CN109895311A - A kind of cylinder molding die - Google Patents

Abstract

The invention discloses a kind of cylindrical molding dies, including molding machine, lifting chamber is equipped in the molding machine, the intracavitary sliding of lifting is equipped with elevator, upper and lower perforative through slot is equipped in the elevator, it communicates on the right side of the lifting chamber equipped with engaging groove, the meshing gear for connection being engaged with the elevator in left end is equipped with by engagement shaft rotation in the engaging groove, it communicates on the upside of the lifting chamber equipped with sliding groove, the present invention makes the circulation of elevator control casting liquid by elevator, casting liquid is controlled by transmission device simultaneously and enters the casting capacity in cylinder type groove, ventilation device is set after molding by demoulding to air is filled between finished product and molding die, drive the mode of forming blocks decline that finished product is detached from it finally by lifting device, the frictional dissipation to finished surface is reduced during it , the compact gearing property of this apparatus structure is good, and the molding of material is completed in full-automation, consumes energy low and efficient.

Description

A kind of cylinder molding die

Technical field

The present invention relates to technical field of material formation, specially a kind of cylindrical molding die.

Background technique

Current material forming press mode multiplicity used in material molding, for existing compression molding side Formula forms material by injection moulding material in the fit clearance between mold and forming blocks, and manufactured finished product exists The taking-up of finished product is completed after demoulding by way of pushing the lower end of finished product to eject finished product, this molding mode is directed to wide-mouth The molding of bottle or columnar object, and its capacity control device for being poured liquid of such molding machine in the prior art and molding fill Independence is set, so that device integrally takes up a large area, and the device in potting syrup conveying increases the energy consumption of forming press.

Secondly, mold is directly extracted after moulding by casting in current compression molding device, not set prepared separator So that increase the frictionally damage of its inner wall when mold is separated with finished product, and finished product is ejected it by downside pushing meanss upwards, Friction when then finished product ejects is greater than friction when actively separating of mold, causes the damage of finished surface, especially cylindrical type Material finished product is of poor quality, low efficiency.

For this reason, it is necessary to further improve cylindrical forming press in the prior art, to improve material molding Efficiency and high quality.

Summary of the invention

The purpose of the present invention is to provide a kind of cylindrical molding dies, for overcoming drawbacks described above in the prior art.

A kind of cylindrical molding die according to the present invention, including molding machine, interior be equipped with of the molding machine goes up and down chamber, described It goes up and down intracavitary sliding and is equipped with elevator, upper and lower perforative through slot is equipped in the elevator, is communicated on the right side of the lifting chamber Equipped with engaging groove, the engaging tooth for connection being engaged with the elevator in left end is equipped with by engagement shaft rotation in the engaging groove Wheel is communicated equipped with sliding groove on the upside of the lifting chamber, be equipped on the left of the sliding groove opening towards the right side the first turn trough, described first The first runner is equipped with by first rotating shaft rotation in turn trough, first runner upper end is installed with driving lever, the sliding groove right side Equipped with wind power machine, it is equipped with transmission device on the downside of the wind power machine, communicates on the downside of the lifting chamber equipped with mold cavity, the mould Have it is intracavitary be equipped with molding die, molding die bilateral symmetry is installed with the first reset assembly, the molding die upper surface It is installed with the fixed block that upper end is protruded into through the through slot in the sliding groove, ventilation device is equipped in the fixed block, it is described It is equipped with casting device on the outside of mold cavity, forming cavity is equipped on the downside of the mold cavity, sliding is equipped with forming blocks, institute in the forming cavity It states and is equipped with opening up cylinder type groove in forming blocks, communicate on the downside of the cylinder type groove equipped with T-slot, set in the T-slot The T-shaped block for having lower end and the forming cavity lower end wall to be connected, the elevator declines so that the casting device is to the cylinder It is poured in type groove, under the transmission device effect molding die is dropped in the cylinder type groove and make material Material molding, thereafter by the ventilation device to ventilation in the cylinder type groove so that the molding die is separated with finished product, most Finished product is taken out by T-shaped block afterwards.

