CN218506383U - Skylight glass turnover box - Google Patents

Abstract

The utility model relates to the field of glass transportation, and discloses a skylight glass turnover box which comprises a chassis, an enclosure frame and a top cover, wherein the periphery of the chassis is provided with insertion grooves, and the bottom of the enclosure frame can be inserted into the insertion grooves, so that the enclosure frame is fixedly connected to the chassis; the top cover can cover the top end of the enclosure frame; one or more sides of the enclosure frame are provided with enclosure frame openings, and the enclosure frame openings can be turned outwards along the bottom edge to form an operation opening; the corners of the enclosing frame are provided with folding mechanisms, and the enclosing frame can be folded along diagonal lines through the folding mechanisms; the base plate protrudes downwards to form a plurality of stacking feet which are uniformly distributed at the bottom of the base plate; the top cover is sunken downwards to form a plurality of stacking pin supporting grooves, the stacking pin supporting grooves correspond to the stacking pins one by one, and the stacking pins positioned above can be matched with the stacking pin supporting grooves positioned below for stacking. This skylight glass turnover case can recycle and have folding function.

Description

Skylight glass turnover box

Technical Field

The utility model relates to an automotive glass transports field, specifically relates to a skylight glass turnover case.

Background

The automobile glass is essential in automobile body accessories and mainly plays a role in protection. The automobile glass mainly comprises the following three types: laminated glass, tempered glass and zone tempered glass, all of which must be able to withstand strong impact forces. The automobile glass is divided into the following parts according to the positions: front windshield glass, side window glass, rear windshield glass and skylight glass; the national mandatory regulations of the front windshield glass include laminated glass, side window glass is toughened glass, and the rear windshield glass is generally toughened glass with electric heating wires.

The automotive glass market is divided into the complete automotive equipment market (OEM) and the after-market repair replacement market (AGR), and the OEM market of automotive glass is about 5 times the AGR market globally.

In order to meet different market demands, a lot of automobile glass can be delivered to customers after being produced and transported for a long distance. At present, the automobile glass manufacturers mainly adopt wooden boxes or cartons to integrally package a plurality of pieces of automobile glass, and the wooden boxes or cartons are disposable and can be discarded after arriving at a destination without being recycled, so that the automobile glass is greatly wasted.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that automobile glass's packaging material no longer retrieved and caused the waste during long-distance transport that prior art exists, the utility model provides a skylight glass turnover case, this skylight glass turnover case can recycle and have folding function.

The utility model provides a skylight glass turnover box, which comprises a chassis, a surrounding frame and a top cover, wherein,

inserting grooves are formed in the periphery of the chassis, and the bottom of the enclosing frame can be inserted into the inserting grooves, so that the enclosing frame is fixedly connected to the chassis; the top cover can be arranged at the top end of the enclosure frame in a covering manner;

one or more sides of the enclosure frame are provided with enclosure frame openings, and the enclosure frame openings can be turned outwards along the bottom edge to form an operation opening;

a folding mechanism is arranged at the corner of the enclosing frame, and the enclosing frame can be folded along the diagonal line by folding the folding mechanism;

the base plate protrudes downwards to form a plurality of stacking feet which are uniformly distributed at the bottom of the base plate;

the top cover is sunken downwards to form a plurality of stacking foot supporting grooves, the stacking foot supporting grooves correspond to the stacking feet one to one, and the stacking feet positioned above can be matched with the stacking foot supporting grooves positioned below for stacking.

Preferably, the folding mechanism comprises a folding arc line, a first connecting section, a second connecting section and supporting columns, the folding arc line is located between two of the supporting columns and is connected with the two supporting columns through the two first connecting sections respectively, and the folding arc line is located at a position recessed inwards than the two supporting columns;

the other side of the supporting column is connected with the enclosure frame through a second connecting section;

the folding arc lines on the diagonal are arranged to be capable of changing the curvature radius of the folding arc lines to enable the folding arc lines to be located on two sides of the folding arc lines, the first connecting sections are mutually attached, and then folding of the enclosure frame is achieved.

Preferably, the support column is enclosed by an arc-shaped curved surface positioned on the outer side and a plane positioned on the inner side, and the arc-shaped curved surface protrudes outwards to ensure the compressive strength of the support column along the length direction.

Preferably, the arc of the folding arc is no greater than 90 ° when the enclosure is in the open position.

