CN220293510U - Cup seat assembly, cooking machine and integrated kitchen - Google Patents

Abstract

The utility model provides a cup holder assembly with a good shock absorption effect, a cooking machine and an integrated kitchen. The utility model provides a cup seat subassembly, includes base, cup and a plurality of shock attenuation piece, the cup is located at least part the base top is equipped with open-top's installation cavity in the cup, and the cup is equipped with a plurality of connecting pieces of edge cup circumference distribution and with cup outer wall fixed connection outward, a plurality of shock attenuation pieces are along cup circumference distribution, the top and a connecting piece swing joint of every shock attenuation piece, the bottom of every shock attenuation piece with the base is articulated to be connected. According to the utility model, most of vibration transmitted along the axial direction of the cup seat is buffered and absorbed through the plurality of damping parts arranged between the base and the cup seat.

Description

Cup seat assembly, cooking machine and integrated kitchen

Technical Field

The utility model relates to a food processor component, in particular to a cup holder assembly, a food processor and an integrated kitchen range, and belongs to the technical field of kitchen electric equipment.

Background

The cooking machine is usually by drive assembly and have the cooking cup of smashing the part and constitute, and the cooking machine passes through the crushing part high-speed rotation in the cooking cup of drive assembly drive in order to smash the food material in the cooking cup to carry out processing to the food material. Because of the high-speed rotation of the crushing part, food materials unevenly rotate at a high speed in the cooking cup, so that the outer wall of the cooking cup vibrates intermittently and rapidly in the operation process of the cooking machine, and the cooking machine generates vibration and noise. In the prior art, although the technical scheme that the vibration reducing component is arranged in the food processor to reduce the vibration of the operation of the food processor is provided, the vibration reducing effect is to be improved.

Disclosure of Invention

Based on the background, the utility model aims to provide a cup seat assembly with a good shock absorption effect and a cooking machine, and the shock of the cooking machine during operation is well buffered and absorbed.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model provides a cup seat subassembly, includes base, cup and a plurality of shock attenuation piece, the cup is located at least part the base top is equipped with open-top's installation cavity in the cup, and the cup is equipped with a plurality of connecting pieces of edge cup circumference distribution and with cup outer wall fixed connection outward, a plurality of shock attenuation pieces are along cup circumference distribution, the top and a connecting piece swing joint of every shock attenuation piece, the bottom of every shock attenuation piece with the base is articulated to be connected.

When the food processor runs, the driving assembly drives the crushing part in the food processing cup to rotate, so that the food processing cup positioned in the mounting cavity and the cup seat generate relative displacement, the cup seat vibrates due to intermittent rapid impact on the outer wall of the food processing cup, most vibration between the cup seat and the base is buffered and reduced along the axial direction of the cup seat, the vibration absorbing part is movably connected with the cup seat and hinged with the base, and the vibration absorbing part, the cup seat and the base are provided with certain degrees of freedom of relative movement, so that the vibration energy of the cup seat is better transferred to the vibration absorbing part, and the vibration absorbing effect of the vibration absorbing part on the cup seat is improved.

Preferably, a hinge mechanism is arranged between the shock absorbing member and the connecting member, the top end of the shock absorbing member is hinged with the connecting member through the hinge mechanism, the hinge mechanism comprises a hinge hole and a pin shaft at least partially penetrating through the hinge hole, one of the hinge hole and the pin shaft is arranged at the top end of the shock absorbing member, and the other of the hinge hole and the pin shaft is arranged at the connecting member.

Preferably, the axis of the hinge mechanism is parallel to the tangential direction of the circumference of the cup seat, and the hinge axis of the bottom end of the shock absorbing member and the base is parallel to the axis of the hinge mechanism. Through the technical scheme, the better relative motion freedom degree among the cup seat, the damping piece and the base is ensured, so that the vibration energy of the cup seat is better transferred to the damping piece.

Preferably, a sliding mechanism is arranged between the shock absorbing piece and the connecting piece, the top end of the shock absorbing piece is connected with the connecting piece in a sliding mode through the sliding mechanism, the sliding mechanism comprises a sliding channel and a sliding piece at least partially embedded in the sliding channel, the sliding piece can move along the sliding channel, one of the sliding channel and the sliding piece is arranged at the top end of the shock absorbing piece, and the other one of the sliding channel and the sliding piece is arranged at the connecting piece.

