CN223667657U - Novel spliced display rack - Google Patents

Abstract

This utility model relates to the field of display rack technology and discloses a novel modular display rack, comprising: a top frame plate, a bottom frame plate, a central connecting rod, a splicing assembly, a splicing groove, and side frame plates. The top frame plate and the bottom frame plate are respectively connected to both ends of the central connecting rod, and the side frame plates are mounted on the central connecting rod. The splicing groove is provided on the top frame plate and/or the bottom frame plate, and the splicing groove is used to place the splicing assembly. The splicing assembly is used to connect one top frame plate to another top frame plate and/or bottom frame plate. By rationally designing the display rack technology and using the top frame plate, bottom frame plate, central connecting rod, splicing assembly, splicing groove, and side frame plates, a modular display rack can be realized. It can be adjusted arbitrarily according to the required specifications and dimensions, rationally changing and utilizing space, saving time and effort in production, reducing costs, and reducing waste.

Description

Novel spliced display rack

Technical Field

The utility model relates to the technical field of display frames, in particular to a novel spliced display frame.

Background

The glasses display rack is a rack for displaying glasses and is generally made of acrylic, aluminum plastic plates, wood, alloy materials and the like. The display frames can be used for placing fashion glasses, presbyopic glasses, sunglasses and the like, and have various styles and functions. The glasses show shelf in the market is generally a fixed show shelf, the specification, the size, the style and the like of the glasses show shelf are difficult to change after the glasses show shelf is manufactured according to the required specification, and if the show shelf is added or reduced, the glasses show shelf needs to be manufactured again for replacement.

Accordingly, there is a need for further design for existing eyeglass display technology.

Disclosure of utility model

The utility model aims to overcome the problems that the prior glasses display rack technology has fixed specification and size, does not meet the requirement of space and space utilization, is time-consuming and labor-consuming in manufacturing, has higher cost, is easy to produce waste objects and the like, and can realize a spliced display rack by rationally designing the display rack technology and adopting a top rack plate, a bottom rack plate, a middle connecting rod, a splicing assembly, a splicing groove and a side rack plate, randomly adjust according to the required specification and size, reasonably change space and utilization space, save time and labor in manufacturing, reduce cost, reduce waste objects and the like.

The technical scheme of the utility model is as follows:

The novel spliced display frame comprises a top frame plate, a bottom frame plate, a middle connecting rod, a splicing assembly, splicing grooves and side frame plates, wherein the top frame plate and the bottom frame plate are respectively connected to two ends of the middle connecting rod, the side frame plates are installed on the middle connecting rod, the splicing grooves are formed in the top frame plate and/or the bottom frame plate, the splicing assembly is used for placing the splicing assembly, and the splicing assembly is used for splicing and connecting one top frame plate with the other top frame plate and/or the other bottom frame plate.

Further, the top frame plate is made of metal or hard plastic or wood.

Further, the underframe plate is made of metal materials or hard plastic materials or wood materials.

Further, the top frame plate and the bottom frame plate are made of the same material.

Further, the side frame plate is made of plastic or metal or wood or felt.

Further, the middle connecting rod is made of metal materials or hard plastic materials or wood materials.

Further, the middle connecting rod, the top frame plate and the bottom frame plate are made of the same material.

Further, the top frame plate and the bottom frame plate are symmetrically arranged on the central line of the middle connecting rod.

Further, the roof-rack board includes a plurality of individual layer roof and double-deck roof, the chassis board includes a plurality of individual layer bottom plate and double-deck bottom plate, the individual layer roof passes through well connecting rod connects double-deck bottom plate, the individual layer bottom plate passes through well connecting rod connects double-deck roof, the individual layer roof passes through well connecting rod connects the individual layer bottom plate.

Further, the top frame plate and the bottom frame plate are in a right trapezoid shape or a right triangle shape.

Further, the double-layer top plate comprises a double-upper top plate, a double-lower top plate and a middle connecting frame, and the double-upper top plate and the double-lower top plate are respectively connected to two ends of the middle connecting frame.

Further, the middle connecting frame comprises a middle connecting top core frame and a middle connecting top sleeve frame, and the middle connecting top sleeve frame is sleeved on the middle connecting top core frame.

Further, the middle connecting top sleeve frame is sleeved on the middle connecting top core frame in a buckle connection mode.

Further, the double-layer bottom plate comprises a double-upper bottom plate, a double-lower bottom plate and a bottom connecting frame, wherein the double-upper bottom plate and the double-lower bottom plate are respectively connected to two ends of the bottom connecting frame.

