CN220158105U - Oven body - Google Patents

Abstract

The oven body comprises a base, two first plate bodies and two second plate bodies, wherein the base is provided with two first pivoting parts and two second pivoting parts; defining two first axes and two second axes, wherein each first axis passes through each first pivoting part, and each second axis passes through each second pivoting part; in a height direction of the base, the two first axes and the two second axes are separated from each other. Each of the two first plate bodies and each of the second plate bodies are respectively pivoted to each of the first pivoting parts and each of the second pivoting parts. Through four axis positions in different heights for when folding the box, two first plate bodies can fold mutually, and two first plate bodies can fold mutually, effectively reduce the volume of box, in order to conveniently accomodate the box.

Description

Oven body

Technical Field

The utility model relates to a box body of an oven; in particular to a detachable and assembled box body.

Background

The existing oven comprises a box body and a heater, wherein a baking space is formed in the box body for placing objects to be baked, and the heater is arranged in the box body and is used for heating the baking space to heat the objects to be baked in the baking space.

Taking a household oven as an example, although the oven can bring convenience and fun for baking food, the oven body is composed of a plurality of plates, and the plates are fixedly connected, so that the shape of the oven body is fixed and occupies a considerable volume. When the oven needs to be moved, a user usually holds the oven body to move, which results in inconvenient movement. In addition, when the oven needs to be stored, the oven needs more storage space to store the oven because the oven occupies a considerable volume.

Because the oven is inconvenient to move and store, the oven is usually used and placed in a fixed position in a home, and is rarely used when people take the oven to camp outdoors.

Therefore, the design of the existing oven is not perfect and needs to be improved.

Disclosure of Invention

Accordingly, the present utility model is directed to a case of an oven, which can be disassembled and assembled, and the plates can be stacked when the case is folded, so as to reduce the volume.

The utility model provides a box body of an oven, comprising a base, two first plate bodies and two second plate bodies, wherein the base is provided with two first side parts and two second side parts, each first side part is provided with two first pivoting parts, and each second side part is provided with two second pivoting parts; defining two first axes and two second axes, wherein each first axis passes through the two first pivoting parts of each first side part, and each second axis passes through the two second pivoting parts of each second side part; the two first axes and the two second axes are separated from each other in a height direction of the base; the two first plate bodies are respectively provided with two first pivot lugs, the two first pivot lugs of each first plate body are respectively pivoted to the two first pivot parts of each first side part, each first plate body can pivot between a first folding position and a first assembling position relative to the base, and when each first plate body pivots to the first folding position, the two first plate bodies are overlapped in the height direction of the base; the second plate bodies are respectively provided with two second pivot lugs, the two second pivot lugs of each second plate body are respectively pivoted to the two second pivot parts of each second side part, each second plate body can pivot between a second folding position and a second assembling position relative to the base, and when each second plate body pivots to the second folding position, the two second plate bodies are overlapped in the height direction of the base; when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, the two first plate bodies and the two second plate bodies jointly enclose a baking space.

Therefore, when the box body is folded, the two first plate bodies are overlapped in the height direction of the base and the two first plate bodies are overlapped in the height direction of the base through the four axial lines, so that the volume of the box body can be effectively reduced, and the box body can be conveniently stored.

Drawings

Fig. 1 is a perspective view of an oven according to a first preferred embodiment of the present utility model.

Fig. 2 is a perspective view of the oven of the first preferred embodiment of the present utility model showing the door panel flipped down to an open position.

Fig. 3 is a perspective view of a base of a first preferred embodiment of the present utility model.

Fig. 4 is a partially exploded perspective view of the toaster of the first preferred embodiment of the present utility model.

Fig. 5 is a front view of the case of the first preferred embodiment of the present utility model.

Fig. 6 is a sectional view taken along the direction 6-6 of fig. 5, in which the grill is hidden.

Fig. 7 is a partial enlarged view of a portion a of fig. 6.

Fig. 8 is a schematic view showing the door panel flipped down to an open position.

Fig. 9 is a partial enlarged view of a portion B of fig. 6.