Preferably, the sliding channel extends from the top end of the damper to the bottom end of the damper. Through the technical scheme, the relative displacement of the sliding part and the sliding channel is approximately along the working direction of the shock absorbing part, so that the relative motion between the cup seat and the shock absorbing part can better transfer the shock energy of the cup seat to the shock absorbing part.

Preferably, the shock absorbing member comprises a sleeve and a movable rod, a part of the movable rod is arranged in the sleeve, the movable rod is elastically connected with the sleeve, the top end of the movable rod is used as the top end of the shock absorbing member, and the bottom end of the sleeve is used as the bottom end of the shock absorbing member. The resilient connection between the movable rod and the sleeve may be achieved by a variety of resilient means including, but not limited to, springs, gas springs, and hydraulic oil and the like, which are capable of being compressed to provide a resilient force.

Preferably, the movable rod is provided with a first blocking member at a position adjacent to the top end of the movable rod, the sleeve is provided with a second blocking member at a position adjacent to the top end of the sleeve, the shock absorbing member further comprises a spring, the spring is sleeved outside the movable rod and is located between the first blocking member and the second blocking member, and two end parts of the spring are respectively abutted against the first blocking member and the second blocking member.

Preferably, the plurality of shock absorbing members are uniformly distributed along the circumferential direction of the cup seat by taking the axis of the cup seat as the center. According to the mode, the shock absorbing pieces which are uniformly distributed can uniformly absorb the shock of the cup seat, and the shock absorbing effect on the cup seat is improved.

Preferably, the cup seat is further provided with a circumferential damping ring, and the circumferential damping ring is located at an opening part of the mounting cavity. The circumferential damping rings can buffer and reduce vibration transmitted along the circumferential direction of the cup seat, and further improve the damping effect on the cup seat.

Preferably, the circumferential damping ring comprises a fixing part and a plurality of shock absorbing parts, wherein the fixing part is used for fixedly connecting the side wall of the mounting cavity, the shock absorbing parts are used for being abutted to the cooking cup, the fixing part extends along the circumferential direction of the side wall of the mounting cavity, and the shock absorbing parts are uniformly distributed on the surface of the fixing part at intervals.

The utility model provides a cooking machine, includes cooking cup, drive assembly and above arbitrary cup seat subassembly, the installation intracavity is located to the cooking cup, drive assembly locates cup seat below and with base surface fixed connection.

An integrated kitchen comprises an integrated kitchen body and a cooking machine, wherein the integrated kitchen body is connected with the cooking machine; the food processor is the food processor.

Preferably, the integrated kitchen further comprises a drawer module, wherein the drawer module is arranged in the drawer mounting cavity of the integrated kitchen body and can be partially pulled away from the drawer mounting cavity of the integrated kitchen body under the action of external force; the cooking machine is detachably mounted on the drawer module, and the cooking machine can be pulled away from a drawer mounting cavity of the integrated kitchen body along the extending direction of the drawer module.

Compared with the prior art, the utility model has the following advantages:

according to the cup holder assembly and the food processor, the plurality of shock absorbing pieces are arranged between the base and the cup holder, most of shock transmitted along the axial direction of the cup holder is buffered and absorbed, and certain degrees of freedom of relative motion are arranged between the shock absorbing pieces and the cup holder and between the shock absorbing pieces and the base, so that the shock energy of the cup holder is well transferred to the shock absorbing pieces, and the shock absorbing effect of the shock absorbing pieces on the cup holder is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of a cup holder assembly of the present utility model;

FIG. 2 is a schematic view of an exploded view of the cup holder assembly of the present utility model;

FIG. 3 is a schematic view of the hinge mechanism of the present utility model;

FIG. 4 is a schematic view of the structure of the shock absorbing member of the present utility model;

FIG. 5 is a schematic view of the use of the cup holder assembly of the present utility model;

FIG. 6 is a schematic view of a sliding mechanism according to the present utility model;

FIG. 7 is a schematic view of another construction of the sliding mechanism of the present utility model;

fig. 8 is a schematic perspective view of an integrated cooker according to the present utility model.

