CN218165222U - Tableware processing device - Google Patents

Abstract

The utility model discloses a tableware processing apparatus, including last module and the lower module of placing from top to bottom, the bottom of going up the module is equipped with the bottom plate, and the bottom plate is equipped with two at least spacing concave-convex parts, still is equipped with the unsmooth die mould of strengthening to its intensity on the bottom plate, and two spacing grooves all link to each other with unsmooth die mould. The utility model discloses the beneficial effect who brings: the stamping on the surface of the bottom plate is counteracted through the deformation which can be recovered by the concave-convex profiling which is easy to deform, so that the impact strength of the bottom plate is improved; and the impact strength of the limiting concave-convex part is enhanced through the connection with the limiting concave-convex part, so that the overall structural strength of the bottom plate is improved, and the integrity of the device is ensured.

Description

Tableware processing device

Technical Field

The utility model belongs to the kitchen appliance field, specifically speaking relates to a tableware processing apparatus.

Background

The dishwasher is a kitchen equipment for washing tableware in common use, and comprises a drawer type structure, wherein the drawer type structure comprises a box body, a washing barrel opened in a transverse sliding mode and a door plate fixedly connected with the washing barrel, a control panel is installed on the door plate, however, the dishwasher of the drawer type structure is installed below the cabinet by adopting embedded installation, therefore, the position of a dishwasher body is lower, the dishwasher is operated and controlled by the user and can be conveniently operated only by squatting down, and the user is not good in use. In addition, the cabinet size design of the kitchen mostly adopts the standardized design, when putting the drawer dishwasher into the cabinet, there is the vacant space that can not be utilized rationally, the kitchen space utilization is not high to can't realize the multifunctionalization, wait to improve.

The existing dish washer is used for washing, disinfecting and storing in one space, and has dry disinfection and long-term storage, and has two concerns for the users of the existing dish washer: the first is that the user feels that the single drawer dishwasher is not well installed, which is a concern for improvement of kitchen, and after the drawer dishwasher is installed, the space at the lower part of the dishwasher is not effectively utilized, and the space utilization rate is low. Secondly, the storage function of the dishwasher is used by users, and an independent storage space is specially prepared for common tableware and uncommon tableware, so that the problem is not thoroughly solved.

To this, the tableware processing apparatus that sets up from top to bottom is better solution, nevertheless can stand rocking of great degree in transportation, handling process, can receive very big impact when falling carelessly even, and these punching presses of large tracts of land can cause the contact surface of two modules that the device set up from top to bottom to take place to warp, can't guarantee the structural strength of device, can lead to the device to scrap to the internal machine harm even.

In view of this, the present invention is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects of the prior art, and provides a tableware treatment device with two modules, so that a user can personally customize the functions of the two modules when purchasing the tableware treatment device according to the needs, thereby meeting the requirement of the user on firstly treating the tableware; and the bearing capacity and the deformation resistance of the device are improved through the added reinforcing structure, so that the structural strength of the device is improved.

In order to solve the technical problem, the utility model adopts the following basic concept: the utility model provides a tableware processing apparatus, includes upper module and lower module of placing from top to bottom, and the bottom of upper module is equipped with the bottom plate, and the bottom plate is equipped with two at least spacing concave-convex parts, still is equipped with the unsmooth die mould to its intensity enhancement on the bottom plate, and two spacing concave-convex parts all link to each other with unsmooth die mould. The stamping on the surface of the bottom plate is counteracted through the concave-convex profiling elastic deformation which is easy to deform, so that the impact strength of the bottom plate is improved; and the impact strength of the limiting concave-convex part is enhanced through the connection with the limiting concave-convex part, so that the overall structural strength of the bottom plate is improved, and the integrity of the device is ensured.

Furthermore, the limiting concave-convex part and the concave-convex profiling part are both a profiling groove which is concave towards the interior of the upper module or a convex part which is convex towards the exterior of the upper module;

or one of the limiting concave-convex part and the concave-convex profiling part is a profiling groove which is sunken towards the interior of the upper module, and the other one is a convex part which is convex towards the exterior of the upper module. Through the unsmooth die mould that increases rectangular shape, strengthen the overall structure intensity of bottom plate, very big promotion the anti deformability of bottom plate, effectively solve the warpage problem that the punching press of big face arouses, guaranteed the uniformity of bottom plate.

Furthermore, two side walls of the concave-convex profiling are respectively arranged in an inclined way of being opened outwards, and the width of the concave-convex profiling gradually narrows from the bottom plate to the top of the bulge or the bottom of the recess. The side wall of the long-strip-shaped concave-convex die is obliquely arranged to enhance the bearing capacity of the long-strip-shaped concave-convex die, so that the stability of the long-strip-shaped concave-convex die structure is improved.