Fig. 10 is an exploded perspective view of the toaster of the first preferred embodiment of the present utility model, showing the case in an unfolded state.

Fig. 11 is a left side view of the case of the first preferred embodiment of the present utility model in an unfolded state.

Fig. 12 is a front view of the case of the first preferred embodiment of the present utility model in an unfolded state.

Fig. 13 is a front view of the case of the first preferred embodiment of the present utility model, showing two second panels collapsed.

Fig. 14 is a perspective view of the case of the first preferred embodiment of the present utility model, showing a first panel folded.

Fig. 15 is a perspective view of the cabinet of the first preferred embodiment of the present utility model, showing the placement of the grill.

Fig. 16 is a perspective view of the case of the first preferred embodiment of the present utility model, showing the other first panel folded.

Fig. 17 is a perspective view of the case of the first preferred embodiment of the present utility model, showing a state in which the case is folded.

Fig. 18 is a front view of the oven housing of an alternative embodiment of the present utility model, showing two second panels collapsed.

Fig. 19 is a front view of an oven according to a second preferred embodiment of the present utility model.

Fig. 20 is a sectional view taken along the direction 20-20 of fig. 19.

Fig. 21 is a perspective view of an oven according to a third preferred embodiment of the present utility model.

Fig. 22 is a perspective view of an oven according to a fourth preferred embodiment of the present utility model.

FIG. 23 is a perspective view of another view of the toaster according to a fourth preferred embodiment of the present utility model

Fig. 24 is a partially exploded perspective view of an oven in accordance with a fourth preferred embodiment of the present utility model.

Fig. 25 is a side view of an oven in accordance with a fourth preferred embodiment of the present utility model.

Fig. 26 is a sectional view taken in the direction 26-26 of fig. 25.

Fig. 27 is a partial enlarged view of a portion C of fig. 25.

Fig. 28 is a partial top view of an oven in accordance with a fourth preferred embodiment of the present utility model.

Fig. 29 is a front view of the toaster of the fourth preferred embodiment of the present utility model, showing the door opening.

Reference numerals illustrate:

1: oven with a baking oven

10: box body

12: base seat

14: first side part

142: first pivot joint part

144: resisting part

16: second side portion

162: second pin joint part

18: carrier plate

182: upper surface of

184: side edge

186: lower surface of

20: first support plate

202: first pin joint hole

204: second pin joint hole

206: extension section

22: second support plate

222: first pin joint hole

224: second pin joint hole

226: extension section

24: first pin joint frame

242: first pin joint hole

26: second pin joint frame

262: second pin joint hole

28: first plate body

282: first pivot ear

28a: a first inner surface

28b: a first outer surface

28c: side edge

28d: an inlet

30: door plank

302: outer surface

32: second plate body

322: second pivot ear

32a: a second inner surface

32b: second outer surface

32c: folded edge

34: top cover

36: heat source

38: roasting net

2: oven with a baking oven

40: supporting structure

402: positioning groove

3: oven with a baking oven

42: box body

44: first plate body

46: second plate body

48: base seat

50: top cover

4: oven with a baking oven

52: box body

54: top cover

542: gas joint

56: scald-proof handle

58: buckle

60: base seat

62: holding pad

64: first plate body

642: folded edge

642a: fastening hole

64a: a first outer surface

64b: concave part

66: second plate body

662: folded edge

664: convex part

666: fastening hole

68: door plank

68a: outer surface

70: handle for holding

702: free end

72: pin joint frame

722: pivot shaft

724: stop lever

A1a: a first axis

A1b: a first axis

A2a: a second axis

A2b: a second axis

F: bearing surface

P0: closed position

P1: open position

P11: first assembling position

P12: second set of positions

P21: a first unfolded position

P22: second deployed position

P31: first folding position

P32: second folding position

P41: first position

P42: second position

S1: baking space

S2, S3: accommodating space

θ: pivot angle

Detailed Description

In order to more clearly illustrate the present utility model, preferred embodiments will be described in detail below with reference to the accompanying drawings. Referring to fig. 1 to 17, an oven 1 according to a first preferred embodiment of the present utility model includes a case 10 and a heat source 36, wherein the case 10 is provided with an object to be baked therein, the heat source 36 is used for heating the interior of the case 10, and the heat source 36 may be, for example, a heater, such as a gas burner or an electric heater, but not limited thereto, and charcoal fire may be used as the heat source. The case 10 includes a base 12, two first plates 28 and two second plates 32.

