CN203344312U - Turning device and edge covering equipment - Google Patents

Abstract

The utility model relates to a turning device and edge covering equipment. The turning device is used for outwards turning a decorative fabric glued on the inner surface of the skylight opening part of a vehicle interior ceiling and gluing the decorative fabric to the outer surface of the skylight opening part. The turning device comprises a frame mechanism and a control mechanism, wherein the size of the frame mechanism corresponds to that of the skylight opening part; the control mechanism controls the frame mechanism to operate; the frame mechanism comprises four corner turning blocks and four edge turning blocks, the corner turning blocks are matched with shapes of corners of the skylight opening part, the edge turning blocks are matched with shapes of edges of skylight opening part, and the corner turning blocks and the edge turning blocks are contacted through inclined surfaces. During turning, the corner turning blocks and the edge turning blocks can turn the fabrics at the corners and the fabrics on the edges respectively, so that the problem of wrinkling after the fabrics at the corners are turned is solved, and the integral attractiveness of a finished product of the interior ceiling can be kept.

Description

Hemmer and equipment for wrapping

Technical field

The equipment for wrapping that the utility model relates to a kind of hemmer and has this hemmer, particularly a kind ofly turn up to the hemmer of the outer surface of skylight peristome and the equipment for wrapping with this hemmer for the decorative fabric on the skylight peristome inner surface that will be bonded at the automotive trim top.

Background technology

In the half-finished process of automotive trim top, the decorative fabric that sticks on the half-finished skylight of interior trim top peristome inner surface need to turn to from the inner surface of skylight peristome the outer surface of skylight peristome, and bonding with the outer surface of skylight peristome.Present multiplex hemmer automatically performs this step.

Existing hemmer comprises a frame mechanism corresponding with the half-finished skylight of automobile calash peristome size, and this frame mechanism comprises the flange piece of four close contacts.Each flange piece all is the L-type structure.Wherein the bight of L-type structure is corresponding with the corner shape of skylight peristome, the limit section shape correspondence of Bu Yu skylight, the limit peristome of L-type structure.The flange piece can be advanced or backward movement.

The structure chart of the hemmer that Fig. 1 is prior art when off working state.As shown in Figure 1, under off working state, four flange pieces are close contact in twos, and frame mechanism is in merging phase.

The structure chart when hemmer that Fig. 2 is prior art is in running order.As shown in Figure 2, in the half-finished process of interior trim top, the flange piece carries out forward motion, the decorative fabric of skylight peristome is extrapolated to the outside of skylight peristome from the inboard of skylight peristome, so that decorative fabric is bonded together with the skylight peristome that scribbles in advance adhesive, thereby make interior trim top finished product, now, adjacent two flange pieces are lost contact, and frame mechanism is in decomposing state.

Yet, after the flange piece completes forward motion, because the spacing of adjacent two flange pieces is excessive, cause being positioned at peristome bight, skylight inhomogeneous with the tension force that the decorative fabric that is positioned at peristome limit, skylight section is subject to, thereby the decorative fabric and the skylight peristome outer surface that are positioned at peristome bight, skylight are irregularly bonding, crease easily, not only affected the overall appearance degree of automotive trim top finished product, even can cause the interior trim top finished product can't perfect cooperation with the exterior trim top, cause interior trim top end product quality not up to standard.

The utility model content

The utility model carries out in order to address the above problem, and purpose is to provide the flanging device that a kind of flange quality is high and the equipment for wrapping with this hemmer.

The utility model to achieve these goals, has adopted following structure:

