CN217592332U - Cabinet is accomodate to kitchen supplies - Google Patents

Abstract

The utility model relates to a cabinet is accomodate to kitchen supplies, hold the unit, raise unit and the control unit including cabinet unit, lift unit, first holding unit, second. The cabinet unit comprises a cabinet element, an installation cavity element, two gear groove elements, two transmission groove elements and four first sliding groove elements; the middle part of the lifting unit is arranged in the installation cavity element, and the two ends of the lifting unit are arranged on the corresponding gear groove element, the corresponding transmission groove element and the corresponding first sliding groove element; the first accommodating units are arranged inside the cabinet elements, two ends of each first accommodating unit are arranged inside the corresponding first sliding chute elements in a sliding mode, and two ends of each first accommodating unit are correspondingly connected with two ends of the lifting unit; the second accommodating unit is arranged at the bottom end of the second accommodating unit; the lifting unit is movably arranged inside the second accommodating unit. The utility model discloses a sound construction, installation are simple, can be suitable for not the user of co-altitude.

Description

Cabinet is accomodate to kitchen supplies

Technical Field

The utility model relates to a kitchen storage device technical field especially relates to a cabinet is accomodate to kitchen supplies.

Background

The kitchen is a place for cooking, and people usually place various storage devices in the kitchen to store and place objects such as oil, salt, sauce, vinegar and the like. For example, storage equipment such as a storage cabinet and a storage rack can be placed in a kitchen, objects such as seasonings and the like can be placed in the storage cabinet, and objects such as dishes and the like can be placed on the storage rack.

Among the prior art, in order to carry out make full use of the kitchen space, people can be mostly at the fixed cabinet of accomodating of wall body top installation in kitchen, in order to increase the inside space utilization in kitchen, but under the condition of accomodating the cabinet in the wall body upper end installation in kitchen, can install the cabinet of accomodating in higher position usually, if install the bottom of accomodating the cabinet to between 1.5 ~ 1.7m apart from ground, this undoubtedly causes very big restriction to the lower user of height, if take article to kid or old person and cause very big inconvenience. In addition, the inside of the existing storage cabinet is generally set to be flat, so that under the condition that the depth of the storage cabinet is deep and a user takes an article inside the storage cabinet, the article taken by the user is easy to touch the article outside the position, and the article outside the position is easy to drop, thereby causing certain loss to the property of the user.

At present, the higher user that causes very big restriction and accomodate the inside problem that sets up to levelly and smoothly leading to the user to take the article that accomodate the cabinet position and lean on the interior and very easily touch the article that the position leaned on outside to accomodating the cabinet to accomodating among the prior art the mounting height of cabinet is higher, has not yet proposed effectual solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cabinet is accomodate to kitchen supplies to not enough among the prior art, to at least solve among the prior art that the higher user that causes very big restriction to the lower user of height of the higher mounting height of accomodating the cabinet and accomodate the inside problem that leads to the article that the user took the accomodating cabinet position to extremely easily touch the position and lean on outer article that sets up to level.

In order to achieve the above object, the utility model provides a cabinet is accomodate to kitchen supplies, include:

a cabinet unit, the cabinet unit comprising:

the cabinet element is of a hollow structure, and the front end and the lower end of the cabinet element are provided with openings;

the installation cavity element is arranged at the upper end of the cabinet element;

the two gear groove elements are arranged on two opposite side walls of the installation cavity element;

the two transmission groove elements are arranged on two opposite side walls of the installation cavity element and communicated with the corresponding gear groove elements;

the four first sliding chute elements are vertically arranged on two side walls of the cabinet element, and the top ends of the first sliding chute elements are upwards communicated with the corresponding transmission groove elements;

the middle part of the lifting unit is arranged inside the installation cavity element, and the two ends of the lifting unit are arranged on the corresponding gear groove element, the corresponding transmission groove element and the corresponding first sliding groove element;

