阅读说明：本技术 一种开瓶器的开瓶驱动结构 (Bottle opener driving structure of bottle opener ) 是由 王国强 于 2021-02-02 设计创作，主要内容包括：本发明公开了一种开瓶器的开瓶驱动结构,包括位于酒瓶固定组件上方的旋转组件以及带动旋转组件升降的升降组件,旋转组件和升降组件采用两者被集成在一起的集成结构,该集成结构包括升降座,升降座包括水平设置的支撑板和竖直设置的套筒,支撑板上侧分别设有钻孔驱动单元和升降驱动单元,钻孔驱动单元安装于支撑板并随支撑板一起升降,升降驱动单元与壳体连接,在支撑板上沿左右方向依序设置第一升降轴、钻孔轴、第二升降轴,钻孔驱动单元与钻孔轴传动连接,升降驱动单元经第二传动结构驱动第一升降轴、第二升降轴同步转动,钻孔驱动单元和升降驱动单元分别位于钻孔轴的两侧；套筒用于随升降动作套接酒瓶头部,提高了集成度。(The invention discloses a bottle opening driving structure of a bottle opener, which comprises a rotating component positioned above a wine bottle fixing component and a lifting component driving the rotating component to lift, wherein the rotating component and the lifting component adopt an integrated structure that the rotating component and the lifting component are integrated together, the integrated structure comprises a lifting seat, the lifting seat comprises a supporting plate and a sleeve, the supporting plate is horizontally arranged, the sleeve is vertically arranged, the upper side of the supporting plate is respectively provided with a drilling driving unit and a lifting driving unit, the drilling driving unit is arranged on the supporting plate and lifts along with the supporting plate, the lifting driving unit is connected with a shell, the drilling device comprises a support plate, a drilling shaft, a drilling driving unit and a drilling driving unit, wherein the first lifting shaft, the drilling shaft and the second lifting shaft are sequentially arranged on the support plate along the left-right direction; the sleeve is used for sleeving the head of the wine bottle along with the lifting action, so that the integration level is improved.)

1. A bottle opening driving structure of a bottle opener, which comprises a rotating component positioned above a wine bottle fixing component and a lifting component driving the rotating component to lift, it is characterized in that the rotating component and the lifting component adopt an integrated structure that the rotating component and the lifting component are integrated together, the integrated structure comprises a lifting seat, the lifting seat comprises a supporting plate and a sleeve, the supporting plate is horizontally arranged, the sleeve is vertically arranged, the upper side of the supporting plate is respectively provided with a drilling driving unit and a lifting driving unit, the drilling driving unit is arranged on the supporting plate and lifts along with the supporting plate, the lifting driving unit is connected with a shell, the drilling device comprises a support plate, a drilling shaft, a drilling driving unit and a drilling driving unit, wherein the first lifting shaft, the drilling shaft and the second lifting shaft are sequentially arranged on the support plate along the left-right direction; the sleeve is used for sleeving the head of the wine bottle along with the lifting action.

2. The bottle opener driving structure of a bottle opener according to claim 1, wherein the drilling axis is located at a central position of the front portion of the support plate, and the first lifting axis and the second lifting axis are arranged in bilateral symmetry with respect to the drilling axis.

3. The bottle opener driving structure of the bottle opener according to claim 1, wherein the drill shaft is connected to a first worm wheel, the output shaft of the drill driving unit is connected to a first worm, the first worm is engaged with the first worm wheel, the second lifting shaft is connected to a second worm wheel, the output shaft of the lifting driving unit is connected to a second worm, the second worm is engaged with the second worm wheel, a first pulley is disposed on an upper side of the second lifting shaft on the second worm wheel, the first lifting shaft is provided with a second pulley, the first pulley and the second pulley are connected through a synchronous belt, and the synchronous belt is disposed across the first worm wheel.

4. The bottle opener driving structure of the bottle opener according to claim 1, wherein a pressing sleeve is movably sleeved in the sleeve, a guide rib plate is arranged between the sleeve and the pressing sleeve, the guide rib plate guides the pressing sleeve in the vertical direction and also circumferentially limits the pressing sleeve, a drill bit of the drilling shaft is movably sleeved with the pressing sleeve, an elastic member is arranged on the upper side of the pressing sleeve, and the elastic member is used for elastically supporting the pressing sleeve, and simultaneously provides a pressing sleeve lifting displacement function during pressing and pushes the pressing sleeve to reset during loosening.