Furthermore, the left end and the right end of the front side of the bottom plate are respectively provided with a limiting concave-convex part, the front side of the bottom plate is provided with a long-strip-shaped concave-convex pressing die extending along the left direction and the right direction of the upper module, and the two ends of the long-strip-shaped concave-convex pressing die are respectively connected with the limiting concave-convex parts on the corresponding sides.

Furthermore, the left side and the right side of the bottom plate are respectively provided with a limiting concave-convex part, and each limiting concave-convex part is respectively provided with a limiting concave-convex compression type in one-to-one correspondence;

one end of each limiting concave-convex die is connected with the corresponding limiting concave-convex part, and the corresponding other end extends to the side edge of the corresponding side of the bottom plate. The stamping that spacing concave-convex portion received is offset through the deformation of spacing unsmooth die mould self to guarantee that the structure of spacing concave-convex portion does not warp, with the shock resistance who promotes spacing concave-convex portion, further ensured the limit function of spacing concave-convex portion.

Furthermore, the limiting concave-convex part and the limiting concave-convex profiling part are both a profiling groove which is concave towards the inside of the upper module or a convex part which is convex towards the outside of the upper module.

Furthermore, at least one side of each limiting concave-convex structure is provided with a notch respectively; each limit concave structure is communicated with one corresponding end of the corresponding long-strip-shaped concave-convex die or the corresponding limit concave-convex die through the opening.

Furthermore, the bottom plate is square, four corners of the square bottom plate are respectively provided with a limiting concave-convex part, the front side of the bottom plate is provided with a strip-shaped concave-convex pressing die extending towards the left and right directions, and two ends of the strip-shaped concave-convex pressing die are respectively connected with the limiting concave-convex parts at the left and right corners of the front side of the square bottom plate; the square bottom plate is respectively provided with limiting concave-convex compression molds which are in one-to-one correspondence with the limiting concave-convex parts, and the limiting concave-convex compression molds respectively extend to the side edges of the corresponding side of the square bottom plate.

Furthermore, the limiting concave-convex part, the concave-convex pressing mould and the limiting concave-convex pressing mould are pressing grooves which are concave towards the interior of the upper module or convex parts which are convex towards the exterior of the upper module;

the limiting concave-convex part is communicated with one end corresponding to the corresponding concave-convex die or the limiting concave-convex die through a notch arranged on the side part of the limiting concave-convex part. Through setting up in the unsmooth die mould of rectangular shape of front side and spacing unsmooth die mould link to each other with spacing concave-convex part respectively, can promote the structural strength of the spacing concave-convex part of bottom plate and each corner by a wide margin to guarantee that the bottom plate can not warp, thereby avoid the harm to the machine, effectively promote the holistic resistance to deformation and the bearing capacity of machine.

Further, circular hole site has been seted up respectively to each spacing concave-convex part, and each circular hole site sets up respectively on the extension line of the unsmooth die mould of spacing concave-convex structure and rectangular shape that correspond, and the circular hole site can be used to extend the strong location of module and lower module, and setting through above-mentioned additional strengthening can not only strengthen four spacing concave-convex parts's intensity, hardness, prevents that spacing structure warp, also can be to playing important supporting role and to spacing concave-convex part's structural protection in the assembling process of strong location.

After the technical scheme is adopted, compared with the prior art, the utility model following beneficial effect has: the integral deformation resistance and pressure bearing capacity of the device are ensured; the reinforcing structure can increase the deformation resistance of the upper module bottom plate; meanwhile, the reinforcing structure can avoid the problem of warping of the bottom plate caused by stamping of a large surface, and the consistency of the bottom plate is ensured.

And simultaneously, the utility model discloses simple structure, the effect is showing, suitable using widely.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

fig. 1 is a schematic view of the appearance structure of the present invention;

FIG. 2 is a schematic view of the bottom structure of the upper module of the present invention;

fig. 3 is a schematic structural view of a lower module top plate of the present invention;

fig. 4 is a schematic structural view of the top plate of the upper module of the present invention.

In the figure: 1. an upper module; 2. a lower module; 3. a horizontal limiting structure; 4. a reinforcing structure;

101. an upper door body; 102. a base plate; 103. a side plate; 104. reinforcing ribs;

201. a lower door body; 202. a top plate; 205. footing; 206. skirting boards;

301. a recessed structure; 3011. a sinking surface; 3012. a circular protrusion; 3013. circular hole positions; 302. a raised structure; 3021. an outer side surface; 3022. an inner side surface;

401. carrying out concave-convex profiling; 402. and limiting concave-convex compression.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept by those skilled in the art with reference to specific embodiments.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments, and the following embodiments are used for illustrating the present invention, but do not limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

The embodiment is an application of a dish washing and disinfecting device, and as shown in fig. 1 to 4, the dish washing and disinfecting device comprises an upper module 1 and a lower module 2; the upper module 1 is detachably arranged at the top of the lower module 2; the outer parts of the upper module 1 and the lower module 2 are provided with shells, and the inner parts of the shells are respectively provided with inner containers; the front sides of the upper module 1 and the lower module 2 are respectively open and are respectively covered by an upper door body 101 and a lower door body 201 which can be opened and closed.

