CN116141467B - Quick detach formula prefabricated component mould - Google Patents

Abstract

The invention provides a quick-dismantling prefabricated component mould, which comprises: the novel feeding pipe comprises a feeding pipe, a sealing plate and an embedding plate, wherein the sealing plate is arranged at the lower end of the feeding pipe, a cover body is arranged at the lower end of the sealing plate, a die groove is formed in the middle of the lower end of the cover body, a second embedding groove is formed in the outer side of the die groove, a first embedding base is arranged at the bottom of the outer side of the embedded groove, a reinforcing strip is arranged on the outer side surface of the first embedding groove, a supporting seat is arranged at the lower end of the reinforcing strip, main jointed boards are arranged at the front end and the rear end of the supporting seat, side jointed boards are arranged at the lower end of the supporting seat, and compared with the prior art, the novel feeding pipe has the following beneficial effects: through the use of the feeding pipe and the sealing plate, the external materials can be conveniently led in, and meanwhile, through the use of the driven teeth and the external gear, the rotation range of the clamping wings can be limited, so that the sealing closing and quick locking and unlocking effects of the invention are improved.

Description

Quick detach formula prefabricated component mould

Technical Field

The invention relates to a quick-dismantling type prefabricated part die, and belongs to the technical field of prefabricated part dies.

Background

At present, the prestressed concrete structure industry is rising, most prefabricated components for buildings are produced by factories and transported to construction sites for assembly, the production of the prestressed concrete structure components is not separated from the manufacture of the molds, the assembly of the existing prestressed concrete structure molds on the market is mainly connected by bolts, the number of bolts and positioning pins of one set of molds can be as large as dozens, the disassembly and assembly processes of the molds are complicated, and the disassembly and assembly speed is low, so that the production efficiency of the prestressed concrete structure components is reduced; even after the turnover times of the mould are more, the screw teeth are easy to collapse, the nuts have to be welded subsequently, the use is very inconvenient, and the forming efficiency of the prestressed concrete structural member can be further reduced.

The publication No. CN207859105U discloses a high-strength tensile prestressed concrete structure mould for an assembled building, which comprises the following components: the novel die comprises a sleeve overhanging tool, an overhanging pressing groove tool and a die body, wherein a front die and a rear die are arranged in the die body, the front die and the rear die are connected through a connecting piece, the die body is arranged above the sleeve overhanging tool, and the overhanging pressing groove tool is arranged above the front die and the rear die and is connected with the front die and the rear die. According to the utility model, the sleeve overhanging tool, the overhanging pressing groove tool and the die body are matched, so that the sleeve overhanging tool, the overhanging pressing groove tool and the die body can be quickly installed, and the production efficiency of the sleeve overhanging pressing groove tool is improved.

However, in practical researches on the device, the structure of the prestressed concrete structure mold has a certain improvement effect on the forming efficiency of the existing bolt-fixed type prestressed concrete structure mold, but the structure of the prestressed concrete structure mold has complex operation process and poor adjustability when the mold is disassembled and locked; in addition, one set of device can only be used for forming the prestressed concrete structural member with one specification, and the problems existing in the conventional quick-assembly device for forming the precast member mould are overcome, so that a quick-disassembly precast member mould is needed to solve the problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a quick-dismantling prefabricated component die, which solves the problems in the background art by adding a feeding pipe, a sealing plate, a cover body, a first embedding groove, a first embedding base, a second embedding groove, a die groove, a supporting seat, a side jointed board, a main jointed board, a reinforcing strip, a quick-dismantling part and an embedding plate.

The technical scheme of the invention is realized as follows: a quick release preform mold comprising: the device comprises a feeding pipe, a sealing plate, a cover body, a first embedding groove, a embedding base, a second embedding groove, a first embedding groove, a supporting seat, side jointed boards, a main jointed board, a reinforcing strip, a quick-release component and an embedding plate, wherein the sealing plate is arranged at the lower end of the feeding pipe, the cover body is arranged at the lower end of the sealing plate, the middle position of the lower end of the cover body is provided with the first embedding groove, the second embedding groove is arranged at the outer side of the first embedding groove, the bottom of the outer side of the second embedding groove is provided with the first embedding groove, the outer side surface of the first embedding groove is provided with the reinforcing strip, the lower end of the reinforcing strip is provided with the supporting seat, the lower ends of the supporting seat are provided with the main jointed board, the left and right ends the supporting seat lower extreme is equipped with the side makeup, quick detach part has been seted up to main makeup left side inside, the side makeup inboard is equipped with the embedded plate, the lid includes apron, first, the second of the gomphosis body, gomphosis footstock, main part and sealed first of filling up, the gomphosis base includes pedestal, sealed second of filling up, interior caulking groove and inclined holder, quick detach part includes slider, movable rod, shell, piston seat, spring, damping inner core, cassette, pull ring, casing, linear bearing, damping post, branch, spiral cover, clamping wing, rotatory damping first, draw-in groove, fixed head, shaft post, interior bearing first, external gear, driven tooth and interior bearing second.

