CN219685900U - Integrated water tank - Google Patents

Abstract

The utility model relates to an integrated sink comprising: a cabinet body, the top of which is provided with a table top; the water tank body is arranged on the cabinet body, and the main body is positioned below the table top; the cabinet body is provided with an installation cavity in which the food material processing device is placed, the food material processing device comprises a machine body and a functional module for processing food materials, the machine body is further provided with a placement cavity with an open top, the functional module is placed in the placement cavity, the top of the placement cavity of the machine body is further provided with a cover plate component which can be opened and closed, and the top of the cover plate component is basically flush with the table top of the cabinet body when the cover plate component is in a closed state. The food processing device is arranged in the installation cavity which is independent of the water tank body on the cabinet body, so that the phenomenon that the internal space of the water tank body is occupied in the food processing process is avoided, the use of the water tank cannot be influenced, the food processing device is basically hidden in the cabinet body, the food processing device cannot be quite abrupt, and the overall attractiveness of the integrated water tank is guaranteed.

Description

Integrated water tank

Technical Field

The utility model relates to the technical field of integrated water tanks, in particular to an integrated water tank with a food cutting function.

Background

The traditional integrated water tank is a water tank which integrates a plurality of kitchen functions, and functions such as a water purifying treatment system, a hot water supply system, a garbage treatment system and the like are added besides the traditional water tank. With the updating of products, the current integrated water tank is also integrated with functions of a dish washer, a disinfection cabinet and the like. An integrated sink is disclosed as CN202220201067.1 (grant publication No. CN 216823328U) and includes a sink body and a dishwasher provided at the bottom of the sink body.

On the other hand, in the kitchen cooking process, the food processor (such as a fruit and vegetable slicer, a shredder, a dicer, a meat slicer and the like) is a common kitchen appliance, the traditional food processor has single function, if a user needs to use the function, one machine needs to be configured separately, so that the number of the food processors in the home is large, the placing space is occupied, and a plurality of machines are configured, so that the cost is increased, and the user requirement cannot be met.

Therefore, the application number is CN202022108181.3 (the authorized bulletin number is CN 213682354U), the multifunctional invisible water tank comprises a tank body and a water tap, a cover plate for covering the tank body is arranged at the top of the tank body, and a chopping board is arranged on one surface of the cover plate; the device is characterized in that an operation table is arranged in the tank body, a gear motor is arranged on one side of the tank body, an interface pipeline extending into the tank body is arranged around an output shaft of the gear motor, and a processing device is detachably connected to the interface pipeline. In order to fully utilize the space in the water tank, a plurality of processing devices are added in the water tank, and the functions of slicing, shredding, mincing, juicing and the like can be realized. When in use, the corresponding processing device is connected in the interface pipeline extending into the tank body.

The invisible water tank with the food processing function in the above patent application has a certain defect, firstly, the output end (namely the interface pipeline) of the power device of the invisible water tank stretches into the tank body, that is, the space occupying the tank body is inevitably occupied after the assembly of the processing device is completed, so that the cleaning and the use of the water tank are affected, and on the other hand, the processing device in the set value water tank is quite abrupt, and the overall aesthetic property of the water tank is affected. Secondly, this stealthy basin is used for dismantling the processingequipment of food material processing, although can dismantle the effect that reaches a tractor serves several purposes relative the basin main part, but every processingequipment has also just saved power device, and the work subassembly that is main cutting and joining in marriage the function still is arranged in corresponding casing to have independent material throwing mouth and discharge gate, the user is throwing the material and receiving the food material that the processing was accomplished still goes on in the basin, very inconvenient, especially, when wasing processingequipment, the cleaning process is comparatively loaded down with trivial details, and cleaning effect is poor.

Disclosure of Invention

The first technical problem to be solved by the utility model is to provide an integrated water tank which can conveniently process food materials, does not occupy the internal space of the water tank main body and does not influence the normal use of the water tank aiming at the current state of the art.

The second technical problem to be solved by the utility model is to provide an integrated water tank which is convenient for cleaning a functional module aiming at the current state of the art.

The third technical problem to be solved by the utility model is to provide an integrated water tank which is convenient for a user to throw materials to process food materials and take out after the food materials are processed.

