CN210148535U - Novel double-rod oil cylinder vacuum foam plastic hydraulic forming machine - Google Patents

Abstract

The utility model discloses a novel double-rod oil cylinder vacuum foam hydraulic forming machine, which comprises a frame, an electric control cabinet, an instrument panel, a mold moving component, a mold fixing component, a mold loading frame, a hydraulic oil tank, a quick-mounting frame, a condenser and a motor, wherein the motor is arranged on the hydraulic oil tank, the mold moving component comprises a mold moving frame, a mold moving slider connecting plate and a mold moving thermal insulation plate, one side of the mold moving frame is provided with a mold moving air inlet pipe and a mold moving water outlet pipe, the mold moving thermal insulation plate is provided with a mold connecting rod and a mold moving steam outlet, the mold moving frame is connected with the frame through the mold moving slider connecting plate, the mold fixing component comprises a mold fixing frame and a mold fixing fixed plate, the mold fixing frame is fixed on the frame through the mold fixing fixed plate, two double-rod oil cylinders are respectively arranged at two sides of the mold fixing frame in a quick-mounting manner, piston rods of the double-rod oil cylinders are respectively connected with the mold, automatic operation, high production efficiency, good quality of the manufactured vacuum foamed plastic, and uniform size and density.

Description

Novel double-rod oil cylinder vacuum foam plastic hydraulic forming machine

Technical Field

The utility model relates to a novel hydraulic forming machine is moulded to two pole hydro-cylinders vacuum bubble.

Background

The vacuum foam plastic hydraulic forming machine is mainly used for manufacturing vacuum foam plastic particles such as EPS, EPP, ETPU and the like, and foaming agents are added into polystyrene resin, and the polystyrene resin is heated and softened to generate gas, so that the foam plastic with a hard closed-cell structure is formed. The existing vacuum foam plastic hydraulic forming machine is mainly of a single-oil-cylinder structure, a moving mold is driven by an oil cylinder to approach to a fixed mold to form a mold closing, the distance between the fixed mold and the moving mold is generally large for ensuring the demolding of a product, the telescopic radius of the oil cylinder is increased, and the oil cylinder is easy to deform in the using process. Meanwhile, the mold fixing and moving of the existing vacuum foam plastic hydraulic forming machine are of an integral structure, the requirements on the process are high when the mold and the mold frame are processed and manufactured, the mold is difficult to process, the mold is inconvenient to mount, the calibration difficulty is high after the mold is mounted, and a large amount of time is spent on adjusting and testing the mold; simultaneously, the mode locking mode of the mold is very complicated, the mode locking speed is slow, the mode locking is completed through the pressure of the oil cylinder, the oil cylinder is always in a pressure maintaining state in the mode locking process, the enterprise cost is increased invisibly, and therefore the adjustment of the existing mold mounting mode and the mode locking mode is urgently needed, so that the mold is more convenient to mount, and the production efficiency of equipment is improved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a die holding is convenient with the dismantlement, can automatic mode locking, and the mode locking is fast, and the compound die is convenient, and the mould removes steadily during the compound die, and the compound die precision is high, and the product drawing of patterns of being convenient for simultaneously has the practicality and uses the novel double-rod oil cylinder vacuum bubble to mould hydraulic forming machine of extensive nature.

In order to solve the above problem, the utility model adopts the following technical scheme:

a novel double-rod oil cylinder vacuum foam hydraulic forming machine comprises a frame, an electric control cabinet, an instrument panel, a mold moving assembly, a mold fixing assembly, a mold loading frame, a hydraulic oil tank, a quick-mounting frame, a condenser and a motor, wherein the motor is mounted on the hydraulic oil tank, the hydraulic oil tank is arranged at the lower end inside the frame, an anti-slip plate is arranged at the upper end of the hydraulic oil tank, the mold moving assembly comprises a mold moving frame, a mold moving slider connecting plate and a mold moving heat insulation plate, a mold moving air inlet pipe and a mold moving water outlet pipe are arranged at one side of the mold moving frame, a mold connecting rod and a mold moving steam outlet are mounted on the mold moving heat insulation plate, the mold moving frame is connected with the frame through the mold moving slider connecting plate, the mold fixing assembly comprises a mold fixing frame and a mold fixing fixed plate, the mold fixing frame is fixed on the frame through the mold fixing fixed plate, two double-rod oil cylinders are respectively mounted on two sides, The fast-assembling frame is connected, the upper end of frame is equipped with a feed cylinder mount, installs two feed cylinders on the feed cylinder mount, and the lower extreme of feed cylinder is equipped with the push rod cylinder, it bumps soon to be equipped with solid mould ejection of compact mouth on the solid mould framed, is equipped with the dress die carrier ejection of compact mouth on the dress die carrier and bumps soon, and the feed cylinder bumps soon through pipeline and dress die carrier ejection of compact mouth and is connected, and solid mould ejection of compact mouth bumps soon and is connected through pipeline and solid mould framed, the lower extreme of solid mould framed is equipped with solid mould outlet.