In this embodiment, the device is provided with a horizontal limiting structure 3, and the horizontal limiting structure 3 is arranged on the lower surface of the bottom plate 102 of the upper module 1 and the upper surface of the top plate 202 of the lower module 2, and is used for limiting in the horizontal direction between the upper module and the lower module during preassembling, so as to ensure that the installation is fine during preassembling.

In this embodiment, the reinforcing structure 4 is disposed on the lower surface of the bottom plate 102 of the upper module 1, and is used to ensure the overall strength of the device when the upper and lower modules are fastened and mounted, so as to effectively counteract the deformation of the bottom plate 102 when the door body and the inner container are in the state of being surrounded by transportation, transportation and the like, and increase the overall service life of the device.

Further, as shown in fig. 2 to 4, in this embodiment, a concave structure 301 and a convex structure 302 are respectively integrated on the bottom plate 102 of the upper module 1 and the top plate 202 of the lower module 2, wherein the concave structure 301 and the convex structure 302 are matched with each other and inserted into each other, and the convex structure 302 is in a shape of a circular arc, and at least a part of the outer circumference of the circular arc convex structure 302 is connected to the inner side of the concave structure 301.

More specifically, in the present embodiment, the horizontal limiting structure 3 includes four concave structures 301 and four convex structures 302 correspondingly disposed thereon; each concave structure 301 is in a circular groove shape, and the inner diameter of a sinking surface 3011 of each concave structure 301 is reduced along with the sinking depth; the four convex structures 302 are convex arc-shaped convex structures, and the arc-shaped convex structure 3 comprises an outer side surface 3021 and an inner side surface 3022; the lateral surface 3021 and the medial surface 3022 are arc surfaces, and the lateral surface 3021 and the medial surface 3022 are concentrically arranged.

The outer diameter of the bottom of the convex structure 302 is the same as the inner diameter of the opening of the concave structure 301, the outer diameter of the top of the convex structure 302 is the same as the inner diameter of the bottom of the concave structure 301, and the height of the convex structure 302 is the same as the concave depth of the concave structure 301.

In this embodiment, the center of the circular recessed structure 301 is provided with a coaxial circular protrusion 3012; the top of the circular protrusion 3012 is a plane and perpendicular to the axis of the circular protrusion 3012.

In this embodiment, the arc-shaped protruding structure 3 includes an outer side surface 3021 and an inner side surface 3022; the outer side surface 3021 and the inner side surface 3022 are arc surfaces respectively, and the outer side surface 3021 and the inner side surface 3022 are arranged concentrically; the outer side surface 3021 is arranged corresponding to the sunken surface 3011, and the inner side surface 3022 is arranged corresponding to the circular protrusion 3012; the outer side surface 3021 and the inner side surface 3022 are arc surfaces respectively; the outer side surface 3021 and the inner side surface 3022 are concentric arc surfaces; the top of the protruding structure 302 is circular arc.

Through the aforesaid setting, make lateral surface 3021 and sunken face 3011 laminate mutually, medial surface 3022 laminates mutually with circular protruding 3012's the outside, make protruding structure 302 and sunk structure 301 realize the at utmost laminating, when sunk structure 301 and the protruding structure 302 registrates that corresponds together, the lateral surface 3021 of protruding structure 302 has great area of contact with sunk structure 301's sunken face 3011, can reduce the pressure that protruding structure 302 received, thereby promote the impact strength of protruding structure 302, make its non-deformable, prolong horizontal limit structure 3's life.

And protruding structure 302 sets up to arc, when being in the same place with sunk structure 301 registrates, can have certain space in the sunk structure 301, makes sunk structure 301 because long-time pressurized appear when collapsing, because the space department is not atress all the time, makes to collapse and takes place in space department easily to make sunk structure 301 after collapsing can not influence spacing with the cooperation of protruding structure 301, prolonged the life of the 3 functions of horizontal limit structure of this device.

In this embodiment, each concave structure 301 is a circular profiling structure disposed on the lower surface of the bottom plate 102 of the upper module 1, and the opening of each concave structure 301 is vertically downward; each convex structure 302 of the concave structure is correspondingly arranged on the upper surface of the top plate 202 of the lower module 2, and each convex structure 302 is vertically upwards convex; when the upper module 1 is arranged above the lower module 2, the concave structures 301 can be fit and sleeved on the convex structures 302; when this device is vertical to be put and not receive the external force of horizontal direction, sunk structure 301 only laminates the contact with the protruding structure 302 that corresponds, does not have the holding power between, makes sunk structure 301 and protruding structure 302 more durable when normal use, non-deformable.

