CN110712241A - Die-cutting machine for coating part of automotive interior part - Google Patents

Abstract

The application provides an automotive interior part cladding spare cross cutting machine, including the frame, set up the workstation in the frame, set up at the left electric cabinet of frame, the upper end of electric cabinet is provided with feeding part, laminating part and tectorial membrane part, the laminating part sets up the right side at feeding part, the tectorial membrane part sets up the right side at the laminating part the rear side of workstation is provided with supplementary work or material rest, inside the frame, the mesa that passes the workstation is provided with the die holder part the right side of die holder part is provided with draws the material part, draw the material part to set up at the right side border of frame, and draw material part and working face to be in on the same horizontal plane, the downside that draws the material part is provided with the work or material rest part, the work or material rest part sets up on the right side panel of frame.

Description

Die-cutting machine for coating part of automotive interior part

Technical Field

The application relates to the technical field of die cutting machines, in particular to a die cutting machine for a coating part of an automotive interior part.

Background

In the processing process of automobile interiors, leather, textile and the like are required to coat the skins of the interiors, and because the automobile interiors are various, such as hollow interiors, handles, instrument panels, steering wheels and the like, need to be decorated, the coating materials of the interiors need to be cut into different shapes before being coated, the coatings are manually cut by traditional technical means, the manual cutting efficiency is low, and the interiors are easily mistakenly cut.

In the prior art, a die cutting machine is generally adopted to cut skins into different shapes. In the prior art documents, for example, patent numbers are: "CN 201520059469.2" discloses a novel cross cutting machine, and its adopted cross cutting technical principle is: in the process of completing die cutting operation through the upper die and the lower die, the main shaft driving motor drives the cam main shaft to rotate, the cam main shaft drives the lifting movable arm to reciprocate up and down through the main shaft cam block of the cam main shaft, the lifting movable seat also reciprocates up and down under the driving action of the lifting movable arm, the lifting movable seat drives the supporting guide pillar to reciprocate up and down, and the supporting guide pillar finally drives the upper die to reciprocate up and down relative to the lower die so as to realize die opening and die closing actions. "

In the technical scheme, the wheel main shaft drives the lifting movable arm to reciprocate up and down through the main shaft cam block, and the movement of the main shaft cam block is limited, so that the over-small die opening is easily caused in the die opening and closing process.

Disclosure of Invention

In view of the above, the present application provides a die cutting machine for covering parts of automotive interior.

The technical scheme adopted by the application is as follows:

an automotive interior part cladding piece die-cutting machine comprises

A frame, a workbench arranged on the frame, an electric cabinet arranged on the left side of the frame,

the upper end of the electric cabinet is provided with a feeding part, a laminating part and a film coating part, the laminating part is arranged on the right side of the feeding part, the film coating part is arranged on the right side of the laminating part,

an auxiliary material rack is arranged at the rear side of the workbench,

a die holder part is arranged in the frame and penetrates through the table surface of the worktable,

a material pulling part is arranged on the right side of the die holder part, the material pulling part is arranged on the right side edge of the frame, the material pulling part and the working surface are positioned on the same horizontal plane,

the material pulling component is arranged on the lower side of the material pulling component, and the material rack component is arranged on a right side face plate of the rack.

Furthermore, the feeding part comprises a feeding bottom plate, the feeding bottom plate is arranged at the upper end of the electric cabinet, a horizontally arranged feeding air suction box and a horizontal feeding fixed rod arranged on the left side of the feeding air suction box are arranged on the feeding bottom plate, a horizontal feeding pressure rod is arranged on the upper right side of the horizontal feeding fixed rod, and a horizontal pressure plate is arranged on the horizontal feeding pressure rod;

an inclined feeding frame which is obliquely arranged is arranged on the left side of the feeding bottom plate, a feeding supporting plate is arranged in the middle of the inclined feeding frame, an inclined feeding fixed rod and a feeding rolling rod are respectively arranged along the left side and the right side of the feeding supporting plate, the inclined feeding fixed rod and the feeding rolling rod are arranged on the inclined feeding frame, and the feeding rolling rod is arranged on the right side of the inclined feeding fixed rod,

an inclined feeding pressing rod is arranged on the left side of the feeding supporting plate, an inclined pressing plate is arranged on the inclined feeding pressing rod, and the inclined feeding pressing rod is fixed on an inclined feeding frame.