<structure 1 >

The utility model provides a kind of hemmer, be positioned at the bight rim charge in peristome bight, skylight and be positioned at peristome limit, skylight Bu limit section rim charge for the decorative fabric on the skylight peristome inner surface that will be bonded at the automotive trim top and turn to the outer surface of skylight peristome from the inner surface of skylight peristome, it is characterized in that, comprise the controlling organization that the frame mechanism corresponding with the size of skylight peristome and control framework mechanism are moved, wherein, frame mechanism comprises four angle flange unit corresponding with the angle of skylight peristome and four limit flange unit corresponding with the limit of skylight peristome, flange unit, angle has the angle flange piece conformed to the shape at the angle of skylight peristome, with for driving angle flange piece to be advanced or the angle drive member of backward movement, when controlling organization pilot angle drive member drives angle flange piece to carry out forward motion, angle flange piece is extrapolated to the bight rim charge lateral surface of skylight peristome from the medial surface of skylight peristome, flange unit, limit has the limit flange piece conformed to the shape on the limit of skylight peristome, and for driving limit flange piece to be advanced or the limit drive member of backward movement, when controlling organization control limit drive member drives limit flange piece to carry out forward motion, limit flange piece is extrapolated to the lateral surface of skylight peristome by limit section rim charge from the medial surface of skylight peristome, limit flange piece and angle flange piece contact by inclined-plane, and the dihedral angle that inclined-plane becomes with the lateral surface of limit flange piece is 30 °～90 °.

In addition, in above-mentioned hemmer, such feature can also be arranged: controlling organization can also the pilot angle drive member drive angle flange piece to be moved down or vertical motion, the skylight peristome has an edge protuberance section, angle flange piece has the bight groove corresponding with the bight size of edge protuberance section, while moving in controlling organization pilot angle drive member, driving angle flange piece to be moved down, the bight rim charge is pressed to the bight of edge protuberance section.

In addition, in above-mentioned hemmer, such feature can also be arranged: wherein, controlling organization can also be controlled the limit drive member and drive limit flange piece to be moved down or vertical motion, the skylight peristome has an edge protuberance section, limit flange piece has the limit section groove corresponding with the limit section size of edge protuberance section, while for control the limit drive member at controlling organization, driving limit flange piece to be moved down action, limit section rim charge is pressed to the limit section of edge protuberance section.

Further, in above-mentioned hemmer, such feature can also be arranged: wherein, angle drive member or limit drive member are cylinder.

<structure 2 >

The utility model provides a kind of equipment for wrapping, be positioned at the bight rim charge in peristome bight, skylight and be positioned at peristome limit, skylight Bu limit section rim charge and overturn and be bonded to the outer surface of skylight peristome from the inner surface of skylight peristome for being bonded at decorative fabric on the skylight peristome inner surface of automotive trim top, it is characterized in that, comprise: hemmer, be positioned at the bight rim charge in peristome bight, skylight and be positioned at peristome limit, skylight Bu limit section rim charge for the decorative fabric on the skylight peristome inner surface that will be bonded at the automotive trim top and turn to the outer surface of skylight peristome from the inner surface of skylight peristome, wherein, hemmer comprises: the frame mechanism corresponding with the size of skylight peristome, and the controlling organization that moved of control framework mechanism, wherein, frame mechanism comprises four angle flange unit corresponding with the angle of skylight peristome and four limit flange unit corresponding with the limit of skylight peristome, flange unit, angle has the angle flange piece conformed to the shape at the angle of skylight peristome, and for driving angle flange piece to be advanced or the angle drive member of backward movement, when controlling organization pilot angle drive member drives angle flange piece to carry out forward motion, angle flange piece is extrapolated to the bight rim charge lateral surface of skylight peristome from the medial surface of skylight peristome, flange unit, limit has the limit flange piece conformed to the shape on the limit of skylight peristome, and for driving limit flange piece to be advanced or the limit drive member of backward movement, when controlling organization control limit drive member drives limit flange piece to carry out forward motion, limit flange piece is extrapolated to the lateral surface of skylight peristome by limit section rim charge from the medial surface of skylight peristome, limit flange piece and angle flange piece contact by inclined-plane, and the dihedral angle that inclined-plane becomes with the lateral surface of limit flange piece is 30 °～90 °.

In addition, in above-mentioned equipment for wrapping, such feature can also be arranged: wherein, controlling organization can also the pilot angle drive member drive angle flange piece to be moved down or vertical motion, the skylight peristome has an edge protuberance section, angle flange piece has the bight groove corresponding with the bight size of edge protuberance section, while moving in controlling organization pilot angle drive member, driving angle flange piece to be moved down, the bight rim charge is pressed to the bight of edge protuberance section.

In addition, in above-mentioned equipment for wrapping, such feature can also be arranged: wherein, controlling organization can also be controlled the limit drive member and drive limit flange piece to be moved down or vertical motion, the skylight peristome has an edge protuberance section, limit flange piece has the limit section groove corresponding with the limit section size of edge protuberance section, while for control the limit drive member at controlling organization, driving limit flange piece to be moved down action, limit section rim charge is pressed to the limit section of edge protuberance section.

