CN218269232U - Modularized integrated stove - Google Patents

Abstract

An embodiment of the utility model provides an integrated kitchen of modularization. The modularized integrated cooker comprises a cooker module, a rack module, a first functional cabinet and a second functional cabinet, wherein the cooker module is located at the top of the rack module, the first functional cabinet and the second functional cabinet are arranged on the rack module, the first functional cabinet can be independently disassembled and assembled relative to the rack module, and the second functional cabinet can be independently disassembled and assembled relative to the rack module. This integrated kitchen of modularization is when changing the function cabinet, and operation process is fairly simple, labour saving and time saving. When first function cabinet or second function cabinet are being changed, another function cabinet that does not need to be changed can normal use, has improved the utilization ratio of integrated kitchen, and user's experience sense is higher.

Description

Modularized integrated stove

Technical Field

The utility model relates to a kitchen appliance's technical field specifically, relates to an integrated kitchen of modularization.

Background

With the pursuit of people for high-quality life, the requirements of users on kitchens are continuously improved, and the integrated kitchen range becomes an increasingly popular kitchen appliance. In addition to the cooking range and the range hood, the integrated range usually integrates a functional cabinet such as a steam box and an oven on its frame.

Taking an integrated steam box and an integrated oven as an example, the box bodies of the steam box and the oven are connected to the rear side of the same door frame, the door frame is fixed on the frame of the integrated cooker, and the door bodies of the steam box and the oven are respectively connected to the front side of the door frame in an openable and closable manner. When the box body of one of the function cabinets breaks down or needs to be disassembled and replaced by another function cabinet, the door bodies of the two function cabinets need to be disassembled respectively, then the door frames fixed on the rack are disassembled, and finally the function cabinet needing to be disassembled is disassembled. However, in this process, another functional cabinet that does not need to be repaired or replaced must be removed. The operation process is complicated, troublesome and labor-consuming during maintenance or replacement; and the functions of the two functional cabinets are interrupted and cannot be used.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the prior art at least partially, the utility model provides an integrated kitchen of modularization. The modularized integrated cooker comprises a cooker module, a rack module, a first function cabinet and a second function cabinet, wherein the cooker module is located at the top of the rack module, the first function cabinet and the second function cabinet are arranged on the rack module, the first function cabinet can be independently dismounted relative to the rack module, and the second function cabinet can be independently dismounted relative to the rack module. So set up, can be so that this integrated kitchen of modularization when changing the function cabinet, operation process is fairly simple, labour saving and time saving. When first function cabinet or second function cabinet are being changed, another function cabinet that need not change can normal use, has improved the utilization ratio of integrated kitchen, and user's experience is felt highly.

Exemplarily, the rack module includes outer frame and the roof beam body of setting in the outer frame, the roof beam body includes the entablature, bottom end rail and longeron, wherein, both ends are connected to outer frame respectively about the entablature, both ends are connected to outer frame respectively about the bottom end rail, the upper end of longeron is connected to entablature and lower extreme and is connected to the bottom end rail, in order to form first installation window and second installation window respectively in the left and right sides of longeron, first function cabinet wears to locate first installation window and is connected to on the roof beam body that forms first installation window, the second function cabinet wears to locate second installation window and is connected to on the roof beam body that forms second installation window. So set up, first function cabinet and second function cabinet can have independent installation window, have reduced when dismantling and change certain function cabinet to the wearing and tearing on another function cabinet surface that need not to dismantle. In addition, the displacement of another functional cabinet which does not need to be disassembled in the process of disassembling and replacing a certain functional cabinet is avoided, and the stability of the rack module is improved.

Exemplarily, the modular integrated cooker further comprises a fan module located in the outer frame, a portion of the fan module is located below the beam body, and the beam body is supported on the fan module. So set up, the fan module can provide the holding power for the roof beam body and be connected to first function cabinet and the second function cabinet on the roof beam body. And moreover, the rigidity of the beam body is improved, and the deformation of the beam body is avoided.

Illustratively, the upper cross member includes a bottom wall, a first front wall and a first rear wall extending upwardly from a front edge and a rear edge of the bottom wall, respectively, a first front flange extending rearwardly from an upper edge of the first front wall, and a first rear flange extending forwardly from an upper edge of the first rear wall, the first and second functional cabinets being connected to the bottom wall by fasteners. So set up, can make the installation dismantlement of first function cabinet and second function cabinet and frame module simpler. In addition, the upper cross beam can shield the fastener through the first front flanging and the first rear flanging, the fastener is prevented from protruding out of the upper cross beam to scratch an operator or a user, and visual attractiveness is improved.

Illustratively, the lower cross member includes a top wall, a second front wall and a second rear wall extending downwardly from a front edge and a rear edge of the top wall, respectively, a second front flange extending rearwardly from a lower edge of the second front wall, and a second rear flange extending forwardly from a lower edge of the second rear wall, the first functional cabinet and the second functional cabinet being connected to the top wall by fasteners. So set up, can make the installation dismantlement of first function cabinet and second function cabinet and frame module simpler. In addition, the lower cross beam can shield the fastener through the second front flanging and the second rear flanging, the fastener is prevented from protruding out of the lower cross beam to scratch an operator or a user, and visual attractiveness is improved.

Exemplarily, the first functional cabinet includes the first cabinet body, first door welt and first door body, and first door welt is connected to the first cabinet body, and the first door body can be connected to first door welt with opening and shutting, and the upper portion of first door welt is connected to the entablature, and the lower part of first door welt is connected to the bottom end rail. So set up, first door welt is connected respectively to entablature and bottom end rail, can realize the connection of the independent reassembling type of first function cabinet and frame module simply swiftly. And, through set up the hookup location on first door welt, can avoid the inner chamber of the first cabinet body to receive the influence.

Exemplarily, the second functional cabinet comprises a second cabinet body, a second door liner and a second door body, the second door liner is connected to the second cabinet body, the second door body is openably and closably connected to the second door liner, the upper portion of the second door liner is connected to the upper cross beam, and the lower portion of the second door liner is connected to the lower cross beam. So set up, the second door welt is connected to entablature and bottom end rail respectively, can realize the independent reassembling type of second function cabinet and frame module simply swiftly being connected. And, through set up the connection position on second door welt, can avoid the inner chamber of the second cabinet body to receive the influence.

Exemplarily, the beam body still includes the stiffening beam who sets up in the outer frame, and the left and right ends of stiffening beam are connected to outer frame respectively, and the stiffening beam is located the rear of bottom end rail, and first function cabinet and second function cabinet still support on the stiffening beam. According to the arrangement, the rigidity of the beam body can be improved by additionally arranging the reinforcing beam, and the beam body is prevented from deforming. Moreover, the bearable load of the beam body can be increased, and the first functional cabinet or the second functional cabinet with larger capacity can be adopted. The experience of the user is higher.

