CN219014388U - Integrated kitchen range - Google Patents

Abstract

The utility model belongs to the technical field of combined stoves and discloses an integrated stove, which comprises a steaming and baking box assembly, a gas stove assembly and a blast assembly, wherein the steaming and baking box assembly comprises a shell with an opening at the top; the gas stove assembly comprises a stove head and a stove face frame, the stove face frame is arranged above the shell and forms a cavity with the shell, the stove face frame is provided with an air inlet hole communicated with the cavity, the stove head comprises an injection pipe, and one end of the injection pipe provided with a primary air inlet is positioned in the cavity; the air blast component comprises an air blower, the air blower is arranged in the cavity, an air outlet of the air blower is opposite to the primary air inlet, and the air blower can suck external air into the cavity through the air inlet hole and send the external air into the injection pipe. According to the utility model, the air blower is arranged in the cavity, so that external air can be fed into the injection pipe to increase the air inlet quantity, and the air inlet quantity can be regulated through the air door on the injection pipe, so that the accurate control of the air inlet quantity and the stable air inlet quantity are realized.

Description

Integrated kitchen range

Technical Field

The utility model relates to the technical field of combined stoves, in particular to an integrated stove.

Background

The integrated kitchen range is a multifunctional combined kitchen range integrating a range hood, a gas kitchen range, an oven, a dish washer, a sterilizing cabinet, a storage cabinet and the like, and has the advantages of high space utilization rate, multiple functions, convenience in operation control and the like.

When the gas stove and the oven are combined, the oven is arranged below the gas stove and limited by the installation space and the position, and the traditional household gas stove is generally not provided with a blower or is difficult to install, so that the air inlet quantity is small, and the thermal power is difficult to reach the thermal power required by quick-frying. When the gas stove adopts the blast stove, sufficient air can be provided for realizing the thermal power required by the stir-frying through the blast of the blast fan, but the blast and the air intake of the blast fan are both airtight, and the air intake is controlled by means of current, so that the air intake is greatly interfered by the current, the accuracy is difficult to control, and the problem of unstable air intake is easily caused; when the air-blast stove is used, the air-blast stove needs to be started and then ignited, so that the air-blast stove continuously blows when the air-blast stove works, and once the air-blast stove fails, the air-blast stove cannot be used continuously.

Disclosure of Invention

The utility model aims to provide an integrated stove, which can effectively solve the problems of small air inlet quantity, unstable air inlet quantity and inaccuracy of a gas stove of the integrated stove.

The technical problems are solved by the following technical scheme:

an integrated range, comprising:

the steaming and baking box assembly comprises a shell, wherein the top of the shell is provided with an opening;

the gas stove assembly comprises a stove head and a stove face frame, wherein the stove face frame is arranged above the shell and forms a cavity with the shell, the stove face frame is provided with an air inlet hole for communicating the cavity with the outside, the stove head comprises an injection pipe, and one end of the injection pipe, provided with a primary air inlet, is positioned in the cavity;

the air blast assembly comprises an air blower, the air blower is arranged in the cavity, an air outlet of the air blower is opposite to the primary air inlet on the injection pipe, and the air blower is configured to suck external air into the cavity through the air inlet hole and send the external air into the injection pipe.

Compared with the background technology, the integrated stove has the following beneficial effects:

according to the integrated kitchen, the kitchen surface frame of the gas kitchen range assembly is arranged above the shell of the steam oven assembly, a cavity is formed between the kitchen surface frame and the shell, and an air blower is arranged in the cavity and can send outside air into the injection pipe of the gas kitchen range assembly to increase the air inlet quantity; the primary air inlet of the injection pipe is positioned in the cavity, the air outlet of the air blower is opposite to the primary air inlet of the injection pipe, so that the air inlet amount can be conveniently adjusted through the air door on the injection pipe.

In one embodiment, the blower assembly further comprises a temperature sensor and a control circuit board, wherein the temperature sensor is arranged in the cavity and used for detecting the air temperature in the cavity, the control circuit board is arranged on the shell or the stove face frame, and the temperature sensor and the blower are respectively and electrically connected with the control circuit board.

