CN218864242U - Integrated kitchen range - Google Patents

Abstract

The utility model provides an integrated cooker, which belongs to the technical field of kitchen appliances, and comprises a cooker, a steaming and baking cooking device and an exhaust component, wherein the cooker comprises a top panel, and the top panel is provided with an exhaust window; the steaming and baking cooking device is positioned below the cooker and comprises an inner container and an evaporator, the inner container is provided with an air inlet channel and an air outlet channel, the evaporator provides steam for the inner container through the air inlet channel, and the air outlet assembly is detachably connected to the top panel and comprises an air inlet pipe communicated with the air outlet channel, an air outlet corresponding to an air outlet window and a water outlet pipe communicated with the evaporator; and part of liquid molecules in the discharged gas of the inner container are condensed by the exhaust assembly to form condensed water, and the condensed water flows into the evaporator through the drain pipe. The utility model discloses can avoid steaming and roasting the produced gaseous kitchen of directly discharging of culinary art device to retrieve steam, improve the utilization ratio of steam.

Description

Integrated kitchen range

Technical Field

The utility model relates to a kitchen appliance's technical field, in particular to integrated kitchen.

Background

Integration is the development direction of future cooking equipment, but the existing integrated cooker generally integrates a cooker and a steam box or an oven or a dish washer or a disinfection cabinet. There are several problems:

1) The common steam discharging and heat dissipating mode of the existing integrated kitchen range or steaming and baking cooking device is that the generated residual steam is blown from inside to outside through an air duct, so that the humidity and the temperature of a kitchen space are high, the steam can be blown to a user, and the user is uncomfortable;

2) The oil fume generated by the steaming and baking cooking device on the market at present is directly discharged in a kitchen space under most conditions and is not better recovered.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integrated kitchen, through exhaust assembly can avoid evaporate and roast cooking device combustion gas direct drainage to the kitchen, the part evaporates roast cooking device combustion gas process the range hood is siphoned away, and the part evaporates roast cooking device combustion gas and is in form the comdenstion water behind the exhaust assembly condensation, the comdenstion water flows into the evaporimeter, avoids evaporating roast cooking device produced gas and directly discharges into the kitchen to the comdenstion water to steam formation is retrieved and is recycled, has improved the utilization ratio of steam.

For realizing the purpose of the utility model, the utility model adopts the following technical proposal:

according to the utility model discloses an aspect provides an integrated kitchen, and this integrated kitchen adopts foretell integrated kitchen's control method, include:

the cooker comprises a top panel, wherein the top panel is provided with an exhaust window;

the steaming and baking cooking device is positioned below the stove and comprises an inner container and an evaporator, wherein the inner container is provided with an air inlet channel and an air outlet channel, and the evaporator provides steam for the inner container through the air inlet channel;

the exhaust assembly is detachably connected to the top panel and comprises an air inlet pipe, an air outlet and a water drain pipe, wherein the air inlet pipe is communicated with the exhaust channel, the water drain pipe is communicated with the evaporator, and the air outlet corresponds to the exhaust window;

and part of liquid molecules in the gas discharged from the inner container are condensed by the exhaust assembly to form condensed water, and the condensed water flows into the evaporator through the drain pipe.

According to the utility model discloses an embodiment, wherein, exhaust subassembly includes:

the mounting seat is inserted into the exhaust window and fixedly connected to the top panel;

the connecting box is detachably connected to the mounting seat;

the steam box is arranged inside the connecting box, the steam box is communicated with the air inlet pipe, a connecting box air inlet hole corresponding to the air inlet pipe is formed in the connecting box, and the air inlet pipe penetrates through the connecting box air inlet hole.

According to the utility model discloses an embodiment, wherein, the mount pad includes:

a sleeve fitted with the exhaust window and inserted into the exhaust window;

the mounting panel, the rigid coupling in telescopic top, and seted up corresponding to exhaust window's mounting panel through-hole, wherein, the sleeve will the mounting panel divide into to be located the sleeve outside with first installation department with be located the inside second installation department of sleeve, first installation department rigid coupling in the roof-panel, the second installation department can dismantle connect in the top of connecting box.

According to the utility model discloses an embodiment, wherein, the top periphery of connecting box is provided with the boss, the top of boss is seted up flutedly downwards, the second installation department be provided with corresponding to the mounting panel of recess is protruding, the protruding card of mounting panel is gone into the recess, in order to realize the mount pad with the connection of connecting box.

According to the utility model discloses an embodiment, wherein, the drain pipe with be provided with filter equipment between the evaporimeter for purify the entering the evaporimeter the comdenstion water.

According to the utility model discloses an embodiment, wherein, the steam box is provided with the level gauge, the drain pipe rigid coupling in the steam box, the solenoid valve is installed to the drain pipe, in order to regulate and control the drain pipe to the evaporimeter is carried the comdenstion water.

According to the utility model discloses an embodiment, wherein, exhaust assembly still includes:

and the air inlet nozzle is fixedly connected to the air inlet pipe and communicated with the exhaust channel.

According to the utility model discloses an embodiment, wherein, exhaust assembly still includes:

and the steam cover is covered above the mounting seat and forms a sealed cavity with the steam box, wherein the steam cover is provided with the exhaust port.