As a preferable implementation mode, a first jogging body is arranged on the outer side of the lower end of the cover plate, a second jogging body is arranged on the inner side of the first jogging body, a first sealing gasket is arranged on the outer side of the second jogging body, and a main body is arranged on the inner side of the first sealing gasket.

As a preferred implementation mode, the first jogging body and the second jogging body are identical in specification, the first jogging body and the second jogging body are both made of Damascus steel, the first jogging body is of a rectangular annular structure in cross section, the second jogging body is identical in cross section shape with the first jogging body, the length and width of the second jogging body cross section are smaller than those of the first jogging body, a group of grooves with the length and width of 60mm are formed between the first jogging body and the second jogging body in an inward concave mode, the main body and the bottom of the grooves are welded and fixed, the first sealing gasket is welded on the outer side surface of the main body in a plastic welding mode, the first sealing gasket is an ethylene propylene diene monomer rubber gasket, the cross section of the main body is of a right trapezoid structure, a group of embedded sealing blocks are arranged in the middle position on the right side of the main body, when a prefabricated component is formed, a worker places a cover body above a die groove, and conducts sealing connection with an external forming material conduit, the first jogging groove, the second jogging groove and the second jogging body and the base are mutually embedded, and the inside the die groove are completely closed, and the prefabricated component is manufactured.

As a preferred implementation mode, the right side of the seat body is provided with a second sealing gasket, the middle position of the right side of the seat body is provided with an embedded groove, and the right side of the lower end of the seat body is provided with an inclined seat.

As a preferred implementation mode, the width of the inner side of the first cross section of the embedded groove is consistent with the width of the first cross section of the embedded body, the width of the inner side of the first cross section of the embedded groove is consistent with the width of the second cross section of the embedded body, the inner side of the second cross section of the embedded groove is mutually embedded with the two inner sides of the embedded body, gaskets are arranged on the inner sides of the first and second cross sections of the embedded groove, the gaskets are the same as the first gasket, the second gasket is made of the same material as the first gasket, the inner side of the embedded groove is mutually sealed and embedded with the embedded sealing block, when the main body is completely embedded with the seat body, the whole cross section is rectangular, the inner side of the main jointed board is provided with a mounting groove, the embedded plate is sealed and embedded with the inner side of the mounting groove, the first embedded body is pressed into the first embedded groove by workers, the second embedded body is pressed into the second embedded groove, and meanwhile the embedded sealing block is pressed into the inner side of the embedded groove, and simultaneously the first gasket, the second gasket and the gasket are matched with the first gasket are sealed with the lower end of the cover body, and simultaneously, and the main jointed board, the embedded body, the first embedded body 3b and the embedded body can be further sealed and the main jointed board can be detached.

As a preferred implementation mode, the movable rod is installed to the slider rear end, the piston seat is installed to the movable rod right-hand member, the spring is installed to the piston seat right-hand member, the spring inboard is equipped with the damping inner core, the piston seat outside is equipped with the shell, the movable rod left side is equipped with the cassette, the cassette left side is equipped with the pull ring.

As a preferred implementation mode, the slider is fixed with movable rod connection, movable rod is fixed with the piston seat connection, piston seat and the inboard movable sealing connection of shell, the shell inboard is a smooth surface, the piston seat is the components of a whole that can function independently piston that polyurethane material was made, piston seat is fixed with spring and damping inner core connection, the spring is sanyang-0000 mould spring, damping inner core is a FPD-0715 type resin damper, spring length is the same with damping inner core length, the movable rod runs through inside the cassette, the movable rod is a movable mechanism, the round hole has been seted up to the side jointed board left side, the stay cord is installed on the pull ring right side, the stay cord runs through the round hole and is connected fixedly with the casing, the diameter of pull ring cross section is less than round hole cross section diameter, the staff moves left side through removing the slider, and its slider drives the movable rod and removes, and when the movable rod, its piston seat drives the spring and damping inner core to lengthen, thereby carries out the energy storage to the movable rod, when cassette and side inside block, and spring and inner core are the side block inside, and can keep the side block to block the side block to keep the side block to block the side block.

As a preferred implementation mode, linear bearing is installed to the inboard intermediate position of casing, linear bearing upper end left side and lower extreme left side are connected with two sets of damping post, and two sets of damping post left side is all installed a set of branch, the spiral cover is installed in the branch left side, spiral cover internally mounted has the fixed head, the pedestal is installed to the fixed head lower extreme, interior bearing one is installed to the pedestal lower extreme, interior bearing one installs the external gear in the outside, the driven tooth is installed in the external gear outside, interior bearing two is installed to the driven tooth inboard, rotation damping two is installed to interior bearing two inboard, rotation damping outside installs the clamping wing, rotation damping one is installed to the inboard lower extreme of clamping wing, the draw-in groove has been seted up in the clamping wing outside.