Further, in above-mentioned equipment for wrapping, such feature can also be arranged: wherein, angle drive member or limit drive member are cylinder.

The effect of utility model and effect

The hemmer related to according to the utility model, because this hemmer is provided with respectively the limit flange piece that the angle flange piece that conforms to the shape in bight conforms to shape with limit section for the bight of the half-finished skylight of interior trim top peristome and limit section, so when flange, angle flange piece and limit flange piece can be respectively carry out flange to bight rim charge and the limit section rim charge of skylight peristome, thereby solved bight rim charge wrinkling problem after flange, can keep on the whole attractive in appearance of interior trim top finished product.

On the other hand, because limit flange piece and angle flange piece contact by inclined-plane, therefore when flange, the spacing of limit flange piece and angle flange piece is less, make and lay respectively at peristome bight, skylight and limit Bu bight rim charge and limit section rim charge to be subject to the tension force effect more even, thereby when bound edge, decorative fabric is not creased easily, be conducive to combining closely of interior trim top finished product and exterior trim top.

The accompanying drawing explanation

The structure chart of the hemmer that Fig. 1 is prior art when off working state;

The structure chart when hemmer that Fig. 2 is prior art is in running order;

The structure chart of the equipment for wrapping that Fig. 3 is the utility model embodiment;

The front view of the equipment for wrapping that Fig. 4 is the utility model embodiment;

The block diagram of the equipment for wrapping that Fig. 5 is the utility model embodiment;

The half-finished structural representation of automotive trim top that Fig. 6 is the utility model embodiment;

The structural representation that Fig. 7 is the automotive trim top in the utility model embodiment;

Fig. 8 is the half-finished part-structure cutaway view of the automotive trim top in the utility model embodiment;

The positioner schematic diagram that Fig. 9 is the utility model embodiment;

The position view of the hemmer that Figure 10 is the utility model embodiment;

The structure chart of the hemmer that Figure 11 is the utility model embodiment;

The structure chart of the frame mechanism that Figure 12 is the utility model embodiment;

The structure chart of the heater that Figure 13 is the utility model embodiment;

The action flow chart of the equipment for wrapping that Figure 14 is the utility model embodiment;

The action schematic diagram of the flanging member that Figure 15 is the utility model embodiment;

The angle flange piece that Figure 16 is the utility model embodiment or the micromotion schematic diagram of limit flange piece;

The angle flange piece that Figure 17 is the utility model embodiment or limit flange piece move down the action schematic diagram;

The angle flange piece that Figure 18 is the utility model embodiment or the merging of limit flange piece action schematic diagram;

The down maneuver schematic diagram of the heater that Figure 19 is the utility model embodiment;

The vertical motion schematic diagram of the flanging member that Figure 20 is the utility model embodiment;

The structural representation of the interior trim top finished product that Figure 21 is the utility model embodiment;

The BB sectional view that Figure 22 is Figure 21;

The structure chart of the frame mechanism that Figure 23 is the utility model variation one when merging phase;

The structure chart of the frame mechanism that Figure 24 is the utility model variation one when decomposing state; And

The structure chart of the frame mechanism that Figure 25 is the utility model variation two.

The specific embodiment

Flanging device the utility model related to below in conjunction with accompanying drawing and the Wrapping apparatus with this flanging device are described in detail.

Embodiment

The structure chart of the equipment for wrapping that Fig. 3 is the utility model embodiment.

The front view of the equipment for wrapping that Fig. 4 is the utility model embodiment.

The block diagram of the equipment for wrapping that Fig. 5 is the utility model embodiment.

As shown in Fig. 3,4,5, equipment for wrapping 1 overturns for the rim charge 15 of the decorative fabric 9 of interior trim top semi-finished product 7 inner surfaces that will stick on automobile and pastes the outer surface of interior trim top semi-finished product 7, comprises conducting parts 31, control part 5, positioner 2, heater 4 and hemmer 3.

Control part 5 is used for the whole action of controlling conducting parts 31, positioner 2, hemmer 3 and heater 4.

