CN113752595B - Military industry carbon fiber production device - Google Patents

Abstract

The invention provides a military industry carbon fiber production device, which is added with a tank body, a first dovetail block, a second dovetail block, a push-pull mechanism, a working plate and a working platform.

Description

Military industry carbon fiber production device

Technical Field

The invention belongs to the field of carbon fiber production, and particularly relates to a military industry carbon fiber production device.

Background

Currently, carbon fibers (CF or graphite fibers) are fibers having a diameter of about 5 to 10 microns, and are composed primarily of carbon atoms. Carbon fibers are often combined with other materials to form composite materials. When impregnated with a plastic resin and heat dried, it forms a carbon fiber reinforced polymer (commonly referred to as carbon fiber) that has a very high strength to weight ratio, although somewhat brittle, but is very rigid. The carbon fiber is also compounded with other materials such as graphite to form a reinforced carbon-carbon composite material with high heat resistance, the forming process of the carbon fiber composite material is dozens of, wherein the autoclave process is the most common forming mode with more applications.

The internal space of current autoclave jar can't be adjusted, when only preparing less object for unnecessary space is extravagant, has increased the energy loss, and simultaneously, the workstation of the internal portion of jar is mostly integrated into one piece's single-sided board, can't adjust the use length of mesa according to the size of object.

Therefore, a military industry carbon fiber production device is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a carbon fiber production device in the military industry, which is used for solving the problems in the background technology.

The technical scheme of the invention is realized as follows: a military industry carbon fiber production device comprises: the novel multifunctional tank comprises a tank body, an equipment cylinder, a door plate, a push-pull disc and a push-pull mechanism, wherein a first circular plate is arranged on the right side of the outer surface of the tank body, two groups of first side blocks are symmetrically arranged on the rear side of the outer surface of the first circular plate, first rotating holes are formed in the surfaces of the first side blocks, multiple groups of first dovetail blocks are uniformly arranged on the right side of the inner surface of the tank body, two groups of first supporting plates are arranged on the lower side of the outer surface of the tank body, a bearing plate is arranged on the upper surface of each first supporting plate, a first electric push rod is arranged on the right side of the upper surface of each bearing plate, a connecting rod is welded at the right end of each first electric push rod, a circular cavity is formed in the left side of the inner portion of each connecting rod, a first square groove is formed in the right surface of each connecting rod and communicated with the circular cavity, the equipment cylinder comprises a semicircular plate and a workbench, the door plate comprises a second circular plate and a sealing plate, the push-pull disc comprises a first assembling block and a push-pull mechanism, and a strip-pull plate.

As a preferred embodiment, a semicircular plate is arranged on the lower side inside the equipment cylinder, first trapezoidal grooves are formed in the front side and the rear side of the upper surface of the semicircular plate, a first trapezoidal plate is arranged inside the first trapezoidal grooves, a second supporting plate is connected to the upper surface of the first trapezoidal plate, a workbench is connected to the upper surface of the second supporting plate, a transverse cavity is formed in the left surface of the workbench, a transverse plate is arranged inside the transverse cavity, transverse grooves are formed in the upper surface of the transverse plate, a plurality of groups of second square grooves are formed in the front side and the rear side inside the transverse grooves, a third square groove is formed above the second square grooves, a plurality of groups of first round holes are formed in the front side and the rear side of the upper surface of the transverse plate, a plurality of groups of lifting plates are arranged inside the transverse grooves, a fourth square groove is formed in the front side and the rear side of the lifting plates, air holes are formed in the fourth square grooves, and a square sliding block is arranged on the front side inside the first square grooves, the outer surface of the square sliding block is wrapped with a plurality of groups of first sealing rings, the front side of the square sliding block is connected with a first square block, a working plate is arranged above the transverse plate, the lower surface of the working plate is connected with a lifting plate, a plurality of groups of second round holes are formed in the front side and the rear side of the lower surface of the working plate, first springs are fixed in the second round holes, the lower ends of the first springs are fixed in the first round holes, an elliptical groove is formed in the middle of the upper surface of the working plate and extends into the lifting plate, air holes are communicated with the elliptical groove, a fixing plate is arranged on the upper side in the elliptical groove, a bearing is arranged in the middle of the fixing plate, a stud is arranged in the bearing, the upper end of the stud is connected with a first twisting plate, an elliptical plate is arranged on the lower side in the elliptical groove, and an internal threaded pipe is arranged in the middle of the upper surface of the elliptical plate, the double-screw bolt lower extreme stretches into inside the internal thread pipe, elliptical plate surface parcel has the multiunit second sealing ring, both sides all are equipped with the outer tube around the elliptical plate lower surface, the inside inner tube that is equipped with of outer tube, the inner tube is fixed in the elliptical trough bottom portion, the inside second spring that is equipped with of inner tube, the second spring is in compression state.

