CN109133582A - A kind of pressed glass rapid molding device - Google Patents

Abstract

The invention discloses a kind of pressed glass rapid molding devices, including apparatus main body, it is set to the intracorporal transmission device of described device master, it is set to the intracorporal conveyer of described device master and is set to the intracorporal pressure setting of described device master, power device is provided in the transmission device, the power device has been connected by power switch block, the switch block annular array arrangement has forming cavity, the conveyer, which is connect by belt with the power device, passes through Bevel Gear Transmission, it is moving up and down in the conveyer to be provided with transport block, the transport block lower end is fixedly connected with sucker；The automatable drive pressed glass molding of the present apparatus, automatic structure is compact, passes through four side working chambers of round switch block, the compacting of formed glass, cooling ejection, and transport can synchronize progress, can work long hours, and automate high-efficient, device inner sealing, press temperature is controllable, and glass compacting is more efficient, and same power, which drives, guarantees each work step synchronous operation.

Description

A kind of pressed glass rapid molding device

Technical field

The present invention relates to glass working arts field, specially a kind of pressed glass rapid molding device.

Background technique

Glass has good perspective, and light transmission is good, has sound insulation and certain thermal insulation property, block-like glass molding It is general that by compacting, in the prior art, each step requires corresponding machine in glass molding process, more occupancy volume, It is only suitable for producing in batches, and needs people to nurse the transfer of each machinery compartment, and the difference of each production of machinery rate will lead to A kind of safety is wanted in the wasting of resources, therefore, urgent need, efficient and high quality pressed glass rapid molding device.

Summary of the invention

It is in the prior art above-mentioned for overcoming the purpose of the present invention is to provide a kind of pressed glass rapid molding device Defect.

A kind of pressed glass rapid molding device according to the present invention, including apparatus main body, it is set to described device main body Interior transmission device is set to the intracorporal conveyer of described device master and is set to the intracorporal compacting dress of described device master It sets, power device is provided in the transmission device, the power device has been connected by power switch block, the switch block annular array It is placed with forming cavity, the conveyer is connect with the power device by belt through Bevel Gear Transmission, the transport dress Set it is interior it is moving up and down be provided with transport block, the transport block lower end is fixedly connected with sucker, what sucker can finish molding Square glass is adsorbed, and the transport block is cooperatively connected by shaft thread in the transport sliding block movable block that can be horizontally slipped On, the pressure setting includes being fixedly installed on the intracorporal hydraulic cylinder of described device master, and power cooperation in the hydraulic cylinder lower end connects It is connected to hydraulic inner prop, the hydraulic inner prop lower end is fixedly connected with the briquetting that compacting shaping can be carried out to substance in forming cavity, institute State the top for making to form the abjection of square glass in forming cavity for being provided in conveyer and being cooperatively connected with power device by belt Block.

Further technical solution, the transmission device includes being set to the intracorporal power device of described device master, described It is provided with working chamber in upper inside walls in power device, switch block shaft, the switch block shaft are provided in the power device Upper end extend and be passed through in the working chamber and be fixedly connected with switch block, the switch block annular array arrangement has forming cavity, institute State be connected in the downside inner wall of forming cavity be provided with jacking block chamber, the jacking block is intracavitary to be slidably provided with jacking block, described The lower end of jacking block is fixedly connected with lift shaft, and the lifting chamber that Open Side Down, institute are provided in the downside inner wall of the jacking block chamber The lower end for stating lift shaft extends intracavitary and be connected with lifting gear by being threadedly engaged, the lifting gear that is passed through the lifting It is fixed with shaft and shaft is rotatably assorted on the downside inner wall for being connected to the lifting chamber by bearing, the downside of the working chamber What inner wall was connected is provided with annular chamber, and the lower end of the lift shaft, which extends, to be passed through in the annular chamber, the liter of the left end The intracavitary first gear that is provided with and can be meshed with the lifting gear drops, and the first gear is fixedly connected with first rotating shaft, Be provided with first turn of chamber in the downside inner wall of the working chamber, the lower end of the first rotating shaft extend be passed through described first turn it is intracavitary And it is arranged with the first belt, the first belt drive has the second shaft, the lower end of second shaft and the power device It is connected, the lifting of the front end is intracavitary to be provided with the second gear that can be meshed with the lifting gear, the second gear It is fixedly connected with third shaft, second turn of chamber is provided in the downside inner wall of the working chamber, the lower end of the third shaft is prolonged Stretch be passed through described second turn it is intracavitary and be arranged with the second belt, the second belt drive has the 4th shaft, the 4th shaft Lower end be connected with the power device.