Conducting parts 31 is used for completing the connecting and disconnecting of the circuit action to positioner 2, hemmer 3 and heater 4 under the instruction of control part 5.Conducting parts 31 does not show in Fig. 3, Fig. 4.

The half-finished structural representation of automotive trim top that Fig. 6 is the utility model embodiment.

As shown in Figure 6, there is skylight peristome 8 centre of interior trim top semi-finished product 7, and skylight peristome 8 is for installing the skylight of automobile.There is an edge protuberance section 14 at the edge of skylight peristome 8.

The structural representation that Fig. 7 is the automotive trim top in the utility model embodiment.

As shown in Figure 7, the outside of the edge protuberance section 14 of automotive trim top is fixed with the skylight frame corresponding with the shape of edge protuberance section 14 16.

Fig. 8 is the half-finished part-structure cutaway view of the automotive trim top in the utility model embodiment.

As shown in Figure 8, the interior trim top semi-finished product 7 of automobile comprise decorative fabric 9 and top skeleton 10, and wherein, decorative fabric 9 is bonded in the inner surface of top skeleton 10.The part that extends to peristome 8 inboards in skylight in decorative fabric 9 is rim charge 15.As shown in Figure 6, rim charge 15 comprises bight rim charge 25 and limit section rim charge 26, and bight rim charge 25 is positioned at the inboard at four angles of skylight peristome 8, and limit section rim charge 26 is positioned at the inboard of the four edges of skylight peristome 8.Equipment for wrapping 1 is crossed bight rim charge 25 and limit section rim charge 26 skylight peristome 8 and is bonded in the outer surface of skylight frame 16 with regard to being used for from the inboard of skylight peristome 8.

The positioner schematic diagram that Fig. 9 is the utility model embodiment.

As shown in Figure 9, positioner 2 comprises positioning pedestal 12 and is positioned at the orientation film tire 13 on positioning pedestal 12.Wherein, the shape of orientation film tire 13 conforms to the surface configuration of interior trim top semi-finished product 7, for in the bound edge process, interior trim top semi-finished product 7 being fixed, produce and rock in the bound edge process to prevent interior trim top semi-finished product 7, be convenient to carrying out smoothly of bound edge process.

The position view of the hemmer that Figure 10 is the utility model embodiment.

As shown in figure 10, hemmer 3 is positioned at the top of orientation film tire 13 and the centre of skylight peristome 8.

The structure chart of the hemmer that Figure 11 is the utility model embodiment.

As shown in figure 11, hemmer 3 comprises a frame mechanism 17 and a controlling organization moved for control framework mechanism 17 18.The height h of hemmer 3 ₁for 383mm, the height h of controlling organization 18 ₂for 260mm.

The structure chart of the frame mechanism that Figure 12 is the utility model embodiment.

As shown in figure 12, the long L of frame mechanism 17 ₁for 698.7mm, wide L ₂for 558.4mm, comprise flange unit, four angles 19 and flange unit, four limits 20.Wherein, each flange unit, angle 19 comprises again an angle flange piece 21 and an angle drive member 23, and angle flange piece 21 is corresponding with the shape at the angle of skylight peristome 8, and angle drive member 23 is for driving angle flange piece 22 to be advanced or backward movement.Each flange unit, limit 20 comprises again a limit flange piece 22 and a limit drive member 24, and limit flange piece 22 is corresponding with the shape on the limit of skylight peristome 8, and limit drive member 24 is for driving limit flange piece 22 to be advanced or backward movement.The upper surface of limit flange piece 22 is trapezoidal faces.Limit flange piece 22 and angle flange piece 21 contact by inclined-plane, inclined-plane is 45 ° with the dihedral angle α that the lateral surface of limit flange piece becomes, this angle can guarantee that limit flange piece 22 and angle flange piece 21 are separated from each other the time interval minimum, thereby significantly reduce the suffered tension force of decorative fabric 9 between limit flange piece 22 and angle flange piece 21, it is not creased easily when the corresponding site to skylight frame 16 carries out bound edge.Angle drive member 23 and limit drive member 24 are cylinder.

