CN218535975U - Full-automatic film separating equipment for curtain type air bag lug - Google Patents

Abstract

The utility model discloses a full-automatic film splitter of curtain formula gasbag auricle, include: a feeding seat; the device comprises a rubbing component, a rolling wheel group and a separation box, wherein the separation box comprises a separation component positioned below the rolling wheel group, a negative pressure suction structure positioned at one end of the separation component, an ear collecting groove arranged below the separation component and a film collecting groove positioned on one side of the ear collecting groove; the separation component comprises a screen structure forming a stirring space with the inner wall of the separation box and a stirring roller arranged in the stirring space, the ear slices with different shapes and thicknesses are all guided in through the feeding seat, the ear slices are separated from the film through the kneading component, the rolling wheel group and other rubbing actions simulating hands, the separated ear slices and the film are stirred through the stirring roller, the light film floats above the ear slices, the film is pumped away through the negative pressure suction structure, the remaining ear slices are collected independently, the ear slices are automatically separated from the film on the premise of not damaging the ear slices, and the degree of automation is high.

Description

Full-automatic film separation equipment of curtain formula gasbag auricle

Technical Field

The utility model relates to an air bag production facility, especially a full-automatic film splitter of curtain formula air bag auricle.

Background

A Curtain Airbag (CAB) is designed to be deployed at the head of a passenger when the vehicle is involved in a side collision and a condition that the airbag should be deployed is met, and the CAB module is designed to be deployed at the head of the passenger, and an air belt inside the module is deployed by internal pressure and inflated at a fixed position to protect the head of the passenger. When the automobile collides with an obstacle, namely primary collision, a passenger collides with an inner component of the automobile, namely secondary collision, and the air bag rapidly opens an air cushion filled with air after the primary collision and before the secondary collision, so that the passenger moves due to inertia and then "pounces on the air cushion", thereby alleviating the impact on the passenger, absorbing collision energy and lightening the injury degree of the passenger.

In the production process of curtain type air bags, independent ear piece cut pieces need to be used, the ear piece cut pieces are cut and formed by a laser cutting bed, the surfaces of the cut pieces are provided with plastic films, the edges of the cut pieces can be fused with the films due to the high temperature of laser cutting, however, the ear piece cut pieces do not need the plastic films when being used, and the cut pieces need to be torn in advance.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic film splitter of curtain formula gasbag auricle can effectively solve above-mentioned problem.

The utility model discloses a realize like this:

a fully automatic membrane detachment apparatus for curtain airbag ear, comprising:

a feeding seat;

the kneading assembly comprises an opening plate positioned in the feeding seat and a kneading plate arranged above the opening plate;

the rolling wheel set is positioned at a discharge hole below the feeding seat;

the separation box comprises a separation assembly positioned below the grinding wheel set, a negative pressure suction structure positioned at one end of the separation assembly, an ear collecting groove arranged below the separation assembly, and a film collecting groove positioned on one side of the ear collecting groove;

the separation assembly comprises a screen structure forming a stirring space with the inner wall of the separation box and a stirring roller arranged in the stirring space.

As a further improvement, the kneading assembly further comprises a first driving member locked with the opening plate and a second driving member locked with the kneading plate.

As a further improvement, the rolling wheel set comprises a fixed rolling roller and a movable rolling roller which are arranged at the discharge port of the feeding seat.

As further modified, the grinding wheelset further includes the mounting bracket, sets up spout in the mounting bracket is connected slider in the spout, fixed roller runs through to be fixed on the mounting bracket, it runs through to be fixed to remove the roller and fixes on the slider, fixed roller passes through the belt and is connected with a driving motor.

As a further improvement, the stirring roller comprises a rolling roller, a plurality of groups of staggered cross rods are fixedly inserted on the rolling roller, and the rolling roller is connected with a second driving motor through a belt.

As a further improvement, the feeding seat is of a hollow inverted ladder-shaped structure.

As a further improvement, the screen structure at least comprises a first screen and a second screen, and the second screen is connected with a pushing piece.

As a further improvement, a separation screen is arranged between the negative pressure suction structure and the separation assembly, and the separation screen is located above the film collecting tank.