Further, the laminating part includes the laminating frame, the laminating frame sets up on feeding bottom plate, the middle part of laminating frame is provided with a laminating gag lever post, sets up in laminating gag lever post top and crisscross at least a set of laminating roll bar and the laminating dead lever that sets up from top to bottom the upper end of laminating frame is provided with the laminating depression bar be provided with the laminating clamp plate on the laminating depression bar, the left and right sides of laminating depression bar is provided with the laminating stroke support, the laminating stroke support passes through extension spring and laminating compression bar connection.

Further, the film covering component comprises a film covering bracket and a group of film covering rollers arranged on the film covering bracket, adjusting wires are arranged at the film covering rollers and are arranged on the film covering bracket, and a group of film covering fixing rods are arranged at the front ends of the film covering rollers.

Furthermore, the die holder component comprises a die holder consisting of an upper die holder and a lower die holder, and a lifting component is arranged below the lower die holder.

Furthermore, the upper die base comprises an upper die cover, an upper die base bottom plate arranged at the lower part of the upper die cover, and an upper die body arranged on the upper die base bottom plate;

the lower die base comprises a lower die cover and a lower die base bottom plate arranged at the upper end of the lower die cover, and a lower die body is arranged on the lower die base bottom plate;

the upper die cover and the lower die cover are connected through a lifting guide post,

the lower end of the lower die cover is provided with a supporting seat, a lifting component is arranged below the supporting seat,

the left side of the lower die cover is provided with a feeding plate, and the right side of the lower die cover is provided with a discharging plate.

Furthermore, the lifting component comprises a lifting seat, bearing seats are arranged on the left side and the right side of the lifting seat, a connecting plate is arranged below the bearing seats, a main eccentric shaft is arranged between the bearing seats, a gear is arranged on the main eccentric shaft, a connecting rod is arranged on the right side of the gear, an adjusting shaft is arranged above the main eccentric shaft and is arranged in the lifting seat, the adjusting shaft is fixed above the connecting rod, a tightening seat is arranged on the left side of the adjusting shaft, adjusting teeth are arranged on the right side of the adjusting shaft, the connecting rod is arranged between the tightening seat and the adjusting teeth, the lifting seat, the bearing seats, the supporting seat, the upper die cover and the lower die cover are connected through lifting guide pillars, and a supporting spring is arranged on the lifting guide pillars between the bearing;

a guide shaft is also arranged between the bearing blocks;

the lower end of the adjusting tooth is provided with a stroke adjusting handle wheel, and an adjusting stroke meter is arranged on the stroke adjusting handle wheel.

Further, draw the material part including drawing the material seat, set up drawing the material cylinder in drawing the material seat, set up the cylinder motor who draws the material seat outer end, cylinder motor with draw the material cylinder and be connected, be provided with a set of material dead lever that draws on drawing the material seat, be provided with on drawing the material dead lever and draw the material to press the material wheel, draw and be provided with between the material dead lever and draw the material regulating plate on drawing the material seat, be provided with a plurality of on drawing the material regulating plate and arrange even through-hole, be provided with a set of regulation pole that draws at least between the through-hole.

Furthermore, a rotating motor is arranged in the rack, and a transmission gear is arranged on the rotating motor and is connected with the gear.

Further, a plurality of material rack components are arranged on the auxiliary material rack.

In this application, when carrying out the die opening and shutting, it drives the driving cog and rotates to rotate the motor, the driving cog drives rather than the gear revolve of meshing, gear revolve drives main eccentric shaft at the bearing frame internal rotation, main eccentric shaft rotates and drives the connecting rod luffing motion, the connecting rod luffing motion drives the regulating spindle swing, both drive the lift seat and reciprocate at the lift guide pillar, wherein, the stroke of rotating the motor can be controlled through the gear of driving cog and driving cog meshing, and simultaneously, adjust the rotation stroke range of adjusting the tooth through stroke adjustment handle wheel, the swing range of connecting rod can also carry out secondary control through adjusting the pole.