5. The bottle opener driving structure of claim 4, further comprising an elastic pad disposed on the bottle fixing assembly, wherein the elastic pad and the pressing sleeve together form an elastic fixing for the wine bottle in an up-and-down direction.

6. The structure of the opener according to claim 7, wherein the elastic pad has a plurality of annular protrusions on an upper surface thereof, and a tapered protrusion in a middle portion thereof for engaging with a recess in a bottom of the wine bottle.

7. The bottle opener driving structure of the bottle opener according to claim 4, wherein the inner hole of the pressing sleeve has a diameter larger than that of the wine stopper, and a blocking rib is provided on the inner circumference of the pressing sleeve and is used for blocking the wine stopper entering the inner hole of the pressing sleeve from rotating circumferentially.

Technical Field

The invention relates to the technical field of bottle openers, in particular to a bottle opener driving structure of a bottle opener.

Background

With the increasing improvement of the living standard of people, bottle openers are developed, and the bottle opener is mainly suitable for opening wine bottles such as red wine bottles and the like, namely wine bottles with long wine stoppers.

The technical scheme of current bottle opener, the process of imitating bottle opening is main, a principle design is disclosed, mainly include the fixed subassembly of beverage bottle promptly, be located the rotating assembly of the fixed subassembly top of beverage bottle and drive the lifting unit that the rotating assembly goes up and down, the theory of operation is, at first with beverage bottle fixed mounting at the fixed subassembly of beverage bottle, then lifting unit drives the drill bit and descends, then rotating assembly drives the drill bit and drills into the wine stopper, realize being connected of drill bit and wine stopper, then rotating assembly stall, lifting unit returns backward after that, at the in-process that returns, the wine stopper is pulled out smoothly, thereby accomplish the bottle opening, although the principle is disclosed very clear, but will make actual product, still there are a lot of problems, these problems all need to be solved one by one.

The application carries out certain research to the drive structure of opening bottle of bottle opener, provides the drive structure of opening bottle of a bottle-opener.

Disclosure of Invention

To the above-mentioned problem that exists among the prior art, the drive structure of uncork of a bottle-opener is proposed now, improves the integrated level.

The specific technical scheme is as follows:

a bottle opener opening driving structure comprises a rotating component positioned above a wine bottle fixing component and a lifting component driving the rotating component to lift, wherein the rotating component and the lifting component adopt an integrated structure that the rotating component and the lifting component are integrated together, the integrated structure comprises a lifting seat, the lifting seat comprises a supporting plate and a sleeve, the supporting plate is horizontally arranged, the sleeve is vertically arranged, the upper side of the supporting plate is respectively provided with a drilling driving unit and a lifting driving unit, the drilling driving unit is arranged on the supporting plate and lifts along with the supporting plate, the lifting driving unit is connected with a shell, the drilling device comprises a support plate, a drilling shaft, a drilling driving unit and a drilling driving unit, wherein the first lifting shaft, the drilling shaft and the second lifting shaft are sequentially arranged on the support plate along the left-right direction; the sleeve is used for sleeving the head of the wine bottle along with the lifting action.

Preferably, the drilling shaft is located the anterior central point of backup pad, and first lift axle, second lift axle are around drilling shaft bilateral symmetry setting.

Preferably, the drilling shaft is connected with a first worm wheel, the output shaft of the drilling driving unit is connected with a first worm, the first worm is meshed with the first worm wheel, the second lifting shaft is connected with a second worm wheel, the output shaft of the lifting driving unit is connected with a second worm, the second worm is meshed with the second worm wheel, a first belt wheel is arranged on the upper side, located on the second worm wheel, of the second lifting shaft, the first lifting shaft is provided with a second belt wheel, the first belt wheel is connected with the second belt wheel through a synchronous belt, and the synchronous belt crosses the first worm wheel.

