CN218464414U - Built-in packing structure for glass plate component of microwave oven - Google Patents

Abstract

The utility model discloses a built-in microwave oven glass tray component packaging structure, which comprises a first foam body, a second foam body, a glass tray, a roller component and a microwave oven; the first foam body and the second foam body are respectively provided with a first containing groove for partially containing the glass disc and a second containing groove for partially containing the roller assembly; after the glass disc is placed in the first accommodating groove and the roller assembly is placed in the second accommodating groove, the first foam body, the second foam body, the glass disc and the roller assembly form a glass disc packaging assembly; the glass tray package assembly is placed in and restrained in position by the oven cavity of the microwave oven. The utility model discloses a furnace chamber forms the activity restriction to glass dish package assembly, has avoided transporting the risk that collides with and the collision leads to damaging the furnace chamber between in-process glass dish package assembly and the microwave oven, has packaging structure simple, and packaging material materials are few, convenient operation, and assembly efficiency is high, can reduce packaging cost.

Description

Built-in packing structure for glass plate component of microwave oven

Technical Field

The utility model relates to the technical field of household appliance product packaging, in particular to a built-in microwave oven glass plate component packaging structure.

Background

The microwave oven is a common cooking appliance, and in order to improve the cooking effect of the microwave oven, the glass plate component is an essential accessory of the microwave oven. The packaging problem of the microwave oven and parts thereof must be considered in the process of transporting microwave oven products, the common packaging and transporting mode of the glass plate and the matched parts of the microwave oven is to package the glass plate and transport the glass plate in the oven cavity of the microwave oven, the two packaging modes are mainly divided into two modes at present, one mode is to put the glass plate and the matched parts of the glass plate into foam for fixing, then add a piece of paperboard for covering the surface, and finally seal the glass plate and the matched parts of the glass plate by using sealing adhesive tapes. The other method is to wrap the glass disc and the matched accessories together with paperboard and then seal the glass disc and the matched accessories by using a box sealing adhesive tape. The two packaging modes are respectively placed and packaged in different directions, the fixing is insufficient, the protection is not in place, the furnace chamber is easy to collide and damage in the transportation process, the product quality is influenced, and the unpacking by consumers is inconvenient. At present, the express delivery and receiving are basically used in the aspect of after-sale, and the express delivery and receiving are more difficult to package and place, so that the more serious secondary transportation collision is caused. The glass dish is placed in the furnace chamber outside at present, arranges product package foam top in, and the space that this kind of packaging method occupy is great relatively, has improved the production and packaging cost of enterprise, and is not good to the fixed effect of restriction of glass dish subassembly in addition, takes place to collide with easily in the transportation and collide with, leads to the product to damage, causes the unnecessary loss.

The invention discloses a device for placing a glass plate and accessories matched with the glass plate in a microwave oven cavity in a simple packaging mode. The device has simple and convenient packaging and firm fixing mode, and avoids the risk that the glass plate and the matched accessories are not firmly fixed to damage the furnace chamber. The placing device is simple in structure, convenient to operate and economical in cost.

Disclosure of Invention

The utility model provides a problem that exists to above-mentioned background and prior art method, provide a built-in microwave oven glass dish subassembly packaging structure, the technical scheme of the utility model is:

a built-in microwave oven glass tray assembly packaging structure comprises a first foam body, a second foam body, a glass tray, a roller assembly and a microwave oven; the first foam body and the second foam body are respectively provided with a first containing groove for partially containing the glass disc and a second containing groove for partially containing the roller assembly; after the glass disc is placed in the first accommodating groove and the roller assembly is placed in the second accommodating groove, the first foam body, the second foam body, the glass disc and the roller assembly form a glass disc packaging assembly; the glass tray package assembly is placed in a cavity of the microwave oven and is restrained in position by the cavity.

As the utility model discloses further explain, first storage tank and second storage tank next-door neighbour set up, the second holding is seted up one side or both sides of first storage tank.

Furthermore, the side wall of the first accommodating groove is provided with a plurality of clamping protrusions.

Furthermore, the clamping protrusions are arranged on two sides of the first accommodating groove, and the clamping protrusions are arranged in the first accommodating groove in an opposite mode or in a staggered mode.

Furthermore, the first foam body and/or the second foam body are provided with limiting notches for limiting the rotation amplitude of the roller assembly.

Furthermore, the furnace chamber is square furnace chamber, the maximum width of glass dish package assembly and the diagonal length adaptation of furnace chamber, glass dish package assembly slope is placed in the furnace chamber.

Furthermore, the other side of the first foam body and the second foam body, which is opposite to the first accommodating groove, is provided with a first positioning part which protrudes outwards, and the shape of the first positioning part is matched with that of the corner edge of the oven cavity.

