CN213675082U - Composite carbon fiber box forming machine - Google Patents

Abstract

The utility model discloses a composite carbon fiber box forming machine, which comprises a machine main body, wherein the machine main body comprises two pulley frames and a base connected with the pulley frames, sliding devices are arranged on the pulley frames, the sliding devices are connected with sliding base plates, the machine main body also comprises a stand column and a front upper beam, a plurality of cylinders are arranged on the front upper beam, the cylinders are provided with piston rods for realizing the telescopic function, the bottom surface of the front upper beam is provided with two guide rods, the machine main body also comprises two vacuum large cover boards, a plurality of hoses are arranged in the vacuum large cover boards, vacuumizing devices are also arranged on the vacuum large cover boards, heating devices, cooling devices and controllers are also arranged in the vacuum large cover boards, the piston rods of the cylinders are tightly connected with the vacuum large cover boards, guide rod sleeves are arranged on the vacuum large cover boards, heavy load oil cylinders are connected on the guide rods, and are provided with cylinder plugs for realizing the telescopic function, the tail end of the cylinder plug is connected with a mould pressurizing cover plate.

Description

Composite carbon fiber box forming machine

Technical Field

The utility model relates to a make-up machine technical field specifically is a combined material carbon fiber box make-up machine.

Background

The forming machine is also called a case unpacking machine, and is a process flow for automatically completing case unpacking, forming and bending of a lower bottom hinge, the working principle of the forming machine is similar to that of an injector, and the process flow is that plasticized plastic in a molten state is injected into a closed mold cavity by means of the thrust of a screw or a plunger, and a product is obtained after solidification and shaping;

a molding machine, particularly a shell molding machine, usually has one mold cavity corresponding to one mold, but the shell molding machine in the prior art only has one mold and one mold cavity, and cannot realize one-time molding of two half molds of a shell, so that the molding efficiency of the shell molding machine is low, and time is wasted on replacing the mold;

traditional combined material machinery extends to present and all uses by hot press and cold press combination, can't realize the evacuation, after a mould thermoforming, draw out the mould of thermoforming machine the inside with the manual work, impel the hot mould into the cold forming machine through the transportation lift again and cool off, after cooling off, draw out the mould from the cold forming machine the inside again and get material and feed, this kind of technology is consuming time and hard at present, workman high in labor strength, product unit price is high, can't reduce cost, also can't compete in the market.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a composite material carbon fiber box forming machine.

The utility model provides a technical scheme that its technical problem adopted is: a composite carbon fiber box forming machine comprises a machine body, wherein the machine body comprises two pulley frames and a base connected with the pulley frames, sliding devices are arranged on the pulley frames and connected with sliding base plates, the machine body further comprises a stand column and a front upper beam, the front upper beam is arranged above the base through the stand column, a plurality of air cylinders are arranged on the front upper beam, the air cylinders are provided with piston rods for realizing the telescopic function, two guide rods are arranged on the bottom surface of the front upper beam, and the machine body further comprises two vacuum large cover enclosing plates;

a plurality of hoses for realizing the air blowing function are arranged in the vacuum large cover enclosing plate, vacuumizing devices are arranged on the vacuum large cover enclosing plate, and a heating device, a cooling device and a controller for controlling the switching functions of the heating device and the cooling device are arranged in the vacuum large cover enclosing plate;

the cylinder piston rod with big cover bounding wall fastening connection in vacuum all is equipped with the guide arm sleeve on the big cover bounding wall in vacuum, all be connected with heavy load hydro-cylinder on the guide arm, heavy load hydro-cylinder is equipped with the jar stopper that realizes flexible function, the end-to-end connection of jar stopper has mould pressure cover board.

Preferably, two sets of slide rails are arranged on the tackle rack, the two sets of slide rails respectively comprise two first slide rails and two second slide rails, each first slide rail is provided with a convex strip, each second slide rail is provided with a rack, the sliding device comprises an oil motor, an oil motor mounting seat for mounting the oil motor, a driving gear connected with the output end of the oil motor, a sliding shaft, a driven gear sleeved outside the sliding shaft, two locking seats sleeved outside the sliding shaft and two sliding gears arranged at two ends of the sliding shaft, the driving gear is meshed with the driven gear, the two sliding gears are meshed with the racks on the second slide rails, the two locking seats are fastened and connected with the sliding backing plate, two sets of connecting supports are arranged on the sliding backing plate, a connecting shaft is arranged on each set of connecting supports, and a bearing is sleeved on the connecting shaft, and the bearing is sleeved with a pulley, the pulley slides on the first sliding rail, the front end and the rear end of the sliding base plate are both provided with two groups of connecting supports, and the base is also provided with two groups of wedge-shaped cushion blocks matched with the pulley.

