CN218073461U - Control mechanism and cigarette case - Google Patents

Abstract

The application provides a control mechanism and a cigarette box. Control mechanism is applied to cigarette case and is used for controlling the push mechanism of propelling movement cigarette, and push mechanism includes the door, rotates piece, and the elastic component, rotates the piece and holds including relative first end and the second that sets up, and first end is rotated and is connected the door, and the elastic component is installed in first end. The sliding part is connected with the bin door in a sliding mode, the sliding part is provided with a pressing and holding part, and the pressing and holding part can be arranged on one side, away from the bin door, of the rotating part in a pressing mode. The pressing part enables the second end of the rotating part to rotate along the direction close to the bin gate in the process that the sliding part slides along the direction close to the second end from the first end. In the process that the sliding piece slides to the first end from the position close to the second end, the elastic piece enables the second end of the rotating piece to rotate along the direction far away from the bin door, and when the second end is located at the preset position, the pressing and holding part is separated from the rotating piece, or the pressing and holding part is abutted to the rotating piece. The application provides a motion of steerable push mechanism to make push mechanism change between accomodate the state and release state.

Description

Control mechanism and cigarette case

Technical Field

The application belongs to the technical field of machinery and electronics, concretely relates to control mechanism and cigarette case.

Background

In the context of consumer upgrades, the degree of automation of cigarette packs as individual consumer goods has also increased accordingly. Under the automatic requirement, a pushing mechanism for pushing cigarettes is usually additionally arranged in the cigarette box. But at present, the storage and release of the pushing mechanism cannot be automatically controlled when the bin door of the cigarette box is opened or closed.

SUMMERY OF THE UTILITY MODEL

In view of this, the first aspect of the present application provides a control mechanism, which is applied to a cigarette box and used for controlling a pushing mechanism for pushing cigarettes, where the pushing mechanism includes a door, a rotating member, and an elastic member, the rotating member includes a first end and a second end that are opposite to each other, the first end is rotatably connected to the door, the elastic member is installed at the first end, and the elastic member is used for enabling the second end of the rotating member to rotate in a direction away from the door, and the control mechanism includes:

the sliding piece is connected with the bin door in a sliding mode, the sliding direction of the sliding piece is parallel to the orthographic projection of the length direction of the rotating piece on the bin door, the sliding piece is provided with a pressing and holding part, and in the sliding process of the sliding piece, the pressing and holding part can be arranged on one side, away from the bin door, of the rotating piece in a pressing mode;

wherein, in the process that the sliding piece slides from the first end along the direction close to the second end, the pressing part enables the second end of the rotating piece to rotate along the direction close to the bin gate;

in the process that the sliding piece slides to the first end from the position close to the second end, the elastic piece enables the second end of the rotating piece to rotate along the direction far away from the bin gate, and when the second end is located at the preset position, the pressing and holding part is separated from the rotating piece, or the pressing and holding part is abutted to the rotating piece.

In the control mechanism provided by the first aspect of the present application, the first end of the rotating member is rotatably connected to the bin gate, in other words, the first end is the rotating end of the rotating member. This application is through making slider sliding connection door, and the slider can slide relatively the door promptly. Because the sliding part is provided with the pressing part and the pressing part can be pressed on one side of the rotating part departing from the bin door, the rotating part can be controlled to rotate by the pressing part in the sliding process of the sliding part.

Specifically, when the second end of the rotating member is rotated to a position far away from the door by means of the elastic member, that is, the second end is located at a preset position far away from the door, it can also be understood that the pushing mechanism is in a released state. Then, during the sliding process of the sliding piece from the first end in the direction close to the second end, namely when the sliding piece slides in the direction far away from the rotating end, the pressing and holding part also slides in the direction far away from the first end, and the acting force of the rotating piece towards the direction close to the door is given during the sliding process, so that the second end of the rotating piece rotates in the direction close to the door. When the sliding part stops sliding, the rotating part stops rotating, and the second end of the rotating part is located at the storage position close to the bin door, so that the pushing mechanism can be understood to be in the storage state.

Conversely, when the pushing mechanism is in the storage state, and then the sliding member slides from the position close to the second end to the first end, that is, when the sliding member slides in the direction close to the rotating end, the pressing portion also slides in the direction close to the first end at this time, and releases the rotating member in the sliding process, so that the second end rotates in the direction away from the door by using the elastic member until the second end rotates to the preset position, and even if the pushing mechanism is in the release state, the sliding member stops sliding at the same time. Meanwhile, when the second end is located at the preset position, the pressing and holding part can be separated from the rotating part, or the pressing and holding part is abutted to the rotating part.

In summary, the control mechanism provided in the present embodiment can control the movement of the pushing mechanism, so as to switch the pushing mechanism between the storage state and the release state.

The bin gate is provided with a sliding groove, the extending direction of the sliding groove is parallel to the orthographic projection of the length direction of the rotating piece on the bin gate, and the sliding piece is partially arranged in the sliding groove and can slide in the sliding groove.

The side wall of the sliding groove is provided with a first guide part, the side wall of the sliding part is provided with a second guide part, and the first guide part and the second guide part are matched with each other to enable the sliding part to slide along the extending direction of the sliding groove.