The base 12 has four side portions, and the plurality of side portions includes two first side portions 14 and two second side portions 16, in this embodiment, the two first side portions 14 are located at opposite sides of the base 12, the two second side portions 16 are located at opposite sides of the base 12 and between the two first side portions 14, but not limited thereto, one first side portion 14 and one second side portion 16 may be located at opposite sides of the base 12, and the other first side portion 14 and the other second side portion 16 may be located at opposite sides of the base 12. Each of the first side portions 14 has two first pivoting portions 142 and a resisting portion 144, the two first pivoting portions 142 are located below the resisting portion 144, and each of the second side portions 16 has two second pivoting portions 162.

In more detail, referring to fig. 3, 11 and 12, the base 12 includes a carrier 18, a first support plate 20, a second support plate 22, two first pivot frames 24 and two second pivot frames 26. The carrier 18 is a rectangular plate and has four sides, and two opposite sides 184 of the carrier 18 respectively form the resisting portions 144 of the two first side portions 14. The first support plate 20 and the second support plate 22 are coupled to two other opposite sides of the carrier plate 18. The first support plate 20 has a first pivot hole 202 at one end and a second pivot hole 204 at the other end. The second support plate 22 has a first pivot hole 222 at one end and a second pivot hole 224 at the other end. The two first pivot holes 202 and 222 face each other, the second pivot holes 204 and 224 face each other, and the positions of the two first pivot holes 202 and 222 are higher than the positions of the two second pivot holes 204 and 224 in a height direction of the base 12. One end of the first support plate 20 and one end of the second support plate 22 form one of the first pivoting portions 142, and the other end of the first support plate 20 and the other end of the second support plate 22 form the other first pivoting portion 142, so that the first support plate 20 and the second support plate 22 together have two first pivoting portions 142 located below the carrier plate 18. Two first axes A1a, A1b are defined, wherein one of the first axes A1a passes through the two first pivot holes 202, 222, and the other first axis A1b passes through the two second pivot holes 204, 224. In other words, each of the first axes A1a, A1b passes through the two first pivoting portions 142 of each of the first side portions 14, and the two first axes A1a, A1b are spaced apart from each other in the height direction of the base 12.

The two first pivoting frames 24 and the two second pivoting frames 26 are respectively disposed at four corners of the upper surface 182 of the carrier 18, the two first pivoting frames 24 are adjacent to the first supporting plate 20, and the two second pivoting frames 26 are adjacent to the second supporting plate 22. The two first pivoting frames 24 are combined to the upper surface 182 of the carrier 18 and form one of the second pivoting portions 162, each of the first pivoting frames 24 has a first pivoting hole 242, and the two first pivoting holes 242 face each other. The two second pivoting frames 26 are combined to the upper surface of the carrier 18 and located at opposite sides of the two first pivoting frames 24, and the two second pivoting frames 26 form another second pivoting portion 162. Each of the second pivoting frames 26 has a second pivoting hole 262, and the second pivoting holes 262 face each other. In the height direction of the base 12, the positions of the two second pivot holes 262 are higher than the positions of the two first pivot holes 242. Therefore, the two first pivoting frames 24 and the two second pivoting frames 26 form two second pivoting portions 162 located above the carrier 18. Two second axes A2a, A2b are defined, wherein one of the second axes A2a passes through the first pivot holes 242 of the two first pivot frames 24, and the other of the second axes A2b passes through the second pivot holes 262 of the two second pivot frames 26. In other words, each of the second axes A2a, A2b passes through the two second pivoting portions 162 of each of the second side portions 16, and in the height direction of the base 12, the two second axes A2a, A2b are spaced apart from each other and the two first axes A1a, A1 b.

