CN218347255U - Furnace door assembly and cooking equipment - Google Patents

Abstract

The utility model discloses an oven door assembly and cooking equipment relates to cooking equipment technical field, and wherein the oven door assembly includes the door body, two at least locating racks and at least one first glass, at least two the locating rack is located the door body is followed the fore-and-aft direction of the door body is arranged, first glass installs in adjacent two between the locating rack, wherein, adjacent two in the locating rack, at least one the one end of locating rack is towards another one the locating rack is buckled in order to form the kink, kink elasticity butt in first glass's glass face. The utility model discloses a furnace gate subassembly and cooking equipment, the resilience force that the kink produced can act on first glass's glass face to can support tight first glass, make first glass installation more firm.

Description

Furnace door assembly and cooking equipment

Technical Field

The utility model relates to a cooking equipment technical field, in particular to furnace gate subassembly and cooking equipment.

Background

The doors of cooking devices such as microwave ovens, steam ovens, etc. are generally provided with glass, which plays a role in heat insulation and observation. Among the correlation technique, the furnace gate sets up a plurality of locating racks along self fore-and-aft direction, and glass installs between two adjacent locating racks, and this kind of mounting means compares in fixing glass through silica gel, can avoid silica gel to volatilize and carbonize because of high temperature in the stove. However, in the using process, the situation that the positioning frame cannot be tightly attached to the glass easily occurs due to the influence of processing precision, mounting precision and the like, and further the glass is not firmly mounted.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a furnace door assembly for the glass installation is more firm.

The utility model discloses still provide a cooking equipment who has above-mentioned furnace gate subassembly.

According to the utility model discloses furnace gate subassembly of first aspect embodiment, it includes the door body, two at least locating rack and at least one first glass, at least two the locating rack is located the door body is followed the fore-and-aft direction of the door body is arranged, first glass is installed in adjacent two between the locating rack, wherein, adjacent two in the locating rack, at least one the one end orientation another of locating rack is buckled in order to form the kink, kink elasticity butt in first glass's glass face.

According to the utility model discloses furnace gate subassembly has following beneficial effect at least:

the utility model discloses furnace gate subassembly when needing to install first glass, installs one of them locating rack in the door body, then with this locating rack of a first glass laminating, later installs second locating rack, later installs other first glass and locating rack in proper order again, can realize first glass's installation. According to the utility model discloses furnace gate subassembly, in two adjacent locating racks, the one end that has at least a locating rack is buckled in order to form the kink towards another locating rack, kink elasticity butt in first glass, and then the resilience force that the kink produced can act on first glass's glass face to can support tight first glass, make first glass installation more firm.

According to some embodiments of the utility model, the kink includes changeover portion and free segment, the free segment for the changeover portion orientation the angle that first glass was buckled is greater than 90, the free segment deviates from one side elasticity butt of changeover portion in first glass's glass face.

According to the utility model discloses a some embodiments, two adjacent in the locating rack, there is at least one the locating rack bending type is formed with location portion, location portion elasticity butt in first glass's lateral wall.

According to the utility model discloses a some embodiments, location portion bending type becomes the changeover portion.

According to some embodiments of the utility model, at least part location portion includes linkage segment and butt section, the butt section for the linkage segment orientation the angle that first glass was buckled is greater than 90, the butt section deviates from one side elasticity butt of linkage segment the lateral wall of first glass.

According to some embodiments of the present invention, all the positioning frames are connected together by a fastening member, and the fastening member extends in the front-rear direction of the door body.

According to some embodiments of the utility model, the vertical mounting panel that is equipped with of locating rack, all the mounting panel is followed the fore-and-aft direction of the door body is arranged, adjacent two the mounting panel is laminated mutually, all the mounting panel passes through the fastener links together.

According to some embodiments of the present invention, two of the adjacent spacers, one of the spacers faces the other spacer and is bent to form the bending portion, and the other spacer has a fitting portion, and the fitting portion abuts against the glass surface of the first glass deviating from the bending portion.

According to the utility model discloses a some embodiments, all first glass is located the front side of the door body, the rear side of the door body is equipped with the heavy platform of annular, the heavy platform of annular is interior to be installed second glass, the rear side of the door body is equipped with the flitch, the flitch laminating in the glass face of second glass rear side.