Furthermore, the first foam body and the second foam body are also provided with second positioning parts, and the shapes of the second positioning parts are matched with the oven door.

Furthermore, a third positioning part is arranged on the other side of the first foam body and the second foam body, which is opposite to the second positioning part, and the shape of the third positioning part is matched with the rear wall of the oven cavity.

Still further, the first foam is structurally identical to the second foam.

The utility model has the advantages that:

the utility model discloses put into the microwave oven with the glass dish package assembly that first foam, second foam, glass dish and wheel components are constituteed, form the activity restriction to glass dish package assembly through the furnace chamber, including the activity restriction on upper and lower all around, left and right sides direction, avoided transporting in-process glass dish package assembly and microwave oven colliding with and colliding with, meanwhile, the activity restriction to the glass dish of first holding flute profile, the activity restriction to the wheel components of second holding flute profile pair, under the restriction and the protection of first foam and second foam, firmly fix the glass dish in the furnace chamber of microwave oven with its supporting accessory, avoided the risk that the glass dish is fixed insecure and is hit the furnace chamber of damaging with its supporting accessory; the packaging structure is simple, the material consumption of the packaging material is less, the operation is convenient, the assembly efficiency is high, the packaging cost of the glass plate component of the microwave oven can be effectively reduced, and the enterprise benefit is improved.

Drawings

FIG. 1 is a general schematic view of the built-in type microwave oven glass tray assembly packaging structure of the present invention;

FIG. 2 is a first foam structure view of the present invention;

fig. 3 is a schematic view of the glass disc package assembly of the present invention;

fig. 4 is a schematic diagram of the first foam of the present invention;

FIG. 5 is a view showing the assembly state of the glass tray package assembly and the microwave oven according to the present invention;

FIG. 6 is a diagram of the first foam of the present invention in a compressed state;

fig. 7 is a diagram illustrating a state of the second foam according to the present invention.

Reference numerals: the microwave oven comprises a first foam body 1, a glass plate 2, a roller assembly 3, a microwave oven 4, a second foam body 5, a second accommodating groove 101, a first accommodating groove 102, a clamping protrusion 103, a limiting notch 104, a second positioning part high-order surface 105, a second positioning part low-order surface 106, a first positioning part 107, a third positioning part high-order surface 108, a third positioning part low-order surface 109, a roller 301, an oven cavity 401, a right lower corner edge 402, a left upper corner edge 403, an oven door convex ring surface 404, an oven door concave surface 405, an oven cavity rear wall 406 and a convex hull surface 407.

Detailed Description

Example (b):

the embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and it is to be understood that the described embodiments are merely illustrative of some, but not all embodiments of the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

A built-in type microwave oven glass tray assembly packing structure as shown in fig. 1-7, comprising a first foam body 1, a second foam body 5, a glass tray 2, a roller assembly 3 and a microwave oven 4; the first foam body 1 and the second foam body are respectively provided with a first accommodating groove 102 for partially accommodating the glass disc 2 and a second accommodating groove 101 for partially accommodating the roller assembly 3; after the glass disc 2 is placed in the first accommodating groove 102 and the roller assembly 3 is placed in the second accommodating groove 101, the first foam body 1, the second foam body 5, the glass disc 2 and the roller assembly 3 form a glass disc packaging assembly; the glass tray package assembly is placed in the cavity 401 of the microwave oven 4 and is restrained in position by the cavity 401.

In the packaging process, the first foam body 1 is firstly sleeved on one side of the glass disc 2 and the roller assembly 3, so that one side of the glass disc 2 is embedded into the first accommodating groove 102, and one side of the roller assembly 3 is embedded into the second accommodating groove 101; then the other side executes the same operation, and the second foam body 5 is sleeved on the other side of the glass disc 2 and the roller assembly 3, so that the other side of the glass disc 2 is embedded into the first accommodating groove 102, and the other side of the roller assembly 3 is embedded into the second accommodating groove 101; the glass tray packaging assembly consisting of the first foam body 1, the second foam body 5, the glass tray 2 and the roller assembly 3 is placed into the microwave oven 4, the oven door of the microwave oven 4 is closed, the size of the glass tray packaging assembly formed by combination is matched with the oven cavity 401 of the microwave oven 4, namely the closed oven cavity 401 forms the movement limitation of the glass tray packaging assembly, the movement limitation comprises the movement limitation in the up-down, front-back, left-right directions, the collision between the glass tray packaging assembly and the microwave oven 4 in the conveying process is avoided, meanwhile, the first accommodating groove 102 forms the movement limitation of the glass tray 2, the second accommodating groove 101 forms the movement limitation of the roller assembly 3, under the limitation and protection of the first foam body 1 and the second foam body 5, the glass tray 2 and accessories matched with the glass tray 2 are firmly fixed in the oven cavity 401 of the microwave oven 4, and the risk that the glass tray 2 and the accessories matched with the glass tray 2 are firmly fixed and the oven cavity 401 is not firmly collided.