The utility model provides an embodiment has following advantage or beneficial effect:

the utility model discloses an integrated kitchen, through exhaust assembly can avoid evaporate and roast cooking device combustion gas direct discharge to the kitchen, the part evaporates and roast cooking device combustion gas process the range hood is siphoned away, and the part evaporates and roast cooking device combustion gas is in form the comdenstion water behind the exhaust assembly condensation, the comdenstion water is gone into the evaporimeter, can prevent promptly that steam from arranging outward to carry out the recovery with the comdenstion water that steam formed and recycle, improved the utilization ratio of steam.

Drawings

The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings.

Fig. 1 is a schematic view of an integrated cooker shown according to an exemplary embodiment.

Fig. 2 is a schematic diagram illustrating a steam-and-bake cooking device and an exhaust assembly according to an exemplary embodiment.

FIG. 3 is a schematic illustration of an exhaust assembly shown according to an exemplary embodiment.

FIG. 4 is a cross-sectional view of an exhaust assembly shown according to an exemplary embodiment.

Fig. 5 is an enlarged view of a point a in fig. 5.

Fig. 6 is a control logic diagram illustrating a control method of an integrated cooker according to an exemplary embodiment.

Fig. 7 is a work flow diagram of an integrated cooker according to an exemplary embodiment.

Wherein the reference numerals are as follows:

1. a cooker; 11. a top panel; 2. a steaming and baking cooking device; 3. oil smoke is absorbed; 4. an exhaust assembly; 41. a mounting seat; 411. a sleeve; 412. mounting a plate; 4121. the mounting plate is raised; 42. a connection box; 421. a boss; 4211. a groove; 43. a steam box; 44. an air inlet nozzle; 45. a steam cover; 400 air inlet pipes; 401. an exhaust port; 402. and a water discharge pipe.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus a detailed description thereof will be omitted.

The terms "a", "an", "the" are used to indicate the presence of one or more elements/components/etc.; the terms "comprising" and "having" are intended to be inclusive and mean that there may be additional elements/components/etc. other than the listed elements/components/etc.

As shown in fig. 1 to 5, fig. 1 illustrates a schematic view of an integrated cooker provided by the present invention. Fig. 2 shows a schematic connection diagram of the steaming and baking cooking device 2 and the exhaust assembly 4 provided by the invention. Fig. 3 shows a schematic view of an exhaust assembly 4 provided by the present invention. Fig. 4 shows a cross-sectional view of an exhaust assembly 4 provided by the present invention. Fig. 5 is an enlarged view at a in fig. 5.

The integrated cooker of the embodiment of the invention comprises:

the stove 1 comprises a top panel 11, wherein the top panel 11 is provided with an exhaust window;

the steaming and baking cooking device 2 is positioned below the cooker 1 and comprises an inner container and an evaporator, wherein the inner container is provided with an air inlet channel and an air outlet channel, and the evaporator provides steam for the inner container through the air inlet channel;

the exhaust assembly 4 is detachably connected to the top panel 11 and comprises an air inlet pipe 400, an exhaust port 401 and a water drain pipe 402, wherein the air inlet pipe 400 is communicated with an exhaust channel, the water drain pipe 402 is communicated with the evaporator, and the exhaust port 401 corresponds to an exhaust window;

wherein, part of the exhausted gas of the inner container flows into the exhaust component 4 through the exhaust channel and flows into the upper part of the cooker 1 through the exhaust port 401 and the exhaust window, part of liquid molecules in the exhausted gas of the inner container are condensed by the exhaust component 4 to form condensed water, and the condensed water flows into the evaporator through the drain pipe 402.

The integrated cooker further comprises a range hood 3 which is positioned above the cooker 1, the steaming and baking cooking device 2 is positioned below the cooker 1 and used for sucking away oil smoke generated by the cooker 1 or gas exhausted by the steaming and baking cooking device 2, and particularly adopts the control method of the integrated cooker, the steaming and baking cooking device 2 comprises an inner container, an evaporator and a water tank, the inner container is provided with an air inlet channel and an air outlet channel, the water tank is used for supplying water to the evaporator, and the evaporator supplies steam to the inner container through the air inlet channel; the exhaust passage is communicated with an air inlet pipe 400 on the exhaust assembly 4 and is used for conveying the gas exhausted from the liner to the exhaust assembly 4 through the exhaust passage, part of the gas exhausted from the liner flows above the top panel 11 through the exhaust assembly 4, part of the gas exhausted from the liner is condensed in the exhaust assembly 4 to form condensed water, and the condensed water flows into the evaporator through a drain pipe 402. This implementation can avoid steaming and baking 2 combustion gas of cooking device directly to get into the kitchen, can also realize the recovery of steam and recycle, has improved steam utilization and has rateed, reduces energy loss.

In a preferred embodiment of the present invention, the exhaust assembly 4 comprises:

a mounting seat 41 inserted into the exhaust window and fixed to the top panel 11;

a connection box 42 detachably connected to the mount 41;

the steam box 43 is arranged inside the connection box 42, wherein the steam box 43 is communicated with the air inlet pipe 400, the connection box 42 is provided with a connection box air inlet hole corresponding to the air inlet pipe 400, and the air inlet pipe 400 penetrates through the connection box air inlet hole.

