CN109293224A - A kind of glass press device - Google Patents

Abstract

The invention discloses a kind of glass press devices, including press device, flowing water chamber and mobile clamping chamber, conveying mechanism is equipped in the flowing water chamber, the conveying mechanism is used to transport glass melting material and finished glass, and the conveying mechanism is driven by the conveying power control mechanism for being set to conveying power cavity；Apparatus of the present invention high degree of automation, collaborative work ability is strong, achieve the effect that each components of switching control by the power distribution and delay linking engagement of the same power source, the functions such as shearing, compacting required for glass product compression moulding in the process and transport are able to achieve, removable manual labor greatly reduces labor intensity, improve equipment work efficiency, apparatus of the present invention lean on motor driven simultaneously, and use cost is lower, value for applications with higher.

Description

A kind of glass press device

Technical field

The present invention relates to glass working arts field, specifically a kind of glass press device.

Background technique

There are commonly the techniques production such as blowing, pressing, get rid of in glass processing field, for pressing process, use is hydraulic The problem that the press device technological level of (or air pressure) is bad, compression distance is uncontrollable still exists；

Glass press device now still cannot remove artificial participation, and yield rate is not high；

In addition, the glass press device in existing has multiple power sources mostly, equipment use cost is considerably increased, simultaneously Cooperation ability is also reduced, there are larger drawback, needs to improve.

Summary of the invention

Deficiency in view of the above technology, the invention proposes a kind of glass press devices.

A kind of glass press device of the invention, including press device, flowing water chamber and mobile clamping chamber, in the flowing water chamber Equipped with conveying mechanism, the conveying mechanism is used to transport glass melting material and finished glass, and the conveying mechanism is by being set to conveying The conveying power control mechanism of power cavity drives, and further includes having the molding being set in down-pressing forming chamber dynamic in the press device Power conveying mechanism and down-pressing forming mechanism, the down-pressing forming mechanism can be by the glass raw material compression mouldings of melting, under described Molded mechanism further includes being set to the movement in the press device by molding power transmission mechanism drive control The mobile gripping body in chamber is clamped, the mobile gripping body can clamp shaping mould, further include folder in the press device Power control mechanism is taken, the mobile gripping body is controlled by the clamping power control mechanism and moved, in the press device It further include releasing chamber, the release chamber is additionally provided with ejecting mechanism, and the ejecting mechanism can push away the glassware of compression moulding The press device out, power distribution control mechanism is additionally provided in the press device, and the power distribution control mechanism includes The conveying power control mechanism, the molding power transmission mechanism and the clamping power control mechanism, the power distribution Motor is equipped in control mechanism.

It preferably, include being set in the first power cavity and being connected by power in the electricity in the power distribution control mechanism The power input shaft of machine right side is equipped in first power cavity and is fixedly connected on the first main of the power input shaft right end Dynamic bevel gear, rotation is equipped with the first power transmission shaft in first power cavity, is equipped with and is fixedly connected in first power cavity The first driven wheel of differential in first power transmission shaft upper end, first driven wheel of differential and first active conical tooth Wheel engages, and the first driving wheel for being fixedly connected on first power transmission shaft lower end is equipped in first power cavity, described Vertical direction rotation is equipped with the second power transmission shaft extended downward into the conveying power cavity in first power cavity, and described the It is equipped with the first driven wheel being fixedly connected on second power transmission shaft in one power cavity, is equipped in first power cavity It is fixedly connected on the distribution drive bevel gear of second power transmission shaft upper end, is equipped with and is fixedly connected in the conveying power cavity Conveying drive bevel gear in second power transmission shaft lower end, the first power cavity front and back wall body transfer is dynamic to be equipped with third Power transmission shaft is equipped with the distribution that is fixedly connected on the third power transmission shaft in first power cavity from mantle tooth Wheel, the distribution driven wheel of differential are engaged with the distribution drive bevel gear, are equipped with and are fixedly connected in first power cavity The cam of third power transmission shaft front end；

Wherein, rotation is equipped with the 4th power transmission shaft in first power cavity, is equipped with and is fixedly connected in first power cavity Driven wheel of differential, the second distribution driven wheel of differential and the distribution are distributed in the second of the 4th power transmission shaft lower end Driven wheel of differential engagement, the first power cavity right side are additionally provided with sliding cavity, and sliding is equipped with sliding block, the cunning in the sliding cavity Block is fixedly connected by spring with the sliding cavity wall, and sliding is equipped with cutter in first power cavity, and the cutter passes through Link block is fixedly connected with the sliding block, and the cutter is connect with the cam engagement, is equipped with and is fixed in first power cavity It is connected to the distribution driving pulley of the 4th power transmission shaft upper end.

Preferably, the conveying power control mechanism includes defeated in wall body before and after being rotatably dispose in the conveying power cavity Shaft is sent, is equipped in the conveying power cavity and is fixedly connected on half gear conveyed in shaft, in the conveying power cavity Equipped with the conveying driven wheel of differential for being fixedly connected on the conveying shaft front end, the conveying driven wheel of differential and the conveying are led Dynamic bevel gear engagement, the conveying power cavity front and back wall body transfer is dynamic to be equipped with the second conveying shaft, sets in the conveying power cavity There is driven half gear being fixedly connected in the second conveying shaft, driven half gear is engaged with half gear half, The conveying driving pulley for being fixedly connected on second conveying shaft front end, the conveying power are equipped in the conveying power cavity Wall body transfer is dynamic before and after chamber is equipped with feed drive axis, is equipped with and is fixedly connected on the feed drive axis in the conveying power cavity Idler wheel, idler wheel driving conveyer belt operating, equipped with before being fixedly connected on the feed drive axis in the conveying power cavity The conveying driven pulley at end, the conveying driven pulley are connect with the conveying driving pulley by belt, the conveying power The bracket being fixedly connected on the conveyer belt is laid in chamber, the bracket is equipped with shaping mould, the sliding cavity right side Equipped with melting material pipe.