The technical scheme adopted by the utility model for solving the first technical problem is as follows: an integrated sink, comprising:

a cabinet body, the top of which is provided with a table top;

the water tank body is arranged on the cabinet body, and the main body is positioned below the table top of the cabinet body;

the food processing device is arranged on the cabinet body;

the cabinet body is provided with an installation cavity with an open top and used for placing the food processing device therein, and the top surface of the food processing device is basically flush with the table top of the cabinet body.

For convenient food processingequipment installs on the cabinet body to and guarantee the whole neatly nature of cabinet body mesa, food processingequipment includes the organism and is used for carrying out processing to food processing's functional module, still inject the open settling chamber in top on the organism, functional module places in settling chamber, the open department in top of settling chamber of organism still is equipped with the apron subassembly that can open and close, the apron subassembly is in under the closed condition, its top with the mesa of cabinet body is basically flush.

The utility model solves the second technical problem by adopting the technical proposal that: the machine body is also provided with a main driving mechanism, the functional module is arranged in the arranging cavity of the machine body in a detachable mode relative to the machine body, and the functional module is in transmission connection with the power output end of the main driving mechanism in a state that the functional module is arranged on the machine body. Generally, the driving mechanism of the food processing device can be a set functional module, but the detachable functional module is adopted, so that the structure of the functional module can be effectively simplified, the food processing device is more compact and convenient to take out and clean.

In order to adapt the feeding process to the functional module, the functional module is provided with a working chamber and a food processing assembly arranged in the working chamber, the top of the functional module is also provided with a feeding port for food to be processed to enter the working chamber, the cover plate assembly is provided with a feeding port, and the feeding port of the cover plate assembly is opposite to the feeding port of the functional module arranged in the arranging chamber when the cover plate assembly is in a closed state.

Above-mentioned structural design is come out functional module totally independently, and its feed inlet is set up on the apron subassembly of organism for functional module's structure is simplified as far as possible, has avoided causing the restriction to its cleaning process because of the casing, the feed inlet of additionally addding on functional module again, and functional module can directly take out and wash, has guaranteed clean effect. On the other hand, as the feeding port is directly arranged on the cover plate component basically flush with the table top of the cabinet body, namely, the feeding port is used for basically hiding the food processing device and part in the cabinet body, the food processing device and part are not visible to a user, and the user can directly feed the food into the feeding port of the cover plate component, so that the use experience is improved.

In order to facilitate the placement and removal of the functional module into and from the placement chamber, the cover assembly is deflected up and down by a rotational center at a position where it is partially connected to the top opening of the body placement chamber, thereby opening or closing the top opening of the body.

In general, the functional module has two or more functional modules, and the machine body is provided with at least one storage chamber independent of the placement chamber for placing the idle functional modules therein for the convenience of the user to replace different functional modules and store the idle functional modules removed or cleaned on the machine body

In order to better hide the idle functional module, guarantee the neatly of the cabinet body mesa of integrated basin, the top of storing the cavity has spaciously, the open department in top of storing the cavity still is equipped with the apron spare that can open and close the apron spare is in under the state of closing, the top surface of this apron spare with the mesa of the cabinet body is basic flush.

In order to better conform to the picking and placing habit of the user, the storage chamber and the placement chamber are sequentially arranged in the front-back direction of the machine body. Preferably, it is customary for the user to place the articles which are not used at all in a region which is not easily accessible or touched, for which purpose the storage chamber is located in the rear region of the placement chamber.

In general, food such as fruits, vegetables, meat products, etc. is cut immediately after the washing is completed, and for this purpose, the food processing device is disposed adjacent to the water tank main body. Preferably, the food processing device is located on the left or right side of the tub body for better spatial layout.

In order to better meet different food processing demands of users, the functional module is at least one of a slicing module for slicing food materials, a shredding module for shredding the food materials, a dicing module for dicing the food materials, a crushing module for crushing the food materials and a meat slicing module for slicing meat.

In order to enable the integrated water tank to have the function of cleaning tableware, a dish washer is further arranged on the cabinet body corresponding to the area below the water tank body.

The technical scheme adopted by the utility model for solving the third technical problem is as follows: an integrated sink, comprising:

a cabinet body, the top of which is provided with a table top;

the water tank body is arranged on the cabinet body, and the main body is positioned below the table top of the cabinet body;

the food processing device is arranged on the cabinet body;

the cabinet body is provided with an installation cavity for placing the food processing device therein, the top of the cabinet body is provided with a feeding port for feeding food into the food processing device, and the side part of the cabinet body is provided with a material taking port for taking out the food processed by the food processing device.

