CN112811246A - High-efficient folding device is used in car air bag production - Google Patents

Abstract

The invention discloses a folding device for producing a high-efficiency automobile safety airbag, which belongs to the technical field of airbag folding and comprises a rack, an operating platform arranged above the rack and a folding device arranged on the operating platform, wherein the folding device consists of an X-axis linear folding mechanism and a Y-axis linear folding mechanism which are arranged on the operating platform, the X-axis linear folding mechanism consists of a two-way linear driving mechanism and X-axis folding components which are symmetrically arranged at the driving end of the two-way linear driving mechanism and are arranged oppositely, the Y-axis linear folding mechanism is provided with two groups, the Y-axis folding mechanism consists of two groups of Y-axis folding components which are arranged oppositely and a rotating pressing mechanism positioned between the two groups of Y-axis folding components, and a longitudinal lifting pressing mechanism is arranged on the rack. Thereby improving the production efficiency.

Description

High-efficient folding device is used in car air bag production

Technical Field

The invention belongs to the technical field of airbag folding, and particularly relates to a folding device for efficient automobile safety airbag production.

Background

At present, an automobile safety air bag is an important auxiliary device of a safety protection device of a seat belt, and the safety air bag becomes necessary equipment of each automobile like the seat belt. The folding mode and efficiency of automobile safety air bags have important influence on the equipment and protection of the safety air bags, and in the existing production, most of safety air bag folding mechanisms have the defects of low production efficiency, uneven quality, immature technology and the like when the safety air bags are folded, so that the economic benefit of enterprises is reduced, and major safety accidents are easier to happen. Therefore, there is a need in the art for a new technical solution to ensure the safety quality and the production efficiency of the airbag by optimizing and improving the airbag folding apparatus.

Disclosure of Invention

The invention discloses a folding device for producing an efficient automobile safety airbag, and aims to solve the defects.

In order to achieve the purpose, the invention adopts the technical scheme that: a folding device convenient for production of an automobile safety airbag comprises a rack, an operating platform arranged above the rack and a folding device arranged on the operating platform, wherein a rectangular through groove is formed in the center of the operating platform, the folding device consists of an X-axis linear folding mechanism and a Y-axis linear folding mechanism which are arranged on the operating platform, the X-axis linear folding mechanism consists of a bidirectional linear driving mechanism and X-axis folding components which are symmetrically arranged at the driving end of the bidirectional linear driving mechanism and are oppositely arranged, each X-axis folding component consists of a plurality of horizontal push plates which are arranged side by side at equal intervals from top to bottom, the horizontal push plates are positioned in an area right above the rectangular through groove, the X-axis linear driving mechanism is arranged below the operating platform, the Y-axis linear folding mechanisms are provided with two groups and are arranged on a sliding table which can perform linear motion on the operating platform, and two sets of Y-axis linear folding mechanisms are symmetrically distributed above the operating platform about the rectangular through groove, each set of Y-axis folding mechanism consists of two sets of Y-axis folding components which are arranged in opposite directions and a rotary pressing mechanism which is arranged between the two sets of Y-axis folding components, each set of Y-axis folding components consists of a linear driving component and a plurality of horizontal push plates which are arranged at the driving end of the linear driving component and are arranged side by side in an up-and-down equidistant manner, the horizontal push plates are positioned above the horizontal push plates I, the linear driving component is arranged on the sliding table, the rotary pressing mechanism consists of a rotary driving mechanism and a plurality of turnover pressing plates which are distributed in parallel, the rotary driving mechanism is arranged on the sliding table and is positioned at the side of the horizontal push plates II, and the turnover pressing plates are arranged at the driving end of the rotary driving mechanism, still be equipped with in the frame and be used for carrying out the vertical lift hold-down mechanism that pushes down to air bag's middle part, vertical lift hold-down mechanism comprises lift lifting mechanism, horizontal flexible subassembly and its vertical hold-down mechanism, the lift lifting mechanism is vertical to be installed in the frame, and is located the vertical axis that the central point that the rectangle led to the groove put, horizontal flexible subassembly is installed perpendicularly at the side of the lift end of lift lifting mechanism, vertical hold-down mechanism comprises the compressing tightly subassembly of vertical flexible subassembly and its level setting at the drive end of vertical flexible subassembly, and the vertical flexible end of installing at horizontal flexible subassembly of vertical flexible subassembly, just compressing tightly the top that the subassembly is located lift lifting mechanism's top, just compressing tightly the subassembly and being the horizontal clamp plate that the equidistance distributes side by side of level by the polylith and.