Exemplarily, the hob module is detachably connected to the rack module in a vertical direction by a first connection assembly. So set up, can make the cooking utensils module and frame module be connected the dismantlement simple swift more, labour saving and time saving.

Exemplarily, the top of the rack module is provided with a partition plate, the partition plate is located below the stove module and above the first functional cabinet and the second functional cabinet, the partition plate is provided with a first electrical connector, the bottom of the stove module is provided with a second electrical connector adapted to the first electrical connector, and the first electrical connector and the second electrical connector are aligned with each other in a vertical direction and detachably butted. So set up, the baffle can regard as the support carrier of first electric connector, and the second electric connector and the first electric connector of the module bottom of cooking utensils of being convenient for are connected fast. Moreover, the partition plate can also play a role in receiving dust and soup below the stove module.

Exemplarily, the first connecting assembly comprises a first connecting piece and a second connecting piece, one of the first connecting piece and the second connecting piece is arranged on the stove module and the other one is arranged on the rack module, the first connecting piece comprises a connecting protrusion extending towards the second connecting piece along the vertical direction, the second connecting piece comprises a connecting seat, a first clamping piece, a second clamping piece and an elastic piece, the first clamping piece and the second clamping piece are movably arranged on the connecting seat along the horizontal direction and a gap is formed between the first clamping piece and the second clamping piece along the horizontal direction, the connecting protrusion can be clamped in the gap, the elastic piece is connected between the connecting seat and the first clamping piece and the second clamping piece, and the elastic piece is used for applying elastic force towards each other to the first clamping piece and the second clamping piece respectively. So set up, can be so that the dismouting of cooking utensils module and frame module is simpler, swift, laborsaving, moreover, it is more firm to connect.

Illustratively, opposite sides of the connecting projection are respectively provided with a first concave part and a second concave part which are clamped with the first clamping piece and the second clamping piece. So set up, can through two positions block two card holding pieces of opposite side, can be so that the first card holding piece of joint bulge block in both sides and second card holding piece block is more balanced. Through the concave structure of the first concave part and the second concave part, the first clamping part and the second clamping part can be positioned at the concave part, the clamping connection protrusion is more stable, and the movement or looseness of the connection protrusion is avoided.

Illustratively, the dimension of the end of the connecting projection facing the second connecting member in the horizontal direction is larger than the width of the gap in the natural state of the elastic member. So set up, connect bellied tip towards the second connecting piece and can play spacing effect, avoid connecting protruding slippage from the second connecting piece under the state of inserting the second connecting piece.

Exemplarily, the modular integrated cooker further comprises a smoke collection module located above the cooker module and a fan module located within the rack module, the fan module comprising: the fan box body is arranged below the first functional cabinet and the second functional cabinet; a fan accommodated in the fan case; and the air channel box body is communicated between the smoke collection module and the fan box body. So set up, can be so that the integrated kitchen of modularization is easier when transportation, installation and maintenance, is difficult for receiving the restriction in space. And moreover, the installation and after-sale are more convenient. The fan box body can be without occupying the rear space of the first function cabinet and the second function cabinet, so that the available depth of the rack module is deeper, the first function cabinet and the second function cabinet with larger depth size can be accommodated, and the capacity of the first function cabinet and the second function cabinet can be improved. In addition, the requirements of multi-user family users are met, and the experience of the users is better. Also, the lower cross member described above may be supported on the fan case.

Exemplarily, the air outlet of the smoke collection module is located at the bottom thereof, the air inlet of the air duct box is located at the top thereof, and the air outlet of the smoke collection module is inserted into the air inlet of the air duct box. So set up, can be so that the dismouting of collection cigarette module and wind channel box is more swift, and the operation is simpler, labour saving and time saving. And moreover, the air outlet can be communicated with the air inlet, and the oil smoke is discharged more smoothly.

Exemplarily, the inside of collection cigarette module and/or wind channel box is provided with second coupling assembling, and second coupling assembling is connected collection cigarette module detachably to the wind channel box, and collection cigarette module includes the installing port and can dismantle the leading panel that covers on the installing port, and the installing port is second coupling assembling's operation window. So set up, can be so that the dismouting of collection cigarette module and wind channel box is simple swift more. Moreover, dust can be prevented from entering the smoke collection module.

Illustratively, the mounting opening is located below the air inlet of the smoke collection module. So set up, the operator of can being convenient for of installing the height of mouth carries out various operations, need not with the help of supplementary ladder or stool instrument. And because the oil smoke of high temperature upward movement's characteristic, a large amount of high temperature oil smoke can direct upward movement be inhaled the air intake, and the installing port is located the below of air intake, has avoided high temperature oil smoke to permeate the smoke collecting module by the installing port.

Exemplarily, the second connecting assembly comprises a third connecting piece arranged in the smoke collection module, a fourth connecting piece arranged in the air duct box and a fastener, the third connecting piece is provided with a first mounting hole, the fourth connecting piece is provided with a second mounting hole, and the fastener is detachably connected to the first mounting hole and the second mounting hole. So set up, can be so that collection cigarette module and wind channel box dismouting are more swift, labour saving and time saving. And, the connection through the fastener can be more firm.

Illustratively, the upper portion of the smoke collection module is inclined forward relative to the lower portion thereof, and the air inlet of the smoke collection module is located at the upper portion. So set up, can be so that the air intake of collection cigarette module is located cooking utensils module oil smoke source, and the oil absorption cigarette effect is better.

Exemplarily, the side face and the back face of the smoke collection module are connected through an inclined face, and an included angle between the inclined face and the side face and an included angle between the inclined face and the back face are obtuse angles. So set up, avoid forming the swirl in the inside corner of collection cigarette module, can better balance the pressure field. And when watching from the side of collection cigarette module, collection cigarette module is thinner, and visual sense organ is better, and user's experience is better.

Illustratively, the fan box body comprises a rear box body with an opening at the front part and a front cover which can be disassembled to cover the opening, the rear box body is fixed in the rack module, the fan is fixed to the front cover, the front cover is provided with a first installation station and a second installation station which cover the opening, the front cover and the fan under the first installation station are upside down relative to the front cover and the fan under the second installation station, so that the air outlet of the fan faces towards the left side under the first installation station and the right side under the second installation station, the side walls of the left side and the right side of the fan box body are respectively provided with a bellows air outlet, the side walls of the left side and the right side of the rack module are respectively provided with an air outlet, and the bellows air outlet and the air outlet of one side, corresponding to the air outlet of the fan, of the front cover under different installation stations are communicated with each other, and the bellows air outlet and the air outlet of the opposite side are respectively closed. So set up, when the trunk line of discharging fume in the application scene of the integrated kitchen of modularization was located left side or right side, through upset protecgulum from top to bottom can have overturned the fan together in succession, and need not the upset or remove the back box for the air outlet of fan all can communicate to the trunk line of discharging fume with the shortest distance, makes the oil smoke arrange to the trunk line of discharging fume fast.