Preferably, it is described molding power transmission mechanism include be rotatably dispose in the down-pressing forming chamber first molding it is defeated Axis is sent, the translation driving pulley being fixedly connected on the first molding conveying axis is equipped in the down-pressing forming chamber, under described The distribution driven pulley for being fixedly connected on first molding conveying axis upper end, the distribution driven pulley are equipped in molded chamber It is connect with the distribution driving pulley by belt, is equipped in the down-pressing forming chamber and is fixedly connected on the first molding conveying The molding driving wheel of axis lower end, sliding is equipped with connecting rod in the down-pressing forming chamber, is equipped with rotation in the down-pressing forming chamber and connects It is connected to the molding driven wheel of the connecting rod upper end, the molding driven wheel is engaged with the molding driving wheel, the flowing water chamber Sliding is equipped with forming slide in bottom wall, and the forming slide is fixedly connected by forming spring with flowing water bottom of chamber wall, described Forming slide upper surface is fixedly connected with mandril, and rotation is equipped with the second molding conveying axis, the pushing in the down-pressing forming chamber It is equipped with the second molding driven wheel being fixedly connected on the second molding conveying axis in forming cavity, is set in the down-pressing forming chamber There is the molding drive bevel gear for being fixedly connected on second molding conveying axis upper end, fixed connect is equipped in the down-pressing forming chamber It is connected to the transmitting driving pulley of second molding conveying axis lower end, rotation is equipped with third molding conveying in the down-pressing forming chamber Axis, is equipped with the molding driven wheel of differential being fixedly connected on the third molding conveying axis in the down-pressing forming chamber, it is described at Type driven wheel of differential is engaged with the molding drive bevel gear, in the down-pressing forming chamber be equipped be fixedly connected on the third at The elevating arc of type conveying axis front end；

Wherein, it is equipped on the right side of the down-pressing forming chamber and pushes sliding cavity, sliding, which is equipped with, in the pushing sliding cavity pushes sliding block, institute It states pushing sliding block to be fixedly connected by lower pressing spring with the pushing sliding cavity bottom, the pushing sliding block left surface is fixedly connected There is pushing rack gear, the pushing rack gear engages with the elevating arc interval, is equipped in the down-pressing forming chamber and is fixedly connected on institute The pushing convex block for pushing rack gear lower end is stated, sliding is equipped with symmetrical anti-overflow sliding block, the anti-overflow cunning in the pushing convex block Block is fixedly connected by anti-overflow spring with the pushing convex block, and the anti-overflow sliding block left surface is fixedly connected with spill plate, described Down-pressing forming chamber, which rotates, is equipped with the first clamping conveying axis, defeated equipped with first clamping is fixedly connected in the down-pressing forming chamber The clamping drive bevel gear of axis upper end is sent, is equipped in the down-pressing forming chamber and is fixedly connected on first clamping conveying axis lower end Transmitting driven pulley, the transmitting driven pulley connect with the transmitting driving pulley by belt；

Wherein, rotation is equipped with the second clamping conveying axis extended right up in the release chamber in the down-pressing forming chamber, described It is equipped with the clamping driving wheel being fixedly connected on the second clamping conveying axis in down-pressing forming chamber, is set in the down-pressing forming chamber There are the clamping driven wheel of differential for being fixedly connected on second clamping conveying axis left end, the clamping driven wheel of differential and the folder Drive bevel gear is taken to engage, rotation is equipped with third and clamps conveying axis in the down-pressing forming chamber, is equipped in the down-pressing forming chamber The clamping driven wheel being fixedly connected on the third clamping conveying axis, the clamping driven wheel are nibbled with the clamping driving wheel It closes, is equipped in the down-pressing forming chamber and is fixedly connected on the third clamping conveying axis and is located at the clamping driven wheel right end Full meshing gear, sliding, which is equipped with just to have, in the down-pressing forming chamber extends to the mobile translation transmission shaft for clamping chamber, described The second driven wheel of clamping being fixedly connected on the translation transmission shaft, the second driven wheel of the clamping are equipped in down-pressing forming chamber It is engaged with the full meshing gear movement.

Preferably, the power distribution control mechanism further includes translational power chamber, rotates and is equipped in the translational power chamber Shaft is transmitted, the translation driven pulley for being fixedly connected on the transmitting shaft lower end is equipped in the translational power chamber, it is described flat It moves driven pulley to connect with the translation driving pulley by belt, is equipped in the translational power chamber and is fixedly connected on the biography The translation drive bevel gear of shaft upper end is passed, is rotated in the translational power chamber and is equipped with the second shaft, in the translational power chamber Equipped with the translation driven wheel of differential being fixedly connected in second shaft, second shaft front end is equipped with connecting rod, the company Bar left end is hinged with connecting rod, and sliding is equipped with translator slider in the translational power chamber, and the translator slider left end is fixedly connected Have push rod, the push rod and the connecting rod right end are hinged, the translator slider lower end by drop-down spring with it is symmetrical Gripping arm is fixedly connected.