The pushing mechanism comprises one group or two groups of rotating parts, and when the pushing mechanism only comprises one group of rotating parts, the group of rotating parts are arranged on one side of the sliding chute; when the pushing mechanism comprises two groups of rotating parts, the two groups of rotating parts are arranged on two opposite sides of the sliding groove, and when the two groups of rotating parts are arranged on two opposite sides of the sliding groove, the two groups of rotating parts on two sides of the sliding groove are symmetrically arranged.

The pressing part is convexly arranged on the side wall of the sliding part, and the pressing part is arranged outside the sliding groove.

When one group of the rotating parts is arranged on one side of the sliding chute, the pressing part is arranged on one side of the sliding part corresponding to the group of the rotating parts; when two sets of the rotating parts are arranged on the two opposite sides of the sliding groove, the pressing and holding parts correspond to the two sets of the rotating parts which are arranged on the two opposite sides of the sliding part and are symmetrically arranged.

The control mechanism further comprises a first stop portion, wherein the first stop portion is arranged in the sliding groove at a position far away from the first end and used for limiting the position of the sliding piece when the sliding piece slides from the first end in a direction close to the second end.

Wherein, one end of the bin gate is rotatably connected with the shell of the cigarette case and is used for opening or closing the cigarette case; the control mechanism further comprises a connecting rod, one end of the connecting rod is rotatably connected with the sliding piece, the other end of the connecting rod is rotatably connected with a structural support of the cigarette case, and the structural support is fixedly arranged in the shell;

the bin gate is opened, so that the connecting rod can rotate relative to the structure support and the sliding piece, and the sliding piece is driven to slide from the first end in the direction close to the second end;

the bin gate is closed, so that the connecting rod can rotate relative to the structure support and the sliding piece, and the sliding piece is driven to slide to the first end from a position close to the second end.

The bin gate is closed, so that the connecting rod can rotate relative to the structure support and the sliding piece, and the sliding piece is driven to slide to the first end from a position close to the second end; when the connecting rod is in line with the sliding part, the sliding part stops sliding.

The control mechanism further comprises a rotating base, the rotating base is fixedly arranged on the structure support, one end of the connecting rod is rotatably connected with the rotating base, and a second stopping part is arranged on one side, close to the rotating connection position of the bin gate and the shell, of the rotating base; when the bin gate is opened and the bin gate rotates to a preset angle relative to the shell, the connecting rod abuts against the second stopping part.

A second aspect of the application provides a cigarette pack comprising a housing, a pushing mechanism, and a control mechanism as provided in the first aspect of the application; the pushing mechanism comprises a bin door, a rotating part and an elastic part, the rotating part comprises a first end and a second end which are oppositely arranged, the first end is rotatably connected with the bin door, the elastic part is arranged at the first end, and the elastic part is used for enabling the second end of the rotating part to rotate along the direction far away from the bin door;

when the bin door is opened, the bin door rotates relative to the shell, so that the sliding piece can slide from the first end in the direction close to the second end, and the second end rotates in the direction close to the bin door;

when the bin gate is closed, the bin gate is opposite to the shell and rotates reversely, so that the sliding piece can slide to the first end from a position close to the second end, in the sliding process of the sliding piece, the elastic piece can enable the second end of the rotating piece to rotate along a direction far away from the bin gate, and when the second end is located at a preset position, the pressing and holding portion is separated from the rotating piece, or the pressing and holding portion is abutted to the rotating piece.

In the cigarette case provided by the second aspect of the present application, by adopting the control mechanism provided by the first aspect of the present application, when the compartment door is opened, the sliding member can slide from the first end in the direction close to the second end, so that the second end rotates in the direction close to the compartment door. In other words, the pushing mechanism moves from the releasing state to the containing state, and the pushing mechanism is contained in the bin gate, so that a user can conveniently load cigarettes into the cigarette box. When the bin door is closed, the sliding piece can slide to the first end from the position close to the second end, so that the second end can rotate along the direction far away from the bin door by utilizing the elastic piece, and the pushing mechanism can realize the function of pushing cigarettes.

Drawings

In order to more clearly explain the technical solution in the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be described below.

Fig. 1 is a schematic perspective view of a control mechanism according to an embodiment of the present disclosure.

Fig. 2 is a schematic view of a matching structure of the pushing mechanism and the control mechanism when the pushing mechanism is in a storage state according to an embodiment of the present disclosure.

Fig. 3 is a partially exploded view of fig. 2.

Fig. 4 is a schematic view of a matching structure of the pushing mechanism and the control mechanism when the pushing mechanism is in a storage state according to another embodiment of the present disclosure.

Fig. 5 is a schematic view of a matching structure of the pushing mechanism and the control mechanism when the pushing mechanism is in a release state according to an embodiment of the present disclosure.

Fig. 6 is a schematic view illustrating the engagement of the door and the sliding member according to an embodiment of the present disclosure.

Fig. 7 is a schematic perspective view of a bin gate according to an embodiment of the present disclosure.

Fig. 8 is a schematic view illustrating the door, the sliding member, and the first stopper according to an embodiment of the present disclosure.