Illustratively, the air duct box body and the fan box body are connected with each other to form an L shape, and the air duct box body is positioned behind the first functional cabinet and the second functional cabinet. So set up, can save the space in the frame module for wind channel box and fan box are thinner body.

Illustratively, the side wall of the fan box body is provided with an air box air outlet, the side wall of the rack module is provided with an air outlet, the air box air outlet and the air outlet are connected through an air outlet seat, and the bottom wall of the air outlet seat inclines upwards along the direction from the air box air outlet to the air outlet. So set up, can do benefit to and discharge away a large amount of oil smoke. And a small amount of oil smoke can be collected in the fan box body along the air outlet seat after being condensed in the flowing process.

Illustratively, the wind channel box includes upper portion, middle part and lower part that connects gradually, and the width of lower part is less than the width of upper portion, and the middle part is followed from top to bottom direction and is contracted gradually, and the fan box is connected to the lower part and with the width looks adaptation of lower part. So set up, then can form the headspace between the outside at middle part and the frame module, this space can supply operating personnel to grip in the outside at middle part, with the installation of wind channel box to the frame module in.

Illustratively, the rack module includes an access panel that is openable and closable, the access panel being located below the first functional cabinet and the second functional cabinet and covering a front side of the fan box. So set up, can overhaul the fan module through opening the access panel, and need not just can overhaul the fan module after the cooking utensils module of top needs to be dismantled like current integrated kitchen, overhaul more nimble convenient.

A series of concepts in a simplified form are introduced in the disclosure, which will be described in further detail in the detailed description section. The summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

The advantages and features of the present invention are described in detail below with reference to the accompanying drawings.

Drawings

The following drawings of the present invention are used herein as part of the present invention for understanding the present invention. There are shown in the drawings, embodiments and descriptions thereof, which are used to explain the principles of the invention. In the drawings, there is shown in the drawings,

fig. 1 is a front view of a modular integrated cooker according to an exemplary embodiment of the present invention;

fig. 2 is an exploded view of the modular integrated range shown in fig. 1;

fig. 3 is a side view of the modular integrated cooker shown in fig. 1;

FIG. 4 is an isometric view of the rack module shown in FIG. 1;

FIG. 5 is a side view of the rack module shown in FIG. 1;

FIG. 6 is an enlarged view of a portion A of FIG. 3;

FIG. 7 is an enlarged view of a portion of FIG. 3 at B;

FIG. 8 is an exploded view of the fan module shown in FIG. 2;

FIG. 9 is a front view of the fan module shown in FIG. 2;

FIG. 10 is a cross-sectional view of the fan module shown in FIG. 2;

FIG. 11 is a front view of the cooktop module shown in FIG. 1;

FIG. 12 is an isometric view of the cooktop module shown in FIG. 11;

FIG. 13 is a front view of the first connector assembly;

fig. 14 is an exploded view of the first coupling assembly of fig. 13;

FIG. 15 is a front view of the smoke collection module shown in FIG. 1;

FIG. 16 is a side view of the smoke collection module shown in FIG. 15; and

fig. 17 is an exploded view of the smoke collection module shown in fig. 16, partially cut away in vertical plane.

Wherein the figures include the following reference numerals:

100. a stove module; 200. a rack module; 201. a first mounting window; 202. a second mounting window; 203. an air outlet; 210. an outer frame; 220. a beam body; 221. an upper cross beam; 221a, a bottom wall; 221b, a first front wall; 221c, a first rear wall; 221d, a first front flanging; 221e, a first back flanging; 222. a lower cross beam; 222a, a top wall; 222b, a second front wall; 222c, a second rear wall; 222d, second front flanging; 222e, second back flanging; 223. a stringer; 224. a reinforcing beam; 230. an access panel; 300. a first functional cabinet; 310. a first cabinet; 320. a first door liner; 330. a first door body; 400. a second functional cabinet; 500. a fan module; 510. a fan box body; 510b, an air outlet of the air box; 511. a rear box body; 512. a front cover; 520. an air duct box body; 521. an upper portion; 522. a middle part; 523. a lower portion; 520a and an air inlet; 520c, a first escape portion; 530. a fan; 600. a smoke collection module; 601. an air inlet; 602. an air outlet; 603. an installation port; 610. a front panel; 620. a support portion; 630. a side surface; 640. a back side; 650. a bevel; 700. a first connection assembly; 710. a first connecting member; 711. a first recess; 712. a second recess; 713. a connecting projection; 720. a second connecting member; 721. a connecting seat; 722. a first retaining member; 723. a second retaining member; 724. a gap; 810. a fourth connecting member; 811. a second mounting hole; 910. a partition plate; 911. a second avoidance portion; 920. an air outlet seat; 930. and a fifth connecting member.

Detailed Description

In the following description, numerous details are provided to provide a thorough understanding of the present invention. One skilled in the art, however, will understand that the following description merely illustrates preferred embodiments of the invention and that the invention may be practiced without one or more of these details. In addition, some technical features that are well known in the art are not described in detail in order to avoid obscuring the present invention.

In the following description, a detailed structure will be presented for a thorough understanding of embodiments of the invention. It is apparent that the implementation of the embodiments of the present invention is not limited to the specific details familiar to those skilled in the art. The preferred embodiments of the present invention are described in detail below, however, the present invention can have other embodiments in addition to the detailed description.

The utility model provides an integrated kitchen of modularization. As shown in fig. 1-2, the modular integrated cooker may include a cooker module 100, a rack module 200, a first functional cabinet 300, and a second functional cabinet 400. The hob module 100 may be located on top of the rack module 200. The first and second functional cabinets 300 and 400 may be disposed on the rack module 200. The first functional cabinet 300 and the second functional cabinet 400 may be any one of known and future functional cabinets, such as a steaming and baking functional cabinet, a sterilizing functional cabinet, a microwave oven functional cabinet, a dishwasher functional cabinet, a storage functional cabinet, and the like. The first functional cabinet 300 and the second functional cabinet 400 may be the same type of functional cabinet or different types of functional cabinets. The first functional cabinet 300 is independently detachable from the rack module 200. The second functional cabinet 400 is independently detachable from the rack module 200. The first and second functional cabinets 300 and 400 may be mounted on the rack module 200. When any one of the first functional cabinet 300 and the second functional cabinet 400 is detached from or replaced by the rack module 200, the functional cabinet to be detached can be detached independently without detaching the other functional cabinet as in the conventional integrated cooker. The first functional cabinet 300 and the second functional cabinet 400 can be exchanged according to the use habits of different users. This integrated kitchen of modularization is when changing the function cabinet, and operation process is fairly simple, labour saving and time saving. And when changing first function cabinet 300 or second function cabinet 400, another function cabinet that does not need to change can normal use, has improved the utilization ratio of integrated kitchen, and user's experience sense is higher.