In this embodiment, the height of each second pivot frame 26 is higher than the height of each first pivot frame 24, and the first support plate 20 has an extension section 206, and the extension section 206 extends upward beyond the upper surface 182 of the carrier 18 and is located between the two first pivot frames 24 to cover the gap between the two first pivot frames 24. The second support plate 22 has an extension 226, and the extension 226 extends upward beyond the upper surface 182 of the carrier 18 and is located between the second pivot frames 26 to block the gap between the second pivot frames 26. The height of the extension 226 of the second support plate 22 is higher than the height of the extension 206 of the first support plate 20.

Referring to fig. 4 to 9, each first plate 28 has two first pivot lugs 282, and the two first pivot lugs 282 of each first plate 28 are respectively pivoted to the two first pivot portions 142 of each first side 14, so that each first plate 28 can pivot relative to the base. More specifically, two first pivot lugs 282 of one of the first plates 28 are respectively pivoted to the first pivot holes 202 and 222 of the first support plate 20 and the second support plate 22, and two first pivot lugs 282 of the other of the first plates 28 are respectively pivoted to the second pivot holes 204 and 224 of the first support plate 20 and the second support plate 22.

Each first plate 28 has a first inner surface 28a, a first outer surface 28b and two side edges 28c. In this embodiment, each of the first plate bodies 28 is a trapezoid plate, the side edges 28c thereof are inclined side edges, and the distance between the two side edges 28c is gradually reduced from bottom to top. When each first plate 28 is pivoted upward to a first assembling position P11, each first plate 28 is positioned obliquely against each resisting portion 144, that is, each first inner surface 28a abuts against a side 184 of the carrier 18. The first plates 28 can be stably positioned by their own weight without being supported by a user. When the two first plates 28 are located at the first assembling position P11, the first inner surfaces 28a of the two first plates 28 face each other, and the distance between the two first inner surfaces 28a gradually decreases from bottom to top. Each of the first plates 28 is flipped open away from the carrier 18, and each of the first plates 28 can be flipped to a first unfolded position P21 as shown in fig. 10.

In an embodiment, each of the first plates 28 is not limited to the inclined abutting portion 144, and may be positioned by other manners, such as magnetic attraction or clamping.

As shown in fig. 1 and 2, the first plate 28 at the front side of the oven 1 has an inlet 28d, and a door plate 30 is pivotally disposed on the first plate 28, and when the first plate 28 is pivoted to the first assembling position P11, the door plate 30 can pivot between a closed position P0 and an open position P1. As shown in fig. 1 and 7, when the door panel 30 is at the closing position P0, the door panel 30 is obliquely abutted against the first panel 28 and closes the inlet 28d. The inlet 28d is stably closed by the weight of the door panel 30 itself. As shown in fig. 2 and 8, when the door 30 is in the open position P1, the inlet 28d is opened, and an outer surface 302 of the door 30 is positioned against the bottom edge of the inlet 28d, and at this time, the door 30 is supported by the first plate 28 to be higher than the base 12, so that when the case 10 is placed on a bearing surface with a smaller area, the door 30 can be suspended without being supported by the bearing surface.

Each second plate 32 has two second pivot lugs 322, and the two second pivot lugs 322 of each second plate 32 are respectively pivoted to the two second pivoting portions 162 of each second side portion 16, so that each second plate 32 can pivot relative to the base 12. More specifically, two second pivot lugs 322 of one of the second plates 32 are respectively pivoted to two first pivot holes 242 of the first pivot frame 24, and two second pivot lugs 322 of the other of the second plates 32 are respectively pivoted to two second pivot holes 262 of the second pivot frame 26.

