CN114683669A - Composite production line of automobile roof interior assembly - Google Patents

Abstract

The invention relates to a composite production line of an automobile roof interior trim assembly, which comprises a group of forming framework transfer stations, a profiling unit arranged corresponding to each forming framework transfer station, an auxiliary material feeding station connected with each profiling unit, a coil cutting station connected with each auxiliary material feeding station, a double-station needling feeding structure connected with the rear end of the coil cutting station and a middle shared line adjusting structure, and has the advantages that: the production line can save factory buildings and land, and one-span factory buildings can achieve the capacity of two-span factory buildings in the traditional scheme; the production efficiency is twice of that of the traditional production line, only one span of factory buildings needs to be occupied, the land and factory buildings are reduced, and the investment cost is greatly reduced. Under the condition of not increasing stations, the problems of simultaneous composite production of two products and composite production of AB two products in specified proportion are solved. The industrial effect is obvious, the productivity is high, and the practicability is good.

Description

Composite production line of automobile roof interior assembly

Technical Field

The invention relates to an automobile production line, in particular to a composite production line of an automobile roof interior assembly.

Background

The composite process for the inner decoration of the top of the automobile includes cutting the fabric and the PU foamed cotton into required size, rolling glue and glue on the skeleton, compounding the upper fabric cut piece onto the PU foamed cotton, and compounding with the lower fabric cut piece in the same way.

Interior trim parts of automobile roof interior trim assembly among the prior art are mostly special-shaped structure, and the existing 1 drags 1 line body can not satisfy the compound production of the compound production in the time of two kinds of products of AB and the compound production of two kinds of product regulation proportions of AB simultaneously, and such structure not only is difficult to realize automatic processing operation, and is too high to the occupancy rate in space moreover, and production efficiency is low, and equipment utilization is low.

Disclosure of Invention

The purpose of the invention is: the composite production line of the automobile roof interior assembly has the advantages of simplicity and convenience in operation and stable and reliable structural equipment; the problem is solved, the composite operation of the automobile roof framework composite production line is facilitated, and the processing quality and efficiency are improved.

The technical scheme adopted by the invention for solving the technical problem is as follows: the utility model provides a compound production line of car roof portion interior trim assembly, moves the station including a set of shaping skeleton and moves the press type unit that moves the station, correspond every shaping skeleton and move the press type unit that the station set up, connect every press type unit's auxiliary material loading station, the coil stock of connecting every auxiliary material loading station cuts the station, connect the double-station acupuncture material loading platform structure of coil stock cutting station rear end and establish at work piece press type mechanism, auxiliary material loading station, coil stock cutting station between middle part sharing line adjustment structure, middle part sharing line adjustment structure include PU board rubber rolling move and move line collineation station, connect PU board rubber rolling move the PU of line collineation station and transplant centering station coil stock cutting station collineation station.

The double-station needling feeding platform structure comprises a first needling material storage station, a second needling material storage station, a material conveying frame body arranged on the upper portions of the two needling material storage stations, a bidirectional transmission rail arranged on the material conveying frame body, a needling station material taking structure arranged on the bidirectional transmission rail and a needling station material conveying platform.

The material taking structure at the needling station comprises a needling material taking seat arranged on the bidirectional transmission rail, a needling material taking cylinder group arranged on the needling material taking seat, a needling material taking connecting frame arranged at the lower part of the needling material taking cylinder group and a needling pneumatic material taking clamping seat arranged in the needling material taking connecting frame.

PU board rubber coating move and carry line collineation station include the PU board rubber coating part connection platform of being connected with acupuncture station transmission material platform, establish at the rubber coating roller set of PU board rubber coating part connection platform, establish and transport roller structure at the outside a set of coating guide of rubber coating roller set, transplant centering station structure and transplant the collineation coil stock cutting mechanism of centering station structural connection with PU that PU board rubber coating part connection platform is connected.

