Wine cabinet and method for improving storage quality of wine by using wine cabinet
Technical Field
The invention relates to storage equipment, in particular to a wine cabinet and a method for improving storage quality of wine by using the same.
Background
In the process of storing the red wine and the grape wine in the wine bottle, the wooden plug is used for circulating with the outside air, if the wooden plug is placed on the wine bottle for a long time and is out of a dry state for a long time, the wooden plug can shrink and open the air too much, and oxygen in the air of the red wine and the grape wine is oxidized too fast when the wooden plug enters the wine bottle, so that the optimal drinking time for storing the wine is shortened, the taste of the wine is influenced, and the wine is evaporated and deteriorated. In addition, if the wine bottle is transversely placed in the wine for a long time and the wooden plug is soaked in the wine for a long time, the wooden plug expansion sealing effect is optimal, but certain sediment exists in the wine and the wine, the sediment is very small and is difficult to be found by eyes, the sediment is fixed for a long time and is accumulated together in a concentrated manner to form blocky sediment, and the accumulation of the sediment is increased along with the time to greatly influence the viewing and drinking taste of the wine body.
In order to prevent the wine bottles of the red wine and the grape wine from generating sediment in the long-time storage process, the wine bottles of the red wine and the grape wine are horizontally placed in the existing wine cabinet, wine cellar or display cabinet and manually and irregularly shaken, or the wine bottles are irregularly placed upside down or swung for a certain angle to prevent sediment from being generated. However, by manually shaking the wine bottle irregularly, time and effort are wasted, and sediment in the wine bottle is hardly fundamentally prevented, so that the quality of red wine or grape wine is poor.
Disclosure of Invention
In order to solve the technical problem that sediment is difficult to be fundamentally prevented from being generated in wine bottles by manually and irregularly shaking the wine bottles in the prior art, the invention provides a wine cabinet and a method for improving the storage quality of wine by using the wine cabinet.
The invention discloses a wine cabinet, comprising:
the cabinet body 1, two opposite inner sides of the cabinet body 1 are provided with a plurality of groups of layer rack guide parts 11;
A plurality of swing shelves 2 arranged in the cabinet body 1 for placing wine bottles, wherein two opposite sides of each swing shelf 2 are respectively provided with a rear shaft 21 and a front shaft 22, and the front shafts 22 are positioned on the shelf guide parts 11;
The swing mechanism is arranged in the cabinet body 1 and used for driving each swing layer frame 2 to swing according to a preset inclination angle, and comprises: a directional shaft 12 arranged on the inner side surface of the cabinet body 1; a power part 4 and a rotating wheel 5 fixedly connected with a rotating shaft 41 of the power part 4; an eccentric shaft 6 eccentrically arranged on the rotating wheel 5; the transmission rod 3 is provided with a guide transverse groove 31, at least one guide vertical groove 32 and a layer frame transverse groove 33 corresponding to the position of each swinging layer frame 2, the eccentric shaft 6 and the directional shaft 12 are respectively positioned in the guide transverse groove 31 and the guide vertical groove 32, and the rear shaft 21 of each swinging layer frame 2 is arranged in one layer frame transverse groove 33.
Wherein the power part 4 is fixed at the inner bottom of the cabinet body 1.
Wherein the power part 4 is a motor.
Wherein each of the shelf cross grooves 33 has an opening 331 obliquely upward.
Wherein the transverse dimension of the layer frame transverse groove 33 is set to 2 times the preset distance R between the eccentric shaft 6 and the center of the rotating wheel 5 or the rotating shaft 41 of the power part 4.
Wherein the guide cross groove 31 is provided at the lower end of the transmission rod 3.
Wherein, the number of the guide vertical grooves 32 is two, and the two guide vertical grooves 32 are respectively arranged at the upper end and the lower end of the transmission rod 3.
Wherein, a plurality of crossbars are fixed on two opposite inner sides of the cabinet body 1, and a layer rack guide part 11 of a track structure is formed on the transverse upper end surface, or the layer rack guide part 11 is a groove arranged on two opposite inner sides of the cabinet body 1.
The cabinet body 1 is further internally provided with a fixed layer frame 2' which does not need to be driven by the transmission rod 3 to swing, the fixed layer frame 2' is arranged on a group of layer frame guiding parts 11 or directly fixed on the inner side surface of the cabinet body 1, and two opposite side edges of the fixed layer frame 2' are provided with empty avoiding grooves 23 which avoid interference to the transmission rod 3.