In order to facilitate the food material that gets into from the feed inlet of the cabinet body to enter into functional module's work cavity, food material processingequipment includes the organism and is used for carrying out processing's functional module to food material, on the top of organism with the region opposite to the feed inlet is equipped with the food material entry that supplies food material to enter into functional module's work cavity. For convenience of users to collect and take out food materials after processing the functional module, a placing cavity with an open top is further defined on the machine body, the functional module is placed in the placing cavity, a discharging hole for the food materials processed in the working cavity to flow out is formed in the bottom of the functional module, a vegetable receiving area which is located below the placing cavity and opposite to the discharging hole of the functional module is further formed in the machine body, a vegetable receiving box is placed in the vegetable receiving area, a first opening is formed in the side portion of the machine body at a position corresponding to the vegetable receiving area, a second opening opposite to the first opening is formed in the side wall of the cabinet body, the vegetable receiving box can pass through the first opening and the second opening in a pushing and pulling mode relative to the cabinet body, and the second opening on the cabinet body is the material taking opening.

In order to better conform to the operation habit of the user, the second opening is positioned on the front side wall of the cabinet body. It is contemplated that the second opening may also be located on the left, right, or rear side wall of the cabinet.

Because the inside of functional module is provided with only edible material processing subassembly, therefore, the structure is simpler, compact, and especially, functional module's pan feeding mouth and discharge gate correspond to be seted up at top and bottom for functional module has wholly formed the structure of "fretwork" from top to bottom, has made things convenient for the user directly to take out functional module and has washed under tap or soak in the basin and wash, has greatly improved user's use experience.

Compared with the prior art, the utility model has the following advantages: the food processing device is arranged in the installation cavity which is independent of the water tank body on the cabinet body, so that the phenomenon that the internal space of the water tank body is occupied in the food processing process is avoided, the use of the water tank cannot be influenced, namely, in the food processing process, a user can clean other food to be processed by using the water tank, and the food processing efficiency is improved; on the other hand, the food processing device is basically hidden in the cabinet body and is not quite abrupt, so that the overall attractiveness of the integrated water tank is ensured. In the preferred scheme, the food processing device of the integrated water tank is characterized in that a functional module for realizing food processing is completely independent, and a feed port is arranged on a cover plate assembly of a machine body, so that the structure of the functional module is simplified as much as possible, the additionally arranged shell and feed port on the functional module are avoided, the cleaning process of the functional module is limited, and the functional module of the food processor can be directly taken out for cleaning, and the cleaning effect is ensured. In addition, after the food processing device arranged on the cabinet body of the integrated water tank can directly throw materials at the top of the cabinet body, after the food processing is finished, a user can directly take materials from the side part of the cabinet body, so that the food processing device and the cabinet body are skillfully integrated into a whole, and the use experience of the user is improved.

Drawings

FIG. 1 is a schematic perspective view of an integrated sink according to an embodiment of the present utility model;

fig. 2 is a schematic perspective view of an integrated water tank according to an embodiment of the present utility model (a food processing device is in a separated state);

FIG. 3 is a schematic perspective view of an integrated sink according to an embodiment of the present utility model (with the cover assembly and the cover member both open);

FIG. 4 is a cross-sectional perspective view at A-A of FIG. 1;

fig. 5 is a schematic perspective view of a food processing device according to an embodiment of the present utility model;

FIG. 6 is a schematic perspective view of the cover assembly and functional module shown in FIG. 5;

fig. 7 is a vertical sectional view of fig. 5 taken in the left-right direction (the auxiliary cover plate is in a state of opening the food inlet, the food inlet being opposite to the second flow passage);

FIG. 8 is a vertical cross-sectional view of FIG. 5 taken in the fore-aft direction;

FIG. 9 is a schematic view of the functional module in the placement chamber with the cover plate assembly omitted from FIG. 8;

fig. 10 is a schematic perspective view of a dicing module according to an embodiment of the utility model;

FIG. 11 is a cross-sectional perspective view of a dicing module of an embodiment of the utility model;

fig. 12 is a schematic perspective view of a cutter barrel of the dicing module according to the embodiment of the utility model;

FIG. 13 is a cross-sectional perspective view of a slicing module according to an embodiment of the utility model;

fig. 14 is a cut-away perspective view of a meat mincing module according to an embodiment of the utility model.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

In the description and claims of the present utility model, terms indicating directions, such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", etc., are used to describe various example structural parts and elements of the present utility model, but these terms are used herein for convenience of description only and are determined based on the example orientations shown in the drawings. Because the disclosed embodiments of the utility model may be arranged in a variety of orientations, the directional terminology is used for purposes of illustration and is in no way limiting, such as "upper" and "lower" are not necessarily limited to being in a direction opposite or coincident with the direction of gravity.

