CN110466071A - A kind of production technology of high-performance building glass - Google Patents
A kind of production technology of high-performance building glass Download PDFInfo
- Publication number
- CN110466071A CN110466071A CN201910877765.6A CN201910877765A CN110466071A CN 110466071 A CN110466071 A CN 110466071A CN 201910877765 A CN201910877765 A CN 201910877765A CN 110466071 A CN110466071 A CN 110466071A
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- Prior art keywords
- actuator
- glass
- rotary table
- arm
- gear
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D1/00—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
- B28D1/14—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by boring or drilling
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D7/00—Accessories specially adapted for use with machines or devices of the preceding groups
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D7/00—Accessories specially adapted for use with machines or devices of the preceding groups
- B28D7/005—Devices for the automatic drive or the program control of the machines
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D7/00—Accessories specially adapted for use with machines or devices of the preceding groups
- B28D7/02—Accessories specially adapted for use with machines or devices of the preceding groups for removing or laying dust, e.g. by spraying liquids; for cooling work
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D7/00—Accessories specially adapted for use with machines or devices of the preceding groups
- B28D7/04—Accessories specially adapted for use with machines or devices of the preceding groups for supporting or holding work or conveying or discharging work
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C17/00—Surface treatment of glass, not in the form of fibres or filaments, by coating
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03C—CHEMICAL COMPOSITION OF GLASSES, GLAZES OR VITREOUS ENAMELS; SURFACE TREATMENT OF GLASS; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS, MINERALS OR SLAGS; JOINING GLASS TO GLASS OR OTHER MATERIALS
- C03C27/00—Joining pieces of glass to pieces of other inorganic material; Joining glass to glass other than by fusing
- C03C27/06—Joining glass to glass by processes other than fusing
Abstract
The invention discloses a kind of production technologies of high-performance building glass, the following steps are included: (1) puts together two sheet glass stacked on top, and it is placed on process equipment, before glass is placed in process equipment, actuator is adjusted to first position, fixed device is driven to adjust the angle to glass convenient for merging, it is later that double glazing is fixed on the securing means;(2) actuator is adjusted by first position to the second position, and perforating device carries out punch operation to four end angles of the glass after fixation;(3) actuator is adjusted by the second position to the third place, and the two panels glass side of sizer pair carries out gluing operation, obtains double glazing.It is processed in the present invention using positioning-punching-gluing sequence, guarantees that the hole on two sheet glass can be aligned completely, guarantee that the double glazing that processing obtains maintains high-performance.
Description
Technical field
The invention belongs to building material technologies, more particularly, to a kind of production technology of high-performance building glass.
Background technique
Glass is using the most common material in door and window, and heating or sky are opened in selection substantially in room when due to people in winter
It adjusts, so that the front and back two sides temperature difference of traditional single-glass is very big, the case where being easy to appear rupture.In order to solve this problem, existing
Have and occur double glazing in technology, double glazing is formed by two sheet glass by glass glue sticking, due to two pieces of glass plates it
Between exist sealing space, effectively preventing single sheet, there is a situation where be broken due to the uneven heating of two sides.
Double glazing needs to punch in process, and existing processing method is usually to beat respectively on two sheet glass
Kong Hou after being mutually aligned the hole on two sheet glass, smears one layer of glass cement using glass cement on two panels glass outer side wall, will
Two sheet glass are bonded to together.But this kind of processing method efficiency is lower, and is easy to appear hole and is not aligned completely, and glass is wrong after bonding
The case where position, machining accuracy is low, and the double glazing processed is second-rate.
Summary of the invention
The present invention for overcome the deficiencies in the prior art, provide it is a kind of it is high in machining efficiency, that processing obtains product quality is high
The production technology of high-performance building glass.