In one embodiment, the blower assembly further comprises a heating tube disposed within the cavity and located at an air inlet of the blower, the heating tube electrically connected to the control circuit board, the heating tube configured to heat air within the cavity.

In one embodiment, the integrated cooker further comprises a micro switch, wherein the micro switch is arranged on a valve body of the gas cooker assembly and is electrically connected with the blower and the control circuit board, the valve body comprises a knob, and the knob can trigger the micro switch.

In one embodiment, the heating pipe is ring-shaped, and the heating pipe is arranged around the circumference of the air inlet of the blower.

In one embodiment, the blower assembly further comprises a mounting plate and a bracket, wherein the mounting plate is provided with a through hole, the blower is fixed on the mounting plate, an air inlet of the blower is communicated with the through hole, the mounting plate is fixed on the bracket, and the bracket is fixedly connected with the shell and/or the oven face frame.

In one embodiment, the bracket is in a right-angle Z shape, flanges are arranged at two ends of the bracket, a horizontal installation surface is arranged in the middle of the bracket, the two flanges are respectively connected with a beam plate on the oven face frame and a body connection plate on the shell, and the installation plate is fixed on the horizontal installation surface.

In one embodiment, the air blast assembly further comprises an air duct coaming, the air duct coaming is a U-shaped plate, an air outlet of the air blower is provided with an air outlet pipe to be communicated with a primary air inlet of the injection pipe, and the air duct coaming covers the air outlet pipe of the air blower and is connected with the mounting plate.

In one embodiment, the furnace end further comprises an energy-collecting ring, the energy-collecting ring is of a hollow structure, and the energy-collecting ring is filled with heat-insulating cotton.

In one embodiment, the burner further comprises a distributor, a plurality of protrusions are arranged at intervals in the circumferential direction of the distributor, a plurality of turning fire holes are arranged on each protrusion, and each turning fire hole is in a strip-shaped gap shape.

Drawings

FIG. 1 is a schematic view of a part of the structure of an integrated cooker of the utility model;

FIG. 2 is an enlarged schematic view of the area A in the drawing;

FIG. 3 is a side view of the overall structure of an integrated cooktop of this utility model;

FIG. 4 is an enlarged schematic view of area B in FIG. 3;

FIG. 5 is a schematic view of the mounting positions of the blower assembly and burner in the integrated burner of the present utility model;

FIG. 6 is an exploded view of FIG. 5;

FIG. 7 is a schematic view of the structure of an distributor in the integrated cooker of the utility model;

fig. 8 is a schematic structural composition of the energy concentrating ring in the integrated cooker of the utility model.

Description of the reference numerals:

1. a steaming and baking box assembly; 11. a housing; 111. a fuselage connection plate;

2. a gas range assembly; 21. a burner; 22. a cooking surface frame; 221. an air inlet hole; 222. a cross beam plate; 211. an ejector tube; 2111. a primary air inlet; 2112. a gas hole; 212. a fire divider; 2121. a protrusion; 2122. rotating the fire hole; 2123. a circular fire hole; 213. an energy-gathering ring; 2131. an upper cover; 2132. a lower cover; 23. a nozzle; 24. a gas pipe; 25. a valve body; 26. a damper;

3. a blower assembly; 31. a blower; 32. a bracket; 321. flanging; 322. a horizontal mounting surface; 323. a limit part; 33. a mounting plate; 331. a through hole; 332. an interface; 34. an air duct coaming; 341. a plug-in part; 35. a temperature sensor; 36. heating pipes;

4. a cavity.

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 without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Example 1

An integrated kitchen range, as shown in fig. 1-4, comprises a steam oven module 1, a gas kitchen range module 2 and a blast module 3, wherein the steam oven module 1 comprises a shell 11, and the top of the shell is provided with an opening; the gas stove assembly 2 comprises a stove head 21 and a stove face frame 22, the stove face frame 22 is arranged above the shell 11 and forms a cavity 4 with the shell 11, the stove face frame 22 is provided with an air inlet 221 which communicates the cavity 4 with the outside, the stove head 21 comprises an injection pipe 211, and one end of the injection pipe provided with a primary air inlet 2111 is positioned in the cavity 4; the blower assembly 3 includes a blower 31, the blower 31 being disposed within the cavity 4 with an air outlet of the blower 31 facing a primary air inlet 2111 on the ejector tube 211, the blower 31 being configured to draw ambient air into the cavity 4 through the air inlet 221 and into the ejector tube 211.