Fig. 9 is a perspective view of the cigarette box according to the embodiment of the present application with the door open.

Fig. 10 is a partial schematic view of a cigarette box according to an embodiment of the present application with the compartment door closed.

FIG. 11 is a schematic view of a rotating base, a structural support, and a linkage in accordance with an embodiment of the present disclosure.

Figure 12 is an exploded view of the rotating base, structural support, and linkage shown in figure 11.

Description of the reference symbols:

cigarette box-1, cigarette-2, pushing mechanism-10, bin gate-11, chute-110, first guide part-111, rotating part-12, first end-121, second end-122, elastic part-13, cooperating rotating part-14, pushing part-15, control mechanism-20, sliding part-21, second guide part-211, pressing part-22, first stop part-23, connecting rod-24, rotating base-25, second stop part-26, shell-30 and structure support-31.

Detailed Description

The following is a preferred embodiment of the present application, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present application, and these improvements and modifications are also considered as the protection scope of the present application.

Reference herein to "an embodiment" or "an implementation" means that a particular feature, structure, or characteristic described in connection with the embodiment or implementation can be included in at least one embodiment of the present application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

It should be noted that the terms "first", "second", and the like in the description and claims of the present application and in the above-described drawings are used for distinguishing different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

In this specification, for convenience, words such as "middle", "upper", "lower", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicating orientations or positional relationships are used to explain positional relationships of constituent elements with reference to the drawings, only for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present disclosure. The positional relationship of the components is changed as appropriate according to the direction of the described components. Therefore, the words and phrases described in the specification are not limited thereto, and may be replaced as appropriate depending on the case.

In this specification, the terms "mounted," "connected," and "connected" are to be construed broadly unless otherwise specifically indicated and limited. For example, it may be a fixed connection, or a detachable connection, or an integral connection; can be a mechanical connection, or an electrical connection; either directly or indirectly through intervening components, or both may be interconnected. The meaning of the above terms in the present disclosure can be understood as appropriate to one of ordinary skill in the art.

Referring to fig. 1 to 5, fig. 1 is a schematic perspective view of a control mechanism according to an embodiment of the present disclosure. Fig. 2 is a schematic view of a matching structure of the pushing mechanism and the control mechanism when the pushing mechanism is in a storage state according to an embodiment of the present disclosure. Fig. 3 is a partially exploded view of fig. 2. Fig. 4 is a schematic view of a matching structure of the pushing mechanism and the control mechanism when the pushing mechanism is in a storage state according to another embodiment of the present disclosure. Fig. 5 is a schematic view of a matching structure of the pushing mechanism and the control mechanism when the pushing mechanism is in a release state according to an embodiment of the present disclosure.

The embodiment provides a control mechanism 20, which is applied to a cigarette case 1 and used for controlling a pushing mechanism 10 for pushing cigarettes 2, where the pushing mechanism 10 includes a door 11, a rotating member 12, and an elastic member 13, the rotating member 12 includes a first end 121 and a second end 122 that are arranged oppositely, the first end 121 is rotatably connected to the door 11, the elastic member 13 is installed at the first end 121, the elastic member 13 is used for enabling the second end 122 of the rotating member 12 to rotate along a direction away from the door 11, the control mechanism 20 includes a sliding member 21, the sliding member 21 is slidably connected to the door 11, a sliding direction of the sliding member 21 is parallel to an orthographic projection of a length direction of the rotating member 12 on the door 11, the sliding member 21 has a pressing portion 22, and in a sliding process of the sliding member 21, the pressing portion 22 can be pressed on a side of the rotating member 12 that deviates from the door 11.

During the sliding process of the sliding element 21 from the first end 121 in the direction approaching the second end 122, the pressing portion 22 rotates the second end 122 of the rotating element 12 in the direction approaching the door 11. In the process that the sliding member 21 slides from the position close to the second end 122 to the first end 121, the elastic member 13 rotates the second end 122 of the rotating member 12 in the direction away from the door 11, and when the second end 122 is at the preset position, the pressing portion 22 is separated from the rotating member 12, or the pressing portion 22 abuts against the rotating member 12.

The pushing mechanism 10 is applied to the cigarette case 1 and used for pushing the cigarettes 2, and the control mechanism 20 provided in the present embodiment is also applied to the cigarette case 1 and used for controlling the movement of the pushing mechanism 10, so as to realize the function of the pushing mechanism 10 for pushing the cigarettes 2. In other words, the control mechanism 20 is applied to the cigarette packet 1 and is used to house or release the pushing mechanism 10 when opening or closing the bin door 11 of the cigarette packet 1.

The pushing mechanism 10 includes a door 11, and the door 11 may also be referred to as a substrate. The first end 121 of the rotor 12 is rotatably connected to the door 11, in other words, the first end 121 is the rotating end of the rotor 12. When the first end 121 rotates, the second end 122 is driven to rotate. The second end 122 may be a pushing end for pushing the cigarette 2, or a connecting end for connecting components of the cigarette 2. For example, the second end 122 may be pivotally connected to the pusher 15. The elastic element 13 is disposed at the first end 121, and the elastic element 13 is used for rotating the second end 122 of the rotating element 12 in a direction away from the door 11. Therefore, regardless of the nature of the end of the second end 122, the cigarette 2 can be pushed when the second end 122 moves in a direction away from the door 11. In addition, the pushing mechanism 10 may further include a cooperating rotating member 14 in addition to the rotating member 12, and when the sliding member 21 controls the rotating member 12 to rotate, the cooperating rotating member 14 may rotate synchronously based on the rotating member 12.

