CN219556723U - Container illumination layer structure - Google Patents

Abstract

The utility model relates to the technical field of shelving structures, in particular to a container lighting shelving structure, which comprises a glass shelf, lighting assemblies, lamp strip assemblies, fixing pieces, connecting assemblies and mounting assemblies, wherein the number of the lamp strip assemblies, the number of the connecting assemblies and the number of the mounting assemblies are two, the lighting assemblies are positioned on one side of the glass shelf, the two lamp strip assemblies are respectively positioned on two sides of the glass shelf and are respectively positioned on two sides of the lighting assemblies, the fixing pieces are positioned on one side far away from the lighting assemblies and are positioned between the two lamp strip assemblies, the two connecting assemblies are positioned below the glass shelf and are respectively positioned on two sides of the lighting assemblies, and the two mounting assemblies are respectively positioned on one side of the two connecting assemblies. The glass shelf is illuminated by the light source of the lighting assembly, so that the glass shelf is bright and emits light, the effect of an atmosphere lamp is achieved, the lighting effect is achieved for the inner space, the lamp strip assembly is combined for common lighting, and the lighting effect is improved.

Description

Container illumination layer structure

Technical Field

The utility model relates to the technical field of shelving structures, in particular to a container illumination shelving structure.

Background

Most of racks used in containers in the market at present have no lighting function, and lighting lamps are arranged at the top in the containers for lighting.

The prior art CN201375275Y discloses a container laminate, which comprises an upper frame, a lower frame and a lamp tube, wherein the upper frame is provided with a cover plate in the middle from top to bottom, the lower frame is provided with a light-transmitting acrylic plate in the middle, the lamp tube is arranged between the cover plate and the light-transmitting acrylic plate, and the lamp tube is used for lighting.

However, the above prior art only uses one lamp tube for illumination, and the illumination effect is poor.

Disclosure of Invention

The utility model aims to provide a container illumination shelving structure, which solves the problem that the illumination effect is poor due to the fact that the prior art only uses one lamp tube for illumination.

In order to achieve the above object, the utility model provides a container lighting shelf structure, which comprises a glass shelf, lighting assemblies, lamp strip assemblies, fixing pieces, connecting assemblies and mounting assemblies, wherein the number of the lamp strip assemblies and the number of the connecting assemblies are two, the lighting assemblies are positioned on one side of the glass shelf, the two lamp strip assemblies are respectively positioned on two sides of the glass shelf and are respectively positioned on two sides of the lighting assemblies, the fixing pieces are positioned on one side far away from the lighting assemblies and are positioned between the two lamp strip assemblies, the two connecting assemblies are positioned below the glass shelf and are respectively positioned on two sides of the lighting assemblies, and the two mounting assemblies are respectively positioned on one sides of the two connecting assemblies.

The lighting assembly comprises an extrusion strip, an LED lamp strip and a third wiring terminal, wherein the extrusion strip is fixedly connected with the glass shelf, the extrusion strip is positioned on the side edge of the glass shelf, the LED lamp strip is positioned in the extrusion strip, and the third wiring terminal is connected with the LED lamp strip.

The lamp strip assembly comprises foam, a plastic shell extrusion strip, a silica gel lamp strip and a second binding post, wherein the foam is fixedly connected with the glass shelf, and is positioned on the side edge of the extrusion strip, the plastic shell extrusion strip is fixedly connected with the glass shelf, the silica gel lamp strip is positioned in the plastic shell extrusion strip, and the second binding post is connected with the silica gel lamp strip and the third binding post.

The connecting assembly comprises a supporting frame, an upper shell, a first screw, a lower shell and a spring switch, wherein the supporting frame is fixedly connected with the fixing piece, the upper shell is fixedly connected with the supporting frame through the first screw, the lower shell is fixedly connected with the upper shell, and the spring switch is connected with the third wiring terminal and the second wiring terminal and is positioned in the upper shell.

