CN218096172U - Combined stove - Google Patents

Abstract

The application discloses a combined stove which comprises a filtering device, a liquid collecting disc and a liquid collecting cup; the filtering device is provided with a first liquid discharge port and is configured to be detachably arranged; the liquid collecting tray is provided with a liquid collecting area and a second liquid outlet communicated with the liquid collecting area, and the liquid collecting area is arranged below the first liquid outlet; the liquid collecting cup is communicated with the second liquid outlet. According to the technical scheme, the liquid collecting disc is arranged below the filtering device, the liquid collecting disc is communicated with the liquid collecting cup, the filtering device is detachably arranged, when a user remounts the filtering device, the area of the liquid collecting area is large, the user easily aligns the first liquid discharging port to the liquid collecting area, condensed water or an oil-water mixture flowing down from the filtering device flows to the liquid collecting area and then flows into the liquid collecting cup through the liquid collecting area, and the filtering device is more convenient to disassemble and assemble through the arrangement of the liquid collecting disc.

Description

Combined stove

Technical Field

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

Background

A combined electrical apparatus that has cooking utensils function and cigarette machine function when making up the kitchen, the combination kitchen need carry out the pump drainage with the oil smoke in the course of the work, consequently need set up filter equipment and intercept oil smoke and vapor, and filter equipment needs regularly to dismantle the clearance.

SUMMERY OF THE UTILITY MODEL

This application aims at solving the technical problem in the correlation technique at least to a certain extent, for this reason this application proposes a combination kitchen, and this combination kitchen can convenience of customers installs filter equipment.

In order to achieve the above object, the present application discloses a combination range, including:

a filter device provided with a first drain port, the filter device being configured to be detachably disposed;

the liquid collecting disc is provided with a liquid collecting area and a second liquid outlet communicated with the liquid collecting area, and the liquid collecting area is arranged below the first liquid outlet; and

and the liquid collecting cup is communicated with the second liquid outlet.

In some embodiments of the present application, the filter device further comprises a cover plate, the cover plate is provided with an opening, and the filter device is detachably arranged in the opening.

In some embodiments of the present application, the cover plate is provided with a connecting member, the connecting member includes a first connecting portion and a second connecting portion, the first connecting portion is disposed on a lower surface of the cover plate, the second connecting portion is exposed from the opening, and the filtering device is supported by the second connecting portion and detachably disposed.

In some embodiments of the present application, the opening has a symmetrical structure with a length direction of the combination stove as a symmetry axis;

the width direction of the combined stove is taken as a symmetry axis, and the opening is of a symmetrical structure.

In some embodiments of the present application, the liquid collection region is exposed at the opening.

In some embodiments of the present application, the liquid collection region includes a first partition and a second partition that are communicated with each other, one of the first partition and the second partition is provided with the second liquid discharge port, the first partition and the second partition are alternately disposed in a width direction of the combination stove and exposed from the opening, and the first liquid discharge port is located above the first partition or the second partition.

In some embodiments of the present application, the liquid collecting region further includes a third partition communicating with the first partition and the second partition, the third partition extending in a width direction of the combination stove and not being exposed to the opening.

In some embodiments of the present application, the drip pan is provided with a second vent hole, and the drip area is disposed around the second vent hole.

In some embodiments of the present application, the combination stove further includes an adsorption layer, and the adsorption layer is disposed at the second vent hole.

In some embodiments of the present application,

the filtering device is provided with a first liquid discharge head, the first liquid discharge head is communicated with the first liquid discharge port, and the first liquid discharge head extends towards the liquid collecting disc and is positioned above the liquid collecting area;

and/or the liquid collecting tray is provided with a second liquid discharging head which is communicated with the second liquid discharging port, and the second liquid discharging head is inserted into the liquid collecting cup.

According to the technical scheme, the liquid collecting disc is arranged below the filtering device, the liquid collecting disc is communicated with the liquid collecting cup, the filtering device is detachably arranged, when a user remounts the filtering device, the area of the liquid collecting area is large, the user easily aligns the first liquid discharging port to the liquid collecting area, condensed water or an oil-water mixture flowing down from the filtering device flows to the liquid collecting area and then flows to the liquid collecting cup from the liquid collecting area, and the filtering device is more convenient to disassemble and assemble through the arrangement of the liquid collecting disc.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of a cluster cooker in some embodiments;

FIG. 2 is an exploded view of a combination cooker in some embodiments;

FIG. 3 is a sectional view of a composite cooking range in some embodiments;

FIG. 4 is an enlarged view of FIG. 3 shown in phantom;

FIG. 5 is a sectional view of a composite cooking range in some embodiments;

FIG. 6 is an enlarged view of FIG. 5 shown in phantom;

FIG. 7 is a cross-sectional view of a cover plate in some embodiments;

FIG. 8 is a schematic view of a connector according to some embodiments;

FIG. 9 is a cross-sectional view of a connector according to some embodiments;

FIG. 10 is a schematic view of a combination of connectors, grilles and filtering means in some embodiments;

FIG. 11 is a cross-sectional view of the structure shown in FIG. 10;

FIG. 12 is a schematic view of a filtration apparatus according to some embodiments;

FIG. 13 is a schematic view of a filtration apparatus according to some embodiments;

FIG. 14 is a cross-sectional view of a filter assembly according to some embodiments;

FIG. 15 is a schematic view of a mount in some embodiments;

FIG. 16 is a partially exploded view of a drip pan in some embodiments;

FIG. 17 is a schematic view of a drip pan in some embodiments;

FIG. 18 is a top view of a drip pan in some embodiments;

FIG. 19 is a schematic view of a combination set looking down on a drip pan in some embodiments;

FIG. 20 is a schematic view of a fan and airframe assembly in some embodiments;

FIG. 21 is a schematic of a fan in some embodiments;

FIG. 22 is an exploded view of a blower according to some embodiments.