Preferably, a transition arc line segment is arranged between the second connecting segment and the enclosure frame, and the transition arc line segment is set to meet the folding and unfolding requirements of the enclosure frame by changing the curvature radius of the transition arc line segment.

Preferably, a first layer of EVA cushion blocks are arranged on the chassis, each first layer of EVA cushion blocks comprises a plurality of EVA cushion blocks, and the plurality of EVA cushion blocks are distributed at different positions and can be used for supporting the first skylight glass placed in the skylight glass turnover box;

an (N + 1) th layer of EVA cushion block is arranged between the nth layer of skylight glass and the (N + 1) th layer of skylight glass; the (N + 1) th EVA cushion block also comprises a plurality of EVA cushion blocks;

the plurality of EVA cushion blocks contained in the first layer of EVA cushion block and the plurality of EVA cushion blocks contained in the (N + 1) th layer of EVA cushion block are in one-to-one correspondence, the projections of the EVA cushion blocks in the vertical direction, which have the correspondence, can be superposed with each other, and N is an integer greater than or equal to 1.

Preferably, a plurality of supporting protrusions are further arranged on the top cover, and the upper end surfaces of the supporting protrusions are not lower than the upper surface of the top cover;

the positions of the plurality of supporting protrusions can correspond to the projection positions of the plurality of EVA cushion blocks in the vertical direction one by one.

Preferably, after the skylight glass is placed in the skylight glass turnover box, the horizontal distance between the inner wall of the enclosure frame and the outer edge of the skylight glass is 2-3mm.

Preferably, the fit clearance between the top cover and the enclosure frame is 0-2mm.

According to the technical scheme, an operator can place glass in the enclosing frame by opening the opening of the enclosing frame arranged on the enclosing frame, and after the glass is filled, the top cover can be covered on the enclosing frame to seal the skylight glass turnover box. The skylight glass turnover box is enclosed into a closed space through the chassis, the enclosing frame and the top cover, and the automobile glass is placed in the closed space to be capable of achieving sealed packaging of the automobile glass located in the closed space. Meanwhile, stacking feet and stacking foot supporting grooves which are matched with each other are arranged on the base plate and the top cover, so that the skylight glass turnover box has a stacking function. The enclosing frame can be folded, so that when the skylight glass is not carried, the skylight glass turnover box can be folded to save occupied space.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of a preferred embodiment skylight glass turnaround box;

FIG. 2 is a schematic structural view of a preferred embodiment chassis;

FIG. 3 is a schematic diagram of the construction of a preferred embodiment enclosure;

FIG. 4 is a schematic view of a preferred embodiment top cover;

fig. 5 is a partial view at a.

Description of the reference numerals

1 base plate 2 surrounding frame

3 Top cover 11 is inserted into the groove

21 enclose frame opening 12 stack foot

31 stacking foot support slot 22 folding arc

23 support column 32 support boss

24 first connection section 25 second connection section

26 transition arc segment

Detailed Description

The following describes in detail embodiments of the present invention with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

In the present invention, unless otherwise specified, directional terms such as "facing, away from, horizontal, inclined, front, rear, end" and the like included in a term merely represent the orientation of the term in a conventional use state or a colloquial term understood by those skilled in the art, and should not be construed as limiting the term.

Referring to fig. 1-5, the skylight glass turnover box comprises a bottom plate 1, a surrounding frame 2 and a top cover 3, wherein,

the periphery of the chassis 1 is provided with an insertion groove 11, and the bottom of the enclosure frame 2 can be inserted into the insertion groove 11, so that the enclosure frame 2 is fixedly connected to the chassis 1; the top cover 3 can cover the top end of the enclosure frame 2;

one or more surfaces of the enclosure frame 2 are provided with enclosure frame openings 21, and the enclosure frame openings 21 can be turned outwards along the bottom edge to form an operation opening;

the corners of the enclosing frame 2 are provided with folding mechanisms, and the enclosing frame 2 can be folded along the diagonal lines through the folding mechanisms;

the chassis 1 protrudes downwards to form a plurality of stacking feet 12, and the plurality of stacking feet 12 are uniformly distributed at the bottom of the chassis 1;

the top cover 3 is recessed downward to form a plurality of stacking foot supporting grooves 31, the plurality of stacking foot supporting grooves 31 correspond to the plurality of stacking feet 12 one by one, and the stacking feet 12 located above can be stacked in cooperation with the stacking foot supporting grooves 31 located below.