Auxiliary material loading station including establish the auxiliary material loading transmission frame in the outside that PU transplanted centering station structure, establish the auxiliary material transmission band in auxiliary material loading transmission frame, establish the auxiliary material transmission motor in the auxiliary material transmission band, establish the coil stock that cuts the station connection with first coil stock in auxiliary material transmission band rear side and cut and draw the material structure and the die mould station of auxiliary material transmission band front side draws the material structure.

The coil stock cuts the station and includes the coil stock and cuts the link, establish the coil stock rack in the coil stock cuts the link, establish the coil stock at coil stock rack front end and cut the transmission band.

The workpiece profiling mechanism comprises a press station, a profiling transmission station arranged in the press station and a profiling equipment set arranged in the profiling transmission station.

The molding framework transfer station comprises a framework transfer frame body, a framework transfer chain channel arranged in the framework transfer frame body, a pressing piece material guiding structure arranged at the left end of the framework transfer chain channel and a discharge guiding structure arranged at the right end of the framework transfer chain channel.

The invention has the advantages that: the production line can save factory buildings and land, and the capacity of two factory buildings in the traditional scheme can be achieved by one factory building; the production efficiency is twice of that of the traditional production line, only one span of factory buildings needs to be occupied, the land and factory buildings are reduced, and the investment cost is greatly reduced. Under the condition of not increasing stations, the problems of simultaneous composite production of two products and composite production of AB two products in specified proportion are solved. Satisfy two kinds of products of AB coincide production simultaneously, the maximize utilizes the productivity of equipment. The industrial effect is obvious, the productivity is high, and the practicability is good.

The invention will be described in more detail below with reference to the drawings and examples.

Drawings

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

Fig. 2 is a top view of fig. 1.

FIG. 3 is a structural schematic diagram of a double-station needling feeding table structure in the invention.

Fig. 4 is a top view of fig. 3.

FIG. 5 is a schematic structural view of a co-linear station of a PU plate glue rolling transfer line in the invention.

Fig. 6 is a schematic structural diagram of a middle common line adjusting structure according to the present invention.

FIG. 7 is a schematic structural diagram of a PU transplanting centering moving material structure in the present invention.

Fig. 8 is a schematic structural diagram of an auxiliary material feeding station in the invention.

Fig. 9 is a schematic structural view of a workpiece profiling mechanism in the present invention.

Fig. 10 is a schematic structural view of a transfer station for a molded framework in the present invention.

Fig. 11 is a top view of fig. 10.

In the figure: 1. the system comprises a first needling material storage station, a second needling material storage station, a 3 material transfer rack body, a 4 bidirectional transmission rail, a 5 needling station material transmission table, a 6 needling material taking seat, a 7 needling material taking cylinder group, a 8 needling material taking part connecting frame, a 9 needling pneumatic material taking clamping seat, a 10 glue rolling part connecting table, a 11 glue rolling rubber roller group, a 12 coating guide shaft, a 13 coating guide limiting frame, a 14 transplanting centering underframe, a 15 transplanting centering transmission rack body, a 16 transplanting centering slide seat body, a 17 workpiece transplanting telescopic cylinder group, a 18 transplanting control rack, a 19 moving part connecting block group, a 20 collinear material rolling table, a 21 collinear coil material transmission roller group, a 22 auxiliary material feeding transmission rack, a 23 auxiliary material transmission belt, a 24 cutting material guide rack, a 25 middle transmission shaft, a 26 feeding transmission roller group, a 27 limiting transmission rack, a 28 feeding output transmission roller group, a feeding output transmission roller group and a feeding control rack group, 29. The automatic feeding device comprises a feeding limiting transmission frame, a 30-coil cutting connecting frame, a 31-coil placing frame, a 32-coil cutting transmission belt, a 33-press station, a 34-press transmission station, a 35-press equipment set, a 36-framework transfer frame body, a 37-framework transfer chain channel, a 38-workpiece displacement transmission seat, a 39-workpiece displacement movable seat, a 40-workpiece transmission connecting frame body, a 41-workpiece discharging displacement transmission seat, a 42-workpiece discharging displacement seat, a 43-workpiece discharging transmission connecting frame body, a 44-coating material guiding transmission roller frame, a 45-material passing channel, a 46-butt joint transmission platform, a 47-butt joint transmission shaft, a 48-butt joint transmission belt, a 49-front-butt joint transmission motor driving shaft, a 50-rear-butt joint transmission motor driving shaft, a 51-joint guide platform, a 52-collinear feeding guide platform, a 53-collinear feeding adjusting frame body, a 54-transplanting collinear feeding driving roller mechanism, .

