CN112277340A

CN112277340A - High-temperature die pressing equipment for manufacturing carbon fiber engine hood

Info

Publication number: CN112277340A
Application number: CN202011109142.3A
Authority: CN
Inventors: 祝培武
Original assignee: Jiangsu Dongke Composite Material Co ltd
Current assignee: Jiangsu Dongke Composite Material Co ltd
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2021-01-29

Abstract

The invention discloses high-temperature die pressing equipment for manufacturing a carbon fiber engine hood, which comprises an installation frame, a processing table and a second electric telescopic rod, wherein a movable wheel is arranged at the lower end of the installation frame, the lower end of the installation frame is in contact with a cushion block, a connecting frame is arranged on the side surface of the installation frame, the processing table is fixedly arranged on the upper surface of the installation frame, the second electric telescopic rod is arranged on a supporting plate in a penetrating mode, the lower end of the second electric telescopic rod is connected with a fixed frame, and a movable frame is connected to a lead screw in a penetrating. This high temperature molding equipment is used in carbon fiber bonnet preparation pushes the mount under second electric telescopic handle's effect, and the material contact of mechanism and the below of properly flattening is laid, and the laminating is pressed to its material to the mechanism of flattening of promotion under third electric telescopic handle's effect, and accessible first motor drives simultaneously, first pivot drive lead screw removes the mechanism removal of flattening, can press the laminating to the material of laying of regional on a large scale on the carbon fiber bonnet.

Description

High-temperature die pressing equipment for manufacturing carbon fiber engine hood

Technical Field

The invention relates to the technical field related to carbon fiber engine hood processing, in particular to high-temperature mould pressing equipment for manufacturing a carbon fiber engine hood.

Background

Along with the development of science and technology, the requirements of people on the shape and performance of a car are higher and higher, the reduction of the weight of the car is one of effective measures for reducing fuel consumption and emission, the application of the light-weight high-strength composite material in the field of the car is wider and wider, wherein the carbon fiber composite material is commonly used in the field of car hoods, high-temperature molding equipment is required in the manufacturing process of the carbon fiber hoods, the common high-temperature molding equipment is simple hood molds, a workbench, a heating pipe frame, auxiliary articles and the like, the manufacturing process is mainly manually operated, particularly, when the carbon fiber and other materials are laid in the molds, the carbon fiber and other materials are completely laid, pressed and attached manually, and the operation efficiency is lower.

Disclosure of Invention

The invention aims to provide high-temperature molding equipment for manufacturing a carbon fiber engine hood, which aims to solve the problem that the manufacturing process proposed in the background art is mainly operated manually, and particularly, when carbon fibers and other materials are laid in a mold, the carbon fibers are completely laid, pressed and attached manually, so that the operation efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme: a high-temperature mould pressing device for manufacturing a carbon fiber engine hood comprises an installation frame, a processing table and a second electric telescopic rod,

the lower end of the mounting frame is provided with a moving wheel in an installing mode, the lower end of the mounting frame is in contact with the cushion block, a connecting frame is arranged on the side face of the mounting frame, a supporting frame is arranged below the connecting frame, a first bolt is arranged on the supporting frame, the upper end of the first bolt penetrates through the supporting frame and is in threaded connection with a nut through the connecting frame, and the lower end of the supporting frame is connected with the mechanical jack;

the processing table is fixedly arranged on the upper surface of the mounting frame, a support column is fixedly arranged on the upper surface of the mounting frame through a second bolt, the support column is arranged on the rear side of the processing table, the upper end of the support column is connected with the supporting plate, a first electric telescopic rod penetrates through the supporting plate, and the lower end of the first electric telescopic rod is connected with the heating seat;

the second electric telescopic handle, the second electric telescopic handle runs through the setting in the backup pad, and the second electric telescopic handle sets up the front side at first electric telescopic handle, second electric telescopic handle lower extreme is connected with the mount, and the mount inside wall rotates and is connected with the lead screw, the left end of lead screw runs through the lateral wall of mount and is connected with first pivot, and first pivot is connected with first motor, and first motor setting is on the lateral wall of mount simultaneously, through connection has the removal frame on the lead screw, and removes a lower extreme and be provided with third electric telescopic handle, and third electric telescopic handle inner is connected with the mechanism that flattens simultaneously.