Further technical solution, the power device includes being fixedly installed on the intracorporal motor of described device master, described Motor upper and lower side power is connected with the 5th shaft, and third is provided in the upper inside walls of the motor and turns chamber, and the described 5th The upper end of shaft, which extends, to be passed through the third and turns intracavitary and be fixedly connected with the first ratchet, and the third turns intracavitary and is provided with and institute The first handle ratchet wheel of the first ratchet one-way engagement is stated, first handle ratchet wheel is fixedly connected with switch block shaft, under the motor Be provided with the 4th turn of chamber in the inner wall of side, the lower end of the 5th shaft extend be passed through described 4th turn it is intracavitary and be fixedly connected with the Two ratchets, the 4th turn of intracavitary second handle ratchet wheel being provided with one way engagement in second ratchet, the 4th turn of chamber It is inside provided with the third gear being meshed with second handle ratchet wheel, the third gear is fixedly connected with second shaft, Described 4th turn intracavitary to be provided with the 4th gear being meshed with second handle ratchet wheel, the 4th gear with described 4th turn Axis is fixedly connected.

Further technical solution, the conveyer include the 5th turn be set in the downside inner wall of the working chamber Chamber is arranged with third belt in the 5th turn of intracavitary third shaft, and the third belt drive has the 6th shaft, described Be provided with the 6th turn of chamber in the upper inside walls of working chamber, the upper end of the 6th shaft extend be passed through described 6th turn it is intracavitary and lead to It crosses bearing to be rotatably assorted in the upper inside walls for being connected to the 6th turn of chamber, the 6th turn of intracavitary 6th shaft liquid holds The 4th belt is arranged on chamber, the 4th belt drive has the 7th shaft, is provided in the upper inside walls of the 6th turn of chamber 7th turn of chamber, the upper end of the 7th shaft extend be passed through described 7th turn it is intracavitary and be fixedly connected with half tooth, described 7th turn Intracavitary to be provided with the rack gear being meshed with half tooth, described 7th turn intracavitary to be provided with the driving cog being meshed with the rack gear Wheel, the transmission gear are fixedly connected with eight revolution axis, and the movement of opening to the left is provided in the upper inside walls of the working chamber Chamber, the left end of described device main body are fixedly connected with extension block, be provided with that Open Side Down in the extension block and right side with it is described The extended cavity that mobile cavity is connected, the left end of the eight revolution axis, which extends, to be passed through in the extended cavity and is rotatably assorted by bearing It is connected in the inner left wall of the extended cavity, is threadedly engaged that be connected with can be described in the mobile cavity on the eight revolution axis The movable block to horizontally slip in mobile cavity, the movable block is interior and its right end is provided with bindiny mechanism.

Further technical solution, the bindiny mechanism include the eight revolution chamber being set in the movable block, and described Eight revolution is intracavitary to be rotatably provided with third hand tap gear, and the third hand tap gear is fixedly connected with screw rod, the lower end of the screw rod Extension is passed through in the mobile cavity and is connected with transport block by being threadedly engaged, and the lower end for transporting block is fixedly connected with suction Disk, the eight revolution is intracavitary to be provided with the 4th bevel gear being meshed with the third hand tap gear, and the 4th bevel gear is fixed It is connected with connecting shaft, the connecting shaft extension is passed through in the mobile cavity and is fixedly connected with the 5th bevel gear, the mobile cavity Right side inner wall in be provided with the 9th turn of chamber, be arranged with the 5th belt on the 9th turn of intracavitary eight revolution axis, it is described The drive of 5th belt has the 9th shaft, and the left end of the 9th shaft, which extends, is passed through in the mobile cavity and is arranged with drive block, Sliding slot symmetrical above and below is provided in the drive block, the left end extension of the 9th shaft is passed through in the drive block and upper and lower End is fixedly connected with the sliding block that can be horizontally slipped in the sliding slot, and the left end of the drive block is provided with can be with the 5th cone Bullet is fixedly connected between the right side inner wall of the conical socket that gear is meshed, the right end of the drive block and the mobile cavity Spring.

