CN220045665U - Oven and oven range - Google Patents

Abstract

The utility model discloses an oven and an oven range. Wherein, the oven includes combustor, fender piece and ignition needle, and the combustor has out the fire hole, and the fire hole includes first fire hole, keeps off piece and first fire hole alternate arrangement, and first fire hole is opened towards keeping off the piece, and the ignition needle stretches into between fender piece and the first fire hole. According to the technical scheme, the blocking piece is arranged in the air injection direction of the first fire outlet, the blocking piece forms a blocking effect, so that fuel gas sprayed out of the first fire outlet is gathered, the ignition needle stretches into the space between the blocking piece and the first fire outlet, and the fuel gas sprayed out of the first fire outlet is easier to contact with the discharge end of the ignition needle, and the ignition success rate is improved.

Description

Oven and oven range

Technical Field

The utility model relates to the technical field of baking equipment, in particular to an oven range.

Background

The oven is a device for baking food materials by utilizing high temperature, and comprises an electric heating oven and a gas oven, wherein the gas oven adopts the combustion of a burner so as to generate high temperature, the burner ejects gas, and the ejected gas is ignited by an ignition needle, so that the combustion is realized, and the ignition success rate of the ignition needle needs to be improved in the related technology.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems in the related art to some extent. The utility model proposes an oven for this purpose.

To achieve the above object, the present utility model discloses an oven comprising:

the burner is provided with a fire outlet, and the fire outlet comprises a first fire outlet;

the baffle piece and the first fire outlet holes are arranged at intervals, and the first fire outlet holes are opened towards the baffle piece; and

the ignition needle extends into the space between the baffle piece and the first fire outlet.

In some embodiments of the utility model, the baffle encloses an air collection chamber, the air collection chamber and the first fire exit hole being open towards each other.

In some embodiments of the utility model, the ignition needle extends into the gas collection chamber.

In some embodiments of the utility model, the stop includes a tip structure that is spaced from the ignition needle.

In some embodiments of the utility model, the tip structure is located in an extension direction of the ignition needle, and the extension direction of the ignition needle intersects an axial direction of the first fire hole.

In some embodiments of the utility model, the first fire hole includes a plurality of fire holes.

In some embodiments of the utility model, the oven comprises a cavity, the cavity encloses a containing cavity, the containing cavity is suitable for food materials to be placed in, the burner is arranged on the side part of the containing cavity, the first fire outlet of the burner is opened towards the other side part of the containing cavity, and the gas collecting cavity is also opened towards the upper side.

In some embodiments of the utility model, the cavity comprises a back plate surrounding the rear of the accommodating cavity, the ignition needle passes through the back plate from back to front, and the gas collecting cavity is also opened towards the rear and is surrounded by the back plate.

In some embodiments of the utility model, the oven further comprises a mounting base, the burner is mounted to the mounting base, and the baffle is provided to the mounting base.

In some embodiments of the utility model, the stop is bent from the mount.

The utility model also discloses an oven range, which comprises the oven.

According to the technical scheme, the blocking piece is arranged in the air injection direction of the first fire outlet, the blocking piece forms a blocking effect, so that fuel gas sprayed out of the first fire outlet is gathered, the ignition needle stretches into the space between the blocking piece and the first fire outlet, and the fuel gas sprayed out of the first fire outlet is easier to contact with the discharge end of the ignition needle, and the ignition success rate is improved.

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

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other designs can be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an oven range in some embodiments;

FIG. 2 is a schematic view of an oven range in some embodiments;

FIG. 3 is a schematic view of a chamber in some embodiments;

FIG. 4 is a schematic view of a chamber in some embodiments;

FIG. 5 is an enlarged view of the mark A in FIG. 4;

FIG. 6 is a partial schematic view of a cavity in some embodiments;

FIG. 7 is a schematic view of the mounting base, burner and back plate mating in some embodiments;

FIG. 8 is an enlarged view of the mark B in FIG. 7;

FIG. 9 is a schematic view of a mount in some embodiments;

FIG. 10 is an enlarged view of the mark C in FIG. 9;

FIG. 11 is a schematic view of a mount in some embodiments;

fig. 12 is an enlarged view labeled D in fig. 11.