The utility model adopts the double-rod oil cylinder to make the die assembly of the moving die and the fixing die more convenient; the die is more convenient to mount by adopting a separated design for the fixed die; by adopting hydraulic bidirectional mode locking, the mode locking efficiency is high, and the stability is good; the die-filling frame is more convenient to move and is convenient to close the die by arranging the die-filling pulley at the lower end of the die-filling frame; the telescopic distance of the oil cylinder is controlled by adopting a sensor, so that the mold locking is more accurate; meanwhile, the height of the die is adjusted more conveniently by adjusting the bolts, the accuracy of die assembly is guaranteed, the production efficiency is improved, and the die assembly machine has practicability and wide application range.

As an optimized technical scheme, one end of the quick-mounting frame, which is connected with the rack, is provided with a quick-mounting frame fixing plate, sliders are mounted at the lower ends of the quick-mounting frame fixing plate and the die-moving slider connecting plate, and a guide rail matched with the sliders is arranged at the upper end of the rack.

This setting, the double-rod hydro-cylinder pulling of being convenient for moves mould moving frame and die-filling frame to solid mould frame removal for mould moving frame and die-filling frame are more steady at the in-process that removes, the ascending skew of orientation can not appear.

According to the preferable technical scheme, air cylinders are arranged on two sides of the quick-mounting frame, ejector rods are mounted on the air cylinders, positioning holes are formed in the positions, opposite to the ejector rods, of the die-mounting frame, and the air cylinders push the ejector rods to be inserted into the positioning holes to enable the die-mounting frame to be fixedly connected with the quick-mounting frame.

This setting is convenient for die loading frame and the connection of fast-assembling frame, makes the double-rod hydro-cylinder drive die loading frame through fast-assembling frame and removes to solid mould framed direction through connecting, guarantees the completion of compound die.

According to the preferable technical scheme, the upper end and the lower end of the die fixing die frame are respectively provided with a reinforcing vertical plate and a bottom plate, an upper oil cylinder mounting plate is fixed on the reinforcing vertical plate, a lower oil cylinder mounting plate is fixed on the bottom plate, die fixing and locking oil cylinders are mounted on the upper oil cylinder mounting plate and the lower oil cylinder mounting plate, a plurality of die locking brass sliding plates are arranged on the upper oil cylinder mounting plate and the lower oil cylinder mounting plate, an upper die fixing and locking plate is mounted between the die locking brass sliding plates and the upper oil cylinder mounting plate, a lower die fixing and locking plate is mounted between the die locking brass sliding plates and the lower oil cylinder mounting plate, the upper die fixing and locking plate and the lower die fixing and locking plate are connected with one end of a die fixing and locking oil cylinder.

This setting for can carry out the mode locking at once after accomplishing the compound die with die-filling frame admittedly, the setting of two-way mode locking makes the solid mould after accomplishing the mode locking be connected more stable between die-filling frame and the die-filling frame, has guaranteed the inside gas tightness of die cavity and the stability of atmospheric pressure.

According to the preferable technical scheme, a plurality of annular grooves are formed in the upper die fixing and locking plate and the lower die fixing and locking plate, the annular grooves are obliquely arranged, and the die fixing and locking oil cylinder is obliquely arranged in the same direction as the annular grooves.

This setting, the solid mould mode locking board reciprocates with solid mould mode locking board down on being convenient for solid mould mode locking hydro-cylinder promotes for the convenience more of mode locking has improved mode locking efficiency.