Referring to fig. 1-14, an integrated sink is shown comprising a tub 1, a sink body 2, a dishwasher 3, a locker 4 and a food processing device 5.

Referring to fig. 1 to 4, the cabinet 1 is generally square, the tub 2 is provided with the right side of the cabinet 1, and the dishwasher 3 is provided below the tub 2. The main part of the water tank body 2 is positioned below the table top of the cabinet body 1, and a water tap 201 is arranged on the table top of the cabinet body 1 and positioned at the rear side of the water tank body 2. The left side of the cabinet 1 is provided with the food processing device 5, and the food processing device 5 is arranged adjacent to the water tank body 2. Specifically, the cabinet 1 is formed with a mounting chamber 100 in which the food processing device 5 is placed. A storage cabinet 4 is arranged below the food processing device 5.

As shown in fig. 2, the food processing device is also square in shape as a whole, and the shape of the installation chamber 100 on the cabinet 1 matches the shape of the food processing device 5. The food processing device 5 includes a body 10 and a functional module 50 for processing food. The body 10 further defines a seating chamber 11 having an open top, and the functional module 50 is detachably placed in the seating chamber 11.

Referring to fig. 9, the main driving mechanism 15 is further disposed on the machine body 10, and the power required by the different functional modules 50, such as the vegetable cutting module and the meat mincing module, is different (the rotation speeds of the transmission connection ends are different), so, in order to adapt to the power required by the different functional modules 50, the main driving mechanism 15 of this embodiment is a driving motor, which is integrally disposed below the storage chamber 12, specifically, the output shaft of the driving motor is further in transmission connection with a gear box, which has at least two transmission connection ends, referring to fig. 9, two transmission connection ends are shown and respectively denoted as a first transmission connection end 150a and a second transmission connection end 150b. The first transmission connection end 150a is a horizontally placed (the axis extends horizontally), i.e. a first power output end, and can be used for being in transmission connection with the slicing module, the shredding module, the dicing module or the meat slicing module; the second transmission connection end 150b is a gear structure disposed vertically (with an axis extending vertically), that is, a second power output end, and may be used for transmission connection with the meat mincing module. The first power output end 150a and the second power output end 150b are located at the bottom of the placement chamber 11.

The machine body 10 defines a functional module placement area for placing other idle functional modules 50, and the functional module placement area is also a cavity structure with an opening at the top, namely a storage cavity 12, and the idle functional modules 50 can be placed into the storage cavity 12 and taken out through the opening at the top of the storage cavity 12. The settling chamber 11 is provided at the forefront side of the machine body 10, and the storage chamber 12 is located at the rear side of the settling chamber 11 and is sequentially arranged in the front-rear direction, as shown in fig. 8, the storage chamber 12 is shown in two, and the slicing module 50a and the meat mincing module 50b are respectively placed.

The top opening of the installation cavity 11 is opened and closed by a cover plate assembly 30 which can be turned left and right, and specifically, the cover plate assembly 30 is rotatably connected to the top opening position of the installation cavity 11 of the machine body 10 by taking the left side edge thereof as a rotation axis. The top opening of the storage chamber 12 is opened and closed by a cover member 120 which is turned back and forth, and specifically, the cover member 120 is rotatably connected at a rear side position of the top opening of the storage chamber 12 with its rear side edge as a rotation axis. In the closed state of both the cover plate assembly 30 and the cover plate member 120, the (top surfaces of the) two are substantially in the same horizontal plane and are flush with the top surface of the cabinet body 1, so that the overall aesthetic property on the integrated water tank surface is ensured.