the first accommodating unit is arranged inside the cabinet element, two ends of the first accommodating unit are slidably arranged inside the corresponding first chute element, the two ends of the first accommodating unit are correspondingly connected with two ends of the lifting unit, and the first accommodating unit is used for moving up and down in the cabinet element along the first chute element under the driving of the lifting unit;

the second accommodating unit is arranged at the bottom end of the second accommodating unit and used for moving up and down along with the first accommodating unit;

the lifting unit is movably arranged inside the second accommodating unit and is used for lifting the height of an article placed inside the second accommodating unit;

and the control unit is arranged on the outer side wall of the cabinet element and is electrically connected with the lifting unit.

Further, the lifting unit includes:

the driving element is arranged in the installation cavity element, two ends of the driving element are inserted into the corresponding gear groove elements, and the driving element is electrically connected with the control unit;

the two supporting elements are arranged inside the installation cavity element at intervals, the upper ends of the two supporting elements rotate and are correspondingly sleeved at the two ends of the driving element, and the supporting elements are used for supporting the two ends of the driving element;

the middle parts of the two driven elements are arranged in the corresponding gear grooves, the middle parts of the two driven elements are correspondingly meshed and connected with the two ends of the two driving elements, and the two ends of the driven elements are inserted into the corresponding transmission groove elements;

and four lifting rope elements are correspondingly wound at two ends of the two driven elements, and the lower ends of the lifting rope elements extend into the corresponding first sliding chute elements and are correspondingly connected with two ends of the first accommodating unit.

Further, the driving element includes:

the driving motor is arranged inside the installation cavity element, two output shafts of the driving motor are correspondingly inserted into the two gear groove elements and sleeved inside the corresponding supporting elements, and the driving motor is electrically connected with the control unit;

the two first turbines are correspondingly sleeved at the end parts of the two output shafts of the driving motor and are in meshed connection with the corresponding driven elements.

Further, the support member includes:

a support base disposed on an inner bottom wall of the mounting chamber element;

the first bearing is arranged at the top end of the supporting base and sleeved with one end of the driving element.

Further, the driven element includes:

the second turbine is arranged inside the corresponding gear groove element and is in meshed connection with one end of the driving element;

the middle part of the driven shaft is sleeved in the second turbine, and two ends of the driven shaft are inserted into the corresponding transmission groove elements;

and the two second bearings are arranged in the corresponding transmission groove elements and are correspondingly sleeved at the two ends of the driven shaft.

Further, the first accommodating unit includes:

a first containment element disposed within the cabinet element;

the accommodating cavity elements are sequentially arranged on the first accommodating element from top to bottom along the height direction of the first accommodating element;

and the four first sliding block elements are correspondingly arranged on two side walls of the first accommodating element and are positioned inside the corresponding first sliding groove elements, and the top ends of the four first sliding block elements are correspondingly fixedly connected with the four lifting rope elements of the lifting unit.

Further, the first accommodating unit further includes:

the two ear elements are correspondingly arranged on two sides of the bottom end of the first accommodating element.

Further, the second accommodating unit includes:

the second accommodating element is arranged at the bottom end of the first accommodating unit;

and the two second sliding chute elements are arranged on the inner side wall of the second accommodating element at intervals along the height direction of the second accommodating element and are in sliding connection with the lifting unit.

Further, the elevation unit includes:

the two second sliding block elements correspond to and are arranged in the two second sliding chute elements of the second accommodating unit in a sliding manner;

the placing element is arranged inside the second accommodating unit, and the side walls of the placing element are fixedly connected with the two second sliding block elements respectively;

and the two inclined strut elements are rotatably arranged at two ends of the placing element.