Preferably, the mobile gripping body includes the clamping spring being set in the mobile clamping chamber, the clamping It is fixedly connected, is equipped in the mobile clamping chamber under being fixedly connected on the right side of the gripping arm on the inside of spring and the gripping arm Rack gear is drawn, the rotation cam being fixedly connected on the translation transmission shaft, the mobile clamping are equipped in the mobile clamping chamber What chamber was equipped with is fixedly connected on the translation transmission shaft and the drop-down drive bevel gear on the right side of the rotation cam, the shifting Horizontal sliding is equipped with the link block for being rotationally connected with the translation transmission shaft right end in dynamic clamping chamber, sets in the mobile clamping chamber There is the shaft being rotationally connected on the link block, is equipped with the drop-down being fixedly connected in the shaft in the mobile clamping chamber Driven wheel of differential, the drop-down driven wheel of differential are engaged with the drop-down drive bevel gear, are equipped in the mobile clamping chamber solid Surely the drop-down driving pulley for being connected to the shaft and being located on rear side of the drop-down driven wheel of differential, mobile clamp in chamber are slided Dynamic to be equipped with translator slider, the translator slider is equipped with rotation in the mobile clamping chamber and connects by pushing connecting rod and the cooperation The drop-down shaft being connected in the translator slider, the movement clamp in chamber equipped under being fixedly connected in the drop-down shaft Driven pulley is drawn, the drop-down driven pulley is connect with the drop-down driving pulley by belt, is set in the mobile clamping chamber There are double of the gear of drop-down for being fixedly connected on the drop-down shaft and being located on front side of the drop-down driven pulley, the drop-down rack gear It is engaged with described double of gear mesh of drop-down half.

Preferably, the ejecting mechanism includes being slideably positioned in the release sliding block released in chamber, in the release chamber Equipped with the turntable for being fixedly connected on the second clamping conveying axis right end, it is equipped in the release chamber and is articulated with the release sliding block The push-off pin of upper surface, the push-off pin upper end and the right surface of the turntable are hinged.

In conclusion apparatus of the present invention high degree of automation, collaborative work ability is strong, passes through the power point of the same power source Match and the linking engagement that is delayed is to achieve the effect that each components of switching control, needed for being able to achieve during glass product compression moulding The functions such as shearing, compacting and the transport wanted can remove manual labor, greatly reduce labor intensity, improve equipment work effect Rate, while apparatus of the present invention lean on motor driven, use cost is lower, value for applications with higher.

Detailed description of the invention

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of overall structure diagram of glass press device of the invention；

Fig. 2 is structural schematic diagram at A in Fig. 1；

Fig. 3 is structural schematic diagram at B in Fig. 1；

Fig. 4 is structural schematic diagram at C-C in Fig. 1；

Fig. 5 is structural schematic diagram at D-D in Fig. 1.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

As shown in Figs. 1-5, a kind of glass press device of the invention, including press device 100, flowing water chamber 301 and movement Chamber 501 is clamped, conveying mechanism is equipped in the flowing water chamber 301, the conveying mechanism is used to transport glass melting material and finished glass, The conveying mechanism is driven by the conveying power control mechanism for being set to conveying power cavity 201, is also wrapped in the press device 100 The molding power transmission mechanism and down-pressing forming mechanism being set in down-pressing forming chamber 401 are included, the down-pressing forming mechanism can With the glass raw material compression moulding that will be melted, the down-pressing forming mechanism is by molding power transmission mechanism drive control, institute State further includes having the mobile gripping body being set in the mobile clamping chamber 501, the mobile catching device in press device 100 Structure can clamp shaping mould 302, further include clamping power control mechanism, the mobile gripping body in the press device 100 It is controlled and is moved by the clamping power control mechanism, further include releasing chamber 701, the release chamber 701 in the press device 100 It is additionally provided with ejecting mechanism, the glassware of compression moulding can be released the press device 100, the pressure by the ejecting mechanism Power distribution control mechanism is additionally provided in control equipment 100, the power distribution control mechanism includes the conveying dynamic Control machine Structure, the molding power transmission mechanism and the clamping power control mechanism, the power, which distributes, is equipped with motor in control mechanism 121。

It valuably, include being set in the first power cavity 101 and being connected by power in institute in the power distribution control mechanism The power input shaft 110 of 121 right side of motor is stated, is equipped in first power cavity 101 and is fixedly connected on the power input First drive bevel gear 109 of 110 right end of axis, rotation is equipped with the first power transmission shaft 111, institute in first power cavity 101 The first driven wheel of differential 108 for being equipped in the first power cavity 101 and being fixedly connected on 111 upper end of the first power transmission shaft is stated, First driven wheel of differential 108 is engaged with first drive bevel gear 109, is equipped with and is fixed in first power cavity 101 It is connected to the first driving wheel 112 of 111 lower end of the first power transmission shaft, vertical direction turns in first power cavity 101 It is dynamic to be equipped with the second power transmission shaft 114 extended downward into the conveying power cavity 201, it is set in first power cavity 101 There is the first driven wheel 113 being fixedly connected on second power transmission shaft 114, is equipped in first power cavity 101 solid Surely it is connected to the distribution drive bevel gear 107 of 114 upper end of the second power transmission shaft, is equipped in the conveying power cavity 201 It is fixedly connected on the conveying drive bevel gear 202 of 114 lower end of the second power transmission shaft, 101 front and back of the first power cavity Rotation is equipped with third power transmission shaft 105 in wall body, is equipped in first power cavity 101 and is fixedly connected on the third power Distribution driven wheel of differential 104 on transmission shaft 105, the distribution driven wheel of differential 104 are nibbled with the distribution drive bevel gear 107 It closes, the cam 106 for being fixedly connected on 105 front end of third power transmission shaft is equipped in first power cavity 101；

