CN205009726U - Get membrane mechanism - Google Patents
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- CN205009726U CN205009726U CN201520706618.XU CN201520706618U CN205009726U CN 205009726 U CN205009726 U CN 205009726U CN 201520706618 U CN201520706618 U CN 201520706618U CN 205009726 U CN205009726 U CN 205009726U
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Abstract
The utility model relates to a membrane separator field especially relates to a get membrane mechanism for the separation film, including a base plate, set up a plurality of vacuum adsorption devices on the base plate for adsorb the film, this get membrane mechanism includes further that one makes the vacuum adsorption device follow the slant cylinder of slant removal and the horizontal cylinder that a messenger vacuum adsorption device removed along the horizontal direction. The utility model provides a get membrane mechanism can thoroughly separate the film, improves and gets the membrane efficiency.
Description
[technical field]
The utility model relates to thin film separation field, particularly relates to a kind of Qu Mo mechanism.
[background technology]
Commercialized society, enterprise is the product of publicity oneself, all can strive making the external packing of oneself product more aobvious top grade more attractive in appearance, usually need pack the transparent film of last layer again at the outer surface of square box.As the external packing of electronic product, food, cosmetics, medical supplies etc. all needed pack to play protection against the tide, anti-scratch or the effect such as attractive in appearance with thin film.
Film is generally in heaps one by one stacking on a production line, all generally vertical down by multiple suction nozzle when getting film, then first, surface film is held, then film normal up picks up by suction nozzle, by described first, surface film and thin film separation below, but this method is often difficult to first film and film below thoroughly to separate, and sometimes can pick up multiple films, cause getting membrane efficiency low simultaneously.
[utility model content]
For overcoming the halfway technical problem of thin film separation existing for current thin film separation field, the utility model provides a kind of Qu Mo mechanism that film thoroughly can be separated.
The technical scheme of the utility model technical solution problem is to provide a kind of Qu Mo mechanism, for separating of film, comprise a substrate, substrate is arranged multiple vacuum absorption device, for adsorbent thin film, this Qu Mo mechanism comprises one further makes the oblique cylinder and of vacuum absorption device diagonally movement make the horizontal air cylinder of vacuum absorption device movement in the horizontal direction.
Preferably, described film side is provided with and protrudes the edge of a wing, and the vacuum absorption device that oblique cylinder is connected with horizontal air cylinder is corresponding with the protrusion edge of a wing.
Preferably, described substrate is arranged a submounts, submounts and substrate relatively independent.
Preferably, on described substrate connect one substrate is tilted put forward lever.
Preferably, described substrate side surfaces arranges vertical plate, and vertical plate connects the lowering or hoisting gear that makes its vertical lift.
Preferably, putting forward lever described in relative to substrate angle of inclination is 40 degree to 70 degree.
Preferably, the vertical adsorbent thin film of described vacuum absorption device.
Preferably, described vertical plate is arranged a connection handle, connection handle with put forward lever and be connected.
Compared with prior art, the Qu Mo mechanism that the utility model provides, first make submounts toward tiltedly upper angle and horizontal direction are shunk by the oblique cylinder in Qu Mo mechanism and horizontal air cylinder, drive the vacuum absorption device motion on submounts, thus the protrusion edge of a wing of film is also turned up by pull-up obliquely with toward horizontal direction, film forms the shape of a Circular Slip, now, at protrusion, first, edge of a wing place forms an opening between film and underlying film, can be separated completely.Then mention oblique for whole substrate by putting forward lever, first film is mentioned obliquely, now, first film and underlying film only have fraction not separated.Finally by lowering or hoisting gear, vertical plate is vertically up moved, drive whole substrate and vacuum absorption device vertically up to move, whole first film normal is mentioned, make first film thoroughly be separated with film below like this.This Qu Mo mechanism can be widely used in carrying out blister-pack, and needs the production line getting film supply continuously.
[accompanying drawing explanation]
Fig. 1 is the perspective view of the utility model Qu Mo mechanism.
Fig. 2 is the side structure schematic diagram of the utility model Qu Mo mechanism.
Fig. 3 is that the utility model Qu Mo mechanism is by the first view of thin film separation.
Fig. 4 is that the utility model Qu Mo mechanism is by the second view of thin film separation.
Fig. 5 is that the utility model Qu Mo mechanism is by the third state schematic diagram of thin film separation.
Fig. 6 is that the utility model Qu Mo mechanism is by the 4th view of thin film separation.