The air inlet nozzle 44 is fixedly connected to the air inlet pipe 400 and communicated with the exhaust channel;

the steam cover 45 is covered above the mounting seat 41 and forms a sealed cavity with the steam box 43, wherein the steam cover 45 is provided with an exhaust port 401.

As shown in fig. 2-5, the mounting base 41 is inserted into the exhaust window and is fixedly connected to the top panel 11, the connection box 42 is detachably connected to the mounting base 41, the air inlet pipe 400 is fixedly connected to the bottom of the steam box 43, the connection box 42 is provided with a connection box air inlet hole, the air inlet pipe 400 passes through the connection box air inlet hole, the air inlet pipe 400 only needs to pass through the connection box air inlet hole to assemble the connection box 42 and the steam box 43 during installation, one end of the nozzle 44 is communicated with the air inlet pipe 400, the other end of the nozzle 44 is communicated with the exhaust channel, and the gas generated by the inner container can be conveyed through the exhaust channel and the steam box 43 conveyed by the nozzle 44, wherein, the gas generated by a part of the inner container is located above the cooker 1 and enters the exhaust port 401 on the steam cover 45, and then is sucked away by the range hood 3, and the gas generated by a part of the inner container is condensed on the steam cover 45 to form condensed water, and is discharged through the water discharge pipe 402.

In a preferred embodiment of the present invention, the mount 41 includes:

a sleeve 411 fitted to the exhaust window and inserted into the exhaust window;

the mounting plate 412 is fixedly connected to the top of the sleeve 411, and a mounting plate through hole corresponding to the exhaust window is formed in the mounting plate, wherein the sleeve 411 divides the mounting plate 412 into a first mounting portion and a second mounting portion, the first mounting portion is located outside the sleeve 411, the second mounting portion is located inside the sleeve 411, the first mounting portion is fixedly connected to the top panel 11, and the second mounting portion is detachably connected to the top of the connection box 42.

The top periphery of the connection box 42 is provided with a boss 421, the top of the boss 421 is provided with a groove 4211 downwards, the second mounting part is provided with a mounting plate protrusion 4121 corresponding to the groove 4211, and the mounting plate protrusion 4121 is clamped into the groove 4211, so that the connection between the mounting seat 41 and the connection box 42 is realized.

As shown in fig. 2 to 5, the shape of the sleeve 411 is matched with the shape of the exhaust window, when the exhaust window is a rectangular hole, the projection of the sleeve 411 on the top panel 11 is rectangular, so that the sleeve 411 is clamped into the exhaust window, and then the first mounting portion is bonded with the top panel 11 by glue, so that the mounting seat 4 can be fixedly connected with the top panel 11;

connect box 42 and second installation department can dismantle the connection, and is concrete, be provided with boss 421 in the top periphery of connecting box 42, recess 4211 has been seted up downwards at the top of boss 421, the second installation department is provided with the protruding 4121 of mounting panel corresponding to recess 4211, the protruding 4121 card of mounting panel goes into recess 4211, in order to realize mount pad 41 and connection box 42 joint, moreover, can realize mount pad 41 and connection box 42's fixed fast, and in addition, also can set up the screw hole respectively at boss 421 and second installation department, then through bolt fastening.

In a preferred embodiment of the present invention, a filtering device is disposed between the drain pipe 402 and the evaporator to purify the condensed water introduced into the evaporator.

As shown in fig. 1-5, a filtering device is added between the drain pipe 402 and the evaporator, the filtering device is a filter capable of purifying grease in condensed water, the filter can be physically adsorbed by activated carbon and the like, and can also be used for decomposing grease by using a catalyst, so that the content of grease in the condensed water is reduced, the evaporator is prevented from being polluted by various greases in the condensed water, and the grease in the condensed water enters the inner container along with the evaporator to influence the taste and quality of food.

In a preferred embodiment of the present invention, the steam box 43 is provided with a liquid level meter, the drain pipe 402 is fixedly connected to the steam box 43, and the drain pipe 402 is provided with a solenoid valve to regulate the delivery of the condensed water from the drain pipe 402 to the evaporator.

In this embodiment, through being provided with the level gauge at steam box 43, the liquid level of condensate water in can real-time detection steam box 43 avoids the interior condensate water of steam box 43 too much for the gaseous water content grow of exhaust port 401 exhanst gas on the exhaust assembly 3, increase kitchen humidity.

In addition, the drain pipe 402 is provided with a solenoid valve capable of controlling the discharge or closing of the drain pipe 402. In this embodiment the level gauge is coupled to a solenoid valve which opens when the level gauge detects a liquid level above a nominal level so that drain 402 delivers condensate to the evaporator.

As shown in fig. 1, 6-7, fig. 1 shows a control logic diagram of a control method of an integrated cooker provided by the present invention. Fig. 6 shows a work flow diagram of an integrated cooker provided by the present invention. Fig. 7 shows a schematic view of an integrated cooker provided by the present invention.