Wherein, rotation is equipped with the 4th power transmission shaft 102 in first power cavity 101, is equipped in first power cavity 101 It is fixedly connected on the second distribution driven wheel of differential 103 of 102 lower end of the 4th power transmission shaft, described second distributes from mantle Gear 103 is engaged with the distribution driven wheel of differential 104, and sliding cavity 120 is additionally provided on the right side of first power cavity 101, described Sliding is equipped with sliding block 117 in sliding cavity 120, and the sliding block 117 is fixedly connected by spring 119 with 120 inner wall of sliding cavity, Sliding is equipped with cutter 115 in first power cavity 101, and the cutter 115 is fixed by link block 116 and the sliding block 117 Connection, the cutter 115 are cooperatively connected with the cam 106, are equipped in first power cavity 101 and are fixedly connected on described the The distribution driving pulley 122 of four power transmission shafts, 102 upper end.

Valuably, the conveying power control mechanism includes being rotatably dispose in the 201 front and back wall body of conveying power cavity Conveying shaft 204, it is described conveying power cavity 201 in be equipped be fixedly connected on it is described conveying shaft 204 on half gear 205, The conveying driven wheel of differential 203 for being fixedly connected on conveying 204 front end of shaft is equipped in the conveying power cavity 201, it is described Conveying driven wheel of differential 203 is engaged with the conveying drive bevel gear 202, and the 201 front and back wall body transfer of conveying power cavity is dynamic Equipped with the second conveying shaft 208, it is equipped with and is fixedly connected in the second conveying shaft 208 in the conveying power cavity 201 Driven half gear 206, driven half gear 206 are engaged with half gear 205 half, are equipped in the conveying power cavity 201 It is fixedly connected on the conveying driving pulley 207 of second conveying, 208 front end of shaft, the 201 front and back wall body of conveying power cavity Middle rotation is equipped with feed drive axis 210, is equipped with and is fixedly connected on the feed drive axis 210 in the conveying power cavity 201 Idler wheel 209, the idler wheel 209 drives conveyer belt 123 to operate, is equipped with described in being fixedly connected in the conveying power cavity 201 The conveying driven pulley 211 of 210 front end of feed drive axis, the conveying driven pulley 211 and the conveying driving pulley 207 are logical Belt connection is crossed, is laid with the bracket 303 being fixedly connected on the conveyer belt 123 in the conveying power cavity 201, it is described Bracket 303 is equipped with shaping mould 302, is equipped with melting material pipe 304 on the right side of the sliding cavity 120.

Valuably, the molding power transmission mechanism includes the first one-tenth be rotatably dispose in the down-pressing forming chamber 401 Type conveying axis 407 is equipped with the translation master being fixedly connected on the first molding conveying axis 407 in the down-pressing forming chamber 401 Movable belt pulley 435, be equipped in the down-pressing forming chamber 401 be fixedly connected on the distribution of first molding, 407 upper end of conveying axis from Movable belt pulley 406, the distribution driven pulley 406 are connect with the distribution driving pulley 122 by belt, the down-pressing forming chamber The molding driving wheel 409 for being fixedly connected on first molding, 407 lower end of conveying axis, the down-pressing forming chamber 401 are equipped in 401 Middle sliding is equipped with connecting rod 412, is equipped with the molding for being rotationally connected with 412 upper end of connecting rod in the down-pressing forming chamber 401 Driven wheel 410, the molding driven wheel 410 are engaged with the molding driving wheel 409, are slided and are set in 301 bottom wall of flowing water chamber There is forming slide 420, the forming slide 420 is fixedly connected by forming spring 440 with 301 bottom wall of flowing water chamber, described 420 upper surface of forming slide is fixedly connected with mandril 419, and rotation is equipped with the second molding conveying axis in the down-pressing forming chamber 401 408, the second molding driven wheel being fixedly connected on the second molding conveying axis 408 is equipped in the down-pressing forming chamber 401 411, the molding active conical tooth for being fixedly connected on second molding, 408 upper end of conveying axis is equipped in the down-pressing forming chamber 401 405 are taken turns, the transmitting main belt for being fixedly connected on second molding, 408 lower end of conveying axis is equipped in the down-pressing forming chamber 401 413 are taken turns, rotation is equipped with third and forms conveying axis 404 in the down-pressing forming chamber 401, is equipped with admittedly in the down-pressing forming chamber 401 Surely the molding driven wheel of differential 403 being connected on the third molding conveying axis 404, the molding driven wheel of differential 403 and institute It states molding drive bevel gear 405 to engage, is equipped in the down-pressing forming chamber 401 and is fixedly connected on the third molding conveying axis The elevating arc 402 of 404 front ends；

Wherein, it is equipped on the right side of the down-pressing forming chamber 401 and pushes sliding cavity 424, slided and be equipped with down in the pushing sliding cavity 424 Sliding block 422 is pressed, the pushing sliding block 422 is fixedly connected by lower pressing spring 423 with 424 bottom of pushing sliding cavity, described It pushes 422 left surface of sliding block and is fixedly connected with pushing rack gear 421, the pushing rack gear 421 is nibbled with 402 interval of elevating arc It closes, is equipped in the down-pressing forming chamber 401 and is fixedly connected on the pushing convex block 418 for pushing 421 lower end of rack gear, the pushing Sliding is equipped with symmetrical anti-overflow sliding block 417 in convex block 418, the anti-overflow sliding block 417 by anti-overflow spring 416 with it is described under Belling block 418 is fixedly connected, and anti-overflow 417 left surface of sliding block is fixedly connected with spill plate 414, the down-pressing forming chamber 401 Rotation is equipped with the first clamping conveying axis 433, is equipped in the down-pressing forming chamber 401 and is fixedly connected on the first clamping conveying axis The clamping drive bevel gear 432 of 433 upper ends is equipped in the down-pressing forming chamber 401 and is fixedly connected on the first clamping conveying The transmitting driven pulley 434 of 433 lower end of axis, the transmitting driven pulley 434 are connected with the transmitting driving pulley 413 by belt It connects；