Through above-mentioned technical scheme's implementation, will enclose frame opening 21 and can outwards overturn along the base and form the operation mouth, operating personnel can place skylight glass in skylight glass turnover case through this operation mouth, and a plurality of skylight glass stack along direction of height layering, and this skylight glass turnover case just can realize holding skylight glass's efficient. After the skylight glass turnover box is filled with the skylight glass, the cover can be arranged at the top of the skylight glass turnover box, so that the skylight glass turnover box is sealed.

The stacking function of the skylight glass turnover box can be realized by matching the stacking feet 12 with the stacking foot supporting grooves 31. A plurality of skylight glass turnover case can realize the high-efficient utilization to the transportation space through the stack.

Enclose frame 2 and can have folding function through folding mechanism, when long-distance transportation skylight glass to finally deliver skylight glass to the customer after, enclose frame 2 and no longer occupy space after folding, realize more effective storage in can the appointed effectual space of customer, so that can transport the completion folding skylight glass turnover case of storage back when transporting skylight glass next time.

The skylight glass turnover box with the folded enclosure frame 2 has higher loading rate, can save the transportation space of return trip, and can even recycle skylight glass turnover boxes of multiple destinations at a time, thereby saving the logistics cost for recycling the skylight glass turnover boxes.

In this embodiment, preferably, the folding mechanism includes a folding arc 22, a first connecting section 24, a second connecting section 25, and support columns 23, the folding arc 22 is located between two support columns 23 and is connected to the two support columns 23 through the two first connecting sections 24, respectively, and the folding arc 22 is located at a position recessed inward than the two support columns 23;

the other side of the supporting column 23 is connected with the enclosure frame 2 through a second connecting section 25;

the two folding arcs 22 located on the diagonal line are arranged to change the radius of curvature of the two folding arcs 22 so that the two first connecting sections 24 located on both sides of the folding arcs 22 are attached to each other, thereby achieving the folding of the enclosure frame 2.

When needing to enclose frame 2 and folding, only need will enclose the side of frame 2 and place on ground, under the effect of dead weight, the side that is located the frame 2 of top will move down, and folding camber line 22 changes the radius of curvature and takes place to warp this in-process for enclose frame 2 realizes folding along the diagonal.

The support column 23 in the folding mechanism can support the skylight glass turnover box. Because the skylight glass turnover box can be stacked and can be stacked for 2-3 layers, the skylight glass turnover box positioned at the lower layer can receive the pressure of the skylight glass turnover box positioned at the upper layer, the pressure is born by the support columns 23 in the folding mechanisms, two support columns 23 are arranged in each folding mechanism, and eight support columns 23 are used for supporting four corners of the skylight glass turnover box and bear the pressure of the skylight glass turnover box positioned at the upper layer.

In this embodiment, it is preferable that the supporting column 23 is enclosed by an arc-shaped curved surface on the outer side and a flat surface on the inner side, and the arc-shaped curved surface protrudes outward to ensure the compressive strength of the supporting column 23 in the length direction.

The arc-shaped curved surface on the outer side of the supporting column 23 is convex outward, so that the thickness of the supporting column 23 becomes large at the convex position, so that the supporting column 23 can obtain a greater supporting strength in the vertical direction. When the skylight glass turnover boxes are stacked, the skylight glass turnover boxes positioned below need to bear the pressure of the skylight glass turnover boxes positioned above, and because the relative position between the upper skylight glass turnover box and the lower skylight glass turnover box is determined by the mutual matching of the stacking feet 12 and the stacking foot supporting grooves 31, the supporting columns 23 only receive the pressure applied by the upper skylight glass turnover box to the upper skylight glass turnover box along the vertical direction, which is good for the supporting columns 23 of the structure.

In this embodiment, the arc of the folding arc 22 is preferably no greater than 90 ° when the enclosure 2 is in the open position.

Folding pitch arc 22 is a section of major arc of even thickness, and its both ends can both link to each other with support column 23 through first linkage segment 24, and when frame 2 was enclosed in the needs folding, the radius of curvature of folding pitch arc 22 will be continuous dwindles, and until folding pitch arc 22 approximately encloses to close and forms a circular, at this moment two first linkage segments 24 can coincide to the folding of enclosing frame 2 has been realized. In this process, the folding arc 22 is continuously elastically deformed, and there is no stress concentration position inside the folding arc 22, and there is no folding line, so there is no fatigue fracture at any position due to repeated folding. And when the skylight glass turnover box is used next time, the folding arc line 22 is restored to the initial state along with the opening of the enclosure frame 2. The use of the folding arc 22 thus enables a significant increase in the service life of the folding mechanism.