According to some embodiments of the utility model, the heavy platform of annular is equipped with the annular concave position, install the sealing washer in the annular concave position, the sealing washer laminate in the edge of second glass.

According to the utility model discloses cooking equipment of second aspect embodiment, including the furnace gate subassembly of above embodiment.

According to the utility model discloses cooking equipment has following beneficial effect at least:

by adopting the oven door assembly of the embodiment of the first aspect, one end of at least one of the two adjacent positioning frames is bent towards the other positioning frame to form a bent part, the bent part is elastically abutted against the first glass, and then the resilience force generated by the bent part can act on the glass surface of the first glass, so that the first glass can be abutted against the first glass, and the glass can be more firmly installed.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

figure 1 is a schematic structural view of an oven door assembly according to an embodiment of the present invention;

FIG. 2 is another perspective view of the furnace door assembly of FIG. 1;

FIG. 3 is a cross-sectional view of the furnace door assembly of FIG. 1;

FIG. 4 is a schematic structural view of the first positioning frame of FIG. 3;

FIG. 5 is a schematic structural view of the second positioning frame of FIG. 3;

FIG. 6 is a schematic view of a third positioning frame shown in FIG. 3;

FIG. 7 is a cross-sectional view of the furnace door assembly of FIG. 1;

fig. 8 is an enlarged view of fig. 7 at a.

Reference numerals:

a door body 100; an annular sinking platform 101; a flitch plate 102; an annular recess 103; a seal ring 104; a seal ring 105; a fixed ring 106; a door hook 107; a door spindle plate 108; a rotating shaft 109;

a positioning frame 200; a bending portion 201; a transition section 202; a free section 203; a positioning section 204; a connecting section 205; an abutment section 206; a mounting plate 207; a fitting portion 208;

a first glass 300;

a second glass 400.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, inner, outer, top, bottom, etc., is the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of the description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present invention, a plurality means two or more. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the terms such as setting, installing, connecting, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meaning of the terms in the present invention by combining the specific contents of the technical solution.

Cooking devices such as microwave ovens, and steam ovens are generally provided with oven doors on which glass is mounted for insulating, protecting, and viewing purposes. Traditional furnace gate, glass are fixed in the furnace gate through silica gel on, but fix through silica gel, not only inconvenient change glass, can not adjust glass quantity according to actual demand moreover, in addition, when producing high temperature in the cooking equipment, silica gel volatilizees and the carbonization because of high temperature easily, and then produces harmful substance.

Among the correlation technique, the furnace gate sets up a plurality of locating racks along self fore-and-aft direction, and glass installs between two adjacent locating racks, and this kind of mounting means compares in fixing glass through silica gel, not only conveniently changes glass, can adjust glass quantity through the quantity of adjustment locating rack moreover, can avoid silica gel to volatilize and the carbonization because of high temperature in addition. However, in the using process, the situation that the positioning frame cannot be tightly attached to the glass easily occurs due to the influences of processing precision, mounting precision and the like, so that the glass is not firmly mounted, the sealing performance is influenced, and the glass is easy to damage due to shaking.

An oven door assembly and a cooking apparatus according to embodiments of the present invention are described below with reference to fig. 1 to 8.

According to the utility model discloses furnace gate subassembly of first aspect embodiment, including the door body 100, two at least locating rack 200 and at least one first glass 300, two at least locating rack 200 locate the door body 100 and arrange along the fore-and-aft direction of the door body 100, and first glass 300 is installed between two adjacent locating rack 200, and wherein, in two adjacent locating rack 200, the one end that has at least one locating rack 200 is buckled in order to form kink 201 towards another one locating rack 200, kink 201 elasticity butt in the glass face of first glass 300.