Further technical solution, the pressure setting include being fixedly installed on the intracorporal hydraulic cylinder of described device master, institute It states hydraulic cylinder power and is connected with hydraulic inner prop, be provided in the downside inner wall of the hydraulic inner prop and be connected with the working chamber Logical compression chamber is slidably provided with the briquetting being fixedly connected with the hydraulic inner prop, described device master in the compression chamber It is provided with liquid reservoir in vivo, the lower end of the liquid reservoir is connected with pipeline, and the pipe control has switch, and the pipeline can It is connected with the forming cavity, what is be connected on the upside of the working chamber is provided with the cooling chamber being connected with the mobile cavity.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, glass is suppressed in the automatable drive of the present apparatus Glass molding, automatic structure is compact, passes through four side working chambers of round switch block, the compacting of formed glass, cooling ejection, Yi Jiyun Progress can be synchronized by sending, and can be worked long hours, and automation is high-efficient, and device inner sealing, press temperature is controllable, and glass is suppressed more Increase effect, same power, which drives, guarantees each work step synchronous operation.

Detailed description of the invention

Fig. 1 is overall structure diagram inside a kind of pressed glass rapid molding device of the invention；

Fig. 2 is the right view of Fig. 1 in the present invention " A-A ".

Specific embodiment

Below with reference to Fig. 1-2, 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.1-2, a kind of pressed glass rapid molding device of embodiment according to the present invention, including apparatus main body 11, the transmission device that is set in described device main body 11, the conveyer being set in described device main body 11 and setting Pressure setting in described device main body 11, power device is provided in the transmission device, and the power device power connects It is connected to switch block 41, the 41 annular array arrangement of switch block has forming cavity 40, and the conveyer passes through belt and the power Device connection passes through Bevel Gear Transmission, and moving up and down be provided with transports block 19, the transport block 19 in the conveyer Lower end is fixedly connected with sucker, and the square glass that sucker can finish molding adsorbs, and the transport block 19 passes through shaft spiral shell Line is cooperatively connected on the transport sliding block movable block 17 that can be horizontally slipped, and the pressure setting includes being fixedly installed on described device Hydraulic cylinder 45 in main body 11, the 45 lower end power of hydraulic cylinder are connected with hydraulic inner prop 44, under the hydraulic inner prop 44 End is fixedly connected with the briquetting 43 that compacting shaping can be carried out to substance in forming cavity 40, is provided in the conveyer and power The jacking block 39 for making to form the abjection of square glass in forming cavity 40 that device is cooperatively connected by belt.

Valuably or illustratively, the transmission device includes the power device being set in described device main body 11, institute It states and is provided with working chamber 23 in the upper inside walls in power device, be provided with switch block shaft 35 in the power device, described turn The upper end of block shaft 35, which extends, is passed through in the working chamber 23 and is fixedly connected with switch block 41,41 annular array of the switch block row It is furnished with forming cavity 40, what is be connected in the downside inner wall of the forming cavity 40 is provided with jacking block chamber 74, can in the jacking block chamber 74 Sliding is provided with jacking block 39, and the lower end of the jacking block 39 is fixedly connected with lift shaft 36, in the downside of the jacking block chamber 74 The lifting chamber 38 that Open Side Down is provided in wall, the lower end of the lift shaft 36, which extends, to be passed through in the lifting chamber 38 and pass through It is threadedly engaged and is connected with lifting gear 37, the lifting gear 37 is fixed with shaft and shaft is rotatably assorted by bearing and is connected to On the downside inner wall of the lifting chamber 38, what the downside inner wall of the working chamber 23 was connected is provided with annular chamber 75, the liter The lower end of drop shaft 36, which extends, to be passed through in the annular chamber 75, and being provided in the lifting chamber 38 of the left end can be with the lifting tooth The first gear 22 that wheel 37 is meshed, the first gear 22 are fixedly connected with first rotating shaft 24, the downside of the working chamber 23 It is provided with first turn of chamber 76 in inner wall, the lower end of the first rotating shaft 24, which extends, is passed through in first turn of chamber 76 and is arranged with the One belt 25, the drive of the first belt 25 have the second shaft 26, the lower end of second shaft 26 and the power device phase Connection, is provided with the second gear 71 that can be meshed with the lifting gear 37 in the lifting chamber 38 of the front end, and described second Gear 71 is fixedly connected with third shaft 67, and second turn of chamber 66, the third are provided in the downside inner wall of the working chamber 23 The lower end of shaft 67, which extends, is passed through in second turn of chamber 66 and is arranged with the second belt 65, and the drive of the second belt 65 has the The lower end of four shafts 64, the 4th shaft 64 is connected with the power device.