As a preferred embodiment, the door plant right side surface outside is connected with the second annular plate, four groups of rectangular channels have evenly been seted up on second annular plate right side surface, the inside round bar that is equipped with of rectangular channel, the round bar both ends are passed through movable rod swing joint inside the rectangular channel, the inside second screw hole that is equipped with of round bar, the inside threaded rod that is equipped with of second screw hole, quad slit and first through-hole have been seted up on the inside right side of threaded rod, first through-hole is located the quad slit right side, be equipped with first square bar in the first through-hole, the connecting plate has all been welded at first square bar both ends, the second hand-operated twisting plate is connected to the connecting plate right-hand member, the second through-hole has been seted up to second hand-operated twisting plate right side surface intermediate position, third screw hole has been seted up on the inside left side of rectangular channel, the door plant left surface is provided with the closing plate, the closing plate left surface outside evenly is provided with multiunit second dovetail block.

As a preferred embodiment, the connecting hole has been opened to second annular plate right surface front side, the inside fifth square groove of having seted up downwards of connecting hole, the connection chamber has been seted up to the connecting hole top, the inside sixth square groove of having seted up upwards of connecting hole, first square groove communicates with each other with being connected the chamber, it is equipped with the second square pole to connect the intracavity portion, the second square pole stretches into the inside of sixth square groove, the press board is connected to second square pole upper end, second annular plate left surface front side is opened and is equipped with the circular arc groove, the groove of accomodating has been seted up to circular arc groove below, the inside link that is equipped with of connecting hole, the link surface is connected with draws the rope, it is equipped with and draws the pole to draw the rope left end, it has the square piece of second to draw pole left end welding.

As a preferred embodiment, three groups of first assembling blocks are uniformly welded on the left side surface of the push-pull plate, assembling grooves are formed in the first assembling blocks, first inserting holes are formed in the upper surface and the lower surface of each first assembling block and communicated with the assembling grooves, inserting rods are arranged in the inserting holes, rubber rings are arranged on the outer sides of the left side surface and the right side surface of the push-pull plate, and two groups of rubber rings wrap the outer surface of the push-pull plate.

As a preferred embodiment, the bar shaped plate divide into three group and evenly connect in the internal portion left side of jar, three group bar shaped plate upper surface intermediate position has all seted up flutedly, the third through-hole has been seted up on the inside right side of recess, the inside second electric putter that is equipped with of recess, second electric putter right-hand member welding has the second assembly piece, the second jack has been seted up to second assembly piece surface upside, the second assembly piece stretches into inside the assembly groove, first bar spout has been seted up to bar shaped plate upper surface front side, the inside left and right sides of first bar spout has all seted up the second bar spout, the inside front side of second bar spout is equipped with rubber baffle, the inside first bar slide that is equipped with of first bar spout, side rod is all connected at both ends about the first bar slide, side rod surface parcel has the rubber sleeve, first bar slide upper surface is equipped with the dust guard, dust guard upper surface rear side is provided with the push-pull board, the dust guard lower surface left and right sides has all seted up the second trapezoidal groove, the inside second trapezoidal plate that is equipped with the second trapezoidal plate, the lower extreme is connected the fly leaf, the fly leaf the dust guard is equipped with the sponge board rear surface welding has the fixed block to the fixed block, the assembly bottom surface of the side of bar spout has been equipped with the third bar board, the fixed block has been equipped with the fixed block before the fixed block.

As a preferred embodiment, the bearing plates are provided in two sets, the two sets of bearing plates are respectively fixed at the front and rear sides of the upper surfaces of the two sets of first supporting plates, and the first electric push rod is fixed on the surface of the bearing plate at the front side of the upper surface of the first supporting plate.

As a preferred embodiment, a plurality of groups of vacuum pumps are arranged on the rear side of the outer surface of the tank body, the plurality of groups of vacuum pumps are all connected to the rear side of the inner part of the equipment cylinder through vacuum pipes, a pressure increasing pipe is arranged on the upper side of the outer surface of the tank body, the pressure increasing pipe is connected with a pressure increasing pump, a safety valve is arranged on the upper side of the outer surface of the tank body, a thermocouple is arranged in the tank body, and the vacuum pumps and the pressure increasing pump are both arranged on the surface of a bearing plate on the rear side of the upper surface of the first supporting plate.

In a preferred embodiment, a fan is arranged in the middle of the right side surface of the push-pull disc.

The beneficial effects of the invention are: according to the military industry carbon fiber production device, the tank body, the first dovetail block, the second dovetail block, the push-pull mechanism, the working plate and the working platform are added, the adjustment of the inner space of the tank body is realized through the movement of the push-pull disc in the design, the waste of the inner space of the tank body when a prepared object is small is avoided, the energy loss is reduced conveniently, the working plate is assembled in the working platform, the use length of the table top is adjusted conveniently according to the size of the object, and the sealing effect in the tank body is improved through the matching of the first dovetail block and the second dovetail block.

The tank body, the equipment barrel, the door plate, the push-pull disc and the push-pull mechanism are arranged in the tank body, the push-pull disc moves to adjust the internal space of the tank body, the internal space of the tank body is prevented from being wasted when a prepared object is small, the energy loss is convenient to reduce, the working plate is assembled inside the workbench, and the using length of the table top is convenient to adjust according to the size of the object.