Preferably, the moving wheels are arranged in two groups, each group of moving wheels is symmetrically arranged about the central line of the mounting frame, and the cushion blocks are distributed below the mounting frame at equal intervals.

Preferably, the connecting frame and the supporting frame are both provided with two groups, the connecting frame and the supporting frame are symmetrically arranged relative to the central line of the mounting frame, and the connecting frame and the supporting frame are connected through a first bolt and a nut in a threaded mode.

Preferably, the processing table comprises a tool drawer, a die holder and a first soft layer, the tool drawer is arranged in one end of the front side of the processing table, the die holder is arranged at the upper end of the processing table, and the first soft layer is arranged on the outer ring of the upper end of the die holder in an enclosing manner.

Preferably, the pillar comprises a second motor and a second rotating shaft, the second motor is arranged in the pillar, the second motor is connected with the second rotating shaft, the upper end of the second rotating shaft penetrates through the inner top end of the pillar and is connected with the supporting plate, and meanwhile the supporting plate is in sliding connection with the pillar.

Preferably, the heating seat comprises a heating pipe and a second soft layer, the heating pipe is arranged in the heating seat, and the second soft layer is arranged around the outer ring of the lower end of the heating seat.

Preferably, the screw, the first rotating shaft and the first motor form a rotating mechanism, and the screw is in threaded connection with the moving frame.

Preferably, the third electric telescopic rod and the flattening mechanism form a telescopic mechanism, and the flattening mechanism is in sliding connection with the movable frame.

Preferably, the mechanism of flattening is including L type support, first fixed block, spring, second fixed block, pressure ball, spacing spout and spacing slide bar, and top end fixedly connected with first fixed block in the L type support, first fixed block lower extreme is connected with the spring, and the spring lower extreme is connected with the second fixed block, and swing joint has the pressure ball in the second fixed block simultaneously, spacing spout has been seted up to second fixed block upper end, and spacing spout setting is in the outside of spring, sliding connection has spacing slide bar in the spacing spout, and runs through spacing spout and be connected with first fixed block lower extreme on the spacing slide bar.

Compared with the prior art, the invention has the beneficial effects that: the high-temperature mould pressing equipment for manufacturing the carbon fiber engine cover,

(1) the device is provided with the moving wheels, the device can be conveniently movably installed and fixed under the action of the moving wheels, the device is jacked up through the mechanical jack, the cushion block plays a supporting role on the device, the placing stability of the device is enhanced, and meanwhile, the mechanical jack can be detached and used for installing subsequent devices;

(2) the processing table is provided with the tool drawer, the tool drawer can be used for containing tools and other related articles used in the carbon fiber manufacturing process, and the tools and other related articles can be conveniently found and used when needed, in addition, when the first soft layer arranged on the die holder and the second soft layer arranged on the heating seat can be used for die assembly, a protection effect is achieved on peripheral pipelines, the pipelines are prevented from being extruded and damaged when the die is assembled, and meanwhile, the sealing effect when the die is assembled is enhanced;

(3) the device is provided with a second electric telescopic rod, a fixing frame, a screw rod, a first rotating shaft, a first motor, a moving frame, a third electric telescopic rod and a flattening mechanism, wherein the fixing frame is pushed under the action of the second electric telescopic rod, the flattening mechanism is properly contacted with a material laid below, the flattening mechanism is pushed to press and joint the material under the action of the third electric telescopic rod, meanwhile, the first electric telescopic rod can be driven by the first motor to move the flattening mechanism, so that the material laid on a large-range area on a carbon fiber engine cover can be pressed and jointed, meanwhile, certain dead angle areas of the material laid on the carbon fiber engine cover can be pressed and jointed manually, and the efficiency of material laying is improved due to the cooperation of the manual work and the mechanical work;

(4) the pillar is connected with the backup pad of upper end through the second motor that sets up and second pivot, can drive the backup pad under the effect of second motor and second pivot and rotate, makes things convenient for the change between heating seat and the mechanism of flattening to use.

Drawings

FIG. 1 is a schematic front view of a heating base and a processing table according to the present invention;

FIG. 2 is a schematic structural view between the flattening mechanism and the processing table according to the present invention;

FIG. 3 is a left side view of the mounting bracket of the present invention;

FIG. 4 is a schematic view of the internal structure of the strut of the present invention;

FIG. 5 is a schematic structural view of a third electric telescopic rod and a flattening mechanism according to the present invention;

FIG. 6 is a schematic structural view of the pressing mechanism of the present invention;

fig. 7 is a schematic bottom view of the heating base of the present invention.