In this application, its initial position connecting rod is in the front end, also be the forward slope form, at this moment, is in the compound die state, when the connecting rod rotates backward, drives the lift seat and upwards removes at the lift guide pillar, realizes the die sinking, when the connecting rod moves to the vertical lift seat, forms complete die sinking this moment, then continues to rotate backward, realizes the compound die state, when removing to the spacing stroke department of rear end, realizes the compound die, when the motor reversal, the connecting rod rotates by the back front, realizes die sinking, compound die. In the application, the stroke of one period can complete opening and closing the mold twice.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic view of the present application showing the mold base parts in a clamped condition;

FIG. 3 is a schematic view of the mold base assembly of the present application in an open mold position;

FIG. 4 is a schematic structural diagram of a rack of the present application;

fig. 5 is a schematic structural view of the attaching member of the present application.

FIG. 6 is a schematic structural view of a membrane covered component of the present application;

FIG. 7 is a schematic structural view of a feed member of the present application;

fig. 8 is a schematic structural view of a stack component in the present application.

Detailed Description

The present application will now be described in detail with reference to the drawings and specific examples, wherein the illustrations and descriptions are intended to be illustrative, but not limiting, of the application.

Referring to fig. 1 to 8, the present application discloses an automotive interior part covering die-cutting machine, comprising

A frame 100, a worktable disposed on the frame 100, an electric cabinet 200 disposed at the left side of the frame,

the upper end of the electric cabinet 200 is provided with a feeding component 300, a laminating component 400 and a film coating component 500, the laminating component 400 is arranged on the right side of the feeding component 300, the film coating component 500 is arranged on the right side of the laminating component 400,

an auxiliary rack 600 is arranged at the rear side of the workbench,

inside the machine frame 100, a die holder part 700 is provided on a table surface passing through the work table,

a material pulling part 800 is arranged on the right side of the die holder part 700, the material pulling part 800 is arranged on the right side edge of the frame 100, the material pulling part 800 and the working surface are on the same horizontal plane,

the lower side of the material pulling part 800 is provided with a material rack part 900, and the material rack part 900 is arranged on the right side face plate of the rack 100.

In the above, the die holder assembly 700 includes a die holder composed of an upper die holder and a lower die holder, and a lifting assembly is disposed below the lower die holder.

The upper die base comprises an upper die cover 601, an upper die base bottom plate 602 arranged at the lower part of the upper die cover 601, and an upper die body 603 arranged on the upper die base bottom plate 602;

the lower die holder comprises a lower die cover 607 and a lower die holder bottom plate arranged at the upper end of the lower die cover 607, and a lower die body 608 is arranged on the lower die holder bottom plate;

the upper mold cover 601 and the lower mold cover 607 are connected by a lifting guide pillar 604,

the lower end of the lower die cover 607 is provided with a supporting seat 609, a lifting component is arranged below the supporting seat 609,

the left side of the lower die cover is provided with a feeding plate 605, and the right side of the lower die cover is provided with a discharging plate 606.

In the above, the lifting member includes a lifting base 620, bearing blocks 615 are provided at both left and right sides of the lifting base 620, a connection plate 618 is provided below the bearing blocks 615, a main eccentric shaft 621 is provided between the bearing blocks 615, a gear 616 is provided on the main eccentric shaft 621, both ends of the main eccentric shaft 621 are fixed in the bearing blocks 615, a connecting rod 610 is provided at the right side of the gear 616, above the main eccentric shaft, and an adjusting shaft 613 is provided in the elevating base 620, the adjusting shaft 613 is fixed above the connecting rod 610, a tightening seat 614 is arranged on the left side of the adjusting shaft 613, adjusting teeth are arranged on the right side, the connecting rod 610 is arranged between the clamping seat 614 and the adjusting teeth, the lifting seat 620, the bearing seat 615, the supporting seat 609, the upper die cover 601 and the lower die cover 607 are connected through a lifting guide pillar 604, and a supporting spring 612 is arranged on the lifting guide pillar between the bearing seat and the supporting seat;

a guide shaft 617 is arranged between the bearing seats; the guide shaft 617 is used for limiting the swing stroke of the bearing block 615.

