CN208545297U - A kind of high-boron-silicon glass health-promotion kettle blow-forming facility - Google Patents
A kind of high-boron-silicon glass health-promotion kettle blow-forming facility Download PDFInfo
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- CN208545297U CN208545297U CN201821145511.2U CN201821145511U CN208545297U CN 208545297 U CN208545297 U CN 208545297U CN 201821145511 U CN201821145511 U CN 201821145511U CN 208545297 U CN208545297 U CN 208545297U
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Abstract
The utility model relates to the technical fields of glassware blowing, especially a kind of high-boron-silicon glass health-promotion kettle blow-forming facility, it includes the feeder for high-boron-silicon glass material cake feeding, the blowing mechanism for being blown to high-boron-silicon glass material cake and high-boron-silicon glass health-promotion kettle molding die and the spray equipment for carrying out water cooling to molding die;The health-promotion kettle has kettle body, is equipped with the sinking mouth for nested electric heating plate in kettle body bottom;The side wall of kettle body and its bottom of the pot joint are set as globoidal structure, and the bending radius of globoidal structure is R2.5 ± 0.5mm;The utility model structure is simple, ingenious in design, realizes multiple products while successively producing, and is accurately controlled to the air pressure and time of blowing mould, substantially increases the quality of product blow molding, and ensure the aesthetics of formed product.
Description
Technical field
The utility model relates to the technical field of glassware blowing, especially a kind of high-boron-silicon glass health-promotion kettle blowing is set
It is standby.
Background technique
Currently, high-boron-silicon glass health-promotion kettle with its aesthetics, higher chemical stability and preferable shock resistance and
The extensive parent for obtaining market is resistance to.
There are the following problems in production for high-boron-silicon glass health-promotion kettle: (1) generalling use blowing moulding again after glass heating
Mode, blow-forming facility is simple, precision is low, and blowing method is relatively rough, causes the thickness low LCL of product uniform, it is difficult to control
Forming Quality;(2) globoidal structure of the kettle body side wall of the high-boron-silicon glass health-promotion kettle of current blow molding and its bottom of the pot joint
Arc radius it is excessive, for the usual arc radius in 5mm or more, this largely effects on the aesthetics of finished product, and in order to enable
Electric heating plate is nested with the bottom of the pot of health-promotion kettle to be integrated, and biggish arc radius must be equipped with biggish electric heating plate, tight in this way
The efficient heat generation area of electric heating plate is influenced again;(3) blow-forming facility production efficiency is low, usually can only once form one,
Staff's feeding one by one is also needed after molding, it is time-consuming and laborious;(4) molding die is in actual use generally using point half combination
Mode, for glass pot by again separating mold after blow molding in mold, molding glass pot enters back into the next step,
General high-boron-silicon glass pot molding die is in docking since processing precise degree is not high, it may appear that positioning is not allowed to lead to glass pot
The bad problem of quality.
Summary of the invention
The purpose of this utility model seeks to solve that current high-boron-silicon glass health-promotion kettle is existing in production above-mentioned asks
Topic, provides a kind of high-boron-silicon glass health-promotion kettle blow-forming facility thus.