Because the first dovetail block and the second dovetail block are added, the first dovetail block and the second dovetail block are matched and connected in the design, the sealing effect of the tank body is improved, the first electric push rod and the square block are additionally added, the first electric push rod is connected with the second annular plate through the square block, the door plate is convenient to close and open, the sealing effect is good, the use space is convenient to adjust according to the size of an object, the energy loss is effectively reduced, and meanwhile, the use length of the workbench can be adjusted according to the size of the object.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a military industry carbon fiber production apparatus of the present invention.

FIG. 2 is a front view of the whole plane of the carbon fiber production apparatus of the military industry of the present invention.

FIG. 3 is a front plan view of a door panel in a carbon fiber production apparatus for military industry according to the present invention.

FIG. 4 is a front plan view of a first electric push rod of the carbon fiber production apparatus in the military industry according to the present invention.

FIG. 5 is a right side plan view of a door panel in a carbon fiber production apparatus for the military industry according to the present invention.

FIG. 6 is a left side view of a door panel of a carbon fiber production apparatus for military industry according to the present invention.

FIG. 7 is a right side plan view of a tank body in a carbon fiber production apparatus for the military industry according to the present invention.

FIG. 8 is an enlarged view of part A of an apparatus barrel in a carbon fiber production apparatus in the military industry according to the present invention.

FIG. 9 is an enlarged view of the part B of a door panel in a carbon fiber production device in the military industry.

FIG. 10 is an enlarged view of the part C of a door panel in a carbon fiber production device in the military industry.

FIG. 11 is a schematic structural diagram of a workbench in a carbon fiber production device in the military industry according to the present invention.

FIG. 12 is a schematic structural diagram of a working plate in a carbon fiber production device in the military industry.

FIG. 13 is a right side plan view of a work plate in a carbon fiber production apparatus for the military industry according to the present invention.

FIG. 14 is an enlarged view of the D part of the working plate in the carbon fiber production apparatus in the military industry.

FIG. 15 is an enlarged view of the E portion of the working plate in the carbon fiber production apparatus for military industry according to the present invention.

FIG. 16 is a left side view of a tank body in the military industry carbon fiber production apparatus of the present invention.

Fig. 17 is a left side view of a push-pull mechanism in a carbon fiber production device in military industry according to the present invention.

FIG. 18 is an enlarged view of the F part of a push-pull plate in a carbon fiber production apparatus for the military industry according to the present invention.

FIG. 19 is an enlarged view of the G part of the push-pull mechanism in the carbon fiber production apparatus in the military industry of the present invention.

FIG. 20 is a rear plan view of a dust-proof plate in the carbon fiber production apparatus for military industry of the present invention.

In the figure: 1-tank body, 10-first circular plate, 11-first side block, 111-first rotating hole, 12-first dovetail block, 13-first through hole, 14-first threaded hole, 15-first supporting plate, 16-bearing plate, 17-first electric push rod, 171-connecting rod, 172-circular cavity, 173-first square groove, 2-equipment cylinder, 20-semi-circular plate, 21-first trapezoidal groove, 22-first trapezoidal plate, 23-second supporting plate, 24-workbench, 241-transverse cavity, 25-transverse plate, transverse groove, 252-second square groove, 253-third square groove, 254-first circular hole, 255-first spring, 26-lifting plate, 261-fourth square groove, 262-air hole, 255-first spring, 26-second lifting plate, 261-fourth square groove 263-square sliding block, 264-first sealing ring, 265-first square block, 266-working plate, 267-second round hole, 27-elliptical groove, 271-fixing plate, 272-bearing, 273-stud, 274-first hand screw plate, 275-internal threaded tube, 28-elliptical plate, 281-second sealing ring, 29-external tube, 291-internal tube, 292-second spring, 3-door plate, 31-second annular plate, 311-rectangular groove, 312-movable rod, 313-circular rod, 314-second threaded hole, 315-threaded rod, 3151-square hole, 3152-first through hole, 316-first square rod, 317-connecting plate, 318-second hand screw plate, 319-second through hole, 32-sealing plate, 33-a second dovetail block, 34-a third threaded hole, 4-a connecting hole, 41-a fifth square groove, 42-a sixth square groove, 43-a connecting cavity, 44-a second square rod, 45-a pressing plate, 46-an arc groove, 461-an accommodating groove, 47-a hanging ring 471-pulling leading rope, 48-pulling leading rod, 49-second square block, 5-pushing disc, 51-first assembling block, 52-assembling groove, 53-first jack, 54-inserting rod, 55-rubber ring, 56-rubber ring, 6-pushing and pulling mechanism, 60-strip plate 61-groove, 611-third through hole, 62-second electric push rod, 621-second assembly block, 622-second jack, 63-first strip-shaped sliding groove, 631-second strip-shaped sliding groove, 632-rubber baffle, 64-first strip-shaped sliding plate, 641-side rod, 642-rubber sleeve, 65-dust-proof plate, 651-second trapezoid groove, 652-push-pull plate, 66-movable plate, 661-second trapezoid plate, 662-sponge block, 67-third strip-shaped sliding groove, 671-fixing groove, 68-vertical plate and 681-fixing block.