The reference numbers illustrate:

a body 1000;

a cover 2000, an opening 2100, a left cooking area 2210, a right cooking area 2220;

the air conditioner comprises a fan 3000, a volute 3100, an upper volute 3110, an air inlet 3111, a lower volute 3120, an air outlet 3121, an impeller 3400 and an air duct 3500;

a connector 4000, a first connection part 4100, a second connection part 4200;

a grid 5000;

a filtering device 6000, a filtering screen 6100, a first filtering screen 6110 and a second filtering screen 6120;

mounting bracket 6200, sump 6210, outer wall 6211, bottom wall 6212, inner wall 6213, first drain 6214, first drain head 6215, first vent 6220, support 6230, handle 6231;

the liquid collecting tray 7000, the liquid collecting area 7100, the first partition 7110, the second partition 7120, the third partition 7130, the second liquid discharge port 7140, the second liquid discharge head 7150 and the second ventilation hole 7200;

a liquid collecting cup 8000;

and an adsorption layer 9000.

The implementation, functional features and advantages of the object of the present application will be further explained with reference to the embodiments, and with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

It should be noted that all directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In this application, unless expressly stated or limited otherwise, the terms "connected," "secured," and the like are to be construed broadly, and thus, for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In addition, descriptions in this application as to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope claimed in the present application.

Disclosed herein is a composite range, as shown in fig. 1 to 6, and 12 to 15, which includes a filtering device 6000 in some embodiments.

The combined stove can generate oil smoke in the using process, so the combined stove needs to pump and exhaust the oil smoke. Besides, the air contains oil mist particles, water vapor and other harmful substances, a filter 6000 is arranged on the air inlet path of the combined stove, and the filter 6000 plays a role in coarse filtration. The filter device 6000 includes a mounting frame 6200 and a filter mesh 6100, when the air passes through the filter mesh 6100, a part of the oil mist particles will adhere to the filter mesh 6100, and the water vapor will also condense on the filter mesh 6100 when encountering the filter mesh 6100, and the liquid collecting groove 6210 is provided in the mounting frame 6200, and the liquid collecting groove 6210 is used to collect the condensed water or the oil-water mixture.

Specifically, the combination range includes a body 1000, a cover plate 2000, a fan 3000, and a filtering device 6000.

The body 1000 plays a role of bearing the skeleton in the combined stove, and is used for installing each part and keeping the complete machine shape of the combined stove.

The cover plate 2000 is mounted to the body 1000 to form a top surface of the combination range, and when the combination range is mounted to a cabinet, the cover plate 2000 is exposed, and the cover plate 2000 has a substantially flat plate shape, and may be made of, for example, a glass material. The cover 2000 is provided with an opening 2100, the opening 2100 penetrates the upper and lower surfaces of the cover 2000, a left cooking area 2210 is positioned on the left side of the opening 2100, a right cooking area 2220 is positioned on the right side of the opening 2100, an electromagnetic heating device is provided in the body 1000 corresponding to the left cooking area 2210, and an electromagnetic heating device is also provided in the body 1000 corresponding to the right cooking area 2220 (of course, a burner using combustible gas for combustion may be provided).

As shown in fig. 20 to 22, the fan 3000 includes a volute 3100, an impeller 3400, and a motor. The volute 3100 includes a lower volute 3120 and an upper volute 3110, the motor is mounted to the lower volute 3120, the impeller 3400 is a centrifugal wind wheel and is mounted to the lower volute 3120 and is drivingly connected to the motor, the upper volute 3110 and the lower volute 3120 are connected to cover the impeller 3400, an air duct 3500 is formed between the upper volute 3110 and the lower volute 3120, the impeller 3400 is located in the air duct 3500, the upper volute 3110 is provided with an air inlet 3111 communicated with the air duct 3500, an air outlet 3121 communicated with the air duct 3500 is formed between the upper volute 3110 and the lower volute 3120, and the fan 3000 is fixed to the machine body 1000 through the upper volute 3110.

The motor work in the fan 3000 forms the negative pressure in order to drive the impeller 3400 rotation, and outside air can enter into the fuselage 1000 from the opening 2100 of apron 2000 under the effect of pressure to enter into the wind channel 3500 through air intake 3111, then discharge through air outlet 3121, the air is from the opening 2100 of apron 2000 to the route that the air intake 3111 of fan 3000 flows can be regarded as the air inlet route.