It should be noted that the integrated cooker is a unitary structure, the housing 11 of the steam oven module 1 extends upward to form an opening at the top, the cooker face frame 22 of the gas cooker module 2 is disposed over the opening of the housing 11 and connected to the housing 11, and the cavity 4 is formed between the cooker face frame 11 and the housing 11. As shown in fig. 5 and 6, the injection end of the injection pipe 211 is provided with a gas hole 2112 and two primary air inlets 2111, the two primary air inlets 2111 are arranged on two sides of the gas hole 2112, and the air inlet 26 is arranged at the primary air inlet 2111 to adjust the air inlet quantity through the air door 26. The gas hole 2112 of the injection pipe 211 is sequentially connected with a nozzle 23, a gas pipe 24 and a valve body 25, and a knob is arranged on the valve body 25 to adjust the gas inflow in a conventional manner in the field. In the utility model, one end of the injection pipe 211 with a primary air inlet 2111 is positioned in the cavity 4, the air blower 31 is arranged in the cavity 4, the air inlet of the air blower 31 is communicated with the external air and the cavity 4 through the air inlet 221, the air outlet of the air blower 31 is opposite to the primary air inlet 2111 on the injection pipe 211, when the air blower 31 works, the air blower 31 can suck the external air into the cavity 4 through the air inlet 221 and send the air into the injection pipe 211 so as to increase the air inlet quantity, thereby being beneficial to improving the thermal power of the furnace end 21 and meeting the power requirements such as quick-frying and the like. Further, when the steaming and baking box assembly 1 works, as the cavity 4 is positioned at the top of the steaming and baking box assembly 1, the air in the cavity 4 can be heated by the radiation heat of the steaming and baking box assembly 1, the temperature is increased, and the air blower 31 is started at the moment to play a role in radiating the heat of the top of the steaming and baking box assembly 1; at this time, if the gas range assembly 1 is also in an operating state, the blower 31 can send the air having an increased temperature into the injection pipe 211, thereby improving the thermal efficiency of the gas range assembly 1.

In one embodiment, the blower assembly 3 further includes a temperature sensor 35 and a control circuit board, wherein the temperature sensor 35 is disposed in the cavity 4 and is used for detecting the air temperature in the cavity 4, and the control circuit board is disposed on the housing 11 or on the cooking surface frame 22, and the temperature sensor 35 and the blower 31 are respectively electrically connected with the control circuit board.

As shown in fig. 2 and 6, the temperature sensor 35 is fixed on the side of the mounting plate 33 away from the blower 31, and further, the temperature sensor 35 is disposed on the air inlet side of the blower 31, so as to detect the air temperature of the air inlet side of the blower 31 in the cavity 4. The temperature sensor 35 is electrically connected with a control circuit board, and the control circuit board controls the start-stop state of the blower 31 after collecting temperature information of the temperature sensor 35. When the steaming and baking box assembly 1 works independently, if the temperature information of the temperature sensor 35 shows that the temperature in the cavity 4 is higher and exceeds the first set temperature, the air blower 31 can be automatically started to work through the control circuit board so as to radiate the cavity 4, so that the heat radiation of the steaming and baking box assembly 1 is realized, and the influence of the overhigh temperature on the service life of equipment or accidental injury is avoided.

In one embodiment, the blower assembly 3 further includes a heating tube 36, the heating tube 36 being disposed within the cavity 4 and located at the air inlet of the blower 31, the heating tube 36 being electrically connected to the control circuit board, the heating tube 36 being configured to heat air within the cavity 4.