Preferably, the longitudinal lifting and lifting mechanism consists of a positioning plate, a lifting assembly, a vertical bracket and a supporting plate of the vertical lifting and lifting mechanism, the lifting assembly is vertically installed on the frame through the positioning plate, the vertical bracket is vertically installed at the lifting end of the lifting assembly, the supporting plate is horizontally installed at the lifting end of the lifting assembly, the transverse telescopic assembly is horizontally installed on the vertical bracket, and the pressing assembly is located above the supporting plate.

Preferably, the linear driving assembly is a telescopic electric cylinder.

Preferably, the rotation driving mechanism comprises a U-shaped seat, a stepping motor and a transmission shaft thereof, the transmission shaft is horizontally installed in the U-shaped seat, the stepping motor is installed on the sliding table, the driving end of the stepping motor is connected with the end of the transmission shaft, and the end of the plurality of turnover pressing plates is connected with a synchronous turnover block which is tightly installed on the transmission shaft.

Preferably, two-way linear driving mechanism comprises lead screw motor, two-way lead screw, drive seat, push pedal and guiding mechanism, two-way lead screw horizontal rotation is installed on the link plate that sets up with the operation panel below, lead screw motor installs the lower extreme at the operation panel, and lead screw motor's drive end and two-way lead screw's end connection, the drive seat symmetry is installed on two-way lead screw, guiding mechanism comprises last direction subassembly and the direction subassembly down of installing on the operation panel, and goes up direction subassembly and all with two-way lead screw parallel distribution down the direction subassembly, the lower extreme and the direction subassembly sliding fit down of drive seat, the lower extreme and the drive seat of push pedal are connected, the upper end and the last direction subassembly sliding fit of push pedal, the inboard at the top of push pedal is installed to horizontal push pedal one.

Preferably, the outer side of the second horizontal push plate is provided with a folded edge which is folded upwards, and the folded edge is vertically distributed with the end face of the second horizontal push plate.

Preferably, the X-axis folding assembly is installed on the inner side of a sliding seat which is horizontally arranged on the end face of the sliding table in a sliding mode, and the side end of the sliding seat is connected with the driving end of the linear driving assembly.

The invention is carried out according to the following steps when in use:

the method comprises the following steps: starting the lifting assembly, the transverse telescopic assembly and the longitudinal telescopic assembly thereof, driving the supporting plate to move to a position which is in the same horizontal plane with the horizontal pushing plate I at the lowest end by the driving end of the lifting assembly, and enabling the pressing assembly to be located at a position above the side of the supporting plate to enable two end parts of the safety airbag to be folded to be tiled on the upper end face of the horizontal pushing plate I;

step two: starting the rotation driving mechanism, rotating the turnover pressing plate by 90 degrees from a vertical state to form a horizontal state, wherein the lower end face of the turnover pressing plate at the lowest end is in contact with the surface of the end part of the safety air bag, and the end part of the safety air bag is pressed on the end face of the first horizontal push plate;

step three: starting the linear driving assembly, expanding the driving end of the linear driving assembly to a set distance, driving two groups of symmetrically distributed horizontal push plates to oppositely move in a direction which is two-way close to the turnover press plate, moving the horizontal push plates II to the lower part of the turnover press plate and in a cross distribution state with the turnover press plate, and at the moment, folding the side edge of the safety air bag to a position between two adjacent horizontal push plates II to finish the first-step folding of the safety air bag;

step four: the two sliding tables move synchronously towards the direction away from each other, and the horizontal supporting plate II is drawn out from the airbag folded in the first step;

step five: the transverse telescopic assembly resets firstly, then the longitudinal telescopic assembly resets, and the pressing assembly presses the middle part of the safety air bag downwards, so that the middle part of the safety air bag is pressed between the pressing assembly and the supporting plate;