The preferred, the sleeve internalization has cup jointed and has compressed tightly the cover, and the sleeve with compress tightly and be equipped with the direction gusset between the cover, the direction gusset still constitutes circumference spacing to compressing tightly the cover when going on direction about compressing tightly the cover, and the drill bit of drilling axle cup joints the setting with compressing tightly the cover activity, and the upside that compresses tightly the cover sets up the elastic component, and this elastic component is used for elastic support to compress tightly the cover, provides the cover that compresses tightly when compressing tightly simultaneously and rises the displacement function and promote when loosening and compress tightly the cover and reset.

Preferably, the wine bottle fixing device further comprises an elastic pad arranged on the wine bottle fixing component, and the elastic pad and the pressing sleeve form elastic fixation in the vertical direction on the wine bottle together.

Preferably, the upper surface of the elastic pad is provided with a plurality of annular bulges, and the middle part of the elastic pad is also provided with a conical bulge matched with the concave bottom of the wine bottle.

Preferably, the diameter of the inner hole of the pressing sleeve is larger than that of the wine plug, a blocking rib is arranged on the inner periphery of the pressing sleeve and used for blocking the wine plug from circumferentially rotating in the inner hole of the pressing sleeve.

The beneficial effects of the above technical scheme are that:

after the design, the rotating assembly and the lifting assembly adopt an integrated structure that the rotating assembly and the lifting assembly are integrated together, so that the integration level is improved.

Drawings

Fig. 1 is a schematic view of a fully automatic bottle opener.

Fig. 2 is an illustration of an internal structure of a fully automatic bottle opener.

Fig. 3 is a second diagram showing an internal structure of a fully automatic bottle opener.

Fig. 4 is one of the schematic views of an integrated stent.

Fig. 5 is a second schematic view of the integrated bracket.

Fig. 6 is a schematic diagram showing an integrated structure with emphasis.

Fig. 7 is a second schematic diagram showing the integrated structure with emphasis.

Fig. 8 is a schematic view showing the relationship among the sleeve, the pressing sleeve and the drill bit.

Fig. 9 is a schematic view of the lifting base.

FIG. 10 is a schematic view of a T-drive plate.

Fig. 11 is a schematic view of a compression sleeve.

Description of reference numerals: 1-shell, 2-control switch, 3-indicator light, 4-wine bottle, 5-containing groove, 6-first clamping part, 7-second clamping part, 8-clamping pad, 9-first bearing, 10-rack, 11-T-shaped transmission plate, 12-guide seat, 13-first arc connecting rod, 14-second arc connecting rod, 15-transverse part, 16-first clamping jaw, 17-second clamping jaw, 18-output gear, 19-upper plate, 20-lower plate, 21-inner side plate, 22-arc part, 23-reinforcing plate, 24-guide groove, 25-vertical plate, 26-installation concave cavity, 27-installation supporting leg, 28-clamping jaw support, 29-supporting plate, 30-sleeve, 31-drilling driving unit, 32-lifting driving unit, 33-first lifting shaft, 34-drilling shaft, 35-second lifting shaft, 36-first worm gear, 37-first worm, 38-second worm gear, 39-second worm, 40-first belt wheel, 41-second belt wheel, 42-synchronous belt, 43-screw rod nut, 44-pressing sleeve, 45-guide rib plate, 46-elastic piece, 47-supporting seat, 48-elastic pad, 49-circuit board, 50-driving unit, 51-drill bit and 52-blocking rib.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

In order to facilitate understanding of the bottle opener driving structure of the present invention and to more directly understand the outstanding advantages of the bottle opener driving structure of the present invention, a fully automatic bottle opener will be used to describe the bottle opener driving structure of the present invention.