Further technical solution, the wind power machine include opening towards a left side communicated with the sliding groove and rear side with the external world The wind chamber of space connection, the wind is intracavitary uniformly distributed fixed there are four fan blade by rotating block, and the wind chamber right side, which communicates to be equipped with, to be turned Chamber is changed, the rotating block right side is installed with right end and protrudes into conversion second shaft that is intracavitary and being installed with first gear, institute It states and is communicated on the upside of conversion chamber equipped with the first engagement chamber, the intracavitary rotation of the first engagement is equipped with downside and engages with the first gear The connection gear of connection, the connection gear rear end face engagement are connected with the first bevel gear being rotatablely connected by third shaft, It is connected by power between the third shaft and the first rotating shaft by interlocking belt, the conversion chamber right end wall is installed with hydraulic Cylinder, the hydraulic cylinder left end are connected by power fixed dynamic piece of the push rod in left end, are installed with power motor in the power block, The power motor left end is connected by power left end, and to protrude into the conversion intracavitary and to connect with the second shaft spline Power spline housing, the power motor right end are connected by power the line shaft that right end is installed with second bevel gear, second cone The engagement of gear rear end face is connected with the third hand tap gear by the rotation setting of the 4th shaft, and the 4th shaft turns with described engage Axis is connected by power by driving belt.

Further technical solution, the transmission device include the second turn trough communicated towards a left side with the sliding groove that is open, It is rotated in second turn trough and is equipped with the second gear that left end engages connection with the fixed block, after the mandrel of the second gear End is installed with torque spring, and the second gear front end face is installed with the 4th bevel gear, the 4th bevel gear right side engagement It is connected with the 5th bevel gear, is communicated on the right side of second turn trough equipped with driving chamber, the 5th bevel gear right side is installed with the right side The 5th shaft of the 6th bevel gear is protruded into the driving chamber and is installed at end, and sliding is equipped with drive block, institute in the driving chamber It states and is installed with driving motor in drive block, the driving motor upper end has been connected by power upper end and has been installed with to bore with the described 6th The drive shaft of 7th bevel gear of gear engagement connection, in being installed with spline in the drive shaft on the downside of the 6th bevel gear Block, spline is connected with drive splines set on the outside of the spline block, communicates to be equipped on the left of the driving chamber and pushes away slot, and the drive block is left End face is installed with left end and protrudes into the connecting rod pushed away in slot, and the connecting rod lower end surface is installed with to be consolidated with the slot lower end wall that pushes away Connecting spring even is equipped with upper and lower perforative lifting sliding slot on the right side of the through slot, in the lifting sliding slot sliding be equipped with lower end and The connected stationary rack of the lifting chamber lower end wall, the lifting sliding slot right side are communicated equipped with opening up connection sliding slot, institute It states sliding in connection sliding slot and is equipped with upper end and protrude into the connection pushed away in slot and be connected with the connecting rod through the lifting chamber Rack gear engages connection, the connection rack gear right end by transmission gear between the connection rack gear left end and the stationary rack Face is installed with the second reset assembly.

Further technical solution, the ventilation device include that the opening up of setting in the molding die is stretched Slot, interior slide of the telescopic chute is equipped with the ventilation duct that upper end protrudes into the sliding groove through the fixed block, in the ventilation duct Equipped with opening up ventilation slot, the ventilation slot bilateral symmetry in the molding die is communicated equipped with ventilation hole, described logical Left and right is symmetrically arranged with air slot on the outside of air hose, and the ventilation sliding slot that outside is communicated with the mold cavity is equipped on the downside of the air slot, The ventilation sliding slot sliding is equipped with ventilation sliding block, communicates on the downside of the ventilation sliding slot equipped with horizontal concrete chute, in the horizontal concrete chute Sliding is equipped with horizontal slider, communicates on the downside of the horizontal concrete chute equipped with vertical chute, and sliding is equipped with vertical in the vertical chute Sliding block is connected by connection bar rotation between the upright slide block and the horizontal slider, is passed through between the upright slide block Link block is connected, and the link block and the ventilation duct lower end are connected.