Each second plate 32 has a second inner surface 32a, a second outer surface 32b and two flanges 32c. In this embodiment, each of the second plate bodies 32 is a trapezoid plate, the two edges 32c are located at two sides of each of the second plate bodies, and the distance between the two edges 32c of each of the second plate bodies is gradually reduced from bottom to top. As shown in fig. 1 and 2, when each of the first plates 28 is pivoted to the first assembling position P11 and each of the second plates 32 is pivoted upward to a second assembling position P12, the two second plates 32 and the two first plates 28 together define a baking space S1. More specifically, the second inner surfaces 32a face each other, and the second inner surface 32a of each second plate 32 is inclined against one of the side edges 28c of the two first plates 28, and the distance between the second inner surfaces 32a is gradually reduced from bottom to top, so that the purpose of positioning the second plates 32 is achieved, and the user does not need to hold the second plates 32. It should be further noted that the folded edges 32c located at two sides of each second plate 32 are respectively abutted against the first outer surfaces 28b of the two first plates 28, thereby closing the gaps between the adjacent first plates 28 and the second plates 32. Each of the second plates 32 is flipped open away from the carrier 18, and each of the second plates 32 can be flipped to a second unfolded position P22 as shown in fig. 10.

In this embodiment, the case 10 further includes a top cover 34. When each first plate 28 is pivoted to the first assembling position P11 and each second plate 32 is pivoted to the second assembling position P12, the top cover 34 is detachably sleeved on top of the two first plates 28 and the two second plates 32 to close the top of the baking space S1, and the top cover 34 can limit each second plate 32 to the second assembling position P12. In the present embodiment, the heat source 36 (heater) of the oven 1 is disposed inside the top cover 34, but not limited thereto, a heat source such as a heater or charcoal fire may also be disposed on the carrier 18.

Preferably, the base 12, the two first plates 28, the two second plates 32, the door panel 30 and the top cover 34 are made of metal plates.

The oven 1 of the present embodiment further comprises a grill 38, wherein the grill 38 can be placed on the carrier 18, and the object to be baked can be placed on the grill 38, or the object to be baked can be placed on the carrier 18 directly after the grill 38 is removed from the carrier 18.

As shown in fig. 10, in the unfolded state of the case 10, the objects to be baked having a size larger than the inlet 28d can be placed on the carrier 18 or the baking net 38, and then the two first plates 28 are moved to the first assembling position P11 and the two second plates 32 are moved to the second assembling position P12, so that the objects to be baked having a larger size can be located in the baking space S1.

Referring to fig. 13 to 17, the steps of folding the case 10 will be described, in which each first plate 28 can pivot to a first folding position P31 relative to the base 12, and each second plate 32 can pivot to a second folding position P32 relative to the base 12.

As shown in fig. 13, each of the second plates 32 may be pivoted to the second folding position P32, and since the two second axes A2a, A2b are spaced apart from each other in the height direction of the base 12, the two second plates 32 can be stacked on the carrier 18, that is, one second plate 32 abuts against the upper surface 182 of the carrier 18, and the other second plate 32 abuts against the second outer surface 32b of the second plate 32.

As shown in fig. 14, after the base 12 is turned to the bottom up, the first plate 28 is pivoted to the first folding position P31, and the first plate 28 abuts against the lower surface 186 of the carrier 18, and the first inner surface 28a faces away from the lower surface 186 of the carrier 18. With continued reference to fig. 15, the grill net 38 is placed on the first plate 28. Next, as shown in fig. 16, the first plate 28 with the door 30 is pivoted to the first folding position P31, and since the two first axes A1a, A1b are spaced apart from each other in the height direction of the base 12, the two first plates 28 can be stacked on the carrier 18, that is, the first plate is capable of being folded. In addition, a space S2 is formed between the two first plates 28, and the space S2 is exemplified by accommodating the grill 38, but is not limited by accommodating the grill 38. In practice, the accommodating space S2 may be formed between one of the two first plates 28 closest to the carrier 18 and the carrier 18 for accommodating the baking net 38. Of course, the baking net 38 may also be moved to another accommodating space between the carrier 18 and one of the two second plates 32 closest to the carrier 32.

As shown in fig. 17, after the base 12 is turned upside down, each of the first plates 28 is located below the carrier 18, and each of the second plates 32 is located above the carrier 18. Therefore, the volume of the box body can be effectively reduced, and the box body is convenient to store or carry. The top cover 34 may be placed on the second plate 32 for storage or carrying therewith.