Reference numerals illustrate:

a kitchen range 1000;

oven 2000, cavity 2100, receiving cavity 2101, opening 2102, bottom plate 2110, top plate 2120, side plate 2130, front plate 2140, rear plate 2150, door 2210, slide rail 2220, burner/upper burner 2300, burner/lower burner 2400, air inlet 2410, fire outlet 2430, first fire outlet 2431, second fire outlet 2432, mounting 2500, baffle 2510, tip structure 2511, air collection cavity 2512, ignition needle 2600.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

In a first aspect of the present utility model, an oven 2000 is disclosed, the oven 2000 is a household appliance for baking food materials in a relatively closed space by using heat, and generally, the oven 2000 includes a gas-type oven using combustion of gas as a heat source and an electric-type oven using electric heating of a heating tube as a heat source, and a gas-type oven will be described in detail herein as an example.

In some embodiments of the present utility model, as shown in connection with fig. 3, 6, 7 and 8, the oven 2000 includes a burner 2400, a stopper 2510 and an ignition needle 2600, the burner 2400 is provided with a fire hole 2430, and the fire hole 2430 includes a first fire hole 2431, the first fire hole 2431 is spaced apart from the stopper 2510, and the first fire hole 2431 is open toward the stopper 2510, and the ignition needle 2600 extends between the first fire hole 2431 and the stopper 2510. The stopper 2510 forms a blocking effect, so that the fuel gas sprayed out of the first fire outlet 2431 is gathered, and the fuel gas sprayed out of the first fire outlet 2431 is easier to contact the discharge end of the ignition needle 2600 because the ignition needle 2600 stretches into between the stopper 2510 and the first fire outlet 2431, thereby improving the ignition success rate.

Specifically, the oven 2000 has a receiving cavity 2101, and when the food material needs to be baked, the food material is placed in the receiving cavity 2101, and the burner 2400 burns toward the receiving cavity 2101, thereby generating heat flow in the receiving cavity 2101, thus baking the food material. The burner 2400 is provided with an air inlet 2410, an air inlet chamber (not shown) and a flame outlet 2430, wherein the air inlet 2410, the air inlet chamber and the flame outlet 2430 are mutually communicated, and fuel gas is input into the air inlet chamber through the air inlet 2410 and then is sprayed out from the flame outlet 2430, and the sprayed fuel gas is ignited by the ignition needle 2600 to form flame, thus forming high temperature. To increase the firing rate of the firing pin 2600, a stop 2510 is provided in this embodiment.

The blocking member 2510 is a member for temporarily blocking the fuel gas emitted from the first fire hole 2431. It will be appreciated that the burner 2400 has a plurality of fire holes 2430, and the baffle 2510 need only be matched with a portion of the fire holes 2430, but need not be matched with all of the fire holes 2430, otherwise the gas spraying and the gas burning are affected, and the baking effect is reduced, so that the portion of the fire holes 2430 matched with the baffle 2510 is defined as a first fire hole 2431, and the rest of the fire holes 2430 are defined as second fire holes 2432.

The first fire hole 2431 is matched with the stop 2510, which means that the first fire hole 2431 is spaced from the stop 2510 by a certain distance, the first fire hole 2431 needs to be opened towards the stop 2510, that is, the air injection direction of the first fire hole 2431 faces the stop 2510, the first fire hole 2431 projects along the axial direction of the first fire hole 2431, the projection of the first fire hole 2431 is at least partially overlapped with the stop 2510, when the fuel gas is sprayed out from the first fire hole 2431, the fuel gas is sprayed onto the stop 2510, the flow rate of the fuel gas is reduced under the blocking action of the stop 2510, local aggregation is formed near the stop 2510, the concentration of the fuel gas is increased, and the ignition needle 2600 extends between the first fire hole 2431 and the stop 2510, that is, the discharge end of the ignition needle 2600 is positioned between the first fire hole 2431 and the stop 2510, that is, the discharge end of the ignition needle 2600 is easily lifted, and the probability of the contact of the ignition needle 2600 is easily increased when the discharge end of the ignition needle 2600 is easily increased.

When the gas ejected from the first fire hole 2431 is ignited by the ignition needle 2600, the fire holes 2430 are densely arranged, so that the flame formed by the first fire hole 2431 is transferred to the second fire hole 2432 until all the gas ejected from the fire holes 2430 is ignited.

In some embodiments of the present utility model, as shown in fig. 8, the baffle 2510 encloses the gas collecting cavity 2512, and the first fire hole 2431 and the gas collecting cavity 2512 are opened towards each other, so that the fuel gas sprayed from the first fire hole 2431 can be further gathered, and the ignition success rate of the ignition needle 2600 is further improved.