Further technical solution, the casting device include the casting chamber of annular, are equipped with left and right on the downside of the casting chamber Symmetrical circulation groove communicates on the downside of the circulation groove equipped with inside and the slippage slot for going up and down chamber and communicating, in the slippage slot Sliding is equipped with inner opposite end and protrudes into the intracavitary slipping block of the lifting, is equipped with upper and lower perforative recirculation hole, institute in the slipping block It states slipping block lateral ends and is installed with the connected extruding spring of slippage slot inner end wall described in the other end and corresponding side, the slippage slot It is connected to the forming cavity and is equipped with empty slot, sliding is equipped with the runner pipe that upside is communicated with the circulation groove in the empty slot, described Equipped with the extruding slot that symmetrical opening is opposite in forming blocks, the interior sliding of the extruding slot is equipped with inner end and protrudes into the cylindrical type Extruding sliding block in slot, it is described to squeeze equipped with the valve pool run through up and down and upside is communicated with the runner pipe in sliding block, it is described to squeeze The top pressure spring that pressure sliding block lateral ends are installed with the other end and the extruding slot inner end wall is connected, the extruding slot downside and institute It states the connection of cylinder type groove and is equipped with plug hole, be equipped with the lifting device for driving forming blocks lifting on the outside of the forming cavity.

Further technical solution, the lifting device includes bilateral symmetry and opening is communicated with the forming cavity relatively Space is gone up and down, elevating screw is equipped in the lifting space, is threaded on the elevating screw close to the forming cavity Connected threaded block on the outside of one end and the forming blocks, the lifting space downside are communicated equipped with the first belt grooves, the lifting Screw lower end protrudes into first belt grooves and is installed with the first belt pulley, passes through the first belt between first belt pulley It is connected by power, is communicated on the upside of the lifting space on right side equipped with link slot, the elevating screw upper end on right side and the company The rotation connection of access slot upper end wall, on the left of the link slot be connected between the driving chamber equipped with the second belt grooves, in the company It is connected by power between the elevating screw in access slot and drive splines set by the second belt；In use, elevating screw Rotation, so that the forming blocks lifting that threaded block drives.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, by elevator elevator control is poured The circulation of fluid injection body, while casting liquid is controlled by transmission device and enters the casting capacity in cylinder type groove, in forming process In i.e. complete casting capacity control fixed so that pouring fluence, trimmed size is consistent and quality is high, secondly, dress center it is logical Wind apparatus after molding by be filled between finished product and molding die air convenient for demoulding, when so that molding die exiting There is finished product inner wall caused by will not bonding with finished product draws trace equivalent damage, reduces the molding efficiency of material, fills finally by lifting It sets and drives the mode of forming blocks decline that finished product is detached from it, reduce the frictional dissipation to finished surface in the process, this dress Set that compact-sized gearing property is good, the molding of material is completed in full-automation, is consumed energy low and efficient.

Detailed description of the invention

Fig. 1 is a kind of inside overall structure diagram of cylindrical molding die of the invention；

Fig. 2 is " A " enlarged structure schematic diagram in Fig. 1 in the present invention；

Fig. 3 is " B " enlarged structure schematic diagram in Fig. 2 in the present invention；

Fig. 4 is " C " enlarged structure schematic diagram in Fig. 1 in the present invention；

Fig. 5 is " D " enlarged structure schematic diagram in Fig. 1 in the present invention.

Specific embodiment

Below with reference to Fig. 1-5, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