The control mechanism 20 mainly includes a sliding member 21, and the sliding member 21 is slidably connected to the door 11, i.e. the sliding member 21 can slide relative to the door 11. And the sliding direction of the sliding member 21 (as shown by direction D in fig. 2) is parallel to the orthographic projection of the length direction of the rotating member 12 on the door 11. Since the sliding member 21 has the pressing portion 22 and the pressing portion 22 can be pressed on the side of the rotating member 12 away from the door 11, the rotating member 12 can be controlled to rotate by the pressing portion 22 during the sliding process of the sliding member 21. Alternatively, in the present embodiment, the material, structure, shape, and the like of the slider 21 are not limited. Alternatively, the present embodiment is not limited to how the slider 21 slides, and may be controlled by a motor or the rotating link 24, for example.

Specifically, when the second end 122 of the rotating member 12 is rotated away from the door 11 by the elastic member 13, that is, the second end 122 is located at a predetermined position away from the door 11, it can also be understood that the pushing mechanism 10 is in the releasing state. Subsequently, during the sliding process of the sliding member 21 from the first end 121 in the direction approaching the second end 122 (i.e., the process from fig. 5 to fig. 2), that is, when the sliding member 21 slides in the direction away from the rotating end, the pressing portion 22 also slides in the direction away from the first end 121, and gives a force to the rotating member 12 in the direction approaching the door 11 during the sliding process, so that the second end 122 of the rotating member 12 rotates in the direction approaching the door 11. When the sliding member 21 stops sliding, the rotating member 12 also stops rotating, and the second end 122 of the rotating member 12 is located at the storage position close to the door 11, which can also be understood as the pushing mechanism 10 is in the storage state.

Alternatively, when the slide member 21 stops sliding, the rotation member 12 may also stop rotating at the same time. Alternatively, the rotation member 12 may stop before the sliding member 21, in other words, the rotation member 12 stops rotating during the sliding of the sliding member 21. When the rotating member 12 stops rotating, the sliding member 21 will continue to slide for a certain distance before stopping sliding, and at this time, the rotating member 12 will still stop rotating.

Conversely, when the pushing mechanism 10 is in the storage state, in the process of sliding the sliding member 21 from the position close to the second end 122 to the first end 121 (i.e., in the process of fig. 2 to fig. 5), that is, when the sliding member 21 slides in the direction close to the rotating end, the pressing portion 22 also slides in the direction close to the first end 121, and releases the rotating member 12 during the sliding process, so that the second end 122 rotates in the direction away from the door 11 by using the elastic member 13 until the second end 122 rotates to the preset position, even if the pushing mechanism 10 is in the release state, at this time, the sliding member 21 stops sliding at the same time.

In summary, the control mechanism 20 provided in the present embodiment can control the movement of the pushing mechanism 10, so as to switch the pushing mechanism 10 between the storage state and the release state.

It is noted that the pressing portion 22 releases the rotation member 12 during the sliding motion. In one embodiment, during the sliding of the sliding member 21 from the position near the second end 122 to the first end 121, the pressing portion 22 gradually releases the rotating member 12, so that the second end 122 of the rotating member 12 gradually rotates in the direction away from the door 11. In another embodiment, the pressing portion 22 keeps the rotating member 12 stationary while the sliding member 21 slides from the position near the second end 122 to the first end 121. When the sliding member 21 slides a predetermined distance from the pressing portion 22, the pressing portion 22 releases the rotating member 12, so that the second end 122 of the rotating member 12 rotates in a direction away from the door 11. In other embodiments, in the process that the sliding member 21 slides from the position close to the second end 122 to the first end 121, the pressing portion 22 may first rotate the second end 122 of the rotating member 12 in the direction close to the door 11, and then rotate the second end 122 of the rotating member 12 in the direction away from the door 11. Or the holding portion 22 makes the second end 122 of the rotating member 12 move in one or more of a fixed manner, a rotation in a direction close to the door 11, and a rotation in a direction away from the door 11. When the motion types include a plurality of motion types, the plurality of motion types may be arranged and combined with each other and the number of the motion types is not limited, for example, the surface of the rotating member 12 is an arc surface, so that the rotating member 12 rotates in a direction close to the door 11 and in a direction away from the door 11, but finally the second end 122 rotates to a predetermined position. The above embodiments are all intended to fall within the scope of the present application. In other words, the present application only needs to position the second end 122 away from the door 11 to a predetermined position, and the present application is not limited to the specific motion process of the rotating member 12.