Further, the bottom connecting frame comprises a bottom connecting core frame and a bottom connecting sleeve frame, and the bottom connecting sleeve frame is sleeved on the bottom connecting core frame.

Further, the bottom connecting sleeve frame is sleeved on the bottom connecting core frame in a buckling connection mode.

Further, the splice assembly includes roof splice, topside splice and middle part splice, the roof splice is used for carrying out the concatenation with a roof frame plate and another roof frame plate and is connected, topside splice is used for carrying out the concatenation with two roof and two roof down and is connected with well connecting rod after being connected, topside splice is used for carrying out the concatenation with two bottom plates and is connected with well connecting rod after being connected, middle part splice is used for carrying out the concatenation with a roof frame plate and another roof frame plate after being connected with well connecting rod.

Further, the top plate splice is selected from an n-type top plate splice.

Further, the top edge splice is a "hook" type top edge splice.

Further, the middle splicing piece is selected from middle splicing pieces with central symmetry.

Further, the splice groove comprises a side groove and an inner groove, the side groove is arranged on the edges of the top frame plate and the bottom frame plate, the inner groove is arranged on the top frame plate and the bottom frame plate, the side groove is used for placing a top edge splice and a middle splice, and the inner groove is used for placing a top plate splice.

Further, the edge grooves are formed in the peripheral edges of the top frame plate and the bottom frame plate.

Further, the inner grooves are formed on the periphery of the top frame plate and the bottom frame plate and are close to the edges.

Further, the spliced display stand further comprises an objective table, and the objective table is mounted on the top shelf plate and/or the bottom shelf plate.

Further, the objective table is inserted into the inner grooves of the top frame plate and/or the bottom frame plate.

Advantageous effects

The utility model adopts the top frame plate, the bottom frame plate, the middle connecting rod, the splicing component, the splicing groove and the side frame plate to realize the spliced display frame, randomly adjusts according to the required specification and size, reasonably changes the space and utilizes the space, saves time and labor in manufacturing, reduces the cost, reduces waste articles and the like. The top board splice piece is adopted to realize transverse stable splicing, the top board splice piece is adopted to realize stable clamping and connection of the top board and the bottom board on the middle connecting rod, the middle splice piece is adopted to realize multilayer longitudinal stable splicing, and the objective table is adopted to well place articles such as glasses for display.

Drawings

Fig. 1 is a schematic diagram of a single-layer structure of a novel splice display stand of the present utility model.

Fig. 2 is a schematic view of a bottom double-layer structure of a novel spliced display stand of the present utility model.

Fig. 3 is a schematic view of a top double-layer structure of a novel splice display stand of the present utility model.

Fig. 4 is a schematic view of a single-layer square splice structure of a novel splice display stand of the present utility model.

Fig. 5 is a schematic view of a bottom double-layer square splice structure of a novel spliced display stand of the present utility model.

Fig. 6 is a schematic diagram of a top double-layer square splice of a novel splice display stand of the present utility model.

Fig. 7 is a schematic view of a top plate splicing member of a novel spliced display stand according to the present utility model.

Fig. 8 is a schematic view of a top edge splice of a novel splice display stand of the present utility model.

Fig. 9 is a schematic view of a middle splicing element structure of a novel spliced display stand of the present utility model.

Fig. 10 is a schematic view of a stage structure of a novel splice display stand according to the present utility model.

Fig. 11 is a schematic view of a partial splice structure of a novel splice display stand according to the present utility model.

Fig. 12 is a schematic view of a splicing structure of a novel spliced display stand according to the present utility model.

Fig. 13 is a schematic structural view of a novel spliced product of the spliced display stand of the present utility model.

Reference numerals are 01, double upper top plates, 02, inner grooves, 03, edge grooves, 05, middle connecting rods, 06, middle connecting frames, 07, single-layer bottom plates, 071, single-layer top plates, 08, double lower bottom plates, 09, top plate splice pieces, 010, top edge splice pieces, 011, double-layer top plates, 11, middle splice pieces, 012, objective table, 013 and side frame plates.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-13, the novel spliced display stand provided by the utility model comprises a top frame plate, a bottom frame plate, a middle connecting rod 05, a splicing component, a splicing groove and a side frame plate 013, wherein the top frame plate and the bottom frame plate are respectively connected to two ends of the middle connecting rod 05, the side frame plate 013 is arranged on the middle connecting rod 05, the top frame plate and/or the bottom frame plate is provided with the splicing groove, the splicing groove is used for placing the splicing component, and the splicing component is used for splicing and connecting one top frame plate with the other top frame plate and/or the bottom frame plate;