For example, as shown in fig. 3, 7 and 8, the door body 100 may be a frame structure penetrating front and back, the number of the positioning frames 200 may include three, the first positioning frame 200 is disposed on the front side of the oven door, the second positioning frame 200 is disposed on the front side of the first positioning frame 200, the third positioning frame 200 is disposed on the front side of the second positioning frame 200, the first glass 300 is disposed between the first positioning frame 200 and the second positioning frame 200, and the first glass 300 is disposed between the second positioning frame 200 and the third positioning frame 200. The second positioning frame 200 is bent towards the first positioning frame 200 to form a bent portion 201, the third positioning frame 200 is bent towards the second positioning frame 200 to form a bent portion 201, and the two bent portions 201 are elastically abutted to the glass surfaces on the front sides of the two first glasses 300 respectively. The locating rack 200 may include an upper support and a lower support, the upper support and the lower support may be symmetrically disposed with respect to a horizontal plane, the top end of the first glass 300 is installed between two adjacent upper supports, the bottom end of the first glass 300 is installed between two adjacent lower supports, both the upper support and the lower support of the locating rack 200 formed with the bending portion 201 may be provided with the bending portion 201, and two bending portions 201 of the same locating rack 200 elastically abut against glass surfaces of the top end and the bottom end of the first glass 300.

The utility model discloses when the furnace gate subassembly need install first glass 300, install one of them locating rack 200 in door body 100, then laminate this locating rack 200 with a first glass 300, later install second locating rack 200, later install other first glass 300 and locating rack 200 in proper order again, can realize the installation of first glass 300. According to the utility model discloses in the furnace gate subassembly, two adjacent locating racks 200, have at least one locating rack 200 one end to buckle in order to form kink 201 towards another locating rack 200, kink 201 elasticity butt in first glass 300, and then the resilience force that kink 201 produced can act on the glass face of first glass 300 to can support tight first glass 300, make the glass installation more firm. Of course, compare in through the fixed glass of silica gel, the utility model discloses a locating rack 200 installs the location to first glass 300, not only conveniently changes first glass 300, can adjust first glass 300 quantity moreover through the quantity of adjustment locating rack 200, can avoid silica gel to volatilize and the carbonization because of high temperature in addition.

It should be noted that the number of the positioning frames 200 may be other than two, for example, in this case, one first glass 300 is provided, and of course, four or more positioning frames 200 may be provided, and in this case, three or more first glasses 300 are provided. The front-rear direction of the door 100 means that the direction toward the inner cavity of the cooking appliance is the rear direction and the direction toward the user is the front direction after the door 100 is mounted on the cooking appliance. In two adjacent spacers 200, one end of the spacer 200 near the rear side may be bent toward the spacer 200 near the front side to form a bent portion 201, and then the bent portion 201 elastically abuts against the glass surface at the rear side of the first glass 300, of course, the two spacers 200 may be bent in opposite directions to form the bent portion 201, and then the two glass surfaces at the front and rear sides of the first glass 300 are elastically abutted by the bent portion 201. Since the first glass 300 has a plate-like structure, the glass surface of the first glass 300 is the plate surface of the first glass 300. The positioning frame 200 may have other structures, for example, a left bracket and a right bracket may be included, the left bracket and the right bracket are disposed on both sides of the first glass 300, and in addition, the positioning frame 200 may have an integral square frame structure. The spacer 200 may be made of various materials, for example, the spacer 200 having a high quality requirement may be made of SUS304, i.e., 304 stainless steel, and the spacer 200 having a lower quality requirement may be made of SUS430, i.e., 430 stainless steel.

In some embodiments of the present invention, as shown in fig. 8, the bending portion 201 includes a transition section 202 and a free section 203, the transition section 202 can be parallel to the glass surface of the first glass 300, the free section 203 is greater than 90 ° relative to the bending angle of the transition section 202 towards the first glass 300, a gap is reserved between the free section 203 and the transition section 202, and one side of the free section 203 departing from the transition section 202 is elastically abutted to the first glass 300. Specifically, changeover portion 202 and free section 203 all can be for platelike structure, the face of changeover portion 202 can be vertical setting and the parallel glass face of first glass 300, the angle that free section 203 buckled for changeover portion 202 can be 180, and then the same vertical setting of face of free section 203 and the parallel glass face of first glass 300, and then free section 203 is the glass face of the first glass 300 of face laminating, not only it is better to support the effect of tight first glass 300, and first glass 300 atress is more even, can reduce first glass 300 and receive the damage. In addition, the angle that free section 203 buckled for changeover portion 202 is greater than 90, and then the resilience force that produces is bigger, and the resilience force is towards first glass 300 to it is better to the tight effect of supporting of first glass 300, and in addition, reserve between free section 203 and the changeover portion 202 and have the clearance, and the effect of free section 203 elasticity butt first glass 300 is better.