Preferably, a vacuum hood top plate is arranged on the vacuum hood enclosing plate, a sealing strip is arranged at the bottom of the vacuum hood enclosing plate, the vacuum hood top plate is fixedly connected with the vacuum hood enclosing plate through an air cylinder piston rod, a vacuum hood lip edge is arranged on the outer side of the bottom of the vacuum hood enclosing plate, the piston rod of the air cylinder is connected with an air cylinder connector, and the piston rod is fixedly connected with the vacuum hood top plate through the air cylinder connector.

Preferably, the guide rod is provided with an inner fixing flange, the guide rod is further provided with an oil cylinder fixing flange, and the heavy-duty oil cylinder is arranged in the guide rod through the inner fixing flange and the oil cylinder fixing flange.

Preferably, a gear set protective cover is arranged on the sliding device.

Preferably, the controller is respectively connected with the heating device and the cooling device.

Compared with the prior art, the beneficial effects of the utility model are that: the material for forming the shell is sent to the lower part of the enclosing plate of the vacuum big cover through the sliding base plate, in particular to the oil motor which rotates to lead the driving gear to drive the driven gear to rotate, the sliding shaft is also in a rotating state under the rotation of the driven gear, thereby the sliding gear makes linear motion on the rack, simultaneously the sliding shaft drives the sliding backing plate and the pulley to make linear motion on the first sliding rail through the locking seat, the cylinder drives the piston rod and the cylinder joint to press the enclosing plate of the vacuum big cover downwards, simultaneously starting a vacuumizing device to enable the interior of the enclosing plate of the vacuum big cover to be in a vacuum state, independently controlling a heating device or a cooling device or simultaneously controlling the heating device and the cooling device through a controller, starting a heavy-load oil cylinder to drive a mould pressurizing cover plate to press down, the forming machine can simultaneously form two half moulds of the shell, improves the integral processing efficiency of the shell, and conveys materials through the sliding device so as to provide certain convenience for workers;

in order to overcome the traditional process, a machine integrating automatic heating, automatic cooling, automatic blowing, automatic vacuumizing, automatic pressurizing and automatic mold entering and exiting is developed at present.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the sliding device of the present invention;

FIG. 3 is a schematic structural view of a vacuum hood panel of the present invention;

FIG. 4 is a schematic view of the internal structure of the guide bar assembly of the present invention;

FIG. 5 is a schematic structural view of the front upper beam of the present invention;

fig. 6 is a schematic structural view of the lighting panel of the present invention;

fig. 7 is a schematic view of the structure of the present invention.

Reference numbers in the figures:

the device comprises a pulley frame 1, a rack 11, a convex strip 12, a gear set protective cover 13, a base 2, a sliding base plate 21, a stand column 22, a front upper beam 23, an air cylinder 24, a vacuum large cover enclosing plate 25, a guide rod 251, a mold pressurizing cover plate 252, a vacuum large cover top plate 253, a vacuum large cover lip 254, a hose 255, a sealing strip 256, an oil motor 3, a driving gear 31, a sliding shaft 32, a driven gear 33, a sliding gear 34, a locking seat 35, a connecting bracket 36, a pulley 37, a guide rod sleeve 4, a heavy-load oil cylinder 5, an oil cylinder fixing flange 51, a cylinder plug 52, an inner fixing flange 53, a protective plate 6, an instrument panel 61, a lighting plate 62 and a lighting lamp.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-7, the utility model provides a composite carbon fiber box forming machine, which comprises a machine main body, wherein the machine main body comprises two pulley frames 1 and a base 2 connected with the pulley frames 1, the pulley frames 1 are all provided with sliding devices, the sliding devices are all connected with sliding base plates 21, materials for forming a shell can be placed on the sliding base plates 21, and the sliding devices can realize the forward movement or the backward movement on the pulley frames 1, the machine main body further comprises upright columns 22 and a front upper beam 23, the front upper beam 23 is arranged above the base 2 through the upright columns 22, the upright columns 22 are totally provided with six upright columns, wherein four upright columns 22 are respectively arranged at four corners of the base 2, the rest two upright columns 22 are arranged between two vacuum large cover boards 25, the front upper beam 23 is provided with a plurality of cylinders 24, the number of the cylinders 24 is eight, the eight cylinders 24 with the same structure are divided into two groups, each group of four cylinders 24 are arranged on the front upper beam 23 according to a rectangular array, the cylinders 24 are provided with piston rods 242 for realizing the telescopic function, the bottom surface of the front upper beam 23 is provided with two guide rods 251 for realizing the guiding function, and the machine body further comprises two vacuum large-cover enclosing plates 25;