The modular integrated cooker may further include a smoke collection module 600 and a fan module 500. Smoke collection module 600 may be located above cooktop module 100. The smoke collection module 600 may be used to collect oil smoke generated when a user cooks using the hob module 100. The fan module 500 may be located within the rack module 200. The fan module 500 can discharge the oil smoke collected by the smoke collection module 600 out of the modular integrated cooker. The modularized integrated cooker covers the smoke collection module 600, the fan module 500, the cooker module 100, the rack module 200, the first functional cabinet 300 and the second functional cabinet 400 which are all single modules. So set up, can be so that the integrated kitchen of modularization is easier when transportation, installation and maintenance, is difficult for receiving the restriction in space. And, can also make installation and after sale more convenient.

The first functional cabinet 300 and the second functional cabinet 400 may be disposed on the rack module 200 in various layouts. For example, the first functional cabinet and the second functional cabinet may be sequentially disposed on the rack module 200 in an up-down direction. Alternatively, the first functional cabinet 300 and the second functional cabinet 400 may be disposed on the rack module 200 in sequence in the left-right direction, for example. The first functional cabinet 300 and the second functional cabinet 400 may be disposed in the same installation space, or may be disposed in different installation spaces. Illustratively, as shown in fig. 4, the rack module 200 may include an outer frame 210 and a beam 220. The beam 220 may be disposed within the outer frame 210. The beam body 220 may include an upper cross beam 221, a lower cross beam 222, and a longitudinal beam 223. The left and right ends of the upper cross member 221 may be connected to the outer frame 210, respectively. The left and right ends of the lower beam 222 may be connected to the outer frame 210, respectively. The upper ends of the longitudinal beams 223 may be connected to the upper cross member 221, and the lower ends may be connected to the lower cross member 222. So that a first mounting window 201 and a second mounting window 202 may be formed at both left and right sides of the longitudinal beam 223, respectively. The first functional cabinet 300 may be penetratingly disposed at the first installation window 201, and may be coupled to the girder 220 forming the first installation window 201. The second functional cabinet 400 may be penetratingly installed at the second installation window 202 and may be coupled to the girder 220 forming the second installation window 202. So set up, first functional cabinet 300 and second functional cabinet 400 can have independent installation window, has reduced when dismantling and change certain functional cabinet to the wearing and tearing of another functional cabinet surface that need not to dismantle. In addition, the displacement of another functional cabinet which does not need to be disassembled in the process of disassembling and replacing a certain functional cabinet is avoided, and the stability of the rack module 200 is improved.

Illustratively, the fan module 500 may be located within the outer frame 210. A portion of the fan module 500 may be located below the beam 220. The beam 220 may be supported on the fan module 500. It will be appreciated that the fan module 500 provides a supporting force for the beam 220, which is equivalent to providing a supporting force for the first functional cabinet 300 and the second functional cabinet 400 connected to the beam 220. So configured, the fan module 500 may provide a supporting force for the girder 220 and the first and second functional cabinets 300 and 400 connected to the girder 220. In addition, the rigidity of the beam body 220 is improved, and the deformation of the beam body 220 is avoided.

The upper beam 221 may have various structures such as a square body and a cylinder. Illustratively, as shown in fig. 6, the upper cross member 221 may include a bottom wall 221a, a first front wall 221b, a first rear wall 221c, a first front flap 221d, and a first rear flap 221e. The first front wall 221b may extend upward from the front edge of the bottom wall 221a. The first rear wall 221c may extend upward from the rear edge of the bottom wall 221a. The first front flap 221d may extend rearward from an upper edge of the first front wall 221 b. The first rear flap 221e may extend forward from an upper edge of the first rear wall 221 c. The first functional cabinet 300 and the second functional cabinet 400 may be connected to the bottom wall 221a by fasteners. It should be noted that the directional term "front" as used herein and hereinafter refers to the side of the modular integrated cooker that is closer to the user when applied to the scene; and the directional term "rear" is used to refer to the side of the modular integrated cooker that is away from the user when applied to the scene. The bottom wall 221a may be provided with a mounting hole. The first functional cabinet 300 and the second functional cabinet 400 may be connected to the bottom wall 221a by fasteners through the mounting holes. When the first functional cabinet 300 and the second functional cabinet 400 are mounted/dismounted (when dismounted, the cooker module 100 can be dismounted from the modular integrated cooker in advance), the first functional cabinet 300 can be connected/separated with/from the bottom wall 221a, the second functional cabinet 400 can be connected/separated with/from the bottom wall 221a, that is, the first functional cabinet 300 is connected/separated with/from the upper cross beam 221, and the second functional cabinet 400 is connected/separated with/from the upper cross beam 221 by screwing/unscrewing the fasteners. The number of fasteners may be plural. The tip of one fastener may be located in the space between the first front flap 221d and the bottom wall 221a, and the tip of the other fastener may be located in the space between the first rear flap 221e and the bottom wall 221a. Thus, the first front flange 221d may form a shielding plane with respect to the bottom wall 221a, shielding the distal end of the fastener. The first rear flap 221e may also form a shadow plane with respect to the bottom wall 221a, obscuring the end of another fastener. By such an arrangement, the mounting and dismounting of the first functional cabinet 300 and the second functional cabinet 400 to and from the rack module 200 can be made simpler. In addition, the upper cross beam 221 can shield the fastener through the first front flange 221d and the first rear flange 221e, so that the fastener is prevented from protruding out of the upper cross beam 221 to scratch an operator or a user, and the visual attractiveness is improved.

The lower beam 222 may be a square or a cylinder. Illustratively, as shown in fig. 7, the lower cross member 222 may include a top wall 222a, a second front wall 222b, a second rear wall 222c, a second front flap 222d, and a second rear flap 222e. The second front wall 222b may extend downward from the front edge of the top wall 222a. The second rear wall 222c may extend downward from a rear edge of the top wall 222a. The second front flap 222d may extend rearward from a lower edge of the second front wall 222 b. A second rear flap 222e may extend forwardly from a lower edge of the second rear wall 222 c. The first functional cabinet 300 and the second functional cabinet 400 may be connected to the top wall 222a by fasteners. The top wall 222a may be provided with mounting holes. The first functional cabinet 300 and the second functional cabinet 400 may be connected to the top wall 222a by fasteners through the mounting holes. When the first functional cabinet 300 and the second functional cabinet 400 are mounted/dismounted (when dismounted, the cooker module 100 can be dismounted from the modular integrated cooker in advance), the first functional cabinet 300 can be connected/separated with the bottom wall 221a by screwing/unscrewing the fastener, the second functional cabinet 400 is connected/separated with the top wall 222a, that is, the first functional cabinet 300 is connected/separated with the lower cross beam 222, and the second functional cabinet 400 is connected/separated with the lower cross beam 222. The number of fasteners may be plural. The tip of one fastener may be located in the space between the second front flap 222d and the top wall 222a, and the tip of the other fastener may be located in the space between the second rear flap 222e and the top wall 222a. In this way, the second front flange 222d may form a shadow plane with respect to the top wall 222a, obscuring the ends of the fasteners. The second rear flap 222e may also form a shadow plane with respect to the top wall 222a, obscuring the end of the other fastener. By such an arrangement, the mounting and dismounting of the first functional cabinet 300 and the second functional cabinet 400 to and from the rack module 200 can be made simpler. Moreover, the lower beam 222 can shield the fastener through the second front flange 222d and the second rear flange 222e, so that the fastener is prevented from protruding out of the lower beam 222 to scratch an operator or a user, and the visual attractiveness is improved.