step six: the lifting assembly resets to drive the pressing assembly and the supporting plate thereof to move downwards, and the plane where the horizontal pressing plate is located and the plane where the horizontal pushing plate I is located are in a crossed state;

starting the two-way linear driving mechanism, driving the two X-axis folding assemblies to move oppositely to a set distance by the driving end of the two-way linear driving mechanism, folding the part of the safety air bag between the two groups of horizontal push plates I to the position between the two adjacent horizontal push plates I, and finishing the second folding of the safety air bag when the horizontal push plates I and the horizontal press plates are in a cross distribution state;

step eight: the linear driving assembly, the overturning driving mechanism and the horizontal linear telescopic assembly thereof reset, the driving ends of the lifting assembly, the transverse telescopic assembly and the longitudinal telescopic assembly thereof are unfolded, and the folded airbag is taken out.

The invention has the advantages that: the folding device provided by the invention can be used for folding the automobile safety airbag by matching mechanized equipment with manual work, so that the folding efficiency and the folding quality of the automobile safety airbag are improved, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a top view of the present invention;

FIG. 3 is a bottom view of the present invention;

FIG. 4 is a front view of the present invention;

FIG. 5 is a side view of the present invention;

FIGS. 6 and 7 show a longitudinal lifting and lowering mechanism;

FIG. 8 is a schematic structural view of a second horizontal pressing plate;

the device comprises a machine frame 1, an operation table 2, a sliding table 3, a bidirectional screw rod 4, an upper guide assembly 5, a horizontal push plate I6, a push plate 7, a driving seat 8, a lower guide assembly 9, a fixed seat 10, a stepping motor 11, a U-shaped seat 12, a turnover press plate 13, a linear driving assembly 14, a horizontal push plate II 15, a flanging 151, a hanging plate 16, a screw rod motor 17, a synchronous turnover block 18, a positioning plate 19, a lifting assembly 20, a vertical bracket 21, a support plate 22, a horizontal press plate 23, a transverse telescopic assembly 24, a longitudinal telescopic assembly 25 and a lifting support 26.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a purpose of helping those skilled in the art to more fully, accurately and deeply understand the concept and technical solution of the present invention and to facilitate its implementation.

As shown in fig. 1 to 8, a folding device for conveniently producing an automobile airbag comprises a frame 1, an operation table 2 arranged above the frame 1 and a folding device arranged on the operation table 2, wherein a rectangular through groove is arranged at the center of the operation table 2, the folding device comprises an X-axis linear folding mechanism and a Y-axis linear folding mechanism which are arranged on the operation table 2, the X-axis linear folding mechanism comprises a bidirectional linear driving mechanism and X-axis folding components which are symmetrically arranged at the driving end of the bidirectional linear driving mechanism and are arranged oppositely, each X-axis folding component comprises a plurality of horizontal push plates 6 which are arranged side by side in an up-and-down equidistant manner, the horizontal push plates 6 are positioned in an area right above the rectangular through groove, the X-axis linear driving mechanism is arranged below the operation table 2, and the Y-axis linear folding mechanisms are provided with two groups, and is installed on a sliding table 3 which can do linear motion on an operation table 2, and two groups of Y-axis linear folding mechanisms are symmetrically distributed above the operation table 2 relative to a rectangular through groove, each group of Y-axis folding mechanisms consists of two groups of Y-axis folding components which are arranged oppositely and a rotary pressing mechanism which is positioned between the two groups of Y-axis folding components, each group of Y-axis folding components consists of a linear driving component 14 and a plurality of horizontal push plates 15 which are arranged at the driving end of the linear driving component 14 and are arranged side by side up and down at equal intervals, the horizontal push plates 15 are positioned above the horizontal push plates 6, the linear driving component 14 is installed on the sliding table 3, the rotary pressing mechanism consists of a rotary driving mechanism and a plurality of turnover pressing plates 13 which are distributed in parallel, the rotary driving mechanism is installed on the sliding table 3 and is positioned at the side of the horizontal push plates 15, the overturning pressing plate 13 is arranged at the driving end of the rotation driving mechanism and is positioned in the area between the two groups of horizontal push plates 15, a longitudinal lifting and pressing mechanism for pressing down the middle part of the safety air bag is further arranged on the rack 1, the longitudinal lifting and pressing mechanism consists of a lifting and lifting mechanism, a transverse telescopic component 24 and a longitudinal pressing mechanism thereof, the lifting and lifting mechanism is vertically arranged on the rack 1 and is positioned on a vertical axis of the central position of the rectangular through groove, the transverse telescopic component 24 is vertically arranged at the side end of the lifting and lifting mechanism, the longitudinal pressing mechanism consists of a longitudinal telescopic component 25 and a pressing component thereof which is horizontally arranged at the driving end of the longitudinal telescopic component 25, the longitudinal telescopic component 25 is vertically arranged at the telescopic end of the transverse telescopic component 24, and the pressing component is positioned above the top of the lifting and lifting mechanism, and the compressing assembly is composed of a plurality of horizontal pressing plates 23 which are horizontally and equidistantly distributed in parallel.