In this embodiment, the lower side of the bottom plate 102 is provided with a plurality of concave structures 301, and the upper side of the top plate 202 is provided with convex structures which are arranged opposite to the concave structures 301 one by one; the convex structures 302 are arranged in the same shape, the convex ends are positioned in the same horizontal plane, the concave structures 301 are also arranged in the same shape, and the groove bottom ends are positioned in the same horizontal plane.

In this embodiment, the bottom plate 102 is square, and four corners of the square bottom plate 102 are respectively provided with a concave structure 301; the positions, which are opposite to the concave structures 301 one by one, on the top plate 202 are respectively provided with convex structures 302; when the upper module 1 is installed above the lower module 2, the outer side of each protruding structure 302 is correspondingly attached to the inner side of the corresponding recessed structure 301, so that the limiting effect is achieved.

In this embodiment, the circular arcs of the convex structures 302 on the front side of the top plate 202 face the rear side of the top plate 202, and the circular arcs of the convex structures 302 on the rear side of the top plate 202 face the front side of the top plate 202; and/or, the arc of each convex structure 302 on the right side of the top plate 202 is towards the right side or the left side of the top plate 202, and the arc of each convex structure 302 on the left side of the top plate 202 is towards the left side or the right side of the top plate 202.

More specifically, in this embodiment, the two convex structures 302 arranged on the front side of the top plate 202 of the lower module 2 are arc-shaped and face the rear side of the lower module 2, so that the two convex structures 302 on the front side limit the upper module 1, and at the same time, the two convex structures 302 on the front side can better bear the pressure in the horizontal forward direction applied by the concave structures 301 on the front side of the bottom plate 102 of the upper module 1, thereby enhancing the impact strength of the upper module to the horizontal forward direction and preventing the upper module from being deformed easily.

The arrangement is an improved arrangement according to the common daily life of the device, after the device is installed, the device needs to be placed in a unit cabinet, the lower module 2 is usually pushed to enable the device to move backwards to enter a reserved space of the unit cabinet, the device is moved to a proper position, and in the moving process, the lower module 2 drives the upper module 1 to horizontally move together through the horizontal limiting structure 3 and other fixing pieces; in the process, the two convex structures 302 on the front side of the top plate 202 of the lower module 2 push the upper module 1, and in the backward moving process of the device, the convex structures 302 on the front side push the upper module 1 from the back side of the displacement direction of the upper module 1, so that the force application mode can reduce the tendency of the upper module 1 to raise upwards, and the pushing process is more stable.

In addition, when a user opens the door of the upper door 101 of the upper module 1 in daily use, the upper door 101 generates forward pulling force on the upper module 1, the pulling force is mainly counteracted by the supporting force generated by the horizontal limiting structure 3, the lower module 2 receives the horizontal outward pushing force applied by the upper module 1, at this time, two protruding structures 302 positioned on the front side of the lower module 2 can generate backward supporting force to counteract the pulling force of the upper door 101 on the upper module 1 by facing the inner wall of the corresponding concave structure 301 through the backward arc of the protruding structures to the upper module 2, and because the two protruding structures on the front side are close to the position right below the connecting structure of the upper door 101 and the upper module 1, the two protruding structures generate backward supporting force on the upper module 1, the vertical upward component force is the minimum, so that the pressure on the protruding structures 302 is the minimum, the protruding structures 302 are not easy to deform, and the limiting function of the protruding structures 302 is ensured to be effective for a long time.

The arc orientations of the two convex structures 302 arranged on the rear side are respectively towards the nearest left and right outer sides, that is, the arc orientation of the convex structure 302 positioned on the left side of the rear side is towards the left side, and the arc orientation of the convex structure 302 positioned on the right side of the rear side is towards the right side; through the design, the bearing capacity of the horizontal limiting structure 3 on left and right direction pressure can be improved while the two convex structures 302 at the rear side can limit the upper module 1, so that the convex structures 302 are not easy to deform, and the limiting effect of the horizontal limiting structure 3 is long-term effective; meanwhile, the design also aims at the reasonable optimization of the alignment of the upper module and the lower module when the device is preassembled; when the device is preassembled, the front side of the upper module 1 is tilted, the rear side of the upper module 1 is contacted with the top of the lower module 2, the upper module 1 is moved, the two concave structures 301 on the rear side of the upper module 1 are buckled on the corresponding convex structures 302, and then the upper module 1 is directly laid flat, so that the upper module 1 and the lower module 2 can be aligned in the horizontal direction, and the device is convenient to position when preassembled; simultaneously through the above-mentioned setting, receive the application of force in left and right directions at last module 1, protruding structure 302 that lower module 2 corresponds one side can bear pressure effectively, guarantees to go up module 1 spacing in left and right directions to make the steadiness of this device obtain fine guarantee.