The utility model has the advantages that:

the utility model discloses it is leading-in through the feeding seat with the auricle cut-parts of different shapes and thickness, through rubbing subassembly, the rubbing action of simulation people's hands such as rolling wheel group, separate auricle and film, the rethread stirring roller stirs auricle and film of separation, make lighter film float in the top of auricle, take away the film through negative pressure suction structure, it collects alone to leave the auricle, with auricle and film autosegregation under the prerequisite of not destroying the auricle, degree of automation is strong.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings which are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and that for those skilled in the art, other related drawings can be obtained according to these drawings without inventive efforts.

Fig. 1 is a schematic perspective view of a full-automatic membrane separation apparatus for curtain airbag ear of the present invention.

Fig. 2 is a top view of a full-automatic membrane separation apparatus for curtain airbag ear of the present invention.

Fig. 3 is a cross-sectional view taken along line B-B of fig. 2 according to the present invention.

Fig. 4 is a schematic structural diagram of the rolling wheel set of the present invention.

Fig. 5 is a schematic diagram of the internal structure of a full-automatic membrane separation device for curtain airbag ear plates according to the present invention.

Fig. 6 is a rear view of a full-automatic membrane separation apparatus for curtain airbag ear of the present invention.

Detailed Description

In order to make the embodiments of the present invention belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as referring to the purpose, technical solution and advantages of the embodiments of the present invention, which will be described in detail and fully with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art based on the embodiments of the present invention without inventive step, show or imply relative importance or imply a number of the indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 6, a full-automatic membrane separation apparatus for curtain airbag tabs includes: a feeding base 1; the kneading assembly 2 comprises a split plate 21 positioned inside the feeding seat 1 and a first driving piece 22 locked with the split plate 21; the rolling wheel set 3 is positioned at a discharge port below the feeding seat 1; the separation box 4 comprises a separation assembly 41 positioned below the grinding wheel set 3, a negative pressure suction structure 42 positioned on the lateral side of the separation assembly 41, a lug collecting groove 43 arranged below the separation assembly 41, and a film collecting groove 44 positioned on one side of the lug collecting groove 43; the separation assembly 41 comprises a screen structure 411 forming a stirring space with the inner wall of the separation tank 4, and a stirring roller 412 disposed in the stirring space.

Specifically, the kneading assembly 2 further includes a first driving member 22 locked with the opening plate 21, and a second driving member 24 locked with the kneading plate 23.

When using, can adopt the mode of artifical feeding, also can adopt the mode that the conveyer belt is direct with the direct leading-in feeding seat 1 of unprocessed auricle, auricle and film in the auricle cut-parts this moment still adhere together, and the auricle cut-parts that get into in feeding seat 1 can be at first through rubbing of rubbing subassembly 2, specifically is: under the drive of first driving piece 22, the open close board 21 through both ends blocks the cut-out piece, in this embodiment, first driving piece 22, second driving piece 24 is the cylinder, when admitting air, first driving piece 22 can promote open close board 21 and remove, block the cut-out piece, and the cut-out piece that is blocked can be rubbed by the extrusion that second driving piece 24 driven rubbing board 23 made a round trip, let frictional contact between cut-out piece and the cut-out piece, thereby let the conjugation degree step-down between film and the auricle, and after rubbing a certain time, open close board 21 is opened to rethread first driving piece 22, let the auricle cut-out piece fall to next step.

Roll wheelset 3 including setting up the roller 35 is rolled with removing to the fixed roller 32 that rolls of 1 discharge gate of feeding seat, the discharge gate of the bottom of feeding seat 1 is located the setting of rolling wheelset 3 top, can let the auricle cut-parts after kneading all roll roller 32 and remove roller 35 through fixed rolling, auricle cut-parts through first step processing, its film has received the influence with the combination degree of auricle cut-parts, roll the friction that rolls between the roller 35 through fixed roller 32 and removal again, make and break away from completely or partly break away from between film and the auricle, accomplish the second step.

After the completion of the rolling friction, in which the degree of bonding between the ears and the film had been minimized, the twice-treated ear panels were passed into the separating assembly 41 and completely separated from the film by rapid agitation by the agitating rollers 412.