Referring to Fig.1-5, a kind of cylindrical molding die of embodiment according to the present invention, including molding machine 10, it is described at Lifting chamber 11 is equipped in type machine 10, sliding is equipped with elevator 12 in the lifting chamber 11, is equipped in the elevator 12 upper Under perforative through slot 110, communicate on the right side of the lifting chamber 11 equipped with engaging groove 74, pass through engagement shaft 75 in the engaging groove 74 Rotation is equipped with the meshing gear 76 that left end engages connection with the elevator 12, communicates on the upside of the lifting chamber 11 equipped with sliding groove 13, it is equipped with opening on the left of the sliding groove 13 towards the first right turn trough 14, passes through 15 turns of first rotating shaft in first turn trough 14 Dynamic to be equipped with the first runner 16,16 upper end of the first runner is installed with driving lever 17, is equipped with wind power machine on the right side of the sliding groove 13, It is equipped with transmission device on the downside of the wind power machine, is communicated on the downside of the lifting chamber 11 equipped with mold cavity 18, in the mold cavity 18 Equipped with molding die 19,19 bilateral symmetry of molding die is installed with the first reset assembly 21,19 upper end of molding die Face is installed with the fixed block 20 that upper end is protruded into through the through slot 110 in the sliding groove 13, is equipped in the fixed block 20 logical Wind apparatus is equipped with casting device on the outside of the mold cavity 18, is equipped with forming cavity 22, the forming cavity 22 on the downside of the mold cavity 18 Interior sliding is equipped with forming blocks 23, and opening up cylinder type groove 24,24 downside of cylinder type groove are equipped in the forming blocks 23 It communicates and is equipped with T-slot 25, the T-shaped block 26 being connected in the T-slot 25 equipped with lower end and 22 lower end wall of forming cavity, the liter Drop block 12 declines so that the casting device makes under transmission device effect to being poured in the cylinder type groove 24 The molding die 19, which drops in the cylinder type groove 24, forms material, thereafter by the ventilation device to the circle Ventilation in column type slot 24 takes out finished product finally by T-shaped block 26 so that the molding die 19 is separated with finished product.

Valuably or illustratively, the wind power machine include opening towards a left side communicated with the sliding groove 13 and rear side with outside The wind chamber 27 of boundary space connection, the wind chamber 27 is interior uniformly distributed fixed there are four fan blade 29 by rotating block 28, and the wind chamber 27 is right Side, which communicates, is equipped with conversion chamber 31, and 28 right side of rotating block is installed with right end and protrudes into the conversion chamber 31 and be installed with first Second shaft 30 of gear 32 communicates on the upside of the conversion chamber 31 equipped with the first engagement chamber 45, turns in the first engagement chamber 45 The dynamic connection gear 42 for engaging connection with the first gear 32 equipped with downside, 42 rear end face of the connection gear engagement are connected with The first bevel gear 44 being rotatablely connected by third shaft 43, passes through company between the third shaft 43 and the first rotating shaft 15 Dynamic belt is connected by power, and the 31 right end wall of conversion chamber is installed with hydraulic cylinder 33, and 33 left end of hydraulic cylinder has been connected by power a left side Fixed dynamic piece 36 of push rod 34 is held, power motor 35 is installed in the power block 36,35 left end of power motor is dynamic Power is connected with left end and protrudes into the conversion chamber 31 and the power spline housing 41 to connect with 30 spline of the second shaft, institute It states 35 right end of power motor and is connected by power the line shaft 37 that right end is installed with second bevel gear 38, after the second bevel gear 38 End face engagement is connected with the third hand tap gear 40 by the rotation setting of the 4th shaft 39, and the 4th shaft 39 turns with described engage Axis 75 is connected by power by driving belt.

Valuably or illustratively, the transmission device includes the second turn trough communicated towards a left side with the sliding groove 13 that is open 49, the interior rotation of second turn trough 49 is equipped with the second gear 50 that left end engages connection with the fixed block 20, second tooth The core back-end of wheel 50 is installed with torque spring, and 50 front end face of second gear is installed with the 4th bevel gear 51, and the described 4th The engagement of 51 right side of bevel gear is connected with the 5th bevel gear 53, is communicated on the right side of second turn trough 49 equipped with driving chamber 55, described 5th bevel gear, 53 right side is installed with the 5th shaft that right end protrudes into the driving chamber 55 and is installed with the 6th bevel gear 56 54, the interior sliding of the driving chamber 55 is equipped with drive block 64, is installed with driving motor 63, the driving motor in the drive block 64 63 upper ends are connected by power the driving that upper end is installed with the 7th bevel gear 57 to engage connection with the 6th bevel gear 56 Axis 62,56 downside of the 6th bevel gear is in being installed with spline block 58, the 58 outside spline of spline block in the drive shaft 62 It is connected with drive splines set 59, is communicated on the left of the driving chamber 55 equipped with slot 66 is pushed away, 64 left side of drive block is installed with a left side The connecting rod 65 pushed away in slot 66 is protruded at end, and 65 lower end surface of connecting rod, which is installed with, pushes away what 66 lower end wall of slot was connected with described Connecting spring 67, upper and lower perforative lifting sliding slot 69 is equipped on the right side of the through slot 110, and interior slide of lifting sliding slot 69 is equipped with down End goes up and down the connected stationary rack 70 of 11 lower end wall of chamber with described, communicates on the right side of the lifting sliding slot 69 equipped with opening up company Connect sliding slot 72, in the connection sliding slot 72 sliding be equipped with upper end through the lifting chamber 11 protrude into it is described push away slot 66 it is interior and with it is described The connected connection rack gear 68 of connecting rod 65, passes through transmission gear 71 between 68 left end of connection rack gear and the stationary rack 70 Engagement connection, 68 right side of connection rack gear is installed with the second reset assembly 73.