As a preferred implementation mode, the shell is of a cylindrical structure, the shell is of a hollow structure, the linear bearing is an LMF6UU type flange linear bearing, the linear bearing is fixedly connected with two groups of damping columns, the two groups of damping columns are identical in specification and are all FA-1212C1-C type small sliding-free dampers, the two groups of damping columns are installed in a right angle mode and are all connected with one group of supporting rods, each group of supporting rods is fixedly connected with one group of screw caps, the supporting rods and the screw caps are all movable mechanisms, the screw caps are fixedly connected with a fixing head, the fixing head is fixedly connected with a shaft column, the outer side of the lower end of the shaft column is fixedly connected with the inner side of an inner bearing, the inner bearing is fixedly connected with an outer gear, the external gear is meshed with the driven gear, the rotation area of the driven gear is one half circle, the first rotary damping and the second rotary damping are the same in specification and are all HCL-04 type rotary gear dampers, the first rotary damping and the clamping wings are movably connected, the cross section of each clamping wing is of a quarter circle structure, the clamping wing manufacturing material is an aluminum alloy, the two clamping wings are movable mechanisms, the first rotary damping is fixedly connected with the shell, the two damping posts are moved to the right side through movable rods, the two damping posts are rotated outside the linear bearings, the angles between the two damping posts are adjusted, and accordingly the clamping wings are controlled to be opened at the inner sides of the clamping grooves and clamped with the inner sides of the clamping grooves.

After the technical scheme is adopted, the invention has the beneficial effects that: through using inlet pipe and closing plate, can make things convenient for outside material to introduce, through using gomphosis board and main makeup, can make strengthen the connection effect of main makeup and side makeup, through using gomphosis body one, gomphosis body two, gomphosis groove one and gomphosis groove two, can increase the sealed effect of lid, through spring and damping inner core, can carry out the resilience potential energy to the movable rod and store, through using clamping wing and draw-in groove, can make main makeup and side makeup carry out the block locking, simultaneously through using driven tooth and external gear, can restrict the rotation range of clamping wing, the sealed close of the invention and quick locking and release the effect of locking have been improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of a quick-release prefabricated part mold according to the present invention;

FIG. 2 is a top view of the side panels, the mating plates and the main panels of the quick release prefabricated component mold according to the present invention;

FIG. 3 is a schematic view showing the reverse structure of a cover in a quick-release prefabricated part mold according to the present invention;

FIG. 4 is a schematic view of the structure of the main body and the base in the mold of the quick-release prefabricated part according to the present invention;

FIG. 5 is a top view of the inside of a quick release component of a quick release preform mold according to the present invention;

FIG. 6 is a top view of the mold of the invention showing the inside of the holder and the open wings of the mold;

FIG. 7 is a top view of the inside of the cartridge and the inside of the snap-in preform mold with the wings closed;

FIG. 8 is a front view of the invention showing the connection of the screw cap, the fixed head and the inner bearing in the quick release prefabricated part mold;

FIG. 9 is a top view of the quick release preform mold in which the outer gear is engaged with the driven wheel;