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. 1-20, the present invention provides a technical solution: a military industry carbon fiber production device comprises: the tank comprises a tank body 1, an equipment cylinder 2, a door plate 3, a push-pull disc 5 and a push-pull mechanism 6, wherein the right side of the outer surface of the tank body 1 is provided with a first circular ring plate 10, the rear side of the outer surface of the first circular ring plate 10 is symmetrically provided with two groups of first side blocks 11, the surface of each first side block 11 is provided with a first rotating hole 111, the right side of the inner surface of the tank body 1 is uniformly provided with a plurality of groups of first dovetail blocks 12, the lower side of the outer surface of the tank body 1 is provided with two groups of first supporting plates 15, the upper surfaces of the first supporting plates 15 are provided with bearing plates 16, bearing plate 16 upper surface right side is equipped with first electric putter 17, the welding of first electric putter 17 right-hand member has connecting rod 171, the inside left side of connecting rod 171 is equipped with circle chamber 172, first square groove 173 has been seted up on connecting rod 171 right surface, first square groove 173 communicates with each other with circle chamber 172, equipment section of thick bamboo 2 includes semicircle board 20 and workstation 24, door plant 3 includes second annular plate and closing plate 32, push-and-pull dish 5 includes first assembly piece 51 and assembly groove 52, push-and-pull mechanism 6 includes strip shaped plate 60 and second electric putter 62.

The lower side of the inner part of the equipment cylinder 2 is provided with a semicircular plate 20, the front and back sides of the upper surface of the semicircular plate 20 are both provided with a first trapezoidal groove 21, the inner part of the first trapezoidal groove 21 is provided with a first trapezoidal plate 22, the upper surface of the first trapezoidal plate 22 is connected with a second support plate 23, the upper surface of the second support plate 23 is connected with a workbench 24, the left surface of the workbench 24 is provided with a transverse cavity 241, the inner part of the transverse cavity 241 is provided with a transverse plate 25, the upper surface of the transverse plate 25 is provided with a transverse groove 251, the front and back sides of the inner part of the transverse groove 251 are both provided with second square grooves 252, the upper part of the second square groove 252 is provided with a third square groove 253, the front and back sides of the upper surface of the transverse plate 25 are both provided with a plurality of first round holes 254, the inner part of the transverse groove 251 is provided with a lifting plate 26, the front and back surfaces of the lifting plate 26 are symmetrically provided with a plurality of fourth square grooves 261, the air holes 262 are provided with square blocks 263, the front side of the inner part of the first square groove 173, the outer surface of the square sliding block 263 is wrapped by a plurality of groups of first sealing rings 264, the front side of the square sliding block 263 is connected with a first square block 265, a working plate 266 is arranged above the transverse plate 25, the lower surface of the working plate 266 is connected with the lifting plate 26, a plurality of groups of second round holes 267 are respectively arranged at the front side and the rear side of the lower surface of the working plate 266, a first spring 255 is fixed in each second round hole 267, the lower end of each first spring 255 is fixed in each first round hole 254, an elliptical groove 27 is arranged in the middle of the upper surface of the working plate 266, the elliptical groove 27 is arranged in the lifting plate 26, the air hole 262 is communicated with the elliptical groove 27, a fixing plate 271 is arranged at the upper side in the elliptical groove 27, a bearing 272 is arranged at the middle in the fixing plate 271, a stud 273 is arranged in the bearing 272, the upper end of the stud 273 is connected with a first hand screw plate 274, an elliptical plate 28 is arranged at the lower side in the elliptical groove 27, an internal threaded pipe 275 is arranged at the middle of the upper surface of the elliptical plate 28, the lower end of the stud 273 extends into the internal threaded pipe 275, oval board 28 surface parcel has multiunit second sealing ring 281, and oval board 28 lower surface front and back both sides all are equipped with outer tube 29, and outer tube 29 is inside to be equipped with inner tube 291, and inner tube 291 is fixed in oval groove 27 bottom, and inner tube 291 is inside to be equipped with second spring 292, and second spring 292 is in compression state, specifically, conveniently shifts out proper amount work plate 266 according to the mould size and uses, through outer tube 29 and the cooperation of inner tube 291, avoids oval board 28 to remove the in-process and takes place the upset.

The outer side of the right surface of the door plate 3 is connected with a second annular plate 31, four groups of rectangular grooves 311 are uniformly formed in the right surface of the second annular plate 31, a round rod 313 is arranged inside the rectangular groove 311, two ends of the round rod 313 are movably connected inside the rectangular groove 311 through a movable rod 312, a second threaded hole 314 is formed inside the round rod 313, a threaded rod 315 is arranged inside the second threaded hole 314, a square hole 3151 and a first through hole 3152 are formed in the right side inside the threaded rod 315, the first through hole 3152 is located on the right side of the square hole 3151, a first square rod 316 is arranged in the first through hole 3152, connecting plates 317 are welded at two ends of the first square rod 316, the right end of each connecting plate 317 is connected with a second dovetail block 318, a second through hole 319 is formed in the middle position of the right surface of the second dovetail block 318, a third threaded hole 34 is formed in the left side inside the rectangular groove 311, a sealing plate 32 is arranged on the left surface of the door plate 3, a plurality of groups of second dovetail blocks 33 are uniformly arranged on the outer side of the left surface of the sealing plate 32, and are connected with a first dovetail block 12 in a matched mode through the second dovetail block 33, and the sealing effect inside the tank body 1 is improved.