It should be noted that the free segment 203 may be bent toward the first glass 300 relative to the transition segment 202 at other angles, for example, at 120 °, 140 ° or 160 °, and the specific bending angle is determined according to actual conditions.

Further, as shown in fig. 8, one of the two adjacent spacers 200 is bent toward the other spacer 200 to form a bent portion 201, and the other spacer 200 has an engaging portion 208, and the engaging portion 208 abuts against a glass surface of the first glass 300 away from the bent portion 201. That is, only one of the two adjacent spacers 200 is provided with a bending portion 201 bending toward the other spacer 200, and the other spacer 200 is provided with a matching portion 208 to match with the bending portion 201 to mount the first glass 300, so that the first glass 300 is mounted and positioned, and meanwhile, the structure of part of the spacers 200 is relatively simple.

In order to enable the matching portion 208 to better abut against the glass surface of the first glass 300, which is away from the bending portion 201, the matching portion 208 may be a plate-shaped structure and parallel to the glass surface of the first glass 300, so that not only the effect of abutting against the first glass 300 is better, but also the stress on the first glass 300 is more uniform, and the damage to the first glass 300 can be reduced.

In some embodiments of the present invention, as shown in fig. 8, at least one of the two adjacent spacers 200 is bent to form a positioning portion 204, and the positioning portion 204 elastically abuts against the side wall of the first glass 300. Specifically, the positioning portion 204 may be a plate-shaped structure, a plate surface of the positioning portion 204 may be parallel to a sidewall of the first glass 300, and the positioning portion 204 elastically abuts against the sidewall of the first glass 300, so that the first glass 300 can be positioned more stably, and the damage to the sidewall of the first glass 300 can be reduced.

It should be noted that, in two adjacent spacers 200, at least one spacer 200 is bent to form the positioning portion 204, for example, one of the spacers 200 may be bent to form the positioning portion 204, specifically, the same spacer 200 may be bent to form two positioning portions 204, and the two positioning portions 204 elastically abut against two opposite sides of the first glass 300; of course, the positioning portions 204 may be formed by bending both of the positioning frames 200, wherein the positioning portion 204 on one of the positioning frames 200 elastically abuts against one side of the first glass 300, and the positioning portion 204 on the other positioning frame 200 elastically abuts against the other side of the first glass 300.

Further, as shown in fig. 8, the positioning portion 204 is bent to form the transition section 202. The transition section 202 is formed by directly bending the positioning part 204, the transition section 202 is bent to form the free section 203, and the positioning part 204, the transition section 202 and the free section 203 are integrated, so that the structure is simpler, and the processing is more convenient.

It should be noted that, in some other embodiments of the present invention, the transition section 202 may not be formed by bending the positioning portion 204, and in addition, the transition section 202 and the positioning portion 204 may not be located on the same positioning frame 200.

Further, as shown in fig. 8, at least part of the positioning portion 204 includes a connecting section 205 and an abutting section 206, the connecting section 205 may be parallel to the side wall of the first glass 300, the abutting section 206 is bent towards the first glass 300 by an angle greater than 90 ° relative to the connecting section 205, one side of the abutting section 206 facing away from the connecting section 205 elastically abuts against the side wall of the first glass 300, and a gap is reserved between the abutting section 206 and the connecting section 205. Specifically, linkage segment 205 and butt section 206 all can be platelike structure, linkage segment 205 can be located first glass 300's week side, and linkage segment 205's face can be parallel to first glass 300's lateral wall, butt section 206 can be 180 for the angle that linkage segment 205 buckles, and then butt section 206's face is the same parallel to first glass 300's lateral wall, and then butt section 206 is the lateral wall of the first glass 300 of face laminating, not only the effect of tightly propping up first glass 300 lateral wall is better, and first glass 300 atress is more even, can reduce first glass 300 and receive the damage. In addition, the angle that butt section 206 is buckled for connecting section 205 is greater than 90 °, and then the resilience force that produces is bigger, and the resilience force is towards first glass 300 to it is better to the tight effect of support of first glass 300, and in addition, reserve between butt section 206 and the connecting section 205 and have the clearance, and the effect of the first glass 300 lateral wall of butt section 206 elasticity butt is better.