The body 10 also has a receiving area 13 located below the placement chamber 11, the receiving area 13 being opposite the outlet 502 of the functional module 50. The dish receiving area 13 houses a dish receiving box 14, and the front side portion of the machine body 10 has a first opening 111 at a position corresponding to the dish receiving area 13. The dish receiving box 14 can be slidably connected to the side wall of the dish receiving area 13 of the machine body 10 through a sliding rail assembly. Correspondingly, the front side of the cabinet body 1 of the integrated water tank is provided with a second opening 101, the second opening 101 is opposite to the first opening 111 on the machine body 11, a user pushes and pulls the dish receiving box 14, the dish receiving box 14 can enter and exit the dish receiving area 13 of the machine body 10 through the first opening 111 and the second opening 101, and the second opening 101 on the cabinet body 1 is a material taking opening.

Referring to fig. 3 and 7, the cover plate assembly 30 includes a cover plate housing 31, a flow passage frame plate 32, and an auxiliary cover plate 33.

The cover housing 31 constitutes a supporting structure for other components, and the cover housing 31 is hollow inside to form a receiving chamber 310 for receiving the flow passage frame plate 32. The top of the cover plate housing is provided with a food material inlet 313, which constitutes the feed port of the cover plate assembly, and the bottom is provided with a food material outlet 314.

The auxiliary cover 33 can be slidably coupled to the upper housing 311 by being driven by a driving mechanism or manually adjusted, and can open or close at least a partial region of the food material inlet 313. After feeding the food, the auxiliary cover plate 33 can close the food inlet 313 in time to achieve the protection purpose, and of course, the auxiliary cover plate 33 can also be matched with the runner frame plate 32 to shield a part of the area of the food inlet 313 so as to facilitate feeding of the food runners with different opening sizes (specifically described below).

The auxiliary cover 33 is provided inside the food inlet 313 of the upper case 311 and reciprocates in the left-right direction.

The flow path frame plate 32 can be also driven by a driving mechanism or manually adjusted to slide in the left-right direction in the accommodation chamber 310 of the cover plate housing 31. The flow passage frame plate 32 has a food material flow passage penetrating up and down. In general, different functional modules 50 may share one food material flow channel on the cover assembly 30, but sharing one food material flow channel inevitably has a sanitary problem, for example, sharing one food material flow channel can generate a problem of mutual smell or pollution of meat and vegetable food materials, endangering human health and affecting the use experience of users; on the other hand, due to the limitation of the feeding and cutting process of the different functional modules 50, the size and the dimension of the food material flow channels of the flow channel frame plate 32 are different, so that the flow channel frame plate 32 of the present embodiment has at least two food material flow channels sequentially arranged along the moving direction of the flow channel frame plate 32 in order to avoid the food material sharing the same food material flow channel to pollute and meet the feeding and cutting requirements of the different functional modules 50. As shown in fig. 7, the runner frame plate 32 has two food material runners sequentially arranged along a left-right direction, wherein the two food material runners are a first runner 321 and a second runner 322, and the first runner 321 and the second runner 322 can be used for cutting fruits and vegetables and meat respectively.

When different functional modules 50 are used, the positions of the feed openings 501 and the sizes of the openings of the functional modules 50 are slightly different, so that the runner frame plate 32 can slide along the left-right direction to adjust the positions in order to adapt to the feed openings 501 of the different functional modules 50.

The functional modules are a slicing module 50a for slicing food materials, a shredding module 50d for shredding food materials, a dicing module 50e for dicing food materials, a crushing module (such as a meat mincing module 50 b) for crushing food materials, and a meat slicing module 50c for slicing meat. A slicing module 50a for slicing and a meat mincing module 50b for mincing meat are respectively placed in the two storage chambers 12 as in fig. 8. And one storage chamber 12 of fig. 4 has a shredding module 50d disposed therein. A dicing module 50e is also shown in fig. 10 and 11. The meat cutting module 50c is shown in the setting chamber 11 in fig. 7.

The functional module 50 generally includes a fixing base 51 and a food processing assembly 53 disposed in the fixing base 51, wherein a top of the fixing base 51 has a feeding hole 501, and a bottom of the fixing base has a discharging hole 502. For different functional modules 50, the food processing assembly 53 inside the functional module may employ various food processing cutter assemblies in the prior art, as shown in fig. 12, and the food processing assembly 53 of the slicing module may employ a drum-type slicing cutter barrel; as shown in fig. 4, the food processing assembly 53 of the shredding module may employ a drum-type shredding knife drum; as shown in fig. 7, the food material processing assembly 53 of the meat cutting module may employ a prior art slicer assembly. Of course, some functional modules 50, such as minced steak modules, have no discharge port, i.e. the bottom of the fixing base 51 is provided with a minced steak container 511, and the minced steak container 511 is detachably connected to the fixing base 51 and can be removed from the bottom of the fixing base 51, as shown in fig. 13.