The filter 6000 is disposed on the air intake path, and when the air passes through the filter 6000, oil mist particles in the air adhere to the filter 6100, and water vapor in the air is condensed when it meets the filter 6100. Thus, condensed water or an oil-water mixture (hereinafter, the condensed water will be described in detail) flows to the sump 6210. Since the mounting bracket 6200 is detachably provided, the user can detach the filtering device 6000 and take out the filtering device 6000 from the opening 2100, thereby dumping the condensed water in the sump 6210 and performing deep cleaning of the filtering device 6000. After cleaning the filter 6000, the filter 6000 may be placed back into the air intake path through the opening 2100.

It can be understood that the detachable arrangement of the mounting frame 6200 can realize the detachable arrangement of the whole filtering device 6000, and when the user detaches the mounting frame 6200, because the filter screen 6100 is arranged on the mounting frame 6200, the filter screen 6100 can detach and install along with the mounting frame 6200. Detachably is provided with multiple mode, for example fixes on fan 3000's air inlet route through the buckle, also can fix on fan 3000's air inlet route through magnetism, can also be through the gravity bearing on fan 3000's air inlet route. The filter 6100 can be disposed on the mounting rack 6200 in a variety of ways, such as screwing, snapping, adhering, etc.

As shown in fig. 14, in some embodiments, the filter screen 6100 is inclined so as to better direct the condensed water into the sump 6210.

When the fan 3000 works, air passes through the filter screen 6100, so that water vapor in the air is condensed into water drops on the filter screen 6100, and the water drops are separated from the filter screen 6100 and fall into the liquid collecting tank 6210 under the action of the air flow and the gravity. Generally, the filtering device 6000 is disposed above the air inlet 3111 of the fan 3000, if the filter screen 6100 is horizontally disposed, the catch basin 6210 needs to be disposed right below the filter screen 6100 and above the air inlet 3111, and the size of the catch basin 6210 needs to be adapted to the filter screen 6100, so that the air flow is blocked by the catch basin 6210, and the air flow needs to be avoided from the catch basin 6210 to enter the air inlet 3111, so that the air flow resistance is increased, the air noise is increased, and the suction force of the fan 3000 is reduced.

Therefore, the filter 6100 is inclined to solve the above problem. It can be understood that the inclined arrangement is referred to a cabinet-mounted state of the combination stove, in which the filter mesh 6100 is inclined with respect to the horizontal plane, and the arrangement of the filter 6000 and the fan 3000 mentioned above is also referred to a cabinet-mounted state of the combination stove. By arranging the filter screen 6100 obliquely, condensed water condensed on the filter screen 6100 flows along the filter screen 6100 from the top of the filter screen 6100 to the bottom of the filter screen 6100, the sump 6210 only needs to be arranged at a corresponding position at the bottom of the filter screen 6100 to receive the condensed water, and does not need to be arranged to be as large as the filter screen 6100 and arranged right below the filter screen 6100 to receive the condensed water, so that most of air cannot encounter the blockage of the sump 6210, and the arrangement of the filter screen 6100 enables the sump 6210 to receive the condensed water and cannot cause an excessive blockage to the flow of the air.

Further, as shown in fig. 14, in some embodiments, the bottom of the filter mesh 6100 is located above the bottom of the sump 6210, so as to avoid liquid accumulation on the filter mesh 6100, which may make cleaning of the filter mesh 6100 difficult.

If the bottom of the filter mesh 6100 is connected to the bottom of the liquid collecting groove 6210, when the condensed water on the filter mesh 6100 flows into the liquid collecting groove 6210, the condensed water soaks the bottom of the filter mesh 6100, and dirt is accumulated at the intersection of the filter mesh 6100 and the water surface of the condensed water, that is, dirt is easily accumulated at the intersection of the filter mesh 6100 and the water surface, and thus it is difficult to clean. In addition, when the amount of condensed water reaches a certain degree, the water covers a part of the filter screen 6100, so that the condensation area of the filter screen 6100 is reduced, and the condensation effect of the filter screen 6100 is deteriorated. Therefore, the bottom of the filter screen 6100 is located above the bottom of the liquid collecting groove 6210, that is, the bottom of the filter screen 6100 and the bottom of the liquid collecting groove 6210 are designed to be not in contact with each other, so that the condensed water can drip from the filter screen 6100 into the liquid collecting groove 6210, thereby avoiding the condensed water from soaking the filter screen 6100 to reduce the condensation area of the filter screen 6100, and continuously realizing the efficient condensation of the water vapor in the air.

In some embodiments, as shown in conjunction with fig. 14 and 15, the mounting bracket 6200 is provided with a first vent hole 6220, the filter mesh 6100 covering the first vent hole 6220, and the catch basin 6210 disposed around the first vent hole 6220.

Fan 3000 during operation can drive the air and pass filter screen 6100, for further avoiding mounting bracket 6200 to air formation hinder, set up first ventilation hole 6220 on mounting bracket 6200, the air is passing filter screen 6100 back, then can pass first ventilation hole 6220 and enter into fan 3000 in, so need not change the route that the air flows, reduce the resistance that the air flows and can make the inner structure of combination kitchen become simple simultaneously, reduce the design degree of difficulty.

The filter 6100 is mounted on the mounting frame 6200 to surround the first ventilation holes 6220, so that the mounting frame 6200 can better support the filter 6100, and the filter 6100 covers the first ventilation holes 6220 to prevent air leakage.