The folding arc 22, the first connecting section (24), the second connecting section (25) and the supporting column (23) are of an integral structure, and stress concentration at the connecting positions of the parts can be avoided.

In this embodiment, preferably, a transition arc segment 26 is disposed between the second connecting segment 25 and the enclosure frame 2, and the transition arc segment 26 satisfies the folding and unfolding of the enclosure frame 2 by being able to change its curvature radius.

Similar to the function of the folding arc 22, the transition arc segment 26 is also deformed during the folding of the enclosure frame 2, and the curvature radius thereof is gradually increased during the deformation until the enclosure frame 2 is folded along the diagonal. The transition arc segment 26 is elastically deformed in the folding process of the enclosure frame 2, and when the skylight glass turnover box is used next time, the transition arc segment 26 is restored to the initial state along with the opening of the enclosure frame 2.

In this embodiment, preferably, the chassis 1 is provided with a first layer of EVA cushion blocks, the first layer of EVA cushion blocks includes a plurality of EVA cushion blocks, and the plurality of EVA cushion blocks are distributed at different positions and can be used for supporting the first piece of skylight glass placed in the skylight glass turnover box;

an (N + 1) th layer of EVA cushion block is arranged between the (N) th layer of skylight glass and the (N + 1) th layer of skylight glass; the (N + 1) th EVA cushion block also comprises a plurality of EVA cushion blocks;

the plurality of EVA cushion blocks contained in the first layer of EVA cushion block and the plurality of EVA cushion blocks contained in the (N + 1) th layer of EVA cushion block are in one-to-one correspondence, and the projections of the EVA cushion blocks with the corresponding relation in the vertical direction can be mutually coincided, wherein N is an integer greater than or equal to 1.

A plurality of EVA cushion blocks are arranged on the chassis 1 and used for supporting skylight glass, a plurality of EVA cushion blocks are also arranged between two adjacent layers of skylight glass, and the EVA cushion blocks can separate the upper and lower layers of skylight glass to prevent the glass from being scratched mutually. At the same time, the EVA pads are fixed and correspond to each other, and form another bearing system for the skylight glass. The weight of all the glass in the skylight glass turnover box can be finally transmitted to the plurality of EVA cushion blocks on the chassis 1, the positions of the EVA cushion blocks can be matched with the supporting protrusions 32 on the top cover 3, and another set of supporting system for the skylight glass turnover box outside the supporting columns 23 is realized.

In this embodiment, it is preferable that a plurality of supporting projections 32 are further provided on the top cover 3, and the upper end faces of the supporting projections 32 are not lower than the upper surface of the top cover 3;

the positions of the plurality of supporting protrusions 32 can correspond to the projection positions of the plurality of EVA cushion blocks in the vertical direction one by one.

The positions corresponding to the plurality of supporting protrusions 32 on the top cover 3 are the positions of the EVA cushion blocks on the chassis, so that the EVA cushion blocks and the supporting protrusions 32 together form a supporting system of another set of skylight glass turnover box, which can relieve the pressure of the supporting columns 23.

In this embodiment, after the skylight glass is placed in the skylight glass turnover box, the horizontal distance between the inner wall of the enclosure frame 2 and the outer edge of the skylight glass is preferably 2-3mm.

In the process that operating personnel put into skylight glass, enclose frame 2 and can play certain spacing and alignment's effect, because it is very little to enclose the clearance between frame 2 and the skylight glass, consequently operating personnel perceives very easily that skylight glass has or not places the skew to make accurate adjustment to skylight glass's placement position. All skylight glass can be orderly arranged in the skylight glass turnover box from bottom to top, and pressure can be reliably transmitted along a fixed direction conveniently.

In this embodiment, the fit clearance between the top cover 3 and the enclosure frame 2 is preferably 0-2mm. Under the effect of this fit clearance the top cap 3 can relatively easily cover and locate on enclosing frame 2, and its position also can be more definite after enclosing frame 2 is located to the lid of top cap 3 in addition, is difficult to take place to rock, can guarantee the reliability in the transportation.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be within the scope of the present invention to perform various simple modifications to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and in order to avoid unnecessary repetition, the present invention does not separately describe various possible combinations.