The utility model discloses a control method of integrated kitchen, this integrated kitchen include cooking utensils 1, evaporate roast culinary art device 2 and range hood 3, wherein, cooking utensils 1 sets up in evaporating roast culinary art device 2's top, and range hood 3 sets up in cooking utensils 1's top, and control method includes:

detecting whether the cooker 1 and the steaming and baking cooking device 2 are started or not;

if only the kitchen range 1 is started, the range hood 3 is started, the corresponding relation between the gear of the kitchen range 1 and the gear of the range hood 3 is selected, the gear of the kitchen range 1 is detected in real time, the gear of the range hood 3 is adjusted according to the detected gear of the kitchen range 1, and after the kitchen range 1 is closed, the range hood 3 is closed after continuously working for a set time;

if only the steaming and baking cooking device 2 is started, the range hood 3 is started, the corresponding relation between the gear of the steaming and baking cooking device 2 and the gear of the range hood 3 is selected, the gear of the steaming and baking cooking device 2 is detected in real time, the gear of the range hood 3 is adjusted according to the detected gear of the steaming and baking cooking device 2, and after the steaming and baking cooking device 2 is closed, the range hood 3 is closed after continuously working for a set time;

if the cooking range 1 and the steaming and baking cooking device 2 are started simultaneously, the range hood 3 is started, the corresponding relation between the gears of the cooking range 1 and the steaming and baking cooking device 2 and the gears of the range hood 3 is selected, the gears of the cooking range 1 and the steaming and baking cooking device 2 are detected in real time, the gears of the range hood 3 are adjusted according to the detected gears of the cooking range 1 and the steaming and baking cooking device 2, and after the cooking range 1 and the steaming and baking cooking device 2 are closed, the range hood 3 is closed after continuously working for a set time.

When the gear of the cooker 1 or the gear of the steaming and baking cooking device 2 is low and the range hood 3 opens a large gear, the oil smoke absorption effect is not good and power consumption is serious, so that it is necessary to establish a corresponding relationship between the gear of the cooker 1 and the gear of the range hood 3 and a corresponding relationship between the gear of the steaming and baking cooking device 2 and the gear of the range hood 3, and particularly, when the cooker 1 and the steaming and baking cooking device 2 are started at the same time, the corresponding relationship between the gears of the cooker 1 and the steaming and baking cooking device 2 and the gear of the range hood 3 is selected. In this embodiment, cooking utensils 1 along with gear grow firepower grow, evaporate roast culinary art device 2 along with gear grow steam emission grow, range hood 3 along with gear grow suction also grow, establish cooking utensils 1, evaporate roast culinary art device 2 and range hood 3's corresponding relation on this basis.

When only the kitchen range 1 is started, the firepower of the kitchen range 1 is increased along with the increase of the gear, and the gear of the range hood 3 is also increased along with the increase of the gear; if only the steaming and baking cooking device 2 is started and the steam discharge amount of the steaming and baking cooking device 2 is increased, the corresponding gear of the range hood 3 is correspondingly adjusted along with the change of the steam amount; when cooking utensils 1 and evaporate roast culinary art device 2 and start simultaneously, cooking utensils 1 and evaporate the corresponding relation between roast culinary art device 2's gear and range hood 3's gear, adjust range hood 3's gear, can make range hood 3 in unit interval oil smoke and dirty air's discharge, purifying effect better, can also reduce power consumption, improve kitchen service environment, improve user experience.

In addition, after the cooking stove 1 and the steaming and baking cooking device 2 are both closed, the range hood 3 needs to continue to work for a set time, such as 3-5 minutes, so as to sufficiently suck away the smoke in the kitchen.

In a preferred embodiment of the present invention, when the steaming and baking cooking device 2 is started and in the process of working, the working mode of the steaming and baking cooking device 2 is identified, and the working mode of the steaming and baking cooking device 2 includes a steam mode and a non-steam mode;

if the working mode of the steaming and baking cooking device 2 is a steam mode, the gear of steam needs to be detected in real time, and the corresponding gear of the range hood 3 is matched according to the gear of the steam; if the steaming and baking cooking device 2 is in the non-steam mode, the range hood 3 is started and is in the lowest gear.

As shown in fig. 2, the steaming and baking cooking device 2 includes a steam mode and a non-steam mode, wherein the steam mode includes a steaming function and a steaming and baking function, i.e., food is required to be processed by using steam, and at this time, a steam gear set by a user needs to be detected, and the corresponding range hood 3 gear is matched according to the gear of the steam. For example, when the steam gear has a small steam gear, a medium steam gear and a high steam gear, and the suction force of the range hood 3 has a 3 gear, the corresponding relationship between the steam gear and the range hood 3 gear is that the small steam gear corresponds to the range hood 3 1 gear, the medium steam gear corresponds to the range hood 3 2 gear, and the high steam gear corresponds to the range hood 3 gear; the non-steam mode means that steam is not needed in the food processing process, the steaming and baking cooking device 2 is equivalent to an oven at the moment, the smoke generated in the process is small, and the range hood 3 can effectively extract oil smoke and purify the air in a kitchen at the lowest gear. Through the setting, range hood 3 can enough effectively take away the steam that evaporates roast culinary art device 2 produced, avoids steam to get into the kitchen and leads to kitchen space humidity temperature on the high side, and the user is uncomfortable, can also avoid range hood 3 gears too big, causes the unnecessary energy extravagant.