The collecting tank 6210 is of an annular design, that is, the collecting tank 6210 is arranged around the filter screen 6100, and the filter screen 6100 can be correspondingly provided with a plurality of collecting devices, so that the condensed water can be collected from a plurality of directions, and the condensing efficiency of the water vapor is improved. In addition, the liquid collecting grooves 6210 are communicated in an annular shape, so that condensed water collected at each position can be gathered together, and the cleaning is convenient.

Referring to fig. 3 and 14, in some embodiments, two filter screens 6100 are included, but three, four, or more filter screens 6100 may also be included, and the two filter screens 6100 form an inverted V-shaped structure, so that a filter area may be increased in a limited lateral space, and a filter efficiency may be improved.

Specifically, the two filter screens 6100 are a second filter screen 6120 and a first filter screen 6110, respectively, and the second filter screen 6120 and the first filter screen 6110 are adjacently disposed to form an inverted V-shaped structure, where the adjacent arrangement is that the two are close to each other, can be attached to each other, and can also be spaced at a certain gap. The second filter screen 6120 and the first filter screen 6110 are mutually matched and arranged side by side in the left-right direction to form an inverted V-shaped structure, so that the occupation of the transverse space of the combined stove can be reduced, and the filtering area is increased. In addition, the inclination directions of the first filter screen 6110 and the second filter screen 6120 are different, so that the occupation of the vertical space is reduced on the premise of ensuring the same filter area.

The first filter screen 6110 and the second filter screen 6120 are in an inverted V-shaped structure, such that the first filter screen 6110 is inclined toward the left cooking area 2210, and the second filter screen 6120 is inclined toward the right cooking area 2220. Generally, the combination range may be provided with a grill 5000, and the grill 5000 guides the air of the left cooking zone 2210 to flow toward the first filter screen 6110, and the flow direction is perpendicular to the first filter screen 6110 as much as possible, so that the filtering efficiency of the air from the left cooking zone 2210 is effectively improved and the flow resistance is reduced; the grill 5000 can also direct the air in the right cooking area 2220 toward the second filter 6120 in a direction as perpendicular to the second filter 6120 as possible, thus improving the efficiency of filtering the air from the right cooking area 2220 and reducing the resistance to flow.

Further, as shown in fig. 12 and 15, in some embodiments, the filtering device 6000 is provided with a support 6230, and the support 6230 is provided to facilitate grasping by a user, so as to attach and detach the filtering device 6000.

Specifically, the support 6230 is disposed on the mounting frame 6200, and the support 6230 may be a separate component fixed on the mounting frame 6200 by additional connection methods such as adhesion, snap connection, screw connection, or the support 6230 and the mounting frame 6200 may be integrally formed to increase structural strength. The supporting element 6230 is disposed on the mounting bracket 6200 in a state of crossing the first ventilation hole 6220, such that the supporting element 6230 divides the first ventilation hole 6220 into two regions, each region is respectively provided with the filtering net 6100, and the air mainly flows through the filtering net 6100, so the disposition of the supporting element 6230 does not generate an excessive obstruction to the air flow.

The top of the filter mesh 6100 extends below the support 6230 and the bottom is fixed to the sump 6210, so that the support 6230 can be provided with a handle 6231 for the user to grab and also to shield the gap between adjacent filter meshes. The bottom of the filter screen 6100 is fixed to the catch basin 6210, for example, to the side wall of the catch basin 6210, or to the bottom of the catch basin 6210, so that the condensed water on the filter screen 6100 will flow into the catch basin 6210 without requiring an additional flow guiding structure.

As shown in connection with fig. 15, in some embodiments, a first drain 6214 is provided in the sump 6210, the first drain 6214 being disposed higher than the floor of the sump 6210.

Specifically, the condensed water generated during the operation of the combination range flows into the sump 6210 to be stored, and the user is required to remove the filter device 6000 to pour the condensed water at regular intervals, but inevitably, the user may forget to perform the regular treatment, and thus the condensed water in the sump 6210 may overflow. Thus by providing the first drain 6214 in the sump 6210 and locating the first drain 6214 higher relative to the bottom of the sump 6210, condensate can be temporarily stored in the sump 6210 without draining through the first drain 6214 on the premise that the user can clean the filter 6000 at regular intervals, and if the user forgets to clean the filter 6000, the condensate can drain through the first drain 6214 and be directed to the drip cup 8000, which is typically exposed to the combination stove and is located larger to receive this excess condensate, providing further protection.

The first drain port 6214 may be provided higher than the bottom of the sump 6210, and the first drain port 6214 may be provided in the side wall of the sump 6210, or may be partially raised in the bottom of the sump 6210, and the first drain port 6214 may be provided in the raised portion.

Further, as shown in fig. 13, in some embodiments, in order to prevent condensed water from adhering to the mounting frame 6200 when flowing out of the first liquid discharge port 6214, the first liquid discharge head 6215 is connected to the mounting frame 6200 by providing the first liquid discharge head 6215, and may be formed integrally with the mounting frame 6200 in a protruding extension shape, so that when condensed water flows into the first liquid discharge head 6215 from the first liquid discharge port 6214, the condensed water is easily separated from the first liquid discharge head 6215 and is not easily adhered to the surface of the mounting frame 6200.