It should be noted that the abutting section 206 may be bent toward the first glass 300 relative to the connecting section 205 at other angles, for example, may be bent at 120 °, 140 ° or 160 °, and the specific bending angle is determined according to actual conditions. Part of the positioning portion 204 may include the connecting section 205 and the abutting section 206, or all of the positioning portion 204 may include the connecting section 205 and the abutting section 206.

Further, as shown in fig. 7 and 8, the positioning portion 204 elastically abuts against the upper side wall or the lower side wall of the first glass 300. Specifically, the same positioning frame 200 may be bent to form two positioning portions 204, and the two positioning portions 204 on the same positioning frame 200 respectively elastically abut against the upper sidewall and the lower sidewall of the first glass 300. Further, the impact force between the first glass 300 and the door body 100 due to the self gravity can be reduced, and the damage to the first glass 300 can be further reduced.

When the positioning portion 204 elastically abuts against the upper sidewall or the lower sidewall of the first glass 300, the positioning portion 204 can extend along the left and right directions of the first glass 300, and thus the effect of abutting against the sidewall of the first glass 300 is better. When the positioning portion 204 is bent to form the transition section 202, the bent portion 201 formed by the transition section 202 and the free section 203 may extend along the left and right directions of the first glass 300 to further contact the glass surface of the first glass 300. Of course, the positioning portions 204 may be left and right sidewalls that abut against the first glass 300, and the positioning portions 204 may be peripheral sidewalls that abut against the first glass 300. In addition, the positioning portions 204 of the different positioning frames 200 may elastically abut against the upper sidewall and the lower sidewall of the first glass 300, respectively.

When the positioning portion 204 elastically abuts against the upper sidewall or the lower sidewall of the first glass 300, the door body 100 is provided with a mounting recess, the first glass 300 is mounted in the mounting recess, and the left and right sidewalls of the first glass 300 abut against the left and right sidewalls of the mounting recess. Because the positioning portion 204 is elastically abutted to the upper side wall or the lower side wall of the first glass 300, the first glass 300 can be installed and positioned only by abutting the left side wall and the right side wall of the installation concave position to the left side wall and the right side wall of the first glass 300, and other positioning structures are not required to be arranged to position the left side wall and the right side wall of the first glass 300, so that the structure is simpler, and the positioning is more convenient.

In some embodiments of the present invention, as shown in fig. 8, all the spacers 200 are connected together by fasteners, and the fasteners extend in the front-rear direction of the door body 100. In this embodiment, all locating racks 200 link together through the fastener, make things convenient for dismouting locating rack 200, and then not only conveniently change locating rack 200, conveniently adjust first glass 300 quantity moreover through the quantity of adjustment locating rack 200. Because at least two locating racks 200 are arranged along the fore-and-aft direction of the door body 100, in this embodiment, the fastener extends along the fore-and-aft direction of the door body 100, and then the dismouting locating rack 200 is more convenient.

The fastener may be a screw, a bolt, or the like. The number of the fasteners may be plural to facilitate more stable installation of the spacer 200. The positioning frame 200 close to the door body 100 can be installed on the door body 100, and the rest positioning frames 200 are installed on the positioning frame 200 close to the door body 100 through fasteners; all the positioning frames 200 may be mounted on the door body 100 by fasteners.