To achieve the goals above, the invention adopts the following technical scheme: a kind of production technology of high-performance building glass,
The following steps are included:
(1) two sheet glass stacked on top are put together, and be placed on process equipment, which includes for two
The fixation device that sheet glass is positioned simultaneously, is used the perforating device for two sheet glass after positioning to be carried out with punch operation
In to two panels glass side junction carry out gluing sizer, actuator and the displacement drive part being connected with the actuator,
The actuator has first position, the second position and a third place, the displacement drive part for driving the actuator first,
It is converted on second, third position;When actuator is in first position, the actuator and the fixed device carry out position
Adjustment;When actuator is in the second position, the actuator is for driving the perforating device to carry out position adjustment;Work as actuator
When in the third place, the actuator is for driving sizer to carry out position adjustment;Before glass is placed in process equipment, drive
Moving part is adjusted to first position, is driven fixed device to adjust the angle to glass convenient for merging, is later fixed on double glazing
On fixed device;
(2) actuator is adjusted by first position to the second position, and perforating device beats four ends angle of the glass after fixation
Hole operation;
(3) actuator is adjusted by the second position to the third place, and the two panels glass side of sizer pair carries out gluing operation, obtains
To double glazing.
Two sheet glass first pass through fixed device and position position in the application, later directly by perforating device to two panels glass
Glass is punched simultaneously, to guarantee that two sheet glass no longer need to carry out the alignment function in hole, guarantees that the hole on two sheet glass can
Alignment completely;After the completion of punching, gluing is carried out to glass by sizer in the state of positioning, so that two sheet glass are secured
It bonds together, guarantees during gluing to be not in displacement between two sheet glass, ensure that the glass that processing obtains
Quality promotes the performance of double glazing, guarantees that the double glazing that processing obtains maintains high-performance;And under above structure, it can pass through
The starting of different operation is realized in the position adjustment of actuator, is consolidated to can be achieved at the same time on the same device to two sheet glass
Fixed, punching, gluing operation, realize automation processing, work efficiency is high, and the input cost of equipment is small, and space hold is small;And
Punched, glued, transposed by the same power source driving equipment, the investment for reducing power source of high degree, reduce at
Sheet and energy consumption.
The fixed device includes upper fixation member and lower fixation member, and fixed device includes top rotary table, is fixedly arranged on this
Upper sucker part on top rotary table is connected with the cylinder for driving upper sucker part to move up and down with sucker part on this;The lower fixed part
Part includes lower rotary table, the lower sucker part being fixedly arranged on lower rotary table, the swivel becket between lower rotary table and top rotary table, is set to rotation
Two clamping pieces on ring, the upper and lower turntable are connected with swivel becket by multiple connecting columns, and two clamping pieces include telescopic rod and set
In the clamping jaw in telescopic rod end, the shape of the clamping jaw is L-type structure setting, can the end angle to glass carry out conflict limit;By
In upper lower rotary table rotate synchronously, and up and down sucker part be then separately positioned on lower rotary table, and then upper lower rotary table rotation when, glass
Glass will follow the rotation of lower rotary table and rotate, and effectively prevent going out between sucker part and glass in turntable rotation process
Existing position is mobile, realizes the stable holding to glass;Clamping jaw directly holds out against the end Angle Position of glass, realizes to glass
Effective position, guarantee in punching or gluing operation, it is mobile that position will not occur for glass, improves the machining accuracy of glass.
The perforating device include can relative to the positioning turntable that the cylinder is rotated, be fixedly arranged on positioning disk edge at
Punching arm, the lifting actuator for driving the punching arm expanding-contracting action, for drive the punching arm rotate rotate driving
Part, the clast stop member matched with punching arm and the punching base matched on lower rotary table with punching arm;Drill process
In the clast of generated splashing will be blocked member obstruction, effectively prevent clast and splash in glass sides, avoid painting
There is scrap to be deposited in glue when glue.
The clast stop member includes the block cover being sheathed on outside the punching arm that can be relatively rotated with the punching arm, sets
Sealing ring in block cover lower part and the extensible member that is connected with block cover, the extensible member include inner sleeve and are sheathed on outer outside the inner sleeve
Set, the outer set upper side are connected with the rotating drive part, and what which can move up and down is arranged in housing, under inner sleeve
End is connected with the block cover;The punching arm has upper and lower arms, and the diameter of the upper arm is less than the diameter of lower arm, the block cover
It is equipped with the opening passed through for upper arm;Under above structure, during punching arm moves down, block cover will be close to always to glass
Surface on, guarantee punch position is effectively provide with, avoid the clast generated in boring procedure from splashing outward, further
It reduces clast and splashes to the possibility at the gap of layer glass, promote the quality for the double glazing that processing obtains.