In the figure: 1-feeding pipe, 2-sealing plate, 3-cover body, 4 a-embedding groove I, 4 b-embedding base, 4 c-embedding groove II, 5-die groove, 6-supporting seat, 7-side jointed board, 8-main jointed board, 9-reinforcing strip, 10-quick-dismantling part, 11-embedding plate, 3 a-cover plate, 3 b-embedding body I, 3 c-embedding body II, 3 d-embedding top seat, 3d 1-main body, 3d 2-sealing gasket I, 4b 1-base body, 4b 2-sealing gasket II, 4b 3-embedding groove, 4b 4-oblique seat, 10 a-sliding block, 10 b-movable rod, 10 c-shell, 10 d-piston seat, 10 e-spring, 10 f-damping inner core, 10 g-clamping seat, 10 h-pull ring, 10g 1-shell, 10g 2-linear bearing, 10g 3-damping post, 10g 4-supporting rod, 10g 5-rotating cover, 10g 6-clamping, 10g 7-rotating clamping seat, 10g 8-external gear, 10g 9-external gear, 10g 1-clamping head, 10g 12-external gear, 10g 1-clamping seat, 10g 2-linear bearing, 10g 3-damping post, 10g 4-clamping seat, 10g 1-clamping seat, 10g 2-clamping body, 10g 2-clamping head, 10g 2-and 10g 2-linear bearing.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, a quick-release prefabricated component mold includes: the feeding pipe 1, the sealing plate 2, the cover body 3, the first embedding groove 4a, the second embedding groove 4b, the second embedding groove 4c, the die cavity 5, the supporting seat 6, the side jointed boards 7, the main jointed boards 8, the reinforcing strips 9, the quick-release component 10 and the embedded board 11, the sealing plate 2 is arranged at the lower end of the feeding pipe 1, the cover body 3 is arranged at the lower end of the sealing plate 2, the die cavity 5 is arranged at the middle position of the lower end of the cover body 3, the second embedding groove 4c is arranged at the outer side of the die cavity 5, the second embedding groove 4b is arranged at the outer side bottom of the second embedding groove 4c, the first embedding groove 4a is arranged at the outer side of the first embedding groove 4a, the reinforcing strips 9 are arranged at the lower ends of the reinforcing strips 9, the main jointed boards 8 are arranged at the lower ends of the supporting seats 6 at the front and the rear ends, the side jointed boards 7 are arranged at the lower ends of the supporting seats 6 at the left and the two ends, the quick-release component 10 is arranged inside the left side of the main jointed boards 8, the inner side of the side jointed board 7 is provided with an embedded plate 11, the cover body 3 comprises a cover plate 3a, an embedded body I3 b, an embedded body II 3c, an embedded top seat 3d, a main body 3d1 and a sealing gasket I3 d2, the embedded base 4b comprises a base body 4b1, a sealing gasket II 4b2, an embedded groove 4b3 and an inclined seat 4b4, and the quick-dismantling component 10 comprises a sliding block 10a, a movable rod 10b, a shell 10c, a piston seat 10d, a spring 10e, a damping inner core 10f, a clamping seat 10g, a pull ring 10h, a shell 10g1, a linear bearing 10g2, a damping column 10g3, a supporting rod 10g4, a spiral cover 10g5, a clamping wing 10g6, a rotary damping I10 g7, a clamping groove 10g8, a fixed head 10g9, an axle column 10g, an inner bearing I11, an outer gear 10g12, a driven tooth 10g13 and an inner bearing II 10g14.

Referring to fig. 1-4, a first jogged body 3b is mounted on the outer side of the lower end of the cover plate 3a, a second jogged body 3c is mounted on the inner side of the first jogged body 3b, a first sealing pad 3d2 is mounted on the outer side of the first jogged body 3d, and a main body 3d1 is mounted on the inner side of the first sealing pad 3d 2.

The specification of the first jogged body 3b is the same as that of the second jogged body 3c, the first jogged body 3b and the second jogged body 3c are made of Damascus steel, the cross section of the first jogged body 3b is of a rectangular annular structure, the cross section of the second jogged body 3c and the cross section of the first jogged body 3b are the same, the length and the width of the cross section of the second jogged body 3c are smaller than those of the cross section of the first jogged body 3b, a group of grooves with the diameter of 60mm are formed between the first jogged body 3b and the second jogged body 3c in a concave manner, the bottom of the groove is welded and fixed with the main body 3d1, the sealing gasket 3d2 is welded on the outer side surface of the main body 3d1 in a plastic welding mode, the sealing gasket 3d2 is an ethylene propylene diene monomer rubber gasket, the cross section of the main body 3d1 is of a right trapezoid structure, and a group of embedded sealing blocks are arranged in the middle position on the right side of the main body 3d 1.

In actual use, when a worker needs to mold the prefabricated part, the cover 3 is first placed above the mold cavity 5, the first jogger 3b and the second jogger 3c are pressed into the first jogger 4a and the second jogger 4c, so far, the first jogger 3b and the first jogger 4a are jogged with each other, the second jogger 3c and the second jogger 4c are jogged with each other, and the external molding material conduit is in sealing connection with the feed pipe 1, so that the cover 3 is completely closed, then the worker introduces the external molding material through the external molding material conduit, and the external molding material enters the mold cavity 5 and performs the injection molding manufacturing process of the prefabricated part.

Referring to fig. 1-4, a second gasket 4b2 is installed on the right side of the base 4b1, an embedded groove 4b3 is provided in the middle position of the right side of the base 4b1, and an inclined base 4b4 is provided on the right side of the lower end of the base 4b 1.

The inner width of the cross section of the first embedding groove 4a is consistent with the width and length of the cross section of the first embedding body 3b, the inner side of the first embedding groove 4a is mutually embedded with the first embedding body 3b, the inner width of the cross section of the second embedding groove 4c is consistent with the width and length of the cross section of the second embedding body 3c, the inner side of the second embedding groove 4c is mutually embedded with the second embedding body 3c, gaskets are arranged on the inner sides of the first embedding groove 4a and the second embedding groove 4c, the gaskets are the same as the first sealing gasket 3d2, the second sealing gasket 4b2 is made of the same materials as the gaskets and the first sealing gasket 3d2, the inner part of the inner embedding groove 4b3 is mutually sealed and embedded with the inner sealing block, when the main body 3d1 is completely embedded with the base body 4b1, the whole cross section is rectangular, the main jointed board 8 is internally provided with a mounting groove, and the embedded board 11 is sealed and embedded with the inner side of the mounting groove.