Specifically, the blocking member 2510 encloses the gas collecting cavity 2512, that is, the blocking member 2510 is not in a planar form, but has a certain three-dimensional structure, so that the gas collecting cavity 2512 can be enclosed, the gas collecting cavity 2512 is in an open form and can be opened towards the first fire outlet 2431, the first fire outlet 2431 is also opened towards the gas collecting cavity 2512, when the gas is sprayed out from the first fire outlet 2431, the sprayed gas enters the gas collecting cavity 2512, and then, the gas collecting cavity 2512 can be restrained, so that a part of the gas is prevented from being sprayed to other directions under the blocking effect of the blocking member 2510, the gas concentration in the gas collecting cavity 2512 is further improved, and the gas concentration in the gas collecting cavity 2512 is improved due to the fact that the ignition needle 2600 is located between the first fire outlet 2431 and the blocking member 2510, and accordingly the gas which is easier to contact the electric arc emitted by the ignition needle 2600 is also caused.

For example, as shown in connection with fig. 8, the ignition needle 2600 is extended into the gas collection cavity 2512, that is, the discharge end of the ignition needle 2600 is located in the gas collection cavity 2512, the cavity wall of the gas collection cavity 2512 forms a surrounding coating on the discharge end of the ignition needle 2600, that is, the stop 2510 forms a surrounding coating on the discharge end of the ignition needle 2600, and the gas entering into the gas collection cavity 2512 can spatially wrap the discharge end of the ignition needle 2600, so that the contact probability of the gas and the electric arc emitted by the ignition needle 2600 is greatly improved, and the ignition success rate of the ignition needle 2600 is further improved.

In some embodiments of the present utility model, as shown in fig. 8, 9, 10, 11 and 12, the stopper 2510 includes a tip structure 2511, and the ignition needle 2600 is spaced from the tip structure 2511, so that the discharge of the ignition needle 2600 is more stable and is easier to ignite by providing the tip structure 2511.

Specifically, the tip structure 2511 is so-called sharp, and when the ignition needle 2600 discharges, air between the tip structure 2511 and the discharge end of the ignition needle 2600 breaks down, so that an arc is generated between the ignition needle 2600 and the tip structure, that is, each time the oven 2000 is used, the ignition of the ignition needle 2600 can achieve an arc with the tip structure 2511, and the arc is formed more stably rather than in a disordered distribution, so that the arc can be designed at a position with a larger concentration of gas, which is more beneficial for the contact between the arc and the gas to ignite the gas.

In some embodiments of the present utility model, as shown in connection with fig. 8, the tip structure 2511 is disposed in the extending direction of the ignition needle 2600 and the axial direction of the first flame-out hole 2431 intersects with the extending direction of the ignition needle 2600, so that the spatial layout can be optimized and the ignition success rate can be further improved.

Specifically, the tip structure 2511 is disposed in the direction of extension of the ignition needle 2600, i.e., the tip structure 2511 is disposed generally along the direction of extension of the ignition needle 2600 and the discharge end of the ignition needle 2600, it being understood that the tip mechanism need not be in the direction of the discharge end of the ignition needle 2600, but may be slightly offset. For example, as shown in fig. 6, 7 and 8, the tip structure 2511 and the ignition needle 2600 are arranged along the front-rear direction, the ignition needle 2600 extends along the front-rear direction, the tip structure 2511 is located in front of the ignition needle 2600, and the projection of the discharge end of the ignition needle 2600 along the front-rear direction may coincide with the tip structure 2511, but of course, may not coincide with but be closer to each other, so that the arc formed between the tip structure 2511 and the discharge end of the ignition needle 2600 extends substantially along the front-rear direction. Because the axial direction of the first fire hole 2431 is designed to intersect with the extending direction of the ignition needle 2600, the gas ejected from the first fire hole 2431 intersects with the electric arc, so that the contact area between the electric arc and the gas ejected from the first fire hole 2431 is further improved, and the ignition success rate is further improved. Alternatively, the axial direction of the first fire hole 2431 is designed to be perpendicular to the extending direction of the ignition needle 2600, so that the contact area of the arc and the gas sprayed from the first fire hole 2431 is maximally ensured.