As shown in fig. 3 to 11, in some embodiments, the combination stove further includes a connector 4000, the connector 4000 is disposed on the lower surface of the cover plate 2000 and exposed from the opening 2100, and the filter 6000 is disposed in the opening 2100 and supported on the connector 4000, so as to detachably connect the filter 6000.

The filter device 6000 is disposed in the opening 2100, i.e., the filter device 6000 is installed to substantially cover the opening 2100, thereby allowing air to pass through the filter device 6000. By arranging the connecting piece 4000 in the cover plate 2000, the connecting piece 4000 is exposed from the opening 2100, and the filter device 6000 is supported in the connecting piece 4000 when being arranged in the opening 2100, so that the position accuracy when the connecting piece 4000 is arranged in the cover plate 2000 is only required to be ensured, the position relation of the filter device 6000 is not influenced by the machine body 1000, when the filter device 6000 is arranged in the opening 2100 and supported in the connecting piece 4000, the mutual matching between the filter device 6000 and an air inlet path can be ensured, a gap is not easy to form between the filter device 6000 and the opening 2100, and air leakage is avoided.

If the connection member 4000 is not provided to the cover plate 2000 but to the body 1000, it is necessary to ensure accurate positioning between the cover plate 2000 and the body 1000 when mounting the cover plate 2000 and the body 1000, so as to prevent the filter 6000 from being mounted in a deviated position due to deviation of the connection member 4000 from the opening 2100 of the cover plate 2000.

In addition, the filter device 6000 is supported on the attachment 4000, for example, the filter device 6000 is supported directly on the attachment 4000 by gravity, so that the filter device 6000 and the attachment 4000 can be detachably connected. The filter 6000 is supported on the connecting member 4000 by gravity, when air flows, the force applied to the filter 6000 by the air tightly presses the filter 6000 on the connecting member 4000, and the filter 6000 cannot shake to cause abnormal noise when the air flows. Handheld filter equipment 6000 of user inserts opening 2100 from the 2000 outside of apron, and filter equipment 6000 can be under the effect of gravity the bearing on connecting piece 4000, like the reason when dismantling handheld filter equipment 6000 of user extract from opening 2100 can, so convenience of customers's dismouting has promoted and has used experience.

It is understood that the connection member 4000 is exposed from the opening 2100, that is, when the combination range is mounted to a cabinet, a portion of the connection member 4000 is visible within a range surrounded by the opening 2100 when viewed from right above the combination range.

The connector 4000 is provided on the lower surface of the cover plate 2000 so as to be hidden from the upper surface of the cover plate 2000, thereby not spoiling the beauty of the cover plate 2000. In addition, since the lower surface of the cover plate 2000 can provide a sufficient position for the fastening of the connector 4000, there are more connection methods available between the connector 4000 and the lower surface of the cover plate 2000, and the fastening of the two is easier. It is only necessary to ensure that when the connector 4000 is fixed to the lower surface of the cover plate 2000, a portion of the connector 4000 is exposed from the opening 2100, so that the connector 4000 can support the filter 6000 when the filter 6000 is inserted into the body 1000 through the opening 2100 from the outside of the cover plate 2000.

The connector 4000 may be integrally injection-molded of plastic, and is formed with a first connection part 4100 and a second connection part 4200. The connecting piece 4000 is formed by adopting a plastic material, and the connecting piece 4000 has the advantages of light weight, high toughness and the like. When the combination range is mounted in a cabinet, when viewed from top to bottom, a portion hidden in the cover plate 2000 may be regarded as the first connection part 4100, and a portion exposed at the opening 2100 may be regarded as the second connection part 4200.

The connection member 4000 may be a separate member and fixed to the lower surface of the cover plate 2000 by an additional connection method, for example, the first connection part 4100 may be adhesively connected to the lower surface of the cover plate 2000, the second connection part 4200 may be welded to the lower surface of the cover plate 2000, the first connection part may be screwed to the second connection part, and the second connection part 4200 may support the filter device 6000.

As shown in fig. 14, in some embodiments, the mounting bracket 6200 includes an inner wall 6213 and an outer wall 6211, the inner wall 6213 being enclosed to form the first vent 6220, the outer wall 6211 being arranged around said inner wall 6213 to form said sump 6210 with the inner wall 6213, the outer wall 6211 being adapted to bear against the attachment member 4000 to position the entire filter apparatus 6000 in the opening 2100.

Specifically, mounting bracket 6200 has an inner wall 6213, an outer wall 6211, and a bottom wall 6212, bottom wall 6212 being located between inner wall 6213 and outer wall 6211, bottom wall 6212 and inner wall 6213 collectively enclosing sump 6210, outer wall 6211 of mounting bracket 6200 bearing against attachment member 4000 (second attachment portion 4200) when filter apparatus 6000 is mounted to opening 2100, thus enabling the positioning of filter apparatus 6000. By providing the mounting bracket 6200 with the inner wall 6213 and the outer wall 6211, not only is the collection of condensed water achieved, but also the positioning of the filter device 6000 at the opening 2100 is achieved.