[detailed description of the invention]
In order to make the purpose of this utility model, technical scheme and advantage are clearly understood, below in conjunction with accompanying drawing and embodiment, are further elaborated to the utility model.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
Refer to Fig. 1 and Fig. 2, for the utility model Qu Mo mechanism 13, what multiple films 113 were neat overlays immediately below Qu Mo mechanism 13, and Qu Mo mechanism 13 comprises substrate 232, puies forward lever 233, connection handle 234, vertical plate 235, oblique cylinder 237 and horizontal air cylinder 238.Film 113 is that both sides are with the regular film 113 protruding the edge of a wing 1133.Substrate 232 is positioned at directly over film 113, and parallel with film 113, and on substrate 232, corresponding position, the edge of a wing 1133 of protruding arranges a submounts 239, and submounts 239 is relatively independent of substrate, and namely submounts 239 can corresponding substrate 232 activity.The shape of substrate 232 and the shape of film 113 basically identical, and correspondingly in the surrounding corner of substrate 232 be provided with multiple vacuum absorption device 231, each vacuum absorption device 231 crosses in substrate 232, namely each vacuum absorption device 231 is that one end part is in the top of substrate 232, the other end is positioned at the below of substrate 232, the effect of vacuum absorption device 231 is can adsorbent thin film 113, and along with substrate 232 synchronizing moving.This Qu Mo mechanism 13 is provided with vertical plate 235 in the side of substrate 232, vertical plate 235 and substrate 232 degree in a vertical angle, one end of vertical plate 235 is connected with substrate 232, and one end is connected to connection handle 234 in addition, vertical plate 235 side is provided with lowering or hoisting gear 236, can make its vertical lift.Vertical plate 235 is rectangular-shaped, and connection handle 234 is also rectangular-shaped, but the length of connection handle 234 and the wide length that is all less than vertical plate 235 and wide.Also be provided with above the middle of substrate 232 and put forward lever 233, put forward lever 233 to have angle with substrate 232, the scope of angle is 40 degree to 70 degree, put forward lever 233 to be connected by the mode of buckle or rotating shaft with substrate 232, the connection handle 234 of the other end and top of putting forward lever 233 is connected, like this, substrate 232, vertical plate 235, connection handle 234 and put forward the structure that lever 233 defines a closed loop.Directly over the outstanding flange 1133 corresponding to film 113, the position of substrate 232 is provided with oblique cylinder 237 and horizontal air cylinder 238, the angle of inclination of oblique cylinder 237 is also 40 degree to 70 degree, the effect of its oblique cylinder 237 is adsorbed toward oblique upper by vacuum absorption device 231, thus the protrusion edge of a wing 1133 of film 113 is also up carried toward the direction at oblique upper angle, the effect of horizontal air cylinder 238 is then that vacuum absorption device 231 is adsorbed in the horizontal direction, thus makes the protrusion edge of a wing 1133 of film 113 also adsorb toward horizontal direction and move.
Refer to Fig. 3, for the first state diagram that film 113 is separated by the utility model Qu Mo mechanism 13, Qu Mo mechanism 13 is vertical down, vacuum absorption device 231 and first film 113 is driven to attach, vacuum absorption device 231 and film 113 state always in vertical angle, be inclined upwardly being positioned at the submounts 239 protruded above the edge of a wing 1133 by the oblique cylinder 237 on substrate 232, the protrusion edge of a wing 1133 of vacuum absorption device 231 adsorbent thin film 113 on submounts 239 is inclined upwardly, and the angle of inclination of oblique cylinder 237 is 40 degree to 70 degree.
Refer to Fig. 4, for the second state diagram that film 113 is separated by the utility model Qu Mo mechanism 13, Qu Mo mechanism 13 drives submounts 239 level to shrink by the horizontal air cylinder 238 on substrate 232, shrink being positioned at the vacuum absorption device 231 protruded above the edge of a wing 1133 toward horizontal direction further, the protrusion edge of a wing 1133 of script first film 113 at a slant is also shunk toward horizontal direction, makes packaging film form the shape of a Circular Slip.Now, at the protrusion edge of a wing 1133 place of film 113, between upper and lower two films 113, form an opening, in complete released state.
Refer to Fig. 5, for the third state figure that film 113 is separated by the utility model Qu Mo mechanism 13, Qu Mo mechanism 13 makes whole substrate 232 be inclined upwardly by the lever 233 of carrying above substrate 232, thus drive all vacuum absorption devices 231 by the up lift obliquely of whole first film 113, in the middle of this process, vacuum absorption device 231 be also remain always with film 113 in vertical state, because the angle of inclination putting forward lever 233 is also 40 degree to 70 degree, then whole first film 113 keeps the shape of a Circular Slip to be raised tilted angle is 20 degree to 50 degree.Now, small part is only had not to be separated between upper and lower two films 113.