In the further embodiment of the present invention, as shown in fig. 8, the positioning frame 200 is vertically provided with mounting plates 207, all the mounting plates 207 are arranged along the front and back direction of the door body 100, two adjacent mounting plates 207 are attached to each other, and all the mounting plates 207 are connected together through fasteners. For example, when the positioning frame 200 includes an upper bracket and a lower bracket, the upper bracket may be vertically provided with an upper connection plate, the lower bracket may be vertically provided with a lower connection plate, the upper connection plate and the lower connection plate are coplanar and constitute the mounting plate 207, all the upper connection plates are attached to each other and connected by a fastener, and the lower connection plates are attached to each other and connected by a fastener. So set up, it is more convenient not only to install locating rack 200, and installation locating rack 200 back moreover, and locating rack 200 is more firm. It should be noted that the mounting plate 207 may also be a unitary structure, for example, when the positioning frame 200 is a square frame structure, the mounting plate 207 may extend along the circumferential direction of the positioning frame 200. In addition, the fitting portion 208 can be formed by a partial structure of the partial mounting plate 207 without additionally providing the fitting portion 208, and the structure is simpler.

In some embodiments of the present invention, as shown in fig. 8, all the first glasses 300 are located at the front side of the door body 100, the rear side of the door body 100 is provided with an annular sinking platform 101, the second glass 400 is installed in the annular sinking platform 101, the rear side of the door body 100 is provided with a pasting board 102, and the pasting board 102 is pasted on the glass surface at the rear side of the second glass 400. Specifically, the door body 100 is generally a frame structure that runs through from front to back, that is, the door body 100 has an inner cavity that runs through from front to back, so as to allow light to pass through, the annular sinking platform 101 can be an annular structure and set up around the inner cavity of the door body 100, the second glass 400 is installed in the annular sinking platform 101, the flitch 102 can be installed through a plurality of bolts at the rear side of the door body 100, the flitch 102 can be an annular structure, the plate surface of the flitch 102 can be parallel to the glass surface of the second glass 400, and the plate surface of the flitch 102 is attached to the edge of the glass surface at the rear side of the second glass 400. In this embodiment, the front side and the rear side of the door body 100 are both provided with glass, so that the requirements of heat insulation and condensation prevention can be met, and compared with the arrangement of special glass, the cost is obviously reduced. In addition, arrange some glass in the rear side of door body 100, compare and arrange in the front side of door body 100 in whole for door body 100's atress is more even, and door body 100 is difficult to receive the damage more. In addition, the second glass 400 is positioned in the annular sinking platform 101, so that the damage caused by the second glass 400 can be reduced. In addition, the second glass 400 is sealed at the rear side of the inner cavity of the door body 100, and the first glass 300 can be sealed at the front side of the inner cavity of the door body 100, so that the accumulation of dirt in the inner cavity of the door body 100 can be avoided.

Further, as shown in fig. 8, the annular sunken platform 101 is provided with an annular recess 103, a sealing ring 104 is mounted in the annular recess 103, and the sealing ring 104 is attached to the edge of the second glass 400. For example, an annular recessed portion 103 may be provided on a step surface of the annular sunken stage 101 along a circumferential direction, a sealing ring 104 may be installed in the annular recessed portion 103, the sealing ring 104 may have an annular structure and may be disposed around an inner cavity of the door body 100, and the sealing ring 104 may be attached to an edge of a glass surface on the front side of the second glass 400. Set up sealing washer 104, can seal between second glass 400 and the door body 100 to can further avoid the inner chamber of the door body 100 to gather the dirt, make the thermal-insulated effect of the door body 100 better moreover, in addition, sealing washer 104 still plays the cushioning effect, can avoid the impact force between second glass 400 and the door body 100 too big and cause the damage. Set up annular concave position 103, installation sealing washer 104 is more firm, avoids sealing washer 104 to remove at will.

It should be noted that the annular recessed portion 103 may also be disposed on an inner sidewall of the annular sunken platform 101, and the sealing ring 104 may be attached to a peripheral sidewall of the second glass 400.

In some embodiments of the present invention, as shown in fig. 3 and 8, the rear side of the door body 100 is provided with a sealing ring 105, the sealing ring 105 is wound around the sealing ring 104, and when the door body 100 closes the access opening of the cooking device, the sealing ring 105 abuts against the front side of the cooking device. The sealing ring 105 is arranged, so that when the door body 100 closes the taking and placing opening of the cooking device, the sealing effect of the door body 100 is better. The rear side of the door body 100 may be provided with a fixing ring 106, and the fixing ring 106 is used to fix the sealing ring 105.