In the figure: 1. mounting rack, 2, moving wheel, 3, cushion block, 4, connecting rack, 5, supporting rack, 6, first bolt, 7, nut, 8, mechanical jack, 9, processing table, 901, tool drawer, 902, die holder, 903, first soft layer, 10, pillar, 1001, second motor, 1002, second rotating shaft, 11, second bolt, 12, supporting plate, 13, first electric telescopic rod, 14, heating seat, 1401, heating pipe, 1402, second soft layer, 15, second electric telescopic rod, 16, fixing rack, 17, lead screw, 18, first rotating shaft, 19, first motor, 20, moving rack, 21, third electric telescopic rod, 22, flattening mechanism, 2201, L-shaped bracket, 2202, first fixing block, 2203, spring, 2204, second fixing block, 2205, pressing ball, 2206, limiting chute, 2207, limiting slide rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a high-temperature molding device for manufacturing a carbon fiber engine hood is disclosed, as shown in figure 1, figure 2 and figure 3, a movable wheel 2 is arranged at the lower end of a mounting frame 1, the lower end of the mounting frame 1 is contacted with cushion blocks 3, two groups of movable wheels 2 are arranged, each group of movable wheels 2 is symmetrically arranged about the central line of the mounting frame 1, the cushion blocks 3 are distributed below the mounting frame 1 at equal intervals, position movement and adjustment during device installation are facilitated under the action of the movable wheels 2, a connecting frame 4 is arranged on the side surface of the mounting frame 1, a supporting frame 5 is arranged below the connecting frame 4, the connecting frame 4 and the supporting frame 5 are both arranged in two groups, the connecting frame 4 and the supporting frame 5 are symmetrically arranged about the central line of the mounting frame 1, the connecting frame 4 and the supporting frame 5 are in threaded connection through a first bolt 6 and a nut 7, the supporting frame 5 and a jack 8 can be, the mounting that can be used to other equipment is used, is provided with first bolt 6 on the support frame 5, and first bolt 6 upper end runs through support frame 5 and link 4 threaded connection has nut 7, and 5 lower extremes of support frame are connected with mechanical jack 8 simultaneously.

As shown in fig. 1, 2, 3, 4 and 7, a processing table 9 is fixedly installed on the upper surface of the mounting frame 1, and a support column 10 is fixedly installed on the upper surface of the mounting frame 1 through a second bolt 11, while the support column 10 is disposed on the rear side of the processing table 9, the processing table 9 includes a tool drawer 901, a die holder 902 and a first soft layer 903, and a tool drawer 901 is disposed in one end of the front side of the processing table 9, the die holder 902 is disposed on the upper end of the processing table 9, and the first soft layer 903 is disposed around the upper end of the die holder 902, the tool drawer 901 can be used to store some carbon fiber bonnet processing tools and related instruments, the support column 10 includes a second motor 1001 and a second rotating shaft 1002, and a second motor 1001 is disposed in the support column 10, the second motor 1001 is connected to the second rotating shaft 1002, and the upper end of the second rotating shaft 1002 penetrates through the top end of the support column 10 to be connected to the support plate 12, under the action of a second motor 1001, a supporting plate 12 is driven to rotate through a second rotating shaft 1002, the heating seat 14 and a flattening mechanism 22 can be rotationally adjusted, the upper end of a supporting column 10 is connected with the supporting plate 12, a first electric telescopic rod 13 is arranged on the supporting plate 12 in a penetrating mode, meanwhile, the lower end of the first electric telescopic rod 13 is connected with the heating seat 14, the heating seat 14 comprises a heating pipe 1401 and a second soft layer 1402, the heating pipe 1401 is arranged in the heating seat 14, a second soft layer 1402 is arranged on the outer ring of the lower end of the heating seat 14 in a surrounding mode, the second soft layer 1402 is matched with the first soft layer 903 to enhance sealing during die assembly, and extrusion to surrounding pipelines during die assembly is reduced.