Connecting hole 4 has been seted up to second annular plate 31 right surface front side, fifth square groove 41 has been seted up downwards to connecting hole 4 inside, connecting hole 4 has been seted up the top and has been connected the chamber 43, connecting hole 4 is inside upwards seted up sixth square groove 42, first square groove 173 communicates with each other with connecting chamber 43, connect the inside second square pole 44 that is equipped with of chamber 43, second square pole 44 stretches into inside sixth square groove 42, press plate 45 is connected to second square pole 44 upper end, second annular plate 31 left surface front side is seted up circular arc groove 46, circular arc groove 46 below has been seted up and has been accomodate the groove 461, connecting hole 4 is inside to be equipped with link 47, link 47 surface connection has the drawing rope 471, drawing rope 471 is equipped with drawing pole 48 at the left end, drawing pole 48 left end welding has the square piece 49 of second, specifically, first electric putter 17 has been realized being connected with second annular plate 31, conveniently drive second annular plate 31 and first annular plate 10 draw together.

Push-and-pull 5 left side surface evenly welds has three first assembly pieces 51 of group, the inside assembly groove 52 that is equipped with of first assembly piece 51, first jack 53 has all been seted up to first assembly piece 51 upper and lower surface, first jack 53 communicates with each other with assembly groove 52, be equipped with inserted bar 54 in the jack, push-and-pull 5 left side surface and right side surface outside all are provided with rubber ring 55, 5 outer surface coating of push-and-pull dish has two sets of rubber rings 56, specifically, improve the sealed effect of push-and-pull dish 5 through rubber ring 55 and rubber ring 56.

The three groups of strip-shaped plates 60 are uniformly connected to the left side inside the tank body 1, grooves 61 are formed in the middle positions of the upper surfaces of the three groups of strip-shaped plates 60, third through holes 611 are formed in the right side inside the grooves 61, second electric push rods 62 are arranged inside the grooves 61, second assembling blocks 621 are welded to the right ends of the second electric push rods 62, second inserting holes 622 are formed in the upper sides of the outer surfaces of the second assembling blocks 621, the second assembling blocks 621 extend into the assembling grooves 52, first strip-shaped sliding grooves 63 are formed in the front sides of the upper surfaces of the strip-shaped plates 60, second strip-shaped sliding grooves 631 are formed in the left and right sides inside the first strip-shaped sliding grooves 63, rubber baffles 632 are arranged on the front sides inside the second strip-shaped sliding grooves 631, first strip-shaped sliding plates 64 are arranged inside the first strip-shaped sliding grooves 63, and side rods 641 are connected to the left and right ends of the first strip-shaped sliding plates 64, side pole 641 outer surface parcel has rubber sleeve 642, first bar slide 64 upper surface is equipped with dust guard 65, dust guard 65 upper surface rear side is provided with push-and-pull board 652, second dovetail groove 651 has all been seted up to the dust guard 65 lower surface left and right sides, inside second dovetail plate 661 that is equipped with of second dovetail groove 651, fly leaf 66 is connected to second dovetail plate 661 lower extreme, fly leaf 66 lower surface paste has sponge piece 662, bar 60 upper surface rear side has been seted up and has been equipped with third bar spout 67, third bar spout 67 is inside has seted up fixed slot 671 forward, dust guard 65 lower surface rear side welded has riser 68, the welding of riser 68 front surface downside has fixed block 681, the fixed block 681 assembles in fixed slot 671, concretely, make things convenient for three groups of second electric putter 62 evenly to put through three groups of bar boards 60, the push-and-pull dynamics to push-and pull dish 5 has been improved.

Bearing plate 16 is provided with two sets ofly, and both sides around two sets of first backup pad 15 upper surface are fixed respectively to two sets of bearing plates 16, and first electric putter 17 is fixed on the bearing plate 16 surface in first backup pad 15 upper surface front side, specifically, makes things convenient for putting of first electric putter 17.

The rear side of the outer surface of the tank body 1 is provided with a plurality of groups of vacuum pumps, the plurality of groups of vacuum pumps are all connected to the rear side of the inner part of the equipment cylinder 2 through vacuum tubes, the upper side of the outer surface of the tank body 1 is provided with a safety valve, the inner part of the tank body 1 is provided with a thermocouple, the vacuum pumps and the booster pumps are all arranged on the surface of a bearing plate 16 on the rear side of the upper surface of a first supporting plate 15, specifically, the vacuum pumps are used for vacuumizing a mould, the forming of the mould is realized, the gas pressure in the tank body 1 is controlled through the booster pumps, the temperature in the tank body 1 is improved through the thermocouple, the pressure in the tank body 1 is detected through the safety valves, and the safety of the tank body 1 is improved.

The fan is arranged in the middle of the right side surface of the push-pull disc 5, and particularly, the heat inside the tank body 1 can flow conveniently.