Further, in practical use, the first jogger 3b is pressed to the inside of the first jogging groove 4a by the staff, the second jogger 3c is pressed to the inside of the second jogging groove 4c, the embedded sealing block is pressed to the inside of the second jogging groove 4b3 while moving according to the main body 3d1, the gaskets are arranged on the inner sides of the first jogging groove 4a and the second jogging groove 4c, and the first sealing pad 3d2, the second sealing pad 4b2 and the gaskets are matched to seal the lower end of the cover body 3, and when the main body 3d1 and the base body 4b1 are completely jogged, the whole cross section is rectangular, the cover body 3, the two sets of main panels 8 and the two sets of side panels 7 are further sealed by the jogging plate 11, the first jogger 3b, the second jogger 3c and the embedded sealing block, and the two sets of side panels 7 are removed by the staff after the external molding material enters the inside of the mold 5 by using the traction device, and the cover body 3 can be removed conveniently and quickly.

Referring to fig. 1 and fig. 5-9, a movable rod 10b is mounted at the rear end of a slider 10a, a piston seat 10d is mounted at the right end of the movable rod 10b, a spring 10e is mounted at the right end of the piston seat 10d, a damping inner core 10f is arranged on the inner side of the spring 10e, a housing 10c is arranged on the outer side of the piston seat 10d, a clamping seat 10g is arranged on the left side of the movable rod 10b, and a pull ring 10h is arranged on the left side of the clamping seat 10 g.

The sliding block 10a is fixedly connected with the movable rod 10b, the movable rod 10b is fixedly connected with the piston seat 10d, the piston seat 10d is movably and hermetically connected with the inner side of the shell 10c, the inner side of the shell 10c is a smooth surface, the piston seat 10d is a split piston made of polyurethane material, the piston seat 10d is fixedly connected with the spring 10e and the damping inner core 10f, the spring 10e is a sanyang-0000 die spring, the damping inner core 10f is an FPD-0715 type resin damper, the length of the spring 10e is the same as that of the damping inner core 10f, the movable rod 10b penetrates through the inside of the clamping seat 10g, the movable rod 10b is a movable mechanism, a round hole is formed in the left side of the side jointed board 7, a pull rope is installed on the right side of the pull ring 10h, the pull rope penetrates through the round hole and is fixedly connected with the shell 10g1, and the cross section diameter of the pull ring 10h is smaller than that of the round hole.

In practical use, when a worker needs to splice the main splice plate 8 and the side splice plate 7, firstly, the slide block 10a is moved leftwards, the slide block 10a drives the movable rod 10b to move, and when the movable rod 10b moves, the piston seat 10d drives the spring 10e to be elongated and the damping inner core 10f to be elongated, as the piston seat 10d is movably and hermetically connected with the inner side of the shell 10c, the inner side of the shell 10c is a smooth surface, the piston seat 10d is a split piston made of polyurethane material, the space on the left side of the piston seat 10d is formed into a small negative pressure state while the piston seat 10d moves, meanwhile, the spring 10e and the damping inner core 10f can accumulate and rebound for energy storage after being elongated, and when the movable rod 10b moves leftwards, the movable rod 10b extrudes the clamping seat 10g to move leftwards, and enables the clamping seat 10g to be moved to the inner side of the clamping groove 10g8, and the clamping seat 10g is enabled to clamp the clamping groove 10g8, so that the locking of the main splice plate 8 and the side 7 is completed.

Referring to fig. 1 and fig. 5-9, a linear bearing 10g2 is installed at a middle position inside a shell 10g1, two groups of damping columns 10g3 are connected to the left side of the upper end and the left side of the lower end of the linear bearing 10g2, a group of struts 10g4 are installed on the left side of each of the two groups of damping columns 10g3, a rotary cover 10g5 is installed on the left side of each strut 10g4, a fixing head 10g9 is installed inside the rotary cover 10g5, a shaft column 10g10 is installed at the lower end of the fixing head 10g9, an inner bearing 10g11 is installed at the lower end of the shaft column 10g10, an outer gear 10g12 is installed outside the inner bearing 10g11, a driven tooth 10g13 is installed outside the outer gear 10g12, an inner bearing 10g14 is installed inside the driven tooth 10g13, a rotary damper 10g7 is installed inside the inner bearing 10g14, a clamping wing 10g6 is installed on the outer side of the rotary damper, a clamping wing 10g7 is installed at the lower end inside the clamping wing 6, and a clamping groove 10g8 is formed in the outer side of the clamping wing 10g 6.