Wherein, rotation is equipped with the second clamping conveying axis extended right up in the release chamber 701 in the down-pressing forming chamber 401 429, the clamping driving wheel 430 being fixedly connected on the second clamping conveying axis 429 is equipped in the down-pressing forming chamber 401, The clamping driven wheel of differential for being fixedly connected on second clamping, 429 left end of conveying axis is equipped in the down-pressing forming chamber 401 431, the clamping driven wheel of differential 431 is engaged with the clamping drive bevel gear 432, is rotated in the down-pressing forming chamber 401 Conveying axis 428 is clamped equipped with third, is equipped in the down-pressing forming chamber 401 and is fixedly connected on the third clamping conveying axis 428 On clamping driven wheel 437, the clamping driven wheel 437 engages with the clamping driving wheel 430, the down-pressing forming chamber 401 In be equipped with the full meshing gear for being fixedly connected on third clamping conveying axis 428 and being located at clamping 437 right end of driven wheel 426, sliding, which is equipped with just to have, in the down-pressing forming chamber 401 extends to the mobile translation transmission shaft 427 for clamping chamber 501, institute State the second driven wheel of clamping 425 for being equipped with and being fixedly connected on the translation transmission shaft 427 in down-pressing forming chamber 401, the folder The second driven wheel 425 is taken to engage with the full movement of meshing gear 426.

Valuably, the power distribution control mechanism further includes translational power chamber 601,601 transfer of translational power chamber It is dynamic to be equipped with transmitting shaft 607, the translation for being fixedly connected on transmitting 607 lower end of shaft is equipped in the translational power chamber 601 Driven pulley 608, the translation driven pulley 608 are connect with the translation driving pulley 435 by belt, the translational power The translation drive bevel gear 606 for being fixedly connected on transmitting 607 upper end of shaft, the translational power chamber 601 are equipped in chamber 601 Middle rotation is equipped with the second shaft 605, is equipped in the translational power chamber 601 and is fixedly connected on putting down in second shaft 605 Driven wheel of differential 603 is moved, 605 front end of the second shaft is equipped with connecting rod 604, and 604 left end of connecting rod is hinged with connecting rod 602, sliding is equipped with translator slider 502 in the translational power chamber 601, and 502 left end of translator slider is fixedly connected with push rod 609, the push rod 609 and 602 right end of connecting rod are hinged, and 502 lower end of translator slider passes through drop-down spring 503 and a left side Right symmetrical gripping arm 513 is fixedly connected.

Valuably, the mobile gripping body includes the clamping spring 514 being set in the mobile clamping chamber 501, institute It states and is fixedly connected on the inside of clamping spring 514 and the gripping arm 513, be equipped in the mobile clamping chamber 501 and be fixedly connected on institute The drop-down rack gear 511 on 513 right side of gripping arm is stated, is equipped in the mobile clamping chamber 501 and is fixedly connected on the translation transmission shaft Rotation cam 515 on 427, what the mobile clamping chamber 501 was equipped with is fixedly connected on the translation transmission shaft 427 and is located at institute The drop-down drive bevel gear 504 on 515 right side of rotation cam is stated, horizontal sliding is equipped with rotation connection in the mobile clamping chamber 501 It is equipped in the link block 516 of translation 427 right end of transmission shaft, the mobile clamping chamber 501 and is rotationally connected with the connection Shaft 505 on block 516 is equipped with the drop-down that is fixedly connected in the shaft 505 in the mobile clamping chamber 501 from mantle tooth Wheel 506, the drop-down driven wheel of differential 506 is engaged with the drop-down drive bevel gear 504, is set in the mobile clamping chamber 501 There is the drop-down driving pulley 507 for being fixedly connected on the shaft 505 and being located at 506 rear side of drop-down driven wheel of differential, it is described Sliding is equipped with translator slider 517 in mobile clamping chamber 501, and the translator slider 517 is by pushing connecting rod 518 to match with described 511 It closes, the drop-down shaft 509 being rotationally connected in the translator slider 517, the mobile folder is equipped in the mobile clamping chamber 501 Take the drop-down driven pulley 508 for being equipped with and being fixedly connected in the drop-down shaft 509 in chamber 501, the drop-down driven pulley 508 It is connect with the drop-down driving pulley 507 by belt, is equipped in the mobile clamping chamber 501 and is fixedly connected on the drop-down turn Axis 509 and double of the gear of drop-down 510 for being located at 508 front side of drop-down driven pulley, the drop-down rack gear 511 and the drop-down Double of gear 510 is engaged to half.

Valuably, the ejecting mechanism includes the release sliding block 704 being slideably positioned in the release chamber 701, described to push away The turntable 702 for being fixedly connected on the second clamping 429 right end of conveying axis is equipped in chamber 701 out, is equipped in the release chamber 701 It is articulated with the push-off pin 703 for releasing 704 upper surface of sliding block, 703 upper end of push-off pin and the right surface of the turntable 702 are cut with scissors It connects.