Referring to fig. 10-12, a dicing module is shown as functional module 50, specifically, the dicing module includes a holder 51 and a dicing cutter assembly (i.e., a food processing assembly 53) disposed in the holder 51.

The holder 51 is generally square in configuration and has a working chamber 510 for receiving the dicing cutter assembly. The top of the fixed seat 51 is provided with a feed inlet 501, the bottom is provided with an opening as a discharge outlet 502, and specifically, the fixed seat 51 is also provided with a guide runner for guiding food materials from the feed inlet 501 of the fixed seat 51 to the dicing cutter assembly. The top of the fixing seat 51 is provided with a handle 52, and when the handle 52 is in a folding state, the handle is biased at one side of the feeding hole 501, so that pollution to the handle 52 caused in the process that food material enters the feeding hole 501 of the dicing module from the food material runner is avoided.

Referring to fig. 11, the dicing cutter assembly includes a cutter barrel 60, a pressing roller 65, and a gear transmission assembly.

The knife cylinder 60 is horizontally extended in the fixed seat 51, two axial end parts of the knife cylinder are of an open structure, one end part is rotatably connected to the fixed seat 51 through a second bearing 662, the other end of the knife cylinder is fixed with a first transmission gear ring 642 of the gear transmission assembly through a pin, and the first transmission gear ring 642 is rotatably connected to the fixed seat 51 through another second bearing 662. The first drive ring gear 642 has an internal tooth 6422 on the side adjacent the cartridge 60 and an external tooth 6421 on the side remote from the cartridge 60, wherein the external tooth 6421 of the first ring gear can mesh with a drive connection (gear) on the machine body 10 after the dicing module is in place, and the internal tooth 6422 can mesh with a first drive gear 641 coaxially connected to the pressing roller 65.

The cutter drum 60 has a mesh-like structure having dicing mesh 602 as a whole, and dicing blades 603 for dicing are formed on the inner side walls thereof. The peripheral wall of the cutter barrel 60 is provided with a sheet-shaped food material feeding port 601 which is arranged in an extending manner along the axial direction and penetrates inside and outside, a slicing cutter 61 is arranged at the position of the sheet-shaped food material feeding port 601, and in the rotating process of the cutter barrel 60, the slicing cutter 61 cuts food materials positioned in a material guiding flow passage, and the sheet-shaped food materials cut by the slicing cutter 61 enter the cutter barrel 60 through the sheet-shaped food material feeding port 601.

The squeeze roller 65 is provided inside the cutter barrel 60, and the extending direction of the squeeze roller 65 is substantially identical to the extending direction of the cutter barrel 60. Specifically, both end portions of the pressing roller 65 are supported on opposite side walls of the fixing base 51 by first bearings 661, respectively, and are rotatable about their own axes. The squeeze roller 65 in this embodiment is disposed down inside the cartridge 60, i.e., adjacent the bottom of the cartridge 60. The squeeze roller 65 is coaxially connected with a first transmission gear 641, and the first transmission gear 641 is positioned at the end of the squeeze roller 65 and correspondingly meshed with the inner tooth part 6422 of the first transmission gear 642 of the cutter drum 60, thereby realizing synchronous and same-direction rotation of the squeeze roller 65 and the cutter drum 60.

The outer peripheral wall of the squeeze roller 65 of the present embodiment may have a smooth wall structure, but in order to secure the squeezing effect between the cutter drum 60 and the squeeze roller 65 and to avoid the problem of food residue in the dicing mesh 602 of the cutter drum 60, it is preferable that a plurality of projections 650 protruding radially outward are provided on the outer peripheral wall of the squeeze roller 65. Each protruding part 650 on the squeeze roller 65 corresponds to each dicing mesh 602 on the cutter barrel 60, and each protruding part 650 on the squeeze roller 65 can be embedded into the corresponding dicing mesh 602 of the cutter barrel 60 in the synchronous rotation process of the squeeze roller 65 and the cutter barrel 60, so that the problem of food residue in the dicing mesh 602, particularly, the problem of the material residue of the last piece of sheet food can be effectively avoided.