The lower end of the adjusting tooth is provided with a stroke adjusting handle wheel 611, and an adjusting stroke meter is arranged on the stroke adjusting handle wheel 611.

When the mold is opened and closed, the rotating motor 101 drives the transmission gear 102 to rotate, the transmission gear 102 drives the gear 616 engaged with the transmission gear to rotate, the gear 616 rotates to drive the main eccentric shaft 621 to rotate in the bearing seat 615, the main eccentric shaft 621 rotates to drive the connecting rod 610 to swing back and forth, the connecting rod 610 swings back and forth to drive the adjusting shaft 613 to swing, and the lifting seat 620 is driven to move up and down on the lifting guide pillar 604, wherein the stroke of the rotating motor 101 can be controlled through the gear 616 engaged with the transmission gear 102 through the transmission gear 102, and meanwhile, the range of the rotating stroke of the adjusting gear is adjusted through the stroke adjusting handle 611 to limit the range of the swinging of the adjusting shaft 613, so that the range of the swinging of the connecting rod.

In this application, its initial position connecting rod is in the front end, that is forward slope form, at this moment, is in the compound die state, when connecting rod 610 rotates backward, drives lift seat 620 and upwards removes at the lift guide pillar, realizes the die sinking, when the connecting rod moves to the vertical lift seat, forms complete die sinking this moment, then continues to rotate backward, realizes the compound die state, when removing to the spacing stroke department of rear end, realizes the compound die, when rotating motor 101 and reversing, connecting rod 610 rotates by the backward front, realizes die sinking, compound die. In the application, the stroke of one period can complete opening and closing the mold twice.

Referring to fig. 7, the feeding component 300 includes a feeding base plate 301, the feeding base plate 301 is disposed at the upper end of the electric cabinet 200, a horizontally disposed feeding air suction box 302 is disposed on the feeding base plate 301, a horizontal feeding fixing rod is disposed at the left side of the feeding air suction box 302, a horizontal feeding compression bar is disposed at the upper right of the horizontal feeding fixing rod, and a horizontal pressing plate 303 is disposed on the horizontal feeding compression bar;

an inclined feeding frame is obliquely arranged on the left side of the feeding bottom plate 301, a feeding supporting plate 305 is arranged in the middle of the inclined feeding frame, an inclined feeding fixing rod 308 and a feeding rolling rod 304 are respectively arranged along the left side and the right side of the feeding supporting plate 305, the inclined feeding fixing rod 308 and the feeding rolling rod 304 are arranged on the inclined feeding frame, the feeding rolling rod 304 is arranged on the right side of the inclined feeding fixing rod 308,

an inclined feeding pressure rod 307 is arranged on the left side of the feeding supporting plate 305, an inclined pressure plate 306 is arranged on the inclined feeding pressure rod 307, and the inclined feeding pressure rod is fixed on an inclined feeding frame.

When the feeding, place leather, fabric on supplementary work or material rest, be provided with a plurality of work or material rest parts on the supplementary work or material rest, consequently, can place at least a roll of leather, fabric, preferred, in this application, place 2 rolls of leather, fabric. After the leather and the textile are placed, a leading head is led out, and the leather and the textile enter the attaching part 400 after being sucked by the feeding air suction box 302 through the inclined feeding fixed rod 308, the feeding rolling rod 304, the guide shaft arranged in the middle of the auxiliary material rack, the horizontal feeding fixed rod and the horizontal feeding pressing rod.

Laminating part 400 includes laminating frame 401, laminating frame 401 sets up on feeding bottom plate 301, the middle part of laminating frame 401 is provided with a laminating gag lever post, sets up at least a set of laminating roll rod 403 and the laminating dead lever 404 of laminating gag lever post top and crisscross setting from top to bottom laminating frame 410's upper end is provided with the laminating depression bar be provided with laminating clamp plate 406 on the laminating depression bar, the left and right sides of laminating depression bar is provided with laminating stroke support 402, laminating stroke support 402 is through extension spring 406 and laminating leg joint.