Correspondingly, the invention discloses a method for improving the storage quality of wine by utilizing a wine cabinet, which is characterized by comprising the following steps: the wine bottle is transversely placed on the swinging layer frame 2 of the wine cabinet; the working time and the rotating speed of the power part 4 in the swinging mechanism are set, the swinging mechanism is controlled to drive the rear shaft 21 of the swinging layer frame 2 to move up and down along with the transmission rod 3, the front shaft 22 of the swinging layer frame 2 generates horizontal displacement along the layer frame guiding part 11, the front shaft 22 and the rear shaft 21 of the swinging layer frame 2 generate vertical drop to generate swinging with a preset inclination angle, and the wine in the wine bottle is prevented from precipitating through swinging so as to improve the storage quality of the wine.
Compared with the prior art, the invention has the following beneficial effects:
According to the invention, the swinging mechanism is arranged in the wine cabinet, and the swinging layer rack is driven to swing by the swinging mechanism by a preset inclination angle to enable the wine bottle to swing obliquely so as to prevent sediment from being generated in the wine bottle, so that the preservation quality of red wine or grape wine can be improved. In addition, the swinging layer rack and the fixed layer rack which is not driven by the swinging mechanism to swing can be selectively matched in the wine cabinet for use, and the combination mode is flexible and can meet the actual use requirement.
Drawings
Fig. 1 is a schematic structural view of a wine cabinet.
Fig. 2 is a schematic view of the structure of the swing mechanism installed inside the wine cabinet.
Fig. 3 is a schematic diagram of the structure of the swing layer frame and the swing mechanism.
Fig. 4 is an exploded view of fig. 3.
Fig. 5 is a schematic view of the internal structure of the wine cabinet.
Fig. 6 is a schematic structural view of the fixed shelf.
Detailed Description
In order to further describe the technical means and effects adopted by the present application for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present application with reference to the accompanying drawings and preferred embodiments. In the following description, different "an embodiment" or "an embodiment" do not necessarily refer to the same embodiment. Furthermore, the particular features, structures, or characteristics of one or more embodiments may be combined in any suitable manner.
As shown in fig. 1 to 4, the present invention discloses a wine cabinet, comprising: the cabinet body 1 is provided with a plurality of groups of layer rack guide parts 11 on two opposite inner sides of the cabinet body 1, for example, a plurality of transverse bars are fixed on two opposite inner sides of the cabinet body 1, and a layer rack guide part 11 with a track structure is formed on the transverse upper end surface, or the layer rack guide part 11 is a groove arranged on two opposite inner sides of the cabinet body 1; a plurality of swing shelves 2 arranged in the cabinet body 1 for placing wine bottles, wherein two opposite sides of each swing shelf 2 are respectively provided with a rear shaft 21 and a front shaft 22, and the front shafts 22 are positioned on the shelf guide parts 11; the swing mechanism is arranged in the cabinet body 1 and used for driving each swing layer frame 2 to swing according to a preset inclination angle, and the rear shaft 21 of each swing layer frame 2 is arranged in the swing mechanism.
As shown in particular in fig. 3 and 4, the oscillating mechanism comprises: a directional shaft 12 arranged on the inner side surface of the cabinet body 1; a power part 4 fixed at the bottom of the cabinet body 1; a rotating wheel 5 fixedly connected with the rotating shaft 41 of the power part 4; an eccentric shaft 6 eccentrically arranged on the rotating wheel 5, the eccentric shaft 6 having a preset distance R from the center of the rotating wheel 5 (i.e., the rotating shaft 41 of the power section 4); the transmission rod 3 is provided with a guide transverse groove 31, at least one guide vertical groove 32 and a layer frame transverse groove 33 corresponding to the position of each swinging layer frame 2, each layer frame transverse groove 33 is provided with an inclined upward opening part 331, the eccentric shaft 6 and the directional shaft 12 are respectively positioned in the guide transverse groove 31 and the guide vertical groove 32, and the rear shaft 21 of each swinging layer frame 2 is arranged in one layer frame transverse groove 33 after entering from the opening part 331.
In a preferred embodiment, the power part 4 is a motor, the motor drives the runner 5 to rotate synchronously, the runner 5 drives the eccentric shaft 6 to rotate, and the eccentric shaft 6 generates a circular travel track, and the radius of the circular travel track is the distance between the rotating shaft of the motor and the eccentric shaft (i.e. the preset distance R).