In a preferred embodiment of the present invention, the steaming and baking cooking device 2 comprises an inner container and a water tank, wherein the water tank is communicated with the inner container, if the steaming and baking cooking device 2 starts a steam mode, whether the water tank is lack of water is detected in real time, and if the water is lack of water, a water adding alarm is given;

after the water adding alarm is given out, after the water adding time is set, if the water adding is detected, the range hood 3 is adjusted to the lowest gear, meanwhile, the water is added to the set position, and the steaming and baking cooking device 2 continues to work;

after the water adding alarm is given out, after the water adding time is set, the water adding is not found, and the steaming and baking cooking device 2 is closed.

When the steaming and baking cooking device 2 is started and the steam mode is started, whether the water tank is lack of water needs to be detected in real time, if the water tank is lack of water, a water adding alarm is sent, and if the water tank is not added after the set water adding time, the steaming and baking cooking device 2 needs to be closed so as to protect the steaming and baking cooking device 2; if water is added within the set water adding time, the steam generation in the steaming and baking cooking device 2 is reduced, the gear of the range hood 3 is adjusted to 1 gear, namely the lowest gear, until the water is added to the set position, and the steaming and baking cooking device 2 continues to work until the steaming and baking cooking device 2 finishes working.

In a preferred embodiment of the present invention, during the simultaneous use of the hob 1 and the steaming and baking cooking device 2, if one of the hob 1 and the steaming and baking cooking device 2 is closed, the process is continued according to another process.

As shown in fig. 7, when the cooking range 1 and the steaming and baking cooking device 2 are used simultaneously, if the cooking range 1 is closed, according to the process of starting only the steaming and baking cooking device 2, the corresponding relation between the gear of the steaming and baking cooking device 2 and the gear of the range hood 3 is selected, the working mode of the steaming and baking cooking device 2 is detected, the steam gear and the water tank condition in the steam mode are detected, the gear of the range hood 3 is adjusted in time, and the problem of poor oil smoke emission effect caused by too large or too small gear of the range hood 3 is avoided.

Similarly, when the cooking range 1 and the steaming and baking cooking device 2 are used simultaneously, if the steaming and baking cooking device 2 is closed, the corresponding relation between the gear of the cooking range 1 and the gear of the range hood 3 is selected according to the process of starting only the cooking range 1, and the gear of the range hood 3 is adjusted in time according to the gear of the cooking range 1.

This embodiment can, according to cooking utensils 1 and the operational aspect of steaming and baking cooking device 2, in time adjust range hood 3's unit for range hood 3 can enough in time take away the steam that cooking utensils 1 and steaming and baking cooking device 2 produced, avoids oil smoke and steam to get into the kitchen and leads to kitchen space humidity temperature on the high side, and the user is uncomfortable, can also avoid range hood 3 gears too big, causes the unnecessary energy extravagant.

In a preferred embodiment of the invention, the cooking range 1 comprises a left burner and a right burner, the firepower of the left burner is a, and the firepower intensity coefficient of the left burner is V ₁ The number of the gear of the left burner is N, the firepower of the right burner is b, and the fire intensity coefficient of the right burner is V ₂ The gear number of the left burner is M, the fire intensity of the stove 1 is E, and then E _(i,j) ＝a _i ×V ₁ +b _j ×V ₂ ,

In the formula, i is the current gear of the left burner, i =0,1,2,3, ·, N; j is the current gear of the left burner, j =0,1,2,3. a is _i The firepower of the left burner at the ith gear is set; b _j The firepower of the right burner at the j-th gear is shown; e _(i,j) The fire intensity of the stove 1 is shown when the gear of the left stove head is i gear and the gear of the right stove head is j; v ₁ <V ₂ ；

The thermal power of the steaming and baking cooking device 2 is W, the steam power of the steaming and baking cooking device 2 is Q, and the gear number of the steaming and baking cooking device 2 is P, wherein W is _k ＝Q _k Xf, where k is the current gear of the cooking device 2, and k =0,1,2,3,. Once.p; f is a conversion coefficient for converting the steam intensity of the steaming and baking cooking device 2 into the fire intensity;

the intensity of the fire when the cooker 1 and the steaming and baking cooking device 2 are simultaneously started is T, where T = E + W.

As shown in fig. 7, in this embodiment, the cooking stove 1 includes a left furnace end and a right furnace end, and the fire intensity value E of the cooking stove 1 is calculated according to the fire and the fire intensity coefficients of the two furnace ends, so that the fire intensity values E of the cooking stove 1 at different gears of the left furnace end and the right furnace end can be calculated, and the fire intensity values E of the cooking stove 1 are grouped according to the gear of the range hood 3, so that the fire intensity value E of the cooking stove 1 corresponds to the gear of the range hood 3, and the purification effect of the range hood 3 is improved.