Further, the elevation unit further comprises:

and the bottom ends of the two elastic elements are correspondingly arranged at the bottom ends of the two inclined strut elements.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

(1) The kitchen appliance storage cabinet of the utility model drives the first storage unit to move up and down in the cabinet unit through the lifting unit, and the first storage unit drives the second storage unit to move up and down, thereby being convenient for a user with lower height to take articles, and solving the problem that the installation height of the storage cabinet in the prior art is higher and the problem of great limitation on the user with lower height is caused;

(2) The lifting unit is arranged in the second accommodating unit to lift the height of the articles placed in the second accommodating unit, so that under the condition of taking out the articles above the lifting unit, the probability that the articles needing to be taken out touch the articles outside the position is reduced, and the problem that the articles inside the accommodating cabinet are flat and easy to touch the articles outside the position when a user takes out the articles inside the accommodating cabinet in the prior art is solved;

(3) The utility model discloses a stable in structure, installation are firm, easy operation, can be suitable for not the user of co-altitude, have good practical value and popularization and application and worth.

Drawings

Fig. 1 is a schematic structural view of a kitchen appliance storage cabinet according to the present invention;

FIG. 2 is a top sectional view of the kitchen utensil cabinet of the present invention;

fig. 3 is a schematic structural view of the cabinet unit of the present invention;

FIG. 4 is a top cross-sectional view of a cabinet unit of the present invention;

fig. 5 is a schematic structural view of the lifting unit of the present invention;

fig. 6 is a schematic structural diagram of a first accommodating unit according to the present invention;

fig. 7 is a schematic structural view of a second accommodating unit according to the present invention;

fig. 8 is a schematic structural view of the elevation unit of the present invention;

wherein the reference symbols are:

100. a cabinet unit; 110. a cabinet element; 120. mounting a cavity element; 130. a gear groove element; 140. a drive slot element; 150. a first chute element;

200. a lifting unit; 210. a drive element; 211. a drive motor; 212. a first turbine; 220. a support element; 221. a support base; 222. a first bearing; 230. a driven element; 231. a second turbine; 232. a driven shaft; 233. a second bearing; 240. a hoist rope element;

300. a first accommodating unit; 310. a first containing member; 320. a housing chamber element; 330. a first slider element; 340. an ear element;

400. a second accommodating unit; 410. a second containing member; 420. a second chute element;

500. a raising unit; 510. a second slider element; 520. placing the element; 530. a bracing element; 540. an elastic element;

600. a control unit.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "upper", "lower", "inner", "outer", "vertical", "horizontal", and the like as used herein are used in the description to indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1-2, the utility model discloses a cabinet is accomodate to kitchen supplies for install in the kitchen, and accomodate kitchen article, it includes cabinet unit 100, lifting unit 200, first holding unit 300, second holding unit 400, raises unit 500 and the control unit 600. The cabinet unit 100 comprises a cabinet element 110, an installation cavity element 120, two gear groove elements 130, two transmission groove elements 140 and four first sliding groove elements 150, and the cabinet unit 100 is used for being installed above the inner wall of the kitchen and providing an installation supporting function; the middle part of the lifting unit 200 is arranged inside the installation cavity element 120, and two ends of the lifting unit 200 are arranged on the corresponding gear groove element 130, the corresponding transmission groove element 140 and the corresponding first sliding groove element 150, and are used for driving the first accommodating unit 300 to ascend or descend; the first accommodating unit 300 is disposed inside the cabinet element 110, two ends of the first accommodating unit 300 are slidably disposed inside the corresponding first sliding groove elements 150, and two ends of the first accommodating unit 300 are correspondingly connected with two ends of the lifting unit 200, and are used for being driven by the lifting unit 200 to ascend or descend inside the cabinet element 110, so as to be suitable for users with different heights; the second receiving unit 400 is disposed at a bottom end of the second receiving unit 400, and is adapted to ascend or descend with the first receiving unit 300 and receive kitchen items; the elevation unit 500 is movably disposed inside the second accommodation unit 400, and is used for elevating the height of the articles placed inside the second accommodation unit 400; the control unit 600 is disposed on an outer sidewall of the cabinet element 110, and is electrically connected to the lifting unit 200 for controlling the opening or closing of the lifting unit 200.