In the figure: 1. a base; 2. a cup holder; 3. a shock absorbing member; 4. a mounting cavity; 5. a connecting piece; 6. a hinge mechanism; 7. a circumferential damping ring; 8. a sliding mechanism; 10. a cooking cup; 20. a drive assembly; 30. an integrated stove body; 40. a cooking machine; 50. a drawer module; 60. a drawer mounting cavity; 301. a sleeve; 302. a movable rod; 303. a spring; 304. a first blocking member; 305. a second blocking member; 601. a hinge hole; 602. a pin shaft; 701. a fixing part; 702. a shock absorbing section; 801. a through hole; 802. a slide bar; 803. a third barrier; 804. a chute; 805. a sliding block.

Detailed Description

The technical scheme of the utility model is further specifically described below through specific embodiments and with reference to the accompanying drawings. It should be understood that the practice of the utility model is not limited to the following examples, but is intended to be within the scope of the utility model in any form and/or modification thereof.

In the present utility model, unless otherwise specified, all parts and percentages are by weight, and the equipment, materials, etc. used are commercially available or are conventional in the art. The methods in the following examples are conventional in the art unless otherwise specified. The components and devices in the following examples are, unless otherwise indicated, all those components and devices known to those skilled in the art, and their structures and principles are known to those skilled in the art from technical manuals or by routine experimentation.

The cooking machine generally comprises a cooking cup, a cup seat assembly and a driving assembly, wherein a smashing part is arranged in the cooking cup, the cup seat assembly is provided with an installation cavity, the cooking cup is detachably installed in the installation cavity, a power output end of the driving assembly extends in the cup seat assembly and is connected with the smashing part, and the smashing part is driven to rotate through the driving assembly to achieve the functions of smashing, cooking and the like of the cooking machine on food materials. When the food processor operates, the rotation of the crushing part enables the food processing cup positioned in the mounting cavity to generate relative displacement with the cup seat component, the cup seat component is vibrated by intermittently and rapidly impacting the outer wall of the food processing cup, and the cup seat component structure in the prior art cannot well reduce the vibration.

In view of the above, an embodiment of the utility model discloses a cup holder assembly, which comprises a base, a cup holder and a plurality of shock absorbing members arranged between the base and the cup holder. The cup seat is arranged above the base, and a mounting cavity with an opening at the top is arranged in the cup seat. The cup seat is provided with a plurality of connecting pieces which are distributed along the circumferential direction of the cup seat and fixedly connected with the outer wall of the cup seat. The plurality of shock-absorbing members are distributed along the circumferential direction of the cup seat, the top end of each shock-absorbing member is movably connected with one connecting member, and the bottom end of each shock-absorbing member is hinged with the base.

When the food processor runs, most vibration between the cup seat and the base is buffered and reduced along the axial direction of the cup seat, the vibration absorbing member is movably connected with the cup seat and is hinged with the base, and certain relative motion degrees of freedom are arranged between the vibration absorbing member and the cup seat and between the vibration absorbing member and the base, so that the vibration energy of the cup seat is well transferred to the vibration absorbing member, and the vibration absorbing effect of the vibration absorbing member on the cup seat is improved.

In the following detailed description of embodiments of the utility model, reference is made to the accompanying drawings, in which, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the embodiments of the utility model.

Example 1

A cup holder assembly as shown in fig. 1 and 2 comprises a base 1, a cup holder 2 and four shock absorbing members 3 arranged between the base 1 and the cup holder 2. The cup holder 2 is arranged above the base 1, an installation cavity 4 with an open top is arranged in the cup holder 2, and the installation cavity 4 is used for placing and fixing a cooking cup 10. Four connecting pieces 5 which are distributed along the circumferential direction of the cup holder 2 and fixedly connected with the outer wall of the cup holder 2 are arranged outside the cup holder 2. Four shock-absorbing members 3 are circumferentially distributed along the cup seat 2, the top end of each shock-absorbing member 3 is movably connected with one connecting member 5, and the bottom end of each shock-absorbing member 3 is hinged with the base 1. Of course, the number of the shock absorbing members 3 and the number of the connecting members 5 may be adjusted according to the actual application scenario.

