CN219283398U - Combined stove - Google Patents

Abstract

The application discloses combination stove, including top of a kitchen range, oven, controlling means and air inlet unit, wherein the below of top of a kitchen range is located to the oven, and controlling means locates the below of top of a kitchen range and is located one side of oven, and air inlet unit locates the below of top of a kitchen range and is located controlling means's rear. The technical scheme of the utility model includes top of a kitchen range, oven, controlling means and air inlet unit set up the below at the top of a kitchen range, make full use of top of a kitchen range below the space, controlling means sets up in one side of oven and not in the both sides setting of oven can form enough big space in controlling means's rear in order to be used for installing air inlet unit to still be favorable to controlling means's wiring to arrange, controlling means's wiring can keep away from the oven as far as possible in order to prevent ageing.

Description

Combined stove

Technical Field

The application relates to the technical field of kitchen appliances, in particular to a combined stove.

Background

The combined stove is a combined electric appliance, can comprise a cooking bench and a smoke machine, and also can comprise the cooking bench and an oven, and as the combined stove integrates more than two electric appliance functions, the product is inevitably excessively bulky.

Disclosure of Invention

The present application aims to solve, at least to some extent, the technical problems in the related art. For this purpose this application proposes the combination kitchen, and this combination kitchen optimizes product space overall arrangement, the arrangement of each part of being convenient for.

To achieve the above object, the present application discloses a combination oven comprising:

a cooking bench;

the oven is arranged below the cooking bench;

the control device is arranged below the cooking bench and is positioned at one side of the oven; and

and the air inlet device is arranged below the cooking bench and is positioned behind the control device.

In some embodiments of the present application, the combination stove further includes a rack, the rack encloses a mounting cavity, a first port communicated with the mounting cavity is provided at the top of the rack, and a second port and a third port communicated with the mounting cavity are provided at the front of the rack;

the kitchen range is installed in the frame in order to expose in first opening, the oven is installed in the frame in order to expose in the second opening, controlling means install in the frame in order to expose in the third opening, air inlet unit locates the installation cavity.

In some embodiments of the present application, the combination stove further comprises a rack, the oven is provided on the rack, the oven comprises a door body protruding from the rack along a length direction of the cooktop, and the door body is configured to be detachably provided.

In some embodiments of the present application, the control device includes a first control mechanism and a second control mechanism, the first control mechanism and the second control mechanism are respectively provided with a function key, the function key of the first control mechanism is configured to be capable of being hidden and capable of being exposed, and the function key of the second control mechanism is exposed on the surface of the combination stove.

In some embodiments of the present application, the first steering mechanism includes:

a frame;

the operation piece is movably connected with the frame body so that the function key of the first operation mechanism can be hidden and exposed out of the frame body;

the elastic pieces are arranged at intervals along the length direction of the operation piece and are respectively connected with the operation piece and the frame body; and

the switch is arranged on one of the frame body and the operating piece, is used for locking the other of the frame body and the operating piece so as to deform the elastic piece and hide the functional key of the first operating mechanism in the frame body, and is used for unlocking the other of the frame body and the operating piece so as to reset the elastic piece and expose the functional key of the first operating mechanism in the frame body.

In some embodiments of the present application, the combination oven further includes a rack, and the control device is disposed on the rack;

the first control mechanism comprises a first outer panel, the first outer panel protrudes out of the frame along the length direction of the cooking bench, and the first outer panel is configured to be detachably arranged; and/or the second control mechanism comprises a second outer panel, the second outer panel protrudes out of the frame along the length direction of the cooking bench, and the second outer panel is configured to be detachably arranged.

In some embodiments of the present application, the air intake device includes:

the valve seat is provided with a gas transmission channel and a gas outlet communicated with the gas transmission channel, and the gas transmission channel is U-shaped or annular; and

and the valve is arranged on the valve seat and used for controlling the on-off of the air outlet.

In some embodiments of the present application, the valve seat is provided with a first mounting portion, the valve is provided with a second mounting portion, the first mounting portion is provided with the air outlet, the second mounting portion is provided with an air inlet, and the first mounting portion and the second mounting portion are in concave-convex fit connection so that the air outlet and the air inlet are communicated.

In some embodiments of the present application, the combination stove further includes an electric control device, where the electric control device is electrically connected to the control device and is disposed behind the control device.

In some embodiments of the present application, the combination oven further includes a housing, and the electronic control device is mounted to a side wall of the housing.

The technical scheme of the utility model includes top of a kitchen range, oven, controlling means and air inlet unit set up the below at the top of a kitchen range, make full use of top of a kitchen range below the space, controlling means sets up in one side of oven and not in the both sides setting of oven can form enough big space in controlling means's rear in order to be used for installing air inlet unit to still be favorable to controlling means's wiring to arrange, controlling means's wiring can keep away from the oven as far as possible in order to prevent ageing.

Drawings

In order to more clearly illustrate the embodiments of the present application 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 below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained from the structures shown in these drawings without inventive effort to a person of ordinary skill in the art.