Referring to fig. 16-20, as an embodiment of the present invention: specifically, before the use, a force of pushing backwards is firstly applied to the dust-proof plate 65 on the upper surface of the strip-shaped plate 60 through the push-pull plate 652, at this time, the first strip-shaped sliding plate 64 moves in the first strip-shaped sliding groove 63 through the side rod 641, so that the fixing block 681 moves into the third strip-shaped sliding groove 67 through the fixing groove 671, and then an upward pulling force is applied to the push-pull plate 652, at this time, the side rod 641 rotates in the second strip-shaped sliding groove 631, the dust-proof plate 65 is driven to rotate during the rotation of the side rod 641, the sponge block 662 is separated from the groove 61, then the telescopic end of the second electric push rod 62 is aligned with the third through hole 611, so that the second electric push rod 62 is placed inside the groove 61, then the dust-proof plate 65 is rotated, so that the vertical plate 68 and the fixing block 681 move inside the third strip-shaped sliding groove 67, the dust-proof plate 65 rotates to drive the sponge block 662 to move inside the groove 61, the sponge block 662 deforms to contact with the surface of the second electric push rod 62, so that the second electric push rod 62 is clamped, the dust-proof plate 65 is pulled forwards, the movable plate 66 is assembled in the groove 61, the second trapezoidal plate 661 slides in the second trapezoidal groove 651 at the moment, the movable plate 66 is prevented from influencing the movement of the dust-proof plate 65, when the side rod 641 contacts with the rubber baffle 632, the tensile force applied to the dust-proof plate 65 is increased, the rubber sleeve 642 and the rubber baffle 632 elastically deform, the side rod 641 moves to the front side in the second strip-shaped sliding groove 631, the fixing block 681 moves to the inside of the fixing groove 671, so that the dust-proof plate 65 is fixed, the second electric push rod 62 is opened, the second electric push rod 62 extends to enable the second assembling block 621 to move to the inside of the assembling groove 52, the inserting rod 54 extends into the first inserting hole 53 and the second inserting hole 622 at the moment, so that the second assembling block 621 is fixed inside the first assembling block 51, the connection of the second electric push rod 62 with the push-pull disc 5 is realized.

Please refer to fig. 1, fig. 7, and fig. 10-fig. 14, which illustrate an embodiment of the present invention: when the prepreg manufacturing device is used, a force of pulling to the right is firstly applied to the workbench 24, the first trapezoidal plate 22 moves in the first trapezoidal groove 21 to drive the second supporting plate 23 and the workbench 24 to move to the right side of the device barrel 2, at the moment, the prepreg is laid on a mould according to the laying requirement and is placed on the surface of the workbench 24 after being sealed in a vacuum bag, when the length of the mould is larger than the size of the workbench 24, a proper force is applied to the transverse plate 25 according to the length of the mould, so that the transverse plate 25 drives a proper amount of the working plate 266 to move out of the transverse cavity 241, at the moment, the working plate 266 is exposed, the first hand twisting plate 274 is further rotated in the forward direction, the first hand twisting plate 274 drives the stud 273 to extend into the inner threaded pipe 275, in the connection process of the stud 273 and the inner threaded pipe 275, the distance between the stud 273 and the inner threaded pipe 275 is gradually shortened, and the stud 273 pulls the elliptical plate 28 to move upwards through the inner threaded pipe 275, meanwhile, the second spring 292 applies upward pushing force to the elliptical plate 28, as the outer surface of the elliptical plate 28 is wrapped by the second sealing ring 281, a certain pressure difference is formed between the outside and the inside of the elliptical groove 27 and the air hole 262 in the upward moving process of the elliptical plate 28, the square sliding block 263 and the first square block 265 move to the air hole 262 under the action of air pressure, at this time, the first square block 265 is separated from the second square groove 252, the first spring 255 applies upward pushing force to the working plate 266, so that the working plate 266 is flush with the upper surface of the working table 24, the mold is conveniently horizontally placed on the surfaces of the working table 24 and the working plate 266, meanwhile, the working plate 266 drives the first square block 265 to move upward to the position of the third square groove 253 through the transverse plate 25, at this time, the first hand-screwing plate 274 is reversely rotated, the elliptical plate 28 moves downward, the air pressure inside the elliptical groove 27 pushes the first square block 265 to move to the inside of the third square groove 253, thereby realized lifter plate 26's fixing, avoided lifter plate 26 to rock, and then be connected the vacuum bag of vacuum tube and sealed mould, then promote workstation 24 and move inside jar body 1, open second electric putter 62 at last, second electric putter 62 promotes push-and-pull dish 5 and moves inside jar body 1 for push-and-pull dish 5 and working plate 266 are drawn close, have realized the regulation of the inside usage space of jar body 1, have accelerated the pressure boost and the programming rate of temperature in jar body 1, make the energy loss of booster pump and thermocouple reduce.

Please refer to fig. 1-4 and fig. 6-8, which are examples of the present invention: next, the tank body 1 is closed, first, the first electric push rod 17 is opened, the first electric push rod 17 extends out through the first through hole 13, so that the connecting rod 171 is close to the second annular plate 31, at the moment, the second square block 49 is taken out from the accommodating groove 461, the second square block 49 extends into the first square groove 173, then, the pull rod 48 is pushed, the second square block 49 moves into the circular cavity 172, the second square block 49 rotates in the circular cavity 172 through the pull rod 48, the second square block 49 cannot automatically align with the first square groove 173, the hanging ring 47 is fixed inside the connecting hole 4 through the second square rod 44, connection between the first electric push rod 17 and the second annular plate 31 is achieved, at the moment, the first electric push rod 17 is controlled to be shortened, the first electric push rod 17 pulls the second annular plate 31 to approach the first annular plate 10 through the pull rope 471, at the moment, the sealing plate 32 moves into the tank body 1, meanwhile, the plurality of second dovetail blocks 33 are respectively connected with the plurality of first dovetail blocks 12 in a matched mode, sealing effect of sealing of the tank body 1 is improved, and sealing effect of the second dovetail blocks 12 is improved.