As shown in fig. 2, 3, 5 and 6, the second electric telescopic rod 15 is disposed on the supporting plate 12 in a penetrating manner, the second electric telescopic rod 15 is disposed at the front side of the first electric telescopic rod 13, the lower end of the second electric telescopic rod 15 is connected with the fixed frame 16, the inner side wall of the fixed frame 16 is rotatably connected with a lead screw 17, the first rotating shaft 18 and the first motor 19 form a rotating mechanism, the lead screw 17 is in threaded connection with the movable frame 20, the lead screw 17 is driven by the first rotating shaft 18 under the action of the first motor 19 to rotate, the left and right positions of the flattening mechanism 22 are adjusted, the left end of the lead screw 17 penetrates through the side wall of the fixed frame 16 and is connected with the first rotating shaft 18, the first rotating shaft 18 is connected with the first motor 19, the first motor 19 is disposed on the side wall of the fixed frame 16, the movable frame 20 is connected with the lead screw 17 in a penetrating manner, and, meanwhile, the inner end of a third electric telescopic rod 21 is connected with a flattening mechanism 22, the third electric telescopic rod 21 and the flattening mechanism 22 form a telescopic mechanism, the flattening mechanism 22 is in sliding connection with a moving frame 20, the flattening mechanism 22 is driven to move back and forth under the action of the third electric telescopic rod 21, the flattening mechanism 22 comprises an L-shaped support 2201, a first fixed block 2202, a spring 2203, a second fixed block 2204, a pressing ball 2205, a limiting sliding groove 2206 and a limiting sliding rod 2207, the top end of the L-shaped support 2201 is fixedly connected with the first fixed block 2202, the lower end of the first fixed block 2202 is connected with the spring 2203, the lower end of the spring 2203 is connected with the second fixed block 2204, the second fixed block 2204 is movably connected with the pressing ball 2205, the upper end of the second fixed block 2204 is provided with the limiting sliding groove 2206, the limiting sliding groove 2206 is arranged on the outer side of the spring 2203, the limiting sliding groove 2206 is connected with the limiting sliding rod 2207 in the sliding connection, and, the spring 2203 plays a role of buffering and compensating the pressing ball 2205 when the jointing material is pressed.

The working principle is as follows: when the high-temperature molding equipment for manufacturing the carbon fiber engine cover is used, the position of the equipment during installation is convenient to move by moving the wheel 2, the mechanical jack 8 can be fixedly installed on the connecting frame 4 through the supporting frame 5 by the first bolt 6 and the nut 7, the equipment is jacked up by the mechanical jack 8, the cushion block 3 is placed below the installation frame 1 to support and fix the equipment, the stability of equipment installation is enhanced, the mechanical jack 8 can be taken down for installation and use of subsequent equipment and other aspects by disassembling the first bolt 6 and the nut 7, the power supply is switched on, the material for processing the carbon fiber engine cover is laid in the die holder 902, the fixing frame 16 is pushed by the second electric telescopic rod 15, the flattening mechanism 22 is contacted with the material, the flattening mechanism 22 is pushed under the action of the third electric telescopic rod 21, the material is extruded and attached by the pressing ball 2205, the spring 2203, the limiting sliding chute 2206 and the limiting sliding rod 2207 can play a role in buffering and compensating role in rolling the pressing ball 2205, the first motor 19 drives the first rotating shaft 18 to rotate, the first rotating shaft 18 drives the screw rod 17 to rotate, the movable frame 20 moves on the screw rod 17 to move the position of the flattening mechanism 22, after the material is laid, corresponding other work preparations are carried out, the supporting plate 12 is driven to rotate through the second rotating shaft 1002 under the action of the second motor 1001, the flattening mechanism 22 and the heating seat 14 are switched, the heating seat 14 and the die holder 902 are driven to be matched under the action of the first electric telescopic rod 13, the first soft layer 903 and the second soft layer 1402 can enhance sealing during matching, the heating pipe is heated under the action of the heating pipe 1401, and after processing is finished, a tool used correspondingly can be placed in the tool drawer 901 to facilitate subsequent use.

The terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for simplicity of description only and are not intended to indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operative in a particular orientation, and are not to be considered limiting of the claimed invention.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a carbon fiber bonnet preparation is with high temperature molding equipment, includes mounting bracket (1), processing platform (9) and second electric telescopic handle (15), its characterized in that:

the mounting rack comprises a mounting rack (1), wherein the lower end of the mounting rack (1) is provided with a moving wheel (2), the lower end of the mounting rack (1) is in contact with a cushion block (3), a connecting frame (4) is arranged on the side surface of the mounting rack (1), a supporting frame (5) is arranged below the connecting frame (4), a first bolt (6) is arranged on the supporting frame (5), the upper end of the first bolt (6) penetrates through the supporting frame (5) and the connecting frame (4) and is in threaded connection with a nut (7), and meanwhile, the lower end of the supporting frame (5) is connected with a mechanical jack (8);

the machining table (9) is fixedly mounted on the upper surface of the mounting frame (1), a support column (10) is fixedly mounted on the upper surface of the mounting frame (1) through a second bolt (11), the support column (10) is arranged on the rear side of the machining table (9), the upper end of the support column (10) is connected with a support plate (12), a first electric telescopic rod (13) penetrates through the support plate (12), and the lower end of the first electric telescopic rod (13) is connected with a heating seat (14);

a second electric telescopic rod (15), the second electric telescopic rod (15) is arranged on the support plate (12) in a penetrating way, and the second electric telescopic rod (15) is arranged at the front side of the first electric telescopic rod (13), the lower end of the second electric telescopic rod (15) is connected with the fixed frame (16), and the inner side wall of the fixed frame (16) is rotationally connected with a lead screw (17), the left end of the lead screw (17) penetrates through the side wall of the fixed frame (16) to be connected with a first rotating shaft (18), the first rotating shaft (18) is connected with a first motor (19), meanwhile, a first motor (19) is arranged on the side wall of the fixed frame (16), a movable frame (20) is connected on the lead screw (17) in a penetrating way, a third electric telescopic rod (21) is arranged at the lower end of the movable frame (20), meanwhile, the inner end of the third electric telescopic rod (21) is connected with the flattening mechanism (22).

2. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: the movable wheels (2) are arranged in two groups, each movable wheel (2) is symmetrically arranged relative to the central line of the mounting rack (1), and the cushion blocks (3) are distributed below the mounting rack (1) at equal intervals.

3. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: the connecting frame (4) and the supporting frame (5) are both provided with two groups, the connecting frame (4) and the supporting frame (5) are symmetrically arranged about the center line of the mounting frame (1), and meanwhile the connecting frame (4) and the supporting frame (5) are in threaded connection through a first bolt (6) and a nut (7).

4. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: the processing table (9) comprises a tool drawer (901), a die holder (902) and a first soft layer (903), the tool drawer (901) is arranged in one end of the front side of the processing table (9), the die holder (902) is arranged at the upper end of the processing table (9), and the first soft layer (903) is arranged on the outer ring of the upper end of the die holder (902).

5. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: the support column (10) comprises a second motor (1001) and a second rotating shaft (1002), the second motor (1001) is arranged in the support column (10), the second motor (1001) is connected with the second rotating shaft (1002), the upper end of the second rotating shaft (1002) penetrates through the top end in the support column (10) and is connected with the support plate (12), and meanwhile the support plate (12) is in sliding connection with the support column (10).

6. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: the heating seat (14) comprises a heating pipe (1401) and a second soft layer (1402), the heating pipe (1401) is arranged in the heating seat (14), and the second soft layer (1402) is arranged on the periphery of the outer ring of the lower end of the heating seat (14).

7. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: the screw rod (17), the first rotating shaft (18) and the first motor (19) form a rotating mechanism, and the screw rod (17) is in threaded connection with the moving frame (20).

8. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: and the third electric telescopic rod (21) and the flattening mechanism (22) form a telescopic mechanism, and the flattening mechanism (22) is in sliding connection with the moving frame (20).

9. The high-temperature molding apparatus for manufacturing a carbon fiber hood according to claim 1, wherein: the flattening mechanism (22) comprises an L-shaped bracket (2201), a first fixed block (2202), a spring (2203), a second fixed block (2204), a pressing ball (2205), a limiting sliding groove (2206) and a limiting sliding rod (2207), and the top end in the L-shaped bracket (2201) is fixedly connected with a first fixed block (2202), the lower end of the first fixed block (2202) is connected with a spring (2203), and the lower end of the spring (2203) is connected with a second fixed block (2204), meanwhile, a pressing ball (2205) is movably connected in the second fixing block (2204), a limiting sliding groove (2206) is formed in the upper end of the second fixing block (2204), and a limit sliding groove (2206) is arranged at the outer side of the spring (2203), a limit sliding rod (2207) is connected in the limit sliding groove (2206) in a sliding way, and the upper end of the limiting slide bar (2207) penetrates through the limiting slide groove (2206) and is connected with the lower end of the first fixed block (2202).