An articulated mechanism 6 is arranged between the shock absorbing member 3 and the connecting member 5, the top end of the shock absorbing member 3 is articulated with the connecting member 5 through the articulated mechanism 6, and the articulated mechanism 6 comprises an articulated hole 601 and a pin shaft 602 partially penetrating through the articulated hole 601. As shown in fig. 3, the connecting piece 5 has a door-shaped structure, two side portions of the connecting piece 5 are respectively provided with hinge holes 601, two ends of a pin shaft 602 are respectively arranged in the two hinge holes 601 in a penetrating manner, and the middle of the pin shaft 602 is arranged at the top end of the shock absorbing piece 3 in a penetrating manner. Of course, the hinge hole 601 may be formed at the top end of the damper 3, and the pin 602 may be formed at the connector 5.

The axis of the hinge mechanism 6 is parallel to the tangential direction of the circumference of the cup holder 2, and the hinge axis of the bottom end of the shock absorbing member 3 and the base 1 is parallel to the axis of the hinge mechanism 6, so that the better degree of freedom of relative motion among the cup holder 2, the shock absorbing member 3 and the base 1 is ensured, and the shock energy of the cup holder 2 is better transferred to the shock absorbing member 3.

As shown in fig. 4, the shock absorbing member 3 includes a sleeve 301 and a movable rod 302, a portion of the movable rod 302 is provided in the sleeve 301, the movable rod 302 is elastically connected to the sleeve 301, the top end of the movable rod 302 serves as the top end of the shock absorbing member 3, and the bottom end of the sleeve 301 serves as the bottom end of the shock absorbing member 3. In this embodiment, the elastic connection between the movable rod 302 and the sleeve 301 is achieved by means of a spring 303. Specifically, the movable rod 302 is provided with a first blocking member 304 at a position adjacent to the top end thereof, the sleeve 301 is provided with a second blocking member 305 at a position adjacent to the top end thereof, the spring 303 is sleeved outside the movable rod 302 and is positioned between the first blocking member 304 and the second blocking member 305, and two end parts of the spring 303 respectively abut against the first blocking member 304 and the second blocking member 305. Of course, the elastic connection between the movable rod 302 and the sleeve 301 may be achieved by other elastic means, including but not limited to, a gas spring 303, a hydraulic oil, etc. capable of being pressed to provide a resilient force, i.e. the shock absorbing member 3 may also be a support rod of the gas spring 303 or a hydraulic oil rod.

In order to improve the shock absorbing effect on the cup holder 2, the four shock absorbing members 3 are uniformly distributed around the axis of the cup holder 2 in the circumferential direction of the cup holder 2, thereby uniformly absorbing the shock of the cup holder 2.

In order to further improve the shock attenuation effect to cup 2, cup 2 still is equipped with circumference damping ring 7, and circumference damping ring 7 is located the opening part of installation cavity 4, and circumference damping ring 7 can cushion and subdue the vibrations of spreading along cup 2 circumference. Specifically, the circumferential damping ring 7 is an annular body, the circumferential damping ring 7 comprises a fixing portion 701 fixedly connected with the side wall of the mounting cavity 4 and a plurality of shock absorbing portions 702 used for being abutted against the cooking cup 10, the fixing portion 701 extends along the circumferential direction of the side wall of the mounting cavity 4, the shock absorbing portions 702 are uniformly distributed on the surface of the fixing portion 701 at intervals, and the shock absorbing portions 702 extend towards the direction of the axis of the mounting cavity 4.

When the cup holder is used, as shown in fig. 5, the cup holder 10 is installed in the installation cavity 4, the driving assembly 20 is started, the food processor 40 operates, intermittent rapid impact of the cup holder 10 on the cup holder 2 acts on the shock absorbing part 702 of the circumferential shock absorbing ring 7 at first, so that part of vibration energy transmitted along the circumferential direction of the cup holder 2 is buffered and reduced by the circumferential shock absorbing ring 7, other vibration energy is transmitted along the axial direction of the cup holder 2, so that the cup holder 2 and the base 1 have a tendency of relative displacement, the part of vibration is buffered and reduced by the shock absorbing part 3 between the cup holder 2 and the base 1, the shock absorbing part 3 is hinged with the cup holder 2 and the base 1, the hinge axes are parallel, the degree of freedom of relative motion is good, and the vibration energy of the cup holder 2 is transmitted to the shock absorbing part 3 through the hinge mechanism 6 as much as possible, and the shock absorbing effect is improved.