In this example, a full-automatic bottle opener is disclosed, including beverage bottle 4 fixed subassembly, be located the rotating component of beverage bottle 4 fixed subassembly top and drive the lifting unit that the rotating component goes up and down, beverage bottle 4 fixed subassembly includes the base, the base is equipped with front end open-ended storage tank 5, the both sides of storage tank 5 respectively are equipped with a clamping part, mark as first clamping part 6 and second clamping part 7 respectively, first clamping part 6 and second clamping part 7 form pincerlike clamping structure, first clamping part 6 and second clamping part 7 respectively with first transmission structure connection, first transmission structure is connected with drive structure, drive structure is used for driving pincerlike clamping structure through first transmission structure and opens and shuts. The drive structure includes a drive unit 50, an output gear 18 is connected to an output shaft of the drive unit 50, and the drive unit 50 employs a planetary gear reduction motor for compactness. As shown in fig. 1, the general shape and the use state reference of the full-automatic bottle opener are embodied, the full-automatic bottle opener is roughly in the shape of a front concave opening, the pincer-shaped clamping structure is located on the base, the rotating assembly and the lifting assembly are located on the top, the back is arranged between the base and the top, the back plays a role in connecting the base and the top, and meanwhile, the back also provides a certain installation space. For the convenience of operation, the front side of the top is provided with a control switch 2 and an indicator lamp 3, the indicator lamp 3 is positioned on the upper side of the control switch 2, and the control switch 2 and the indicator lamp 3 are mounted on the circuit board 49.

First clamping part 6 and second clamping part 7 all include centre gripping pad 8, clamping jaw, and the clamping jaw is the level setting, and the axis of rotation of clamping jaw is located the rear side of storage tank 5, and the upper and lower both ends of axis of rotation all are connected with first bearing 9, and the both sides of storage tank 5 all are equipped with the opening that supplies the clamping jaw to stretch out, and the business turn over part cooperation of clamping jaw sets up in the opening, and the business turn over part is connected with centre gripping pad 8. Corresponding to the first clamping portion 6 is a first clamping jaw 16 and corresponding to the second clamping portion 7 is a second clamping jaw 17. The foregoing structure can be referred to fig. 1, 2, 3, 6, 7, and in addition, the clamping pad 8 of the first jaw 16 is not installed for the schematic structure.

The first and second holding portions 6 and 7 are arranged substantially in bilateral symmetry, and the first transmission structure is specially designed in order to better drive the first and second holding portions 6 and 7 and to take into account the limitation of the installation space, specifically: the first transmission structure comprises a rack 10, a T-shaped transmission plate 11, a guide seat 12 and two arc-shaped connecting rods, wherein the two arc-shaped connecting rods are respectively marked as a first arc-shaped connecting rod 13 and a second arc-shaped connecting rod 14, the first arc-shaped connecting rod 13 and the second arc-shaped connecting rod 14 are arranged in a bilateral symmetry mode relative to the T-shaped transmission plate 11, one ends of the first arc-shaped connecting rod 13 and the second arc-shaped connecting rod 14 are respectively hinged to a transverse portion 15 of the T-shaped transmission plate 11, the other end of the first arc-shaped connecting rod 13 is hinged to a first clamping jaw 16, the other end of the second arc-shaped connecting rod 14 is hinged to a second clamping jaw 17, the T-shaped transmission plate 11 is connected with the guide seat 12 in a guiding mode, the T-shaped transmission plate 11 is provided with. The first transmission structure has the advantages of compact structure, reliable operation and strong durability.

In order to further facilitate the compact structure, the first and second arc links 13 and 14 are each a plate link and are horizontally disposed.

In this example, each of the first jaw 16 and the second jaw 17 includes an upper plate 19, a lower plate 20, and an inner plate 21 located on one side of the accommodating groove 5 and connecting the upper plate 19 and the lower plate 20 together, the inner plate 21 includes an arc-shaped portion 22, the arc-shaped portion 22 is used for clamping the wine bottle 4, the outer sides of the first jaw 16 and the second jaw 17 are both provided with openings, and a reinforcing plate 23 is provided between the upper plate 19 and the lower plate 20; the plate link is positioned between the upper plate 19 and the lower plate 20, and a guide groove 24 for insertion-fitting of the plate link is provided between the upper plate 19 and the lower plate 20. The structure is favorable for the light-weight clamping jaw, the structural strength is good, the compact design of the left side and the right side is favorable, and the guide groove 24 for the plate-shaped connecting rod to be inserted and matched is arranged between the upper plate 19 and the lower plate 20, so that the compact design is more favorable, and in addition, the stable and reliable motion is more favorable.