The mounting assembly comprises a fixing support, a fixing seat, a first plug, a second screw, a stainless steel conducting strip, a second plug, a third screw and a first wiring terminal, wherein the fixing support is fixedly connected with the supporting frame, the fixing seat is fixedly connected with the fixing support, the first plug is fixedly connected with the fixing seat through the second screw, the stainless steel conducting strip is in contact with the spring switch and is positioned in the fixing seat, the second plug is fixedly connected with the fixing seat through the third screw, and the first wiring terminal is connected with the stainless steel conducting strip and is positioned in the second plug.

The container lighting layer structure further comprises a baffle assembly, the baffle assembly comprises a first sliding rail, a second sliding rail and a sliding plate, the first sliding rail and the second sliding rail are fixedly connected with the glass shelf, the first sliding rail is located close to one side of the extrusion strip, the second sliding rail is located close to one side of the fixing piece, and the sliding plate is in sliding connection with the first sliding rail and the second sliding rail.

The first sliding rail is provided with a plurality of positioning holes, and the sliding plate is provided with a placing cavity and a limiting hole.

Wherein, baffle subassembly still includes the reference column, the reference column is located place the intracavity.

According to the container lighting shelf structure, the number of the lamp strip assemblies, the connecting assemblies and the mounting assemblies is two, the lamp assemblies are located on one side of the glass shelf, the two lamp strip assemblies are located on two sides of the glass shelf respectively and located on two sides of the lamp assemblies respectively, the fixing piece is located on one side far away from the lamp assemblies and located between the two lamp strip assemblies, the two connecting assemblies are located below the glass shelf and located on two sides of the lamp assemblies respectively, and the two mounting assemblies are located on one side of the two connecting assemblies respectively. The lighting assembly is used for illuminating the glass shelf, so that the glass shelf is enabled to be bright and luminous, the effect of an atmosphere lamp is achieved, the lighting effect is achieved on the inner space, the lamp strip assembly is combined for jointly lighting, and the lighting effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic view of a first embodiment of the utility model for a container lighting shelf structure;

FIG. 2 is a schematic view of a baffle assembly according to a second embodiment of the present utility model;

FIG. 3 is an enlarged view at A in FIG. 2;

in the figure: 1-extruded strip, 2-LED lamp strip, 3-glass shelf, 4-foam, 5-lower shell, 6-first plug, 7-stainless steel conducting strip, 8-fixing seat, 9-fixing support, 10-silica gel lamp strip, 11-spring switch, 12-upper shell, 13-plastic shell extruded strip, 14-support frame, 15-second plug, 16-first binding post, 17-fixing piece, 18-first screw, 19-second screw, 20-third screw, 21-second binding post, 22-third binding post, 23-first slide rail, 24-second slide rail, 25-sliding plate, 26-locating hole, 27-placing cavity, 28-locating hole, 29-locating post.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the utility model is as follows:

referring to fig. 1, fig. 1 is a schematic structural diagram of a container lighting shelf structure according to a first embodiment of the present utility model.

The utility model provides a container illumination layer structure, which comprises: comprising a glass shelf 3, a lighting assembly, a light strip assembly, a fixing member 17, a connecting assembly and a mounting assembly; the lighting assembly comprises an extruded strip 1, an LED light strip 2 and a third wiring terminal 22; the lamp strip assembly comprises foam 4, a plastic shell extrusion strip 13, a silica gel lamp strip 10 and a second wiring terminal 21; the connecting assembly comprises a supporting frame 14, an upper shell 12, a first screw 18, a lower shell 5 and a spring switch 11; the mounting assembly comprises a fixed support 9, a fixed seat 8, a first plug 6, a second screw 19, a stainless steel conducting strip 7, a second plug 15, a third screw 20 and a first wiring terminal 16. The problem that the lighting effect is poor due to the fact that the lighting effect is achieved through only one lamp tube in the prior art is solved through the scheme. It will be appreciated that the solution can also be used for rack lighting in refrigerators, freezers.