For example, as shown in fig. 6, the first functional cabinet 300 may include a first cabinet body 310, a first door liner 320 and a first door body 330. The first door liner 320 may be connected to the first cabinet 310. The first door 330 is openably and closably connected to the first door liner 320. An upper portion of the first door liner 320 may be connected to the upper cross member 221. A lower portion of the first door liner 320 may be connected to the lower cross member 222. With such an arrangement, the first door liner 320 is connected to the upper beam 221 and the lower beam 222, so that the first functional cabinet 300 can be connected to the rack module 200 in an independently detachable manner. In addition, the connection position is arranged on the first door lining board 320, so that the inner cavity of the first cabinet body 310 can be prevented from being affected.

For example, the second functional cabinet 400 may include a second cabinet body, a second door liner, and a second door body. A second door liner may be connected to the second cabinet. The second door body is openably and closably connected to the second door liner. The upper portion of the second door liner may be connected to the upper cross member 221. The lower portion of the second door liner may be connected to lower beam 222. With such an arrangement, the second door liner is respectively connected to the upper beam 221 and the lower beam 222, so that the second functional cabinet 400 can be connected with the rack module 200 in an independently detachable manner simply and quickly. And, through set up the connection position on second door welt, can avoid the inner chamber of the second cabinet body to receive the influence.

In order to support the first functional cabinet 300 and the second functional cabinet 400 well, the beam body 220 may further include a reinforcing beam 224, for example, as shown in fig. 4. The reinforcing beam 224 may be disposed within the outer frame 210. The reinforcing beams 224 may be connected to the outer frame 210 at left and right ends, respectively. Also, the reinforcement beam 224 may be located behind the lower cross member 222, and the first functional compartment 300 and the second functional compartment 400 may be supported on the reinforcement beam 224. By such an arrangement, the stiffness of the beam body 220 can be improved by additionally arranging the reinforcing beam 224, and the beam body 220 is prevented from deforming. Furthermore, the bearable load of the beam 220 can be increased, which is equivalent to that the first functional cabinet 300 or the second functional cabinet 400 with larger capacity can be adopted. The experience of the user is higher.

Illustratively, as shown in fig. 2, 12-14, the hob module 100 may be detachably connected to the rack module 200 in a vertical direction by a first connection assembly 700. The stove module 100 and the rack module 200 are independent modules. The first coupling member 700 may be any removable structure such as a combination of ribs and grooves, fasteners, etc. Can dismantle along vertical direction and can make the installation dismantle labour saving and time saving more than can dismantling along the horizontal direction. So set up, can make kitchen range module 100 and frame module 200 be connected the dismantlement simple swift more, labour saving and time saving.

Illustratively, the first connection assembly 700 may include a first connection 710 and a second connection 720. One of the first connector 710 and the second connector 720 may be disposed on the cooktop module 100, and the other may be disposed on the rack module 200. In the illustrated embodiment, the first connector 710 is disposed on the cooktop module 100 and the second connector 720 is disposed on the rack module 200. In other embodiments not shown, the first connector 710 may be provided on the rack module 200 and the second connector 720 on the cooktop module 100 in reverse. The principles will be explained below by way of an illustrative embodiment.

The first connector 710 may include a connection protrusion 713. The connection protrusion 713 may extend in a vertical direction toward the second connection member 720. The second connecting member 720 may include a connecting seat 721, a first catch 722, a second catch 723 and an elastic member (not shown in the drawings). The elastic member may be a spring washer, a spring, or the like. The first and second catches 722 and 723 are disposed on the connection base 721. The first and second catches 722, 723 may form a gap 724 therebetween in a horizontal direction. The first catch 722 and the second catch 723 are movable in a horizontal direction on the connection seat 721. The elastic member may be connected between the connection base 721 and the first and second catches 722 and 723. For example, the connection seat 721 is provided with a cavity, and the elastic member may be located in the cavity. The elastic member may be used to apply elastic force toward each other to the first and second catches 722 and 723, respectively.

The first connector 710 can be located at the bottom of the cooktop module 100. The second connector 720 may be located on the outer frame 210 of the rack module 200. The number of the first connectors 710 and the second connectors 720 corresponds to one, and may be plural. E.g., two, three, four, etc. The coupling seat 721 may be fixed to the outer frame 210 by a fastener. The first and second catches 722 and 723 may be located at opposite ends of the connection base 721. For example, the first catch 722 and the second catch 723 may be ball-shaped latches, and may also be of other structures. When the hob module 100 moves upwards along the vertical direction to above the rack module 200, the first connector 710 comes into contact with the second connector 720. Subsequently, under the action of gravity and a vertical external force, the first connecting member 710 moves downward to press the first catch 722 and the second catch 723, so that the first catch 722 and the second catch 723 are away from each other until the connecting protrusion 713 is inserted into the gap 724, at which time, the elastic member may respectively apply an elastic force to the first catch 722 and the second catch 723 towards each other, so that the connecting protrusion 713 is firmly clamped in the gap 724, at which time, the installation of the cooker module 100 and the rack module 200 is completed. When the cooktop module 100 is detached from the rack module 200, the cooktop module 100 is pulled upward in the vertical direction. The first and second retainers 722 and 723 are far away from each other, so that the gap 724 between the two is increased, and the connecting protrusion 713 is gradually drawn out of the gap 724 until leaving the second connecting member 720, at which time, the detachment and separation of the cooker module 100 and the rack module 200 is completed. So set up, can be so that the dismouting of cooking utensils module 100 and frame module 200 is simpler, swift, laborsaving, moreover, connects more firmly.

For example, the first and second recesses 711 and 712 may be respectively disposed at opposite sides of the coupling protrusion 713. The first recess 711 may engage the first catch 722. The second recess 712 may engage the second catch 723. The first and second recesses 711, 712 may have an arc structure, a V-shaped structure, a square groove, or other structures capable of engaging with the first and second retainers 722, 723. With this arrangement, the two retainers can be engaged at two locations on opposite sides, so that the connecting projection 713 can engage the first retainer 722 and the second retainer 723 at two sides, and the engagement is more balanced. Due to the concave structures of the first concave part 711 and the second concave part 712, the first retainer 722 and the second retainer 723 can be positioned in the concave parts, so that the clamping connection protrusion 713 is more stable, and the movement or loosening of the connection protrusion 713 is avoided.