Alternatively, the pressing portion 22 keeps the rotating member 12 stationary while the sliding member 21 slides from a position near the second end 122 to the first end 121. When the pressing portion 22 slides on the rotating member 12 for a predetermined distance, the pressing portion 22 releases the rotating member 12, so that the second end 122 of the rotating member 12 rotates in a direction away from the door 11. In one embodiment, when the clamping portion 22 does not slide the predetermined distance, the first surface of the clamping portion 22 is in close abutment with the second surface of the rotating member 12 resulting in the rotating member 12 being stationary. When the pressing portion 22 slides a predetermined distance, the pressing portion 22 is separated from the rotation member 12, and thus the pressing portion 22 no longer presses the rotation member 12 to rotate the rotation member 12. In another embodiment, when the pressing portion 22 does not slide a preset distance, the first surface of the pressing portion 22 is in close abutment with the second surface of the rotation member 12, resulting in the rotation member 12 being stationary. When the pressing portion 22 slides a predetermined distance, the pressing portion 22 still abuts against the rotor 12, but the first surface and the second surface are separated to rotate the rotor 12, and the other surfaces of the pressing portion 22 abut against the other surfaces of the rotor 12. Specifically, which surface of the pressure holding portion 22 abuts against which surface of the rotor 12 is not limited to the embodiment. The shape of the other surfaces that are in contact with each other is not limited in this embodiment. Therefore, when the second end 122 is at the predetermined position, the pressing portion 22 is separated from the rotating member 12, or the pressing portion 22 abuts against the rotating member 12.

Referring to fig. 6, fig. 6 is a schematic view illustrating the door and the sliding member according to an embodiment of the present disclosure. In this embodiment, the door 11 is provided with a sliding slot 110, an extending direction of the sliding slot 110 is parallel to an orthographic projection of the length direction of the rotating member 12 on the door 11, and a part of the sliding member 21 is arranged in the sliding slot 110 and can slide in the sliding slot 110.

In the present embodiment, the sliding groove 110 may be provided in the door 11, the extending direction of the sliding groove 110 may be parallel to the orthographic projection of the longitudinal direction of the rotor 12 on the door 11, and a part of the slider 21 may be provided in the sliding groove 110. Thus, the sliding member 21 can slide in the sliding slot 110, and the sliding direction of the sliding member 21 is parallel to the orthographic projection of the length direction of the rotating member 12 on the door 11.

Further, a part of the slider 21 is disposed inside the slide groove 110, the remaining part is disposed outside the slide groove 110, and the pressing portion 22 is disposed on the side wall of the slider 21 outside the slide groove 110, that is, the pressing portion 22 is also disposed outside the slide groove 110.

Please refer to fig. 1 and fig. 7 together, and fig. 7 is a schematic perspective view of a bin gate according to an embodiment of the present disclosure. In this embodiment, a side wall of the sliding slot 110 is provided with a first guiding portion 111, a side wall of the sliding member 21 is provided with a second guiding portion 211, and the first guiding portion 111 and the second guiding portion 211 cooperate with each other to enable the sliding member 21 to slide along the extending direction of the sliding slot 110.

In this embodiment, the first guide portion 111 may be provided on a side wall of the slide groove 110, the second guide portion 211 may be provided on a side wall of the slider 21 positioned in the slide groove 110, and the sliding effect of the slider 21 may be improved by the cooperation of the first guide portion 111 and the second guide portion 211.

Optionally, the first guide portion 111 comprises one of a protrusion or a groove, and the second guide portion 211 comprises the other of a protrusion or a groove. In the present embodiment, only the first guide portion 111 is a protrusion, and the second guide portion 211 is a groove. Alternatively, the present embodiment does not specifically limit the number of the first guide portions 111 and the second guide portions 211. For example, the number of the first guide portions 111 may be one, two, or more than two, and the number of the second guide portions 211 may be one, two, or more than two. In the present embodiment, only two first guide portions 111 and two second guide portions 211 are schematically illustrated, and the two first guide portions 111 are provided on two side walls of the slide groove 110 facing each other. The two second guide portions 211 are provided on the two opposite side walls of the slider 21.

Referring to fig. 3 to fig. 4 again, in the present embodiment, the pushing mechanism 10 includes one or two sets of the rotating components 12, and when the pushing mechanism 10 includes only one set of the rotating components 12, the rotating components 12 are disposed on one side of the sliding slot 110; when the pushing mechanism 10 includes two sets of the rotating members 12, the two sets of the rotating members 12 are disposed on two opposite sides of the sliding slot 110, and the two sets of the rotating members 12 are symmetrically disposed.

It is possible for the pushing mechanism 10 to include one or two sets of rotors 12. When the pushing mechanism 10 only includes one set of rotating components 12, the rotating components 12 are disposed on one side of the sliding slot 110, and the pressing portions 22 are disposed on one side of the sliding component 21 corresponding to the set of rotating components 12, the sliding component 21 can utilize the pressing portions 22 on the side walls to control the rotating components 12. As shown in fig. 3-4, when the pushing mechanism 10 includes two sets of rotating members 12, the two sets of rotating members 12 are disposed on two opposite sides of the sliding slot 110, and the two sets of rotating members 12 are symmetrically disposed. At this time, two opposite side walls of the sliding member 21 are respectively provided with a pressing portion 22, that is, the pressing portions 22 are symmetrically disposed on two opposite sides of the sliding member 21 corresponding to the two sets of rotating members 12. Thus, the pressing portions 22 on both sides of the sliding member 21 can simultaneously control the rotating members 12 on both sides of the sliding slot 110 during sliding, so that the two sets of rotating members 12 can synchronously move.