FIG. 1 is a schematic view of some embodiments of a combination oven (functional keys of a first operating mechanism are in a hidden state);

FIG. 2 is an enlarged view of the left broken line of FIG. 1;

FIG. 3 is an enlarged view of the right side of FIG. 2 shown in phantom;

FIG. 4 is a schematic view of a combination oven according to some embodiments (functional keys of the first operating mechanism are exposed);

FIG. 5 is an exploded view of some embodiments of a combination oven;

FIG. 6 is an exploded view of a partial structure of some embodiments of a combination oven;

FIG. 7 is a schematic diagram of an air intake device according to some embodiments;

FIG. 8 is an exploded view of an air intake device according to some embodiments;

FIG. 9 is an enlarged view of the broken line of FIG. 8;

FIG. 10 is a schematic view of a valve according to some embodiments;

FIG. 11 is an enlarged view of the broken line of FIG. 10;

FIG. 12 is a schematic view of a steering device according to some embodiments;

FIG. 13 is a schematic view of a first steering mechanism according to some embodiments;

FIG. 14 is an enlarged view of the broken line of FIG. 13;

fig. 15 is a schematic view of a first steering mechanism according to some embodiments.

Reference numerals illustrate:

a manipulation device 1000;

the first operating mechanism 1100, the frame 1110, the rotating shaft 1111, the limiting portion 1112, the operating member 1120, the first side 1121, the second side 1122, the claw 1123, the function key 1124, the lock tongue 1125, the elastic member 1130, the spiral portion 1131, the first end 1132, the second end 1133, the switch 1140, and the first outer panel 1150;

a second manipulation mechanism 1200, a function key 1210, and a second outer panel 1220;

a frame 1300;

a cooktop 2000, a first burner 2100, a second burner 2200, and a third burner 2300;

oven 3000, door 3100;

air inlet device 4000, air outlet 4001, air inlet 4002;

the valve seat 4100, the first mounting portion 4110, the convex arc surface 4111, the first abutment surface 4112, the screw hole 4113;

valve 4200, second mounting portion 4210, concave arcuate surface 4211, second abutment plane 4212, air inlet tube 4213;

an electric control device 5000;

frame 6000, mounting cavity 6100, first port 6110, second port 6120, third port 6130.

The realization, functional characteristics and advantages of the present application will be further described with reference to the embodiments, referring to the attached drawings.

Detailed Description

The following description of the embodiments of the present application 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, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

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

In the present application, unless explicitly specified and limited otherwise, the terms "coupled," "secured," and the like are to be construed broadly, and for example, "secured" may be either permanently attached or removably attached, or integrally formed; 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 terms in this application will be understood by those of ordinary skill in the art as the case may be.

In addition, descriptions such as those related to "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated in this application. 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 regarded as not exist and not within the protection scope of the present application.

The combination kitchen appliance is a combination kitchen appliance, for example, the combination kitchen appliance is a combination appliance integrating a kitchen appliance function and an oven function. The kitchen range has the function of including a corresponding kitchen range, and can realize open fire or non-open fire food cooking, for example, a cooking area is respectively arranged on the left side and the right side of the combined kitchen range, and an electromagnetic adding device or a burner for burning by using combustible gas is correspondingly arranged in the cooking area. The oven function is to utilize high temperature to toast food material in sealed space, and the high temperature of oven function can utilize electrical heating to produce, also can utilize gas combustion to produce. For example, when the kitchen range part adopts open fire to realize cooking of food materials, the corresponding oven part can also use gas combustion to realize heating, and when the kitchen range part adopts electromagnetic heating, the corresponding oven part can use electric heating.

Compared with the independent kitchen ranges and ovens, the combined kitchen range is easy to become bulkier because the combined kitchen range integrates the functions of two electric appliances, is unfavorable for the arrangement of all the components, can cause the abnormal increase of the volume of the product because of unreasonable arrangement, or is unfavorable for the realization of the performance of all the components. In this regard, the present application discloses a combination oven that optimizes the spatial layout of the product, facilitating the arrangement between the various components.

The following will describe in detail a combination oven using gas combustion.

As shown in connection with fig. 1, 4-6, in some embodiments, a combination stove includes a cooktop 2000, an oven 3000, a steering device 1000, and an air intake device 4000.

Wherein the cooktop 2000 constitutes at least a part of a kitchen range, the cooktop 2000 is provided with three burners, namely a first burner 2100, a second burner 2200 and a third burner 2300, which are distributed in a triangle shape, the first burner 2100, the second burner 2200 and the third burner 2300 are closer to a user and larger in size than the third burner 2300, a larger pot can be placed, the third burner 2300 is relatively far from the user and is not larger in size than the first burner 2100 and the second burner 2200, a pot of a small size can be placed, and all the three burners are connected with the air inlet 4000 to receive air supply from the air inlet 4000.

The oven 3000 is disposed below the cooking bench 2000, and makes full use of the space below the cooking bench 2000, and the oven 3000 is connected to the air inlet device 4000 to receive the air supply from the air inlet device 4000, i.e. the oven 3000 utilizes the gas combustion to generate high temperature to bake the food materials. The oven 3000 correspondingly has a liner structure and a door 3100, the door 3100 being openable with respect to the liner structure so that food material can be placed in the liner structure.