The punching base is set as four, corresponds respectively to four end angles setting of glass;The punching base includes that can be rotated
The pedestal being set on lower rotary table, be fixedly arranged on two arc support parts of the pedestal wherein on side, be formed between two arc support parts
Charging conduit, the brace being connected respectively with two arc support parts on pedestal, the brace, arc support part are triangle knot between pedestal
Structure setting;The cross section of the charging conduit is up-small and down-big structure setting, is fixed on the pedestal and is piercing in lower rotary table lower part
Shaft, gear member is fixed in the shaft, the lower rotary table is equipped with motor, and the output shaft of the motor is pierced by lower rotary table
Portion and the Knucle-gear that is connected;Transmission gear, the gear member and Knucle-gear point are rotatably equipped on the lower rotary table lower surface
It is not meshed with the transmission gear;The clast generated in boring procedure on glass can directly be fallen downwards by charging conduit, and
Glass can be effectively made in arc support part, guarantee that glass is not in broken or because is not had in boring procedure
The case where effect supports and bore position is shifted, promotes the effect of glass drilling;And support part is set as arc, Jin Ertong
Crossing can drive arc support part to rotate around the shaft by the rotation of motor-driven gear part, and then adjust arc support part to glass
Effective support of different location so that same arc support part support in the case where, glass end angle go out radially and circumferentially on
Can drill under holding state, and realize four end angle at synchronous adjustments, not only adjust it is efficient and convenient, and support
Effect stability;Gusseted is carried out to arc support part by brace, the stress of arc protrusion is dispersed, guarantees arc protrusion
Support is stablized to glass, support effect is be more good, and brace will not impact the blanking of glass chip.
The sizer include can relative to the rotating disk that the cylinder is rotated, the gluing arm in rotating disk,
Upper rubber head, the glue storage cavity in upper rubber head, the plastic emitting longitudinal joint being connected with the glue storage cavity and plastic emitting transverse joint are set to gluing arm lower part
Air cavity, the piston being arranged in the air cavity that reciprocally acts of the gas supply part that is connected with the air cavity, one end, the piston it is another
End is connected with the glue-spreading head;Under above structure, in gluing operating process, upper rubber head can be under the active force of gas intracavity gas
It holds out against in the side locations stacked to layer glass, rotating disk is able to drive rubber head and encloses rotation around the outside of glass one, in turn
The achievable autosizing enclosed to glass outer side wall one of above structure, high degree of automation, work efficiency is high;And it is set in upper rubber head
Plastic emitting longitudinal joint and plastic emitting transverse joint are set, the position of plastic emitting transverse joint corresponds at the gap of layer glass, and then it is horizontal to correspond to plastic emitting
Seam can allow for existing glue that will be thicker than the glue thickness of glass sides at position, guarantee the bonding at the gap of layer glass
It is more secured.
The actuator includes power source and the output gear that is connected with the power source output shaft, and the top rotary table is equipped with
The tooth socket for being caught in for the output gear and being meshed with the output gear, the positioning turntable lateral wall are equipped with multiple double wedges,
Axis is rotatably equipped on the top rotary table, which connects the first transmission gear, and lower end connects the second transmission gear,
Second transmission gear is meshed with the double wedge;It is evenly spaced on the rotate the outside of the disc wall that multiple sliding tooths are distributed with,
Gear shaft is rotatably equipped on the top rotary table, which connects third transmission gear, and lower end connects the 4th driving cog
Wheel, the 4th transmission gear are meshed with sliding tooth;When the actuator is in first position, which mutually nibbles with tooth socket
It closes to drive top rotary table to rotate;When actuator is in the second position, output gear is meshed with first transmission gear;Driving
When part is in the third place, output gear is meshed with the third transmission gear;Under above structure, it is moved to by actuator
Different components can be driven on different location to be acted, the investment of power source, energy saving are reduced;And multiple manufacturing procedures are equal
It carries out on one device, reduces the investment of equipment.
The positioning turntable is equipped with the radial positioning member for being adjusted to the position of punching arm on it;In turn
The position of punching arm is moved radially relative to positioning turntable, improves the range of punching.