Controlling organization 18 is used for control framework mechanism 17 and is decomposed and merge action.Frame mechanism 17 is when merging phase, and limit flange piece 22 and angle flange piece 21 lay respectively at merging position separately, are the close contact state.Now, the size of whole frame mechanism 17 is corresponding with the size of skylight peristome 8.

When frame mechanism 17 starts micromotion, controlling organization 18 pilot angle drive member 23 drive angle flange piece 21 to advance to the first decomposition position from the first merging position, angle flange piece 21 is extrapolated to bight rim charge 25 lateral surface of skylight peristome 8 from the medial surface of skylight peristome 8, meanwhile, controlling organization 18 is also controlled limit drive member 24 and is driven limit flange piece 22 to advance to the second decomposition position from the second merging position, limit flange piece 22 is extrapolated to limit section rim charge 26 medial surfaces from skylight peristome 8 lateral surface of skylight peristome 8, now frame mechanism 17 is in decomposing state.The distance that angle flange piece 21 advances is 18mm, and the distance that limit flange piece 22 advances is 13mm.

Controlling organization 18 can also pilot angle flange piece 21 and limit flange piece 22 moved down respectively and vertical motion.The lower end of angle flange piece 21 also has the bight groove, the bight groove is corresponding with the bight height of the edge protuberance section 14 of skylight peristome 8, while being moved for moving down at angle flange piece 21, bight rim charge 25 is pressed to the bight outer surface of skylight frame 16, so that bight rim charge 25 is bonded together with the bight outer surface that scribbles in advance the skylight frame 16 of adhesive.The lower end of limit flange piece 22 also has limit section groove 28, limit section groove 28 is highly corresponding with the limit section of the edge protuberance section 14 of skylight peristome 8, be used for making limit section rim charge 26 to press to the limit section outer surface of skylight frame 16 when limit flange piece 22 is moved down action, so that limit section rim charge 26 is bonded together with the limit section outer surface that scribbles in advance the skylight frame 16 of adhesive.

After frame mechanism 17 completes micromotion, controlling organization 18 pilot angle drive member 23 drive angle flange piece 21 to be displaced downwardly to the first flange position from the first decomposition position, by bight rim charge 25, the bight with skylight frame 16 compresses the groove walls of the bight groove of this hour angle flange piece 21, so that bight rim charge 25 is closely bonding with the bight of the skylight frame 16 that scribbles in advance adhesive.Simultaneously, controlling organization 18 is controlled limit drive member 24 and is driven limit flange piece 22 to be displaced downwardly to the second flange position from the second decomposition position, now by limit section rim charge 26, the limit section with skylight frame 16 compresses the groove walls of the limit section groove 28 of limit flange piece 22, so that limit section rim charge 26 is closely bonding with the limit section of the skylight frame 16 that scribbles in advance adhesive, thereby complete one, take turns the flange action.The distance that limit flange piece 22 and angle flange piece 21 move down is 15mm.

After flange has moved, frame mechanism 17 starts to merge action, now, controlling organization 18 pilot angle drive member 23 drive angle flange piece 21 to rise to the first decomposition position from the first flange position, controlling organization 18 is controlled limit drive member 24 driving limit flange pieces 22 and is risen to the second decomposition position from the second flange position simultaneously, and now frame mechanism 17 is in decomposing state.Then, controlling organization 18 pilot angle drive member 23 drive angle flange piece 21 to retreat to the first merging position from the first decomposition position, also control limit drive member 24 and drive limit flange piece 22 to retreat to the first merging position from the first decomposition position, now limit flange piece 22 and angle flange piece 21 are got back to again the close contact state simultaneously.

The structure chart of the heater that Figure 13 is the utility model embodiment.

As shown in figure 13, heater 4 is positioned at the top of equipment for wrapping 1, comprises flanging member and heater.

Wherein, the flanging member, for interior trim top semi-finished product 7 being pressed on to the orientation film tire 13 of positioner 2, shakes in turn-up process to prevent interior trim top semi-finished product 7, thereby affects the flange quality.