Detailed Description

The terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like in the specification indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Embodiment 1, as shown in fig. 1 and 2, a composite production line of an automobile roof interior trim assembly includes a set of forming frame transfer stations, a profiling unit disposed corresponding to each forming frame transfer station, an auxiliary material loading station connected to each profiling unit, a coil material cutting station connected to each auxiliary material loading station, a double-station needling loading platform structure connected to a rear end of the coil material cutting station, and a middle common line adjusting structure disposed between the workpiece profiling mechanism, the auxiliary material loading station, and the coil material cutting station and connected to the double-station needling loading platform structure, wherein the middle common line adjusting structure includes a PU plate glue rolling transfer line collinear station and a PU transplanting centering station coil material cutting station collinear line connected to the PU plate glue transfer line collinear station.

As shown in fig. 3 and 4, the double-station needling feeding platform structure includes a first needling material storage station 1, a second needling material storage station 2, a material transfer frame body 3 arranged at the upper parts of the two needling material storage stations, a bidirectional transmission rail 4 arranged on the material transfer frame body, a needling station material taking structure arranged on the bidirectional transmission rail 4, and a needling station material conveying platform 5.

The material taking structure of the needling station comprises a needling material taking seat 6 arranged on the bidirectional transmission rail 4, a needling material taking cylinder group 7 arranged on the needling material taking seat, a needling material taking connecting frame 8 arranged at the lower part of the needling material taking cylinder group 7 and a needling pneumatic material taking clamping seat 9 arranged in the needling material taking connecting frame.

As shown in fig. 3 and 4, the co-linear station of the PU board glue rolling transfer line comprises a PU board glue rolling component connecting table 10 connected with the needling station glue conveying table, a glue rolling roller group 11 arranged on the PU board glue rolling component connecting table, a group of coating material guide conveying roller structures arranged outside the glue rolling roller group, a PU transplanting centering station structure connected with the PU board glue rolling component connecting table 10, and a co-linear coil material cutting mechanism connected with the PU transplanting centering station structure.

As shown in fig. 1 and 2, and fig. 5 and 6, the paint guide and transmission roller structure includes a paint guide and transmission roller frame 44, a paint guide shaft 12 disposed in the paint guide and transmission roller frame, a paint guide limiting frame 13 disposed on the upper portion of the paint guide shaft,

the front part of the paint guide transmission roller frame 44 is provided with a material passing channel 45, the material passing channel 45 is connected with a butt joint transmission structure, the butt joint transmission structure comprises a butt joint transmission platform 46 connected with the material passing channel 45, a butt joint transmission shaft 47 arranged in the butt joint transmission platform 46, a butt joint transmission belt 48 arranged in the butt joint transmission platform 46 and a front butt joint transmission motor driving shaft 49 arranged at the rear end of the butt joint transmission platform 46, a rear butt joint transmission motor driving shaft 50 at the front end of the butt joint transmission platform 46, and the front end of the butt joint transmission platform 46 is connected with a connection guide platform 51.