Referring to fig. 8, fig. 8 is a schematic view illustrating the door, the sliding member, and the first stopper according to an embodiment of the present disclosure. In the present embodiment, the control mechanism 20 further includes a first stop portion 23, and the first stop portion 23 is installed at a position far from the first end 121 in the sliding slot 110, and is used for limiting a position of the sliding member 21 when sliding from the first end 121 in a direction close to the second end 122.

In addition to the above components, the control mechanism 20 may further include a first stop portion 23, wherein the first stop portion 23 is disposed in the sliding slot 110 and is far away from the first end 121, in other words, the first stop portion 23 is disposed near the second end 122. When the slider 21 slides from the first end 121 in a direction close to the second end 122, the slider 21 abuts against the first stopper 23 after the slider 21 slides for a certain distance, thereby defining a position where the slider 21 slides from the first end 121 in a direction close to the second end 122. When the slider 21 abuts against the first stopper 23, the second end 122 is in the storage position, and the pushing mechanism 10 is in the above-mentioned storage state.

Referring to fig. 9, fig. 9 is a schematic perspective view illustrating a compartment door of a cigarette case according to an embodiment of the present application when the compartment door is opened. In this embodiment, one end of the door 11 is rotatably connected to the casing 30 of the cigarette box 1 for opening or closing the cigarette box 1; the control mechanism 20 further comprises a connecting rod 24, one end of the connecting rod 24 is rotatably connected to the sliding member 21, the other end of the connecting rod 24 is rotatably connected to a structural support 31 of the cigarette case 1, and the structural support 31 is fixedly arranged in the casing 30;

when the door 11 is opened, the connecting rod 24 can rotate relative to the structure bracket 31 and the sliding member 21, and the sliding member 21 is driven to slide from the first end 121 in a direction close to the second end 122;

the closing of the door 11 can rotate the connecting rod 24 relative to the structural support 31 and the sliding member 21, and drive the sliding member 21 to slide from a position close to the second end 122 to the first end 121.

One end of the compartment door 11 of the pushing mechanism 10 is rotatably connected to the cigarette packet 1, thereby opening or closing the cigarette packet 1 by the compartment door 11. The control mechanism 20 may comprise, in addition to the above-mentioned components, a connecting rod 24, one end of said connecting rod 24 being rotatably connected to said slider 21 and the other end being rotatably connected to a structural support 31 of said cigarette pack 1. Wherein the structural support 31 is fixedly arranged within the housing 30. Thus, the door 11 is used to control the movement of the connecting rod 24, so that the connecting rod 24 is used to control the movement of the sliding part 21, and the movement of the rotating part 12 is further used to control the movement of the sliding part 21, thereby realizing the receiving and releasing of the rotating part 12.

Specifically, when the bin gate 11 is opened, the connecting rod 24 can rotate relative to the structural support 31 and the sliding member 21, and the sliding member 21 is driven to slide from the first end 121 in a direction close to the second end 122, so that the second end 122 of the rotating member 12 rotates in a direction close to the bin gate 11, and the pushing mechanism 10 is in a storage state, so that a user can fill the cigarettes 2 conveniently. For example, when the door 11 is opened from 0 ° to 40 °, the slider 21 always slides in a direction close to the second end 122, and the second end 122 of the rotating member 12 rotates in a direction close to the door 11. When the bin gate 11 is opened by 40 °, the pushing mechanism 10 is already in the storage state. When the bin gate 11 is continuously opened to a larger angle, the pushing mechanism 10 is in the storage state and is fixed. When the bin gate 11 is opened to 125 deg., it is convenient for the user to fill the cigarettes 2.

When the bin door 11 is closed, the connecting rod 24 and the sliding part 21 can rotate in opposite directions relative to the structural support 31, and the sliding part 21 is driven to slide from a position close to the second end 122 to the first end 121, so that the second end 122 of the rotating part 12 rotates in a direction away from the bin door 11, and the pushing mechanism 10 is in a release state, so as to push the cigarettes 2 conveniently. For example, when the door 11 moves from 125 ° to 40 °, the rotor 12 is kept stationary in the housed state. When the bin gate 11 continues to be closed from 40 °, the sliding member 21 starts to slide in a direction close to the first end 121, so that the second end 122 can rotate in a direction away from the bin gate 11, and the pushing mechanism 10 is in a release state, so that the cigarettes 2 are pushed.

Optionally, during opening of the door 11, the link 24 rotates simultaneously with respect to the structural bracket 31 and the slider 21. In which the link 24 rotates relative to the structural bracket 31 in only one direction, but the link 24 rotates relative to the slide 21 in two opposite directions. Conversely, during the closing of the door 11, the link 24 is also rotated in a single direction in the opposite direction with respect to the structural support 31. The link 24 is again rotated twice in opposite directions relative to the slide 21.