As shown in fig. 2 and 6, the heating pipe 36 has an auxiliary air heating function, when the ambient temperature or the air temperature in the cavity 4 is low, the low-temperature air enters the injection pipe 211 to negatively affect the overall heat efficiency of the gas stove assembly 2, so that the air entering the injection pipe 211 can be heated by arranging the heating pipe 36, and the heated air is sent into the injection pipe 211 through the blower 31, so that the combustion efficiency of the gas can be improved, and the overall heat efficiency of the gas stove assembly 2 is further improved. In combination with the temperature sensor 35, according to the temperature value detected by the temperature sensor 35, the control circuit board can flexibly control the starting and stopping of the heating pipe 36, normally, when the gas stove assembly 2 and the steam oven assembly 1 work simultaneously, the air in the cavity 4 is automatically heated due to the heat radiation of the steam oven assembly 1, at the moment, the heating pipe 36 is not required to be started, the air in the cavity 4 is directly sent into the injection pipe 211 through the air blower 31, so that the effect of improving the heat efficiency is achieved, the heat recycling is realized, and the energy is saved. When the gas range assembly 2 is operated alone, if the temperature of the air in the cavity 4 detected by the temperature sensor 35 is low, the control circuit board automatically activates the blower 31 and the heating pipe 36 so as to improve the heat efficiency.

In one embodiment, the heating tube 36 is annular, and the heating tube 36 is disposed around the circumference of the air inlet of the blower 31.

As shown in fig. 2, the aperture of the heating pipe 36 is consistent with that of the through hole 331 on the mounting plate 33, and the heating pipe 36 is circumferentially arranged around the air inlet of the blower 31, that is, fixed around the through hole 331, so that the air in the air inlet can be uniformly heated, and the heating efficiency is high. The heating power of the heating pipe 36 is adjustable.

In one embodiment, the blower assembly 3 further includes a mounting plate 33 and a bracket 32, the mounting plate 33 is provided with a through hole 331, the blower 31 is fixed on the mounting plate 33, the air inlet of the blower 31 is communicated with the through hole 331, the mounting plate 33 is fixed on the bracket 32, and the bracket 32 is fixedly connected to the housing 11 and/or the stove top frame 22.

As shown in fig. 1 and 2, the front end of the housing 11 of the steaming and baking oven assembly 1 is provided with a body connecting plate 111, and two ends of the body connecting plate 111 are respectively connected with two side inner walls of the housing 11, so as to increase the structural strength of the housing 11 and avoid deformation; the lower part of the stove face frame 22 of the gas stove assembly 2 is provided with a beam plate 222 to support and strengthen the stove face frame 22, and two ends of the beam plate 222 are fixed on two side inner walls of the shell 11, in the utility model, the beam plate 222 is retracted relative to the front end of the machine body connecting plate 111, so that a cavity 4 is formed between the stove face frame 22 and the machine body connecting plate 111 after being arranged on the beam plate 222, as shown in fig. 1, a long groove type cavity 4 penetrating left and right is formed, and further, the air blast assembly 3 can be arranged in the cavity 4.

As shown in fig. 2, 5 and 6, in order to fix the blower 31 in the cavity 4 with the outlet of the blower 31 facing the primary air inlet 2111 on the ejector pipe 211, the blower 31 is mounted in place by the mounting plate 33 and the bracket 32. Under the condition that the following mechanical connection is detachable connection, a screw connection mode is adopted in many cases. As shown in fig. 2, the blower 31 is fixed on the bracket 32 by the mounting plate 33, and both ends of the bracket 32 are respectively connected with the beam plate 222 and the body connecting plate 111, so that the connection is stable and reliable, and the vibration of the blower 31 during operation is reduced. In the present embodiment, the case where one blower 31 is provided is taken as an example, and in other embodiments, a plurality of blowers 31 may be provided according to actual needs, corresponding to the primary air inlets 2111 of the ejector tube 211 of the burner 21, respectively. As shown in fig. 5 and 6, the air door 26 adopted by the gas stove assembly 2 of the present utility model can be used for air intake from left to right, the air blower 31 is only arranged at the right primary air inlet 2111 on the injection pipe 211, the left primary air inlet 2111 is open, and the air door 26 can adjust the air intake quantity entering the primary air inlet 2111 to meet the combustion power requirement of the gas stove assembly 2.