Preferably, the longitudinal lifting and supporting mechanism is composed of a positioning plate 19, a lifting assembly 20, a vertical bracket 21 and a supporting plate 22 thereof, the lifting assembly 20 is vertically installed on the rack 1 through the positioning plate 19, the vertical bracket 21 is vertically installed at the lifting end of the lifting assembly 20, the supporting plate 22 is horizontally installed at the lifting end of the lifting assembly 20, the transverse telescopic assembly 24 is horizontally installed on the vertical bracket 21, the pressing assembly is located above the supporting plate 22, and the pressing assembly is installed at the driving end of the longitudinal telescopic assembly through a lifting support.

In this embodiment, the linear drive assembly 14 is a telescopic electric cylinder.

In this embodiment, the rotation driving mechanism is composed of a U-shaped seat 12, a stepping motor 11 and a transmission shaft thereof, the transmission shaft is horizontally installed in the U-shaped seat 12, the stepping motor 11 is installed on the sliding table 3, the driving end of the stepping motor 11 is connected with the end of the transmission shaft, and the ends of the multiple turning press plates 13 are connected with a synchronous turning block 18 which is tightly installed on the transmission shaft.

In this embodiment, the bidirectional linear driving mechanism is composed of a screw motor 17, a bidirectional screw 4, a driving seat 8, a push plate 7 and a guiding mechanism thereof, the bidirectional screw 4 is horizontally and rotatably arranged on a hanging plate 16 arranged below the operating platform 2, the screw motor 17 is arranged at the lower end of the operating platform 2, and the driving end of the screw motor 17 is connected with the end of the bidirectional screw 4, the driving seats 8 are symmetrically arranged on the bidirectional screw 4, the guide mechanism consists of an upper guide assembly 5 and a lower guide assembly 9 which are arranged on the operating platform 2, the upper guide component 5 and the lower guide component 9 are both distributed in parallel with the bidirectional screw 4, the lower end of the driving seat 8 is in sliding fit with the lower guide component 9, the lower end of the push plate 7 is connected with the driving seat 8, the upper end of the push plate 7 is in sliding fit with the upper guide assembly 5, and the horizontal push plate I6 is installed on the inner side of the top of the push plate 7.

In this embodiment, the outer side of the second horizontal push plate 15 is provided with a folded edge 151 which is folded upwards, the folded edge 151 is perpendicular to the end surface of the second horizontal push plate 15, and when the airbag is folded, the folded edge 151 limits the side edge of the airbag.

In the present embodiment, the X-axis folding assembly is mounted inside a slide horizontally slidably disposed on the end face of the sliding table 3, and the side end of the slide is connected to the driving end of the linear driving assembly 14.