Valuably or illustratively, the ventilation device includes that the opening up of setting in the molding die 19 is stretched Slot 94, the interior sliding of the telescopic chute 94 are equipped with the ventilation duct 46 that upper end protrudes into the sliding groove 13 through the fixed block 20, institute It states and is equipped with opening up ventilation slot 47 in ventilation duct 46,47 bilateral symmetry of the ventilation slot in the molding die 19 communicates Equipped with ventilation hole 83, left and right is symmetrically arranged with air slot 84 on the outside of the ventilation duct 46, be equipped on the downside of the air slot 84 outside with The ventilation sliding slot 85 that the mold cavity 18 communicates, the sliding of ventilation sliding slot 85 are equipped with ventilation sliding block 86, the ventilation sliding slot 85 Downside is communicated equipped with horizontal concrete chute 85, and the interior sliding of the horizontal concrete chute 85 is equipped with horizontal slider 87,85 downside of horizontal concrete chute It communicates and is equipped with vertical chute 88, sliding is equipped with upright slide block 92, the upright slide block 92 and the water in the vertical chute 88 It is rotatablely connected between smooth block 87 by connection bull stick 91, is connected between the upright slide block 92 by link block 93, the company It connects block 93 and 46 lower end of ventilation duct is connected.

Valuably or illustratively, the casting device includes the casting chamber 77 of annular, is equipped on the downside of the casting chamber 77 Symmetrical circulation groove 78 communicates the slippage slot 79 communicated equipped with inside and the lifting chamber 11 on the downside of the circulation groove 78, Sliding is equipped with the slipping block 80 that inner opposite end protrudes into the lifting chamber 11 in the slippage slot 79, is equipped in the slipping block 80 Upper and lower perforative recirculation hole 82,80 lateral ends of slipping block are installed with 79 inner end wall of slippage slot described in the other end and corresponding side Connected extruding spring 81, the slippage slot 79 is connected to the forming cavity 22 is equipped with empty slot 95, and sliding is set in the empty slot 95 The runner pipe 96 for thering is upside to communicate with the circulation groove 78, the interior extruding opposite equipped with symmetrical opening of forming blocks 23 Slot 98, the interior sliding of the extruding slot 98 are equipped with inner end and protrude into the extruding sliding block 99 in the cylinder type groove 24, the extruding sliding block Equipped with the valve pool 101 run through up and down and upside is communicated with the runner pipe 96 in 99,99 lateral ends of the extruding sliding block are fixed The top pressure spring 100 for thering is the other end and extruding 98 inner end wall of slot to be connected, 98 downside of extruding slot and the cylinder type groove 24 connections are equipped with plug hole 102, are equipped with the lifting device for driving forming blocks 23 to go up and down on the outside of the forming cavity 22.

Valuably or illustratively, the lifting device includes bilateral symmetry and opening is communicated with the forming cavity 22 relatively Lifting space 103, be equipped with elevating screw 105 in the lifting space 103, be threaded with and lean on the elevating screw 105 The threaded block 104 being connected on the outside of one end of the nearly forming cavity 22 and the forming blocks 23 communicates on the downside of the lifting space 103 Equipped with the first belt grooves 106,105 lower end of elevating screw is protruded into first belt grooves 106 and is installed with the first belt 107 are taken turns, is connected by power between first belt pulley 107 by the first belt 108,103 upside of the lifting space on right side It communicates and is equipped with link slot 109,105 upper end of the elevating screw on right side and 109 upper end wall of link slot are rotatablely connected, described The left side of link slot 109 be connected to the liter equipped with the second belt grooves 61, in the link slot 109 between the driving chamber 55 It is connected by power between drop screw rod 105 and drive splines set 59 by the second belt 60.