In which the cabinet unit 100 may be installed on a wall of a kitchen by expansion bolts, and a space for the second receiving unit 400 to descend is reserved below the cabinet unit 100.

Wherein the first receiving unit 300 and the second receiving unit 400 are used to store kitchen items, such as dishes, spices, and the like.

The lifting unit 500 is used to lift the height of the articles placed inside the second accommodating unit 400, so as to avoid the articles outside the second accommodating unit 400 from being knocked down when the articles inside the second accommodating unit 400 are taken out.

Wherein, placing article and raising under the condition of unit 500, because raising unit 500 too high the height of article to the user only needs to improve some height again slightly, can take out the article of placing on raising unit 500, and avoid user's hand to touch the position and lean on outer article, also avoid appearing the problem that the article height that the user took out is not enough to lead to touching the position and lean on outer article.

In some embodiments, the elevation unit 500 may be lowered to its own height to meet the user's need for different size items.

For example, in the case that a large article needs to be placed inside the second accommodating unit 400, if the lifting unit 500 affects the placement of the large article, the user may lower the height of the lifting unit 500 to place the lifting unit 500 against the bottom sidewall of the second accommodating unit 400, so as to increase the accommodating space of the second accommodating unit 400.

The control unit 600 includes a control device with data processing and data transmission functions, including but not limited to a processor, a display screen, a control panel, and the like.

Wherein, the processor can be a singlechip.

As shown in fig. 3 to 4, the cabinet unit 100 includes a cabinet element 110, a mounting chamber element 120, two gear slot elements 130, two drive slot elements 140, and four first chute elements 150. Wherein, the cabinet element 110 is a hollow structure, and the front end and the lower end thereof are provided with openings so as to take out the articles stored inside the first receiving unit 300 and also to enable the first receiving unit 300 to move downward; the installation cavity member 120 is opened inside the upper end of the cabinet member 110 for installing the middle portion of the lifting unit 200; the two gear groove members 130 are opened at two opposite sidewalls of the installation cavity member 120 for installing the lifting unit 200; the two driving groove members 140 are opened at two opposite sidewalls of the installation cavity member 120 and communicated with the corresponding gear groove members 130 for installing both ends of the lifting unit 200; the four first chute members 150 are vertically arranged on two side walls of the cabinet member 110, and the top ends of the first chute members 150 are communicated with the corresponding transmission groove members 140 for installing two ends of the lifting unit 200 and two ends of the first accommodating unit 300;

wherein, the front end opening of the cabinet element 110 is used for a user to take out articles inside the first receiving unit 300 or for a user to store articles inside the first receiving unit 300; the lower end opening of the cabinet element 110 is used to move the first receiving unit 300 downward so that the first receiving unit 300 adjusts its height.

Wherein, two sides of the front opening of the cabinet element 110 are connected with two cabinet doors through hinges.

Wherein the drive slot elements 140 are disposed through the corresponding gear slot elements 130, i.e., one drive slot element 140 is located on each side of one gear slot element 130.

Wherein the cross section of the first runner element 150 is arranged in a convex shape.

A space for the second receiving unit 400 to descend is reserved below the cabinet element 110, so that the second receiving unit 400 moves downward along with the first receiving unit 300.