Example two

The cup holder assembly has the same technical scheme as the first embodiment, and is characterized in that:

the hinge mechanism 6 is not arranged between the shock absorbing piece 3 and the connecting piece 5, but the shock absorbing piece 3 is provided with the sliding mechanism 8, the top end of the shock absorbing piece 3 is in sliding connection with the connecting piece 5 through the sliding mechanism 8, the sliding mechanism 8 comprises a sliding channel and a sliding piece partially embedded in the sliding channel, the sliding piece can move along the sliding channel, the sliding channel is arranged on the connecting piece 5, and the sliding piece is arranged at the top end of the shock absorbing piece 3.

Specifically, as shown in fig. 6, the connecting member 5 has a cylindrical structure, a through hole 801 penetrating the connecting member 5 from top to bottom in the connecting member 5 is used as a sliding channel, the sliding channel extends from the top end of the connecting member 5 to the bottom end of the connecting member 5, a sliding rod 802 extending along the axial direction of the damping member 3 is arranged at the top end of the damping member 3 as a sliding member, the sliding rod 802 is sleeved in the through hole 801 of the connecting member 5, a third blocking member 803 is further arranged at the top end of the sliding rod 802, and the sliding rod 802 is matched with the first blocking member 304 to prevent the sliding rod 802 from falling out of the through hole 801 when sliding in the through hole 801 of the connecting member 5. Of course, a sliding channel may be provided at the top end of the shock absorbing member 3, and a sliding member may be provided at the connecting member 5, and as shown in fig. 7, a sliding groove 804 is provided at the side portion of the top end of the shock absorbing member 3 as a sliding channel, a sliding block 805 is provided at the side portion of the connecting member 5 as a sliding member, and the sliding block 805 is embedded in the sliding groove 804.

Example III

The embodiment of the utility model also discloses a cooking machine, and referring again to fig. 5, the cooking machine comprises a cooking cup 10, a driving component 20 and a cup seat component in the embodiment one or the embodiment two, wherein the cooking cup 10 is arranged in the mounting cavity 4, and the driving component 20 is arranged below the cup seat 2 and fixedly connected with the surface of the base 1.

Example IV

The embodiment of the utility model also discloses an integrated kitchen range, as shown in fig. 8, which comprises an integrated kitchen range body 30 and a cooking machine 40 in the third embodiment, wherein the integrated kitchen range body 30 is connected with the cooking machine 40. The integrated kitchen further comprises a drawer module 50, wherein the drawer module 50 is arranged in the drawer mounting cavity 60 of the integrated kitchen body 30 and can be partially pulled out of the drawer mounting cavity 60 of the integrated kitchen body 30 under the action of external force. The cooking machine 40 is detachably mounted on the drawer module 50, and the cooking machine 40 can be pulled away from the drawer mounting cavity 60 of the integrated kitchen body 30 along the extending direction of the drawer module 50.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (13)

1. A cup holder assembly, characterized in that: this cup subassembly includes base (1), cup (2) and a plurality of shock attenuation piece (3), cup (2) are located at least partially base (1) top is equipped with open-top's installation cavity (4) in cup (2), is equipped with a plurality of connecting pieces (5) along cup (2) circumference distribution and with cup (2) outer wall fixed connection outward cup (2), a plurality of shock attenuation pieces (3) are along cup (2) circumference distribution, the top and the connecting piece (5) swing joint of every shock attenuation piece (3), the bottom of every shock attenuation piece (3) with base (1) hinged joint.

2. The cup holder assembly of claim 1, wherein: be equipped with hinge mechanism (6) between shock attenuation piece (3) and connecting piece (5), shock attenuation piece (3) top is connected through hinge mechanism (6) with connecting piece (5), hinge mechanism (6) are including hinge hole (601) and round pin axle (602) in at least part wears to locate hinge hole (601), and shock attenuation piece (3) top is located to one of hinge hole (601) and round pin axle (602), and connecting piece (5) are located to the other of hinge hole (601) and round pin axle (602).