The invention is carried out according to the following steps when in use:

the method comprises the following steps: starting the lifting assembly, the transverse telescopic assembly and the longitudinal telescopic assembly thereof, driving the supporting plate to move to a position which is in the same horizontal plane with the horizontal pushing plate I at the lowest end by the driving end of the lifting assembly, and enabling the pressing assembly to be located at a position above the side of the supporting plate to enable two end parts of the safety airbag to be folded to be tiled on the upper end face of the horizontal pushing plate I;

step two: starting the rotation driving mechanism, rotating the turnover pressing plate by 90 degrees from a vertical state to form a horizontal state, wherein the lower end face of the turnover pressing plate at the lowest end is in contact with the surface of the end part of the safety air bag, and the end part of the safety air bag is pressed on the end face of the first horizontal push plate;

step three: starting the linear driving assembly, expanding the driving end of the linear driving assembly to a set distance, driving two groups of symmetrically distributed horizontal push plates to oppositely move in a direction which is two-way close to the turnover press plate, moving the horizontal push plates II to the lower part of the turnover press plate and in a cross distribution state with the turnover press plate, and at the moment, folding the side edge of the safety air bag to a position between two adjacent horizontal push plates II to finish the first-step folding of the safety air bag;

step four: the two sliding tables move synchronously towards the direction away from each other, and the horizontal supporting plate II is drawn out from the airbag folded in the first step;

step five: the transverse telescopic assembly resets firstly, then the longitudinal telescopic assembly resets, and the pressing assembly presses the middle part of the safety air bag downwards, so that the middle part of the safety air bag is pressed between the pressing assembly and the supporting plate;

step six: the lifting assembly resets to drive the pressing assembly and the supporting plate thereof to move downwards, and the plane where the horizontal pressing plate is located and the plane where the horizontal pushing plate I is located are in a crossed state;

starting the two-way linear driving mechanism, driving the two X-axis folding assemblies to move oppositely to a set distance by the driving end of the two-way linear driving mechanism, folding the part of the safety air bag between the two groups of horizontal push plates I to the position between the two adjacent horizontal push plates I, and finishing the second folding of the safety air bag when the horizontal push plates I and the horizontal press plates are in a cross distribution state;

step eight: the linear driving assembly, the overturning driving mechanism and the horizontal linear telescopic assembly thereof reset, the driving ends of the lifting assembly, the transverse telescopic assembly and the longitudinal telescopic assembly thereof are unfolded, and the folded airbag is taken out.

The folding device provided by the invention can be used for folding the automobile safety airbag by matching mechanized equipment with manual work, so that the folding efficiency and the folding quality of the automobile safety airbag are improved, and the production efficiency is improved.

The present invention has been described in connection with the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments described above, but is intended to cover various insubstantial modifications of the invention based on the principles and technical solutions of the invention; the present invention is not limited to the above embodiments, and can be modified in various ways.

Claims (7)

1. The utility model provides a folding device is used in production of car air bag convenient to, includes frame (1), locate operation panel (2) of frame (1) top and locate the folding device on operation panel (2), its characterized in that: the center position of operation panel (2) is equipped with a rectangle through groove, folding device comprises X axle straight line folding mechanism and Y axle straight line folding mechanism which are installed at operation panel (2), X axle straight line folding mechanism comprises two-way straight line driving mechanism and X axle folding components which are symmetrically installed at the driving end of two-way straight line driving mechanism and are oppositely arranged, each X axle folding component comprises a plurality of horizontal push pedal I (6) which are arranged from top to bottom in parallel and equidistantly, the horizontal push pedal I (6) is located in the area right above the rectangle through groove, the X axle straight line driving mechanism is installed below operation panel (2), the Y axle straight line folding mechanism is provided with two groups and is installed on a sliding table (3) which can do straight line motion on operation panel (2), and the two groups of Y axle straight line folding mechanisms are symmetrically distributed above operation panel (2) relative to the rectangle through groove, each group of Y-axis folding mechanisms consists of two groups of Y-axis folding assemblies which are arranged in opposite directions and a rotating pressing mechanism which is arranged between the two groups of Y-axis folding assemblies, each group of Y-axis folding assemblies consists of a linear driving assembly (14) and a plurality of horizontal push plates (15) which are arranged at the driving end of the linear driving assembly (14) and are arranged side by side in an up-and-down equidistant manner, the horizontal push plates (15) are arranged above the horizontal push plates (6), the linear driving assembly (14) is arranged on the sliding table (3), the rotating pressing mechanism consists of a rotating driving mechanism and a plurality of overturning pressing plates (13) which are distributed in parallel, the rotating driving mechanism is arranged on the sliding table (3) and is positioned at the side of the horizontal push plates (15), the overturning pressing plates (13) are arranged at the driving end of the rotating driving mechanism and are positioned in an area between the two groups of horizontal push plates, the frame (1) is also provided with a longitudinal lifting and pressing mechanism for pressing the middle part of the safety airbag, the longitudinal lifting and pressing mechanism consists of a lifting and lifting mechanism, a transverse telescopic component (24) and a longitudinal pressing mechanism thereof, the lifting and lifting mechanism is vertically arranged on the frame (1), and is positioned on the vertical axis of the central position of the rectangular through groove, the transverse telescopic component (24) is vertically arranged at the side end of the lifting and supporting mechanism, the longitudinal pressing mechanism consists of a longitudinal telescopic component (25) and a pressing component horizontally arranged at the driving end of the longitudinal telescopic component (25), the longitudinal telescopic component is vertically arranged at the telescopic end of the transverse telescopic component (24), and the compressing assembly is positioned above the top of the lifting mechanism and consists of a plurality of horizontal pressing plates (26) which are horizontally distributed in parallel at equal intervals.