The shell 10g1 is of a cylindrical structure, the shell 10g1 is of a hollow structure, the linear bearing 10g2 is of a LMF6UU type flange linear bearing, the linear bearing 10g2 is fixedly connected with two groups of damping columns 10g3, the two groups of damping columns 10g3 are identical in specification and are all FA-1212C1-C type small sliding-free dampers, the two groups of damping columns 10g3 are installed in a right angle mode and are all connected with one group of supporting rods 10g4, each group of supporting rods 10g4 is fixedly connected with one group of screw caps 10g5, the supporting rods 10g4 and the screw caps 10g5 are all movable mechanisms, the screw caps 10g5 are fixedly connected with the fixed heads 10g9, the fixed heads 10g9 are fixedly connected with the shaft columns 10g10, the outer side of the lower end of the shaft post 10g10 is fixedly connected with the inner side of an inner bearing 10g11, the inner bearing 10g11 is fixedly connected with an outer gear 10g12, the outer gear 10g12 is meshed with a driven gear 10g13, the rotation area of the driven gear 10g13 is a half circle, the rotation damping 10g7 is identical to the rotation damping 10g7 in two specifications and is an HCL-04 type rotary gear damper, the rotation damping 10g7 is movably connected with a clamping wing 10g6, the cross section of the clamping wing 10g6 is of a quarter-circle structure, the manufacturing material of the clamping wing 10g6 is an aluminum alloy, two groups of clamping wings 10g6 are all movable mechanisms, and the two groups of rotation damping 10g7 are fixedly connected with a shell 10g 1.

In practical use, when a worker needs to unlock the main panel 8 and the side panels 7, the worker pulls the pull ring 10h to the left side, the pull ring 10h pulls the pull rope and moves the shell 10g1 to the left side, as the two sets of rotary dampers 10g7 are connected and fixed with the shell 10g1, the two sets of clamping wings 10g6 still clamp in the clamping groove 10g8 while the rotary dampers 10g7 move, the two sets of clamping wings 10g6 move to the left side of the clamping groove 10g8, the clamping wings 10g6 and the rotary dampers 10g7 rotate by a small margin, the clamping wings 10g6 turn over by a small margin towards the inner side of the shell 10g1, the angle between the two sets of damping posts 10g3 is reduced, and then the worker moves the sliding block 10a to the right side, the sliding block 10a drives the movable rod 10b to move to the right, the movable rod 10b moves to the right and simultaneously pulls the two groups of damping columns 10g3 to stretch to the right, meanwhile, the two groups of damping columns 10g3 rotate around the outer side of the linear bearing 10g2, the two groups of damping columns 10g3 rotate inwards and further adjust the angle of the two groups of damping columns 10g3 until the two groups of damping columns 10g3 pull the two groups of struts 10g4 to recycle the two groups of clamping wings 10g6 to the inner side of the shell 10g1, and the two groups of clamping wings 10g6 move to the right on the inner side of the shell 10g1 in cooperation with rebound energy accumulated after the spring 10e and the damping inner core 10f are stretched, and meanwhile, a worker slowly releases the pull ring 10h according to rebound potential energy of the spring 10e and the damping inner core 10f, so that the clamping wings 10g6 and the clamping grooves 10g8 are unlocked.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (5)

1. A quick release preform mold comprising: feed pipe (1), closing plate (2), lid (3), gomphosis groove one (4 a), gomphosis base (4 b), gomphosis groove two (4 c), die cavity (5), supporting seat (6), side makeup (7), main makeup (8), consolidate strip (9), quick detach part (10) and gomphosis board (11), its characterized in that: the lower end of the feeding pipe (1) is provided with a sealing plate (2), the lower end of the sealing plate (2) is provided with a cover body (3), the middle position of the lower end of the cover body (3) is provided with a die cavity (5), and the outer side of the die cavity (5) is provided with a second jogging groove (4 c);

the bottom of the outer side of the second jogging groove (4 c) is provided with a jogging base (4 b), the outer side of the jogging base (4 b) is provided with a first jogging groove (4 a), and the outer side surface of the first jogging groove (4 a) is provided with a reinforcing strip (9);

The lower end of the reinforcing strip (9) is provided with a supporting seat (6), the lower ends of the supporting seat (6) at the front end and the rear end are provided with a main jointed board (8), the lower ends of the supporting seat (6) at the left end and the right end are provided with side jointed boards (7), the left side of the main jointed board (8) is internally provided with a quick-release component (10), and the inner side of the side jointed board (7) is provided with an embedded board (11);

The cover body (3) comprises a cover plate (3 a), a first jogged body (3 b), a second jogged body (3 c), a jogged top seat (3 d), a main body (3 d 1) and a first sealing gasket (3 d 2), and the jogged base (4 b) comprises a base body (4 d 1), a second sealing gasket (4 d 2), an embedded groove (4 d 3) and an inclined seat (4 d 4);

The quick-release component (10) comprises a sliding block (10 a), a movable rod (10 b), a shell (10 c), a piston seat (10 d), a spring (10 e), a damping inner core (10 f), a clamping seat (10 g), a pull ring (10 h), a shell (10 g 1), a linear bearing (10 g 2), a damping column (10 g 3), a supporting rod (10 g 4), a rotating cover (10 g 5), clamping wings (10 g 6), a rotary damping first (10 g 7), a clamping groove (10 g 8), a fixed head (10 g 9), a shaft column (10 g 10), an inner bearing first (10 g 11), an outer gear (10 g 12), a driven tooth (10 g 13) and an inner bearing second (10 g 14);