Referring to fig. 2 and 6, in one embodiment, the bracket 32 is in a right-angle Z shape, two ends of the bracket are provided with flanges 321, a horizontal mounting surface 322 is provided in the middle of the bracket 32, and the two flanges 321 are respectively connected with a beam plate 222 on the stove top frame 22 and the body connecting plate 111 on the housing 11, and the mounting plate 33 is fixed on the horizontal mounting surface 322.

Preferably, the bracket 32 is a plate, and is bent at right angles for multiple passes to form a structure with a middle horizontal mounting surface 322 and turned edges 321 at two ends, as shown in fig. 2, the middle horizontal mounting surface 322 of the bracket 32 is connected between the machine body connecting plate 11 and the cross beam plate 21, the turned edges 321 at one end of the bracket 32 are lapped on the top surface of the cross beam plate 222 and are connected by screws, and the turned edges 321 at the other end are stopped on the upper surface of the machine body connecting plate 111 and are connected by screws, so that the bracket 32 fully utilizes the strength of the cross beam plate 222 and the machine body connecting plate 111 to fix the blower 31, and the blower 31 can have better stability in working. Preferably, the two sides of the horizontal installation surface 322 are provided with upward limiting parts 323, the two sides of the horizontal installation surface 322 are bent upwards to form the assembly, the installation plate 33 is vertically arranged to fix the blower 31, the bottom end of the installation plate 33 is horizontally bent and connected to the horizontal installation surface 322 through screws, and the side surface of the installation plate 33 facing the blower 31 is abutted against the inner side surface of one limiting part 323 of the horizontal installation surface 322, so that positioning installation is realized. The assembly of the mounting plate 33 and the blower 31 can be replaced integrally according to the power requirement of the blower, and the bracket 32 has better universality and can be used for mounting the assembly with various types of blowers 31.

In one embodiment, the blower assembly 3 further includes an air duct shroud 34, the air duct shroud 34 is a U-shaped plate, the air outlet of the blower 31 is provided with an air outlet pipe to communicate with the primary air inlet 2111 of the ejector pipe 211, and the air duct shroud 34 covers the air outlet pipe of the blower 31 and is connected to the mounting plate 33.

As shown in fig. 5, the air duct shroud 34 is disposed between one of the primary air inlets 2111 of the ejector pipe 211 and the air outlet of the blower 31, and when the length or installation space of the air outlet pipe of the blower 31 is insufficient for sealing connection with the primary air inlet 2111, the air duct shroud 34 may be employed as an extension of the air outlet pipe of the blower 31, joining the air outlet and the primary air inlet 2111, and a sealing structure may be made. The air duct coaming 34 can reduce the requirement on the installation accuracy of the blower 31 and improve the installation efficiency. As shown in fig. 6, two free ends of the air duct coaming 34 are provided with plug-in parts 341, the mounting plate 33 is provided with plug-in ports 332, and when in mounting, the plug-in parts 341 are plugged in the plug-in ports 332 to fix the air outlet pipe of the blower 31, so that the shake of the air outlet pipe of the blower 31 can be reduced, and the mounting and positioning functions are realized. The air duct coaming 34 adopts a splicing and fixing mode, so that the replacement, the disassembly and the assembly are convenient.

During installation, the two ends of the bracket 32 are respectively fixed on the machine body connecting plate 111 and the beam plate 222 by screws; then the heating pipe 36 is riveted with the mounting plate 33, the blower 31 is fixed on the mounting plate 33 through a screw, the air duct coaming 34 is spliced on the mounting plate 33, and the probe of the temperature sensor 35 is fixed on the mounting plate 33; the mounted mounting plate 33 is screwed to the bracket 32.

In one embodiment, the integrated cooker further comprises a micro-switch, which is arranged on the valve body 25 of the gas cooker assembly 2 and is electrically connected with the blower 31 and the control circuit board, and the valve body 25 comprises a knob, which can trigger the micro-switch.