Please refer to fig. 3, fig. 4, fig. 5, and fig. 7-fig. 10, which are examples of the present invention: then, the round rod 313 is rotated to make the threaded rod 315 perpendicular to the second annular plate 31, and then a pushing force is applied to the second screwing plate 318, so that the first square rod 316 moves into the square hole 3151, and the fixing of the second screwing plate 318 is realized, and then the second screwing plate 318 is rotated to make the threaded rod 315 extend into the third threaded hole 34, and then the threaded rod 315 extends into the first threaded hole 14 through the third threaded hole 34, so that the secondary connection of the first annular plate 10 and the second annular plate 31 is realized, and the connection effect of the first annular plate 10 and the second annular plate 31 is improved.

Please refer to fig. 3, fig. 5, fig. 9, and fig. 10, which illustrate an embodiment of the present invention: after the use is finished, the door plate 3 is opened, the second screwing plate 318 is rotated to separate the second screwing plate 318 from the third threaded hole 34, then the second screwing plate 318 is pulled to enable the first square rod 316 to move into the first through hole 3152 through the square hole 3151, the second screwing plate 318 is rotated through the first square rod 316, the second screwing plate 318 is enabled to be parallel to the threaded rod 315, the threaded rod 315 is turned over through the round rod 313 at the moment, the threaded rod 315 is enabled to be flush with the door plate 3, the second screwing plate 318 and the threaded rod 315 are stored inside the second annular plate 31, the phenomenon that the threaded rod 315 protrudes when the tank body 1 is not used is avoided, and a worker can easily collide with the threaded rod 315 accidentally.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A military industry carbon fiber production device comprises: the novel energy-saving tank comprises a tank body, an equipment cylinder, a door plate, a push-pull disc and a push-pull mechanism, and is characterized in that a first circular ring plate is arranged on the right side of the outer surface of the tank body, two groups of first side blocks are symmetrically arranged on the rear side of the outer surface of the first circular ring plate, first rotating holes are formed in the surfaces of the first side blocks, a plurality of groups of first dovetail blocks are uniformly arranged on the right side of the inner surface of the tank body, two groups of first supporting plates are arranged on the lower side of the outer surface of the tank body, a bearing plate is arranged on the upper surface of the first supporting plates, a first electric push rod is arranged on the right side of the upper surface of the bearing plate, a connecting rod is welded at the right end of the first electric push rod, a circular cavity is formed in the left side of the interior of the connecting rod, a first square groove is formed in the right surface of the connecting rod, and the first square groove is communicated with the circular cavity;

the equipment cylinder comprises a semicircular plate and a workbench;

the door plate comprises a second annular plate and a sealing plate;

the push-pull disc comprises a first assembling block and an assembling groove;

the push-pull mechanism comprises a strip-shaped plate and a second electric push rod;

the door plate is characterized in that a second annular plate is connected to the outer side of the right surface of the door plate, four groups of rectangular grooves are uniformly formed in the right surface of the second annular plate, a round rod is arranged in each rectangular groove, two ends of each round rod are movably connected into the rectangular grooves through movable rods, a second threaded hole is formed in each round rod, a threaded rod is arranged in each second threaded hole, a square hole and a first through hole are formed in the right side of the inner part of each threaded rod, each first through hole is located on the right side of the corresponding square hole, a first square rod is arranged in each first through hole, connecting plates are welded to two ends of each first square rod, the right end of each connecting plate is connected with a second twisting plate, a second through hole is formed in the middle position of the right surface of each second twisting plate, a third threaded hole is formed in the left side of the inner part of each rectangular groove, a sealing plate is arranged on the left surface of the door plate, and a plurality of groups of second dovetail blocks are uniformly arranged on the outer side of the left surface of the sealing plates;

three groups of first assembling blocks are uniformly welded on the left side surface of the push-pull disc, assembling grooves are formed in the inner parts of the first assembling blocks, first inserting holes are formed in the upper surface and the lower surface of each first assembling block and communicated with the assembling grooves, inserting rods are arranged in the inserting holes, rubber rings are arranged on the outer sides of the left side surface and the right side surface of the push-pull disc, and two groups of rubber rings are wrapped on the outer surface of the push-pull disc;