In this embodiment, circular hole sites 3013 are formed in the circle center of the top of each of the concave structures 301 at the circular protrusions 3012, so as to expand subsequent strong positioning, further strengthen the structural stability of the upper module 1 and the lower module 2, and further ensure the structural strength of the device.

In conclusion, the upper module 1 and the lower module 2 can be connected together in a horizontally limited manner through the arrangement of the horizontal limiting structure 3, so that the stability of the device is improved; meanwhile, during preassembling, left and right, front and back dislocation values of the upper module 1 and the lower module 2 are ensured, the fineness of the device is improved, and the preassembling difficulty of the device is reduced; moreover, still according to the condition that this device often met, pertinence has carried out pertinence setting to protruding structure 302 circular arc orientation, makes horizontal limit structure 3 when dealing with the general condition, possess fine impact resistance intensity, makes protruding structure 302 non-deformable to effectively reduced because of protruding structure 302 warp and lead to horizontal limit structure 3 to lose the emergence of the limit function condition.

Further, as shown in fig. 4, in this embodiment, a reinforcing structure 4 is disposed on a lower surface of the bottom plate 102 of the upper module 1, the reinforcing structure is a press mold disposed on the bottom plate, and the press mold can offset deformation of the bottom plate 102 caused by stamping, so as to improve overall strength of the bottom plate of the apparatus.

The reinforcing structure 4 comprises a strip-shaped concave-convex compression mold 401 for reinforcing the bottom plate structure and a limiting concave-convex compression mold 402 for reinforcing a limiting concave-convex part with a limiting function; the bottom plate is provided with at least two limiting concave-convex parts, the bottom plate 102 is also provided with a concave-convex compression mold 401 for reinforcing the strength of the bottom plate, and the two limiting concave-convex parts are both connected with the concave-convex compression mold 401. The elastic deformation of the concave-convex profiling 401 which is easy to deform is used for offsetting the stamping of the surface of the bottom plate 102, so that the impact strength of the bottom plate 102 is improved; and the shock resistance strength of the limiting concave-convex part is enhanced through the connection with the limiting concave-convex part, so that the overall structural strength of the bottom plate is improved.

In the reinforcing structure 4, the limiting concave-convex part and the concave-convex profiling 401 are both a profiling groove recessed towards the inside of the upper module 1 or a convex part protruding towards the outside of the upper module 1; alternatively, one of the limiting concave-convex portion and the concave-convex profiling 401 is a profiling groove recessed towards the inside of the upper module 1, and the other is a convex portion protruding towards the outside of the upper module 1. Through increasing rectangular shape's unsmooth die mould 401, strengthen bottom plate 102's overall structure intensity, very big promotion bottom plate 102 resistance to deformation, effectively solve the warpage problem that the punching press of large face arouses, guaranteed bottom plate 102's uniformity.

In the above-mentioned reinforcing structure 4, the two side walls of the concave-convex profiling 401 are respectively arranged in an inclined manner with the two side walls being opened outwards, and the width gradually narrows from the bottom plate 1 to the top of the protrusion or the bottom of the recess. Through the slope setting to the lateral wall of rectangular shape unsmooth die mould 401 to strengthen the bearing capacity of rectangular shape unsmooth die mould 401, make the stability of rectangular shape unsmooth die mould 401 structure obtain promoting.

The left and right ends of the front side of the bottom plate 102 are respectively provided with a limiting concave-convex part, the front side of the bottom plate 102 is provided with a long concave-convex pressing die 401 extending along the left and right directions of the upper module 1, and the two ends of the long concave-convex pressing die 401 are respectively connected with the limiting concave-convex parts on the corresponding sides.

The left side and the right side of the bottom plate 102 are respectively provided with a limiting concave-convex part, and the bottom plate 103 on one side of each limiting concave-convex part is respectively provided with a limiting concave-convex compression type 402 in one-to-one correspondence; one end of each limiting concave-convex die 402 is connected to the corresponding limiting concave-convex part, and the other end extends to the side edge of the corresponding side of the bottom plate 102. The limiting concave-convex part and the limiting concave-convex profiling part are both a profiling groove which is sunken in the upper module or a convex part which is convex out of the upper module. The stamping of the limiting concave-convex part is counteracted through the deformation of the limiting concave-convex die 402, so that the structure of the limiting concave-convex part is not deformed, the impact strength of the limiting concave-convex part is improved, and the limiting function of the limiting concave-convex part is further guaranteed.

At least one side of each limiting concave-convex structure is provided with a notch respectively; each limiting concave structure is communicated with one end of the corresponding long-strip-shaped concave-convex die 401 or limiting concave-convex die 402 through the opening.