In the embodiment of the utility model, the blower 31 is not always in a working state, the working of the blower 31 can be controlled by the control circuit board, the micro switch is arranged on the valve body 25, the micro switch can be triggered by rotating the knob, the knob is a conventional arrangement structural member on the valve body 25, and the control circuit board receives a trigger signal of the micro switch by rotating the knob to rotate the drum wind gear, so that the blower 31 and the heating pipe 16 can be started or closed. The valve body 25 is an existing structure of the gas stove assembly 2, in this embodiment, only a blowing gear is required to be set on the front end operation panel, and a micro switch on the valve body 25 is triggered and regulated through a knob which is conventionally set. The micro switch and the blower 31 are electrically connected with the control circuit board, so that flexible control of the blower 31 is realized, and compared with a blower stove in the prior art, the blower 31 adopts a small direct current blower to meet the requirements, has small volume, is convenient to control, and can be independently replaced and operated.

In one embodiment, the burner 21 of the gas range assembly 2 further includes a distributor 212, wherein the distributor 212 is provided with a plurality of protrusions 2121 circumferentially spaced apart, each protrusion 2121 is provided with a plurality of turning fire holes 2122, and the plurality of turning fire holes 2122 are in the shape of bar-shaped slits.

As shown in fig. 5 and 7, a plurality of protrusions 2121 are uniformly arranged on the circumference of the upper surface of the distributor 212, each protrusion 2121 is in a quadrangular pyramid shape, the inner side and the outer side are provided with communicated fire holes, each fire hole is in a long strip gap shape and is provided with a spiral fire hole 2122, and the inner side surface and the outer side surface of the distributor 212 are respectively provided with a communicated circular fire hole 2123 matched with the fire holes so as to meet different fire requirements. In this embodiment, the structure of the protrusion 2121 can increase the fire hole area, the protrusion 2121 is provided with a strip-shaped slit-shaped spiral fire hole 2122, the circular fire hole 2123 is a straight fire, the spiral fire and the straight fire burn more fully, and the flame transfer speed is faster.

In one embodiment, the burner 21 of the gas stove assembly 2 further comprises an energy collecting ring 213, the energy collecting ring 213 is of a hollow structure, and heat insulation cotton is filled in the energy collecting ring 213.

As shown in fig. 8, the energy-gathering ring 213 includes an upper cover 2131 and a lower cover 2132, the upper cover 2131 and the lower cover 2132 are detachably connected to form a hollow structure, the hollow structure is filled with heat-preserving cotton, the upper cover 2131 can prevent energy loss caused by outward diffusion after combustion, an energy gathering effect is achieved, the lower cover 2132 can isolate external air flow from entering an energy gathering area, the heat-preserving cotton in the middle has good heat slow conductivity and reflectivity, and when the environmental temperature changes greatly, the temperature of the heat-preserving cotton becomes slow, thereby facilitating flame stabilization. The heat source has a reflection effect on various rays (such as visible light and infrared rays) and the like which generate heat, and finally can reflect temperature junction and energy into the heat source to the greatest extent, so that the heat efficiency is improved.

The integrated kitchen range of the utility model can be added with head components such as a range hood and the like to form a multifunctional combined kitchen range. The integrated kitchen is additionally provided with the air blower 31, so that the heat efficiency of the gas kitchen assembly 2 and the heat dissipation of the auxiliary steaming and oven assembly 1 can be improved. In the quick-frying state, the blower 31 is turned on manually or automatically. When the gas stove assembly 2 and the steam oven assembly 1 work simultaneously, the temperature in the cavity 4 is high, the air does not need to be heated at the moment, and the heating pipe 36 automatically stops working after the temperature sensor 35 detects that the temperature of the air in the cavity 4 reaches a threshold value. The blower 31 operates normally to feed hot air generated from the toaster assembly 1 into the injection tube 211. The integrated kitchen range is suitable for the injection pipe 211 with a structure of a throttle 26 for left and right air intake, the blower 31 is just opposite to the primary air inlet 2111 arranged on one side, the primary air inlet 2111 on the other side is open, and the throttle 26 is adjusted to ensure that the air intake of the primary air inlet 2111 meets the requirements of combustion power and energy efficiency.

Based on the integrated cooker provided by the embodiment, when the steaming and oven assembly 1 works alone, if the air temperature in the cavity 4 is higher than the first set temperature, the control circuit board controls the blower 31 to be started to radiate heat; at this time, an operation signal of the steaming and baking box assembly 1 is received through the control circuit board, and the start of the blower 31 is controlled by the control circuit board.