According to the preferable technical scheme, the die loading frame is composed of vertical plates and side plates, the vertical plates are divided into an upper vertical plate and a lower vertical plate, the side plates are divided into a left vertical plate and a right vertical plate, die locking brass sliding plates are arranged on the upper vertical plate and the lower vertical plate, one sides of the die locking brass sliding plates, which are in contact with the upper die fixing die locking plates and the lower die fixing die locking plates, adopt a chamfering structure, a die blocking plate is arranged in the middle of the die loading frame, an exhaust assembly is arranged at the lower end of the die loading frame.

This setting for go up solid mould clamping plate, solid mould clamping plate can not reduce the collision with the riser direct contact of die carrier upper end down during the mode locking, makes the mode locking tighter simultaneously, can not become flexible.

As a preferred technical scheme, two sides of the lower end of the die filling frame are respectively provided with a pulley combination, and the pulley combination is provided with two pulleys.

This setting has made things convenient for the removal of die carrier for remove convenience more, the setting of two pulleys simultaneously makes the equilibrium and the stability of die carrier better, has made things convenient for the installation of die carrier and mould.

According to the optimal technical scheme, the lower end of the pulley is provided with a thick-wall pipe, the lower end of the thick-wall pipe is provided with a cross beam, the cross beam is fixed on the rack, and an adjusting bolt is arranged between the thick-wall pipe and the cross beam.

This setting is convenient for through the height of adjusting bolt control thick-walled pipe to accomplish the regulation to die carrier height, make die carrier and the installation of mould more convenient.

As the preferred technical scheme, the back of the mould moving mould frame is provided with four mould moving and mould locking oil cylinders, the back of the mould moving heat insulation plate is provided with a horizontal supporting plate and a vertical supporting plate, the horizontal supporting plate and the vertical supporting plate are arranged in a staggered mode, an upper quick locking plate and a lower quick locking plate are arranged between the horizontal supporting plate and the vertical supporting plate, and the upper quick locking plate and the lower quick locking plate are connected with the mould moving and mould locking oil cylinders.

This setting has been convenient for the installation and the dismantlement of mould in the transfer die frame for the installation of mould is more convenient, and the setting of horizontal fagging and vertical fagging makes the structure more firm simultaneously, has guaranteed die holding's stability.

As the preferred technical scheme, a quick-locking upper pressing plate is arranged on the mold-moving heat-insulating plate, and sensors are arranged on the quick-locking upper pressing plate and the mold-locking brass slide plate.

This setting is convenient for through the sensor control solid mould mode locking hydro-cylinder and the distance that promotes of moving mould mode locking hydro-cylinder, reaches the accurate nature of mode locking.

The utility model has the advantages that:

the double-rod oil cylinder is arranged, so that the die moving and die fixing are more convenient;

secondly, the die is fixed by adopting a separated design, so that the die is more convenient to mount;

thirdly, hydraulic bidirectional mode locking is realized, the mode locking efficiency is high, and the stability is good;

fourthly, the die filling frame pulley is arranged, so that die assembly is more convenient;

fifthly, the sensor controls the telescopic distance of the oil cylinder, so that the mold locking is more accurate;

sixthly, due to the arrangement of the adjusting bolts, the height of the die is more conveniently adjusted, and the accuracy of die assembly is ensured;

and seventhly, PLC control, full-automatic operation, simple operation and convenient management.

Drawings

In order to illustrate the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, but the scope of the present invention is not limited thereto.

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

fig. 2 is a schematic view of the installation of the guide rail of the present invention;

FIG. 3 is a schematic structural view of the mold moving assembly of the present invention;

fig. 4 is a schematic structural view of the mold fixing assembly of the present invention;

FIG. 5 is a schematic view of the mold-loading frame of the present invention;

FIG. 6 is a schematic diagram showing the distribution of the mold-moving and mold-locking oil cylinders of the present invention;

FIG. 7 is a schematic view of the installation of the dual-rod cylinder of the present invention;

fig. 8 is a schematic view of the installation of the cylinder of the present invention;