The completely separated film and the lug are still in a mixed state, if other actions are stopped at the moment, manual separation is still needed, the workload of workers cannot be reduced, so that the stirring space for accommodating the stirring roller 412 is set as a screen structure 411, after the stirring roller 412 is stirred for a period of time, the film and the lug are completely separated, the rotating speed is reduced at the moment, and the lateral negative pressure suction structure 42 is opened, in the embodiment, the lateral negative pressure suction structure 42 is a vacuum extractor, when the rotating speed of the stirring roller 412 is reduced, because the mass difference between the film and the lug is large, the film with extremely light weight can be stacked above the lug, and when the lateral negative pressure suction structure 42 is started, the film can fly out through holes in the screen structure 411, and the lug can be left in place due to heavy weight and falls into the lug collecting tank 43, and the sucked film falls into the film collecting tank 44, so far, the separation of the lug and the film is automatically completed, and the material feeding, the material discharging, the automatic operation can be completely implemented, and the intelligentized degree is high.

The position of the negative pressure suction structure 42 may be lateral to the screen structure 411, in other embodiments, the negative pressure suction structure 42 may also be disposed in an oblique direction of the screen structure 411, and the suction force of the negative pressure suction structure 42 to the article is controlled under the weight of the tab.

In the process of reducing the rotation speed of the stirring roller 412, the film can be continuously sucked away, in other embodiments, the negative pressure suction structure 42 can be intermittently opened, for example, after the stirring roller 412 rotates for a period of time and the negative pressure suction structure 42 sucks for a period of time, the negative pressure suction structure 42 is closed, the stirring roller 412 rotates at an increased speed again, so that the film which may be clamped in the ear piece is stirred out, and the separation efficiency between the film and the ear piece is improved.

In the rolling process of the rolling wheel set 3, since different numbers of lugs may be fed at a time, or the lugs are thicker in thickness, the distance between the fixed roller 32 and the movable roller 35 needs to be changed, specifically: the grinding wheel group 3 further includes mounting bracket 31, sets up spout 33 in the mounting bracket 31 is connected slider 34 in the spout 33, fixed roller 32 runs through to be fixed on the mounting bracket 31, it runs through to fix to remove roller 35 on the slider 34, fixed roller 32 passes through the belt and is connected with a driving motor 36, through the removal of driving slider 34, and then promote the removal roller 35 of fixing on slider 34 and remove, change and remove the interval between roller 35 and the fixed roller 32, in this embodiment, slider 34 can be linear electric motor, linear electric motor is linear motion and then adjusts the distance that removes between roller 35 and the fixed roller 32 in spout 33, in other embodiments, slider 34 can cooperate with push rod motor, pneumatic cylinder, through the flexible effect of push rod motor, pneumatic cylinder, make to remove roller 35 and be close to or keep away from fixed roller 32, and remove roller 35 and use solitary rotation motor, can not influence its rotation because of interval length between with fixed roller 32.

In order to improve the stirring effect of the stirring roller 412, completely separate the incompletely separated films from the lugs, and move most of the films from the mixture to the upper half part of the stirring space, the stirring roller 412 comprises a rolling roller 4121, a plurality of groups of staggered cross rods 4122 are inserted and fixed on the rolling roller 4121, the rolling roller 4121 is connected with a second driving motor 4123 through a belt, in the present embodiment, the rolling roller 4121 is used for inserting two groups of cross rods 4122, and the two groups of cross rods 4122 are staggered with each other, and can be contacted with the films, the lugs or the incompletely separated lug pieces from multiple directions, so as to improve the contact area, and in other embodiments, one group or more than two groups can be used, which is not specifically limited, wherein the second driving motor 4123 for driving the rolling roller 4121 is a stepless speed change motor, and can drive the stirring roller 412 to change the speed steplessly, so as to improve the stirring efficiency.

It should be emphasized that feeding seat 1 is a hollow inverted ladder type structure, the opening of feeding seat 1 bottom is located fixed roller 32 with remove between the roller 35, wherein, inverted ladder type structure can be with the auricle cut-parts of random entering all concentrated to the bottom of feeding seat 1 after the processing through first step, and the concentrated effect of the auricle cut-parts after the preliminary working is strengthened.

In the stirring space formed by the mesh plate structure 411 and the separating box 4, the mesh plate structure 411 at least comprises a first mesh plate 4111 and a second mesh plate 4112, a pushing member 4113 is connected to the second mesh plate 4112, the first mesh plate 4111 is arranged on one side facing the negative pressure suction structure 42, a plurality of meshes are arranged on the first mesh plate 4111, the film can pass through and can block the passage of the tabs, even if some tabs are lifted, the tabs cannot pass through the first mesh plate 4111, the second mesh plate 4112 and the first mesh plate 4111 can be opened, the separated tabs can fall into the tab collecting tank 43, specifically, the pushing member 4113 is connected to the second mesh plate 4112, when the pushing member 4113 retracts, the second mesh plate 4112 can be separated from the first mesh plate 4111, the tabs on the inner side of the second mesh plate 4112 can fall into the tab collecting tank 43, after the tab 4113 is pushed out, the second mesh plate 4112 and the first mesh plate 4111 can be combined together again, and the film can be separated in other embodiments as long as the film structure can be separated by other shapes.