In the following, applicant with reference to attached drawing 1-5 and will be described above specifically to introduce a kind of glass pressure of the application Control equipment:

Firstly, apparatus of the present invention are in the initial state, the motor 121 is inactive, and the cutter 115 does not extend into the melting material pipe In 304, the pushing convex block 418 is not pushed, the molding driven wheel 410 and the molding driving wheel 409, second molding Driven wheel 411 does not engage the gripping arm 513 and is located at mobile 501 left side of clamping chamber；

When work, the motor 121 starts, and the input shaft 110 is driven to rotate, by drive the first drive bevel gear 109 with The engagement of first driven wheel of differential 108 drives first power transmission shaft 111 to rotate, and described 111 pass through described first Driving wheel 112 and first driven wheel 113 engage the rotation for driving second power transmission shaft 114, and described 114 pass through The distribution drive bevel gear 107 and the distribution driven wheel of differential 104, the conveying drive bevel gear 202 and the conveying The engagement of driven wheel of differential 203 drives the third power transmission shaft 105 to rotate in same direction with the conveying shaft 204 respectively, institute It states conveying shaft 204 and drive the second conveying shaft is engaged with the half of driven half gear 206 by half gear 205 208 rotations move the feed drive axis 210 in the belt driving band by the conveying driving pulley 207 and the idler wheel 209 Rotation drives the conveyer belt 123 is intermittent to transmit to the right；

The third power transmission shaft 105 passes through the distribution driven wheel of differential 104 and the second distribution driven wheel of differential 103 Engagement, the cam 106 and the cutter 115 cooperation successively drive the cutter 115 do reciprocating linear motion to the right from And cut off the strip molten slurry in the melting material pipe 304, it falls into the lower section clamping shaping mould 302 and the bracket 303, and It is transported to the right by the conveyer belt 123, and the 4th power transmission shaft 102 is driven to rotate, the 4th power transmission Axis 102 by it is described distribution driving pulley 122 and it is described distribution driven pulley 406 belt driving band move it is described first form it is defeated Axis 407 is sent to rotate, to drive described second by the molding driven wheel 410 engaged by the molding driving wheel 409 It forms driven wheel 411 to rotate, so that the second molding conveying axis 408 be driven to rotate, the second molding conveying axis 408 passes through Described 405 with described 403 engage drive it is described 404 rotation, described 404 by described 402 with described 421 engage drive institute It states 421 to move down, then be moved up under the action of described 423, to drive described 418 to realize intermittent reciprocating motion, pressed Production is used；

Described 407 move 607 rotation by described 435 and described 608 belt driving band, and described 408 pass through the transmitting The belt driving band of driving pulley 413 and the transmitting driven pulley 434 moves the first clamping conveying axis 433 and rotates, described First clamping conveying axis 433 drives institute with the engaging for clamping driven wheel of differential 431 by the clamping drive bevel gear 432 The rotation of the second clamping conveying axis 429 is stated, the second clamping conveying axis 429 passes through the clamping driving wheel 430 and the clamping The engagement of driven wheel 437 drives the third clamping conveying axis 428 to rotate, thus by the full meshing gear 426 with it is described The engagement for clamping the second driven wheel 425 drives the translation transmission shaft 427 to rotate, and the translator slider 502 passes through the connecting rod 604 drive the gripping arm 513 to carry out bilateral reciprocation with the cooperation of the connecting rod 602, and the translation transmission shaft 427 leads to Crossing the cam 515 drives the gripping arm 513 to open, and the gripping arm 513 restores folder by the clamping spring 514 again Tightly, to complete the intermittent clamping movement of the gripping arm 513, the translation transmission shaft 427 also passes through the drop-down active Bevel gear 504 drives the shaft 505 to rotate with the engaging for drop-down driven wheel of differential 506, and the shaft 505 passes through described Drop-down driving pulley 507 drives described double of gear 510 of drop-down to rotate with engaging for the drop-down driven pulley 508, under described Draw double of gear 510 by moving down with the described 511 drive gripping arm 513 that engages, in described 510 and the drop-down rack gear 511 out of mesh gaps can restore by the drop-down spring 503, therefore complete the reciprocating motion of up and down direction；To complete After first then moving right to next station upwards by the shaping mould 302 that the gripping arm 513 clamps arrival, decline is loose again Open the shaping mould 302；

Clamped in the shaping mould 302 to next station, the second clamping conveying axis 429 by the turntable 702 with The cooperation of the push-off pin 703 drives the release sliding block 704 to do reciprocating linear motion, to release the glass suppressed Finished product is sent at collection by discharging band 705.

In conclusion apparatus of the present invention high degree of automation, collaborative work ability is strong, passes through the power point of the same power source Match and the linking engagement that is delayed is to achieve the effect that each components of switching control, needed for being able to achieve during glass product compression moulding The functions such as shearing, compacting and the transport wanted can remove manual labor, greatly reduce labor intensity, improve equipment work effect Rate, while apparatus of the present invention lean on motor driven, use cost is lower, value for applications with higher.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims (7)

1. a kind of glass press device, including press device, flowing water chamber and mobile clamping chamber, it is characterised in that: the flowing water chamber In be equipped with conveying mechanism, the conveying mechanism be used to transport glass melting material and finished glass, the conveying mechanism is defeated by being set to It send the conveying power control mechanism of power cavity to drive, further includes having the molding being set in down-pressing forming chamber in the press device Power transmission mechanism and down-pressing forming mechanism, the down-pressing forming mechanism can be described by the glass raw material compression moulding of melting Down-pressing forming mechanism further includes being set to the shifting in the press device by molding power transmission mechanism drive control Mobile gripping body in dynamic clamping chamber, the mobile gripping body can clamp shaping mould, further include in the press device Power control mechanism is clamped, the mobile gripping body is controlled by the clamping power control mechanism and moved, the press device In further include releasing chamber, the release chamber is additionally provided with ejecting mechanism, and the ejecting mechanism can be by the glassware of compression moulding The press device is released, power distribution control mechanism is additionally provided in the press device, the power distributes control mechanism packet Include the conveying power control mechanism, the molding power transmission mechanism and the clamping power control mechanism, the power point With in control mechanism be equipped with motor.