In the reinforcing structure 4, the bottom plate 102 is square, four corners of the square bottom plate 102 are respectively provided with a limiting concave-convex part, the front side of the bottom plate 102 is provided with a strip-shaped concave-convex compression mold 401 extending towards the left and right directions, and two ends of the strip-shaped concave-convex compression mold 401 are respectively connected with the limiting concave-convex parts at the left and right corners of the front side of the square bottom plate 102; the square bottom plate 102 is provided with a limiting concave-convex die 402 corresponding to each limiting concave-convex part one by one, and each limiting concave-convex die 402 extends towards the side edge of the corresponding side of the square bottom plate 102.

The limiting concave-convex part, the concave-convex pressing type 401 and the limiting concave-convex pressing type 402 are pressing grooves which are concave towards the inside of the upper module 1 or convex parts which are convex towards the outside of the upper module 1;

the limiting concave-convex part is communicated with one end corresponding to the corresponding long strip concave-convex die 401 or the corresponding limiting concave-convex die 402 through a notch arranged on the side part of the limiting concave-convex part. Through setting up in rectangular shape unsmooth die mould 401 and spacing unsmooth die mould 402 of front side and linking to each other with spacing concave-convex part respectively, can promote the structural strength of bottom plate 102 and the spacing concave-convex part of each corner by a wide margin to guarantee that bottom plate 102 can not warp, thereby avoid the harm to the machine, effectively promote the holistic resistance to deformation and the pressure-bearing capacity of machine.

Further, circular hole site 3013 has been seted up respectively to the protruding top or sunken bottom of each spacing concave-convex part, each circular hole site 3013 sets up respectively on the extension line of spacing concave-convex structure 402 and the unsmooth die mould 401 of rectangular shape that corresponds, circular hole site 3013 can be used to expand the strong location of going up module 1 and lower module 2, setting up through above-mentioned additional strengthening 4 can not only strengthen the intensity of four spacing concave-convex parts, the hardness, prevent that spacing concave-convex part from warping, also can be to playing important supporting role and to the structural protection of spacing concave-convex part in the assembling process of strong location.

The more specific application of above-mentioned additional strengthening 4 the utility model discloses, wherein spacing concave-convex part is for dividing the sunken structure 301 of locating four turning inboards of bottom plate 102, and its embodiment is:

in this embodiment, the bottom plate 102 of the upper module 1 is a steel plate; the reinforcing structure 4 is a profiling structure arranged on the surface of the bottom plate 102; the profiling structure is a three-dimensional structure formed by stamping a steel plate; when the profiled steel plate is stressed, a part of pressure can be absorbed through the deformation of the profiling, and the pressure directly borne by the steel plate is reduced, so that the bearing capacity is improved, and the steel plate cannot be easily bent and deformed; when the pressure is not higher than the maximum pressure which can be borne by the profiled steel sheet, the profiled steel sheet can automatically return to the initial state after the pressure is removed, so that the profiled structure can keep the absorption effect on the pressure.

In this embodiment, the concave-convex profiling 401 is a strip profiling and is transversely disposed on the front side of the bottom plate 102 of the upper module 1, and two ends of the concave-convex profiling 401 are respectively communicated with the two concave structures 301 disposed on the front side of the bottom plate 102; through the above-mentioned setting, when this device runs into the condition that great degree rocked or collided with etc. in each link such as transportation, go up and can produce pressure of each other between module 1 and the lower module 2, the corresponding impact force that receives that transmits of bottom plate 102, unsmooth die mould 401 accessible deformation on the bottom plate 102 absorbs partly impact force, thereby reduce the impact force that bottom plate 102 face received, reduce the possibility that bottom plate 102 warp, avoid bottom plate 102 to reduce the bulk strength of this device because of warping, avoid the transportation and produce the harm to the machine with the operating mode that falls, promote the protective capacities to upper and lower two module internal elements.

In this embodiment, through experimental tests, it is obtained that the preferable structural parameters of the concave-convex compression mold 401 are that the compression depth is 6mm, the width of the compression opening is 21mm, and the width of the compression bottom is 5.6mm; under the condition of ensuring the shock resistance, the steel plate has higher utilization rate, thereby reducing the production cost of the bottom plate 102; and the unevenness of the surface of the bottom plate 102 caused by the warping of the bottom plate 101 during processing can be avoided.

In this embodiment, one end of each of the four limiting concave-convex compression molds 402 is connected to the corresponding four concave structures 301, and the other end of each of the four limiting concave-convex compression molds 402 extends transversely to the side edge of the bottom plate 102, which is closest to the left and right sides of the bottom plate, so that the strength and hardness of the four concave structures 301 can be enhanced; simultaneously, also can be when this device assembling process advances line location to this device through circular hole site, each spacing unsmooth die mould 402 plays important supporting role to this device through self deformation.