The movable rod (10 b) is arranged at the rear end of the sliding block (10 a), the piston seat (10 d) is arranged at the right end of the movable rod (10 b), the spring (10 e) is arranged at the right end of the piston seat (10 d), the damping inner core (10 f) is arranged at the inner side of the spring (10 e), the shell (10 c) is arranged at the outer side of the piston seat (10 d), the clamping seat (10 g) is arranged at the left side of the movable rod (10 b), and the pull ring (10 h) is arranged at the left side of the clamping seat (10 g);

The utility model discloses a novel energy-saving device for a piston rod, which comprises a sliding block (10 a), a movable rod (10 b), a piston seat (10 d), a movable rod (10 b) and a movable rod (10 f), wherein the sliding block (10 a) is fixedly connected with the movable rod (10 b), the movable rod (10 b) is fixedly connected with the piston seat (10 d), the piston seat (10 d) is movably connected with the inner side of a shell (10 c) in a sealing manner, the inner side of the shell (10 c) is a smooth surface, the piston seat (10 d) is a split piston made of polyurethane material, the piston seat (10 d) is fixedly connected with a spring (10 e) and a damping inner core (10 f), the spring (10 e) is a sanyang-0000 die spring, the damping inner core (10 f) is a FPD-5 type resin damper, the length of the spring (10 e) is the same as the length of the damping inner core (10 f), the movable rod (10 b) penetrates through the inside of the clamping seat (10 g), the movable rod (10 b) is a movable mechanism, a round hole is formed in the left side of the pull ring (7), the right side of the pull ring (10 h) is provided with a round hole, the round hole is mounted on the right side of the pull rod (10 e) and the piston rod (10 b) is connected with the shell (10 e) in a movable mechanism, the round hole (10 g) in a rebound mode, the diameter is driven by the piston rod (10 b) to move the round hole (10 h) when the piston rod (10 f) and the piston rod (10 f) moves down, and the piston rod (10 f) moves down through the round hole (10 f) and the diameter (10 f) and the piston rod (10 f) and the diameter is driven to move down and the round hole, when the clamping seat (10 g) is clamped with the inside of the side jointed board (7), the spring (10 e) and the damping inner core (10 f) can pull the movable rod (10 b) back, so that the clamping seat (10 g) is clamped with the side jointed board (7);

a linear bearing (10 g 2) is arranged in the middle position of the inner side of the shell (10 g 1), two groups of damping columns (10 g 3) are connected to the left side of the upper end and the left side of the lower end of the linear bearing (10 g 2), a group of supporting rods (10 g 4) are arranged on the left side of each damping column (10 g 3), a rotary cover (10 g 5) is arranged on the left side of each supporting rod (10 g 4), a fixed head (10 g 9) is arranged in each rotary cover (10 g 5), a shaft column (10 g 10) is arranged at the lower end of each fixed head (10 g 9), an inner bearing I (10 g 11) is arranged at the lower end of each shaft column (10 g 10), an outer gear (10 g 12) is arranged at the outer side of each inner bearing I (10 g 11), driven teeth (10 g 13) are arranged at the outer sides of the outer gears (10 g 12), an inner bearing II (10 g 14) is arranged at the inner sides of the driven teeth (10 g 13), a rotary damper II is arranged at the inner sides of the inner bearings II (10 g 14), a rotary damper wing (10 g 6) is arranged at the inner sides of the rotary damper blades (10 g 6), and a damper blade (10 g) is arranged at the inner sides of the damper blades (6 g 7);

The shell (10 g 1) is of a cylindrical structure, the shell (10 g 1) is of a hollow structure, the linear bearing (10 g 2) is of an LMF6UU type flange linear bearing, the linear bearing (10 g 2) is fixedly connected with two groups of damping columns (10 g 3), the two groups of damping columns (10 g 3) are identical in specification and are all FA-1212C1-C type small sliding-free dampers, the two groups of damping columns (10 g 3) are installed in a right angle mode and are all connected with a group of supporting rods (10 g 4), each group of supporting rods (10 g 4) is connected and fixed with a group of screw caps (10 g 5), the supporting rods (10 g 4) and the screw caps (10 g 5) are all movable mechanisms, the screw caps (10 g 5) are fixedly connected with the fixed heads (10 g 9), the fixed head (10 g 9) is fixedly connected with the shaft post (10 g 10), the outer side of the lower end of the shaft post (10 g 10) is fixedly connected with the inner side of the first inner bearing (10 g 11), the first inner bearing (10 g 11) is fixedly connected with the outer gear (10 g 12), the outer gear (10 g 12) is meshed with the driven gear (10 g 13), the rotation area of the driven gear (10 g 13) is a half circle, the first rotation damping (10 g 7) and the second rotation damping are the same in specification and are all HCL-04 type rotation gear dampers, the first rotation damping (10 g 7) is movably connected with the clamping wing (10 g 6), the cross section of the clamping wing (10 g 6) is of a quarter circle structure, the manufacturing material of the clamping wing (10 g 6) is an aluminum alloy, and two sets of clamping wings (10 g 6) are all movable mechanisms, two sets of rotary damping ones (10 g 7) are connected and fixed with a shell (10 g 1), the two sets of damping columns (10 g 3) are moved rightwards through a movable rod (10 b) and rotate outside a linear bearing (10 g 2), and the angle between the two sets of damping columns (10 g 3) is adjusted, so that the clamping wings (10 g 6) are controlled to be opened at the inner side of a clamping groove (10 g 8) and clamped with the inner side of the clamping groove (10 g 8).