Referring to fig. 10, fig. 10 is a partial structural view of a cigarette box according to an embodiment of the present application when a compartment door is closed. In this embodiment, when the door 11 is closed, the connecting rod 24 can rotate relative to the structural support 31 and the sliding member 21, and the sliding member 21 is driven to slide from a position close to the second end 122 to the first end 121; when the link 24 is in line with the slider 21, the slider 21 stops sliding.

The above mentions that the link 24 rotates relative to the sliding member 21 during the closing of the door 11, so that the sliding member 21 slides in a direction close to the first end 121, thereby rotating the second end 122 of the rotating member 12 in a direction away from the door 11. When the connecting rod 24 is in line with the sliding part 21 (as shown by the positions of the sliding part 21 and the connecting rod 24 in fig. 10), the connecting rod 24 will not drive the sliding part 21 to slide any more, so that the sliding part 21 stops sliding. Therefore, the present embodiment can utilize the positional relationship between the link 24 and the slider 21 to limit the slider 21 from sliding to the position of the first end 121. Alternatively, when the door 11 is closed, the connecting rod 24 and the sliding member 21 are in line, and the sliding member 21 is in the above-mentioned preset position, so that the pushing mechanism 10 is in the releasing state.

Referring to fig. 11-12 together, fig. 11 is a schematic view illustrating a structure of a rotating base, a structural support, and a connecting rod according to an embodiment of the present disclosure. Figure 12 is an exploded view of the rotating base, structural support, and linkage shown in figure 11. In this embodiment, the control mechanism 20 further includes a rotating base 25, the rotating base 25 is fixedly disposed on the structural support 31, one end of the connecting rod 24 is rotatably connected to the rotating base 25, and a second stop portion 26 is disposed on a side of the rotating base 25 close to a rotational connection portion of the door 11 and the housing 30; when the door 11 is opened and the door 11 rotates to a predetermined angle relative to the housing 30, the link 24 abuts against the second stop portion 26.

The above describes that the first stopper portion 23 may be provided in the slide groove so as to restrict the sliding position of the slider 21 in the direction approaching the second end 122. This embodiment provides yet another specific embodiment. A pivot base 25 may be provided on the structural support 31 such that one end of the link 24 is pivotally connected to the pivot base 25, thereby allowing the link 24 to pivot relative to the pivot base 25. A second stop portion 26 may be provided on a side of the rotation base 25 near a connection point where the door 11 and the housing 30 are rotatably connected; when the door 11 is opened, the link 24 rotates relative to the rotating base 25, in other words, the link 24 rotates in a direction approaching the second stopper 26, and when the door 11 rotates to a predetermined angle relative to the housing 30, the link 24 abuts against the second stopper 26. At this time, the link 24 does not rotate any more, the sliding member 21 also stops sliding, and the second end 122 of the rotating member 12 is located at the above-mentioned storage position, so that the pushing mechanism 10 is in the storage state.

Alternatively, when the door 11 rotates to a predetermined angle relative to the housing 30, the link 24 abuts against the second stop portion 26, and at the same time, the slider 21 also abuts against the first stop portion 23.

Referring again to fig. 2-4, and 9-10, the present embodiment provides a cigarette box 1, including a housing 30, a pushing mechanism 10, and a control mechanism 20 according to the above embodiments of the present application; the pushing mechanism 10 includes a door 11, a rotating member 12, and an elastic member 13, the rotating member 12 includes a first end 121 and a second end 122 that are arranged oppositely, the first end 121 is rotatably connected to the door 11, the elastic member 13 is installed at the first end 121, and the elastic member 13 is used for enabling the second end 122 of the rotating member 12 to rotate in a direction away from the door 11.

When the door 11 is opened, the door 11 rotates relative to the housing 30, so that the sliding member 21 slides from the first end 121 in a direction close to the second end 122, and the second end 122 rotates in a direction close to the door 11, so that the pushing mechanism 10 is in a storage state.

When the door 11 is closed, the door 11 rotates reversely relative to the housing 30, so that the sliding member 21 can slide from a position close to the second end 122 to the first end 121, in the sliding process of the sliding member 21, the elastic member 13 can rotate the second end 122 of the rotating member 12 in a direction away from the door 11, and when the second end 122 is at a preset position, the pressing portion 22 is separated from the rotating member 12, or the pressing portion 22 abuts against the rotating member 12, so that the pushing mechanism 10 is in a release state.

In the cigarette case 1 of the present embodiment, by using the control mechanism 20 of the above embodiment of the present invention, when the door 11 is opened, the sliding member 21 can slide from the first end 121 in the direction close to the second end 122, so that the second end 122 rotates in the direction close to the door 11. In other words, the pushing mechanism 10 moves from the releasing state to the receiving state, and the second end 122 is received close to the bin gate 11, so that the user can load the cigarettes 2 into the cigarette box 1 conveniently. When the bin door 11 is closed, the sliding member 21 can slide from a position close to the second end 122 to the first end 121, so that the elastic member 13 can enable the second end 122 to rotate in a direction away from the bin door 11, and the pushing mechanism 10 is in a release state, thereby achieving the function of pushing the cigarettes 2.