By the aid of the reinforcing structure 4, the device can be adapted to the mounting requirements of various household cabinets to the maximum extent, and the overall deformation resistance and pressure bearing capacity of the device are guaranteed; and the reinforcing structure 4 may increase the resistance to deformation of the bottom plate 102 of the upper module 1; meanwhile, the limitation of the specification of the reinforcing structure 4 can avoid the problem of warping of the bottom plate 102 caused in the processing process of the bottom plate, and ensure the consistency of the bottom plate 102.

In the embodiment shown in fig. 2, side plates 103 are respectively disposed on the left and right sides of the upper module 1, and a reinforcing rib 104 extending from the bottom end of each side plate 103 to the perpendicular bisector of the bottom plate 102 is disposed at the bottom end of each side plate 103; each strengthening rib 104 has seted up corresponding round hole above each sunk structure 301, and the diameter of round hole is the same with the internal diameter of the uncovered department of sunk structure 301, and strengthening rib 104 links to each other with sunk structure 301, can further strengthen sunk structure 301's shock resistance intensity, makes this device more firm.

Example 2

The difference between this embodiment 2 and the above embodiment 1 is that this embodiment is a further description of the dish washing and disinfecting device in the above embodiment:

in the embodiment, the upper module 1 is set as a dish washer, and the lower module 2 is set as a disinfection cabinet; or the upper module 1 is set as a disinfection cabinet, and the lower module 2 is set as a dish-washing machine; a user can respectively control the upper module 1 and the lower module 2 through a set of control system; the operation amount of the user is reduced, and the use experience of the user is improved.

In this embodiment, four length-adjustable feet 205 are symmetrically arranged at the bottom of the lower module 2, so that a user can adapt to the height of the unit cabinet by respectively adjusting the extension length of each foot 205; the upper module 1 and the lower module 2 of the device are detachably connected together, if the device is obliquely placed for a long time, the connecting piece and the horizontal limiting structure 3 which are connected with the upper module and the lower module are deformed or even damaged due to unbalanced stress, so that the overall strength of the device is influenced; aiming at the problems, the device can be kept vertically by adjusting the four feet 205; furthermore, the device is kept vertically by adjusting the feet 205 under the condition that the ground is not flat, so that the adaptability of the device is enhanced.

In this embodiment, the upper door body 101 and the lower door body 201 of upper module 1 and lower module 2 open the mode and are the pull formula respectively, and the width of pulling out can not occupy the kitchen space to the design that makes the reservation position of this device is more free, promotes user's experience.

Through the arrangement, the dish washing and disinfecting device provided by the embodiment is integrated with dish washing, disinfecting, drying, storing and nursing through the dish washing machine and the disinfecting cabinet, and all requirements of a user on washing and storing tableware are met; moreover, the two modules of the device are arranged up and down, so that the inner containers of the modules can be used reasonably, and meanwhile, one unit cabinet can be replaced by the whole overall dimension of the device; make this device through above-mentioned two points make when convenient installation, can carry out abundant and reasonable utilization to the space of a unit cabinet, space utilization is high, promotes user's use and experiences.

Moreover, compared with the prior art that the whole module cabinet can be directly replaced by increasing the volume of the dish-washing machine, the device provided by the embodiment realizes the dish-washing function and the storage function through two relatively independent modules respectively, so that clean tableware is always in a relatively dry environment in the storage process, and the stored tableware is not polluted by dirty water generated in the process of washing other tableware by the dish-washing machine; in addition, the dish washing machine can dry the tableware after the tableware is cleaned, but the place where the tableware is contacted with the tableware rack is difficult to ensure complete drying, the tableware is directly stored in the dish washing machine, and the residual water is easy to breed bacteria and harm the health of users; and through taking out the tableware from the dish washer in store again in the sterilizer, owing to moved the position of tableware, can not have the residue of water between tableware and the tableware rack, the water that is not handled in the dish washer and is stricken up can be in the sterilizer complete drying, has promoted the drying effect to the tableware, and does not worry about depositing the breed of in-process tableware especially wooden bacterium, guarantees the tableware health, makes the user can be relieved and deposit the tableware in the sterilizer module for a long time.

In the embodiment, the size of the device is matched with a standard unit cabinet, preferably, the overall dimension of the device is 450 multiplied by 600 multiplied by 900mm, and the device can replace a unit cabinet seamlessly, so that space waste is avoided; the bottom of the front side of the device is provided with the skirting board 206 which is detachably connected, when the device is arranged in a unit cabinet, the bottom skirting board 206 covers the front side of the bottom of the unit cabinet, so that when a user accidentally kicks the bottom of the device, the damage to the feet caused by collision is reduced, and meanwhile, the impact on the device can also be reduced; the device is more regular and beautiful in appearance and has high-grade feeling, and the use experience of a user is improved; the device is reasonable in overall design, dishes can be washed while the stored tableware is dry and sanitary, a user does not need to additionally arrange a tableware cabinet, and the space utilization of the user to a kitchen is improved.