In this embodiment, the number of the lamp strip assemblies and the number of the connecting assemblies are two, the lighting assemblies are located on one side of the glass shelf 3, the two lamp strip assemblies are located on two sides of the glass shelf 3 respectively and on two sides of the lighting assemblies respectively, the fixing piece 17 is located on one side far away from the lighting assemblies and between the two lamp strip assemblies, the two connecting assemblies are located below the glass shelf 3 and on two sides of the lighting assemblies respectively, and the two mounting assemblies are located on two sides of the connecting assemblies respectively. The illumination assembly achieves illumination of the container and the glass shelf 3; the lamp strip component realizes peripheral light emission; the fixing member 17 enables the fixation of the two lamp strip assemblies and the glass shelf panel 3; the connecting component realizes the connection between the hardware structure and the electronic circuit; the lighting assembly and the lamp strip assembly are used together, so that the effect of peripheral lighting and internal lighting is achieved. The illumination assembly and the light bar assembly can partially or completely replace a surface light source or an illumination lamp used by the existing container/freezer.

Specifically, the extrusion strip 1 is fixedly connected to the side edge of the glass shelf 3, the LED lamp strip 2 is located in the extrusion strip 1, the third wiring terminal 22 is connected with the LED lamp strip 2, the second wiring terminal 21 is connected into circuit connection, the periphery of the LED lamp strip 2 can be irradiated onto the glass shelf 3 at the same time, so that the glass shelf 3 is turned on and emits light, the effect of an atmosphere lamp is achieved, and the lighting effect is achieved for an inner space. The foam 4 is fixedly connected to the side edge of the extrusion strip 1, the plastic shell extrusion strip 13 is fixedly connected with the glass shelf 3, the silica gel lamp strip 10 is positioned in the plastic shell extrusion strip 13, the second wiring terminal 21 is connected with the silica gel lamp strip 10 and the third wiring terminal 22, and the second wiring terminal 21 is connected into circuit connection. The support frame 14 is fixedly connected with the fixing piece 17, the upper shell 12 is fixedly connected with the support frame 14 through the first screw 18 (M4), the lower shell 5 is fixedly connected with the upper shell 12, the spring switch 11 is located in the upper shell 12 and is connected with the third wiring terminal 22 and the second wiring terminal 21, and the second wiring terminal 21 is connected into a circuit. The fixed support 9 with support frame 14 fixed connection, fixing base 8 with fixed support 9 fixed connection, first end cap 6 pass through second screw 19 (M2) with fixing base 8 fixed connection, stainless steel conducting strip 7 is located in fixing base 8, with spring switch 11 contact, 15 with fixing base 8 passes through third screw 20 (M2.5) fixed connection, first binding post 16 is located 15, and with stainless steel conducting strip 7 is connected.