The operation device 1000 is disposed under the cooking bench 2000, the space under the cooking bench 2000 is fully utilized, the operation device 1000 is disposed at one side of the oven 3000 instead of at two sides of the oven 3000, since the oven 3000 has a certain depth (from front to back direction), the operation device 1000 disposed at one side of the oven 3000 can be matched with the oven 3000 to form a larger space behind the operation device 1000, the air inlet device 4000 is disposed in the space more flexibly, the air inlet device 4000 is a device for receiving an external air source and adjusting the air supply amount to the cooking bench 2000 and the oven 3000, and the air inlet device 4000 is disposed at the rear of the operation device 1000 more intensively, thereby simplifying the arrangement of the pipelines of the air inlet device 4000. In addition, since the control device 1000 is disposed at one side of the oven 3000, the internal wires are more beneficial to be connected to the control device 1000, and the wires can be far away from the oven 3000 as far as possible to avoid the high temperature generated by the oven 3000 so as to accelerate the aging speed of the wires.

It is understood that the control device 1000 is a component for a user to operate to enable the combination stove to achieve a corresponding function, and generally, the control device 1000 is provided with function keys (1210, 1124), and the function keys (1210, 1124) may be in the form of buttons, touch type, rotation type, etc., and may be selected according to practical situations.

Therefore, the technical scheme includes a cooking bench 2000, an oven 3000, a control device 1000 and an air inlet device 4000, the oven 3000, the control device 1000 and the air inlet device 4000 are arranged below the cooking bench 2000, the space below the cooking bench 2000 is fully utilized, the control device 1000 is arranged on one side of the oven 3000 without forming a large enough space behind the control device 1000 on two sides of the oven 3000 for installing the air inlet device 4000, and wiring arrangement of the control device 1000 is facilitated, and wires of the control device 1000 can be kept away from the oven 3000 as far as possible for preventing aging.

In some embodiments, in order to effectively mount the cooking bench 2000, the oven 3000, the control device 1000 and the air intake device 4000, the combination stove further includes a frame 6000, where the frame 6000 serves as a skeleton of the combination stove and serves to carry the cooking bench 2000, the oven 3000, the control device 1000 and the air intake device 4000, and generally the frame 6000 is made of sheet metal, so that the frame 6000 can be enclosed to form a frame structure.

The frame 6000 has the installation cavity 6100, be equipped with first through-hole 6110 on the frame 6000, second through-hole 6120 and third through-hole 6130, first through-hole 6110 and installation cavity 6100 intercommunication, second through-hole 6120 and installation cavity 6100 intercommunication, third through-hole 6130 and installation cavity 6100 intercommunication, the top of a kitchen range 2000 is installed in the frame 6000, part of top of a kitchen range 2000 is embedded into installation cavity 6100 and another part exposes first through-hole 6110, so make full use of installation cavity 6100's space, the setting of first through-hole 6110 provides the location of top of a kitchen range 2000 installation. The oven 3000 is mounted in the rack 6000, most of the oven 3000 is embedded in the mounting cavity 6100 and the door 3100 of the oven 3000 exposes the second port 6120, and the second port 6120 is opened toward the front of the combination oven, thus facilitating the user to open the door 3100 of the oven 3000. The control device 1000 is mounted on the frame 6000 and is embedded into the mounting cavity 6100, the control device 1000 is exposed from the third port 6130 for user operation, the third port 6130 is consistent with the second port 6120, and the third port 6130 is opened towards the front of the combined stove, so that the user can observe and operate conveniently.

By forming the first, second and third openings 6110, 6120, 6130 in the frame 6000, the cooktop 2000, the oven 3000 and the air inlet 4000 can be at least partially embedded into the installation cavity 6100 and exposed from the corresponding openings, which is not only beneficial to the full use of space, but also makes the parts more compact.

When it is desired to design the oven 3000 in a form of being inserted into a cabinet without damaging the table top of the cabinet, openings are provided above and in front of the cabinet, and the combination range can be inserted into the cabinet from top to bottom, so that the opening of the cooking bench 2000 above the cabinet is exposed, and the oven 3000 and the operation device 1000 are exposed at the opening in front of the cabinet. In order to realize the smooth embedding of the combination cooker into the cabinet, the transverse dimension (left-right direction) of the combination cooker cannot exceed the transverse dimension of the opening in front of the cabinet, and in order to enable the combination cooker to be successfully embedded into the cabinet, the transverse dimension of the combination cooker is slightly smaller than the transverse dimension of the opening in front of the cabinet, so that a gap is formed between the cabinet and the combination cooker, and the combination cooker is unsightly. Thus, as shown in connection with fig. 1 and 2, in some embodiments, the oven 3000 has a door 3100, and the door 3100 protrudes from the frame 6000 along the length of the cooktop 2000 (i.e., the lateral direction of the combination oven, the left-right direction of fig. 1). For example, in the direction shown in fig. 1, the oven 3000 is disposed at the left side below the cooking bench 2000, the door 3100 of the oven 3000 protrudes toward the left side of the frame 6000, and the door 3100 of the oven 3000 is detachably disposed, that is, the door 3100 can be separately detached and then installed, the door 3100 of the oven 3000 is detached before the combination cooker is inserted into the cabinet, and the door 3100 of the oven 3000 is installed after the combination cooker is inserted into the cabinet, so that the door 3100 of the oven 3000 shields a gap formed between the combination cooker and the left cabinet.