The axial direction of the first fire hole 2431 and the extending direction of the ignition needle 2600 intersect, for example, in the case of being perpendicular, where the ignition needle 2600 is generally parallel to the burner 2400, for example, the burner 2400 is a tubular structure, the burner 2400 is inserted into the oven 2000 in the front-rear direction, and the ignition needle 2600 is also inserted into the oven 2000 in the front-rear direction, where the ignition needle 2600 and the burner 2400 are generally parallel, and where the tip structure 2511 is located in various ways, for example, the tip structure 2511 is located in front of, behind, above, below, to the left and right of the discharge end of the ignition needle 2600. If the tip structure 2511 is located behind the ignition needle 2600, it may interfere with the ignition needle 2600. If the tip structure 2511 is located above or below the ignition needle 2600, the tip structure 2511 will be away from the first flame-out hole 2431 in the up-down direction, so that the formed arc will be away from the first flame-out hole 2431. If the tip structure 2511 is located at the left side of the ignition needle 2600, the tip structure 2511 is located between the ignition needle 2600 and the first flame-out hole 2431, and the gas emitted from the first flame-out hole 2431 is not yet available to contact the discharge end of the ignition needle 2600, i.e. is blocked by the tip structure 2511. If the tip structure 2511 is located to the right of the ignition needle 2600, then the air collecting cavity 2512 will be less air-collecting. For this purpose, the arrangement is optimized in that the tip structure 2511 is arranged in the direction of extension of the ignition needle 2600, since the tip structure 2511 needs to be arranged at an interval with the ignition needle 2600, i.e. the tip structure 2511 is arranged in front of the ignition needle 2600.

In some embodiments of the present utility model, as shown in fig. 8, the number of the first fire holes 2431 is designed to be plural, so that the amount of fuel gas between the first fire holes 2431 and the stopper 2510 is further increased, and the ignition speed is improved. Specifically, the burner 2400 has a plurality of fire holes 2430, a part of the fire holes 2430 (a plurality of fire holes, two fire holes and more fire holes) are defined as first fire holes 2431, another part of the fire holes 2430 (a plurality of fire holes) are defined as second fire holes 2432, and the plurality of first fire holes 2431 are designed to spray fuel gas toward the baffle 2510, so that the fuel gas amount between the baffle 2510 and the plurality of first fire holes 2431 is greatly increased in the same time, thereby increasing the ignition speed. For example, when there is only one first fire outlet 2431, a time T is required to achieve ignition, and when there are two second fire outlets 2432, ignition can be achieved at a time 0.5T.

In some embodiments of the present utility model, as shown in connection with fig. 3, 4 and 5, the oven 2000 includes a cavity 2100, the cavity 2100 encloses a receiving cavity 2101, the burner 2400 is disposed at a side of the receiving cavity 2101, and a first fire hole 2431 of the burner 2400 is opened toward the other side, and the air collecting cavity 2512 is also opened toward the upper side.

Specifically, the holding cavity 2101 is in an open form, i.e. the holding cavity 2101 has an opening 2102, e.g. the holding cavity 2101 is open towards the front, through which opening 2102 food material can enter the holding cavity 2101 and leave the holding cavity 2101 through the opening 2102. Generally, the oven 2000 includes a door 2210, where the door 2210 is movably disposed to close and open the opening 2102, and the door 2210 needs to close the opening 2102 when the food is baked, and the door 2210 needs to open the opening 2102 when the food is picked up and put in place. It will be appreciated that closing of the opening 2102 by the door 2210 effects the closing of the receiving chamber 2101 and opening of the opening 2102 by the door 2210 effects the opening of the receiving chamber 2101.

For example, the cavity 2100 includes a bottom plate 2110, side plates 2130, a top plate 2120, a front plate 2140 and a rear plate 2150, wherein the side plates 2130 are disposed on the left and right sides of the bottom plate 2110, the top plate 2120 is disposed above the bottom plate 2110, the side plates 2130 are disposed on the left and right sides of the side plates 2130, the front plate 2140 is disposed in front of the bottom plate 2110, the side plates 2130 and the top plate 2120, the rear plate 2150 is disposed behind the bottom plate 2110, the side plates 2130 and the top plate 2120, the bottom plate 2110, the side plates 2130, the top plate 2120, the front plate 2140 and the rear plate 2150 together define a receiving cavity 2101, the opening 2102 is disposed in the front plate 2140, and the door 2210 is disposed in front of the bottom plate 2110, the side plates 2130, the top plate 2120 and the front plate 2140. The door 2210 is configured to be movably disposed, and the door 2210 can be moved such that the door 2210 abuts against the front plate 2140 to close the opening 2102, and is separated from the front plate 2140 to open the opening 2102.