In a preferred embodiment, a guide cross slot 31 is provided at the lower end of the transmission rod 3; the number of the guide vertical grooves 32 is two, the two guide vertical grooves 32 are respectively arranged at the upper end and the lower end of the transmission rod 3, and the transmission rod 3 is more stable in structure in the cabinet body 1 through the cooperation of the two guide vertical grooves 32 and the directional shaft 12.
As shown in connection with fig. 5. Because the eccentric shaft 6 is inserted into the guide transverse groove 31 of the transmission rod 3, when the eccentric shaft 6 rotates according to a circular travel track, the guide transverse groove 31 only limits the eccentric shaft 6 longitudinally, so that the eccentric shaft 6 correspondingly slides transversely in the guide transverse groove 31 in the transverse travel track process to generate no power on the transmission rod 3, and a longitudinal acting force is generated on the guide transverse groove 31 in the longitudinal travel track rotation process of the eccentric shaft 6, so that the transmission rod 3 is driven to slide up and down according to the cooperation of the guide vertical groove 32 and the directional shaft 12; since the front shaft 22 of each swing frame 2 is located on the frame guide 11 on the inner side of the cabinet 1, and the rear shaft 21 of each swing frame 2 is located in the frame transverse slot 33 of the transmission rod 3, when the transmission rod 3 slides up and down and swings the frame 2, the rear shaft 21 of the swing frame 2 moves up and down along with the transmission rod 3, and the front shaft 22 of the swing frame 2 moves horizontally along the frame guide 11 without longitudinal movement, thereby causing the front shaft 22 and the rear shaft 21 of the swing frame 2 to fall up and down by the swing mechanism and generating swing of a preset inclination angle. Therefore, when the wine bottle (the wine bottle is not shown in the drawing) is transversely placed on the swing layer frame 2, the swing layer frame 2 is enabled to swing by the preset inclination angle through the swing mechanism, so that the wine bottle is enabled to swing by the preset inclination angle, and the purpose of preventing sediment from being generated by manually swinging the wine bottle in the prior art is replaced.
Therefore, the longitudinal distance by which the front shaft 22 and the rear shaft 21 of the swing frame 2 are up and down is the distance by which the transmission rod 3 slides up and down, which is the diameter distance 2R between the motor shaft and the eccentric shaft. Since the rear shaft 21 of the swing frame 2 is sleeved in the frame transverse groove 33 of the transmission rod 3, when the swing frame 2 is pulled forward, the frame transverse groove 33 of the transmission rod 3 generates a pull limit to the frame 3 to prevent the swing frame 2 from being pulled out too much to separate the front shaft 22 from the frame guide part 11 and the swing frame 2 from falling from the cabinet 1, so that the transverse dimension of the frame transverse groove 33 is set to be 2 times of the preset distance R.
When the swing layer frame 2 needs to be taken out from the cabinet body 1 for replacement or cleaning, the swing layer frame 2 is lifted up and lifted forward, the rear shaft 21 of the swing layer frame 2 can be withdrawn from the opening 331 of the layer frame transverse groove 33, and the operation and the use are very convenient.
In addition, according to the actual use needs possibly deposit multiple different drinks in the gradevin, some drinks may not need to shake in the process of depositing, for this reason, in practice, still can be in the cabinet body 1 selectively be equipped with the fixed layer frame 2' that need not carry out swinging motion by transfer line 3, this fixed layer frame 2' sets up on a set of layer frame guide 11 or directly fixes at cabinet body 1 medial surface, and the opposite side of fixed layer frame 2' is equipped with and keeps away empty slot 23 in order to avoid producing the interference to transfer line 3, let swing layer frame 2 pass through the empty slot 23 and can not take place the contact, consequently, fixed layer frame 2' can not produce horizontal migration or meet from top to bottom because of transfer line 3 reciprocates correspondingly, play in the wine cabinet nimble collocation swing layer frame 2 and the purpose of fixed layer frame 2' in order to satisfy actual use needs.
Correspondingly, the invention also discloses a method for improving the storage quality of the wine by using the wine cabinet, which comprises the following implementation steps:
And S1, transversely placing the wine bottle on the swing layer frame 2 of the wine cabinet.
Step S2, setting working time and rotating speed of a power part 4 in the swinging mechanism, and controlling the swinging mechanism to drive the swinging layer frame 2 to swing by a preset inclination angle, so that wine in the wine bottle is prevented from precipitating by swinging, and the storage quality of the wine is improved.
The motor is taken as an example of the power unit 4, and the working time and the rotation speed of the motor are set as those skilled in the art can understand or achieve the technical means by well known and well-known techniques, and will not be described in detail herein.
The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the application.