In the above description, the first driving element 22, the second driving element 24, the slider 34, the first driving motor 36, the negative pressure suction structure 42, the second driving motor 4123, and the pushing element 4113 are all electrically connected to the programmable controller, and are all programmed and controlled by the programmable controller, and the connection manner between the above structures and the programmable controller is the prior art, and will not be described in detail here.

In order to prevent the film from being sucked into the negative pressure suction structure 42, a partition screen plate 45 is disposed between the negative pressure suction structure 42 and the separation assembly 41, the partition screen plate 45 is located above the film collecting groove 44, the film sucked from the first screen plate 4111 is blocked on the partition screen plate 45, and is prevented from falling into the negative pressure suction structure 42, and once the negative pressure suction structure 42 is stopped, the film falls into the film collecting groove 44 to complete the film collection.

It is particularly emphasized that the aperture of the mesh of the partition screen 45 is smaller than that of the first screen 4111, so that the negative pressure can be generated while the film does not pass through the partition screen 45.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A fully automated membrane detachment apparatus for curtain airbag tabs, comprising:

a feeding seat (1);

the kneading assembly (2) comprises a cut-off plate (21) positioned in the feeding seat (1) and a kneading plate (23) arranged on the cut-off plate (21);

a rolling wheel set (3) positioned at a discharge hole below the feeding seat (1);

a separator tank (4) comprising a separator assembly (41) located below the crushing wheel set (3),

a negative pressure suction structure (42) at one end of the separation assembly (41), a lug collecting groove (43) arranged below the separation assembly (41), a negative pressure suction structure (43) at one end of the separation assembly, a negative pressure suction structure positioned at the other end of the separation assembly, a lug collecting groove (43) arranged below the separation assembly (41), a negative pressure suction structure positioned at the other end of the separation assembly, a negative pressure suction structure (43) positioned at the lug collecting groove (43)

A film collection groove (44) on one side;

the separation assembly (41) comprises a screen structure (411) forming a stirring space with the inner wall of the separation box (4), and a stirring roller (412) arranged in the stirring space.

2. Curtain airbag lug full-automatic film separating device according to claim 1, characterized in that the rolling wheel group (3) comprises a fixed roller (32) and a movable roller (35) arranged at the discharge port of the feed base (1).

3. The full-automatic membrane separation device for curtain airbag lugs is characterized in that the rolling wheel group (3) further comprises a mounting frame (31), a sliding groove (33) formed in the mounting frame (31), a sliding block (34) connected in the sliding groove (33), the fixed rolling roller (32) is penetratingly fixed on the mounting frame (31), the movable rolling roller (35) is penetratingly fixed on the sliding block (34), and the fixed rolling roller (32) is connected with a first driving motor (36) through a belt.

4. The full-automatic membrane separation device of curtain airbag lugs as claimed in claim 1, wherein the stirring roller (412) comprises a rolling roller (4121), a plurality of groups of staggered cross rods (4122) are inserted and fixed on the rolling roller (4121), and the rolling roller (4121) is connected with the second driving motor (4123) through a belt.

5. Full-automatic membrane separation device of curtain airbag ear according to claim 1, characterized in that the feed block (1) is a hollow inverted ladder-shaped structure.

6. A fully automatic membrane separation device of a curtain airbag tab according to claim 1, characterized in that the mesh plate structure (411) comprises at least a first mesh plate (4111) and a second mesh plate (4112), and the second mesh plate (4112) is movably attached to the first mesh plate (4111).

7. The full-automatic membrane separation device of a curtain airbag lug according to claim 6, characterized in that a separating mesh plate (45) is arranged between the negative pressure suction structure (42) and the separation assembly (41), and the second mesh plate (4112) is connected with a pushing member (4113).

8. Full-automatic membrane separation device for curtain airbag ears as claimed in claim 1, characterized in that the kneading assembly (2) further comprises a first driving member (22) locked with the opening plate (21) and a second driving member (24) locked with the kneading plate (23).

Images