When original state, second bevel gear 38 engages connection, spline block 58 and drive splines set 59 with third hand tap gear 40 Spline connection, 80 blocked flow slot 78 of slipping block, ventilation slot 47 and air slot 84 and ventilation 85 access failure of sliding slot.

When needing device to work, power motor 35 work so that second bevel gear 38 drive third hand tap gear 40 rotate, By driving belt meshing gear 76 is rotated counterclockwise, then elevator 12 decline squeeze slipping block 80 move outward so that Circulation groove 78 is communicated with recirculation hole 82, then the shaping dope being poured in chamber 77 flows through plug hole 102 into cylinder by runner pipe 96 In type groove 24, meanwhile, during elevator 12 declines, the rotation of transmission gear 71 is made to drive connection under the effect of stationary rack 70 Rack gear 68 declines, then by connecting rod 65 drive block 64 is declined, then spline block 58 and drive splines set 59 are detached from spline and connect It connecing and the 6th bevel gear 56 engages connection with the 7th bevel gear 57, then driving motor 63 drives the rotation of the 6th bevel gear 56, then and the Two gears 50 rotate counterclockwise so that fixed block 20 drives molding die 19 to decline, then molding die 19 drops to cylinder type groove 24 Interior and promotion squeezes sliding block 99 and is moved outward so that the closing of plug hole 102, then stop the casting of shaping dope, secondly, to be cast After the completion, when 33 propulsion power block 36 of hydraulic cylinder is moved to the left, power spline housing 41 is connect with 30 spline of the second shaft, then power Motor 35 drives the rotation of fan blade 29 to generate wind-force, while by 42 deceleration transmission of connection gear first rotating shaft 15 is slowed down and turning Dynamic, then the first runner 16, which rotates clockwise, drives the rotation of driving lever 17 to push the decline of ventilation duct 46, then to erect by link block 93 Straight sliding block 92 declines, and horizontal slider 87 drives ventilation sliding block 86 to move towards, then the connection of air slot 84 ventilation sliding slot 85 and ventilation Hole 83 enters the wind-force in ventilation slot 47 in cylinder type groove 24 convenient for molding die 19 and molded product by ventilation sliding slot 85 Separated demolding, then power motor 35 rotates backward so that driving lever 17 restores initial position, and thereafter, power motor 35 rotates backward So that meshing gear 76 rotate clockwise so that elevator 12 rise, then slipping block 80 squeeze spring 81 act under inside sidesway The dynamic initial position that restores closes circulation groove 78, meanwhile, the rotation of transmission gear 71 drives connection rack gear 68 to rise, then drive block 64 rise, and connect so that spline block 58 covers 59 splines with drive splines, and second gear 50 turns counterclockwise under torque spring effect Dynamic so that fixed block 20, which drives molding die 19 to rise, completes demoulding, then, driving motor 63 works, and is made by the second belt 60 It obtains elevating screw 105 to rotate, then the forming blocks 23 that threaded block 104 drives decline, and release finished product under the effect of T-shaped block 26 Complete the molding of material.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, by elevator elevator control is poured The circulation of fluid injection body, while casting liquid is controlled by transmission device and enters the casting capacity in cylinder type groove, in forming process In i.e. complete casting capacity control fixed so that pouring fluence, trimmed size is consistent and quality is high, secondly, dress center it is logical Wind apparatus after molding by be filled between finished product and molding die air convenient for demoulding, when so that molding die exiting There is finished product inner wall caused by will not bonding with finished product draws trace equivalent damage, reduces the molding efficiency of material, fills finally by lifting It sets and drives the mode of forming blocks decline that finished product is detached from it, reduce the frictional dissipation to finished surface in the process, this dress Set that compact-sized gearing property is good, the molding of material is completed in full-automation, is consumed energy low and efficient.

Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention It is subject to claims appended hereto.

Claims (6)

1. a kind of cylinder molding die, including molding machine, the molding machine is interior to be equipped with lifting chamber, and the intracavitary sliding of lifting is set Have and be equipped with elevator, upper and lower perforative through slot is equipped in the elevator, is communicated on the right side of the lifting chamber equipped with engaging groove, it is described Pass through engagement shaft rotation in engaging groove and is equipped with the meshing gear that left end engages connection with the elevator, the lifting chamber upside It communicates and is equipped with sliding groove, the first turn trough being open towards the right side is equipped on the left of the sliding groove, passes through first turn in first turn trough Axis rotation is equipped with the first runner, and first runner upper end is installed with driving lever, and wind power machine is equipped on the right side of the sliding groove, described It is equipped with transmission device on the downside of wind power machine, communicates on the downside of the lifting chamber equipped with mold cavity, shaping mould is equipped in the mold cavity Tool, the molding die bilateral symmetry are installed with the first reset assembly, and the molding die upper surface is installed with upper end through institute The fixed block that through slot protrudes into the sliding groove is stated, ventilation device is equipped in the fixed block, is equipped with and pours on the outside of the mold cavity Dispensing device, the mold cavity downside are equipped with forming cavity, and sliding is equipped with forming blocks in the forming cavity, and interior be equipped with of the forming blocks is opened The cylinder type groove of mouth upward, the cylinder type groove downside are communicated equipped with T-slot, and lower end and the molding are equipped in the T-slot The connected T-shaped block of chamber lower end wall, the elevator declines so that the casting device in the cylinder type groove to being poured, The transmission device effect is lower so that the molding die drops in the cylinder type groove and forms material, thereafter by institute Ventilation device is stated to ventilation in the cylinder type groove so that the molding die is separated with finished product, finally by T-shaped block by finished product Taking-up.

2. a kind of cylindrical molding die according to claim 1, it is characterised in that: the wind power machine includes opening court The left wind chamber communicated with the sliding groove and rear side is connected to free surrounding space, the wind is intracavitary to be uniformly installed with four by rotating block A fan blade communicates on the right side of the wind chamber and is equipped with conversion chamber, and the rotating block right side is installed with right end, and to protrude into the conversion intracavitary And it is installed with the second shaft of first gear, it is communicated on the upside of the conversion chamber equipped with the first engagement chamber, first engagement is intracavitary Rotation is equipped with the connection gear that downside engages connection with the first gear, and the connection gear rear end face engagement, which is connected with, to be passed through The first bevel gear of third shaft rotation connection, is connected between the third shaft and the first rotating shaft by interlocking belt power It connects, the conversion chamber right end wall is installed with hydraulic cylinder, and the hydraulic cylinder left end is connected by power pushing away for fixed dynamic piece of left end Bar, is installed with power motor in the power block, and the power motor left end has been connected by power left end, and to protrude into the conversion intracavitary And the power spline housing to connect with the second shaft spline, the power motor right end have been connected by power right end and have been installed with The line shaft of second bevel gear, the second bevel gear rear end face engagement are connected with the third cone by the rotation setting of the 4th shaft Gear, the 4th shaft engage shaft and are connected by power by driving belt with described.