Similarly, when only the steaming and baking cooking device 2 is started, the steam intensity Q of the steaming and baking cooking device 2 may correspond to the gear of the range hood 3, or the firepower intensity value W of the steaming and baking cooking device 2 at different gears may be calculated according to the steam intensity Q and the conversion coefficient f for converting the steam intensity into the firepower intensity, and a relationship is established between the firepower intensity value W of the steaming and baking cooking device 2 and the gear of the range hood 3, so that the range hood 3 can draw away the gas generated by the steaming and baking cooking device 2, thereby improving the kitchen environment.

In order to solve the problem that when the cooking range 1 and the steaming and baking cooking device 2 are started simultaneously, the gears of the cooking range 1 and the steaming and baking cooking device 2 correspond to the gears of the range hood 3, in the embodiment, the firepower intensity T when the cooking range 1 and the steaming and baking cooking device 2 are started simultaneously can be obtained by adding the firepower intensity value E of the cooking range 1 and the firepower intensity value W of the steaming and baking cooking device 2, so that the firepower intensity T is grouped and corresponds to the gears of the range hood 3, the gears of the range hood 3 can be matched with the smoke discharge direction of the simultaneous starting of the cooking range 1 and the steaming and baking cooking device 2, and the purification effect of the range hood 3 is improved.

It should be noted that when the value of i is 0, it represents that the left burner is not started; when j is 0, the furnace end is not started; when k is 0, it means that the steaming and baking cooking device 2 is not started.

In a preferred embodiment of the present invention, the range hood 3 has a gear position L, wherein L is less than or equal to N, M and P, and when only the cooking stove 1 is started, the gears of the range hood 3 sequentially correspond to a fire intensity [ E ] from low to high _(1,0) ，E _(N,M) /L]、(E _(N,M) /L，E _(N,M) /(L-1)]、(E _(N,M) /(L-1)，E _(N,M) /(L-2)]，...，(E _(N,M) /3，E _(N,M) /2]、(E _(N,M) /2，E _(N,M) ]。

As shown in FIGS. 6-7, when only the cooktop 1 is started, the minimum value E of the fire intensity E of the cooktop 1 is first calculated _(1,0) And maximum value E _(N,M) Secondly, grouping is performed according to the gear number of the range hood 3, and the range 1 and the range hood 3 are both 4 gears for illustration, when only the range is used1 when the left furnace end is opened and is at 1-gear, E _(1,0) ＝a ₁ ×V ₁ (ii) a When the left furnace end and the right furnace end are both 1-gear, E _(1,1) ＝a ₁ ×V ₁ +b ₁ ×V ₂ (ii) a When the left furnace end and the right furnace end are both 2 grades, E _(2,2) ＝a ₂ ×V ₁ +b ₂ ×V ₂ (ii) a When the left furnace end and the right furnace end are both 3 grades, E _(3,3) ＝a ₃ ×V ₁ +b ₃ ×V ₂ (ii) a When the left furnace end and the right furnace end are both 4 gears, E _(4,4) ＝a ₄ ×V ₁ +b ₄ ×V ₂ (ii) a Because the firepower of the left burner and the firepower of the right burner are increased along with the increase of the gears, namely a ₁ <a ₂ <a ₃ <a ₄ ，b ₁ <b ₂ <b3<b4, the minimum fire value of the cooking range 1 is E _(1,0) The maximum value of the fire is E _(4,4) The relationship between the fire intensity of the cooker 1 and the gear of the range hood 3 is as follows: when the firepower intensity value of the cooking range 1 is [ E ] _(1,0) ～E _(4,4) /4]In the meantime, the suction force of the range hood 3 is 1 gear; when the firepower intensity value of the cooking utensil 1 is (E) _(4,4) /4,E _(4,4) /3]In the meantime, the suction force of the range hood 3 is 2 grades; when the firepower intensity value of the cooking utensil 1 is (E) _(4,4) /3,E _(4,4) /2]In the meantime, the suction force of the range hood 3 is 3 grades; when the firepower intensity value of the cooking range 1 is (E) _(4,4) /2,E _(4,4) ]Meanwhile, the suction force of the range hood 3 is 4 grades. Therefore, only the gears of the left burner and the right burner on the cooker 1 need to be detected, and then the firepower strength value of the cooker 1 can be calculated according to the firepower of the corresponding gear, and through the relationship, the system can automatically match the corresponding gear of the range hood 3, so that the intelligence of the equipment and the effect of oil smoke absorption are improved.

In a preferred embodiment of the present invention, the range hood 3 has a gear L, wherein L is less than or equal to N, M and P, and when only the steaming and baking cooking device 2 is started, the gear of the range hood 3 corresponds to a steam intensity of [ Q ] in sequence from low to high ₁ ，Q _p /L]、(Q _p /L，Q _p /(L-1)]、(Q _p /(L-1)，Q _p /(L-2)]，...，(Q _p /3，Q _p /2]、(Q _p /2，Q _p ]。