As shown in fig. 5, the lifting unit 200 includes a driving member 210, two supporting members 220, two driven members 230, and four lifting rope members 240. The driving element 210 is disposed inside the mounting cavity element 120, two ends of the driving element 210 are inserted into the corresponding gear groove elements 130, the driving element 210 is electrically connected to the control unit 600, and the driving element 210 is used for driving the two driven elements 230 to rotate; the two supporting elements 220 are disposed inside the mounting cavity element 120 at intervals, and the upper ends of the two supporting elements 220 are rotatably sleeved at two ends of the driving element 210, so as to support the two ends of the driving element 210 without affecting the rotation of the two ends of the driving element 210; the middle parts of the two driven elements 230 are arranged inside the corresponding gear groove elements 130, the middle parts of the two driven elements 230 are correspondingly engaged and connected with the two ends of the two driving elements 210, and the two ends of the driven elements 230 are inserted into the corresponding transmission groove elements 140 for winding or releasing the lifting rope elements 240; the four lifting rope elements 240 are correspondingly wound around two ends of the two driven elements 230, and the lower ends of the lifting rope elements 240 extend into the corresponding first chute elements 150 and are correspondingly connected with two ends of the first accommodating unit 300, so as to drive the first accommodating unit 300 to ascend or descend.

Wherein the lifting rope element 240 may be a metal lifting rope to increase the service life of the lifting rope element 240.

Specifically, in the case of forward rotation of the driven element 230, the sling element 240 is wound around one end of the driven element 230, and in the case of reverse rotation of the sling element 240, the sling element 240 is released downward from one end of the driven element 230.

As shown in fig. 5, the driving element 210 includes a driving motor 211 and two first turbines 212. The driving motor 211 is disposed inside the mounting cavity element 120, two output shafts of the driving motor 211 are correspondingly inserted into the two gear slot elements 130 and are sleeved inside the corresponding supporting elements 220, and the driving motor 211 is electrically connected to the control unit 600 and is configured to rotate forward or backward under the control of the control unit 600; the two first turbines 212 are correspondingly sleeved at the end portions of the two output shafts of the driving motor 211, and are engaged with the corresponding driven elements 230, and are configured to rotate along with the output shafts of the driving motor 211 to drive the corresponding driven elements 230 to rotate.

The driving motor 211 is a forward/reverse rotation motor.

Wherein the first turbine 212 is a metal turbine.

Specifically, in the case where the control unit 600 controls the driving motor 211 to rotate forward or backward, the driving motor 211 can drive the two first turbines 212 to rotate forward or backward.

As shown in fig. 5, the support member 220 includes a support base 221 and a first bearing 222. Wherein, the supporting base 221 is disposed on the inner bottom wall of the installation cavity element 120; the first bearing 222 is disposed on the top end of the supporting base 221 and is sleeved on one end of the driving element 210, and the first bearing 222 is used for supporting one end of the driving element 210 by matching with the supporting base 221.

Specifically, the first bearing 222 is sleeved on an output shaft of the driving motor 211 to prevent the output shaft of the driving motor 211 from bending downward after long-term use.

Wherein the supporting base 221 is a metal base.

Wherein the first bearing 222 is a bearing.

Specifically, the first bearing 222 can support the output shaft of the driving motor 211 in cooperation with the supporting base 221 without affecting the rotation of the output shaft of the driving motor 211.

As shown in fig. 5, the driven element 230 includes a second turbine 231, a driven shaft 232, and two second bearings 233. The second worm wheel 231 is disposed inside the corresponding gear groove element 130 and is engaged with one end of the driving element 210, and the second worm wheel 231 is driven by the driving element 210 to rotate; the middle part of the driven shaft 232 is sleeved inside the second turbine 231, and both ends of the driven shaft 232 are inserted into the corresponding transmission groove elements 140, so as to rotate with the second turbine 231 when the second turbine 231 rotates; the two second bearings 233 are disposed inside the corresponding transmission groove element 140, and are correspondingly sleeved at two ends of the driven shaft 232, so as to facilitate the rotation of the driven shaft 232 inside the transmission groove element 140.

Specifically, the second turbine 231 is engaged with the first turbine 212 of the driving motor 211, so that when the first turbine 212 rotates, the first turbine 212 drives the second turbine 231 to rotate.

In order to rotate the driven shafts 232 of the two driven elements 230 in the same direction, the two second turbines 231 of the two driven elements 230 are located at two sides of the driving element 210, that is, the two second turbines 231 are located at two sides of the driving motor 211.