The dicing module of this embodiment is used as follows:

food materials are put into a material guide flow channel of the dicing module through a material inlet of the cover plate assembly 30, the food materials are firstly cut into pieces by a slicing knife 61 on the knife cylinder 60 and enter the knife cylinder 60, the cut piece-shaped food materials can fall between the extrusion roller 65 and the inner wall of the knife cylinder 60 in the rotating process, are extruded towards the outside of the knife cylinder 60 by the extrusion roller, and then become Ding Zina to fall from the knife cylinder 60 outwards to form diced food materials.

In this embodiment, the structure of the dicing module is greatly simplified by adopting the structure design of the extrusion roller 65 and the knife cylinder 60, so that the whole volume of the dicing module is smaller, the dicing module is convenient to take and place in the machine body 10, and the requirement of the miniaturized design of the modularized food processor is met.

Referring again to fig. 13, the internal structure of a slicing module 50a is shown, as is the slicing module 50a including a holder 51 and a machining tool assembly 53 disposed within a working chamber 510 of the holder 51. The holder 51 also has a feed inlet 501 at the top and a discharge outlet 502 at the bottom. The processing cutter component of the slicing module is a horn-shaped cutter cylinder structure 71 commonly used in the prior art, namely, a corresponding slicing cutter 72 is arranged on the peripheral wall of the horn-shaped cutter cylinder 71. The horn-shaped cutter drum 71 is disposed obliquely, and its upper end is rotatably connected to the inner wall of the fixed seat 51 and connected to a set of bevel gear transmission assemblies 73, and after the slicing module is placed in the placement chamber 11 of the machine body 10, the bevel gear transmission assemblies 73 can be engaged with the first transmission connection end 150a of the main driving mechanism 15, thereby driving the horn-shaped cutter drum to rotate for slicing. Similarly, the shredding module 50d is basically identical to the slicing module 50a in structure, except that the slicing knife is replaced by a shredding knife on the peripheral wall of the trumpet-shaped knife cylinder, which is not described herein.

Referring again to fig. 14, a minced steak module 50b is shown, the minced steak module 50b also having a mounting base 51, but the top of the mounting base 51 is not provided with a feed opening and the bottom is open. The meat mincing module further comprises a mincing container 81, wherein the mincing container 81 can be filled into the working chamber 510 of the fixing seat 51 from the bottom opening. The food processing assembly 53 of the meat mincing module is a meat mincing cutter 82, the meat mincing cutter 82 is detachably connected to a vertically arranged second transmission shaft 832, and the second transmission shaft 832 is rotatably connected to the top of the working chamber 510 of the fixing seat 51 through a bearing. The fixing base 51 is further provided at a corner thereof with a vertically disposed first driving shaft 831, and the first driving shaft 831 is rotatably coupled to the fixing base 51 via a bearing, and an inner tooth portion 8310 for engaging with the second driving connection portion 150b of the machine body 10 is formed at a bottom end of the first driving shaft 831. The top of the first transmission shaft 831 is further connected with the upper portion of the second transmission shaft 832 through a transmission belt 833, so that when the main driving mechanism 15 of the machine body 10 drives the first transmission shaft 831 to rotate, the transmission belt 833 can drive the second transmission shaft 832, namely the meat mincing cutter 82 to rotate, thereby realizing meat mincing processing.

Other embodiments can be obtained by replacing and improving the related technical features on the basis of the above embodiments. For example, the cover plate assembly 30 may be a plate structure with a feed port, i.e., the runner frame plate is omitted. For another example, the body 10 of the food processing device may be integrally designed with the cabinet of the integrated sink.

The term "drive connection" as used herein refers to a direct connection between two components or an indirect connection through a drive mechanism.

Claims (15)

1. An integrated sink, comprising:

a cabinet body (1), the top of which is provided with a table top;

the water tank body (2) is arranged on the cabinet body (1), and the main body is positioned below the table top of the cabinet body (1);

the food processing device (5) is arranged on the cabinet body (1);

the method is characterized in that: the cabinet body (1) is provided with an installation cavity (100) with an open top and used for placing the food processing device (5), and the top surface of the food processing device (5) placed in place in the installation cavity is basically flush with the table top of the cabinet body (1).

2. The integrated sink of claim 1, wherein: the food processing device (5) comprises a machine body (10) and a functional module (50) for processing food, wherein a placement cavity (11) with an open top is further defined on the machine body (10), the functional module (50) is placed in the placement cavity (11), a cover plate assembly (30) capable of being opened and closed is further arranged at the top opening of the placement cavity (11) of the machine body (10), and the top of the cover plate assembly (30) is basically flush with the table top of the cabinet body (1) in a closed state.