Illustratively, as shown in fig. 14, a dimension D1 of an end of the coupling protrusion 713 facing the second link 720 in the horizontal direction is larger than a width D2 of the gap 724 in a natural state of the elastic member. The natural state is a state when the coupling protrusion 713 is not inserted into the second coupling member 720. Thus, during installation, the connecting protrusion 713 may be placed on the first retainer 722 and the second retainer 723, after confirming that each direction of the connecting protrusion 713 is aligned with the gap 724 (or confirming that the cooker module 100 is aligned with the rack module 200), the cooker module 100 may be pressed down to clamp the connecting protrusion 713 into the gap 724. With this arrangement, the end of the connection protrusion 713 facing the second connector 720 may serve as a stopper to prevent the connection protrusion 713 from slipping off the second connector 720 in a state where the connection protrusion 713 is inserted into the second connector 720.

The top of the rack module 200 may be provided with a partition 910. Baffle 910 may be located below cooktop module 100 and may be located above first functional cabinet 300 and second functional cabinet 400. Partition 910 may separate cooktop module 100 from first functional cabinet 300 and second functional cabinet 400. A first electrical connector may be provided on the partition 910. The bottom of the hob module 100 may be provided with a second electrical connector adapted to the first electrical connector. The first electrical connector and the second electrical connector are aligned and detachably mated with each other in a vertical direction. In the stove installation process, the first electric connector and the second electric connector can be butted. So configured, the partition 910 can be used as a support carrier for the first electrical connector, so that the second electrical connector at the bottom of the stove module 100 can be quickly connected with the first electrical connector. Moreover, the partition 910 may also play a role of receiving dust and soup below the cooker module 100.

As shown in fig. 2, a second escape portion 911 may be provided in the partition plate 910 to escape the first connection module 700. The second escape portion 911 may have a through hole structure.

For example, as shown in FIG. 3, the fan module 500 may include a fan box 510, a fan 530, and a duct box 520. The fan box body may be disposed at the rear of the first and second functional cabinets 300 and 400. For example, the fan is vertically placed in the fan case. In an exemplary embodiment, the fan box 510 may be disposed below the first functional cabinet 300 and the second functional cabinet 400. The fan 530 may be housed within the fan box 510. The duct housing 520 may communicate between the smoke collection module 600 and the fan housing 510. So set up, the fan box body can need not to occupy the rear space of first function cabinet 300 and second function cabinet 400, can be so that the available degree of depth of frame module 200 is darker, can hold the bigger first function cabinet 300 of degree of depth size and second function cabinet 400, can promote the capacity of first function cabinet 300 and second function cabinet 400. In addition, the requirements of multi-user family users are met, and the user experience is better. Also, the lower cross member 222 described above may be supported on the fan box 510.

When the hot air components carried by the first functional cabinet 300 and the second functional cabinet 400 protrude from the outer frame 210 of the first functional cabinet 300 and the second functional cabinet 400, a first avoiding portion 520c may be disposed on the air duct box 520 for avoiding the protruding hot air components.

The outlet 602 of the smoke collection module 600 may be located at the bottom thereof. The air inlet 520a of the duct box 520 may be located at the top thereof. The smoke collection module 600 and the air duct box 520 may be connected by fasteners, plugs, or other connection methods as long as the connection between the smoke collection module and the air duct box is achieved, which is not described herein. Illustratively, the air outlet 602 of the smoke collection module 600 may be plugged into the air inlet 520a of the air duct box 520. So set up, can be so that the dismouting of collection cigarette module 600 and wind channel box 520 is more swift, and the operation is simpler, labour saving and time saving. In addition, the air outlet 602 can be communicated with the air inlet 520a, so that the oil smoke can be discharged more smoothly.

In another exemplary embodiment, the interior of the smoke collection module 600 and/or the duct box 520 may be provided with a second connection assembly. A second connection assembly can removably connect the smoke collection module 600 to the air duct box 520. The second connecting component may be in various forms such as a pin and a pin hole, or a boss and a groove, or a snap, and is not described herein. As shown in fig. 17, smoke collection module 600 may include a mounting port 603 and a front panel 610 removably covering mounting port 603. The mounting opening 603 is an operation window of the second connecting assembly. When the smoke collection module 600 is attached to the air duct case 520 or the smoke collection module 600 is detached from the air duct case 520, the front panel 610 may be detached from the attachment opening 603 in advance to expose the attachment opening 603. An operator can operate the second connection assembly through the mounting port 603 to removably connect the smoke collection module 600 to the air duct box 520. After the assembly and disassembly are completed, the front panel 610 is assembled. So set up, can be so that the dismouting of collection cigarette module 600 and wind channel box 520 is simple swift more. Also, dust can be prevented from entering the interior of the smoke collection module 600.

Illustratively, the mounting port 603 may be located below the air inlet 601 of the smoke collection module 600. With such an arrangement, the height of the mounting opening 603 can facilitate various operations for the operator without the aid of an auxiliary ladder or stool tool. Moreover, due to the upward movement characteristic of the oil smoke with high temperature, a large amount of high-temperature oil smoke can directly move upward and be sucked into the air inlet 601, and the mounting port 603 is arranged below the air inlet 601, so that the high-temperature oil smoke is prevented from permeating into the smoke collection module 600 through the mounting port 603.

The number of the air inlets 601 may be one, two or more, and may also be adapted to the number of cooktops of the stove module 100. When the number of the air inlets 601 is multiple, the air deflectors of each air inlet 601 can operate independently, for example, only one air deflector can be started, and smoke can be collected by using the corresponding air inlet 601, so that the energy is saved and the environment is protected.

Illustratively, as shown in fig. 2, the second connection assembly may include a third connector, a fourth connector 810, and a fastener. A third connection may be provided within smoke collection module 600. The fourth connector 810 may be provided in the duct case 520. The third connecting piece can be provided with a first mounting hole. The fourth connector 810 may be provided with a second mounting hole 811. The third and fourth connecting members 810 may have any structure that can be realized, and are not described herein. The second mounting hole 811 may be a screw hole. The fasteners are detachably coupled to the first and second mounting holes 811. Illustratively, as shown in fig. 17, the third connector (not shown) may be a connecting plate that connects to the internal support 620 of the smoke collection module 600. The connecting plate may be provided with a first mounting hole. For example, the first mounting hole is a through hole. The fastening member passes through the through hole of the connecting plate and the second mounting hole 811 of the fourth connecting member 810 in order to detachably connect the smoke collection module 600 and the duct box 520 together. So set up, can be so that collection cigarette module 600 and wind channel box 520 dismouting is more swift, labour saving and time saving. And, the connection through the fastener can be more firm.