When the gas cooker assembly 2 works independently, the knob on the valve body 25 is rotated to the blowing gear to trigger the micro switch, and the control circuit board controls the blower 31 and the heating pipe 36 simultaneously.

When the gas stove assembly 2 works independently, the temperature of the air in the cavity 4 is normal temperature, so that the heating pipe 36 is started, and the air blower 31 can increase the air inlet quantity and the temperature of the injection pipe 211 at the same time, so that the heat efficiency is improved;

when the gas stove assembly 2 and the steam oven assembly 1 work simultaneously, the control circuit board controls the blower 31 to start; if the air temperature in the cavity 4 is lower than the second set temperature, the knob on the valve body 25 is rotated to the blowing gear to trigger the micro switch, and the control circuit board controls the blower 31 and the heating pipe 36 to be started simultaneously; if the temperature of the air in the cavity 4 is greater than the first set temperature, the control circuit board controls the heating pipe 36 to stop heating.

In this embodiment, the air inlet of the blower 31 is connected to the air inlet 221, the air outlet is connected to one of the primary air inlets 2111 on the injection pipe 211, and the air inlet amount can be adjusted through the air door 26 on the injection pipe 211, so that the air inlet amount is prevented from being adjusted by current, the accurate air inlet control is realized, and the air inlet is more stable. The blower 31 may be a direct current blower, and the current of the direct current blower is stable, so that a stable intake air flow is obtained.

When the gas stove assembly 2 needs to be fried with big fire, the air movement speed and the air inlet quantity of the air entering the injection pipe 211 can be increased through the air blower 31, the mixing pressure of the air and the gas is improved, and the big fire and strong fire effect can be provided so as to realize the quick frying effect; simultaneously, the heating pipe 36 is started to increase the temperature of the inlet air, so that the heat efficiency is improved. When the steaming and baking oven assembly 1 works independently, the internal heat of the steaming and baking oven assembly 1 can radiate into the cavity 4 to enable the air temperature in the cavity 4 to rise, the air in the cavity 4 can be discharged by the air blower 31 through the injection pipe 211, the air flow in the cavity 4 is accelerated, the air temperature in the cavity 4 is reduced, and further the top radiation energy of the steaming and baking oven assembly 1 is reduced, so that the steaming and baking oven assembly has a heat dissipation effect; when the gas stove assembly 2 and the steam oven assembly 1 work simultaneously, air carrying radiant heat in the cavity 4 enters the injection pipe 211 through the blower 31 to be mixed with gas, so that the heat efficiency of the gas stove assembly 2 is improved. Compared with the existing blower oven, the starting control of the blower 31 in the embodiment is more flexible, and the starting and stopping control can be performed according to the requirement instead of the continuous operation. The air outlet of the blower 31 is arranged opposite to the primary air inlet 2111 of the injection pipe 211, so that the air inlet amount can be regulated through the air door 26 on the injection pipe 211 instead of regulating the air inlet amount according to current, and the air inlet amount regulation precision is higher, and the air inlet is more stable.

It is added that, when a certain function of the steaming and baking box assembly 1 is operated, the control circuit board can automatically receive the operation signal and start the blower 31 to radiate heat, and the heating pipe 36 can start heating only when the control circuit board receives the trigger signal of the micro switch.

The second set temperature is lower than the first set temperature, the first set temperature is the maximum value of the air temperature in the cavity 4, and when the air temperature is higher than the first set temperature, the blower 31 needs to be started to dissipate heat, which is generally suitable for the case that the steaming and baking oven assembly 1 works independently. The second set temperature is the lowest temperature at which the gas cooker assembly 2 can operate at the set power, and lower than the second set temperature affects the thermal efficiency of the gas cooker assembly 2, so that the air temperature entering the gas cooker assembly 2 needs to be adjusted between the first set temperature and the second set temperature through the heating pipe 36, thereby meeting the requirements of safe and efficient production.