As shown in connection with fig. 1 and 3, the corresponding operating device 1000 is also provided with an outer panel (hereinafter, detailed including a first outer panel 1150 and a second outer panel 1220) protruding from the frame 6000 along the length direction of the hob 2000 (i.e., the lateral direction of the combination oven, the left-right direction shown in fig. 1). For example, in the direction shown in fig. 1, the operation device 1000 is disposed at the right side of the lower side of the cooking bench 2000, the outer panel of the operation device 1000 protrudes toward the right side of the rack 6000, and the outer panel of the operation device 1000 is detachably provided, that is, the outer panel of the operation device 1000 may be separately detached and then installed, the outer panel of the operation device 1000 is detached before the combination cooker is inserted into the cabinet, and the outer panel of the operation device 1000 is installed after the combination cooker is inserted into the cabinet, so that the outer panel of the operation device 1000 shields a gap formed between the combination cooker and the right cabinet.

In some embodiments, as shown in fig. 12, in order to facilitate the operation of the user, the operation device 1000 includes a second operation mechanism 1200 and a first operation mechanism 1100, where the first operation mechanism 1100 is provided with a function key 1124, the second operation mechanism 1200 is also provided with a function key 1210, the function key 1124 of the first operation mechanism 1100 may be hidden and exposed, and the function key 1210 of the second operation mechanism 1200 is often set to be exposed to the surface of the combination stove, so that the unusual function or the additional function may be set to the first operation mechanism 1100 to achieve the control, and the usual function may be set to the second operation mechanism 1200 to achieve the control, so as to facilitate the use of the user.

Specifically, the control device 1000 includes a module formed by installing the second control mechanism 1200 and the first control mechanism 1100 on the frame 1300, and installing the module on the frame 6000, so that the frame 1300 and the frame 6000 are connected to fix the whole control device 1000, the second control mechanism 1200 and the first control mechanism 1100 are arranged along the up-down direction, the second control mechanism 1200 is located above, and the first control mechanism 1100 is located below, thus reasonably utilizing the space on one side of the oven 3000, and being more convenient for users to use the commonly used functions.

The first operating mechanism 1100 includes a first outer panel 1150, the first outer panel 1150 is located in front of the first operating mechanism 1100, and the first outer panel 1150 protrudes from the frame 6000 along the length direction of the hob 2000. For example, in the direction shown in fig. 1, the first manipulation mechanism 1100 is disposed at the right side of the lower portion of the cooking bench 2000, the first outer panel 1150 of the first manipulation mechanism 1100 protrudes toward the right side from the right side of the frame 6000, and the first outer panel 1150 is provided to be detachable in various manners, such as a snap, a screw, a magnetic attraction, etc., that is, the first outer panel 1150 may be detached separately and then installed, the first outer panel 1150 may be detached before the combination cooker is inserted into the cabinet, and the first outer panel 1150 may be installed after the combination cooker is inserted into the cabinet, such that the first outer panel 1150 may cover a gap formed between the combination cooker and the right cabinet. Since the function keys 1124 of the first manipulating mechanism 1100 are provided to be hidden and exposed, the corresponding function keys 1124 can be moved along with the corresponding portions, that is, the first outer panel 1150 can be provided thereto, so that the first outer panel 1150 can also be moved along with the movement (to be described later).

The second control mechanism 1200 includes a second outer panel 1220, the second outer panel 1220 is located in front of the second control mechanism 1200, and the second outer panel 1220 protrudes from the frame 6000 along the length direction of the cooking bench 2000. For example, in the direction shown in fig. 1, the second operating mechanism 1200 is disposed on the right side below the cooking bench 2000, the second outer panel 1220 of the second operating mechanism 1200 protrudes toward the right side from the right side of the frame 6000, and the second outer panel 1220 is configured to be detachable in various manners, such as a buckle, a screw connection, a magnetic attraction, etc., that is, the second outer panel 1220 may be detached separately and then installed, the second outer panel 1220 is detached before the combination cooker is inserted into the cabinet, and the second outer panel 1220 is installed after the combination cooker is inserted into the cabinet, such that the second outer panel 1220 shields a gap formed between the combination cooker and the right cabinet.

As shown in connection with fig. 13-15, in some embodiments, the first manipulation mechanism 1100 includes a frame 1110, an operating member 1120, an elastic member 1130, and a switch 1140.

The frame 1110 is a skeleton for mounting the operation member 1120, the elastic member 1130, and the switch 1140, and serves to support the operation member 1120, the elastic member 1130, and the switch 1140. The frame 1110 may be made of various materials, for example, the frame 1110 may be made of plastic and integrally formed, or the frame 1110 may be made of sheet metal by bending, welding, etc. Generally, in order to maintain high strength of the frame 1110, the frame 1110 is manufactured using a sheet metal part. The frame 1110 is in a closed ring structure, and the operating member 1120, the elastic member 1130 and the switch 1140 can be mounted on the frame 1110 and located in a space defined by the frame 1110, so that the frame 1110 and the frame 1300 are connected to fix the first operating mechanism 1100 to the frame 1300, and the frame 1300 fixes the second operating mechanism 1200 to form a module for easy mounting on the frame 6000.