The door body 2210 may be movably disposed in various manners, for example, the door body 2210 is abutted against and separated from the front plate 2140 in a rotating manner, or the door body 2210 may be designed to be in a form capable of being pushed and pulled reciprocally, the opening and closing of the opening 2102 are achieved by the push-pull door body 2210, for example, the oven 2000 includes a slide rail 2220, the door body 2210 is capable of being pushed and pulled by the slide rail 2220, a fixing portion of the slide rail 2220 is fixedly disposed, a specific position to be fixed is not limited, a movable portion of the slide rail 2220 is fixed to the door body 2210, and a movable portion of the slide rail 2220 is movably (slidably) connected with respect to the fixing portion of the slide rail 2220, so that the installation of the door body 2210 is achieved by the slide rail 2220 and the push-pull of the door body 2210 is enabled.

The burner 2400 is positioned at a side of the receiving chamber 2101 such that the burner 2400 forms the lower burner 2400 to enable the food material to be roasted from bottom to top. For example, the left and right sides of the receiving chamber 2101 are provided with the burner 2400, the fire hole 2430 of the burner 2400 located at the left side is opened toward the right side, and the fire hole 2430 of the burner 2400 located at the right side is opened toward the left side. The burning of the left burner 2400 achieves a left-to-right and bottom-to-top baking of the food material, while the burning of the right burner 2400 achieves a right-to-left and bottom-to-top baking of the food material. It will be appreciated that the top plate 2120 may also be provided with a burner 2300, the burner 2300 forming an upper burner 2300, the upper burner 2300 being capable of baking food materials from top to bottom, the upper burner 2300 having a substantially flat configuration, and the lower burner 2400 having a substantially tubular configuration.

Since the lower burner 2400 is required to perform the bottom-up baking of the food material, the air collecting chamber 2512 formed by the stopper 2510 is also required to be designed to be opened upward, and it is understood that the upward opening means substantially upward, or may be directly upward or obliquely upward. When the gas ejected from the first fire hole 2431 is ignited by the ignition needle 2600, the flame/heat flow formed can flow upwards from the gas collecting cavity 2512, so as to bake the food from bottom to top, fully utilize the combustion heat of the gas of the first fire hole 2431, and avoid reducing the baking effect due to the arrangement of the baffle 2510.

In some embodiments of the present utility model, as shown in connection with fig. 5, 7 and 8, the ignition needle 2600 is penetrated from the rear to the front on the rear plate 2150, the gas collecting chamber 2512 is also opened toward the rear, and the gas collecting chamber 2512 is enclosed by the rear plate 2150, thus simplifying the installation of the structure.

Specifically, the burner 2400 is inserted into the cavity 2100, and since the front of the cavity 2100 (the front plate 2140) needs to be matched with the door 2210, the air inlet 2410 of the burner 2400 is exposed to the rear of the cavity 2100 (the rear plate 2150), thus not only realizing the air intake to the burner 2400, but also realizing the hiding of the air inlet 2410, and the ignition needle 2600 is mounted on the rear plate 2150 through the rear plate 2150, and also realizing the mounting and hiding of the ignition needle 2600, which is not easily observed when the user uses the oven 2000. The rear plate 2150 is provided with mounting holes through which the ignition needle 2600 passes to a predetermined position, and the ignition needle 2600 and the rear plate 2150 are fastened by screws, thereby mounting the ignition needle 2600. Generally, the ignition needle 2600 will not extend into the cavity 2100 too much, and because the ignition needle 2600 needs to cooperate with the first fire hole 2431, the first fire hole 2431 is closer to the air inlet 2410, where the air inlet pressure is larger, so that sufficient fuel gas is ejected through the first fire hole 2431 to be ignited by the ignition needle 2600. In this embodiment, the rear of the gas collecting cavity 2512 is opened, that is, the blocking member 2510 needs to be matched with the rear plate 2150, for example, the blocking member 2510 is closer to the rear plate 2150, or the rear plate 2150 abuts against the blocking member 2510, so that the rear plate 2150 seals the gas collecting cavity 2512, the structure of the rear plate 2150 is fully utilized, the gas collecting cavity 2512 can be collected, and the blocking member 2510 can be prevented from sealing the rear of the gas collecting cavity 2512, so that the ignition needle 2600 is prevented from extending into the gas collecting cavity 2512.

In some embodiments of the present utility model, as shown in connection with fig. 6 and 7, oven 2000 includes a mounting 2500, a burner 2400 is disposed in mounting 2500, and a stop 2510 is also disposed in mounting 2500, thus facilitating the mating of burner 2400 and stop 2510.