Valuably or illustratively, the power device includes the motor 31 being fixedly installed in described device main body 11, The 31 upper and lower side power of motor is connected with the 5th shaft 21, is provided with third in the upper inside walls of the motor 31 and turns chamber 33, the upper end of the 5th shaft 21, which extends, to be passed through the third and turns in chamber 33 and be fixedly connected with the first ratchet 32, and described the The first handle ratchet wheel 34 with 32 one way engagement of the first ratchet is provided in three turns of chambers 33, first handle ratchet wheel 34 is fixed to be connected It is connected to switch block shaft 35, the 4th turn of chamber 29 is provided in the downside inner wall of the motor 31, the lower end of the 5th shaft 21 is prolonged It stretches and is passed through in the 4th turn of chamber 29 and is fixedly connected with the second ratchet 28, be provided with and described second in the 4th turn of chamber 29 Second handle ratchet wheel 30 of one way engagement in ratchet 28 is provided in the 4th turn of chamber 29 and is meshed with second handle ratchet wheel 30 Third gear 27, the third gear 27 is fixedly connected with second shaft 26, be provided in the 4th turn of chamber 29 with The 4th gear 63 that second handle ratchet wheel 30 is meshed, the 4th gear 63 are fixedly connected with the 4th shaft 64.

Valuably or illustratively, the conveyer includes the 5 be set in the downside inner wall of the working chamber 23 Turn chamber 68, be arranged with third belt 69 in the 5th turn of chamber 68 in the third shaft 67, the drive of third belt 69 has 6th shaft 70, the 6th turn of chamber 73 is provided in the upper inside walls of the working chamber 23, and the upper end of the 6th shaft 70 extends It is passed through in the 6th turn of chamber 73 and is rotatably assorted in the upper inside walls for being connected to the 6th turn of chamber 73 by bearing, described the The 4th belt 46 is arranged in six turns of chambers 73 in the 6th shaft liquid reservoir 60, the 4th belt 46 drive has the 7th turn Axis 47 is provided with the 7th turn of chamber 48 in the upper inside walls of the 6th turn of chamber 73, and the upper end of the 7th shaft 47, which extends, to be passed through In the 7th turn of chamber 48 and it is fixedly connected with half tooth 49, is provided in the 7th turn of chamber 48 and is meshed with half tooth 49 Rack gear 80, the transmission gear 50 being meshed with the rack gear 80 is provided in the 7th turn of chamber 48, and the transmission gear 50 is solid Surely it is connected with eight revolution axis 14, the mobile cavity 15 of opening to the left, described device are provided in the upper inside walls of the working chamber 23 The left end of main body 11 is fixedly connected with extension block 12, is provided with that Open Side Down in the extension block 12 and right side and the mobile cavity 15 extended cavities 13 being connected, the left end of the eight revolution axis 14, which extends, to be passed through in the extended cavity 13 and is matched by bearing rotation Conjunction is connected in the inner left wall of the extended cavity 13, is threadedly engaged and is connected on the eight revolution axis 14 in the mobile cavity 15 The movable block 17 that can be horizontally slipped in the mobile cavity 15, the movable block 17 is interior and its right end is provided with bindiny mechanism.

Valuably or illustratively, the bindiny mechanism includes the eight revolution chamber 16 being set in the movable block 17, institute It states and is rotatably provided with third hand tap gear 59 in eight revolution chamber 16, the third hand tap gear 59 is fixedly connected with screw rod 18, institute The lower end for stating screw rod 18, which extends, to be passed through in the mobile cavity 15 and transports block 19, the transport block 19 by being threadedly engaged to be connected with Lower end be fixedly connected with sucker 20, be provided in the eight revolution chamber 16 be meshed with the third hand tap gear 59 the 4th cone Gear 58, the 4th bevel gear 58 are fixedly connected with connecting shaft 57, and the connecting shaft extension is passed through in the mobile cavity 15 simultaneously It is fixedly connected with the 5th bevel gear 56, the 9th turn of chamber 77, the 9th turn of chamber are provided in the right side inner wall of the mobile cavity 15 It is arranged with the 5th belt 52 on the eight revolution axis 14 in 77, the 5th belt 52 drive has the 9th shaft 51, and described the The left end of nine shafts 51, which extends, to be passed through in the mobile cavity 15 and is arranged with drive block 78, is provided in the drive block 78 up and down Symmetrical sliding slot 53, the left end of the 9th shaft 51 extend be passed through in the drive block 78 and upper and lower side be fixedly connected with can be The sliding block 54 to horizontally slip in the sliding slot 53, the left end of the drive block 78, which is provided with, to nibble with 56 phase of the 5th bevel gear The conical socket 55 of conjunction is fixedly connected with spring between the right end of the drive block 78 and the right side inner wall of the mobile cavity 15 79。