Illustratively, as shown in fig. 16, the upper portion of the smoke collection module 600, at which the air inlet 601 of the smoke collection module 600 is located, is inclined forward with respect to the lower portion thereof. So set up, can be so that the air intake 601 of collection cigarette module 600 is located the cooking utensils module 100 oil smoke source, and the oil absorption cigarette effect is better.

Illustratively, as shown in fig. 16, the side surface 630 and the back surface 640 of the smoke collection module 600 are connected by an inclined surface 650, and both the included angle between the inclined surface 650 and the side surface 630 and the included angle between the inclined surface 650 and the back surface 640 are obtuse angles. So set up, avoid forming the swirl in the inside corner of collection cigarette module 600, can be better balanced pressure field. Moreover, when the cigarette collecting module 600 is viewed from the side, the cigarette collecting module 600 is thinner, the visual sense is better, and the experience of the user is better.

As shown in FIG. 8, the fan box 510 may include a rear box 511 and a front cover 512. The front of the rear case 511 may be provided with an opening. The front cover 512 detachably covers the opening. The rear cabinet 511 may be secured within the rack module 200. A fan 530 (not shown) may be secured to the front cover 512. The front cover 512 may have two stations, a first mounting station and a second mounting station. Both the first and second mounting stations may cover the opening. The front cover 512 and the blower 530 under the first mounting station may be upside down with respect to the front cover 512 and the blower 530 under the second mounting station, so that the air outlet of the blower 530 may be directed to the left side under the first mounting station and the air outlet of the blower 530 may be directed to the right side under the second mounting station. The side walls of the left and right sides of the fan box 510 may be provided with air box outlets 510b. And air exhaust ports 203 may be provided on both side walls of the left and right sides of the rack module 200. The air box outlet 510b and the air outlet 203 of the front cover 512 at the side corresponding to the outlet of the blower 530 at different mounting stations communicate with each other. And the opposite side of the bellows outlet 510b and the air outlet 203 is closed. Like this, when the trunk line of discharging fume in the application scene of the integrated kitchen of modularization was located left side or right side, can have together overturned fan 530 through upper and lower upset protecgulum 512, and need not upset or removal back box 511 for the air outlet of fan 530 all can communicate to the trunk line of discharging fume with the shortest distance, makes the oil smoke arrange to the trunk line of discharging fume fast.

The connection form of the duct case 520 and the blower case 510 is various. Illustratively, the duct case 520 and the fan case 510 may be coupled to each other in an L-shape. The duct box 520 may be located behind the first functional cabinet 300 and the second functional cabinet 400. So set up, can save the space in the frame module 200 for wind channel box 520 and fan box 510 are more thinned.

Illustratively, as shown in fig. 8, a side wall of the fan box 510 may be provided with a bellows outlet 510b. Exhaust vents 203 may be provided on the sidewalls of the rack module 200. The air outlet 510b of the air box can be connected with the air outlet 203 through an air outlet seat 920. The bottom wall 221a of the air outlet seat 920 may be inclined upward in a direction from the air box outlet 510b to the air outlet 203. The oil smoke can be discharged out of the fan box body 510 through the air box outlet 510b, the air outlet seat 920 and the air outlet 203 in sequence. So set up, can do benefit to the oil smoke and discharge a large amount of oil smoke in the emission process. In addition, a small amount of oil smoke can be collected in the fan box 510 along the air outlet seat 920 after being condensed in the flowing process.

Illustratively, as shown in fig. 9, the duct box 520 may include an upper portion 521, a middle portion 522, and a lower portion 523, which are connected in sequence. The width of the lower portion 523 may be less than the width of the upper portion 521. The midsection 522 may taper in a top-down direction. The fan box 510 can be coupled to the lower portion 523 and can fit the width of the lower portion 523. With this arrangement, a reserved space is formed between the outside of the middle portion 522 and the rack module 200, and the reserved space can be held outside the middle portion 522 by an operator to install the air duct box 520 into the rack module 200.

Illustratively, as shown in fig. 2, the rack module 200 may include a retractable access panel 230. The access panel 230 may be located below the first functional cabinet 300 and the second functional cabinet 400, and may cover a front side of the fan box 510. So set up, can overhaul fan module 500 through opening access panel 230, and need not just like present integrated kitchen need dismantle behind the cooking utensils module 100 of top can overhaul fan module 500, overhaul more nimble convenient.

The access panel 230 may be provided with a hook assembly. The opening and closing connection with the rack module 200 is realized through the hook component.

Illustratively, as shown in fig. 2, the side wall of the duct case 520 may be provided with a fifth connector 930. The fifth connector 930 may be connected to the duct box 520 at one end and to the bottom of the rack module 200 at the other end. In this manner, the duct box 520 may be removably coupled to the rack module 200.

In the description of the present invention, it is to be understood that the orientation or positional relationship indicated by the orientation words such as "front", "rear", "upper", "lower", "left", "right", "horizontal", "vertical", "horizontal" and "top", "bottom", etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner" and "outer" refer to the interior and exterior relative to the contours of the components themselves.

For ease of description, relative terms of regions, such as "over … …", "over … …", "over … …", "over", etc., may be used herein to describe the regional positional relationship of one or more components or features to other components or features shown in the figures. It is understood that relative terms are intended to encompass not only the orientation of the component as depicted in the figures, but also different orientations in use or operation. For example, if an element in the drawings is turned over in its entirety, the articles "over" or "on" other elements or features will include the articles "under" or "beneath" the other elements or features. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". Further, these components or features may also be positioned at various other angles (e.g., rotated 90 degrees or other angles), all of which are intended to be encompassed herein.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, elements, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that many variations and modifications may be made in accordance with the teachings of the present invention, all within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (20)

1. A modular integrated cooker comprising a cooker module, characterized in that it further comprises a rack module, a first functional cabinet and a second functional cabinet, said cooker module being located on top of said rack module, wherein,

the first functional cabinet and the second functional cabinet are arranged on the rack module,

the first functional cabinet is independently detachable relative to the rack module,

the second functional cabinet is independently detachable relative to the rack module.

2. The modular integrated cooker of claim 1, wherein the rack module includes an outer frame and a beam body disposed within the outer frame, the beam body including an upper cross member, a lower cross member, and a longitudinal member, wherein,

the left and right ends of the upper cross beam are respectively connected to the outer frame,

the left and right ends of the lower cross beam are respectively connected to the outer frame,

the upper end of the longitudinal beam is connected to the upper cross beam, the lower end of the longitudinal beam is connected to the lower cross beam, so that a first mounting window and a second mounting window are respectively formed on the left side and the right side of the longitudinal beam,

the first functional cabinet penetrates through the first mounting window and is connected to the beam body forming the first mounting window, and the second functional cabinet penetrates through the second mounting window and is connected to the beam body forming the second mounting window.