The operating member 1120 is configured to be movably coupled to the housing 1110, where the movable coupling is such that the operating member 1120 is movable relative to the housing 1110, the operating member 1120 being coupled to the housing 1110 without affecting the state of the housing 1110 when moved. The movable arrangement of the operation member 1120 is such that the function key 1124 has a state hidden in the frame 1110 and a state exposed in the frame 1110, when the user needs to use the corresponding function, the operation member 1120 is controlled to be movable so that the function key 1124 is exposed, and when the user does not need to use the corresponding function, the operation member 1120 is controlled to be movable so that the function key 1124 is hidden from view.

It will be appreciated that there are a variety of movable connections between the operating member 1120 and the housing 1110.

For example, a linear reciprocating motion can be implemented between the operation member 1120 and the frame 1110, when the user needs to use the corresponding function, the operation member 1120 is moved out of the frame 1110 in a linear manner, and at this time, the function key 1124 located on the upper surface of the operation member 1120 is exposed out of the frame 1110, so that the user can perform an operation. When the user does not need to use the corresponding function, the operation member 1120 is linearly moved into the frame 1110, and at this time, the function key 1124 on the upper surface of the operation member 1120 is hidden in the frame 1110 and is not visible to the user, so that the appearance of the combination stove is not affected, and at this time, the front surface of the operation member 1120 is exposed out of the frame 1110 to form a part of the appearance of the combination stove, and it is understood that the first outer panel 1150 may be fixed on the front surface of the operation member 1120 to form the front surface of the operation member 1120.

The operation member 1120 and the frame 1110 may be rotatably connected, and when a user needs to use a corresponding function, the operation member 1120 is moved out of the frame 1110 in a rotating manner so that the function key 1124 is exposed out of the frame 1110, so that the user can perform an operation. When the user does not need to use the corresponding function, the operation member 1120 is moved into the frame 1110 in a rotating manner so that the function key 1124 is hidden in the frame 1110, thus realizing the invisible to the user. For example, the operating member 1120 has a first side 1121 and a second side 1122, the first side 1121 and the second side 1122 are angled, the function key 1124 is disposed on the second side 1122, and when the function key 1124 needs to be hidden, the operating member 1120 is rotated until the second side 1122 moves into the frame 1110, and the first side 1121 is substantially vertical to form an external portion of the range; when the function key 1124 needs to be exposed, the operating member 1120 is rotated until the second side 1122 is moved out of the frame 1110 to be in a substantially horizontal state and the first side 1121 is in a substantially inclined state, at which time the user can operate the function key 1124, it will be appreciated that the first outer panel 1150 may be fixed to the front portion of the operating member 1120 to form the front surface of the operating member 1120.

Of course, the movable connection between the operation piece 1120 and the frame 1110 is not limited to the two examples mentioned above, as long as the state transition between the operation piece 1120 and the frame 1110 can be achieved.

To facilitate the movement of the operating member 1120, the user experience is enhanced, and the movement of the operating member 1120 is achieved by cooperating the elastic member 1130 and the switch 1140. The elastic member 1130 is coupled to the operation member 1120 and the frame 1110 to provide a force for the movement of the operation member 1120. The elastic member 1130 may have a spiral portion 1131, a first end 1132 and a second end 1133, where the first end 1132 and the second end 1133 are respectively disposed on the spiral portion 1131, and the first end 1132 is connected to the operating member 1120, and the second end 1133 is connected to the frame body 1110, for example, the operating member 1120 and the frame body 1110 are respectively provided with a bayonet structure, the first end 1132 is inserted into the bayonet structure of the operating member 1120 to be fixed, and the second end 1133 is inserted into the bayonet structure of the frame body 1110 to be fixed.

The switch 1140 is a mechanism capable of locking and unlocking, and the switch 1140 is provided to one of the frame 1110 and the operation member 1120, and is configured to be lockable and unlockable to the other.

For example, the switch 1140 is fixed to the frame 1110, so that the operation member 1120 can be locked and unlocked, when the switch 1140 is unlocked, the operation member 1120 is moved out of the frame 1110 under the action of the elastic member 1130, so that the function key 1124 is exposed, and when the function key 1124 needs to be hidden, the operation member 1120 is moved into the frame 1110 until the operation member is locked by the switch 1140.

Alternatively, the switch 1140 is fixed to the operating member 1120 to lock and unlock the frame 1110, when the switch 1140 is unlocked, the operating member 1120 moves out of the frame 1110 under the action of the elastic member 1130, so that the function key 1124 is exposed, in the process, the switch 1140 moves out of the frame 1110 synchronously along with the operating member 1120, when the function key 1124 needs to be hidden, the operating member 1120 moves into the frame 1110, and the operating member 1120 drives the switch 1140 to move into the frame 1110 synchronously until the switch 1140 contacts the frame 1110 to lock the frame 1110.