Valuably or illustratively, the pressure setting includes the hydraulic cylinder being fixedly installed in described device main body 11 45,45 power of hydraulic cylinder is connected with hydraulic inner prop 44, is provided in the downside inner wall of the hydraulic inner prop 44 and institute The compression chamber 42 that working chamber 23 is connected is stated, is slidably provided in the compression chamber 42 and the fixed company of the hydraulic inner prop 44 The briquetting 43 connect is provided with liquid reservoir 60 in described device main body 11, and the lower end of the liquid reservoir 60 is connected with pipeline 61, The control of pipeline 61 has switch 62, and the pipeline 61 can be connected with the forming cavity 40, be connected on the upside of the working chamber 23 Logical is provided with the cooling chamber 72 being connected with the mobile cavity 15.

When present apparatus work, switch 62 controls glass metal in liquid reservoir 60 and enters forming cavity 40, starts motor 31, band Dynamic 5th shaft 21 rotation drives the rotation of the first ratchet 32, and then drives the rotation of the first handle ratchet wheel 34, and then drive switch block shaft 35 rotations, and then switch block 41 is driven to rotate a quarter circle, at this point, hydraulic cylinder 45 starts, and then driven with hydrodynamic pressure inner prop 44 Briquetting 43, which moves down, suppresses glass metal in forming cavity 40, and after a certain period of time, hydraulic cylinder 45 is with 44 band of hydrodynamic pressure inner prop Dynamic pressure block 43 is certain upwards, at this point, starting motor 31, drives the rotation of the 5th shaft 21 to drive the rotation of the first ratchet 32, and then band Dynamic first handle ratchet wheel 34 rotation, and then drive switch block shaft 35 to rotate, and then switch block 41 is driven to rotate a quarter circle, forming cavity Glass enters the cooling and shaping of cooling chamber 72 in 40, and the reversion of motor 31 at this time drives the rotation of the 5th shaft 21, and then drives the second spine 28 rotation of wheel, and then the rotation of the second handle ratchet wheel 30 is driven, and then drive the rotation of the 4th gear 63, and then drive 64 turns of the 4th shaft It is dynamic, and then the rotation of the second belt 65 is driven, and then third shaft 67 is driven to rotate, and then second gear 71 is driven to rotate, in turn It drives lifting gear 37 to rotate, and then lift shaft 36 is driven to move up, and then drive jacking block 39 to move up to form glass Glass ejects forming cavity 40, at this point, motor 31 inverts, drives the rotation of the 5th shaft 21, and then drive the rotation of the first ratchet 32, in turn It drives the first handle ratchet wheel 34 to rotate, and then switch block shaft 35 is driven to rotate, and then switch block 41 is driven to rotate a quarter circle, motor 31 reversions drive the rotation of the 5th shaft 21, and then drive the rotation of the second ratchet 28, and then drive the rotation of the second handle ratchet wheel 30, into And the rotation of the 4th gear 63 is driven, and then drive the rotation of the 4th shaft 64, and then drive the rotation of the second belt 65, and then drive the The rotation of three shafts 67, and then drive third belt 69 to rotate, and then drive the rotation of the 6th shaft 70, and then drive the 4th belt 46 Rotation, and then the rotation of the 7th shaft 47 is driven, and then drive the rotation of half tooth 49, and then rotate with carry-over bar 80, and then drive and pass Moving gear 50 rotates, and then eight revolution axis 14 is driven to rotate, and then movable block 17 is driven to be moved to the left, and then drives and transport block 19 It is moved to the left, and then drives sucker 20 that formed glass is driven to be moved to the left extraneous storage, while the second handle ratchet wheel 30 rotates band Dynamic third gear 27 rotates, and then drives the rotation of the second shaft 26, and then drives the rotation of the first belt 25, and then drive first turn Axis 24 rotates, and then first gear 22 is driven to rotate, and then lifting gear 37 is driven to rotate, and then drives lift shaft 36 downward It is mobile, and then jacking block 39 is driven to move down, at this point, the starting of motor 31 drives the rotation of the 5th shaft 21 to drive 32 turns of the first ratchet It is dynamic, and then the rotation of the first handle ratchet wheel 34 is driven, and then switch block shaft 35 is driven to rotate, and then switch block 41 is driven to rotate a quarter Enclose 60 lower section of liquid reservoir.