The radial direction positioning member includes the sliding slot being set on positioning turntable, is fixedly arranged on punching arm upper end and can be with respect to sliding slot
The sliding block that reciprocatingly slides is bolted on positioning turntable and adjusting bolt that end and the sliding block offset and one end are connected with the sliding block
Spring, which is connected with sliding slot inner wall, and the cross section of the sliding block and sliding slot is T-type structure;Structure is simple, adjusts
It saves easy to operate.
It is processed in the present invention using positioning-punching-gluing sequence, guarantees that the hole on two sheet glass can be completely right
Standard guarantees that the double glazing that processing obtains maintains high-performance;And it punched, glued, adjusted by the same power source driving equipment
Position, the investment for reducing power source of high degree reduce cost and energy consumption.
Detailed description of the invention
Fig. 1 is the structural diagram of the present invention.
Fig. 2 is perspective cross section schematic diagram of the invention.
Fig. 3 is the enlarged drawing in Fig. 2 at A.
Fig. 4 is the enlarged drawing in Fig. 2 at B.
Fig. 5 is the enlarged drawing in Fig. 2 at C.
Fig. 6 is partial schematic diagram one of the invention.
Fig. 7 is partial schematic diagram two of the invention.
Fig. 8 is front view of the invention.
Specific embodiment
A kind of production technology of high-performance building glass, comprising the following steps:
(1) two sheet glass stacked on top are put together, and be placed on process equipment, as shown in figures 1-8, the process equipment
Including for being positioned simultaneously to two sheet glass fixation device, for carrying out punch operation to two sheet glass after positioning
Perforating device, for carrying out the sizer of gluing, actuator to two panels glass side junction and being connected with the actuator 1
Displacement drive part 2, the actuator 1 have first position, the second position and the third place, and the displacement drive part 2 is for driving
The actuator is converted on the first, second, third position;When actuator 1 is in first position, the actuator 1 and institute
It states fixed device and carries out position adjustment;When actuator 1 is in the second position, the actuator 1 is for driving the perforating device
Carry out position adjustment;When actuator 1 is in the third place, the actuator 1 is for driving sizer to carry out position adjustment;In
Before glass is placed in process equipment, actuator is adjusted to first position, and fixed device is driven to adjust the angle to glass convenient for merging
Degree, it is later that double glazing is fixed on the securing means;
(2) actuator is adjusted by first position to the second position, and perforating device beats four ends angle of the glass after fixation
Hole operation;
(3) actuator is adjusted by the second position to the third place, and the two panels glass side of sizer pair carries out gluing operation, obtains
To double glazing.
Wherein, the actuator 1 includes power source 11 and the output gear 12 being connected with the power source output shaft, and displacement is driven
Moving part is the cylinder purchased on the market or hydraulic stem or hydraulic cylinder.
Specifically, the fixed device includes upper fixation member and lower fixation member, wherein fixed device includes upper on this
Turntable 31, the upper sucker part 32 being fixedly arranged on top rotary table are connected with sucker part on this with the gas for driving upper sucker part to move up and down
Cylinder 33;The lower fixation member includes lower rotary table 34, the lower sucker part 35 being fixedly arranged on lower rotary table, is located at lower rotary table and top rotary table
Between swivel becket 36, two clamping pieces 37 on swivel becket, the upper and lower turntable and swivel becket 36 pass through multiple connecting columns
38 are connected, and two clamping pieces 37 include telescopic rod 371 and the clamping jaw 372 in telescopic rod end, and the shape of the clamping jaw 372 is L
Type structure setting, can the end angle to glass carry out conflict limit;The above-mentioned sucker part referred to is made of rubber, generally sucker
Shape;Telescopic rod is the hydraulic stem purchased on the market, and clamping jaw is made of metal, and one layer of rubber is bonded on end face, thus
Avoid clamping jaw and glass hard contact.