In this embodiment, the foam 4 is adhered to the glass shelf 3, the third connection terminals 22 are welded to the left and right sides of the LED light bar 2, the LED light bar 2 is installed in the extrusion bar 1, then the extrusion bar 1 is installed on the side of the glass shelf 3, the silica gel light band 10 is installed around the glass shelf 3, the molded case extrusion bar 13 is installed on the outer side of the silica gel light band 10, one third connection terminal is also installed on the symmetrical side, and the fixing member 17 is installed on the front side of the silica gel light band 10. The upper shell 12 is respectively arranged at two ends of the extrusion strip 1, the spring switch 11 is arranged inside the upper shell 12, then the second wiring terminal 21 on the line of the silica gel lamp strip 10 and the third wiring terminal 22 welded on the LED lamp strip 2 are arranged on the structure in the upper shell 12, the structure is fixed without welding, then the lower shell 5 is arranged on the upper shell 12, the supporting frame 14 is arranged on the outer side of the upper shell 12, the two ends are fixedly connected by a first screw 18 (the structures at the two ends are symmetrical), the layer placing part is arranged at the moment, and the supporting frame 14 is assembled. The stainless steel conducting strip 7 is installed in the fixing base 8, then the first plug 6 is installed at the second screw 19 at the upper end of the fixing base 8 and is fixed, then the first wiring terminal 16 is installed in the 15, then the 15 is installed at the lower end of the fixing base 8 and is fixed by the second screw 19, then the assembled fixing base 8 is partially installed on the fixing support 9, the fixing support 9 is installed in goods such as a container/freezer (two ends are symmetrical in structure), and at this time, the lighting and shelving structure of the container is installed. Most racks used in containers, refrigerators and freezers on the market have no lighting function. The shelf has the advantages that the weak luminous atmosphere effect of the shelf is improved, but the illumination effect is not obvious, the use of an original light source cannot be replaced, only a certain decoration effect is achieved, the existing market similar shelf products cannot achieve the performances of simultaneously emitting light around, internally illuminating, wireless contact with a switch, randomly adjusting the height of the shelf, having extremely high-strength waterproof performance, preventing short circuits and the like. The container lighting layer structure is connected with the stainless steel conducting strip 7 in a contact way through the spring switch 11 to obtain electricity, the second wiring terminal 21 is connected with the third wiring terminal 22 in a contact way through the inner structure of the upper shell 12, the two ends of the LED light bar 2 are symmetrical in structure, the spring switches 11 at the two ends touch the stainless steel conducting strip 7 together, one end of the spring switch is positive, and the other end of the spring switch is negative, so that the function is realized. The stainless steel conducting strip 7 can be lengthened according to the requirements of products such as a container/a freezer, the height of the layer placing part can be randomly adjusted to change the size of an interlayer space, the wireless contact switch is randomly detached and installed, water washing can be carried out, and light rays are emitted through the semitransparent parts in front of the extrusion strip 1 and obliquely below the extrusion strip. The semitransparent portion below the extrusion strip 1 is not shielded, the light transmittance is about 45%, the periphery of the extrusion strip is provided with luminous lamps, the brightness is high, and the illumination effect can be achieved. The container lighting layer structure adopts a structure mode of separating and connecting electricity, so that the product has the performances of high-strength waterproof property, short circuit prevention and the like.

The second embodiment of the utility model is as follows:

referring to fig. 2-3, fig. 2 is a schematic structural diagram of a baffle assembly according to a second embodiment of the present utility model; FIG. 3 is an enlarged view at A in FIG. 2; on the basis of the first embodiment, the container lighting shelf structure of the present embodiment further includes a baffle assembly, where the baffle assembly includes a first slide rail 23, a second slide rail 24, a sliding plate 25, and a positioning column 29.

In this embodiment, the first sliding rail 23 and the second sliding rail 24 are fixedly connected with the glass shelf 3, the first sliding rail 23 is located at a side close to the extrusion strip 1, the second sliding rail 24 is located at a side close to the fixing piece 17, and the sliding plate 25 is slidably connected with the first sliding rail 23 and the second sliding rail 24. The first sliding rail 23 has a plurality of positioning holes 26, and the sliding plate 25 has a placement cavity 27 and a limiting hole 28. The positioning post 29 is located in the placement cavity 27. The baffle assembly is used for separating the upper space of the container illumination shelving structure, so that different articles can be stored.