Heater is corresponding with the shape of skylight peristome 8, for after flange completes, from initial position, moving downward and, with skylight peristome 8 tablings, rim charge 15 tightly be pressed in to the outer surface of skylight frame 16.Control part 5 control heaters start to heat rim charge 15 simultaneously, make rim charge 15 bonding with skylight frame 16.In heating process, heat can see through rim charge 15 pass to skylight frame 16, and the adhesive that the is coated in skylight frame 16 outer surfaces thawing of being heated, be bonded together rim charge 15 firmly with skylight frame 16.After bonding action executing, control part 5 is controlled heater 30 and is stopped heating, then controls heater 30 and moves up to initial position.

The action flow chart of the equipment for wrapping that Figure 14 is the utility model embodiment.

As shown in figure 14, it is as described below that the interior trim top semi-finished product 7 of 1 pair of automobile of equipment for wrapping carry out the flow process of bound edge action:

Step S1:

The interior trim top semi-finished product 7 of automobile are placed on positioner 2.At first the skylight peristome 8 of interior trim top semi-finished product 7 is just located by the frame mechanism 17 in merging phase, and then whole interior trim top semi-finished product 7 are placed on orientation film tire 13 and are again located.

Step S2:

The action schematic diagram of the flanging member that Figure 15 is the utility model embodiment.What Figure 15 only showed is the part-structure of flanging member.

As shown in figure 15, control part 5 starts to heater 4 energisings by conducting parts 31, and the flanging member 29 of controlling heater 4 is moved downward to the flanging position from the first initial position, interior trim top semi-finished product 7 is pressed on the orientation film tire 13 of positioner 2.Now, ，Ji angle, the merging position flange piece 21 that the limit flange piece 22 of frame mechanism 17 and angle flange piece 21 lay respectively at separately is positioned at the first merging position, and limit flange piece 22 is positioned at the second merging position.Figure 15 only be take limit flange piece 22 and is described as example.

Step S3:

The angle flange piece that Figure 16 is the utility model embodiment or the micromotion schematic diagram of limit flange piece.What Figure 16 showed is to be only the part-structure of angle flange piece or limit flange piece.

As shown in figure 16, controlling organization 18 pilot angle flange pieces 21 and limit flange piece 22 advance to respectively decomposition position separately from merging position separately, , controlling organization 18 pilot angle drive member 23 drive angle flange piece 21 to advance to the first decomposition position from the first merging position, angle flange piece 21 is extrapolated to bight rim charge 26 lateral surface of skylight peristome 8 from the medial surface of skylight peristome 8, meanwhile, controlling organization 18 is also controlled limit drive member 24 and is driven limit flange piece 22 to advance to the second decomposition position from the second merging position, limit flange piece 22 is extrapolated to limit section rim charge 26 medial surfaces from skylight peristome 8 lateral surface of skylight peristome 8.Figure 16 only be take limit flange piece 22 and is described as example.

Step S4:

The angle flange piece that Figure 17 is the utility model embodiment or limit flange piece move down the action schematic diagram.Figure 17 only shows the part-structure of angle flange piece or limit flange piece.

As shown in figure 17, controlling organization 18 pilot angle flange pieces 21 and limit flange piece 22 are displaced downwardly to flange position separately from decomposition position separately respectively,, controlling organization 18 pilot angle drive member 23 drive angle flange pieces 21 to be displaced downwardly to the first flange position from the first decomposition position, also control limit drive member 24 simultaneously and drive limit flange pieces 22 to be displaced downwardly to the second flange position from the second decomposition position.Figure 17 be take limit flange piece 22 and is described as example.

Step S5:

Controlling organization 18 pilot angle flange pieces 21 and limit flange piece 22 rise to decomposition position separately from flange position separately respectively,, controlling organization 18 pilot angle drive member 23 drive angle flange pieces 21 to rise to the first decomposition position from the first flange position, also control limit drive member 24 simultaneously and drive limit flange pieces 22 to rise to the second decomposition position from the second flange position.

Step S6:

The angle flange piece that Figure 18 is the utility model embodiment or the merging of limit flange piece action schematic diagram.Figure 18 only shows the part-structure of angle flange piece or limit flange piece.

As shown in figure 18, controlling organization 18 pilot angle flange pieces 21 and limit flange piece 22 retreat to merging position separately from decomposition position separately respectively,, controlling organization 18 pilot angle drive member 23 drive angle flange pieces 21 to retreat to the first merging position from the first decomposition position, also control limit drive member 24 simultaneously and drive limit flange pieces 22 to retreat to the second merging position from the second decomposition position.Figure 18 only be take limit flange piece 22 and is described as example.