The film covering component is sucked from the feeding air suction box 302 and pressed by a bonding pressure rod through a bonding pressure plate 406, and then enters the film covering component through a bonding rolling rod 403 and a bonding fixed rod 404 in sequence through a bonding stroke support 402.

The membrane covering component 500 comprises a membrane covering bracket 501 and a group of membrane covering rollers 503 arranged on the membrane covering bracket 501, wherein adjusting wires 502 are arranged at the membrane covering rollers, the adjusting wires 502 are arranged on the membrane covering bracket, and a group of membrane covering fixing rods 504 are arranged at the front ends of the membrane covering rollers. The bracket 402 is attached to the skin by a laminating fixing rod 504 to a laminating roller 503, so that the skin is prevented from being polluted in the subsequent process. Then the film is put into the die holder, heated peritoneum is carried out by the upper die body and the lower die body, and then the film is cut into a required pattern by a model knife in the upper die body and the lower die body.

The adhesive tape is not directly and completely cut off after being cut, but has an attachment point on the adhesive tape, and can be torn off with little effort when in use.

The material pulling component 800 comprises a material pulling seat 802, a material pulling roller 804 arranged in the material pulling seat 802, and a roller motor 801 arranged at the outer end of the material pulling seat, wherein the roller motor is connected with the material pulling roller, a group of material pulling fixing rods 805 are arranged on the material pulling seat, a material pulling and pressing wheel 806 is arranged on the material pulling fixing rods 805, a material pulling adjusting plate 807 is arranged between the material pulling fixing rods and on the material pulling seat, a plurality of through holes uniformly arranged are arranged on the material pulling adjusting plate, and at least one group of material pulling adjusting rods are arranged between the through holes.

The technical solutions disclosed in the embodiments of the present application are described in detail above, and the principles and implementations of the embodiments of the present application are explained in the present application by using specific embodiments, and the descriptions of the embodiments above are only used to help understand the principles of the embodiments of the present application; meanwhile, for a person skilled in the art, according to the embodiments of the present application, there may be variations in the specific implementation and application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. A die-cutting machine for coating parts of automotive interior parts is characterized by comprising

A frame, a workbench arranged on the frame, an electric cabinet arranged on the left side of the frame,

the upper end of the electric cabinet is provided with a feeding part, a laminating part and a film coating part, the laminating part is arranged on the right side of the feeding part, the film coating part is arranged on the right side of the laminating part,

an auxiliary material rack is arranged at the rear side of the workbench,

a die holder part is arranged in the frame and penetrates through the table surface of the worktable,

a material pulling part is arranged on the right side of the die holder part, the material pulling part is arranged on the right side edge of the frame, the material pulling part and the working surface are positioned on the same horizontal plane,

the material pulling component is arranged on the lower side of the material pulling component, and the material rack component is arranged on a right side face plate of the rack.

2. The die-cutting machine for the automobile interior part coating part according to claim 1, wherein the feeding part comprises a feeding bottom plate, the feeding bottom plate is arranged at the upper end of the electric cabinet, a horizontally arranged feeding air suction box is arranged on the feeding bottom plate, a horizontal feeding fixing rod is arranged on the left side of the feeding air suction box, a horizontal feeding pressing rod is arranged on the upper right side of the horizontal feeding fixing rod, and a horizontal pressing plate is arranged on the horizontal feeding pressing rod;

an inclined feeding frame which is obliquely arranged is arranged on the left side of the feeding bottom plate, a feeding supporting plate is arranged in the middle of the inclined feeding frame, an inclined feeding fixed rod and a feeding rolling rod are respectively arranged along the left side and the right side of the feeding supporting plate, the inclined feeding fixed rod and the feeding rolling rod are arranged on the inclined feeding frame, and the feeding rolling rod is arranged on the right side of the inclined feeding fixed rod,

an inclined feeding pressing rod is arranged on the left side of the feeding supporting plate, an inclined pressing plate is arranged on the inclined feeding pressing rod, and the inclined feeding pressing rod is fixed on an inclined feeding frame.