2. The quick release preform mold as claimed in claim 1, wherein: the novel sealing structure is characterized in that a first jogged body (3 b) is arranged on the outer side of the lower end of the cover plate (3 a), a second jogged body (3 c) is arranged on the inner side of the first jogged body (3 b), a first sealing gasket (3 d 2) is arranged on the outer side of the first jogged body (3 d), and a main body (3 d 1) is arranged on the inner side of the first sealing gasket (3 d 2).

3. A quick release preform mold as in claim 2 wherein: the specification of the first jogged body (3 b) is the same as that of the second jogged body (3 c), the first jogged body (3 b) and the second jogged body (3 c) are both made of Damascus steel, the cross section of the first jogged body (3 b) is of a rectangular annular structure, the cross section of the second jogged body (3 c) is the same as that of the first jogged body (3 b), the cross section length and width of the second jogged body (3 c) are smaller than those of the first jogged body (3 b), a group of grooves with the thickness of 60mm are concavely formed between the first jogged body (3 b) and the second jogged body (3 c), the main body (3 d 1) and the bottom of the grooves are welded and fixed, the sealing gasket (3 d 2) is welded on the outer side surface of the main body (3 d 1) in a plastic welding mode, the first sealing gasket (3 d 2) is an ethylene propylene diene monomer rubber gasket, the cross section of the main body (3 d 1) is of a right trapezoid structure, a group of embedded sealing blocks are arranged at the middle position of the right side of the main body (3 d 1), when a prefabricated component is formed by a worker, the cover body (3) is placed above the die cavity (5), an external forming material conduit is in sealing connection with the feed pipe (1), meanwhile, the first embedded body (3 b), the second embedded body (3 c) and the embedded sealing blocks are embedded with the first embedded groove (4 a), the second embedded groove (4 c) and the embedded base (4 b) to enable the inside of the die cavity (5) to be completely closed, and performs an injection molding manufacturing process of the prefabricated part.

4. The quick release preform mold as claimed in claim 1, wherein: the sealing gasket two (4 d 2) are installed on the right side of the base body (4 d 1), the embedded groove (4 d 3) is formed in the middle position of the right side of the base body (4 d 1), and the right side of the lower end of the base body (4 d 1) is provided with the inclined base (4 d 4).

5. The quick release preform mold as recited in claim 4, wherein: the inner width of the cross section of the first embedding groove (4 a) is consistent with the length of the cross section of the first embedding body (3 b), the inner side of the first embedding groove (4 a) is mutually embedded with the first embedding body (3 b), the inner width of the cross section of the second embedding groove (4 c) is consistent with the length of the cross section of the second embedding body (3 c), the inner side of the second embedding groove (4 c) is mutually embedded with the second embedding body (3 c), gaskets are respectively arranged on the inner sides of the first embedding groove (4 a) and the second embedding groove (4 c), the gaskets are the same as the first sealing gasket (3 d 2), the manufacturing materials of the second sealing gasket (4 d 2) are the same as the materials of the first sealing gasket and the first sealing gasket (3 d 2), the inner side of the first embedding groove (4 d 3) is mutually sealed and embedded with the sealing gasket, when the main body (3 d 1) and the seat body (4 d 1) are completely embedded, the whole cross section is in a rectangle, the inner side of the main splicing plate (8) is internally provided with a mounting groove, the inner side of the first embedding plate (11) and the mounting groove are respectively embedded with the inner side of the sealing gasket, and simultaneously the first sealing gasket (3 d 2) and the second sealing gasket (3 d 2) are matched with the first sealing gasket (3 d 2), and the second sealing gasket (3 d 2) and the first sealing gasket (3 d 3) are mutually sealed and the second sealing gasket (3 d 3) The embedded body II (3 c) and the embedded sealing block can further seal and embed the cover plate (3 a) and the main jointed board (8), and simultaneously facilitate the quick disassembly of the cover body (3).