In some embodiments of the utility model, as shown in fig. 1 to fig. 3, door body 100 is equipped with door hook 107, door hook 107 be used for with the cooking equipment on the interlock cooperation to not only make the closed effect of door body 100 better, the interlocking of still being convenient for judges the switching condition of door body 100.

In some embodiments of the present invention, as shown in fig. 1 and 3, the door body 100 is provided with a door shaft plate 108, the door shaft plate 108 is provided with a rotation shaft 109, the door body 100 is rotatably installed on the cooking device through the rotation shaft 109, and the door shaft plate 108 is further provided, so that it is more convenient to install the rotation shaft 109.

According to the utility model discloses cooking equipment of second aspect embodiment, include according to the above-mentioned furnace gate subassembly of first aspect embodiment of the utility model.

According to the utility model discloses cooking equipment adopts the furnace gate subassembly of the above-mentioned first aspect embodiment, among two adjacent locating racks 200, has at least one locating rack 200's one end to buckle in order to form kink 201 towards another locating rack 200, kink 201 elasticity butt in first glass 300, and then the resilience force that kink 201 produced can act on the glass face of first glass 300 to can support tight first glass 300, make the glass installation more firm.

It should be noted that the cooking device may be a microwave oven, a steam oven or other device capable of mounting an oven door assembly.

It can be understood that, since the cooking apparatus adopts all the technical solutions of the oven door assembly according to the embodiment of the first aspect, at least all the beneficial effects brought by the technical solutions of the embodiment of the first aspect are achieved, and no further description is provided herein.

Other constructions and operations of the cooking apparatus according to the embodiments of the present invention are known to those skilled in the art and will not be described in detail herein.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (11)

1. An oven door assembly, comprising:

a door body;

the positioning frames are arranged on the door body and are distributed along the front and back directions of the door body;

at least one first glass, wherein the first glass is arranged between two adjacent positioning frames;

one end of at least one of the two adjacent positioning frames is bent towards the other positioning frame to form a bent part, and the bent part is elastically abutted against the glass surface of the first glass.

2. The oven door assembly according to claim 1, wherein the bent portion comprises a transition section and a free section, the free section is bent towards the first glass by an angle of more than 90 ° with respect to the transition section, and a side of the free section facing away from the transition section elastically abuts against a glass surface of the first glass.

3. The oven door assembly according to claim 2, wherein at least one of the two adjacent positioning frames is bent to form a positioning portion, and the positioning portion elastically abuts against the side wall of the first glass.

4. The oven door assembly of claim 3, wherein the detent is bent to form the transition section.

5. The oven door assembly according to claim 3, wherein at least part of the positioning portion comprises a connecting section and an abutment section, the abutment section being bent towards the first glass by an angle larger than 90 ° with respect to the connecting section, a side of the abutment section facing away from the connecting section elastically abutting against a side wall of the first glass.

6. The oven door assembly according to any one of claims 1 to 5, wherein all the positioning frames are connected together by fasteners, and the fasteners extend in a front-rear direction of the door body.

7. The oven door assembly according to claim 6, wherein the positioning frame is vertically provided with mounting plates, all the mounting plates are arranged along the front-back direction of the door body, two adjacent mounting plates are attached to each other, and all the mounting plates are connected together through the fastening piece.

8. The oven door assembly according to any one of claims 1 to 5, wherein one of the two adjacent positioning frames is bent toward the other positioning frame to form the bent portion, and the other positioning frame has an engaging portion abutting against a glass surface of the first glass facing away from the bent portion.

9. The furnace door assembly according to any one of claims 1 to 5, wherein all the first glasses are positioned at the front side of the door body, an annular sinking platform is arranged at the rear side of the door body, a second glass is installed in the annular sinking platform, and a pasting plate is arranged at the rear side of the door body and is pasted on the glass surface at the rear side of the second glass.

10. The oven door assembly of claim 9, wherein the annular platform is provided with an annular recess, and a sealing ring is mounted in the annular recess and fits against the edge of the second glass.

11. Cooking apparatus, characterized in that it comprises an oven door assembly according to any one of claims 1 to 10.

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