The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, glass is suppressed in the automatable drive of the present apparatus Glass molding, automatic structure is compact, passes through four side working chambers of round switch block, the compacting of formed glass, cooling ejection, Yi Jiyun Progress can be synchronized by sending, and can be worked long hours, and automation is high-efficient, and device inner sealing, press temperature is controllable, and glass is suppressed more Increase effect, same power, which drives, guarantees each work step synchronous operation.

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 pressed glass rapid molding device, including apparatus main body, it is set to the intracorporal transmission device of described device master, sets It is placed in the intracorporal conveyer of described device master and is set to the intracorporal pressure setting of described device master, in the transmission device It is provided with power device, the power device has been connected by power switch block, and the switch block annular array arrangement has forming cavity, described Conveyer, which is connect by belt with the power device, passes through Bevel Gear Transmission, moving up and down in the conveyer to set It is equipped with transport block, the transport block lower end is fixedly connected with sucker, and the square glass that sucker can finish molding adsorbs, institute It states and transports block by shaft thread mating connection on the transport sliding block movable block that can be horizontally slipped, the pressure setting includes solid Surely it is set to the intracorporal hydraulic cylinder of described device master, hydraulic cylinder lower end power is connected with hydraulic inner prop, described hydraulic Inner prop lower end is fixedly connected with the briquetting that compacting shaping can be carried out to substance in forming cavity, is provided with and moves in the conveyer The jacking block for making to form the abjection of square glass in forming cavity that power device is cooperatively connected by belt.

2. a kind of pressed glass rapid molding device according to claim 1, it is characterised in that: the transmission device includes It is set to the intracorporal power device of described device master, working chamber is provided in the upper inside walls in the power device, it is described dynamic Switch block shaft is provided in power device, the upper end of the switch block shaft extends to be passed through in the working chamber and be fixedly connected with and turn Block, the switch block annular array arrangement have forming cavity, and what is be connected in the downside inner wall of the forming cavity is provided with jacking block chamber, The jacking block is intracavitary to be slidably provided with jacking block, and the lower end of the jacking block is fixedly connected with lift shaft, the jacking block chamber It is provided with the lifting chamber that Open Side Down in the inner wall of downside, the lower end of the lift shaft extends that be passed through the lifting intracavitary and pass through Be threadedly engaged and be connected with lifting gear, the lifting gear is fixed with shaft and shaft is rotatably assorted by bearing be connected to it is described On the downside inner wall for going up and down chamber, what the downside inner wall of the working chamber was connected be provided with annular chamber, under the lift shaft End, which extends, to be passed through in the annular chamber, and the lifting of the left end is intracavitary to be provided with the first tooth that can be meshed with the lifting gear Wheel, the first gear is fixedly connected with first rotating shaft, is provided with first turn of chamber in the downside inner wall of the working chamber, and described the The lower end of one shaft extend be passed through described first turn it is intracavitary and be arranged with the first belt, the first belt drive has second turn The lower end of axis, second shaft is connected with the power device, and intracavitary be provided with of the lifting of the front end can be with the liter The second gear that is meshed of drop gear, the second gear are fixedly connected with third shaft, in the downside inner wall of the working chamber Be provided with second turn of chamber, the lower end of the third shaft extend be passed through described second turn it is intracavitary and be arranged with the second belt, it is described The drive of second belt has the 4th shaft, and the lower end of the 4th shaft is connected with the power device.