In addition, various embodiments of the present invention can be combined arbitrarily, and the disclosed content should be regarded as the present invention as long as it does not violate the idea of the present invention.

Claims (9)

1. A skylight glass turnover box is characterized by comprising a base plate (1), a surrounding frame (2) and a top cover (3), wherein,

inserting grooves (11) are formed in the periphery of the chassis (1), and the bottom of the enclosing frame (2) can be inserted into the inserting grooves (11), so that the enclosing frame (2) is fixedly connected to the chassis (1); the top cover (3) can cover the top end of the enclosure frame (2);

one or more surfaces of the surrounding frame (2) are provided with surrounding frame openings (21), and the surrounding frame openings (21) can be outwards turned along the bottom edge to form an operation opening;

a folding mechanism is arranged at the corner of the enclosing frame (2), and the enclosing frame (2) can be folded along the diagonal line by folding the folding mechanism;

the chassis (1) protrudes downwards to form a plurality of stacking feet (12), and the stacking feet (12) are uniformly distributed at the bottom of the chassis (1);

the top cover (3) is sunken downwards to form a plurality of stacking foot supporting grooves (31), the stacking foot supporting grooves (31) correspond to the stacking feet (12) one by one, and the stacking feet (12) positioned above can be matched with the stacking foot supporting grooves (31) positioned below for stacking.

2. The skylight glass turnaround box of claim 1, wherein the folding mechanism comprises a folding arc (22), a first connecting section (24), a second connecting section (25) and support columns (23), the folding arc (22) is located between two of the support columns (23) and is connected to the two support columns (23) through the two first connecting sections (24), and the folding arc (22) is in an inwardly recessed position than the two support columns (23);

the other side of the supporting column (23) is connected with the enclosure frame (2) through a second connecting section (25);

two of the folding arcs (22) on the diagonal are arranged to change the curvature radius of the folding arcs, so that two of the first connecting sections (24) on the two sides of the folding arcs (22) are mutually attached to realize the folding of the enclosing frame (2).

3. The skylight glass turnaround box according to claim 2, wherein the support columns (23) are enclosed by an arc-shaped curved surface at the outer side and a plane at the inner side, and the arc-shaped curved surface protrudes outwards to ensure the compressive strength of the support columns (23) along the length direction.

4. Skylight glass turnaround box according to claim 2, characterized in that the arc of the folding arc (22) is not more than 90 ° when the enclosure frame (2) is in the open state.

5. The skylight glass turnaround box according to claim 2, wherein a transition arc segment (26) is arranged between the second connecting section (25) and the enclosure frame (2), and the transition arc segment (26) is arranged to meet the requirements of folding and unfolding of the enclosure frame (2) by being capable of changing the curvature radius of the transition arc segment.

6. The skylight glass turnover box according to claim 1, wherein a first layer of EVA cushion blocks is arranged on the chassis (1), and the first layer of EVA cushion blocks comprises a plurality of EVA cushion blocks which are distributed at different positions and can be used for supporting a first piece of skylight glass placed in the skylight glass turnover box;

an (N + 1) th layer of EVA cushion block is arranged between the (N) th layer of skylight glass and the (N + 1) th layer of skylight glass; the (N + 1) th EVA cushion block also comprises a plurality of EVA cushion blocks;

the plurality of EVA cushion blocks contained in the first layer of EVA cushion block and the plurality of EVA cushion blocks contained in the (N + 1) th layer of EVA cushion block correspond to each other one by one, and projections of the EVA cushion blocks in the vertical direction, which have a corresponding relation, can be mutually superposed, wherein N is an integer greater than or equal to 1.

7. The skylight glass turnover box of claim 6, characterized in that a plurality of supporting protrusions (32) are further arranged on the top cover (3), and the upper end surfaces of the supporting protrusions (32) are not lower than the upper surface of the top cover (3);

the positions of the supporting protrusions (32) can correspond to the projection positions of the EVA cushion blocks in the vertical direction one by one.

8. The skylight glass turnover box according to claim 1, characterized in that after the skylight glass is placed in the skylight glass turnover box, the horizontal distance between the inner wall of the enclosure frame (2) and the outer edge of the skylight glass is 2-3mm.

9. The skylight glass turnaround box according to claim 1, wherein a fit clearance between the top cover (3) and the enclosure frame (2) is 0-2mm.

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