Fig. 18 shows an alternative embodiment of the case, where the heights of the first pivot frame 24 and the second pivot frame 26 are higher, so that when each of the second plates 32 is pivoted to the second folding position P32, a space S3 is formed between one of the second plates 32, which is close to the carrier 18, and the space S3 can accommodate the top cover 34, so that the position of the top cover 34 can be limited, and the case is more convenient to store and carry. In practice, the height of the second pivot frame 26 is increased, and the accommodating space S3 can be formed between the two second plates 32 for accommodating the top cover 34.

Fig. 19 and 20 show a toaster 2 according to a second preferred embodiment of the present utility model, which is based on the structure of the first preferred embodiment, wherein two support structures 40 are further disposed on the inner side of the top cover 34, and the two support structures 40 are disposed on opposite sides of the inner side of the top cover 34. When the top cover 34 is sleeved on the top of the two first plates 28, the top of the two first plates 28 are respectively inserted into the positioning slots 402 of the two supporting structures 40, so that the two supporting structures 40 respectively abut against the top of the two first plates 28, the top of each first plate 28 supports each supporting structure 40, and the lower part is supported by the abutment 144 of the base 12 to increase the strength of each first plate 28.

Fig. 21 shows an oven 3 according to a third preferred embodiment of the present utility model, which has a structure substantially the same as that of the first embodiment, except that each of the first plate 44 and each of the second plates 46 of the case 42 according to the present embodiment are rectangular plates. The folding state of the case 42 is similar to that of the first embodiment, that is, the two first plates 44 are stacked on the bottom of the base 48, and the second plates 46 are stacked on the top of the base 48, which is not repeated. In addition, each of the first plates 44 is vertically positioned against the resisting portion of the base 48, but not limited thereto, and may be positioned by other means, such as magnetic attraction or engagement. The support structure 40 of the second embodiment may also be provided inside the top cover 50 of the case 42 of the present embodiment to support the top of the first plate 44.

Fig. 22 to 29 show an oven 4 according to a fourth preferred embodiment of the present utility model, which has substantially the same structure as the first embodiment, except that:

the top cover 54 of the case 52 is provided with a gas connector 542 at the rear side thereof, and the gas connector 542 is connected to the heater for connecting with a gas source. Two sides of the top cover 54 are respectively connected with two anti-scalding handles 56, the two anti-scalding handles 56 can be made of heat insulation materials, such as wood, bakelite and the like, and the anti-scalding handle 70 can be used for a user to take the top cover 54.

In addition, as shown in fig. 23, two holding pads 62 are also disposed on two sides of the base 60, and the thickness of the two holding pads 62 is greater than that of the plate on two sides of the base 60, so that the user can hold the case 52 with two hands more comfortably.

The top cover 54 has at least two elastic buckles 58 inside, and at least two of the two first plates 64 and the two second plates 66 have at least one buckle hole 642a, 666 on top. In this embodiment, the number of snaps 58 is four and are located near the four corners of the top cover 54, respectively. Each of the first plates 64 has a flange 642 on both sides, a fastening hole 642a is formed on the top of each flange 642, and each fastening hole 642a forms an open side at the edge of each flange 642. Each of the second plates 66 also has a fastening hole 666 on both sides thereof near each of the flanges 662. Each of the first plate bodies 64 has a recess 64b on both sides of the first outer surface 64a, and each of the second plate bodies 66 has a protrusion 664 on the inner side of each of the flanges 666. Each of the concave portions 64b and each of the convex portions 664 are formed by press forming.

When each first plate 64 is located at the first assembling position P11 and each second plate 66 is located at the second assembling position P12, each protrusion 664 enters each recess 64b to form a positioning manner with concave-convex matching, so that each first plate 64 and each second plate 66 are not easy to move due to external force. Further, as shown in fig. 25 to 27, wherein the second plate 66 is partially removed in fig. 27 to show the buttonhole 642a. The fastening holes 642a of the flanges 642 of the first plates 64 correspond to the fastening holes 666 of the second plates 66, so that when the top cover 54 is sleeved on top of the two first plates 64 and the two second plates 66, the cambered surfaces at the bottom of the fasteners 58 elastically deform along the top edges of the second plates 66 and/or the first plates 64, so that the fasteners 58 can extend into the fastening holes 642a, 666 to be fastened with the fastening holes 642a, 666, so as to avoid the top cover 54 from loosening. It should be further noted that each of the buckles 58 may form a supporting structure, so that the hole edge of the buckling hole 642a of the folded edge 642 of each of the first plates 64 may be located at the side of each of the buckles 58, so that when each of the first plates 64 is pushed by an external force, the hole edge of each of the buckling holes 642a may abut against the side of each of the buckles 58, thereby increasing the strength of each of the first plates 64.