The top frame plate is made of metal, the bottom frame plate is made of metal, and the top frame plate and the bottom frame plate are made of the same material;

Wherein the top frame plate and the bottom frame plate are symmetrically arranged on the central line of the middle connecting rod 05; the top frame plate and the bottom frame plate are in right-angle trapezoid shapes; the top frame plate comprises a plurality of single-layer top plates 071 and double-layer top plates 011, the bottom frame plate comprises a plurality of single-layer bottom plates 07 and double-layer bottom plates, the single-layer top plates 071 are connected with the double-layer bottom plates through middle connecting rods, the single-layer bottom plates 07 are connected with the double-layer top plates 011 through middle connecting rods, and the single-layer top plates 071 are connected with the single-layer bottom plates 07 through middle connecting rods; the double-layer top plate 011 comprises a double-upper top plate 01, a double-lower top plate and a middle connecting frame, wherein the double-layer top plate 011 is symmetrical with the single-layer bottom plate 07, the double-layer top plate 011 comprises a double-upper top plate 01, a double-lower top plate and a middle connecting frame, the double-upper top plate 01 and the double-lower top plate are respectively connected to two ends of the middle connecting frame, the middle connecting frame 06 comprises a middle connecting core frame and a middle connecting core sleeve frame, the middle connecting top sleeve frame is sleeved on the middle connecting core frame, and the middle connecting top sleeve frame is sleeved on the middle connecting core frame in a buckle connection mode, the double-layer bottom plate 011 comprises a double-upper bottom plate 08 and a double-lower bottom connecting frame, the double-upper bottom plate 08 and the double-lower bottom plate 08 are respectively connected to two ends of the bottom connecting frame, the bottom connecting frame comprises a bottom connecting core frame and a bottom connecting sleeve frame, the bottom connecting frame is sleeved on the bottom connecting core frame in a buckle connection mode, namely, the upper top plate 01 is identical to the lower top plate 08 is identical, the middle connecting frame 06 is identical to the bottom connecting frame, and the middle connecting frame is identical, and the middle connecting frame 06 is identical to the bottom connecting frame, and the upper top plate 08 is identical, and the upper bottom connecting frame is identical to the bottom connecting frame, and the upper top 01 is identical to the bottom connecting frame and bottom frame 08 is identical to the bottom connecting frame, and the upper bottom frame and the bottom connecting frame is identical to the upper bottom frame 08, and the upper bottom frame and the upper bottom and the bottom frame and the bottom, and the upper and the bottom, and, is and bottom, and bottom and bottom;

The splicing assembly comprises a top plate splicing piece 09, a top edge splicing piece 010 and a middle splicing piece 11, wherein the top plate splicing piece 09 is used for splicing and connecting a top frame plate and another top frame plate, the top edge splicing piece 010 is used for splicing and connecting a double upper top plate 01 and a double lower top plate and then is connected with a middle connecting rod 05, the top edge splicing piece is also used for splicing and connecting a double upper bottom plate and a double lower bottom plate and then is connected with the middle connecting rod, the middle splicing piece 11 is used for splicing and connecting a top frame plate and another bottom frame plate and then is connected with the middle connecting rod 05, the top plate splicing piece 09 is an n-shaped top plate splicing piece, the top edge splicing piece 010 is a hook-shaped top edge splicing piece, and the middle splicing piece 11 is a central symmetrical middle splicing piece;

The splicing groove comprises a side groove 03 and an inner groove 02, wherein the side groove 03 is arranged on the edges of the top frame plate and the bottom frame plate, the inner groove 02 is arranged on the top frame plate and the bottom frame plate, the side groove 03 is used for placing a top edge splicing piece 010 and a middle splicing piece 11, and the inner groove 02 is used for placing a top plate splicing piece 09;

The spliced display rack further comprises an objective table 012, wherein the objective table 012 is mounted on the top rack plate and/or the bottom rack plate, and in particular, the objective table 012 is spliced on the inner groove 02 of the top rack plate and/or the bottom rack plate.