The perforating device includes the positioning turntable 41 that can be rotated relative to the cylinder, is fixedly arranged on positioning disk edge
The punching arm 42 at place, the lifting actuator 43 for driving the punching arm expanding-contracting action, turn for driving the punching arm to rotate
Dynamic actuator 44, the clast stop member matched with punching arm and the punching base matched on lower rotary table with punching arm;
The above-mentioned lifting actuator mentioned is cylinder or hydraulic stem, and rotating drive part is motor, and punching arm is made of metal, and lower end is point
Head, convenient for drilling.
The clast stop member include can with it is described punching arm relatively rotate the block cover 51 being sheathed on outside the punching arm,
Sealing ring 52 set on block cover lower part and the extensible member 53 that is connected with block cover, the extensible member 53 include inner sleeve 531 and are sheathed on this
Housing 532 outside inner sleeve, the outer set upper side are connected with the rotating drive part 44, and what which can move up and down wears
In housing 532, the lower end of inner sleeve and the block cover 51 are connected;The punching arm 42 has upper arm 421 and lower arm 422, should
The diameter of upper arm 421 is less than the diameter of lower arm 422, and the block cover 51 is equipped with the opening passed through for upper arm;Wherein, which is
Plastics are made, and sealing ring is made of rubber, are bonded on the lower surface of block cover, and the cross section of sealing ring is preferably U-shaped structure,
It can play the role of similar sucker, with being bonded more closely for glass surface;Above-mentioned inner sleeve and housing are that plastics are made, and interior
Outer sleeve anti-drop cooperation.
The punching base is set as four, corresponds respectively to four end angles setting of glass;The punching base includes that can be rotated
The pedestal 61 being set on lower rotary table, be fixedly arranged on two arc support parts 62 of the pedestal wherein on side, be formed in two arc support parts it
Between charging conduit 63, the brace 64 that is connected respectively with two arc support parts on pedestal, the brace, arc support part, between pedestal
For three-legged structure setting;The cross section of the charging conduit 63 is up-small and down-big structure setting, is fixed with and is pierced by the pedestal 61
Shaft 611 in lower rotary table lower part is fixed with gear member 612 in the shaft, and the lower rotary table is equipped with motor 65, the motor
Output shaft is pierced by 34 lower part of lower rotary table and the Knucle-gear 651 that is connected;It is rotatably equipped with and passes on 34 lower surface of lower rotary table
Moving gear 341, the gear member 612 and Knucle-gear 651 are meshed with the transmission gear 341 respectively;The above-mentioned gear member referred to,
Knucle-gear, transmission gear are the metal gear purchased on the market, and structure repeats no more.
The sizer includes can be relative to the rotating disk 71 that the cylinder is rotated, the gluing arm in rotating disk
72, upper rubber head 73, the glue storage cavity 74 in upper rubber head, the plastic emitting longitudinal joint 75 being connected with the glue storage cavity and plastic emitting transverse joint 76, set
It is arranged in the air cavity in what the gluing air cavity 77 of arm lower part, the gas supply part 78 being connected with the air cavity, one end reciprocally acted
Piston 79, the other end of the piston 79 are connected with the glue-spreading head 73;Wherein, upper rubber head is equipped with a hose, the hose one end
It is connected with glue storage cavity, one end is connected with external glue bucket, the glass cement in glue bucket is delivered in glue storage cavity with realizing,
Glue bucket is preferably connected with pump, by the pump by glue pump to hose;The gas supply part be small-sized air pump, gas can directly be pumped to
In air cavity.
The top rotary table 31 is equipped with the tooth socket 311 for being caught in and being meshed with the output gear for the output gear, described
41 lateral wall of turntable of transposing is equipped with multiple double wedges 411, is rotatably equipped with axis 412 on the top rotary table 31, on the axis
The first transmission gear 413 of end connection, lower end connects the second transmission gear 414, second transmission gear 414 and the double wedge 411
It is meshed;It is evenly spaced on 71 lateral wall of rotating disk that multiple sliding tooths 711 are distributed with, it is rotatable on the top rotary table 31
Equipped with gear shaft 712, which connects third transmission gear 713, and lower end connects the 4th transmission gear 714, and the 4th
Transmission gear 714 is meshed with sliding tooth 711;When the actuator is in first position, which is meshed with tooth socket
To drive top rotary table to rotate;When actuator is in the second position, output gear is meshed with first transmission gear;Actuator
When in the third place, output gear is meshed with the third transmission gear;Above-mentioned first, second, third, fourth referred to
Transmission gear is the metal gear being directly commercially available on the market, and structure repeats no more.
