite, and the interlocking modules can be interlocked or aligned up and down.

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