When the top cover 54 is to be removed, each of the buckles 58 is pushed inward, and the top cover 54 is pulled upward, so that the top cover 54 can be removed.

The door 68 is provided with a handle 70, in this embodiment, the handle 70 is disposed on the outer surface 68a of the door 68 by a pivot frame 72, and the handle 70 may be made of a heat-insulating material, such as wood, bakelite, etc. As shown in fig. 28, the pivot frame 72 has a pivot 722 and a bar 724, the handle 70 is pivoted to the pivot 722, and the bar 724 is located at one side of the pivot 722. The handle 70 is pivotable between a first position P41 and a second position P42, a free end 702 of the handle 70 is close to the door panel when the handle 70 is in the first position P41, the free end 702 of the handle 70 is far from the outer surface 68a of the door panel 68 when the handle 70 is in the second position P42, and the other side of the handle 70 is abutted against the stop lever 724 to limit a pivot angle θ of the handle 70. The pivot angle θ of the handle 70 between the first position P41 and the second position P42 is greater than 90 degrees, preferably between 110 and 130 degrees, and the pivot angle θ is substantially 120 degrees in this embodiment.

The user may pull the handle 70 to flip the door panel 68 down. As shown in fig. 29, when the door 68 is then in the open position P1 and the handle 70 is in the second position P42, the free end 702 of the handle 70 abuts against a bearing surface F. Thus, the handle 70 forms a support for the door 68, increasing the load-bearing capacity of the door 68, allowing a user to temporarily place food, cookware, or grill on the open door 68.

The foregoing description is only illustrative of the preferred embodiments of the present utility model, and is therefore intended to be encompassed by the following claims as applied to the full scope of equivalents of the present utility model.

Claims (20)

1. A cabinet for an oven, comprising:

the base is provided with two first side parts and two second side parts, wherein each first side part is provided with two first pivoting parts, and each second side part is provided with two second pivoting parts; defining two first axes and two second axes, wherein each first axis passes through the two first pivoting parts of each first side part, and each second axis passes through the two second pivoting parts of each second side part; the two first axes and the two second axes are separated from each other in a height direction of the base;

the first plate bodies are respectively provided with two first pivot lugs, the two first pivot lugs of each first plate body are respectively pivoted to the two first pivot parts of each first side part, each first plate body can pivot between a first folding position and a first assembling position relative to the base, and when each first plate body pivots to the first folding position, the two first plate bodies are overlapped in the height direction of the base; and

the second plate bodies are respectively provided with two second pivot lugs, the two second pivot lugs of each second plate body are respectively pivoted to the two second pivot parts of each second side part, each second plate body can pivot between a second folding position and a second assembling position relative to the base, and when each second plate body pivots to the second folding position, the two second plate bodies are overlapped in the height direction of the base;

when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, the two first plate bodies and the two second plate bodies jointly enclose a baking space.

2. The oven of claim 1 wherein said base comprises a carrier; the two first pivoting parts are positioned below the carrier plate; the two second pivoting parts are positioned above the carrier plate; when each first plate body is pivoted to the first folding position, each first plate body is positioned below the carrier plate; when each second plate body is pivoted to the second folding position, each second plate body is positioned above the carrier plate.

3. The oven cabinet of claim 2, wherein said first side portions are located on opposite sides of said base, each of said first panels having a first inner surface and two sides, each of said second panels having a second inner surface; wherein each first side part of the base is provided with a resisting part, and each first plate body is abutted against each resisting part to be positioned when pivoted to the first assembling position; when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, the two first inner surfaces face each other, the two second inner surfaces face each other, and the second inner surface of each second plate body abuts against one side edge of the two first plate bodies.