PU transplant centering station structure include with connect the transplantation centering chassis 14 that guide table 51 is connected, establish and transplant centering chassis upper portion and transmit support body 15 to the worker, transplant centering transmission support body 15 and 2 auxiliary material loading stations and be connected, establish and transplant centering at PU between 2 auxiliary material loading stations and remove the material structure, PU transplant centering and remove the material structure including establishing and transplant centering sliding seat body 16, establish and transplant centering sliding seat body 16 upper portion, establish and transplant telescopic cylinder group 17, establish and transplant centering sliding seat body 16 lower part and transplant telescopic cylinder group 17 with the work piece and be connected and transplant control frame 18, establish and transplant a connecting block group 19 that moves of control frame 18 bottom avris to transplanting centering sliding seat body 16 upper portion.

The collinear coil cutting mechanism comprises a collinear coil platform 20 and a collinear coil transmission roller group 21 arranged in the collinear coil platform.

A collinear feeding guide table 52, a collinear feeding adjustment frame body 53 arranged on the collinear feeding guide table 52, and a collinear transplanting feeding drive roller mechanism 54 arranged on the collinear feeding guide table 52 are arranged between the collinear winding table 20 and the transplanting centering chassis 14.

As shown in fig. 1 and 2, and fig. 7 and 8, the auxiliary material feeding station includes an auxiliary material feeding transmission frame 22 disposed outside the PU transplanting centering station structure, an auxiliary material transmission belt 23 disposed in the auxiliary material feeding transmission frame, an auxiliary material transmission motor 23 disposed in the auxiliary material transmission belt, a coil cutting and guiding structure disposed behind the auxiliary material transmission belt and connected to the coil cutting station, and a profiling station guiding structure disposed in front of the auxiliary material transmission belt.

The coil stock cuts and draws the material structure package and establishes the cutting guide frame 24 at auxiliary material loading transmission frame 22 rear end, establish the middle part conduction axle 25 at cutting guide frame 24 middle part, establish at the left material loading transmission roller set 26 of cutting guide frame 24, connect the material loading conduction motor 27 of material loading transmission roller set 26, at the spacing transmission frame 27 on cutting guide frame 24 right side.

The profiling station material guiding structure comprises a material loading output transmission roller set 28 arranged at the front end of the auxiliary material loading transmission frame 22 and a material guiding limiting transmission frame 29 connected to the outer side of the material loading output transmission roller set 28.

The coil stock cutting station comprises a coil stock cutting connecting frame 30, a coil stock placing frame 31 arranged in the coil stock cutting connecting frame, and a coil stock cutting conveying belt 32 arranged at the front end of the coil stock placing frame.

As shown in fig. 1, 2 and 9, the workpiece profiling mechanism includes a press station 33, a profiling conveying station 34 disposed in the press station, and a profiling apparatus set 35 disposed in the profiling conveying station.

As shown in fig. 1 and 2, and fig. 10 and 11, the molded framework transfer station includes a framework transfer frame body 36, a framework transfer chain path 37 provided in the framework transfer frame body, a pressing member material guiding structure provided at the left end of the framework transfer chain path, and a material discharging and guiding structure provided at the right end of the framework transfer chain path.

The material guiding structure of the profiling part comprises a workpiece displacement transmission seat 38 connected to the left side of the framework transfer chain channel 37, a workpiece displacement moving seat 39 arranged on the workpiece displacement transmission seat 38, and a workpiece transmission connecting frame body 40 connected to the workpiece displacement moving seat 39.

The discharging guide structure comprises a workpiece discharging displacement transmission seat 41 arranged on the right side of the framework transfer chain channel 37, a workpiece discharging displacement seat 42 arranged on the workpiece discharging displacement transmission seat, and a workpiece discharging transmission connection frame body 43 connected to the workpiece discharging displacement seat 42.