As shown in fig. 4, in order to further simplify the assembly and improve the yield of mass production, the rack further comprises an integrated support, the support comprises a vertical plate 25, a guide seat 12 perpendicular to the vertical plate 25 is arranged on the rear side of the vertical plate 25, an installation cavity 26 of a driving structure is also arranged on the rear side of the vertical plate 25, an output gear 18 of the driving structure is located on the upper side of the rack 10, an installation support leg 27 is arranged on the front side of the vertical plate 25, and the installation support leg 27 is perpendicular to the vertical plate 25. In the embodiment, the integrated bracket is integrally cast by metal, such as aluminum alloy precision casting, so that the integrated bracket not only has stable and reliable production quality and high precision, but also has high strength, and is favorable for ensuring the durability and stability of long-term use.

Adopt this integrative support except obtaining above-mentioned advantage, have other outstanding characteristics in addition, particularly, installation stabilizer blade 27 is used for the installation to support clamping jaw support 28, clamping jaw support 28 is by installation stabilizer blade 27 bearing promptly, just like two inserts of fork truck support the goods, and because guide holder 12 and drive unit 50 are located the rear side of riser 25 again, thereby make fore-and-aft counter weight can certain balance, in addition, when drive unit 50 drive clamping jaw moves, because the moving part is supported by integrative support, so be favorable to realizing that the motion process is comparatively steady, thereby be favorable to improving performance, stability and use durability, the vibration influence to other parts of periphery is also little. The structure of the integrated bracket can refer to fig. 4 and 5.

The fully automatic bottle opener of this example is also characterized by a rotation assembly and a lift assembly, which together are referred to as a bottle opening drive mechanism. In this example, the rotating assembly and the lifting assembly are integrated together, as shown in fig. 6, 7 and 8, the integrated structure includes a lifting seat, the lifting seat includes a horizontally disposed support plate 29 and a vertically disposed sleeve 30, a drilling driving unit 31 and a lifting driving unit 32 are respectively disposed on the upper side of the support plate 29, the drilling driving unit 31 is mounted on the support plate 29 and lifted together with the support plate 29, the lifting driving unit 32 is connected with the housing 1, a first lifting shaft 33, a drilling shaft 34 and a second lifting shaft 35 are sequentially disposed on the support plate 29 along the left-right direction, the drilling driving unit 31 is in transmission connection with the drilling shaft 34, the lifting driving unit 32 drives the first lifting shaft 33 and the second lifting shaft 35 to synchronously rotate via a second transmission structure, and the drilling driving unit 31 and the lifting driving unit 32 are respectively located on two sides of the drilling shaft 34; the sleeve 30 is used for sleeving the head of the wine bottle 4 along with the lifting action. The structure has the advantages of compact structure, high integration level and stable and reliable motion.

In this example as well, in order to facilitate a compact design, the drill drive unit 31 and the elevation drive unit 32 each employ a planetary gear reduction motor.

In order to improve the stability and precision of the movement, the first lifting shaft 33 and the second lifting shaft 35 adopt a screw rod structure, and correspondingly, the support plate 29 is provided with a screw rod nut 43.

In order to support the drilling shaft 34 in a rotatable manner, thereby facilitating stability and reliability of movement of the drilling shaft 34, specifically, a support seat 47 is provided between the drilling shaft 34 and the sleeve 30, the support seat 47 is sleeved and connected in the sleeve 30, the support seat 47 is provided with a bearing, and the drilling shaft 34 is connected with the bearing.

For more stable and reliable movement, the arrangement of the positions is designed, and in addition, the second transmission structure is optimized, so that the compact design is more favorably realized, specifically, the drilling shaft 34 is positioned at the central position in front of the supporting plate 29, the first lifting shaft 33, the second lifting shaft 35 is arranged symmetrically left and right about the drilling shaft 34, the drilling shaft 34 is connected with a first worm wheel 36, an output shaft of the drilling driving unit 31 is connected with a first worm 37, the first worm 37 is meshed with the first worm wheel 36, the second lifting shaft 35 is connected with a second worm wheel 38, an output shaft of the lifting driving unit 32 is connected with a second worm 39, the second worm 39 is meshed with the second worm wheel 38, a first belt wheel 40 is arranged on the upper side of the second worm wheel 38 of the second lifting shaft 35, a second belt wheel 41 is arranged on the first lifting shaft 33, the first belt wheel 40 is connected with the second belt wheel 41 through a synchronous belt 42, and the synchronous belt 42 is arranged across the first worm wheel 36.