4. The oven of claim 3, wherein the base comprises two first pivoting frames, two second pivoting frames, a first supporting plate and a second supporting plate, wherein the two first pivoting frames are combined on the upper surface of the carrier plate and form one second pivoting portion, the two second pivoting frames are combined on the upper surface of the carrier plate and are positioned on opposite sides of the two first pivoting frames, and the two second pivoting frames form the other second pivoting portion; the first support plate and the second support plate are combined on two opposite side edges of the carrier plate, one end of the first support plate and one end of the second support plate form one of the first pivoting parts, and the other end of the first support plate and the other end of the second support plate form the other first pivoting part.

5. The oven of claim 4 wherein said second support plate is adjacent to said two second pivot brackets and said second support plate has an extension, said extension being located between said two second pivot brackets.

6. The oven cabinet of claim 3, wherein each of said first panels is positioned obliquely against each of said abutments when pivoted to said first assembled position.

7. The oven of claim 6 wherein one of said first plates has an inlet and a door panel is pivotally mounted to said first plate, said door panel being pivotable between a closed position and an open position when said first plate is pivoted to said first assembled position, said door panel being positioned in said closed position to obliquely abut said first plate and close said inlet, said door panel being positioned in said open position to open said inlet.

8. The oven cabinet of claim 7, wherein an outer surface of said door panel is positioned against a bottom edge of said inlet when said door panel is in said open position.

9. The toaster case of claim 7, wherein said door panel is provided with a handle pivotable between a first position in which a free end of said handle is adjacent said door panel and a second position in which said free end of said handle is remote from said door panel; when the door plate is positioned at the opening position and the handle is positioned at the second position, the free end is propped against a bearing surface.

10. The oven housing of claim 9 wherein a pivot angle of said handle between said first position and said second position is greater than 90 degrees.

11. The oven of claim 3 wherein said carrier has two sides, said two sides forming two said abutments.

12. The oven of claim 3 wherein each of said first panels has a first outer surface and each of said second panels has a flange on each side thereof; when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, two folding edges of each second plate body are respectively abutted against the first outer surfaces of the two first plate bodies.

13. The oven of claim 12 wherein each of said flanges of each of said second panels has a convex portion on an inner side thereof and a concave portion on each of opposite sides of said first outer surface of each of said first panels; when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, each convex part and each concave part are matched and positioned.

14. The oven of claim 2 wherein each of said first panels defines a receiving space therebetween when pivoted to said first stowed position.

15. The oven of claim 2 wherein each of said first plates defines a receiving space with said carrier when pivoted to said first stowed position.

16. The oven cabinet of claim 2, comprising a top cover; when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, the top cover is detachably sleeved on the tops of the two first plate bodies and the two second plate bodies; when each second plate body is pivoted to the second folding position, a containing space is formed between one of the second plate bodies and the carrier plate, and the containing space can be used for containing the top cover.

17. The oven cabinet of claim 2, comprising a top cover; when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, the top cover is detachably sleeved on the tops of the two first plate bodies and the two second plate bodies; when each second plate body is pivoted to the second folding position, an accommodating space is formed between the two second plate bodies, and the accommodating space can be used for accommodating the top cover.

18. The oven cabinet of claim 1, comprising a top cover; when each first plate body is pivoted to the first assembling position and each second plate body is pivoted to the second assembling position, the top cover is detachably sleeved on the tops of the two first plate bodies and the two second plate bodies.

19. The oven of claim 18 wherein said top cover has two support structures on an inner side thereof, said two support structures respectively resisting said two first plates when said top cover is sleeved on top of said two first plates.

20. The oven housing of claim 18 wherein said top cover has at least two snaps on an inside thereof; at least one buckling hole is formed in the top of at least two of the two first plate bodies and the two second plate bodies; when the top cover is sleeved on the tops of the two first plate bodies and the two second plate bodies, each buckle stretches into each buckle hole.