2. a kind of glass press device according to claim 1, it is characterised in that: wrapped in the power distribution control mechanism It includes to be set in the first power cavity and be connected by power and be set in the power input shaft of the motor right side, first power cavity There is the first drive bevel gear for being fixedly connected on the power input shaft right end, it is dynamic to be equipped with first for rotation in first power cavity Power transmission shafr is equipped in first power cavity and is fixedly connected on the first of first power transmission shaft upper end from mantle tooth Wheel, first driven wheel of differential are engaged with first drive bevel gear, are equipped with and are fixedly connected in first power cavity First driving wheel of first power transmission shaft lower end, vertical direction rotation, which is equipped with, in first power cavity extends downward into The second power transmission shaft in the conveying power cavity is equipped in first power cavity and is fixedly connected on second power and passes The first driven wheel on moving axis is equipped with the distribution for being fixedly connected on second power transmission shaft upper end in first power cavity Drive bevel gear, it is described to convey the conveying active conical tooth for being equipped in power cavity and being fixedly connected on second power transmission shaft lower end Wheel, the first power cavity front and back wall body transfer is dynamic to be equipped with third power transmission shaft, and fixed company is equipped in first power cavity The distribution driven wheel of differential being connected on the third power transmission shaft, the distribution driven wheel of differential and the distribution active conical tooth Wheel engages, and the cam for being fixedly connected on third power transmission shaft front end is equipped in first power cavity；Wherein, described Rotation is equipped with the 4th power transmission shaft in one power cavity, is equipped in first power cavity and is fixedly connected on the 4th power biography Second distribution driven wheel of differential of moving axis lower end, the second distribution driven wheel of differential are engaged with the distribution driven wheel of differential, Sliding cavity is additionally provided on the right side of first power cavity, sliding is equipped with sliding block in the sliding cavity, and the sliding block passes through spring and institute It states sliding cavity wall to be fixedly connected, sliding is equipped with cutter in first power cavity, and the cutter passes through link block and the cunning Block is fixedly connected, and the cutter is connect with the cam engagement, is equipped in first power cavity and is fixedly connected on the described 4th The distribution driving pulley of power transmission shaft upper end.

3. a kind of glass press device according to claim 1, it is characterised in that: the conveying power control mechanism includes It is rotatably dispose in the conveying shaft conveyed in the wall body of power cavity front and back, is equipped in the conveying power cavity and is fixedly connected on institute State conveying shaft on half gear, it is described conveying power cavity in be equipped be fixedly connected on it is described conveying shaft front end conveying it is driven Bevel gear, the conveying driven wheel of differential are engaged with the conveying drive bevel gear, wall body transfer before and after the conveying power cavity It is dynamic to be equipped with the second conveying shaft, driven half tooth being fixedly connected in the second conveying shaft is equipped in the conveying power cavity Wheel, driven half gear is engaged with half gear half, defeated equipped with being fixedly connected on described second in the conveying power cavity The conveying driving pulley of shaft front end is sent, wall body transfer is dynamic before and after the conveying power cavity is equipped with feed drive axis, the conveying The idler wheel being fixedly connected on the feed drive axis, the idler wheel driving conveyer belt operating, the conveying are equipped in power cavity Be equipped in power cavity and be fixedly connected on the conveying driven pulley of feed drive axis front end, the conveying driven pulley with it is described It conveys driving pulley to connect by belt, is laid with the support being fixedly connected on the conveyer belt in the conveying power cavity Frame, the bracket are equipped with shaping mould, are equipped with melting material pipe on the right side of the sliding cavity.