Specifically, the first sliding rail 23 and the second sliding rail 24 are both provided with protrusions, the sliding plate 25 is provided with sliding grooves matched with the protrusions, and the sliding plate 25 slides along the first sliding rail 23 and the second sliding rail 24, so that the upper space of the container lighting shelf structure can be divided into storage spaces with different sizes for storing and placing different articles. The positioning holes 26 of the first sliding rail 23 are distributed along the extending direction of the first sliding rail 23, and the limiting holes 28 of the sliding plate 25 are coincident with the center line of the positioning holes 26. The sliding plate 25 slides to a certain position, so that the central line of the limiting hole 28 and one of the positioning holes 26 coincides, the positioning column 29 is located in the placing cavity 27 at this time, the positioning column 29 can be in a molding and clamping mode to the placing cavity 27, the positioning column 29 is taken out to be inserted into the limiting hole 28 to enter the positioning hole 26 for positioning, at this time, the sliding plate 25 is fixed, and the upper space of the container lighting shelf structure is divided into storage spaces with different sizes for storing different articles. The sliding plate 25 is also provided with a through groove, so that when the sliding plate 25 slides to the side of the container, the light of the lamp band assembly at the side of the glass shelf panel 3 can still be emitted from the through groove to realize illumination.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present utility model, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the utility model.

Claims (8)

1. A container illumination shelving structure comprises a glass shelf board and is characterized in that,

still include lighting assembly, lamp area subassembly, mounting, coupling assembling and installation component, the lamp area subassembly the coupling assembling with the quantity of installation component is two, lighting assembly is located one side of glass shelf, two the lamp area subassembly is located respectively the both sides of glass shelf, and is located respectively lighting assembly's both sides, the mounting is located and is kept away from lighting assembly's one side, and is located two between the lamp area subassembly, two coupling assembling is located the below of glass shelf, and is located respectively lighting assembly's both sides, two installation component is located respectively two coupling assembling's one side.

2. The container lighting shelf structure of claim 1,

the lighting assembly comprises an extrusion strip, an LED lamp strip and a third wiring terminal, wherein the extrusion strip is fixedly connected with the glass shelf, the extrusion strip is positioned on the side edge of the glass shelf, the LED lamp strip is positioned in the extrusion strip, and the third wiring terminal is connected with the LED lamp strip.

3. The container lighting shelf structure of claim 2,

the lamp strip assembly comprises foam, a plastic shell extrusion strip, a silica gel lamp strip and a second wiring terminal, wherein the foam is fixedly connected with the glass shelf, and is positioned on the side edge of the extrusion strip, the plastic shell extrusion strip is fixedly connected with the glass shelf, the silica gel lamp strip is positioned in the plastic shell extrusion strip, and the second wiring terminal is connected with the silica gel lamp strip and the third wiring terminal.

4. The container lighting shelf structure of claim 3,

the connecting assembly comprises a supporting frame, an upper shell, a first screw, a lower shell and a spring switch, wherein the supporting frame is fixedly connected with the fixing piece, the upper shell is fixedly connected with the supporting frame through the first screw, the lower shell is fixedly connected with the upper shell, and the spring switch is connected with the third wiring terminal and the second wiring terminal and is positioned in the upper shell.

5. The container lighting shelf structure of claim 4,

the installation component includes fixed bolster, fixing base, first end cap, second screw, stainless steel conducting strip, second end cap, third screw and first binding post, the fixed bolster with support frame fixed connection, the fixing base with fixed bolster fixed connection, first end cap passes through the second screw with fixing base fixed connection, the stainless steel conducting strip with spring switch contacts, and is located in the fixing base, the second end cap with the fixing base passes through third screw fixed connection, first binding post with stainless steel conducting strip is connected, and is located in the second end cap.

6. The container lighting shelf structure of claim 2,

the container lighting layer structure further comprises a baffle assembly, the baffle assembly comprises a first sliding rail, a second sliding rail and a sliding plate, the first sliding rail and the second sliding rail are fixedly connected with the glass shelf, the first sliding rail is located close to one side of the extrusion strip, the second sliding rail is located close to one side of the fixing piece, and the sliding plate is in sliding connection with the first sliding rail and the second sliding rail.

7. The container lighting shelf structure of claim 6 wherein,

the first sliding rail is provided with a plurality of positioning holes, and the sliding plate is provided with a placing cavity and a limiting hole.

8. The container lighting shelf structure of claim 7,

the baffle assembly further includes a locating post positioned within the placement cavity.