The concrete scheme of the utility model is: a kind of high-boron-silicon glass health-promotion kettle blow-forming facility, it is characterized in that: including being used for
Feeder, the blowing mechanism for being blown to high-boron-silicon glass material cake and the high borosilicate glass of high-boron-silicon glass material cake feeding
Glass health-promotion kettle molding die and for molding die carry out water cooling spray equipment;
The feeder includes 90 ° of rotary cylinder A, jacking cylinder and the 90 ° of rotations that left, center, right are successively arranged side by side
Cylinder B;The output end of 90 ° of rotary cylinder A connects one end of horizontal swing arm A, and the other end of horizontal swing arm A is equipped with Pneumatic suction cup;
Pallet is housed in the telescopic end of jacking cylinder, the Pneumatic suction cup is for the high-boron-silicon glass material cake of support on pallet to be transferred to
Blow mechanism;The output end of 90 ° of rotary cylinder B connects one end of horizontal swing arm B, the other end of horizontal swing arm B be equipped with for pair
In the arc backup plate that the high-boron-silicon glass material cake of support on pallet is positioned;
The blowing mechanism includes the annular rotation rack driven by motor A, is circumferentially installed in annular rotation rack
Have at least that three table glass pots blow machine, is fitted on the output shaft of motor A and blows the coding set seat in the plane for monitoring every table glass pot
Device, every table glass pot blow machine and are equipped with a control cabinet;The glass pot blow machine include upper and lower arranged concentric annular slide track and
For clamping the ring gripping plate of high-boron-silicon glass material cake, wherein the center of grip block is equipped with through-hole, annular slide track and grip block
It is set as corresponding three separation structure up and down, and is made of base unit and the left and right left and right folding unit being arranged symmetrically,
Wherein the base unit of annular slide track and grip block is connected as one formula structure by pedestal, and pedestal is left and right at its by being arranged
The articulated shaft of two sides is respectively articulated with left connector and right connector, and the left folding unit of annular slide track and grip block passes through left connection
Part is connected as one, and the right folding unit of annular slide track and grip block is connected as one by right connector;In annular slide track
For each symmetrical dress of arranged on left and right sides there are two rolling bearing, each rolling bearing is each attached to the lower end of a vertical axes, and ipsilateral two
The upper end of vertical axes is fixedly connected with the two corners of the triangle connecting plate above annular slide track, each triangle connecting plate third
First jiao of the hinged triangular jaws in angle, second jiao of triangular jaws is hinged on articulated shaft, and triangular jaws the third angle hingedly connects
The other end of bar one end, connecting rod is fixedly connected with the telescopic end of cylinder A, and cylinder A pedestal is fixed in annular rotation rack, clamping
Arbor one end is blown with across annular slide track center equipped with the air blowing pressing plate with its through-hole arranged concentric, air blowing pressing plate in the upside of plate
Connection, blows the arbor other end and connect with sprocket wheel, and sprocket wheel is connect with the push rod of cylinder B, is also equipped in annular rotation rack for leading to
Cross the motor B of chain drive sprocket;
The blow-forming facility further includes air supply system, and air supply system is equipped with high-pressure air feed tank and low pressure air feed tank, and high pressure supplies
Gas tank corresponds to low pressure air feed tank and connects gas distributing chamber with appendix B by appendix A, and in the corresponding dress of appendix A and appendix B
There are solenoid valve A and solenoid valve B;Gas distributing chamber is equipped with several and the gas transmission branch pipe for blowing arbor and being connected in each blowing mechanism,
And proportioning valve is housed on every gas transmission branch pipe;PLC controller is housed in the control cabinet that every glass pot blows machine, it is described
PLC controller communication connection encoder, and the location information where machine is blown according to the glass pot got in real time, respectively to 90 °
The swing state of rotary cylinder A carries out real-time control to the switch state of solenoid valve A and solenoid valve B and the aperture of comparative example valve;
Equipped with the fixing axle arranged vertically in annular rotation rack, left and right mold is hinged with as axle center using fixing axle and is hung
Plate, each mold hanging plate top are equipped with arc convex and hang for installing high-boron-silicon glass health-promotion kettle molding die, each mold
Back and the telescopic end of cylinder C are hinged, and the pedestal of cylinder C is hinged in annular rotation rack;The molding die is by pot
Wall mould and bottom of the pot mold are assembled, and molding die is arranged in the underface of grip block and coaxially arranges, molding die
Inner cavity and the shape of high-boron-silicon glass health-promotion kettle match, be equipped with and the arc convex in the outside wall surface of pot wall mould
The L shape barb matched, pot wall mould are docked by the pot wall mould A and pot wall mould B being divided into two along center, bottom of the pot mold
Centrally under be equipped with a removable pin, the bottom of pot wall mould B is equipped with the length radially arranged along bottom of the pot mold by bolt
Bar shaped limited block, limited block are equipped with kidney slot, and the removable pin can be in kidney slot after pot wall mould B and bottom of the pot mold assemble
The inner cavity of sliding, pot wall mould A and pot wall mould B are along the circumferential direction equipped with several protrusions according to the shape of high-boron-silicon glass pot
Portion, at the top of the inner wall of pot wall mould A and pot wall mould B, the knot of bottom and each lug boss and each lug boss and inner cavity
Circumferentially there are several perforative stomatas in conjunction portion, and bottom of the pot mold also offers several perforative stomatas;
The spray head of the spray equipment along annular rotation rack radial arranging, and in height with molding die phase
It is corresponding.