Specifically, the mounting seat 2500 is a structure for mounting the burner 2400, for example, the mounting seat 2500 is disposed at a side portion of the receiving cavity 2101, the burner 2400 is also disposed at a side portion of the receiving cavity 2101 when the burner 2400 is mounted to the mounting seat 2500, the mounting seat 2500 may be disposed below the side plate 2130, the mounting seat 2500 extends a certain length in the front-rear direction, when the burner 2400 is mounted, the burner 2400 needs to be inserted into the mounting seat 2500 in the front-rear direction, and by providing the mounting seat 2500, a base for mounting the burner 2400 is provided, it is understood that the mounting seat 2500 may be formed with a fire blocking structure to prevent the flame formed by the burner 2400 from drifting randomly. The baffle 2510 is arranged on the mounting seat 2500, and when the burner 2400 is mounted on the mounting seat 2500, the cooperation with the baffle 2510 is realized, and the mounting seat 2500, the baffle 2510 and the burner 2400 form a module, so that the assembly of the oven is facilitated.

Alternatively, the stop 2510 may be provided on the mount 2500 in a variety of ways, such as by screwing the stop 2510 onto the mount 2500, by welding the stop 2510 onto the mount 2500, or by snapping the stop 2510 onto the mount 2500. In some embodiments of the present utility model, the stop 2510 is integrally formed with the mount 2500, such that the mount 2500 and the stop 2510 comprise a single component, which is advantageous for improving structural strength and for ease of manufacture. For example, the stop 2510 and the mount 2500 are manufactured from the same piece of sheet metal, which has some ductility, and a portion of which is bent to form the stop 2510.

The second aspect of the present utility model discloses an oven range, as shown in fig. 1 and 2, including the oven 2000 of the above embodiment, specifically, the oven range includes the oven 2000 and the oven 1000, the oven 1000 and the oven 2000 are assembled together to form a combined household appliance, the oven 1000 is installed above the oven 2000, the door 2210 of the oven 2000 is exposed at the front, when the oven 2000 uses gas to heat, the oven 1000 can use gas to heat correspondingly, the oven 1000 and the oven 2000 are assembled together, the gas supply structure of the two can be fully shared, and space can be saved relative to the individual oven 2000 and the individual oven 1000. It will be appreciated that the oven 2000 and the stove 1000 of the oven range can be used separately and controlled according to the actual demands of the user, and only the oven 2000 combined with the stove 1000 to form the oven range is listed above, and the oven 2000 can be combined with other types of home appliances to form other home appliances. The oven 2000 of the oven range of the present embodiment adopts the technical solution of the foregoing embodiment, so at least has the beneficial effects brought by the technical solution of the foregoing embodiment, and the detailed description is not repeated here.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the specification and drawings of the present utility model or direct/indirect application in other related technical fields are included in the scope of the present utility model.

Claims (11)

1. An oven, comprising:

the burner is provided with a fire outlet, and the fire outlet comprises a first fire outlet;

the baffle piece and the first fire outlet holes are arranged at intervals, and the first fire outlet holes are opened towards the baffle piece; and

the ignition needle extends into the space between the baffle piece and the first fire outlet.

2. The oven of claim 1 wherein said baffle encloses an air collection chamber, said air collection chamber and said first flame exit aperture opening toward one another.

3. The oven of claim 2 wherein said ignition pin extends into said air collection cavity.

4. The oven of claim 1 wherein said barrier includes a tip structure, said tip structure being spaced from said ignition needle.

5. The oven of claim 4 wherein said tip structure is located in an extension of said ignition needle and wherein said extension of said ignition needle intersects an axial direction of said first flame exit hole.

6. The oven of claim 1 wherein said first fire hole comprises a plurality of fire holes.

7. The oven of claim 2 wherein the oven includes a cavity enclosing a receiving cavity adapted for food material to be placed therein, the burner being disposed on a side of the receiving cavity, the first flame exit aperture of the burner opening to another side of the receiving cavity, the air collection cavity also opening to an upper side.

8. The oven of claim 7 wherein said cavity includes a back plate surrounding a rear of said receiving cavity, said ignition pin passing through said back plate from back to front, said air collection cavity also opening rearward and being enclosed by said back plate.

9. The oven of claim 1 further comprising a mounting base, wherein the burner is mounted to the mounting base, and wherein the stop is disposed on the mounting base.

10. The oven of claim 9 wherein said baffle is folded from said mount.

11. A range comprising the oven of any one of claims 1 to 10.