3. a kind of pressed glass rapid molding device according to claim 1, it is characterised in that: the power device includes It is fixedly installed on the intracorporal motor of described device master, the motor upper and lower side power is connected with the 5th shaft, the motor Upper inside walls in be provided with third and turn chamber, the upper end of the 5th shaft, which extends, to be passed through the third and turns intracavitary and be fixedly connected There is the first ratchet, the third turns intracavitary and is provided with the first handle ratchet wheel engaged with first ratchet one-way, in described first Ratchet is fixedly connected with switch block shaft, and the 4th turn of chamber, the lower end of the 5th shaft are provided in the downside inner wall of the motor Extension be passed through described 4th turn it is intracavitary and be fixedly connected with the second ratchet, described 4th turn intracavitary to be provided with and second ratchet Second handle ratchet wheel of interior one way engagement, described 4th turn intracavitary to be provided with the third gear being meshed with second handle ratchet wheel, The third gear is fixedly connected with second shaft, and described 4th turn intracavitary be provided with is meshed with second handle ratchet wheel The 4th gear, the 4th gear is fixedly connected with the 4th shaft.

4. a kind of pressed glass rapid molding device according to claim 1, it is characterised in that: the conveyer includes The 5th turn of chamber being set in the downside inner wall of the working chamber is arranged with third in the 5th turn of intracavitary third shaft Belt, third belt drive have the 6th shaft, are provided with the 6th turn of chamber in the upper inside walls of the working chamber, and the described 6th The upper end of shaft extend be passed through described 6th turn it is intracavitary and be rotatably assorted in the upside for being connected to the 6th turn of chamber by bearing On wall, it is arranged with the 4th belt in the 6th turn of intracavitary 6th shaft liquid reservoir, the 4th belt drive has the Seven shafts, are provided with the 7th turn of chamber in the upper inside walls of the 6th turn of chamber, the upper end of the 7th shaft extend be passed through it is described 7th turn is intracavitary and be fixedly connected with half tooth, and described 7th turn intracavitary to be provided with the rack gear being meshed with half tooth, and described Seven turns intracavitary to be provided with the transmission gear being meshed with the rack gear, and the transmission gear is fixedly connected with eight revolution axis, described The mobile cavity of opening to the left is provided in the upper inside walls of working chamber, the left end of described device main body is fixedly connected with extension block, The extended cavity that Open Side Down and right side is connected with the mobile cavity, the left end of the eight revolution axis are provided in the extension block Extension is passed through in the extended cavity and is rotatably assorted in the inner left wall for being connected to the extended cavity by bearing, the mobile cavity Be threadedly engaged the movable block that is connected with and can horizontally slip in the mobile cavity on the interior eight revolution axis, in the movable block and Its right end is provided with bindiny mechanism.

5. a kind of pressed glass rapid molding device according to claim 1, it is characterised in that: the bindiny mechanism includes The eight revolution chamber being set in the movable block, the eight revolution is intracavitary to be rotatably provided with third hand tap gear, the third Bevel gear is fixedly connected with screw rod, and the lower end of the screw rod, which extends, to be passed through in the mobile cavity and be connected with fortune by being threadedly engaged Block is sent, the lower end for transporting block is fixedly connected with sucker, and intracavitary be provided with of the eight revolution is mutually nibbled with the third hand tap gear The 4th bevel gear closed, the 4th bevel gear are fixedly connected with connecting shaft, and the connecting shaft extension is passed through in the mobile cavity And it is fixedly connected with the 5th bevel gear, it is provided with the 9th turn of chamber in the right side inner wall of the mobile cavity, described 9th turn is intracavitary The 5th belt is arranged on the eight revolution axis, the 5th belt drive has the 9th shaft, and the left end of the 9th shaft is prolonged It stretches and is passed through in the mobile cavity and is arranged with drive block, be provided with sliding slot symmetrical above and below in the drive block, described 9th turn The left end extension of axis is passed through in the drive block and upper and lower side is fixedly connected with the sliding block that can be horizontally slipped in the sliding slot, institute The left end for stating drive block is provided with the conical socket that can be meshed with the 5th bevel gear, the right end of the drive block with it is described Spring is fixedly connected between the right side inner wall of mobile cavity.

6. a kind of pressed glass rapid molding device according to claim 1, it is characterised in that: the pressure setting includes It is fixedly installed on the intracorporal hydraulic cylinder of described device master, the hydraulic cylinder power is connected with hydraulic inner prop, described hydraulic interior It is provided with the compression chamber being connected with the working chamber in the downside inner wall of column, is slidably provided in the compression chamber and institute The briquetting that hydraulic inner prop is fixedly connected is stated, liquid reservoir, the lower end connection of the liquid reservoir are provided in described device main body There is pipeline, the pipe control has switch, and the pipeline can be connected with the forming cavity, is connected on the upside of the working chamber It is provided with the cooling chamber being connected with the mobile cavity.