The production line can save factory buildings and land, and one-span factory buildings can achieve the capacity of two-span factory buildings in the traditional scheme; the production efficiency is twice of that of the traditional production line, only one span of factory buildings needs to be occupied, the land and factory buildings are reduced, and the investment cost is greatly reduced. Under the condition of not increasing stations, the problems of simultaneous composite production of two products and composite production of AB two products in specified proportion are solved. Satisfy two kinds of products of AB coincide production simultaneously, the maximize utilizes the productivity of equipment. The industrial effect is obvious, the productivity is high, and the practicability is good.

The above examples are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

The parts not involved in the present invention are the same as or can be implemented using the prior art.

Claims (8)

1. The utility model provides a compound production line of car roof interior trim assembly which characterized in that: move a set of shaping skeleton and carry station, correspond every shaping skeleton and move the die mould unit that the station set up, connect every die mould unit's auxiliary material loading station, connect the coil stock of every auxiliary material loading station and cut the station, connect the coil stock and cut the duplex position acupuncture material loading platform structure of station rear end and establish and cut the middle part sharing line adjustment structure between the station with duplex position acupuncture material loading platform structural connection and establish work piece die mould mechanism, auxiliary material loading station, coil stock, middle part sharing line adjustment structure include PU board rubber rolling and move line collineation station, connect PU board rubber rolling and move the PU of line collineation station and transplant centering station coil stock and cut the collineation station.

2. A composite production line for an automotive roof interior trim assembly according to claim 1, characterized in that: the double-station needling feeding platform structure comprises a first needling material storage station, a second needling material storage station, a material conveying frame body arranged on the upper portions of the two needling material storage stations, a bidirectional transmission rail arranged on the material conveying frame body, a needling station material taking structure arranged on the bidirectional transmission rail and a needling station material conveying platform.

3. The multiple production line of automotive roof interior trim assembly of claim 1, characterized in that: the material taking structure at the needling station comprises a needling material taking seat arranged on the bidirectional transmission rail, a needling material taking cylinder group arranged on the needling material taking seat, a needling material taking connecting frame arranged at the lower part of the needling material taking cylinder group and a needling pneumatic material taking clamping seat arranged in the needling material taking connecting frame.

4. A composite production line for an automotive roof interior trim assembly according to claim 2, characterized in that: PU board rubber coating move and carry line collineation station include the PU board rubber coating part connection platform of being connected with acupuncture station transmission material platform, establish at the rubber coating roller set of PU board rubber coating part connection platform, establish and transport roller structure at the outside a set of coating guide of rubber coating roller set, transplant centering station structure and transplant the collineation coil stock cutting mechanism of centering station structural connection with PU that PU board rubber coating part connection platform is connected.

5. The composite production line of the automotive roof interior trim assembly of claim 4, characterized in that: auxiliary material loading station including establish the auxiliary material loading transmission frame in the outside of PU transplantation centering station structure, establish the auxiliary material transmission band in auxiliary material loading transmission frame, establish the auxiliary material transmission motor in the auxiliary material transmission band, establish at auxiliary material transmission band rear side with first coil stock cut the coil stock that the station is connected and cut the die mould station of drawing material structure and auxiliary material transmission band front side and draw the material structure.

6. A composite manufacturing line for automotive roof interior trim assemblies according to claim 1, characterized in that: the coil stock cutting station comprises a coil stock cutting connecting frame, a coil stock placing frame arranged in the coil stock cutting connecting frame, and a coil stock cutting conveying belt arranged at the front end of the coil stock placing frame.

7. A composite production line for an automotive roof interior trim assembly according to claim 1, characterized in that: the workpiece profiling mechanism comprises a press station, a profiling transmission station arranged in the press station and a profiling equipment set arranged in the profiling transmission station.

8. A composite production line for an automotive roof interior trim assembly according to claim 1, characterized in that: the molding framework transfer station comprises a framework transfer frame body, a framework transfer chain channel arranged in the framework transfer frame body, a pressing piece material guiding structure arranged at the left end of the framework transfer chain channel and a discharge guiding structure arranged at the right end of the framework transfer chain channel.

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