3. The die-cutting machine for the coating parts of the automotive interior parts, according to claim 1, is characterized in that the laminating part comprises a laminating frame, the laminating frame is arranged on a feeding bottom plate, a laminating limiting rod is arranged in the middle of the laminating frame, at least one group of laminating rolling rods and laminating fixing rods are arranged above the laminating limiting rod and are arranged in a vertically staggered mode, a laminating pressing rod is arranged at the upper end of the laminating frame, a laminating pressing plate is arranged on the laminating pressing rod, laminating stroke supports are arranged on the left side and the right side of the laminating pressing rod, and the laminating stroke supports are connected with the laminating pressing rod through tension springs.

4. The die-cutting machine for the automobile interior part covering piece as claimed in claim 1, wherein the covering component comprises a covering bracket and a set of covering rollers arranged on the covering bracket, adjusting wires are arranged at the covering rollers and arranged on the covering bracket, and a set of covering fixing rods are arranged at the front end of the covering rollers.

5. The die cutting machine for the automobile interior part cladding member according to claim 1, wherein the die holder component comprises a die holder consisting of an upper die holder and a lower die holder, and a lifting component is arranged below the lower die holder.

6. The die cutting machine for the automobile interior part covering piece according to claim 5, wherein the upper die base comprises an upper die cover, an upper die base plate arranged at the lower part of the upper die cover, and an upper die body arranged on the upper die base plate;

the lower die base comprises a lower die cover and a lower die base bottom plate arranged at the upper end of the lower die cover, and a lower die body is arranged on the lower die base bottom plate;

the upper die cover and the lower die cover are connected through a lifting guide post,

the lower end of the lower die cover is provided with a supporting seat, a lifting component is arranged below the supporting seat,

the left side of the lower die cover is provided with a feeding plate, and the right side of the lower die cover is provided with a discharging plate.

7. The die-cutting machine for the automobile interior part cladding piece according to claim 5, characterized in that the lifting component comprises a lifting seat, bearing seats are arranged on the left and right sides of the lifting seat, connecting plates are arranged below the bearing seats, a main eccentric shaft is arranged between the bearing seats, a gear is arranged on the main eccentric shaft, a connecting rod is arranged on the right side of the gear, an adjusting shaft is arranged above the main eccentric shaft and is arranged in the lifting seat, the adjusting shaft is fixed above the connecting rod, a tightening seat is arranged on the left side of the adjusting shaft, an adjusting tooth is arranged on the right side of the adjusting shaft, the connecting rod is arranged between the tightening seat and the adjusting tooth, the lifting seat, the bearing seats, the supporting seat, the upper die cover and the lower die cover are connected through lifting guide pillars, and a supporting spring is arranged on the lifting guide pillars between; a guide shaft is also arranged between the bearing blocks; the lower end of the adjusting tooth is provided with a stroke adjusting handle wheel, and an adjusting stroke meter is arranged on the stroke adjusting handle wheel.

8. The die-cutting machine for the coating parts of the automotive interior parts, according to claim 1, is characterized in that the material pulling part comprises a material pulling seat, a material pulling roller arranged in the material pulling seat, and a roller motor arranged at the outer end of the material pulling seat, wherein the roller motor is connected with the material pulling roller, a group of material pulling fixing rods are arranged on the material pulling seat, material pulling pressure wheels are arranged on the material pulling fixing rods, material pulling adjusting plates are arranged between the material pulling fixing rods and on the material pulling seat, a plurality of through holes uniformly arranged are arranged on the material pulling adjusting plates, and at least one group of material pulling adjusting rods are arranged between the through holes.

9. The die cutting machine for the automobile interior part covering piece according to claim 1, wherein a rotating motor is arranged in the machine frame, and a transmission gear is arranged on the rotating motor and connected with a gear.

10. The die cutter for die cutting automotive interior trim parts covers according to claim 1, wherein a plurality of stack parts are provided on the auxiliary stack.

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