4. a kind of glass press device according to claim 1, it is characterised in that: the molding power transmission mechanism includes First be rotatably dispose in the down-pressing forming chamber forms conveying axis, is equipped with described in being fixedly connected in the down-pressing forming chamber First forms the translation driving pulley on conveying axis, is equipped in the down-pressing forming chamber and is fixedly connected on the first molding conveying The distribution driven pulley of axis upper end, the distribution driven pulley are connect with the distribution driving pulley by belt, the pushing It is equipped with the molding driving wheel for being fixedly connected on first molding conveying axis lower end in forming cavity, is slided in the down-pressing forming chamber Equipped with connecting rod, the molding driven wheel for being rotationally connected with the connecting rod upper end, the molding are equipped in the down-pressing forming chamber Driven wheel is engaged with the molding driving wheel, and sliding is equipped with forming slide in the wall of the flowing water bottom of chamber, and the forming slide passes through Forming spring is fixedly connected with flowing water bottom of chamber wall, and the forming slide upper surface is fixedly connected with mandril, described to depress to Rotation is equipped with the second molding conveying axis in type chamber, is equipped in the down-pressing forming chamber and is fixedly connected on the second molding conveying axis On the second molding driven wheel, the molding for being fixedly connected on second molding conveying axis upper end is equipped in the down-pressing forming chamber Drive bevel gear is equipped with the transmitting main belt for being fixedly connected on second molding conveying axis lower end in the down-pressing forming chamber It takes turns, rotation is equipped with third and forms conveying axis in the down-pressing forming chamber, is equipped with described in being fixedly connected in the down-pressing forming chamber Third forms the molding driven wheel of differential on conveying axis, and the molding driven wheel of differential is engaged with the molding drive bevel gear, The elevating arc for being fixedly connected on third molding conveying axis front end is equipped in the down-pressing forming chamber；Wherein, described to depress to It is equipped on the right side of type chamber and pushes sliding cavity, sliding, which is equipped with, in the pushing sliding cavity pushes sliding block, and the pushing sliding block passes through pushing Spring is fixedly connected with the pushing sliding cavity bottom, and the pushing sliding block left surface is fixedly connected with pushing rack gear, under described Knob item is engaged with the elevating arc interval, is equipped with and is fixedly connected under the pushing rack gear lower end in the down-pressing forming chamber Belling block, sliding is equipped with symmetrical anti-overflow sliding block in the pushing convex block, and the anti-overflow sliding block passes through anti-overflow spring and institute It states pushing convex block to be fixedly connected, the anti-overflow sliding block left surface is fixedly connected with spill plate, and the down-pressing forming chamber rotation is equipped with First clamps conveying axis, and the clamping active for being fixedly connected on first clamping conveying axis upper end is equipped in the down-pressing forming chamber Bevel gear is equipped with the transmitting driven pulley for being fixedly connected on first clamping conveying axis lower end, institute in the down-pressing forming chamber Transmitting driven pulley is stated to connect with the transmitting driving pulley by belt；Wherein, in the down-pressing forming chamber rotation be equipped with to The right side extends to the second clamping conveying axis in the release chamber, is equipped in the down-pressing forming chamber and is fixedly connected on second folder The clamping driving wheel on conveying axis is taken, is equipped in the down-pressing forming chamber and is fixedly connected on second clamping conveying axis left end Driven wheel of differential is clamped, the clamping driven wheel of differential is engaged with the clamping drive bevel gear, the down-pressing forming chamber transfer The dynamic third that is equipped with clamps conveying axis, and the clamping being fixedly connected on the third clamping conveying axis is equipped in the down-pressing forming chamber Driven wheel, the clamping driven wheel are engaged with the clamping driving wheel, are equipped with described in being fixedly connected in the down-pressing forming chamber Third clamps conveying axis and is located at the full meshing gear of the clamping driven wheel right end, and sliding is equipped with just in the down-pressing forming chamber There is the translation transmission shaft for extending to the mobile clamping chamber, is equipped in the down-pressing forming chamber and is fixedly connected on the translation transmission The second driven wheel of clamping on axis, the second driven wheel of the clamping are engaged with the full meshing gear movement.

5. a kind of glass press device according to claim 1, it is characterised in that: the power distribution control mechanism also wraps Translational power chamber is included, rotation is equipped with transmitting shaft in the translational power chamber, is equipped with and is fixedly connected in the translational power chamber The translation driven pulley of the transmitting shaft lower end, the translation driven pulley and the translation driving pulley are connected by belt It connects, the translation drive bevel gear for being fixedly connected on the transmitting shaft upper end is equipped in the translational power chamber, the translation is dynamic Rotation is equipped with the second shaft in power chamber, and it is driven to be equipped with the translation being fixedly connected in second shaft in the translational power chamber Bevel gear, second shaft front end are equipped with connecting rod, and the connecting rod left end is hinged with connecting rod, slides in the translational power chamber Equipped with translator slider, the translator slider left end is fixedly connected with push rod, and the push rod and the connecting rod right end are hinged, described Translator slider lower end is fixedly connected by drop-down spring with symmetrical gripping arm.

6. a kind of glass press device according to claim 1, it is characterised in that: the mobile gripping body includes setting Clamping spring in the mobile clamping chamber, the clamping spring and gripping arm inside are fixedly connected, the mobile folder The drop-down rack gear for being equipped with and being fixedly connected on the right side of the gripping arm in chamber is taken, is equipped in the mobile clamping chamber and is fixedly connected on institute The rotation cam on translation transmission shaft is stated, what the mobile clamping chamber was equipped with is fixedly connected on the translation transmission shaft and is located at institute The drop-down drive bevel gear on the right side of rotation cam is stated, horizontal sliding, which is equipped with, in the mobile clamping chamber is rotationally connected with the translation The link block of transmission shaft right end, the movement clamp the shaft for being equipped with and being rotationally connected on the link block in chamber, the movement The drop-down driven wheel of differential being fixedly connected in the shaft, the drop-down driven wheel of differential and the drop-down are equipped in clamping chamber Drive bevel gear engagement, the movement clamp to be equipped in chamber and are fixedly connected on the shaft and are located at the drop-down driven wheel of differential The drop-down driving pulley of rear side, mobile clamp are slided in chamber equipped with translator slider, and the translator slider is by pushing connecting rod With the cooperation, the movement clamps the drop-down shaft for being equipped with and being rotationally connected in the translator slider in chamber, the mobile folder The drop-down driven pulley for being equipped with and being fixedly connected in the drop-down shaft in chamber is taken, the drop-down driven pulley and the drop-down are led Movable belt pulley is connected by belt, be equipped in the mobile clamping chamber be fixedly connected on the drop-down shaft and be located at it is described pull down from Double of gear of drop-down on front side of movable belt pulley, the drop-down rack gear are engaged with described double of gear mesh of drop-down half.

7. a kind of glass press device according to claim 1, it is characterised in that: the ejecting mechanism includes sliding setting Release sliding block in the release chamber, it is described to release turn for being equipped in chamber and being fixedly connected on the second clamping conveying axis right end Disk, it is described to release the push-off pin for being equipped in chamber and being articulated with the release sliding block upper surface, the push-off pin upper end and the turntable Right surface is hinged.