3. The cup holder assembly of claim 2, wherein: the axis of the hinge mechanism (6) is parallel to the tangential direction of the circumference of the cup seat (2), and the hinge axis of the bottom end of the shock absorbing piece (3) and the base (1) is parallel to the axis of the hinge mechanism (6).

4. The cup holder assembly of claim 1, wherein: the damping device is characterized in that a sliding mechanism (8) is arranged between the damping piece (3) and the connecting piece (5), the top end of the damping piece (3) is connected with the connecting piece (5) in a sliding mode through the sliding mechanism (8), the sliding mechanism (8) comprises a sliding channel and a sliding piece at least partially embedded in the sliding channel, the sliding piece can move along the sliding channel, one of the sliding channel and the sliding piece is arranged at the top end of the damping piece (3), and the other one of the sliding channel and the sliding piece is arranged at the connecting piece (5).

5. The cup holder assembly of claim 4, wherein: the sliding channel extends from the top end of the shock absorbing piece (3) to the bottom end of the shock absorbing piece (3).

6. The cup holder assembly of claim 1, wherein: the shock-absorbing member (3) comprises a sleeve (301) and a movable rod (302), a part of the movable rod (302) is arranged in the sleeve (301), the movable rod (302) is elastically connected with the sleeve (301), the top end of the movable rod (302) is used as the top end of the shock-absorbing member (3), and the bottom end of the sleeve (301) is used as the bottom end of the shock-absorbing member (3).

7. The cup holder assembly of claim 6, wherein: the movable rod (302) is provided with a first blocking piece (304) at a position adjacent to the top end of the movable rod, the sleeve (301) is provided with a second blocking piece (305) at a position adjacent to the top end of the sleeve, the shock absorbing piece (3) further comprises a spring (303), the spring (303) is sleeved outside the movable rod (302) and is located between the first blocking piece (304) and the second blocking piece (305), and two end parts of the spring (303) are respectively abutted to the first blocking piece (304) and the second blocking piece (305).

8. The cup holder assembly of claim 1, wherein: the plurality of shock absorbing pieces (3) are uniformly distributed along the circumferential direction of the cup seat (2) by taking the axis of the cup seat (2) as the center.

9. The cup holder assembly of claim 1, wherein: the cup seat (2) is also provided with a circumferential damping ring (7), and the circumferential damping ring (7) is positioned at the opening part of the mounting cavity (4).

10. The cup holder assembly of claim 9, wherein: the circumferential shock-absorbing ring (7) comprises a fixing portion (701) fixedly connected with the side wall of the mounting cavity (4) and a plurality of shock-absorbing portions (702) used for being abutted to the cooking cup (10), the fixing portion (701) extends along the circumferential direction of the side wall of the mounting cavity (4), and the shock-absorbing portions (702) are uniformly distributed on the surface of the fixing portion (701) at intervals.

11. A cooking machine, its characterized in that: the food processor comprises a food processing cup (10), a driving assembly (20) and a cup seat assembly as set forth in any one of claims 1-10, wherein the food processing cup (10) is arranged in the mounting cavity (4), and the driving assembly (20) is arranged below the cup seat (2) and fixedly connected with the surface of the base (1).

12. An integrated kitchen, characterized in that: comprising the following steps:

the integrated kitchen range comprises an integrated kitchen range body (30) and a cooking machine (40), wherein the integrated kitchen range body (30) is connected with the cooking machine (40); the food processor (40) is the food processor of claim 11.

13. The integrated cooktop of claim 12, wherein: the integrated cooker further includes:

the drawer module (50) is arranged in the drawer mounting cavity (60) of the integrated kitchen body (30) and can be partially pulled away from the drawer mounting cavity (60) of the integrated kitchen body (30) under the action of external force; the cooking machine (40) is detachably mounted on the drawer module (50), and the cooking machine (40) can be pulled away from a drawer mounting cavity (60) of the integrated kitchen body (30) along the extending direction of the drawer module (50).