Hereinafter, the locking and unlocking of the operation piece 1120 will be described by taking an example in which the switch 1140 is provided in the housing 1110.

When the function key 1124 needs to be hidden in the frame 1110, the user pushes the operation member 1120 to move into the frame 1110 so that the function key 1124 is hidden in the frame 1110, and the switch 1140 locks the operation member 1120, and the elastic member 1130 is deformed, that is, the elastic member 1130 has a force applied to the operation member 1120, but the elastic member 1130 cannot push the operation member 1120 due to the locking action of the switch 1140.

When the function key 1124 needs to be switched from being hidden in the frame 1110 to being exposed in the frame 1110, the switch 1140 is unlocked from the operation member 1120, the elastic member 1130 is reset because the locking function of the switch 1140 is not available, and the first end 1132 of the elastic member 1130 pushes the operation member 1120 to move out of the frame 1110 to expose the function key 1124 in the frame 1110 because the second end 1133 of the elastic member 1130 is fixed to the frame 1110.

That is, by the mutual matching of the elastic member 1130 and the switch 1140, when the function key 1124 needs to be switched to be exposed to the frame 1110, the operation member 1120 can move under the action of the elastic member 1130 only by controlling the switch 1140 to unlock the operation member 1120, and the user does not need to continuously apply force to the operation member 1120, which is more convenient and quick. When the function key 1124 needs to be hidden in the frame 1110, the user only needs to push the operation member 1120 to move toward the frame 1110 until the operation member is locked by the switch 1140. It is understood that when the function key 1124 is hidden in the frame 1110, the elastic member 1130 may be deformed in a compressed state or in a stretched state, and accordingly, when the function key 1124 is exposed in the frame 1110, the elastic member 1130 may be reset from the compressed state or from the stretched state.

In some embodiments, as shown in fig. 14, the operation member 1120 is rotatably connected to the frame 1110, that is, the function key 1124 is hidden in the frame 1110 and exposed out of the frame 1110 by the rotation operation of the operation member 1120. For example, any one of the frame 1110 and the operating element 1120 is provided with a rotation shaft 1111, and the other is provided with a claw 1123 engaged with the rotation shaft 1111, or the engagement between the rotation shaft 1111 and a bearing may be selected according to the actual situation.

Alternatively, as shown in fig. 15, the elastic member 1130 is configured as a torsion spring, and includes a spiral portion 1131, a first end 1132 and a second end 1133, wherein the spiral portion 1131 is spirally wound, and the first end 1132 and the second end 1133 extend from the spiral portion 1131 by a certain length, that is, the first end 1132 and the second end 1133 need to be gradually close around a central axis of the spiral portion 1131 to deform the spiral portion 1131 to form a resilient force. In the elastic member 1130 with the torsion spring structure, since the first end 1132 and the second end 1133 are respectively fixed, the spiral portion 1131 may be fixed or not, when the spiral portion 1131 is not fixed, the spiral portion 1131 is not easy to rub and generate noise when the operation member 1120 moves, but when the spiral portion 1131 is not fixed, the spiral portion 1131 is easy to jump under the action of force when the first end 1132 and the second end 1133 are close to each other or far away from each other, particularly if the first end 1132 and the second end 1133 are not firm, the whole elastic member 1130 is easy to fly, so that the limit portion 1112 is used for restraining the spiral portion 1131, and the elastic member 1130 can be prevented from bouncing when the elastic member 1130 deforms and resets, so that the installation of the elastic member 1130 is more stable and reliable.

Alternatively, in some embodiments, the first end 1132 and the second end 1133 of the elastic member 1130 need to be gradually approaching around the central axis of the spiral portion 1131 to deform the spiral portion 1131 to form elastic force, which may be that the first end 1132 and the second end 1133 are gradually approaching along the spiral direction of the spiral portion 1131, or that the first end 1132 and the second end 1133 are gradually approaching along the reverse spiral direction of the spiral portion 1131, which may both cause the elastic member 1130 to exert force on the operating member 1120, and the first end 1132 and the second end 1133 are approaching along the reverse spiral direction relative to the first end 1132 and the second end 1133, so that the degree of spiral of the spiral portion 1131 is further enhanced, and the function key 1124 is in a hidden state most of the time, that is, that the elastic member 1130 is in a deformed state most of the time, so that it is not easy to cause the spiral portion 1131 to generate metal fatigue. Since the spiral portion 1131 is relatively free with respect to the first end 1132 and the second end 1133, the positioning of the limiting portion 1112 ensures that the spiral portion 1131 deforms along the spiral direction, and avoids deformation along the reverse spiral direction due to the jump of the elastic member 1130.