FIG. 9 is a schematic view of the structure of the upper fixed mold clamping plate of the present invention;

wherein, 1, a frame, 2, an electric control cabinet, 3, a protective screen, 4, an instrument panel, 5, a stripper plate sliding part, 6, a mold moving component, 7, a mold fixing component, 8, a mold loading frame, 9, a charging barrel fixing frame, 10, a charging barrel, 11, an antiskid plate, 12, a hydraulic oil tank, 13, a guide rail, 14, a sliding block (a dust removing plate), 15, a mold moving frame, 16, a mold moving sliding block connecting plate, 17, a mold moving insulation plate, 18, a mold connecting rod, 19, a mold moving air inlet pipe, 20, a mold moving water outlet, 21, a mold moving steam outlet, 22, a mold fixing frame, 23, a lower oil cylinder mounting plate, 24, an upper oil cylinder mounting plate, 25, a pulling plate, 26, a mold fixing plate, 27, a mold fixing oil cylinder, 28, an upper mold fixing locking plate, 29, a lower mold fixing locking plate, 30, a mold locking brass sliding plate, 31, a sensor, 32, a mold fixing water, 36. the device comprises a blocking template, 37 locking copper inserts, 38 an exhaust assembly, 39 a mold moving and locking oil cylinder, 40 an upper and lower quick locking plate, 41 a mold installing frame hanging piece, 42 a pressure pump, 43 a mold fixing discharge port quick touch, 44 a mold installing frame discharge port quick touch, 45 a quick installing frame, 46 an annular groove, 47 a condenser, 48 an air cylinder, 49 a double-rod oil cylinder, 50 a thick-wall pipe, 51 a positioning hole, 52 a pulley, 53 an adjusting bolt, 54 a motor, 55 a push rod air cylinder, 56 a bottom plate, 57 a cross beam, 58 a quick installing frame fixing plate, 59 a vertical plate, 60 a horizontal supporting plate, 61 a vertical supporting plate and 62 a quick locking upper pressure plate.

Detailed Description

Referring to fig. 1 to 9, a novel double-rod cylinder vacuum foam hydraulic forming machine comprises a frame 1, an electric control cabinet 2, a protective net 3, an instrument panel 4, a stripper plate sliding part 5, a mold moving assembly 6, a mold fixing assembly 7, a mold filling frame 8, a hydraulic oil tank 12, a quick assembly frame 45, a condenser 47 and a motor 54, wherein the motor 54 is installed on the hydraulic oil tank 12, the hydraulic oil tank 12 is arranged at the lower end of the inside of the frame 1, an anti-skid plate 11 is arranged at the upper end of the hydraulic oil tank 12, the protective net 3 is arranged at two sides of the frame 1, the electric control cabinet 2 and the instrument panel 4 are installed on the frame 1, the mold moving assembly 6 comprises a mold moving frame 15, a mold moving slide block connecting plate 16 and a mold moving thermal insulation plate 17, a mold moving air inlet pipe 19 and a mold moving water outlet pipe 20 are arranged at one side of the mold moving frame 15, a mold connecting rod 18 and a mold moving steam outlet 21 are installed on the mold moving insulation, the die fixing component 7 comprises a die fixing frame 22 and a die fixing plate 26, the die fixing frame 22 is fixed on the frame 1 through the die fixing plate 16, two double-rod oil cylinders 49 are respectively arranged at two sides of the die fixing frame 22, piston rods of the double-rod oil cylinders 49 are respectively connected with the die moving frame 15 and the fast installing frame 45, the upper end of the frame 1 is provided with a charging barrel fixing frame 9, two charging barrels 10 are arranged on the charging barrel fixing frame 9, the lower end of the charging barrel 10 is provided with a push rod air cylinder 55, the push rod air cylinder 55 controls the charging barrel 10 to inject raw materials into the die cavity, the charging barrel is connected with external feeding equipment through a pipeline, the die fixing frame 22 is provided with a die fixing discharge port fast touch 43, the die installing frame 8 is provided with a die installing frame discharge port fast touch 44, the charging barrel 10 is connected with the die installing frame discharge port fast touch 44 through a pipeline, the die fixing discharge port fast touch 43 is connected with the die fixing frame 22 through a pipeline, and the lower end of the die fixing frame 22 is provided with a die fixing water outlet 32.