As shown in fig. 7, when only the steaming and baking cooking device 2 is started and identified as the steam mode, the system obtains the steam intensities Q of different gears of the steaming and baking cooking device 2, and groups the steam intensities according to the gear number of the range hood 3, and of course, the steam intensities can also be converted into the corresponding fire intensities of the steaming and baking cooking device 2, so as to construct the corresponding relationship between the gears of the steaming and baking cooking device 2 and the gears of the range hood 3. Taking the example that the gear of the steaming and baking cooking device 2 is 4 and the gear of the range hood 3 is 4, the steam intensity of the steaming and baking cooking device 2 is Q from low to high in sequence ₁ 、Q ₂ 、Q ₃ And Q ₄ When the steam intensity of the steaming and baking cooking device 2 is [ Q ] ₁ ，Q ₄ /4]In the meantime, the suction force of the range hood 3 is 1 gear; when the steam intensity of the steaming and baking cooking device 2 is in (Q) ₄ /4，Q ₄ /3]In the meantime, the suction force of the range hood 3 is 2 grades; when the steam intensity of the steaming and baking cooking device 2 is in (Q) ₄ /2，Q ₄ /2]In the meantime, the suction force of the range hood 3 is 3 grades; when the steam intensity of the steaming and baking cooking device 2 is in (Q) ₄ /2，Q ₄ ]And the suction of the range hood 3 is 4 gears, so that the system can automatically match the gears of the range hood 3 according to the steaming and baking cooking device 2, and the intelligence of the equipment is improved.

In a preferred embodiment of the present invention, the range hood 3 has a gear L, wherein L is less than or equal to N, M and P, and T is set when the cooking range 1 and the steaming and baking cooking device 2 are started simultaneously _min ＝E _(1,0) +W ₁ ；T _max ＝E _(N,M)+ W _P (ii) a In the formula, T _min The minimum fire intensity T when the cooking range 1 and the steaming and baking cooking device 2 are started simultaneously _max The maximum fire intensity when the stove 1 and the steaming and baking cooking device 2 are started simultaneously;

wherein, the fire intensity of the range hood 3 corresponding to the gears from low to high in sequence is [ T _min ，T _max /L]、(T _max /L，T _max /(L-1)]、(T _max /(L-1)，T _max /(L-2)]，...，(T _max /3，T _max /2]、(T _max /2，T _max ]。

As shown in FIGS. 6-7, when the cooktop 1 and the steaming cooking device 2 are simultaneously started, T is calculated _min And T _max Meanwhile, the fire intensities of the simultaneously started cooking utensils 1 and the steaming and baking cooking devices 2 are grouped and correspond to the gear of the range hood 3, and the example of the gear number of the cooking utensils being 4, the gear number of the steaming and baking cooking devices 2 being 4 and the gear number of the range hood 3 being 4 is explained, wherein T is _min ＝E _(1,0) +W ₁ ；T _max ＝E _(4,4)+ W ₄ (ii) a The firepower intensity when the cooking range (1) and the steaming and baking cooking device (2) are started simultaneously is T _min ，T _max /4]、(T _max /4，T _max /3]、(T _max /3，T _max /2]、(T _max /2，T _max ]During, the gear of the range hood 3 that corresponds is 1 shelves respectively, 2 shelves, 3 shelves, 4 shelves, through the above-mentioned process, can construct the gear of cooking utensils 1 and steaming and roasting 2 simultaneous start-up of cooking device and range hood 3's gear corresponding relation, for example two furnace ends when cooking utensils 1 are 1 shelves, steam and roasting 2's steam gear is when 3 shelves, the above-mentioned formula can be substituted to the system, and according to the gear of cooking utensils 1 and steaming and roasting 2 simultaneous start-up of cooking device and range hood 3's gear corresponding relation, transfer range hood 3's gear, in order effectively to siphon away the flue gas that integrated kitchen produced, purify the kitchen air, improve the intellectuality of equipment.

In a preferred embodiment of the invention, whether the cooking range 1 and the steaming and baking cooking device 2 are started or not is judged by detecting the starting current of the cooking range 1 and the starting current value of the steaming and baking cooking device 2;

the stove is provided with a plug valve and a firepower signal detection device which is linked with the plug valve, and the firepower gear is judged through the firepower signal detection device; the steam gear of the steaming and baking cooking device 2 is a steam gear set by a user.

The range hood 3 comprises a fan, and when the rotating speed of the fan is lower than the rotating speed required by the system or stops, the kitchen range 1 and the steaming and baking cooking device 2 are closed.

The integrated cooker in the embodiment also comprises a control system and a circuit board, the integrated cooker detects the starting currents of the cooker 1 and the steaming and baking cooking device 2 through the circuit board, and when the circuit board only monitors the starting current (0.4E-0.5E) of the cooker 1, only the cooker 1 is started; when the circuit board only monitors the starting current value (greater than 3E) of the steaming and baking cooking device 2, the steaming and baking cooking device 2 is independently started; the circuit board simultaneously monitors the starting current of the cooker 1 and the starting current value of the steaming and baking cooking device 2, the cooker 1 and the steaming and baking cooking device 2 are simultaneously started, the circuit board feeds back the received starting signals of the cooker 1 and the steaming and baking cooking device 2 to the control system, and the control system controls the starting of the range hood 3.