The positioning turntable 41 is equipped with the radial positioning member for being adjusted to the position of punching arm 42 on it;
The radial direction positioning member specifically includes the sliding slot 81 being set on positioning turntable, is fixedly arranged on punching arm upper end and can be reciprocal with respect to sliding slot
The spring 84 that sliding block 82, adjusting bolt 83 and one end of sliding are connected with the sliding block, 84 other end of spring and 81 inner wall of sliding slot
It is connected, the cross section of the sliding block 82 and sliding slot 81 is T-type structure;The adjusting bolt 83 is bolted on positioning turntable, and end
It penetrates to sliding slot, and it is inconsistent together with sliding block to adjust bolt end.
Claims (9)
1. a kind of production technology of high-performance building glass, it is characterised in that: the following steps are included:
Two sheet glass stacked on top are put together, and are placed on process equipment, which includes for two panels
The fixation device that glass is positioned simultaneously, is used for the perforating device for two sheet glass after positioning to be carried out with punch operation
Sizer, actuator and the displacement drive part being connected with the actuator (1) of gluing are carried out to two panels glass side junction
(2), which has first position, the second position and the third place, and the displacement drive part (2) is for driving the drive
Moving part is converted on the first, second, third position;When actuator (1) is in first position, the actuator (1) and institute
It states fixed device and carries out position adjustment;When actuator (1) is in the second position, the actuator (1) is for driving the punching
Device carries out position adjustment;When actuator (1) is in the third place, the actuator (1) is for driving sizer to carry out position
Set adjustment;Before glass is placed in process equipment, actuator is adjusted to first position, is driven fixed device to adjust to glass and is convenient for
The angle of merging, it is later that double glazing is fixed on the securing means;
Actuator is adjusted by first position to the second position, and perforating device carries out punching behaviour to four ends angle of the glass after fixation
Make;
Actuator is adjusted by the second position to the third place, and the two panels glass side of sizer pair carries out gluing operation, obtains
Double glazing.
2. the production technology of high-performance building glass according to claim 1, it is characterised in that: the fixed device includes
Upper fixation member and lower fixation member, on this fixed device include top rotary table (31), the upper sucker part that is fixedly arranged on top rotary table
(32), it is connected with sucker part on this with the cylinder (33) for driving upper sucker part to move up and down;The lower fixation member includes lower turn
Disk (34), the lower sucker part (35) being fixedly arranged on lower rotary table, the swivel becket (36) between lower rotary table and top rotary table, be set to turn
Two clamping pieces (37) on rotating ring, the upper and lower turntable are connected with swivel becket (36) by multiple connecting columns (38), two clamping pieces
It (37) include telescopic rod (371) and the clamping jaw (372) in telescopic rod end, the shape of the clamping jaw (372) sets for L-type structure
Set, can the end angle to glass carry out conflict limit.
3. the production technology of high-performance building glass according to claim 2, it is characterised in that: the perforating device includes
Can relative to the positioning turntable (41) that the cylinder is rotated, be fixedly arranged on positioning disk edge at punching arm (42), for driving
It moves the lifting actuator (43) of the punching arm expanding-contracting action, the rotating drive part (44) for driving punching arm rotation and beats
The clast stop member and the punching base matched on lower rotary table with punching arm that hole arm matches.
4. the production technology of high-performance building glass according to claim 3, it is characterised in that: the clast stop member
The block cover (51) being sheathed on outside the punching arm including that can be relatively rotated with the punching arm, the sealing ring set on block cover lower part
(52) and with block cover the extensible member (53) being connected, the extensible member (53) include inner sleeve (531) and the housing that is sheathed on outside the inner sleeve
(532), which is connected with the rotating drive part (44), and what which can move up and down is arranged in outer
It covers in (532), the lower end of inner sleeve and the block cover (51) are connected;The punching arm (42) has upper arm (421) and lower arm
(422), the diameter of the upper arm (421) is less than the diameter of lower arm (422), and the block cover (51) is equipped with and opens for what upper arm passed through
Mouthful.