In the specific content of the above embodiment, any combination of the technical features may be performed without contradiction, and for brevity of description, all possible combinations of the technical features are not described, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing detailed description of the embodiments presents only a few embodiments of the present utility model, which are described in some detail and are not intended to limit the scope of the present utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. An integrated kitchen, its characterized in that includes:

a steaming and baking box assembly (1), wherein the steaming and baking box assembly (1) comprises a shell (11), and an opening is formed in the top of the shell (11);

the gas stove assembly (2), the gas stove assembly (2) comprises a stove head (21) and a stove face frame (22), the stove face frame (22) is arranged above the shell (11) and forms a cavity (4) with the shell (11), the stove face frame (22) is provided with an air inlet hole (221) for communicating the cavity (4) with the outside, the stove head (21) comprises an injection pipe (211), and one end of the injection pipe (211) provided with a primary air inlet (2111) is positioned in the cavity (4);

the air blast assembly (3), the air blast assembly (3) comprises an air blower (31), the air blower (31) is arranged in the cavity (4) and an air outlet of the air blower (31) is opposite to the primary air inlet (2111) on the injection pipe (211), and the air blower (31) is configured to suck external air into the cavity (4) through the air inlet hole (221) and send the external air into the injection pipe (211).

2. The integrated oven according to claim 1, characterized in, that the air blast assembly (3) further comprises a temperature sensor (35) and a control circuit board, the temperature sensor (35) being arranged in the cavity (4) and being used for detecting the air temperature in the cavity (4), the control circuit board being arranged on the housing (11) or on the oven face frame (22), the temperature sensor (35) and the air blast (31) being electrically connected with the control circuit board, respectively.

3. The integrated kitchen range according to claim 2, characterized in that the air blast assembly (3) further comprises a heating pipe (36), the heating pipe (36) being provided in the cavity (4) at an air inlet of the air blast blower (31), the heating pipe (36) being electrically connected with the control circuit board, the heating pipe (36) being configured to heat air in the cavity (4).

4. An integrated burner according to claim 3, characterized in that it further comprises a microswitch provided on the valve body (25) of the burner assembly (2) and electrically connected to the blower (31) and to the control circuit board, said valve body (25) comprising a knob capable of triggering said microswitch.

5. An integrated kitchen range according to claim 3, characterized in that the heating pipe (36) is ring-shaped, the heating pipe (36) being arranged around the circumference of the air inlet of the blower (31).

6. An integrated kitchen range according to claim 3, characterized in that the blast assembly (3) further comprises a mounting plate (33) and a bracket (32), a through hole (331) is arranged on the mounting plate (33), the blast fan (31) is fixed on the mounting plate (33) and an air inlet of the blast fan (31) is communicated with the through hole (331), the mounting plate (33) is fixed on the bracket (32), and the bracket (32) is fixedly connected with the shell (11) and/or the kitchen range frame (22).

7. The integrated kitchen range according to claim 6, wherein the bracket (32) is of a right-angle Z shape, flanges (321) are provided at two ends, a horizontal mounting surface (322) is provided in the middle of the bracket (32), the two flanges (321) are respectively connected with a frame connecting plate (111) on the housing (11) and a beam plate (222) on the kitchen range frame (22), and the mounting plate (33) is fixed on the horizontal mounting surface (322).

8. The integrated kitchen range according to claim 6, wherein the air blast assembly (3) further comprises an air duct shroud (34), the air duct shroud (34) is a U-shaped plate, an air outlet of the air blower (31) is provided with an air outlet pipe to be communicated with a primary air inlet (2111) of the injection pipe (211), and the air duct shroud (34) covers the air outlet pipe of the air blower (31) and is connected to the mounting plate (33).

9. The integrated cooker according to claim 1, wherein the burner (21) further comprises an energy-collecting ring (213), the energy-collecting ring (213) is of a hollow structure, and heat-insulating cotton is filled in the energy-collecting ring (213).

10. The integrated cooker of claim 9, wherein the burner (21) further comprises a distributor (212), a plurality of protrusions (2121) are circumferentially arranged at intervals on the distributor (212), a plurality of turning fire holes (2122) are arranged on each protrusion (2121), and each turning fire hole (2122) is in a strip-shaped slit shape.

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