3. The integrated sink of claim 2, wherein: the machine body (10) is also provided with a main driving mechanism (15), the functional module (50) is arranged in the arranging cavity (11) of the machine body (10) in a detachable mode relative to the machine body (10), and the functional module (50) is in transmission connection with the power output end of the main driving mechanism (15) under the state that the functional module (50) is arranged on the machine body (10).

4. The integrated sink of claim 3, wherein: the functional module (50) is provided with a working chamber (510) and a food processing assembly (53) arranged in the working chamber (510), the top of the functional module (50) is also provided with a feed inlet (501) for food to be processed to enter the working chamber (510), the cover plate assembly (30) is provided with a feed inlet, the cover plate assembly (30) is in a closed state, and the feed inlet of the cover plate assembly (30) is opposite to the feed inlet (501) of the functional module (50) arranged in the arranging chamber (11).

5. The integrated sink of claim 4, wherein: the cover plate assembly (30) is deflected up and down with its position partially connected to the top opening of the housing chamber (11) of the machine body (10) as a rotation center, thereby opening or closing the top opening of the machine body (10).

6. The integrated sink of any one of claims 2-5, wherein: the machine body (10) is also provided with at least one storage chamber (12) which is independent from the placement chamber (11) and is used for placing an idle functional module (50).

7. The integrated sink of claim 6, wherein: the top of the storage chamber (12) is provided with an opening, a cover plate member (120) capable of being opened and closed is further arranged at the opening of the top of the storage chamber (12), and the top surface of the cover plate member (120) is basically flush with the table top of the cabinet body (1) when the cover plate member (120) is in a closed state.

8. The integrated sink of claim 6, wherein: the storage chamber (12) and the placement chamber (11) are arranged in order in the front-rear direction of the machine body (10).

9. The integrated sink of any one of claims 1-5, wherein: the food processing device (5) is arranged adjacent to the water tank body (2).

10. The integrated sink of any one of claims 2-5, wherein: the functional module (50) is at least one of a slicing module (50 a) for slicing food materials, a shredding module (50 d) for shredding the food materials, a dicing module (50 e) for dicing the food materials, a crushing module (50 b) for crushing the food materials and a meat slicing module (50 c) for slicing meat.

11. The integrated sink of any one of claims 1-5, wherein: the dish washer (3) is arranged on the cabinet body (1) corresponding to the area below the water tank body (2).

12. An integrated sink, comprising:

a cabinet body (1), the top of which is provided with a table top;

the water tank body (2) is arranged on the cabinet body (1), and the main body is positioned below the table top of the cabinet body (1);

the food processing device (5) is arranged on the cabinet body (1);

the method is characterized in that: the food processing device is characterized in that an installation cavity (100) in which the food processing device (5) is placed is formed in the cabinet body (1), a feeding port (1 a) for feeding food into the food processing device (5) is formed in the top of the cabinet body (1), and a material taking port for taking out the food processed by the food processing device (5) is formed in the side portion of the cabinet body (1).

13. The integrated sink of claim 12, wherein: the food processing device (5) comprises a machine body (10) and a functional module (50) for processing food, wherein a food inlet (313) for allowing the food to enter a working chamber of the functional module (50) is formed in a region, opposite to the feed port (1 a), on the top of the machine body (10).

14. The integrated sink of claim 13, wherein: the machine body (10) is further provided with a placement cavity (11) with an open top, the functional module (50) is placed in the placement cavity (11), the bottom of the functional module (50) is provided with a discharge hole (502) for food materials processed in the working cavity (510) to flow out, the machine body (10) is further provided with a vegetable receiving area (13) which is arranged below the placement cavity (11) and opposite to the discharge hole (502) of the functional module (50), the vegetable receiving area (13) is provided with a vegetable receiving box (14), the side part of the machine body (10) is provided with a first opening (111) at a position corresponding to the vegetable receiving area (13), the side wall of the machine body (1) is provided with a second opening (101) opposite to the first opening (111), the vegetable receiving box (14) passes through the first opening (111) and the second opening (101) in a pushing and pulling mode relative to the machine body (1), and the second opening (101) is the material taking opening (101) on the machine body (1).

15. The integrated sink of claim 14, wherein: the second opening (101) is positioned on the front side wall of the cabinet body (1).