The fire signal detection device is connected with the fire signal detection device of the plug valve through the plug valve on the cooker 1 and in linkage, the gear of the cooker 1 is measured, the fire signal detection device is a potentiometer in the embodiment and can also be a displacement sensor, the potentiometer transmits gear information to a control system through sensing the rotation angle of a knob on the plug valve, the gear of the steaming and baking cooking device 2 is set by a user, the control system can be directly obtained from a program of the steaming and baking cooking device 2, and then the corresponding gear relation of the range hood 3 is selected according to the starting conditions of the cooker 1 and the steaming and baking cooking device 2; moreover, still need the gear of real-time detection cooking utensils 1 and evaporate roast culinary art device 2 in cooking utensils 1 use to in time adjust range hood 3's gear according to cooking utensils 1 and evaporate roast culinary art device 2's gear, can realize high-efficient, automatic oil smoke purification performance, improve kitchen environment and user experience.

In the working process of the cooker 1 and the steaming and baking cooking device 2, if the rotating speed of the fan in the range hood 3 is lower than the rotating speed required by the system or stops, the cooker 1 and the steaming and baking cooking device 2 are closed, so that the phenomenon that oil smoke or steam stays in a kitchen to pollute the kitchen environment and cause discomfort of a user is avoided.

In embodiments of the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In the description of the embodiments of the present invention, it should be understood that the terms "upper" and "lower" are used for indicating the position or the positional relationship based on the position or the positional relationship shown in the drawings, and are only for convenience of describing the embodiments of the present invention and simplifying the description, but not for indicating or implying that the indicated device or unit must have a specific direction, be constructed and operated in a specific position, and thus, should not be construed as limiting the embodiments of the present invention.

In the description of the present specification, the terms "one embodiment," "a preferred embodiment," and the like, are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the embodiments. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made to the embodiment by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the embodiments of the present invention should be included in the protection scope of the embodiments of the present invention.

Claims (8)

1. An integrated cooker, characterized by comprising:

the stove (1) comprises a top panel (11), wherein the top panel (11) is provided with an exhaust window;

the steaming and baking cooking device (2) is positioned below the cooker (1) and comprises a liner and an evaporator, wherein the liner is provided with an air inlet channel and an air outlet channel, and the evaporator provides steam for the liner through the air inlet channel;

the exhaust assembly (4) is detachably connected to the top panel (11) and comprises an air inlet pipe (400), an air outlet (401) and a water outlet pipe (402), wherein the air inlet pipe (400) is communicated with the exhaust channel, the water outlet pipe (402) is communicated with the evaporator, and the air outlet (401) corresponds to the exhaust window;

and part of the discharged gas of the inner container flows into the exhaust assembly (4) through the exhaust channel and flows into the upper part of the cooker (1) through the exhaust port (401) and the exhaust window, part of liquid molecules in the discharged gas of the inner container are condensed by the exhaust assembly (4) to form condensed water, and the condensed water flows into the evaporator through the drain pipe (402).

2. The integrated cooker according to claim 1, characterized in that the exhaust assembly (4) comprises:

a mounting seat (41) inserted into the exhaust window and fixed to the top panel (11);

a connection box (42) detachably connected to the mounting base (41);

the steam box (43) is arranged inside the connecting box (42), the steam box (43) is communicated with the air inlet pipe (400), the connecting box (42) is provided with a connecting box air inlet hole corresponding to the air inlet pipe (400), and the air inlet pipe (400) penetrates through the connecting box air inlet hole.

3. The integrated hob according to claim 2, characterized in, that the mounting seat (41) comprises:

a sleeve (411) that fits into and is inserted into the exhaust window;

mounting panel (412), the rigid coupling in the top of sleeve (411), and seted up corresponding to exhaust window's mounting panel through-hole, wherein, sleeve (411) will mounting panel (412) divide into and are located sleeve (411) outside with first installation department with be located sleeve (411) inside second installation department, first installation department rigid coupling in top panel (11), the second installation department can dismantle connect in the top of connecting box (42).

4. The integrated cooker according to claim 3, wherein a boss (421) is arranged on the periphery of the top of the connecting box (42), a groove (4211) is formed downwards in the top of the boss (421), the second mounting portion is provided with a mounting plate protrusion (4121) corresponding to the groove (4211), and the mounting plate protrusion (4121) is clamped into the groove (4211) to realize the connection of the mounting seat (41) and the connecting box (42).

5. The integrated hob according to claim 2, characterized in, that between the drain pipe (402) and the evaporator a filtering device is arranged for purifying the condensed water entering the evaporator.

6. The integrated cooker according to claim 2, wherein the steam box (43) is provided with a liquid level meter, the drain pipe (402) is fixedly connected to the steam box (43), and the drain pipe (402) is provided with an electromagnetic valve to regulate the drain pipe (402) to convey the condensed water to the evaporator.

7. The integrated hob according to claim 2, characterized in, that the exhaust assembly (4) further comprises:

and the air inlet nozzle (44) is fixedly connected to the air inlet pipe (400) and is communicated with the exhaust channel.

8. The integrated cooker according to claim 2, characterized in that the exhaust assembly (4) further comprises:

the steam cover (45) is arranged above the mounting seat (41) in a covering mode and forms a sealed cavity with the steam box (43), and the steam cover (45) is provided with the exhaust port (401).

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