a plurality of hoses 255 for realizing the air blowing function are arranged in the vacuum big cover surrounding plate 25, the tail ends of the hoses 255 are all led into the vacuum big cover surrounding plate 25, the head ends of the hoses 255 are connected with the blowing-up device, the vacuum big cover surrounding plate 25 is also provided with a vacuumizing device, the vacuum environment in the vacuum big hood enclosing plate 25 is realized through the vacuumizing device, the heating device, the cooling device and the controller for controlling the switching functions of the heating device and the cooling device are also arranged in the vacuum big hood enclosing plate 25, the heating device is arranged to heat the closed environment in the vacuum big hood enclosing plate 25, meanwhile, a cooling device is arranged to cool the closed environment in the vacuum hood enclosing plate 25, the controller can control the heating device independently, can control the cooling device independently, and can control the heating device and the cooling device simultaneously so as to realize the integration of heating and cooling functions;

the cylinder piston rod 242 is fixedly connected with the vacuum large cover enclosing plate 25, guide rod sleeves 4 are arranged on the vacuum large cover enclosing plate 25, the vacuum large cover enclosing plate 25 slides on the guide rods 251 through the guide rod sleeves 4 under the pushing action of the cylinder piston rod 242, heavy-duty oil cylinders 5 are connected to the guide rods 251, each heavy-duty oil cylinder 5 is provided with a cylinder plug 52 for achieving a telescopic function, the tail end of each cylinder plug 52 is connected with a mold pressurizing cover plate 252, the interior of the vacuum large cover enclosing plate 25 is of a hollow structure, and the cross section area of the vacuum large cover enclosing plate 25 is larger than that of the mold pressurizing cover plate 252;

the front upper beam 23 is provided with a plurality of instrument panels 61, the end face of the front upper beam 23 is further provided with a protection plate 6 wrapping the air cylinder 24, the protection plate 6 is further provided with an illuminating plate 62, and the illuminating plate 62 is further provided with an illuminating lamp 63 achieving an illuminating function.

The pulley rack 1 is provided with two sets of slide rails, the two sets of slide rails respectively comprise two first slide rails and two second slide rails, each first slide rail is provided with a convex strip 12, each second slide rail is provided with a rack 11, the sliding device comprises an oil motor 3, an oil motor mounting seat for mounting the oil motor 3, a driving gear 31 connected with the output end of the oil motor 3, a sliding shaft 32, a driven gear 33 sleeved outside the sliding shaft 32, two locking seats 35 sleeved outside the sliding shaft 32 and two sliding gears 34 arranged at two ends of the sliding shaft 32, the driving gear 31 is meshed with the driven gear 33, the two sliding gears 34 are meshed with the racks 11 on the second slide rails, the two locking seats 35 are fastened and connected with the sliding backing plate 21, the sliding backing plate 21 is provided with two sets of connecting supports 36, every group be equipped with the connecting axle on the linking bridge 36, the cover is equipped with the bearing on the connecting axle, and the cover is equipped with pulley 37 on the bearing, pulley 37 slides on first slide rail.

The front end and the rear end of the sliding backing plate 21 are both provided with two groups of connecting brackets 36, and the base 2 is also provided with two groups of wedge-shaped cushion blocks matched with the pulleys 37.

The vacuum large cover enclosing plate 25 is provided with a vacuum large cover top plate 253, the cylinder piston rod 242 is fixedly connected with the vacuum large cover enclosing plate 25 through the vacuum large cover top plate 253, the bottom of the vacuum large cover enclosing plate 25 is provided with a sealing strip 256, the outer side of the bottom of the vacuum large cover enclosing plate 25 is provided with a vacuum large cover lip edge 254, and the vacuum large cover lip edge 254 is arranged to improve the sealing property of the vacuum large cover enclosing plate 25 after being contacted with the base 2.

The piston rod 242 of the air cylinder 24 is connected with an air cylinder joint 241, and the piston rod 242 is tightly connected with the vacuum cover top plate 253 through the air cylinder joint 241.

The guide rod 251 is provided with an inner fixing flange 53, the guide rod 251 is further provided with an oil cylinder fixing flange 51, and the heavy-load oil cylinder 5 is arranged in the guide rod 251 through the inner fixing flange 53 and the oil cylinder fixing flange 51.

And a gear set protective cover 13 is arranged on the sliding device.