In the non-swinging end of horizontal swing arm A in the utility model, open up that there are two the items being arranged side by side along its longitudinal direction
The non-swinging end of horizontal swing arm A is fastened on the output end of 90 ° of rotary cylinder A by the fastening bolt across strip-shaped hole by shape hole;
It is equipped with bracket on Pneumatic suction cup, and caging bolt is housed on bracket, drives Pneumatic suction cup to make 90 ° of beats in horizontal swing arm A
When, caging bolt is mutually touched with air blowing pressing plate.
6 sets or 12 sets blowing mechanisms and corresponding are uniformly distributed with along the circumference in the rotation rack of annular described in the utility model
Molding die;The joint face of the pot wall mould A is equipped with the bolt perpendicular to joint face, on the joint face of pot wall mould B
Jack is equipped at corresponding bolt.
90 ° of rotary cylinder A of feeder described in the utility model and the spray head of spray equipment turn relative to annular
The size for the central angle alpha that the central axis of motivation frame is in is 0 °~50 °.
The aperture of stomata described in the utility model is 5~15mm.
The blowing method that high-boron-silicon glass health-promotion kettle is blown using above-mentioned blow-forming facility in the utility model, including
Following steps: step 1: feeding, definition is annular rotation rack in the location of annular rotation rack side by feeder
The benchmark station of rotation, encoder are blown machine and are rotated on the basis of benchmark station to annular rotation rack one table glass of meaning of taking up an official post
Position recorded;When a wherein table glass, which blows machine, to be rotated to benchmark station, which blows machine and is in close state, by giving
High-boron-silicon glass material cake is placed in the glass and blows on the grip block of machine by material mechanism, and the temperature of high-boron-silicon glass material cake is 1220~
1240℃;
Step 2: blowing machine by glass carries out a blowing mould to high-boron-silicon glass material cake, and during a blowing mould, blowing
Pressure control in 0.1~0.2MPa, glass blow the range for the central angle that machine is rotated relative to benchmark station be 25 °~
100 °, and in blow molding process, by spray equipment with 20~25 DEG C of tap water to the glass blow the molding die on the downside of machine into
Row water cooling, molding die is in the open state at this time;
Step 3: being closed when high-boron-silicon glass material cake is formed by glass envelope apart from bottom of the pot 2~3mm of mold after blowing
Molding die is closed, and machine is blown by glass, secondary blowing mould, during secondary blowing mould, the gas of blowing is carried out to high-boron-silicon glass material cake
For voltage-controlled system in 4~6KPa, the range that glass blows the central angle that machine is rotated again relative to benchmark station is 100 °~200 °, is passed through
After secondary blowing mould, blowing terminates;
Step 4: feeding, successively opens molding die and glass blows machine, by the blank of blow molding from blowing mechanism
It takes out.
The feeding operation of the cake of high-boron-silicon glass material described in the utility model includes the following steps: firstly, by high borosilicate glass
Glass material cake is placed on pallet;Then, 90 ° of rotary cylinder B startings, 90 ° of rotary cylinder B drive horizontal swing arm B to make 90 ° of beats,
When horizontal swing arm B beat in place when, by its swinging end arc backup plate control high-boron-silicon glass material cake and pallet concentricity;It connects
, jacking cylinder starting, jacking cylinder driving pallet jacks upwards, and will be under high-boron-silicon glass material cake support to Pneumatic suction cup
End face;Finally, 90 ° of rotary cylinder A and Pneumatic suction cup start simultaneously, 90 ° of rotary cylinder A drive horizontal swing arm A to make 90 ° of beats,
When horizontal swing arm A beat in place when, the high-boron-silicon glass material cake being adsorbed on its lower end surface is placed in grip block by Pneumatic suction cup
On.