3. The modular integrated cooker of claim 2, further comprising a fan module located within the outer frame, a portion of the fan module being located below the beam, the beam being supported on the fan module.

4. The modular integrated cooker of claim 2,

the upper cross beam comprises a bottom wall, a first front wall and a first rear wall which respectively extend upwards from the front edge and the rear edge of the bottom wall, a first front flanging which extends backwards from the upper edge of the first front wall, and a first rear flanging which extends forwards from the upper edge of the first rear wall, and the first functional cabinet and the second functional cabinet are connected to the bottom wall through fasteners; and/or

The lower cross beam comprises a top wall, a second front wall and a second rear wall which respectively extend downwards from the front edge and the rear edge of the top wall, a second front flanging which extends backwards from the lower edge of the second front wall, and a second rear flanging which extends forwards from the lower edge of the second rear wall, wherein the first functional cabinet and the second functional cabinet are connected to the top wall through fasteners.

5. The modular integrated cooker according to claim 2, wherein the first functional cabinet comprises a first cabinet body, a first door liner plate and a first door body, the first door liner plate is connected to the first cabinet body, the first door body is openably and closably connected to the first door liner plate, the upper portion of the first door liner plate is connected to the upper beam, and the lower portion of the first door liner plate is connected to the lower beam; and/or

The second function cabinet includes the second cabinet body, second door welt and second door body, the second door welt is connected to the second cabinet body, the second door body can be connected to with opening and shutting the second door welt, the upper portion of second door welt is connected to the entablature, the lower part of second door welt is connected to the bottom end rail.

6. The modular integrated cooker of claim 2, wherein the beam body further includes a reinforcement beam disposed inside the outer frame, both left and right ends of the reinforcement beam are connected to the outer frame, respectively, and the reinforcement beam is located behind the lower cross member, and the first functional cabinet and the second functional cabinet are further supported on the reinforcement beam.

7. The modular integrated cooker of claim 1, wherein the cooker module is detachably connected to the rack module in a vertical direction by a first connection assembly.

8. The modular integrated cooker of claim 7, wherein a top of the rack module is provided with a partition below the cooker module and above the first and second functional cabinets, wherein a first electrical connector is provided on the partition, and wherein a bottom of the cooker module is provided with a second electrical connector adapted to the first electrical connector, wherein the first and second electrical connectors are vertically aligned with each other and detachably mated.

9. The modular integrated cooker of claim 7, wherein the first connection assembly comprises a first connection and a second connection, one of the first connection and the second connection being disposed on the cooktop module and the other of the first connection and the second connection being disposed on the rack module,

the first link includes a coupling protrusion extending toward the second link in a vertical direction,

the second connecting piece comprises a connecting seat, a first clamping piece, a second clamping piece and an elastic piece, the first clamping piece and the second clamping piece are movably arranged on the connecting seat along the horizontal direction, a gap is formed between the first clamping piece and the second clamping piece along the horizontal direction, the connecting bulge can be clamped in the gap, the elastic piece is connected between the connecting seat and the first clamping piece and the second clamping piece, and the elastic piece is used for applying elastic force towards each other to the first clamping piece and the second clamping piece respectively.

10. The modular integrated cooker of claim 9,

a first concave part and a second concave part which are clamped with the first clamping piece and the second clamping piece are respectively arranged on two opposite sides of the connecting bulge; and/or

The dimension of the end of the connecting projection facing the second connecting piece in the horizontal direction is larger than the width of the gap in the natural state of the elastic piece.

11. The modular integrated cooker of claim 1, further comprising a smoke collection module located above the cooktop module and a fan module located within the rack module, the fan module comprising:

the fan box body is arranged below the first functional cabinet and the second functional cabinet;

the fan is accommodated in the fan box body; and

and the air duct box body is communicated between the smoke collection module and the fan box body.

12. The modular integrated cooker of claim 11,

the air outlet of the smoke collection module is located at the bottom of the air duct box, the air inlet of the air duct box is located at the top of the air duct box, and the air outlet of the smoke collection module is plugged into the air inlet of the air duct box.

13. The modular integrated cooker according to claim 11, wherein a second connecting assembly is provided inside the smoke collection module and/or the air duct box, the second connecting assembly detachably connects the smoke collection module to the air duct box, the smoke collection module comprises a mounting opening and a front panel detachably covering the mounting opening, and the mounting opening is an operation window of the second connecting assembly.

14. The modular integrated cooker of claim 13,

the mounting port is positioned below the air inlet of the smoke collection module; and/or

The second coupling assembling is including locating third connecting piece in the collection cigarette module, locating fourth connecting piece and fastener in the wind channel box, be equipped with first mounting hole on the third connecting piece, be equipped with the second mounting hole on the fourth connecting piece, fastener detachably is connected to first mounting hole with the second mounting hole.

15. The modular integrated cooker of claim 11,

the upper part of the smoke collection module is inclined forwards relative to the lower part of the smoke collection module, and the air inlet of the smoke collection module is positioned at the upper part; and/or

The side face and the back face of the smoke collection module are connected through an inclined face, and an included angle between the inclined face and the side face and an included angle between the inclined face and the back face are obtuse angles.

16. The modular integrated cooker according to claim 11, wherein the fan case includes a rear case having an opening at a front portion thereof and a front cover detachably covering the opening, the rear case is fixed in the rack module, the fan is fixed to the front cover, the front cover has a first mounting station and a second mounting station covering the opening, the front cover and the fan under the first mounting station are upside down with respect to the front cover and the fan under the second mounting station, so that the air outlet of the fan faces to the left side under the first mounting station and to the right side under the second mounting station, air outlet openings are provided on side walls of left and right sides of the fan case and air outlet openings are provided on side walls of left and right sides of the rack module, the air outlet opening and the air outlet opening of one side of the front cover corresponding to the air outlet opening of the fan under different mounting stations are communicated with each other and the air outlet opening of the opposite side are closed.

17. The modular integrated cooker of claim 11,

the air duct box body and the fan box body are connected into an L shape, and the air duct box body is positioned behind the first functional cabinet and the second functional cabinet.

18. The modular integrated cooker according to claim 11, wherein a bellows outlet is provided on a side wall of the fan box, an air outlet is provided on a side wall of the rack module, the bellows outlet and the air outlet are connected by an air outlet seat, and a bottom wall of the air outlet seat is inclined upward in a direction from the bellows outlet to the air outlet.

19. The modular integrated cooker of claim 11, wherein the duct box includes an upper portion, a middle portion and a lower portion connected in series, the lower portion having a width smaller than a width of the upper portion, the middle portion tapering in a direction from top to bottom, and the fan box being connected to the lower portion and adapted to the width of the lower portion.

20. The modular integrated cooker of claim 11, wherein the rack module includes a retractable access panel positioned below the first functional cabinet and the second functional cabinet and covering a front side of the fan box.

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