The utility model has the specific implementation mode that as the top frame plate and the bottom frame plate are arranged identically, namely a single-layer top plate, a double-bottom plate, a single-layer bottom plate, a double-top plate and a double-bottom plate are identical frame plate materials, the frame plate materials of a right trapezoid with side grooves and inner grooves are punched on a metal plate (such as a stainless steel plate and the like), then a core frame is welded on one frame plate, a sleeve frame is correspondingly welded on the other frame plate, and the like, a plurality of frame plates are manufactured, then the upper frame plate and the lower frame plate are welded on the other frame plate through three identical middle connecting rods to form a spliced display frame unit, and then the spliced display frame units are spliced and combined to form a spliced display frame, wherein the two sides of the upper edge and the lower edge of the spliced display frame are provided with double-layer frame plates, and the middle part of the spliced display frame is provided with the single-layer frame plate with the single-layer top plate and the single-layer bottom plate; specifically, a top plate splicing piece is selected, the top plate splicing piece is inserted into adjacent inner grooves and can be spliced into square splicing frames (shown in figure 2), then the top plate splicing piece (shown in linear or arc-shaped) is selected, the square splicing frames are selected and spliced into a line of linear splicing frames, if the arc-shaped linear splicing frames are selected and spliced into a line of arc-shaped splicing frames, and the like, herein, as shown in figures 3-5, the linear splicing frames are selected as examples, then the linear splicing frames are vertically overlapped and arranged to form a face splicing frame, top edge splicing pieces are placed on side grooves at the upper end and the lower end of the face splicing frame, the frame plates are clamped through the top edge splicing pieces, then the top edge splicing pieces are connected with corresponding middle connecting rods through screws, middle splicing pieces are placed on side grooves at the middle part of the face splicing frame, the frame plate is clamped through the middle splicing piece, the middle splicing piece is connected with the corresponding middle connecting rod through a screw rod, then the side frame plate is selected and connected with the corresponding middle connecting rod through a screw, the objective table is selected, and the objective table is inserted and fixed on the inner groove of the frame plate, so that the manufacture of the spliced display frame is completed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The novel spliced display stand is characterized by comprising a top frame plate, a bottom frame plate, a middle connecting rod, a splicing assembly, splicing grooves and side frame plates, wherein the top frame plate and the bottom frame plate are respectively connected to two ends of the middle connecting rod, the side frame plates are arranged on the middle connecting rod, the top frame plate and/or the bottom frame plate are provided with the splicing grooves, the splicing grooves are used for placing the splicing assembly, and the splicing assembly is used for splicing and connecting one top frame plate with the other top frame plate and/or the other bottom frame plate.

2. The novel splice display stand of claim 1, wherein the top shelf panel comprises a plurality of single-layer top panels and double-layer top panels, the bottom shelf panel comprises a plurality of single-layer bottom panels and double-layer bottom panels, the single-layer top panels are connected to the double-layer bottom panels by the intermediate links, the single-layer bottom panels are connected to the double-layer top panels by the intermediate links, and the single-layer top panels are connected to the single-layer bottom panels by the intermediate links.

3. A novel splice display stand in accordance with claim 2 wherein said top and bottom shelf panels are selected from the group consisting of right angle trapezoids and right angle triangles.

4. The novel splice display stand of claim 2, wherein the double-deck top panel comprises a double upper top panel, a double lower top panel and a middle connecting frame, and the double upper top panel and the double lower top panel are respectively connected to two ends of the middle connecting frame.

5. The novel splice display stand of claim 4, wherein the intermediate frame comprises an intermediate top core frame and an intermediate top sleeve frame, and wherein the intermediate top sleeve frame is sleeved on the intermediate top core frame.

6. The novel splice display stand of claim 2, wherein the double-layered base plate comprises a double-layered upper base plate, a double-layered lower base plate and a bottom connecting frame, and the double-layered upper base plate and the double-layered lower base plate are respectively connected to two ends of the bottom connecting frame.

7. The novel splice display stand of claim 6, wherein the bottom bracket comprises a bottom bracket and a bottom bracket sleeve, the bottom bracket sleeve being sleeved on the bottom bracket.

8. The novel splice display stand of claim 4, wherein the splice assembly comprises a top panel splice for splice connection of a top shelf panel to another top shelf panel, a top edge splice for splice connection of a double top panel to a double bottom panel and for splice connection of a double bottom panel to a middle link, and a middle splice for splice connection of a double top panel to a double bottom panel and for splice connection of a middle link, and a middle splice for splice connection of a top shelf panel to another bottom shelf panel and for splice connection of a middle link.

9. The novel splice display stand of claim 8, wherein the splice recess includes a side recess disposed on edges of the top and bottom shelf panels and an inner recess disposed on the top and bottom shelf panels, the side recess for placement of the top and middle splice, the inner recess for placement of the top panel splice.

10. A new splice display stand as defined in claim 1, further comprising a stage mounted to the top shelf and/or bottom shelf.