The controller is respectively connected with the heating device and the cooling device.

The material for forming the shell is sent to the lower part of the vacuum big cover enclosing plate 25 through the sliding backing plate 21, specifically, the oil motor 3 rotates to make the driving gear 31 drive the driven gear 33 to rotate, the sliding shaft 32 is in a rotating state under the rotation of the driven gear 33, so that the sliding gear 34 makes a linear motion on the rack 11, meanwhile, the sliding shaft 32 drives the sliding backing plate 21 and the pulley 37 to make a linear motion on a first slide rail through the locking seat 35, the cylinder 24 drives the piston rod 242 and the cylinder joint 241 to press down the vacuum big cover enclosing plate 25, meanwhile, the vacuumizing device is started to make the inside of the vacuum big cover enclosing plate 25 in a vacuum state, the heating device or the cooling device is controlled independently through the controller, the heavy-load oil cylinder 5 is started to drive the mold pressurizing cover plate 252 to press down, the forming machine can form two half molds of the shell simultaneously, the overall processing efficiency of the shell is improved. And materials are conveyed through the sliding device, so that certain convenience is provided for workers.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A composite carbon fiber box forming machine comprises a machine body and is characterized in that the machine body comprises two pulley frames and a base connected with the pulley frames, sliding devices are arranged on the pulley frames and connected with sliding base plates, the machine body further comprises a stand column and a front upper beam, the front upper beam is arranged above the base through the stand column, a plurality of air cylinders are arranged on the front upper beam, the air cylinders are provided with piston rods for realizing the telescopic function, two guide rods are arranged on the bottom surface of the front upper beam, and the machine body further comprises two vacuum large cover enclosing plates;

a plurality of hoses for realizing the air blowing function are arranged in the vacuum large cover enclosing plate, vacuumizing devices are arranged on the vacuum large cover enclosing plate, and a heating device, a cooling device and a controller for controlling the switching functions of the heating device and the cooling device are arranged in the vacuum large cover enclosing plate;

the cylinder piston rod with big cover bounding wall fastening connection in vacuum all is equipped with the guide arm sleeve on the big cover bounding wall in vacuum, all be connected with heavy load hydro-cylinder on the guide arm, heavy load hydro-cylinder is equipped with the jar stopper that realizes flexible function, the end-to-end connection of jar stopper has mould pressure cover board.

2. The composite carbon fiber box forming machine as claimed in claim 1, wherein two sets of slide rails are provided on the pulley frame, the two sets of slide rails respectively include two first slide rails and two second slide rails, each of the first slide rails is provided with a convex strip, each of the second slide rails is provided with a rack, the sliding device includes an oil motor, an oil motor mounting seat for mounting the oil motor, a driving gear connected to an output end of the oil motor, a sliding shaft, a driven gear sleeved outside the sliding shaft, two locking seats sleeved outside the sliding shaft, and two sliding gears provided at two ends of the sliding shaft, the driving gear is engaged with the driven gear, the two sliding gears are engaged with the racks on the second slide rails, the two locking seats are fastened to the sliding pad, and the sliding pad is provided with two sets of connecting brackets, every group be equipped with the connecting axle on the linking bridge, the cover is equipped with the bearing on the connecting axle, and the cover is equipped with the pulley on the bearing, the pulley slides on first slide rail, and the front end and the rear end of slip backing plate all are equipped with two sets of linking bridge, still be equipped with two sets of wedge cushion blocks with pulley matched with on the base.

3. The composite carbon fiber box forming machine as claimed in claim 1, wherein a vacuum hood top plate is arranged on the vacuum hood enclosing plate, a sealing strip is arranged at the bottom of the vacuum hood enclosing plate, the vacuum hood top plate is fixedly connected with the vacuum hood enclosing plate through a cylinder piston rod, a vacuum hood lip edge is arranged on the outer side of the bottom of the vacuum hood enclosing plate, a cylinder joint is connected to the piston rod of the cylinder, and the piston rod is fixedly connected with the vacuum hood top plate through the cylinder joint.

4. The composite carbon fiber box forming machine as claimed in claim 1, wherein the guide bar is provided with an inner fixing flange, the guide bar is further provided with an oil cylinder fixing flange, and the heavy duty oil cylinder is arranged in the guide bar through the inner fixing flange and the oil cylinder fixing flange.

5. The composite carbon fiber box forming machine as claimed in claim 1, wherein the sliding device is provided with a gear set protection cover.

6. The composite carbon fiber box forming machine as claimed in claim 1, wherein the controller is connected to the heating device and the cooling device respectively.

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