Step S7:

The down maneuver schematic diagram of the heater that Figure 19 is the utility model embodiment.Figure 19 only shows the part-structure of heater.

As shown in figure 19, control part 5 is controlled heater 30 and is displaced downwardly to heating location from the second initial position, makes heater 30 with skylight peristome 8 tablings, then controls heater 30 and starts heating process.Figure 19 only be take limit flange piece 22 and is described as example.

Step S8:

Control part 5 is controlled heater 30 and is stopped heating process, then controls heater and rises to the second initial position from heating location.Now, interior trim top semi-finished product 7 become interior trim top finished product 32.

Step S9:

The vertical motion schematic diagram of the flanging member that Figure 20 is the utility model embodiment.Figure 20 only shows the part-structure of heater.

As shown in figure 20, the flanging member 29 that control part 5 is controlled heater 4 rises to the first initial position from the flanging position, and flanging member 29 and interior trim top finished product 32 are separated.So far bound edge action all is finished.

The structural representation of the interior trim top finished product that Figure 21 is the utility model embodiment.

The BB sectional view that Figure 22 is Figure 21.

As shown in Figure 21,22, through said process, in interior trim top finished product 32, rim charge 15 is bonded together with the outer surface of skylight frame 16.

Variation one

Certainly, the hemmer that the utility model relates to is not limited to the structure of narration in the present embodiment, according to the half-finished style of interior trim top of automobile, can select to increase or reduce the number of flange unit, limit and limit drive member.

The structure chart of the frame mechanism that Figure 23 is the utility model variation one when merging phase.

The structure chart of the frame mechanism that Figure 24 is the utility model variation one when decomposing state.

As shown in Figure 23,24, frame mechanism 33 comprises flange unit, four angles 34 and flange unit, four limits 35.Wherein, each flange unit, angle 34 comprises again an angle flange piece 36 and an angle drive member 38, and each flange unit, limit 35 comprises again a limit flange piece 37 and two limit drive member 39.Limit drive member 39 is cylinder.This variation is for the longer situation of limit flange piece 37 length of frame mechanism 33.In limit flange piece 37 length, when longer, limit flange piece 37 arranges two limit drive member 39, can give the thrust of limit flange piece 37 with balance.

Variation two

In an embodiment, being shaped as of limit flange piece is trapezoidal, angle flange piece be shaped as the class rectangle.In variation two, can also, according to the style of the interior trim top semi-finished product 7 of automobile, select to change the shape of limit flange piece 37 or angle flange piece 36.

The structure chart of the frame mechanism that Figure 25 is the utility model variation two.

As shown in figure 25, according to the style of the skylight peristome 8 of the interior trim top semi-finished product 7 of automobile, the surface of the angle flange piece 27 of frame mechanism 11 can also be made as gore.

Claims (8)

1. a hemmer, be positioned at the bight rim charge in peristome bight, described skylight and be positioned at Bu limit, peristome limit, described skylight section rim charge for the decorative fabric on the skylight peristome inner surface that will be bonded at the automotive trim top and turn to the outer surface of described skylight peristome from the inner surface of described skylight peristome, it is characterized in that, comprising:

The frame mechanism corresponding with the size of described skylight peristome; And

Control the controlling organization that described frame mechanism is moved,

Wherein, described frame mechanism comprises four angle flange unit corresponding with the angle of described skylight peristome and four limit flange unit corresponding with the limit of described skylight peristome,

Flange unit, described angle has the angle flange piece conformed to the shape at the angle of described skylight peristome, and for driving described angle flange piece to be advanced or the angle drive member of backward movement; When described controlling organization is controlled described angle drive member and driven described angle flange piece to carry out forward motion, described angle flange piece is extrapolated to described bight rim charge the lateral surface of described skylight peristome from the medial surface of described skylight peristome,

Flange unit, described limit has the limit flange piece conformed to the shape on the limit of described skylight peristome, and for driving described limit flange piece to be advanced or the limit drive member of backward movement; When described controlling organization is controlled described limit drive member and driven described limit flange piece to carry out forward motion, described limit flange piece is extrapolated to the lateral surface of described skylight peristome by described limit section rim charge from the medial surface of described skylight peristome,

Described limit flange piece and described angle flange piece contact by inclined-plane, and described inclined-plane is 30 °～90 ° with the dihedral angle that the lateral surface of described limit flange piece becomes.