Further, as shown in fig. 14, in some embodiments, the outer wall 6211 of the mounting frame 6200 is higher than the inner wall 6213 of the mounting frame 6200, which not only facilitates the fixing of the bottom of the filter mesh 6100, but also enables the entire mounting frame 6200 to be embedded in the body 1000, i.e. most of the filter 6000 to be embedded in the body 1000, and the thickness of the combination stove is reduced, so that the combination stove can be made thinner.

Specifically, the bottom of the filter screen 6100 is supported on the inner wall 6213 of the mounting frame 6200 and abuts against the outer wall 6211 of the mounting frame 6200, so that the bottom of the filter screen 6100 is fixed, and the bottom of the filter screen 6100 is located above the bottom of the liquid collecting groove 6210 and is in non-contact with the bottom of the liquid collecting groove 6210, so that condensed water on the filter screen 6100 is convenient to drip into the liquid collecting groove 6210. By designing the outer wall 6211 to be higher, most of the structure of the mounting bracket 6200 can be made to be in a state of being embedded in the body 1000, so that the thickness of the combination cooker can be compressed, and the mounting of other components can be facilitated.

As shown in fig. 1 and 2, in some embodiments, the combination range further includes a drip pan 7000 and a drip cup 8000, the drip pan 7000 is provided with a drip region 7100, and the drip region 7100 is located below the first drain 6214 to receive condensed water or oil-water mixture (the condensed water is exemplified as the following detailed description) flowing down from the filtering device 6000. The condensed water collected in the liquid collecting region 7100 is discharged into the liquid collecting cup 8000 through the second liquid discharge port 7140.

During operation of the combination stove, condensed water is formed on the filtering device 6000, and if the condensed water excessively flows out of the first drainage port 6214, as described above, some filtering devices 6000 without the catch basin 6210 in the related art are directly provided with the first drainage port 6214 to drain the condensed water. In order to collect these condensed water, a liquid collecting cup 8000 is usually disposed in the combination stove, and a user can disassemble and assemble the liquid collecting cup 8000 to clean the kitchen.

Specifically, the liquid collecting cup 8000 is mounted to the body 1000 to protrude from the outer surface of the body 1000, below the body 1000. The drip pan 7000 is fixed in the body 1000 below the cover plate 2000 and is provided with a drip collecting region 7100 and a second drain port 7140, the second drain port 7140 communicates with the drip collecting region 7100, and the second drain port 7140 communicates with the drip collecting cup 8000. The condensed water discharged from the first drain port 6214 of the filtering device 6000 is dropped into the liquid collecting region 7100, and the liquid collecting region 7100 functions to collect the condensed water and discharge the collected condensed water into the liquid collecting cup 8000 through the second drain port 7140.

After the filtering device 6000 is used for a long time, oil stains can be accumulated and the filtering device 6000 becomes dirty and needs to be disassembled and inclined, or the filtering device 6000 needs to be disassembled to pour out condensed water, when the filtering device 6000 is reinstalled, only the first liquid discharge port 6214 needs to be aligned to the liquid collection area 7100, and the area of the liquid collection area 7100 is much larger than that of the second liquid discharge port 7140, so that the operation difficulty can be reduced, and the user experience can be improved.

If the liquid collecting region 7100 is not arranged, the first liquid discharge port 6214 and the second liquid discharge port 7140 need to be aligned, even the first liquid discharge port 6214 and the second liquid discharge port 7140 are communicated in an inserting manner, the first liquid discharge port 6214 and the second liquid discharge port 7140 are relatively small in size, so that a user needs to repeatedly align the first liquid discharge port 6214 and the second liquid discharge port 7140 when the user remounts the filtering device 6000, the operation difficulty is high, and the efficiency is low. Particularly, when the user inserts the filter device 6000 into the opening 2100 from the outside of the cover plate 2000 by holding the filter device 6000, the second discharge port 7140 is blocked by the filter device 6000, which makes it more difficult to align the first discharge port 6214 and the second discharge port 7140.

Through setting up collecting area 7100, handheld filter equipment 6000 of user inserts opening 2100 from the apron 2000 outward, even filter equipment 6000 shelters from collecting area 7100 and also can not cause too big influence, because collecting area 7100's area is great, only need with first drain port 6214 roughly aim at collecting area 7100 can, the matching degree of difficulty of first drain port 6214 and collecting area 7100 is less than first drain port 6214 and second drain port 7140's matching degree of difficulty greatly, collecting area 7100 has the effect of collecting the comdenstion water, thereby can make the comdenstion water flow in to album liquid cup 8000 through second drain port 7140, improve user's use experience greatly.

Further, as shown in fig. 1 to 11, in some embodiments, the filtering apparatus 6000 is detachably disposed in the opening 2100, the user can detach the filtering apparatus 6000 from the opening 2100, and can also insert the filtering apparatus 6000 into the opening 2100 for installation, by designing the opening 2100 to be a symmetrical structure, it means that the filtering apparatus 6000 is also designed to be a symmetrical structure accordingly, so that the filtering apparatus 6000 can be installed in a front-back manner, and the user's assembling and disassembling experience can be further improved.