The second turbine 231 is a metal turbine.

The driven shaft 232 is a metal shaft.

Wherein the second bearing 233 is a bearing.

Specifically, under the condition that lifting unit 200 drives first accommodation unit 300 to rise or descend, the staff opens driving motor 211 through the control of control unit 600 control and rotates, driving motor 211 drives first turbine 212 to rotate, first turbine 212 drives second turbine 231 to rotate, second turbine 231 drives driven shaft 232 to rotate, then make driven shaft 232 twine or release lifting rope element 240, so that lifting rope element 240 drives first accommodation unit 300 to rise or descend, then first accommodation unit 300 drives second accommodation unit 400 to rise or descend.

As shown in fig. 6, the first receiving unit 300 includes a first receiving member 310, a plurality of receiving chamber members 320, and four first slider members 330. Wherein the first accommodating element 310 is disposed inside the cabinet element 110; the plurality of accommodating cavity elements 320 are sequentially arranged on the first accommodating element 310 from top to bottom along the height direction of the first accommodating element 310 and used for storing articles; the four first slider elements 330 are correspondingly disposed on two side walls of the first accommodating element 310 and located inside the corresponding first sliding groove elements 150, and top ends of the four first slider elements 330 are correspondingly and fixedly connected with the four lifting rope elements 240 of the lifting unit 200, so as to limit the first accommodating element 310 inside the cabinet element 110 and enable the first accommodating element 310 to ascend or descend along the sliding groove elements.

Wherein the cross-section of the first slider element 330 is arranged in a convex shape.

Specifically, in the case that the lifting rope element 240 is wound on the driven shaft 232 or released from the driven shaft 232, the lifting rope element 240 can drive the first slider element 330 to ascend or descend, and then the first slider element 330 drives the first accommodating element 310 to ascend or descend.

As shown in fig. 6, the first accommodating unit 300 further includes two ear elements 340, and the two ear elements 340 are correspondingly disposed at two sides of the bottom end of the first accommodating element 310.

The two-ear element 340 is used to limit the position of the first accommodating element 310, prevent the first accommodating element 310 from moving upwards and pushing against the bottom wall of the installation cavity element 120, and also seal between the outer sidewall of the first accommodating element 310 and the inner sidewall of the cabinet element 110 in case the first accommodating element 310 completely enters the inside of the cabinet element 110, so as to reduce dust entering between the outer sidewall of the first accommodating element 310 and the inner sidewall of the cabinet element 110.

As shown in fig. 7, the second receiving unit 400 includes a second receiving member 410 and two second chute members 420. Wherein, the second accommodating element 410 is disposed at the bottom end of the first accommodating unit 300 for accommodating the articles; the two second chute members 420 are spaced apart from each other along the height direction of the second accommodating member 410 at the inner side wall of the second accommodating member 410, and slidably connected to the elevation unit 500 for raising or lowering the elevation unit 500 inside the second accommodating member 410.

Wherein the cross-section of the second chute member 420 is arranged in a convex shape.

As shown in fig. 8, the elevation unit 500 includes two second slider elements 510, a placement element 520, and two sprag elements 530. The two second slider elements 510 are correspondingly disposed inside the two second sliding chute elements 420 of the second accommodating unit 400, and are configured to move along the second sliding chute elements 420; the placing element 520 is disposed inside the second accommodating unit 400, and the sidewalls of the placing element 520 are respectively fixedly connected with the two second slider elements 510 for placing the kitchen articles; two diagonal bracing members 530 are rotatably disposed at both ends of the placement member 520 for supporting the placement member 520.

Wherein the cross-section of the second slider element 510 is arranged in a convex shape.

Wherein the placement member 520 is provided as a plate member.

Wherein the bracing member 530 is a support plate.