By adopting the first foam body 1 and the second foam body 5 which are in a split structure and shown in the attached drawings, the built-in type microwave oven glass disc component packaging structure has the advantages of simple packaging structure, less packaging material, convenience in operation and high assembly efficiency, can effectively reduce the packaging cost of the microwave oven glass disc component, and improves the enterprise benefit.

Specifically, in this embodiment, the first receiving groove 102 and the second receiving groove 101 are disposed adjacent to each other, and the second receiving groove 101 is disposed on both sides of the first receiving groove 102 in the embodiment shown in the drawings, so that the front and the back of the glass plate 2 may not be distinguished during assembling, and the roller assembly 3 may be assembled on any side of the glass plate 2 after assembling the glass plate 2, thereby simplifying the assembling operation of the glass plate 2 and the roller assembly 3, and improving the overall assembling efficiency.

The utility model discloses mainly form the activity restriction to glass dish 2 through first storage tank 102, consequently, first storage tank 102's width with glass dish 2's thickness looks adaptation, preferred embodiment are less than glass dish 2's thickness or are provided with the part that is less than glass dish 2 thickness. For example, in the embodiment shown in the drawings, the two side walls of the first accommodating groove 102 are oppositely provided with the clamping protrusions 103, the gap width between the two oppositely arranged clamping protrusions 103 is smaller than the thickness of the glass disc 2, because the first foam body 1 and the second foam body 5 are made of foam materials, the foam materials have large deformability, the glass disc 2 can be clamped into the first accommodating groove 102, and the clamping protrusions 103 tightly support the glass disc 2 after clamping, so that a better limiting and fixing effect on the glass disc 2 is formed, and the glass disc 2 is prevented from loosening in the conveying process. It is easy to understand that the opposite arrangement of the clamping protrusions 103 on the two sides of the first receiving groove 102 is only one of the feasible embodiments, and it is needless to say that other arrangement manners may be adopted, for example, the clamping protrusions 103 are arranged in a staggered manner, as long as the clamping and fixing function of the first receiving groove 102 on the glass disc 2 can be realized.

The utility model discloses mainly form the activity restriction to roller assembly 3 through second storage tank 101, in the embodiment put into first storage tank 102 at glass dish 2, under the state that roller assembly 3 put into second storage tank 101, form the activity restriction to roller assembly 3 through glass dish 2 and second storage tank 101. Different from the glass disc 2, the roller assembly 3 is provided with a plurality of rollers 301 which are easy to relatively rotate, for this reason, the embodiment is provided with a limiting notch 104 for limiting the rotation range of the roller assembly 3, one roller 301 of the roller assembly 3 is positioned in the limiting notch 104 in the assembling process, and the relative rotation range of the roller assembly 3 is not too large under the limitation of the limiting notch 104, so that the safety of the roller assembly 3 in the conveying process is improved.

As described above, the present invention places the glass tray package assembly in the cavity 401 of the microwave oven 4, and the restriction positioning of the glass tray package assembly is formed through the sidewall of the cavity 401. Preferably, as shown in the drawings, the maximum width of the glass tray packaging assembly is adapted to the diagonal length of the cavity 401, and the glass tray packaging assembly is obliquely placed in the cavity 401 when being assembled. The oven cavity 401 is a square oven cavity common to the existing microwave oven 4, the length of the diagonal line of the oven cavity 401 is larger than that of the side wall of the oven cavity 401, the glass tray package assembly coinciding with the diagonal line of the oven cavity 401 has a good limiting and positioning effect on the glass tray package assembly under the condition that the width of the glass tray package assembly substantially reaches the length of the diagonal line of the oven cavity 401, and the glass tray package assembly and the oven cavity 401 do not move relatively basically in the conveying process.

Preferably, a first positioning portion 107 protruding outwards is disposed on the other side of the first foam body 1 and the second foam body 5 opposite to the first receiving groove 102, and the shape of the first positioning portion 107 is adapted to the corner edge of the cavity 401. Specifically, referring to the drawings, after the glass tray packaging assembly is obliquely placed in the oven cavity 401, the first positioning portion 107 on the first foam body 1 abuts against the upper left corner edge 403 of the oven cavity 401, and the first positioning portion 107 on the second foam body 5 abuts against the lower right corner edge 402 of the oven cavity 401, so that the oven cavity 401 can form the limitation on the movement of the glass tray packaging assembly in the up-down and left-right directions.