3. a kind of cylindrical molding die according to claim 1, it is characterised in that: the transmission device includes opening court Left the second turn trough communicated with the sliding groove, the interior rotation of second turn trough are equipped with left end and engage connection with the fixed block Second gear, the core back-end of the second gear are installed with torque spring, and the second gear front end face is installed with the 4th cone Gear, the 4th bevel gear right side engagement are connected with the 5th bevel gear, communicate on the right side of second turn trough equipped with driving chamber, The 5th bevel gear right side is installed with the 5th shaft that right end protrudes into the driving chamber and is installed with the 6th bevel gear, institute It states sliding in driving chamber and is equipped with drive block, be installed with driving motor in the drive block, the driving motor upper end is connected by power There is upper end to be installed with the drive shaft of the 7th bevel gear to engage connection with the 6th bevel gear, under the 6th bevel gear Side is in being installed with spline block in the drive shaft, spline is connected with drive splines set on the outside of the spline block, and the driving chamber is left Side, which communicates to be equipped with, pushes away slot, and the drive block left side is installed with left end and protrudes into the connecting rod pushed away in slot, under the connecting rod End face, which is installed with, pushes away the connected connecting spring of slot lower end wall with described, and upper and lower perforative lifting sliding slot is equipped on the right side of the through slot, Sliding is equipped with the lower end stationary rack connected with the lifting chamber lower end wall, phase on the right side of the lifting sliding slot in the lifting sliding slot It is logical to be equipped with opening up connection sliding slot, in the connection sliding slot sliding be equipped with upper end through the lifting chamber protrude into described in push away slot Connection rack gear that is interior and being connected with the connecting rod, passes through transmission gear between the connection rack gear left end and the stationary rack Engagement connection, the connection rack gear right side is installed with the second reset assembly.

4. a kind of cylindrical molding die according to claim 1, it is characterised in that: the ventilation device include it is described at The opening up telescopic chute being arranged in pattern tool, in the telescopic chute sliding be equipped with upper end protruded into through the fixed block it is described The ventilation duct of sliding groove, the ventilation duct is interior to be equipped with opening up ventilation slot, and the ventilation slot in the molding die is left The right side is symmetrically communicated equipped with ventilation hole, and left and right is symmetrically arranged with air slot on the outside of the ventilation duct, is equipped with outside on the downside of the air slot The ventilation sliding slot communicated with the mold cavity, the ventilation sliding slot sliding are equipped with ventilation sliding block, communicate on the downside of the ventilation sliding slot Equipped with horizontal concrete chute, sliding is equipped with horizontal slider in the horizontal concrete chute, communicates on the downside of the horizontal concrete chute equipped with vertical chute, Sliding is equipped with upright slide block in the vertical chute, passes through connection bar rotation between the upright slide block and the horizontal slider It connects, is connected between the upright slide block by link block, the link block and the ventilation duct lower end are connected.

5. a kind of cylindrical molding die according to claim 1, it is characterised in that: the casting device includes annular It is poured chamber, symmetrical circulation groove is equipped on the downside of the casting chamber, is communicated on the downside of the circulation groove equipped with inside and the liter The slippage slot that drop chamber communicates, the interior sliding of the slippage slot are equipped with inner opposite end and protrude into the intracavitary slipping block of the lifting, the cunning It moves in block and is equipped with upper and lower perforative recirculation hole, the slipping block lateral ends are installed in slippage slot described in the other end and corresponding side The connected extruding spring of end wall, the slippage slot is connected to the forming cavity is equipped with empty slot, and sliding is equipped with upside in the empty slot The runner pipe communicated with the circulation groove, the interior extruding slot opposite equipped with symmetrical opening of the forming blocks, the extruding Sliding is equipped with inner end and protrudes into the extruding sliding block in the cylinder type groove in slot, and upper and lower run through and upside is equipped in the extrudings sliding block The valve pool communicated with the runner pipe, the extruding sliding block lateral ends are installed with the other end and the extruding slot inner end wall is connected Top pressure spring, be connected to the cylinder type groove on the downside of the extruding slot and is equipped with plug hole, equipped with drive on the outside of the forming cavity The lifting device of forming blocks lifting.

6. a kind of cylindrical molding die according to claim 5, it is characterised in that: the lifting device includes left and right pair Title and the opposite lifting space communicated with the forming cavity that is open, are equipped with elevating screw, the lifting silk in the lifting space Connected threaded block on the outside of one end of the forming cavity and the forming blocks is threaded on bar, under the lifting space Side is communicated equipped with the first belt grooves, and the first belt pulley is protruded into first belt grooves and be installed in the elevating screw lower end, It is connected by power between first belt pulley by the first belt, is communicated on the upside of the lifting space on right side equipped with link slot, The elevating screw upper end on right side and the link slot upper end wall are rotatablely connected, on the left of the link slot with the driving chamber it Between connection be equipped with the second belt grooves, the elevating screw in the link slot and the drive splines set between pass through second Belt is connected by power.