The rotation angle of the inclined strut 530 is fixed, and the turning angle of the inclined strut 530 is an obtuse angle, that is, when the bottom end of the inclined strut 530 rotates to abut against the sidewall of the second accommodating element 410, the inclined strut 530 cannot rotate any more.

For example, the two ends of the placing element 520 are provided with a limiting plate, and the limiting plate is disposed obliquely and used for limiting the inclined strut element 530 when the bottom end of the inclined strut element 530 rotates to abut against the bottom end of the side wall of the second accommodating element 410, so that the inclined strut element 530 is prevented from continuing to rotate, and the placing element 520 is prevented from shaking.

Specifically, under the condition that the second slider element 510 ascends or descends along the second sliding chute element 420, the second slider element 510 can drive the placing element 520 to ascend or descend, and under the condition that the second slider element 510 moves to the top end of the second sliding chute element 420, the user turns over the inclined strut element 530, so that the bottom end of the inclined strut element 530 is turned over to abut against the side wall of the second accommodating element 410.

In the case that the placing element 520 needs to be retracted, the user first lifts the placing element 520 upwards, then turns the two bracing elements 530 to the bottom end of the placing element 520, and finally the placing element 520 slides downwards through the second slider element 510 to place the placing element 520 on the inner bottom wall of the second accommodating element 410.

The raising unit 500 further comprises two elastic elements 540, and bottom ends of the two elastic elements 540 are correspondingly disposed at bottom ends of the two inclined strut elements 530, so as to prevent the inclined strut elements 530 from damaging the second accommodating element 410.

The working principle of the utility model is as follows:

under the condition that a worker needs to lift the first accommodating element 310 and the second accommodating element 410, the worker controls the driving motor 211 to rotate forward through the control unit 600, the driving motor 211 drives the second turbine 231 to rotate forward through the first turbine 212, the second turbine 231 drives the driven shaft 232 to rotate forward, so that the lifting rope element 240 is wound on the driven shaft 232, then the lifting rope element 240 drives the first sliding block element 330 to lift, the first sliding block element 330 drives the first accommodating element 310 to lift, and the first accommodating element 310 drives the second accommodating element 410 to lift;

under the condition that a worker needs to enable the first accommodating element 310 and the second accommodating element 410 to descend, the worker controls the driving motor 211 to rotate reversely, the driving motor 211 drives the second turbine 231 to rotate reversely through the first turbine 212, the second turbine 231 drives the driven shaft 232 to rotate reversely, so that the lifting rope element 240 is released from the driven shaft 232, then the lifting rope element 240 drives the first sliding block element 330 to descend, the first sliding block element 330 drives the first accommodating element 310 to descend, and the first accommodating element 310 drives the second accommodating element 410 to descend.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A cabinet is accomodate to kitchen supplies, its characterized in that includes:

a cabinet unit, the cabinet unit comprising:

the cabinet element is of a hollow structure, and the front end and the lower end of the cabinet element are provided with openings;

the installation cavity element is arranged at the upper end of the cabinet element;

the two gear groove elements are arranged on two opposite side walls of the installation cavity element;

the two transmission groove elements are arranged on two opposite side walls of the installation cavity element and communicated with the corresponding gear groove elements;

the four first chute elements are vertically arranged on two side walls of the cabinet element, and the top ends of the first chute elements are upwards communicated with the corresponding transmission groove elements;

the middle part of the lifting unit is arranged inside the installation cavity element, and the two ends of the lifting unit are arranged on the corresponding gear groove element, the corresponding transmission groove element and the corresponding first sliding groove element;

the first accommodating unit is arranged inside the cabinet element, two ends of the first accommodating unit are slidably arranged inside the corresponding first sliding chute element, the two ends of the first accommodating unit are correspondingly connected with two ends of the lifting unit, and the first accommodating unit is used for moving up and down in the cabinet element along the first sliding chute element under the driving of the lifting unit;

the second accommodating unit is arranged at the bottom end of the second accommodating unit and used for moving up and down along with the first accommodating unit;

the lifting unit is movably arranged inside the second accommodating unit and is used for lifting the height of an article placed inside the second accommodating unit;

and the control unit is arranged on the outer side wall of the cabinet element and is electrically connected with the lifting unit.