5. the production technology of high-performance building glass according to claim 4, it is characterised in that: the punching base is set as
Four, correspond respectively to four end angles setting of glass;The punching base include the rotatable pedestal (61) on lower rotary table,
It is fixedly arranged on two arc support parts (62) of the pedestal wherein on side, the charging conduit (63) being formed between two arc support parts, is set to seat
The brace (64) being connected respectively with two arc support parts on body, the brace, arc support part are arranged for three-legged structure between pedestal;Institute
The cross section for stating charging conduit (63) is up-small and down-big structure setting, is fixed on the pedestal (61) and is piercing in lower rotary table lower part
Shaft (611) is fixed with gear member (612) in the shaft, and the lower rotary table is equipped with motor (65), and the output shaft of the motor is worn
Out to lower rotary table (34) lower part and be connected a Knucle-gear (651);Transmission is rotatably equipped on lower rotary table (34) lower surface
Gear (341), the gear member (612) and Knucle-gear (651) are meshed with the transmission gear (341) respectively.
6. the production technology of high-performance building glass according to claim 5, it is characterised in that: the sizer includes
Can relative to the rotating disk (71) that the cylinder is rotated, the gluing arm (72) in rotating disk, upper rubber head (73), be set to it is upper
Glue storage cavity (74) in rubber head, the plastic emitting longitudinal joint (75) being connected with the glue storage cavity and plastic emitting transverse joint (76) are set to gluing arm lower part
Air cavity (77), the piston (79) being arranged in the air cavity that reciprocally acts of the gas supply part (78) that is connected with the air cavity, one end,
The other end of the piston (79) is connected with the glue-spreading head (73).
7. the production technology of high-performance building glass according to claim 6, it is characterised in that: actuator (1) packet
The output gear (12) for including power source (11) and being connected with the power source output shaft, the top rotary table (31), which is equipped with, supplies the output
The tooth socket (311) that gear is caught in and is meshed with the output gear, positioning turntable (41) lateral wall are equipped with multiple double wedges
(411), axis (412) rotatably are equipped on the top rotary table (31), which connects the first transmission gear (413),
Lower end connects the second transmission gear (414), which is meshed with the double wedge (411);The rotating disk
(71) evenly spaced on lateral wall that multiple sliding tooths (711) are distributed with, gear shaft is rotatably equipped on the top rotary table (31)
(712), gear shaft upper end connection third transmission gear (713), lower end connect the 4th transmission gear (714), the 4th transmission
Gear (714) is meshed with sliding tooth (711);When the actuator is in first position, which is meshed with tooth socket
To drive top rotary table to rotate;When actuator is in the second position, output gear is meshed with first transmission gear;Actuator
When in the third place, output gear is meshed with the third transmission gear.
8. the production technology of high-performance building glass according to claim 3, it is characterised in that: the positioning turntable (41)
It is equipped with the radial positioning member for being adjusted to the position of punching arm (42) on it.
9. the production technology of high-performance building glass according to claim 8, it is characterised in that: the radial direction positioning member
Including be set on positioning turntable sliding slot (81), be fixedly arranged on punching arm upper end and can opposite sliding slot reciprocatingly slide sliding block (82),
It is bolted in the adjusting bolt (83) that on positioning turntable and end and the sliding block offset and the spring (84) that one end is connected with the sliding block,
Spring (84) other end is connected with sliding slot (81) inner wall, and the cross section of the sliding block (82) and sliding slot (81) is T-type structure.
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CN106986531A (en) * | 2017-04-25 | 2017-07-28 | 嵊州市赫利玻璃制品有限公司 | A kind of multifunctional process equipment for double glazing |
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JP2000169166A (en) * | 1998-11-30 | 2000-06-20 | Hoya Optics Kk | Production of sheet glass product |
CN102515494A (en) * | 2011-12-05 | 2012-06-27 | 深圳市华星光电技术有限公司 | Cutting device and method of glass substrate |
TW201819322A (en) * | 2016-10-14 | 2018-06-01 | 日商日本電氣硝子股份有限公司 | Method for producing glass plate |
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CN110466071B (en) | 2020-04-03 |
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