2. A folding apparatus for facilitating the production of an automotive air bag according to claim 1, wherein: vertical lift lifting mechanism comprises locating plate (19), lifting unit (20), vertical bracket (21) and layer board, and lifting unit (20) are vertically installed in frame (1) through locating plate (19), and the lift end at lifting unit (20) is vertically installed in vertical bracket (21), just layer board (22) horizontal installation is at the lift end of lifting unit (20), horizontal flexible subassembly, 24) horizontal installation are on vertical bracket (21), compress tightly the top that the subassembly is located layer board (22).

3. A folding apparatus for facilitating the production of an automotive air bag according to claim 1, wherein: the linear driving assembly (14) is a telescopic electric cylinder.

4. A folding apparatus for facilitating the production of an automotive air bag according to claim 1, wherein: the rotation driving mechanism is composed of a U-shaped seat (12), a stepping motor (11) and a transmission shaft of the stepping motor, the transmission shaft is horizontally installed in the U-shaped seat (12), the stepping motor (11) is installed on the sliding table (3), the driving end of the stepping motor (11) is connected with the end portion of the transmission shaft, and the end portion of the multi-piece overturning pressing plate (13) is connected with a synchronous overturning block (18) which is tightly installed on the transmission shaft.

5. A folding apparatus for facilitating the production of an automotive air bag according to claim 1, wherein: the bidirectional linear driving mechanism comprises a screw motor (17), a bidirectional screw (4), a driving seat (8), a push plate (7) and a guide mechanism thereof, the bidirectional screw (4) is horizontally and rotatably installed on a hanging plate (16) arranged below the operating platform (2), the screw motor (17) is installed at the lower end of the operating platform (2), the driving end of the screw motor (17) is connected with the end of the bidirectional screw (4), the driving seat (8) is symmetrically installed on the bidirectional screw (4), the guide mechanism comprises an upper guide assembly (5) and a lower guide assembly (9) which are installed on the operating platform (2), the upper guide assembly (5) and the lower guide assembly (9) are both distributed in parallel with the bidirectional screw (4), the lower end of the driving seat (8) is in sliding fit with the lower guide assembly (9), and the lower end of the push plate (7) is connected with the driving seat (8), the upper end of the push plate (7) is in sliding fit with the upper guide assembly (5), and the horizontal push plate I (6) is installed on the inner side of the top of the push plate (7).

6. A folding apparatus for facilitating the production of an automotive air bag according to claim 1, wherein: and the outer side of the second horizontal push plate (15) is provided with an upward folded edge (151), and the folded edge (151) is vertically distributed with the end surface of the second horizontal push plate (15).

7. A folding apparatus for facilitating the production of an automotive air bag according to claim 1, wherein: the X-axis folding assembly is installed on the inner side of a sliding seat which is horizontally arranged on the end face of the sliding table (3) in a sliding mode, and the side end of the sliding seat is connected with the driving end of the linear driving assembly (14).

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