2. The galley article receiving cabinet of claim 1, wherein the lift unit comprises:

the driving element is arranged in the installation cavity element, two ends of the driving element are inserted into the corresponding gear groove elements, and the driving element is electrically connected with the control unit;

the two supporting elements are arranged inside the installation cavity element at intervals, the upper ends of the two supporting elements rotate and are correspondingly sleeved at the two ends of the driving element, and the supporting elements are used for supporting the two ends of the driving element;

the middle parts of the two driven elements are arranged inside the corresponding gear grooves, the middle parts of the two driven elements are correspondingly meshed with the two ends of the two driving elements, and the two ends of the driven elements are inserted into the corresponding transmission groove elements;

and four lifting rope elements are correspondingly wound at two ends of the two driven elements, and the lower ends of the lifting rope elements extend into the corresponding first sliding chute elements and are correspondingly connected with two ends of the first accommodating unit.

3. The galley article receiving cabinet of claim 2, wherein the drive element comprises:

the driving motor is arranged inside the installation cavity element, two output shafts of the driving motor are correspondingly inserted into the two gear groove elements and sleeved inside the corresponding supporting elements, and the driving motor is electrically connected with the control unit;

the two first turbines are correspondingly sleeved at the end parts of the two output shafts of the driving motor and are in meshed connection with the corresponding driven elements.

4. The galley article storage cabinet of claim 2, wherein the support element comprises:

a support base disposed at an inner bottom wall of the installation cavity element;

the first bearing is arranged at the top end of the supporting base and sleeved with one end of the driving element.

5. The galley article receiving cabinet of claim 2, wherein the driven element comprises:

the second worm wheel is arranged inside the corresponding gear groove element and is in meshed connection with one end of the driving element;

the middle part of the driven shaft is sleeved in the second turbine, and two ends of the driven shaft are inserted into the corresponding transmission groove elements;

and the two second bearings are arranged in the corresponding transmission groove elements and are correspondingly sleeved at the two ends of the driven shaft.

6. The galley item receiving cabinet according to claim 1, wherein the first receiving unit comprises:

a first containment element disposed inside the cabinet element;

the accommodating cavity elements are sequentially arranged on the first accommodating element from top to bottom along the height direction of the first accommodating element;

and the four first sliding block elements are correspondingly arranged on two side walls of the first accommodating element and are positioned inside the corresponding first sliding groove elements, and the top ends of the four first sliding block elements are correspondingly fixedly connected with the four lifting rope elements of the lifting unit.

7. The galley item receiving cabinet of claim 6, wherein the first receiving unit further comprises:

the two ear elements are correspondingly arranged on two sides of the bottom end of the first accommodating element.

8. The galley item receiving cabinet of claim 1, wherein the second receiving unit comprises:

the second accommodating element is arranged at the bottom end of the first accommodating unit;

and the two second sliding chute elements are arranged on the inner side wall of the second accommodating element at intervals along the height direction of the second accommodating element and are in sliding connection with the lifting unit.

9. The galley item receiving cabinet of claim 1, wherein the elevation unit comprises:

the two second sliding block elements correspond to and are arranged in the two second sliding chute elements of the second accommodating unit in a sliding manner;

the placing element is arranged inside the second accommodating unit, and the side walls of the placing element are fixedly connected with the two second sliding block elements respectively;

and the two inclined strut elements are rotatably arranged at two ends of the placing element.

10. The galley article receiving cabinet of claim 9, wherein the elevation unit further comprises:

and the bottom ends of the two elastic elements are correspondingly arranged at the bottom ends of the two inclined strut elements.

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