The foregoing detailed description has provided embodiments of the present application and is presented to enable the principles and embodiments of the present application to be illustrated and described, where the above description is merely intended to facilitate the understanding of the present application's methods and their core concepts; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (11)

1. The utility model provides a control mechanism, its characterized in that is applied to cigarette case and is used for controlling the push mechanism of propelling movement cigarette, push mechanism includes the door, rotates the piece and elastic component, it includes relative first end and the second end that sets up to rotate the piece, first end is rotated and is connected the door, elastic component install in first end, elastic component is used for making the second end edge of rotating the piece is followed the direction of door rotates, control mechanism includes:

the sliding piece is connected with the bin door in a sliding mode, the sliding direction of the sliding piece is parallel to the orthographic projection of the length direction of the rotating piece on the bin door, the sliding piece is provided with a pressing and holding part, and in the sliding process of the sliding piece, the pressing and holding part can be arranged on one side, away from the bin door, of the rotating piece in a pressing mode;

wherein, in the process that the sliding piece slides from the first end along the direction close to the second end, the pressing part enables the second end of the rotating piece to rotate along the direction close to the bin gate;

when the sliding piece slides to the first end from a position close to the second end, the elastic piece enables the second end of the rotating piece to rotate along a direction far away from the bin gate, and when the second end is located at a preset position, the pressing part is separated from the rotating piece, or the pressing part is abutted to the rotating piece.

2. The control mechanism according to claim 1, wherein said door is provided with a slide groove extending in parallel to an orthographic projection of a longitudinal direction of said rotary member on said door, and a portion of said slide member is disposed in said slide groove and is slidable in said slide groove.

3. The control mechanism according to claim 2, wherein the pressing portion is protruded from a side wall of the sliding member, and the pressing portion is disposed outside the sliding groove.

4. The control mechanism according to claim 2, wherein a side wall of the slide groove is provided with a first guide portion, and a side wall of the slide member is provided with a second guide portion, the first guide portion and the second guide portion cooperating with each other to slide the slide member in the extending direction of the slide groove.

5. The control mechanism of claim 2, wherein said pushing mechanism includes one or two sets of said rotatable members, and when said pushing mechanism includes only one set of said rotatable members, said rotatable members are disposed on one side of said chute; work as push mechanism includes two sets ofly rotate the piece, two sets of it locates to rotate the piece the relative both sides of spout and two sets of it sets up to rotate the symmetry.

6. The control mechanism according to claim 5, wherein when a set of said rotating members is disposed on one side of said sliding slot, said pressing portion is disposed on one side of said sliding member corresponding to a set of said rotating members; when two sets of the rotating parts are arranged on the two opposite sides of the sliding groove, the pressing and holding parts correspond to the two sets of the rotating parts which are arranged on the two opposite sides of the sliding part and are symmetrically arranged.

7. The control mechanism of claim 2, further comprising a first stop portion disposed within the slot at a position distal from the first end for defining a position at which the slider slides from the first end in a direction toward the second end.

8. The control mechanism of claim 1, wherein one end of said door is pivotally connected to said cigarette pack housing for opening or closing said cigarette pack; the control mechanism further comprises a connecting rod, one end of the connecting rod is rotatably connected with the sliding part, the other end of the connecting rod is rotatably connected with a structural support of the cigarette case, and the structural support is fixedly arranged in the shell;

the bin gate is opened, so that the connecting rod can rotate relative to the structure support and the sliding piece, and the sliding piece is driven to slide from the first end in the direction close to the second end;

the bin gate is closed, so that the connecting rod can rotate relative to the structure support and the sliding piece, and the sliding piece is driven to slide to the first end from a position close to the second end.

9. The control mechanism of claim 8, wherein the slide stops sliding when the link is in line with the slide.

10. The control mechanism as claimed in claim 8, further comprising a rotating base, wherein the rotating base is fixed on the structural support, one end of the connecting rod is rotatably connected with the rotating base, and a second stop portion is arranged on one side of the rotating base, which is close to the rotating connection between the bin gate and the housing; when the bin gate is opened and the bin gate rotates to a preset angle relative to the shell, the connecting rod abuts against the second stopping part.

11. A cigarette pack comprising a housing, a pushing mechanism, and a control mechanism according to any one of claims 1 to 10; the pushing mechanism comprises a bin door, a rotating part and an elastic part, the rotating part comprises a first end and a second end which are oppositely arranged, the first end is rotatably connected with the bin door, the elastic part is arranged at the first end, and the elastic part is used for enabling the second end of the rotating part to rotate along the direction far away from the bin door;

when the bin door is opened, the bin door rotates relative to the shell, so that the sliding piece can slide from the first end in the direction close to the second end, and the second end rotates in the direction close to the bin door;

when the bin gate is closed, the bin gate rotates reversely relative to the shell, so that the sliding piece can slide to the first end from a position close to the second end, in the sliding process of the sliding piece, the elastic piece can enable the second end of the rotating piece to rotate in the direction away from the bin gate, and when the second end is located at the preset position, the pressing part is separated from the rotating piece, or the pressing part is abutted to the rotating piece.

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