2. hemmer according to claim 1 is characterized in that:

Wherein, described controlling organization can also be controlled described angle drive member and drive described angle flange piece to be moved down or vertical motion,

Described skylight peristome has an edge protuberance section,

Described angle flange piece has the bight groove corresponding with the bight size of described edge protuberance section, while for control described angle drive member at described controlling organization, driving described angle flange piece to be moved down action, described bight rim charge is pressed to the bight of described edge protuberance section.

3. hemmer according to claim 1 is characterized in that:

Wherein, described controlling organization can also be controlled described limit drive member and drive described limit flange piece to be moved down or vertical motion,

Described skylight peristome has an edge protuberance section,

Described limit flange piece has the limit section groove corresponding with the limit section size of described edge protuberance section, while for control described limit drive member at described controlling organization, driving described limit flange piece to be moved down action, described limit section rim charge is pressed to the limit section of described edge protuberance section.

4. hemmer according to claim 1 is characterized in that:

Wherein, described angle drive member or limit drive member are cylinder.

5. an equipment for wrapping, be positioned at the bight rim charge in peristome bight, described skylight and be positioned at Bu limit, peristome limit, described skylight section rim charge and overturn and be bonded to the outer surface of described skylight peristome from the inner surface of described skylight peristome for being bonded at decorative fabric on the skylight peristome inner surface of automotive trim top, it is characterized in that, comprising:

Hemmer, be positioned at the bight rim charge in peristome bight, described skylight and be positioned at Bu limit, peristome limit, described skylight section rim charge and turn to the outer surface of described skylight peristome from the inner surface of described skylight peristome for the decorative fabric on the skylight peristome inner surface that will be bonded at the automotive trim top;

Wherein, described hemmer comprises:

The frame mechanism corresponding with the size of described skylight peristome; And

Control the controlling organization that described frame mechanism is moved,

Described frame mechanism comprises four angle flange unit corresponding with the angle of described skylight peristome and four limit flange unit corresponding with the limit of described skylight peristome,

Flange unit, described angle has the angle flange piece conformed to the shape at the angle of described skylight peristome, and for driving described angle flange piece to be advanced or the angle drive member of backward movement; When described controlling organization is controlled described angle drive member and driven described angle flange piece to carry out forward motion, described angle flange piece is extrapolated to described bight rim charge the lateral surface of described skylight peristome from the medial surface of described skylight peristome,

Flange unit, described limit has the limit flange piece conformed to the shape on the limit of described skylight peristome, and for driving described limit flange piece to be advanced or the limit drive member of backward movement; When described controlling organization is controlled described limit drive member and driven described limit flange piece to carry out forward motion, described limit flange piece is extrapolated to the lateral surface of described skylight peristome by described limit section rim charge from the medial surface of described skylight peristome,

Described limit flange piece and described angle flange piece contact by inclined-plane, and described inclined-plane is 30 °～90 ° with the dihedral angle that the lateral surface of described limit flange piece becomes.

6. equipment for wrapping according to claim 5 is characterized in that:

Wherein, described controlling organization can also be controlled described angle drive member and drive described angle flange piece to be moved down or vertical motion,

Described skylight peristome has an edge protuberance section,

Described angle flange piece has the bight groove corresponding with the bight size of described edge protuberance section, while for control described angle drive member at described controlling organization, driving described angle flange piece to be moved down action, described bight rim charge is pressed to the bight of described edge protuberance section.

7. equipment for wrapping according to claim 6 is characterized in that:

Wherein, described controlling organization can also be controlled described limit drive member and drive described limit flange piece to be moved down or vertical motion,

Described skylight peristome has an edge protuberance section,

Described limit flange piece has the limit section groove corresponding with the limit section size of described edge protuberance section, while for control described limit drive member at described controlling organization, driving described limit flange piece to be moved down action, described limit section rim charge is pressed to the limit section of described edge protuberance section.

8. equipment for wrapping according to claim 6 is characterized in that:

Wherein, described angle drive member or limit drive member are cylinder.

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