Optionally, in some embodiments, to avoid friction between the screw 1131 and the limit 1112 during movement of the operating member 1120, the screw 1131 is configured such that when the switch 1140 locks the operating member 1120, the screw 1131 is disengaged from the limit 1112 by a distance from the limit 1112, and when the switch 1140 unlocks the operating member 1120, the screw 1131 abuts the limit 1112 so as to be constrained by the limit 1112. Specifically, when the function key 1124 is exposed from the frame 1110, and accordingly the operation member 1120 is moved out of the frame 1110, and at this time, the elastic member 1130 is in a reset state to make the spiral portion 1131 abut against the limiting portion 1112, and when the operation member 1120 is controlled to move into the frame 1110 to make the function key 1124 hidden in the frame 1110, during this process, due to the constraining effect of the limiting portion 1112, the elastic member 1130 deforms along the spiral direction and breaks away from the limiting portion 1112, so that friction noise is avoided, and when the operation member 1120 is moved out of the frame 1110 to make the function key 1124 exposed from the pile of the frame 1110, the elastic member 1130 is reset along the reverse spiral direction and gradually abuts against the limiting portion 1112 to be constrained by the limiting portion 1112.

Optionally, to simplify the switch 1140 operation of the switch 1140, in some embodiments, the switch 1140 is configured to switchably lock and unlock the operating member 1120 when the operating member 1120 presses the switch 1140.

It will be appreciated that the switchably locking and unlocking operation member 1120 is configured to perform a locking operation when the switch 1140 is pressed, and to perform an unlocking operation when the switch is pressed again, and so on. For example, the operating member 1120 is provided with a lock tongue 1125, when the operating member 1120 is controlled to move into the frame 1110, the lock tongue 1125 is aligned with the switch 1140 to press the switch 1140, the switch 1140 can lock the lock tongue 1125, when the operating member 1120 is controlled to press toward the frame 1110, the lock tongue 1125 presses the switch 1140 again, the switch 1140 can unlock the lock tongue 1125, and the operating member 1120 can move out of the frame 1110 under the action of the elastic member 1130. Such a switch 1140 is also known to those skilled in the art as a "bounce device" or "beetle bounce device" and may be selected from the switch 1140 of any suitable size currently available in the market. If the switch 1140 is disposed on the operating member 1120, the locking tongue 1125 is disposed on the frame 1110.

In this way, when the user needs to use the function key 1124, the user only needs to press the operation member 1120 (the first side face 1121), the switch 1140 can unlock the operation member 1120, the operation member 1120 can be popped up under the action of the elastic member 1130, and when the user does not need to use the function key 1124, the user controls the operation member 1120 to move towards the frame 1110 until the lock tongue 1125 abuts against the switch 1140, and locking can be achieved, thereby being convenient and quick.

As shown in connection with fig. 7 and 8, in some embodiments, the air inlet apparatus 4000 includes a valve seat 4100 and a valve 4200, the valve seat 4100 is provided with an air channel and an air outlet 4001, the air outlet 4001 communicates with the air channel, it is understood that the air channel is a channel for transmitting fuel gas, the valve seat 4100 is generally provided with an air supply port, the air supply port communicates with the air channel, and an external air source enters the air channel through the air supply port and is then transported into the cooking bench 2000 and the oven 3000 through the air channel. Since the cooking bench 2000 has a plurality of burners and the oven 3000 also needs to use gas, it is generally necessary to provide a plurality of valves 4200 on the valve seat 4100 to control gas supplied to the cooking bench 2000 and the oven 3000, and by providing the gas passage in a U-shape or a ring shape, the valves 4200 can be mounted on the valve seat 4100 along the extending direction of the gas passage to control the gas outlet 4001, and the U-shape or the ring shape of the gas passage can prevent the valve seat 4100 from occupying an excessive length dimension, thereby maximizing the use of space, and being more suitable for centrally providing the gas inlet 4000 at the rear of the operation device 1000.

Optionally, a plurality of valves 4200 are mounted to the valve seat 4100 at intervals along the extension of the gas delivery path, which further facilitates the placement of the conduits on the valves 4200. For example, the gas transmission channel is set to be U-shaped, so that the overall structure of the valve seat 4100 is also U-shaped, and four valves 4200 are provided along the extending direction of the gas transmission channel, and since the valves 4200 need to be connected to the oven 3000 and the cooking bench 2000 through pipelines to realize the supply of the fuel gas, when the valves 4200 are spaced a certain distance, the arrangement between the pipelines is more convenient, and the mutual interference is not easy to occur.

Alternatively, as shown in connection with fig. 8-11, in some embodiments, to more securely fix the valve seat 4100 and the valve 4200, a secure connection is achieved between the valve seat 4100 and the valve 4200 by a male-female fit, such that the valve 4200 effectively achieves control of the fuel gas.

Specifically, the valve seat 4100 is provided with a first mounting portion 4110, the first mounting portion 4110 and the valve seat 4100 are integrally formed and have a convex arc surface 4111, an air outlet 4001 is provided in the convex arc surface 4111, the valve 4200 is provided with a second mounting portion 4210, the second mounting portion 4210 and the valve 4200 are integrally formed and have a concave arc surface 4211, an air inlet 4002 is provided in the concave arc surface 4211, and when the valve 4200 is mounted on the valve seat 4100, the concave arc surface 4211 and the convex arc surface 4111 cooperate such that the air inlet 4002 and the air outlet 4001 are butted. The second mounting portion 4210 is provided with an air inlet tube 4213, and the air inlet tube 4213 may be inserted into the air outlet 4001, thus making it easier to align the air inlet 4002 and the air outlet 4001 when the valve 4200 and the valve seat 4100 are mounted.