The one end that fast-assembling frame 45 is connected with frame 1 is equipped with fast-assembling frame fixed plate, slider 14 is all installed to the lower extreme of fast-assembling frame fixed plate 58 and shifting die slider connecting plate 16, the upper end of frame 1 is equipped with guide rail 13 with slider 14 matched with, the both sides of fast-assembling frame 45 are equipped with cylinder 48, install the ejector pin on the cylinder 48, die carrier 8 is just being equipped with locating hole 51 to the position of ejector pin, and cylinder 48 promotes the ejector pin and makes die carrier 8 and fast-assembling frame 45 fixed connection in inserting locating hole 51.

A reinforcing vertical plate 33 and a bottom plate 56 are respectively arranged at the upper end and the lower end of the mold fixing mold frame 22, an upper cylinder mounting plate 24 is fixed on the reinforcing vertical plate 33, a lower cylinder mounting plate 23 is fixed on the bottom plate 56, mold fixing and locking cylinders 27 are respectively arranged on the upper cylinder mounting plate 24 and the lower cylinder mounting plate 23, a plurality of mold locking brass slide plates 30 are respectively arranged on the upper cylinder mounting plate 24 and the lower cylinder mounting plate 23, an upper mold fixing and locking plate 28 is arranged between the mold locking brass slide plates 30 and the upper cylinder mounting plate 24, a lower mold fixing and locking plate 29 is arranged between the mold locking brass slide plates 30 and the lower cylinder mounting plate 23, the upper mold fixing and locking plate 28 and the lower mold fixing and locking plate 29 are both connected with one end of the mold fixing and locking cylinder 27, and a pull plate 25 is arranged between the upper cylinder; the upper die fixing and locking plate 28 and the lower die fixing and locking plate 29 are respectively provided with a plurality of annular grooves 46, the annular grooves 46 are obliquely arranged, and the die fixing and locking oil cylinder 27 is obliquely arranged in the same direction as the annular grooves 46.

The die assembling frame 8 is composed of a vertical plate 59 and a side plate 34, the vertical plate 59 is divided into an upper die fixing die locking plate 28 and a lower die fixing die locking plate 29, the side plate 34 is divided into a left vertical plate and a right vertical plate 59, the upper die fixing die locking brass sliding plate 30 and the lower die fixing die locking plate 30 are mounted on the upper vertical plate and the lower vertical plate 59, a chamfer structure is adopted on one side of the die locking brass sliding plate 30, which is in contact with the upper die fixing die locking plate 28 and the lower die fixing die locking plate 29, a die blocking plate 36 is arranged in the middle of the die assembling frame 8, an exhaust assembly 38 is arranged at the lower end of the die assembling frame 8, a die assembling frame hanging part 41 is arranged at the upper end of the die assembling frame 8, a pulley combination 35 is respectively arranged on two sides of the lower end of the die assembling frame 8.

The back of the mould moving frame 15 is provided with four mould moving and mould locking oil cylinders 39, the back of the mould moving heat insulation plate 17 is provided with a horizontal supporting plate 60 and a vertical supporting plate 61, the horizontal supporting plate 60 and the vertical supporting plate 61 are arranged in a staggered mode, an upper quick locking plate 40 and a lower quick locking plate 40 are arranged between the horizontal supporting plate 60 and the vertical supporting plate 61, the upper quick locking plate 40 and the lower quick locking plate 40 are connected with the mould moving and mould locking oil cylinders 39, a quick locking upper pressure plate 62 is arranged on the mould moving heat insulation plate 17, and sensors 31 are arranged on the quick locking upper pressure plate 62.

The utility model discloses one side of frame is equipped with the cooling water and advances the pipe, vapor advances the pipe, the air advances pipe and drain main, be equipped with the mould moving intake pipe on the mould moving framed, the mould moving inlet tube, be equipped with solid mould intake pipe on the solid mould framed, gu the mould inlet tube, drain main and mould moving drain pipe, gu mould drain pipe connection, vapor advances the pipe and the air advances the pipe and moves the mould intake pipe, gu mould intake pipe connection, the cooling water advances the pipe and moves the mould inlet tube, gu mould water piping connection, the cooling water advances the pipe, vapor advances the pipe, the air advances to all be equipped with the angle seat valve and controls through the angle seat valve on managing.

The utility model discloses an air advances to manage and is connected for same pipeline and condenser with the air exit tube, takes away the heat that flows out in with the die cavity through condenser 47.