the tank body is characterized in that the strip plates are uniformly connected to the left side of the inner part of the tank body in three groups, grooves are formed in the middle positions of the upper surfaces of the three groups of strip plates, third through holes are formed in the right side of the inner part of each groove, a second electric push rod is arranged in each groove, a second assembling block is welded at the right end of each second electric push rod, second inserting holes are formed in the upper side of the outer surface of each second assembling block, the second assembling blocks extend into the assembling grooves, a first strip-shaped sliding groove is formed in the front side of the upper surface of each strip plate, second strip-shaped sliding grooves are formed in the left side and the right side of the inner part of each first strip-shaped sliding groove, a rubber baffle is arranged in the front side of the inner part of each second strip-shaped sliding groove, and a first strip-shaped sliding plate is arranged in each first strip-shaped sliding groove, both ends all connect the side pole about first bar slide, side pole surface parcel has the rubber sleeve, first bar slide upper surface is equipped with the dust guard, dust guard upper surface rear side is provided with the push-and-pull board, the second dovetail groove has all been seted up to the dust guard lower surface left and right sides, second dovetail inslot portion is equipped with the second trapezoidal plate, the fly leaf is connected to second trapezoidal plate lower extreme, fly leaf lower surface paste has the sponge piece, third bar spout has been seted up to bar board upper surface rear side, the fixed slot has been seted up forward to third bar spout inside, dust guard lower surface rear side welded has the riser, the welding of riser front surface downside has the fixed block, the fixed block assembly is in the fixed slot.

2. The military industry carbon fiber production device of claim 1, wherein: the lower side of the inner part of the equipment cylinder is provided with a semi-circular plate, the front side and the rear side of the upper surface of the semi-circular plate are both provided with a first trapezoidal groove, the inner part of the first trapezoidal groove is provided with a first trapezoidal plate, the upper surface of the first trapezoidal plate is connected with a second supporting plate, the upper surface of the second supporting plate is connected with a workbench, the left surface of the workbench is provided with a transverse cavity, the inner part of the transverse cavity is provided with a transverse plate, the upper surface of the transverse plate is provided with a transverse groove, the front side and the rear side of the inner part of the transverse groove are both provided with a plurality of groups of second square grooves, a third square groove is arranged above the second square grooves, the front side and the rear side of the upper surface of the transverse plate are both provided with a plurality of groups of first round holes, the inner part of the transverse groove is provided with a plurality of lifting plates, the front surface and the rear surface of the lifting plates are both provided with fourth square grooves, the air holes are arranged in the fourth square grooves, and the square blocks are arranged on the front side of the inner parts of the first square grooves, the outer surface of the square sliding block is wrapped with a plurality of groups of first sealing rings, the front side of the square sliding block is connected with a first square block, a working plate is arranged above the transverse plate, the lower surface of the working plate is connected with a lifting plate, a plurality of groups of second round holes are formed in the front side and the rear side of the lower surface of the working plate, first springs are fixed in the second round holes, the lower ends of the first springs are fixed in the first round holes, an elliptical groove is formed in the middle of the upper surface of the working plate and is arranged inside the lifting plate, air holes are communicated with the elliptical groove, a fixing plate is arranged on the upper side inside the elliptical groove, a bearing is arranged in the middle of the fixing plate, a stud is arranged in the bearing, the upper end of the stud is connected with a first hand-twisting plate, an elliptical plate is arranged on the lower side inside the elliptical groove, an internal thread pipe is arranged in the middle of the upper surface of the elliptical plate, and the lower ends of the studs extend into the interior of the elliptical plate, the elliptical plate outer surface wraps up there is the multiunit second sealing ring, both sides all are equipped with the outer tube around the elliptical plate lower surface, the inside inner tube that is equipped with of outer tube, the inner tube is fixed in the elliptical trough bottom portion, the inside second spring that is equipped with of inner tube, the second spring is in compression state.

3. The military industry carbon fiber production device of claim 1, wherein: a connecting hole is formed in the front side of the right surface of the second annular plate, a fifth square groove is formed in the connecting hole in a downward direction, a connecting cavity is formed above the connecting hole, a sixth square groove is formed in the connecting hole in an upward direction, the first square groove is communicated with the connecting cavity, a second square rod is arranged in the connecting cavity and extends into the sixth square groove, the pressing plate is connected to the square pole upper end of second, second annular plate left surface front side is opened and is equipped with the circular arc groove, the groove of accomodating has been seted up to circular arc groove below, the inside link that is equipped with of connecting hole, the link surface is connected with draws the rope, it is equipped with the pull rod to draw the rope left end, the welding of pull rod left end has the square piece of second.

4. The military industry carbon fiber production device of claim 1, wherein: the bearing plate is provided with two sets ofly, and is two sets of the bearing plate is fixed both sides before two sets of first backup pad upper surfaces respectively, first electric putter is fixed on the bearing plate surface of first backup pad upper surface front side.

5. The military industry carbon fiber production device of claim 4, wherein: the utility model discloses a vacuum pump, including a jar external surface, a jar internal portion, a jar external surface rear side is provided with the multiunit vacuum pump, the multiunit the vacuum pump all is connected to the inside rear side of equipment section of thick bamboo through the vacuum tube, jar external surface upside is equipped with the pressure boost pipe, the pressure boost union coupling booster pump, jar external surface upside is provided with the relief valve, jar internal portion is equipped with the thermocouple, vacuum pump and booster pump all set up the bearing plate surface at first backup pad upper surface rear side.

6. The military industry carbon fiber production device of claim 1, wherein: and a fan is arranged in the middle of the right side surface of the push-pull plate.

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