The first mounting portion 4110 is further provided with a first abutting plane 4112 located at two sides of the convex arc surface 4111, the second mounting portion 4210 is further provided with a second abutting plane 4212 located at two sides of the concave arc surface 4211, the first mounting portion 4110 and the second mounting portion 4210 are respectively provided with a screw hole 4113, and when the first abutting plane 4112 and the second abutting plane 4212 abut, the first mounting portion 4110 and the second mounting portion 4210 can also pass through the first abutting plane 4112 and the second abutting plane 4212 through screws to be locked, so that the valve seat 4100 and the valve 4200 can be effectively fixed.

Alternatively, in order to more conveniently mount the air inlet apparatus 4000, as shown in connection with fig. 6, in some embodiments, the air inlet apparatus 4000 is fixed to a bottom plate of the frame 6000, for example, a portion of the bottom plate of the frame 6000 is protruded toward the inside of the combination stove, the valve seat 4100 is fixed to the protruded portion of the bottom plate, and the protruded portion of the bottom plate has a higher strength, so that the fixing of the air inlet apparatus 4000 is effectively achieved when being connected with the valve seat 4100, thereby allowing the air inlet apparatus 4000 to be spaced apart from the stove 2000 in the height direction of the combination stove, providing a sufficient space for the arrangement of the pipes, and being spaced apart from the heat emitted from the stove 2000, thereby being safer.

In some embodiments, as shown in fig. 6, the combination stove further includes an electric control device 5000, where the electric control device 5000 is a component for ensuring normal operation of each component, for example, an instruction sent by a user operating the control device 1000 needs to be transmitted to the electric control device 5000 for processing, and the electric control device 5000 sends an instruction to control operations of the oven 3000, the stove top 2000, and the like. The electronic control device 5000 is sized to be positioned behind the operator 1000 for ease of positioning, thus facilitating routing between the operators 1000. Specifically, the electronic control device 5000 may be fixed to the side wall of the frame 6000, so that the rear space of the operating device 1000 is fully utilized, and the space for arranging the air inlet device 4000 is not occupied, thereby realizing the maximum utilization in space layout.

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

Claims (9)

1. A combination stove, comprising:

a cooking bench;

the oven is arranged below the cooking bench;

the control device is arranged below the cooking bench and is positioned at one side of the oven, the control device comprises a first control mechanism and a second control mechanism, the first control mechanism and the second control mechanism are respectively provided with a function key, the function keys of the first control mechanism are configured to be capable of being hidden and exposed, and the function keys of the second control mechanism are exposed on the surface of the combined oven; and

and the air inlet device is arranged below the cooking bench and is positioned behind the control device.

2. The combination cooker as claimed in claim 1, further comprising a frame, wherein the frame encloses a mounting cavity, a first port communicating with the mounting cavity is provided at the top of the frame, and a second port and a third port communicating with the mounting cavity are provided at the front of the frame;

the kitchen range is installed in the frame in order to expose in first opening, the oven is installed in the frame in order to expose in the second opening, controlling means install in the frame in order to expose in the third opening, air inlet unit locates the installation cavity.

3. The combination cooker of claim 1, further comprising a frame, wherein the oven is provided on the frame, wherein the oven includes a door protruding from the frame along a length of the cooktop, and wherein the door is configured to be detachably provided.

4. The combination cooker of claim 1, wherein the first steering mechanism includes:

a frame;

the operation piece is movably connected with the frame body so that the function key of the first operation mechanism can be hidden and exposed out of the frame body;

the elastic pieces are arranged at intervals along the length direction of the operation piece and are respectively connected with the operation piece and the frame body; and

the switch is arranged on one of the frame body and the operating piece, is used for locking the other of the frame body and the operating piece so as to deform the elastic piece and hide the functional key of the first operating mechanism in the frame body, and is used for unlocking the other of the frame body and the operating piece so as to reset the elastic piece and expose the functional key of the first operating mechanism in the frame body.

5. The combination cooker of claim 1, further comprising a frame, wherein the control device is disposed on the frame;

the first control mechanism comprises a first outer panel, the first outer panel protrudes out of the frame along the length direction of the cooking bench, and the first outer panel is configured to be detachably arranged; and/or the second control mechanism comprises a second outer panel, the second outer panel protrudes out of the frame along the length direction of the cooking bench, and the second outer panel is configured to be detachably arranged.

6. The combination cooker as claimed in claim 1, wherein the air inlet means includes:

the valve seat is provided with a gas transmission channel and a gas outlet communicated with the gas transmission channel, and the gas transmission channel is U-shaped or annular; and

and the valve is arranged on the valve seat and used for controlling the on-off of the air outlet.

7. The combination cooker of claim 6, wherein the valve seat is provided with a first mounting portion, the valve is provided with a second mounting portion, the first mounting portion is provided with the air outlet, the second mounting portion is provided with an air inlet, and the first mounting portion and the second mounting portion are in concave-convex fit connection so that the air outlet and the air inlet are communicated.

8. The combination cooker of claim 1, further comprising an electrical control device electrically connected to the control device and disposed behind the control device.

9. The combination cooker of claim 8, further comprising a housing, said electronic control device being mounted to a side wall of said housing.

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