Refer to Fig. 6, for the 4th state diagram that film 113 is separated by the utility model Qu Mo mechanism 13, Qu Mo mechanism 13 makes vertical plate 235 vertically up promote by lowering or hoisting gear 236, whole substrate 232 and vacuum absorption device 231 is driven vertically to be mentioned by whole first film 113, the effective like this effect reaching first film 113 and be thoroughly separated with film 113 below.
Compared with prior art, the Qu Mo mechanism 13 that the utility model provides, first make submounts 239 toward tiltedly upper angle and horizontal direction are shunk by the oblique cylinder 237 in Qu Mo mechanism 13 and horizontal air cylinder 238, the vacuum absorption device 231 on submounts 239 is driven to move, thus make film 113 (213, 313) the protrusion edge of a wing 1133 is also turned up by pull-up obliquely with toward horizontal direction, film 113 (213, 313) shape of a Circular Slip is formed, now, at protrusion first, the edge of a wing 1133 place film 113 (213, 313) with underlying film 113 (213, 313) opening is formed between, can be separated completely.Then mention oblique for whole substrate 232 by putting forward lever 233, first film 113 (213,313) is mentioned obliquely, now, first film 113 (213,313) only has fraction not separated with underlying film 113 (213,313).Finally by lowering or hoisting gear 236, vertical plate 235 is vertically up moved, whole substrate 232 and vacuum absorption device 231 is driven vertically up to move, whole first film 113 (213,313) is vertically mentioned, makes first film 113 (213,313) thoroughly be separated with film 113 (213,313) below like this.This Qu Mo mechanism 13 can be widely used in carrying out blister-pack, and needs the production line getting film supply continuously.
By the foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all any amendments done within principle of the present utility model, equivalent replacement and improvement etc. all should comprise within protection domain of the present utility model.
Claims (8)
1. a Zhong Qu film mechanism, for separating of film, comprise a substrate, substrate is arranged multiple vacuum absorption device, for adsorbent thin film, it is characterized in that: this Qu Mo mechanism comprises one further makes the oblique cylinder and of vacuum absorption device diagonally movement make the horizontal air cylinder of vacuum absorption device movement in the horizontal direction.
2. Qu Mo mechanism as claimed in claim 1, is characterized in that: described film side is provided with and protrudes the edge of a wing, and the vacuum absorption device that oblique cylinder is connected with horizontal air cylinder is corresponding with the protrusion edge of a wing.
3. Qu Mo mechanism as claimed in claim 1, is characterized in that: described substrate is arranged a submounts, submounts and substrate relatively independent.
4. Qu Mo mechanism as claimed in claim 1, is characterized in that: what on described substrate, connection one made substrate tilt puies forward lever.
5. Qu Mo mechanism as claimed in claim 4, is characterized in that: described substrate side surfaces arranges vertical plate, and vertical plate connects the lowering or hoisting gear that makes its vertical lift.
6. Qu Mo mechanism as claimed in claim 4, is characterized in that: described in put forward lever relative to substrate angle of inclination be 40 degree to 70 degree.
7. Qu Mo mechanism as claimed in claim 1, is characterized in that: the vertical adsorbent thin film of described vacuum absorption device.
8. Qu Mo mechanism as claimed in claim 5, is characterized in that: described vertical plate is arranged a connection handle, connection handle with put forward lever and be connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520706618.XU CN205009726U (en) | 2015-09-11 | 2015-09-11 | Get membrane mechanism |
Applications Claiming Priority (1)
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CN201520706618.XU CN205009726U (en) | 2015-09-11 | 2015-09-11 | Get membrane mechanism |
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CN205009726U true CN205009726U (en) | 2016-02-03 |
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CN201520706618.XU Active CN205009726U (en) | 2015-09-11 | 2015-09-11 | Get membrane mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107946407A (en) * | 2017-11-29 | 2018-04-20 | 北京创昱科技有限公司 | A kind of new thin film separation mechanism independently driven |
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2015
- 2015-09-11 CN CN201520706618.XU patent/CN205009726U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107946407A (en) * | 2017-11-29 | 2018-04-20 | 北京创昱科技有限公司 | A kind of new thin film separation mechanism independently driven |
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