The utility model discloses a double-rod oil cylinder comprises two piston rods and a barrel, and its structure and theory of operation are the same with the common double-rod oil cylinder in market, so do not describe in detail.

The utility model discloses a feed cylinder and feeding mode are the same with current equipment feed cylinder, and the event is not described in detail.

The utility model provides a solid mould and mould moving heating all adopt the mode of pulse, and the drawing of patterns mode of solid mould and mould moving also adopts the mode that the pulse was blown.

The utility model discloses a feed cylinder pressurization is filled and is divided into three stage:

firstly, a pressurizing filling stage, wherein the charging barrel injects pressure to fill the mold;

secondly, in a common filling stage, the charging barrel is filled with the die without pressure;

and thirdly, the material gun and the pipeline are cleaned, and the residual raw materials of the material gun and the material pipe are recovered to the material cylinder.

The utility model discloses a double-pole hydro-cylinder, solid mould mode locking hydro-cylinder, mould shifting mode locking hydro-cylinder, push rod hydro-cylinder all are connected with hydraulic tank through the pipeline.

The utility model discloses a process that double-pole hydro-cylinder, solid mould mode locking hydro-cylinder, shifting die mode locking hydro-cylinder, push rod hydro-cylinder, motor, feed cylinder were filled, angle seat valve and production processing vacuum bubble were moulded all passes through PLC control.

The utility model discloses a die holding mode is: firstly, mounting a fixed die in a die on a die holder, mounting a moving die in the die on the fixed die, pulling the die holder to move towards a die fixing frame through a double-rod oil cylinder, inserting a die mounting frame part into the die fixing frame, pushing an upper die fixing and locking plate and a lower die fixing and locking plate to move through a die fixing and locking oil cylinder on the die fixing frame, and completing the fixing of the die holder and the locking of the fixed die; and finally, the mould shifting and locking oil cylinder on the mould shifting and locking frame pushes the upper and lower quick locking plates to move so as to fix the mould shifting in the mould.

The utility model discloses during operation, at first carry out the installation and the calibration of mould, promote the ejector pin through the effect of cylinder, make the ejector pin insert in the locating hole of dress die carrier epipleural, make dress die carrier be connected with the fast-assembling frame, the effect of rethread double-rod hydro-cylinder makes the good mould that moves of installation and solid mould accomplish the compound die and form the die cavity, rethread feed cylinder carries out raw materials to the die cavity inside and fills, after the raw materials is filled, heat the raw materials of die cavity inside through vapor and soften, and control heating time and the pressure of die cavity inside, at first through the forced air cooling after the heating, cool water again, after cooling, take away the steam and the heat of die cavity inside through blowing, last mould die sinking, blow the drawing of patterns through the pulse, wash the die cavity simultaneously; so as to reciprocate.

The utility model discloses attention when installation and transportation:

firstly, the binding position of the hoisting steel rope must consider the even stress of the machine to prevent the machine from turning over;

secondly, using a proper transport tool to transport the machine, and preventing the machine from being bent in the transportation process;

thirdly, in the transportation process, condensation and water accumulation caused by temperature change to the machine are prevented;

fourthly, paying attention to the light weight when the machine is carried;

and fifthly, the machine can be installed only indoors or in a production workshop, and the outdoor installation is forbidden.

For guaranteeing the utility model discloses the operation safety of equipment must be at machine water inlet installation stop valve and water filter, regularly clears up and the blowdown to water filter.

The above is only the specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the creative work should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (10)

1. The utility model provides a novel hydraulic forming machine is moulded to double-rod hydro-cylinder vacuum bubble, includes frame, automatically controlled cabinet, panel board, moves the mould subassembly, admits mold frame, dress die carrier, hydraulic tank, fast-assembling frame, condenser and motor, and the motor is installed on hydraulic tank, and hydraulic tank sets up at the inside lower extreme of frame, its characterized in that: the upper end of the hydraulic oil tank is provided with an antiskid plate, the mold moving assembly comprises a mold moving mold frame, a mold moving slider connecting plate and a mold moving heat insulation plate, one side of the mold moving mold frame is provided with a mold moving air inlet pipe and a mold moving water outlet pipe, the mold moving heat insulation plate is provided with a mold connecting rod and a mold moving steam outlet, the mold moving mold frame is connected with the rack through the mold moving slider connecting plate, the mold fixing assembly comprises a mold fixing mold frame and a mold fixing plate, the mold fixing mold frame is fixed on the rack through the mold fixing plate, two double-rod oil cylinders are respectively arranged on two sides of the mold fixing mold frame, piston rods of the double-rod oil cylinders are respectively connected with the mold moving mold frame and the rack, the upper end of the rack is provided with a charging barrel fixing frame, two charging barrels are arranged on the charging barrel fixing frame, the lower end of each charging barrel is provided with a push rod cylinder, the charging barrel is connected with a discharging port of the die filling frame through a pipeline in a quick-collision manner, a die fixing discharging port is connected with a die fixing frame through a pipeline in a quick-collision manner, and a die fixing water outlet is formed in the lower end of the die fixing frame.

2. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 1, is characterized in that: the quick-mounting frame is characterized in that a quick-mounting frame fixing plate is arranged at one end, connected with the frame, of the quick-mounting frame, sliders are mounted at the lower ends of the quick-mounting frame fixing plate and the die moving slider connecting plate, and guide rails matched with the sliders are arranged at the upper end of the frame.

3. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 2, is characterized in that: and the cylinder pushes the ejector rod to be inserted into the positioning hole so as to fixedly connect the die loading frame with the quick assembly frame.

4. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 1, is characterized in that: the upper end and the lower end of the die fixing frame are respectively provided with a reinforcing vertical plate and a bottom plate, an upper oil cylinder mounting plate is fixed on the reinforcing vertical plate, a lower oil cylinder mounting plate is fixed on the bottom plate, die fixing and locking oil cylinders are mounted on the upper oil cylinder mounting plate and the lower oil cylinder mounting plate, a plurality of die locking brass sliding plates are arranged on the upper oil cylinder mounting plate and the lower oil cylinder mounting plate, an upper die fixing and locking plate is mounted between the die locking brass sliding plates and the upper oil cylinder mounting plate, a lower die fixing and locking plate is mounted between the die locking brass sliding plates and the lower oil cylinder mounting plate, the upper die fixing and locking plate and the lower die fixing and locking plate are connected with one end of the die fixing and locking oil cylinder, and a.

5. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 4, characterized in that: the upper die fixing and locking plate and the lower die fixing and locking plate are both provided with a plurality of annular grooves, the annular grooves are obliquely arranged, and the die fixing and locking oil cylinder is obliquely arranged in the same direction as the annular grooves.

6. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 4, characterized in that: the die loading frame is composed of vertical plates and side plates, the vertical plates are divided into an upper vertical plate and a lower vertical plate, the side plates are divided into a left vertical plate and a right vertical plate, die locking brass sliding plates are installed on the upper vertical plate and the lower vertical plate, one side of each die locking brass sliding plate, which is in contact with the upper die fixing die locking plate and the lower die fixing die locking plate, adopts a chamfering structure, a die blocking plate is arranged in the middle of the die loading frame, an exhaust assembly is arranged at the lower end of the die loading frame, and.

7. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 6, is characterized in that: and two sides of the lower end of the die holder are respectively provided with a pulley combination, and the pulley block is provided with two pulleys.

8. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 7, is characterized in that: the lower extreme of pulley is equipped with the thick-walled pipe, the lower extreme of thick-walled pipe is equipped with the crossbeam, and the crossbeam is fixed in the frame, is equipped with adjusting bolt between thick-walled pipe and the crossbeam.

9. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 4, characterized in that: the back of the mould moving mould frame is provided with four mould moving and mould locking oil cylinders, the back of the mould moving heat insulation plate is provided with a horizontal supporting plate and a vertical supporting plate, the horizontal supporting plate and the vertical supporting plate are arranged in a staggered mode, an upper quick locking plate and a lower quick locking plate are arranged between the horizontal supporting plate and the vertical supporting plate, and the upper quick locking plate and the lower quick locking plate are connected with the mould moving and mould locking oil cylinders.

10. The novel double-rod oil cylinder vacuum foam hydraulic forming machine as claimed in claim 9, characterized in that: and a quick-locking upper pressing plate is arranged on the mold-moving heat-insulating plate, and sensors are arranged on the quick-locking upper pressing plate and the mold-locking brass slide plate.

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