Specifically, a first axis of symmetry is defined, the first axis of symmetry extends along the length direction of the combination range, and the opening 2100 has a symmetrical structure with respect to the first axis of symmetry, that is, when the combination range is mounted on the cabinet, a projection of the opening 2100 on a horizontal plane is symmetrical with respect to the first axis of symmetry. Defining an axis of symmetry as a second axis of symmetry extending along the width direction of the built-up range, the opening 2100 is symmetrical about the second axis of symmetry, i.e., when the built-up range is installed in the cabinet, a projection of the opening 2100 on a horizontal plane is symmetrical about the second axis of symmetry.

It will be appreciated that if the filter apparatus 6000 is to be disposed in the opening 2100, the overall profile of the filter apparatus 6000 may also have a symmetrical configuration corresponding to the opening 2100 such that the filter apparatus 6000 may be disposed in front-to-back relation with the opening 2100. For example, the filter 6000 may be inserted into the opening 2100 in a forward direction or in a reverse direction (the reverse direction is rotated by 180 ° in the horizontal direction with respect to the forward direction) and the drip pan 7000 is provided with the drip collecting region 7100, and the drip collecting region 7100 may be larger to receive the condensed water discharged when the filter 6000 is installed in the forward or reverse direction, thereby improving the convenience of the user.

For example, the opening 2100 may have a square, rectangular, polygonal, circular shape, etc., and the corresponding filter 6000 may have a square, rectangular, polygonal, circular shape, etc. in outline.

The opening 2100 is described as being rectangular. The opening 2100 is provided at a substantially middle position of the cover 2000 between the left and right cooking areas 2210 and 2220, and a length direction of the opening 2100 is perpendicular to a length direction of the combination range, thus preventing the opening 2100 from encroaching on a space of the left and right cooking areas 2210 and 2220. The one side that the combination kitchen is close to the user when installing in the cupboard is the front side, and the one side of keeping away from the user is the rear side, and filter 6000 has first end and second end, and filter 6000's first end is close to the front side and the second end is close to the rear side, also can be that filter 6000's first end is close to the rear side and the second end is close to the front side, has realized positive and negative installation, so improves user's dismouting and experiences.

In some embodiments, as shown in conjunction with FIG. 19, the sump region 7100 is exposed at the opening 2100, which may further facilitate alignment of the sump region 7100 when the filter apparatus 6000 is disposed at the opening 2100.

Specifically, the liquid collecting region 7100 is exposed at the opening 2100, that is, when the combination range is mounted in a cabinet, at least a part of the liquid collecting region 7100 can be seen to be present within a range surrounded by the opening 2100 when viewed from the top of the cover plate 2000. As such, when a user inserts the filter apparatus 6000 into the opening 2100 while holding the filter apparatus 6000 in his or her hand, the user can more easily insert the opening 2100 and mate with the sump 7100 to more quickly and easily align the first fluid discharge port 6214 with the sump 7100, despite the partial occlusion of the filter apparatus 6000.

In addition, as the kitchen environment is complex, more objects are placed on the counter of the cabinet, water splashing or overflowing on the counter of the cabinet inevitably occurs and directly flows in through the opening 2100, and as the liquid collecting area 7100 is at least partially exposed relative to the opening 2100, the liquid collecting area 7100 can directly receive the flowing water, so that the kitchen cabinet is safer and more reliable.

Further, as shown in fig. 18, in some embodiments, the liquid collection region 7100 comprises a first division 7110 and a second division 7120 which are communicated with each other, one of the first division 7110 and the second division 7120 is provided with a second liquid discharge port 7140, the first division 7110 and the second division 7120 are arranged at intervals along the width direction of the combination stove and exposed from the opening 2100, and the first liquid discharge port 6214 is positioned above the first division 7110 or the second division 7120.

For example, the second liquid discharge port 7140 is provided in the first partition 7110. When the filter apparatus 6000 is installed in the forward direction, the first liquid discharge port 6214 is located above the first divided region 7110, and condensed water discharged from the first liquid discharge port 6214 falls into the first divided region 7110 and is then discharged through the second liquid discharge port 7140. When the filter apparatus 6000 is installed in a reverse direction, the first liquid discharge port 6214 is located above the second divided region 7120, and condensed water discharged from the first liquid discharge port 6214 falls into the second divided region 7120, and then the condensed water flows to the first divided region 7110 and is discharged through the second liquid discharge port 7140.

Further, as shown in fig. 18, the liquid collecting region 7100 further includes a third divided region 7130 communicating with the first divided region 7110 and the second divided region 7120, and the third divided region 7130 extends in the width direction of the combination stove and is not exposed to the opening 2100.

Specifically, the third sub-area 7130 is not exposed to the opening 2100, that is, when the combination range is mounted in the cabinet, the third sub-area 7130 is not visible within the range surrounded by the opening 2100 when viewed from the top down of the cover plate 2000. Thus, the third section 7130 mainly plays a role of communicating the first section 7110 and the second section 7120, and the size of the third section 7130 can be made small enough along the length direction of the combination cooker, and since the electromagnetic heating device is disposed in the body 1000 corresponding to the left cooking area 2210 and the right cooking area 2220, the space of the electromagnetic heating device is not occupied by the third section 7130. For example, the third section 7130 has two sections, spaced apart along the length of the cluster oven, connecting the first section 7110 and the second section 7120.

In some embodiments, as shown in fig. 16 and 17, the drip pan 7000 is provided with a second vent hole 7200 around which the drip area 7100 is arranged, thus providing a path for air flow without causing excessive obstruction to the air.