Preferably, each shell and the corresponding inner container are relatively independent spaces, so that clothes such as dust, insects and the like in the cabinet can be prevented from entering the inner container of the device to cause pollution, the inner containers can be kept clean and sanitary, and the use experience of a user is improved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and although the present invention has been disclosed with reference to the preferred embodiment, it is not intended to limit the present invention, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, and the embodiments in the above embodiments can be further combined or replaced, but any simple modification, equivalent change or modification made to the above embodiments according to the technical essence of the present invention still fall within the scope of the present invention.

Claims (10)

1. The tableware treatment device comprises an upper module (1) and a lower module (2) which are arranged up and down, wherein a bottom plate (102) is arranged at the bottom of the upper module (1), and the bottom plate (102) is provided with at least two limiting concave-convex parts, and the tableware treatment device is characterized in that the bottom plate (102) is also provided with a concave-convex pressing die (401) for strengthening the strength of the bottom plate, and the two limiting concave-convex parts are connected with the concave-convex pressing die.

2. A tableware treating apparatus according to claim 1, wherein the limiting concavo-convex part and the concavo-convex profiling (401) are both profiling grooves recessed toward the inside of the upper module (1) or convex parts protruding toward the outside of the upper module;

or one of the limiting concave-convex part and the concave-convex profiling (401) is a profiling groove which is concave towards the inside of the upper module (1), and the other one is a convex part which is convex towards the outside of the upper module (1).

3. A utensil treatment device according to claim 2, characterized in that the two side walls of the concave-convex profiling (401) are respectively arranged obliquely and open to the outside, and the width of the concave-convex profiling gradually narrows from the bottom plate (102) to the top of the convex part or the bottom of the concave part.

4. A tableware treating apparatus according to claim 3, wherein the bottom plate (102) is provided with a stopper concave-convex portion at each of left and right ends of the front side thereof, the bottom plate (102) is provided with an elongated concave-convex die (401) extending in the left-right direction of the upper module (1) at the front side thereof, and each of the ends of the elongated concave-convex die (401) is connected to the stopper concave-convex portion at the corresponding side thereof.

5. A tableware processing apparatus according to claim 3, wherein the left and right sides of the bottom plate (102) are respectively provided with a limiting concave-convex part, and the bottom plate (102) at one side of each limiting concave-convex part is respectively provided with a one-to-one corresponding limiting concave-convex pressing type (402);

one end of each limiting concave-convex die (402) is connected with the corresponding limiting concave-convex part, and the corresponding other end extends to the side edge of the corresponding side of the bottom plate (102).

6. A utensil treatment device according to claim 5, characterized in that the limiting concave-convex part and the limiting concave-convex profiling (402) are both profiling grooves recessed towards the inside of the upper module (1) or convex parts protruding towards the outside of the upper module.

7. A utensil handling arrangement according to any one of claims 4 or 6 wherein at least one side of each retaining relief formation is provided with a gap; each limiting concave structure is communicated with one end of the corresponding long-strip concave-convex die (401) or limiting concave-convex die (402) through the opening.

8. The tableware processing apparatus according to claim 7, wherein the bottom plate (102) is square, a position-limiting concave-convex part is provided at each of four corners of the square bottom plate (102), an elongated concave-convex die (401) extending in the left-right direction is provided at the front side of the bottom plate (102), and both ends of the elongated concave-convex die (401) are connected to the position-limiting concave-convex parts at each of the left and right corners of the front side of the square bottom plate (102); the square bottom plate (102) is respectively provided with limiting concave-convex compression molds (402) which are in one-to-one correspondence with the limiting concave-convex parts, and the limiting concave-convex compression molds (402) respectively extend towards the side edges of the corresponding side of the square bottom plate (102).

9. The tableware processing apparatus according to claim 8, wherein the limiting concave-convex part, the concave-convex profiling (401) and the limiting concave-convex profiling (402) are all a profiling groove recessed towards the inside of the upper module (1) or a convex part protruding towards the outside of the upper module; the convex height or concave depth of each limiting concave-convex part is greater than that of the corresponding concave-convex compression type (401) and limiting concave-convex compression type (402);

the limiting concave-convex part is communicated with one end corresponding to the corresponding concave-convex die (401) or the limiting concave-convex die (402) through a notch arranged on the side part of the limiting concave-convex part.

10. The tableware processing apparatus according to claim 9, wherein the top or bottom of each of the limiting convexo-concave portions is provided with a circular hole (3013), and each circular hole is provided on the extension line of the corresponding limiting convexo-concave die (402) and the corresponding elongated convexo-concave die (401).

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