Preferably, referring to the drawings, in the length direction of the first foam body 1 and the second foam body 5, a second positioning part is provided at one side, and a third positioning part is provided at the other side, wherein the shape of the second positioning part is adapted to the oven door, and the shape of the third positioning part is adapted to the oven cavity rear wall 406. Specifically, referring to the drawings, after the glass tray packaging assembly is obliquely placed in the oven cavity 401, the second positioning portion of the first foam body 1 abuts against the oven door, in the embodiment, the second positioning portion is in a step shape and is matched with a convex ring of the oven door, after the oven door is closed, the high-level surface 105 of the second positioning portion abuts against a concave surface 405 of the oven door, and the low-level surface 106 of the second positioning portion abuts against a convex ring surface 404 of the oven door. In the embodiment, the third positioning portion is also in a step shape and is matched with the convex hull of the oven cavity back wall 406, after the oven door is closed, the high-level surface 108 of the third positioning portion is abutted with the convex hull surface 407 of the oven cavity 401, and the low-level surface 109 of the third positioning portion is abutted with the oven cavity back wall 406. The second positioning part is abutted against the oven door, and the third positioning part is abutted against the oven cavity rear wall 406, so that the oven cavity 401 can form the movement limitation on the front and rear directions of the glass tray packaging assembly, and the glass tray packaging assembly is prevented from moving back and forth and colliding. The drawing shows a tight state diagram of the second foam body 5, which is the same as the tight state diagram of the first foam body 1, and is not repeated herein.

It can be seen from the above embodiments that, in some embodiments, the first foam body 1 and the second foam body 5 may be foam bodies having the same structure, and the first foam body 1 and the second foam body 5 have left-right symmetrical and up-down symmetrical structures, so that the direction does not need to be distinguished during use, and the foam bodies can be directly packaged and placed, and the production operation is simple, thereby facilitating simplification of the packaging process of the glass disc assembly of the microwave oven.

The foregoing is illustrative of the preferred embodiments of the present invention only, and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to be changed, and in short, all the changes made within the scope of the independent claims of the present invention are within the scope of the present invention.

Claims (10)

1. The utility model provides a built-in microwave oven glass tray subassembly packaging structure which characterized in that: comprises a first foam body, a second foam body, a glass disc, a roller assembly and a microwave oven; the first foam body and the second foam block body are respectively provided with a first accommodating groove for partially accommodating the glass disc and a second accommodating groove for partially accommodating the roller assembly; after the glass disc is placed in the first accommodating groove and the roller assembly is placed in the second accommodating groove, the first foam body, the second foam body, the glass disc and the roller assembly form a glass disc packaging assembly; the glass tray package assembly is placed in and restrained in position by the oven cavity of the microwave oven.

2. The built-in type microwave oven glass tray assembly packaging structure as set forth in claim 1, wherein: the first accommodating groove and the second accommodating groove are arranged in a manner of being adjacent to each other, and the second accommodating groove is formed in one side or two sides of the first accommodating groove.

3. The built-in microwave oven glass tray assembly packing structure of claim 2, wherein: the side wall of the first accommodating groove is provided with a plurality of clamping protrusions.

4. The built-in microwave oven glass tray assembly packing structure of claim 3, wherein: the clamping protrusions are arranged on two sides of the first accommodating groove and are arranged in opposite directions or in a staggered manner in the first accommodating groove.

5. The built-in microwave oven glass tray assembly packaging structure of claim 1, wherein: and the first foam body and/or the second foam body are provided with limiting notches for limiting the rotation amplitude of the roller component.

6. The built-in microwave oven glass tray assembly packaging structure of claim 1, wherein: the furnace chamber is square furnace chamber, the maximum width of glass dish package assembly and the diagonal length adaptation of furnace chamber, the slope of glass dish package assembly is placed in the furnace chamber.

7. The built-in microwave oven glass tray assembly packaging structure of claim 1, wherein: the other side of the first foam body and the other side of the second foam body, which are opposite to the first accommodating groove, are provided with first positioning parts which protrude outwards, and the shape of each first positioning part is matched with the corner edge of the oven cavity.

8. The built-in microwave oven glass tray assembly packaging structure of claim 1, wherein: still be provided with second location portion on first foam and the second foam, the shape and the furnace gate adaptation of second location portion.

9. The built-in microwave oven glass tray assembly packaging structure of claim 8, wherein: and a third positioning part is arranged on the other side of the first foam body and the second foam body, which is opposite to the second positioning part, and the shape of the third positioning part is matched with the rear wall of the oven cavity.

10. The built-in microwave oven glass tray assembly packaging structure of claim 8, wherein: the first foam body and the second foam body have the same structure.

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