Specifically, fan 3000 during operation can drive the air and pass filter equipment 6000, and collecting pan 7000 will set up in order to accept the comdenstion water in filter equipment 6000 below again, consequently in order to further avoid collecting pan 7000 to form the hindrance to the air, set up second ventilation hole 7200 on collecting pan 7000, the air is after passing filter equipment 6000, then can pass second ventilation hole 7200 and enter into fan 3000, so need not change the route that the air flows, reduce the resistance that the air flows and can make the inner structure of combination kitchen become simple simultaneously, reduce the design degree of difficulty.

The liquid collection area 7100 is designed in an annular shape, that is, the liquid collection area 7100 is arranged around the second vent hole 7200, and the first partition 7110, the second partition 7120 and the two third partitions 7130 form an annular shape, so that condensed water can be conveniently gathered together for discharge.

Further, as shown in fig. 16, in some embodiments, the combination cooker further includes an adsorption layer 9000, and the adsorption layer 9000 is provided in the second ventilation hole 7200.

The air contains a large amount of fine particles formed by oil mist and other harmful substances, and the fine particles can be adsorbed by the adsorption layer 9000 when passing through the adsorption layer 9000, so that the content of the harmful substances in the discharged air is greatly reduced when being discharged, and the pollution to the outdoor environment is avoided.

In addition, since the harmful material is adsorbed through the adsorption layer 9000, the combination range may not discharge air to an outdoor environment but to an indoor environment, that is, the combination range may realize circulation of indoor air, and thus a discharge flue may not be provided in a kitchen, thereby reducing use cost.

It is understood that the adsorption layer 9000 is a structure capable of adsorbing fine particles formed by most of oil mist and other harmful substances in the air, and corresponds to fine filtration, such as HEPA filter, electrode adsorption, activated carbon layer, etc., and adsorbs most of particles in the air to purify the air.

As shown in connection with fig. 13, in some embodiments, the first head 6215 of the filter apparatus 6000 extends toward the drip pan 7000 and is positioned above the drip pan 7000 such that the first head 6215 is not in contact with the drip region 7100, and condensed water discharged from the filter apparatus 6000 may fall into the drip region 7100 and the condensed water in the drip region 7100 may not soak the first head 6215.

In some embodiments, as shown in FIG. 17, the drip pan 7000 is provided with a second liquid discharge head 7150, the second liquid discharge head 7150 is connected to a second liquid discharge port 7140, and the second liquid discharge head 7150 is inserted into the drip cup 8000. For example, the second liquid discharge head 7150 is inserted into the liquid collecting cup 8000 through the body 1000 from the inner surface of the body 1000 to the outer surface of the body 1000, thereby more reliably discharging the condensed water into the liquid collecting cup 8000.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications and equivalents of the subject matter of the present application, which is conceived to be equivalent to the above description and the accompanying drawings, or to be directly/indirectly applied to other related arts, are intended to be included within the scope of the present application.

Claims (10)

1. A combination range, comprising:

a filter device provided with a first drain port, the filter device being configured to be detachably disposed;

the liquid collecting tray is provided with a liquid collecting area and a second liquid discharging port communicated with the liquid collecting area, and the liquid collecting area is arranged below the first liquid discharging port; and

and the liquid collecting cup is communicated with the second liquid outlet.

2. The combination stove of claim 1, further comprising a cover plate provided with an opening, wherein the filtering device is detachably provided to the opening.

3. The combination stove according to claim 2, wherein the cover plate is provided with a connecting member, the connecting member includes a first connecting portion and a second connecting portion, the first connecting portion is provided on a lower surface of the cover plate, the second connecting portion is exposed from the opening, and the filtering device is supported by the second connecting portion to be detachably disposed.

4. The combination stove of claim 2, wherein the opening has a symmetrical structure with a length direction of the combination stove as a symmetry axis;

the width direction of the combined stove is taken as a symmetry axis, and the opening is of a symmetrical structure.

5. The cooking range according to claim 2, wherein the liquid collecting region is exposed from the opening.

6. The cooking stove according to claim 5, wherein the liquid collecting portion includes a first partition and a second partition which are connected to each other, one of the first partition and the second partition is provided with the second drain port, the first partition and the second partition are provided at intervals in a width direction of the cooking stove and exposed from the opening, and the first drain port is located above the first partition or the second partition.

7. The compound oven of claim 6, wherein the liquid collection area further comprises a third partition in communication with the first partition and the second partition, the third partition extending in a width direction of the compound oven and not exposed to the opening.

8. The combination stove of claim 1, wherein the drip pan is provided with a second vent hole, and the drip area is disposed around the second vent hole.

9. The combination stove of claim 8, further comprising an adsorption layer provided at the second ventilation hole.

10. The cooking range according to claim 1,

the filtering device is provided with a first liquid discharge head, the first liquid discharge head is communicated with the first liquid discharge port, and the first liquid discharge head extends towards the liquid collecting disc and is positioned above the liquid collecting area;

and/or the liquid collecting disc is provided with a second liquid discharging head, the second liquid discharging head is communicated with the second liquid discharging port, and the second liquid discharging head is inserted into the liquid collecting cup.

Images