The drive structure of uncork, through ingenious design, can be better with the drill bit 51 bore into the wine stopper, particularly, the activity cover has been cup jointed and has been compressed tightly cover 44 in the sleeve 30, be equipped with direction gusset 45 between sleeve 30 and the cover 44 that compresses tightly, it is spacing still to constitute circumference to compressing tightly cover 44 when direction gusset 45 carries out the direction of upper and lower direction to compressing tightly cover 44, drill bit 51 and the cover 44 activity of compressing tightly of drilling axle 34 are cup jointed and are set up, the upside that compresses tightly cover 44 sets up elastic component 46, this elastic component 46 adopts the spring, the lower extreme and the cover 44 that compresses tightly of spring are connected, the upper end and the supporting seat 47 of spring are connected, this spring is used for elastic support to compress tightly cover 44, it rises the displacement function and promotes when loosening to compress tightly cover 44 and reset to provide simultaneously compressing. The working principle of the design is that when the wine plug needs to be taken, the drill bit 51 needs to be drilled into the wine plug firstly, and for better directional drilling into the wine plug, the structure is specially designed in the embodiment to enable the transverse relative movement between the drill bit 51 and the head of the wine bottle 4 to be as small as possible, namely the drill bit is sleeved into the head of the wine bottle 4 through the descending of the sleeve 30, and meanwhile, the pressing sleeve 44 presses the end face of the head of the wine bottle 4, so that the transverse relative movement between the drill bit 51 and the head of the wine bottle 4 can be effectively enabled to be as small as possible, and the better directional drilling into the wine plug is facilitated.

After the drill bit 51 drills into the wine plug to a certain depth, the drill bit 51 stops rotating, then the first lifting shaft 33 and the second lifting shaft 35 rotate reversely to drive the drill bit 51 to move upwards, in this example, through a smart design, the wine plug can be automatically discharged, specifically, the inner diameter of the annular end surface of the pressing sleeve 44 is larger than the outer diameter of the wine plug, namely, the diameter of the inner hole of the pressing sleeve 44 is larger than that of the wine plug, but the inner circumference of the pressing sleeve 44 is provided with a blocking rib 52, the blocking rib 52 is used for blocking the wine plug entering the inner hole of the pressing sleeve 44 from rotating circumferentially, so that when the drill bit 51 ascends, part or all of the wine plug enters the inner hole of the pressing sleeve 44 relative to the pressing sleeve 44 under the action of the elastic piece 46 by the pressing sleeve 44, when the drill bit 51 rotates reversely, the wine plug is separated from the drill bit 51 by the circumferential limiting action of the blocking rib 52, and the pressing sleeve 44 is, the pressing sleeve 44 pushes the wine plug downwards away from the drill bit 51, and after the wine plug is completely separated from the drill bit 51, the pressing sleeve 44 continues to push the wine plug downwards, so that the wine plug can fall out, and the purpose of automatically discharging the wine plug is achieved. The aforesaid design is very ingenious, and a pressing sleeve 44 not only realizes the pressing and fixing of the head of the wine bottle 4, but also plays a central role in realizing the automatic wine stopper discharging process.

In order to further stabilize the wine bottle 4, the bottom of the accommodating groove 5 is provided with the elastic pad 48, the elastic pad 48 and the pressing sleeve 44 form an up-and-down elastic fixation for the wine bottle 4, and after the design, on one hand, the wine bottle 4 can be better fixed, on the other hand, the requirement for the clamping force of the pincerlike clamping structure is favorably reduced, and the clamping force of the pincerlike clamping structure is not larger and better, so after the design, a technical means is provided for controlling the clamping force of the pincerlike clamping structure.

The upper surface of the elastic pad 48 is provided with a plurality of annular bulges, and the middle part of the elastic pad is also provided with a conical bulge matched with the bottom of the wine bottle 4 in a concave way.

The control of each planetary gear reduction motor can be realized by the prior art and is not described in detail herein.

The foregoing is illustrative of the present invention and is not to be construed as limiting the claims. The present invention is not limited to the above embodiments, and the specific structure thereof is allowed to vary, and various changes made within the scope of the independent claims of the present invention are within the scope of the present invention.