Annular described in the utility model rotation rack on be uniformly distributed with along the circumference 12 sets of glass blow machine and it is corresponding at
The velocity of rotation of pattern tool, annular rotation rack is 1~2r/min;The 90 ° of rotary cylinder A and spray equipment of the feeder
Spray head relative to the size of the central axis central angle alpha that is in of annular rotation rack be 0 °~50 °.
There is kettle body using the health-promotion kettle of above-mentioned blow-forming facility and blowing method blow molding in the utility model, in kettle body
Bottom is equipped with the sinking mouth for nested electric heating plate;The side wall of kettle body and its bottom of the pot joint are set as globoidal structure, cambered surface knot
The bending radius of structure is R2.5 ± 0.5mm.
The beneficial effects of the utility model are as follows:
(1) the utility model structure is simple, ingenious in design, realizes from feeder in benchmark station to annular rotating machine
The grip block of every blowing mechanism on frame quickly, is accurately fed;
(2) the utility model realizes multiple products simultaneously by the way that more blowing mechanisms are arranged in annular rotation rack
It successively produces, substantially increases production efficiency;
(3) the utility model is when blowing high-boron-silicon glass health-promotion kettle, by the way of secondary blowing mould, and it is right
The air pressure of each blowing mould and time are accurately controlled, and the quality of product blow molding is substantially increased;
(4) the utility model is by carrying out water cooling to molding die in advance in blow molding process, in the inner wall of molding die
On form water membrane, in this way convenient for during formed product, it is ensured that the uniformity of its outer wall-heated ensures that
Shaped article outer wall it is smooth, beautiful;
(5) product of the utility model institute blow molding is set as globoidal structure in the side wall of its kettle body and its bottom of the pot joint
Bending radius reach R2.5 ± 0.5mm, bending radius has been dramatically reduced, has improved the aesthetics of shaped article, also has
The heating area for the electric heating plate being nested with is utilized to effect;
(6) the utility model is by having the limited block of kidney slot, bottom of the pot mold center in the setting of the bottom of pot wall mould B
Removable pin is set, slides bottom of the pot mold in limited block in mold docking, even if causing to determine since processing precise degree is not high
Position precisely can not also make bottom of the pot mold automatic adjusting position by sliding, it is ensured that positioning accurate parasexuality.
Detailed description of the invention
Fig. 1 is the overlooking structure diagram of the utility model;
Fig. 2 is the structural schematic diagram of feeder in the utility model;
Fig. 3 is mounting structure schematic diagram of the Pneumatic suction cup on horizontal swing arm A in the utility model;
Fig. 4 is the schematic perspective view that mechanism is blown in the utility model;
Fig. 5 is the schematic view of the front view of Fig. 4;
Fig. 6 is the structural schematic diagram of air supply system in the utility model;
Fig. 7 is the schematic perspective view of molding die in the utility model;
Fig. 8 is the schematic perspective view of pot wall mould B in the utility model;
Fig. 9 is the schematic perspective view of pot wall mould B and bottom of the pot mold in the utility model;
Figure 10 is the present invention looks up structural representation of Fig. 9;
Figure 11 is the schematic view of the front view of the high-boron-silicon glass health-promotion kettle of blow molding in the utility model;
Figure 12 is the partial enlargement diagram in Figure 11 at K.
In figure: 1-blowing mechanism, 101-motor A, 102-annular rotation racks, 103-glass pots blow machine, 104-controls
Case processed, 2-feeders, 201-90 ° of rotary cylinder A, 202-jacking cylinders, 203-90 ° of rotary cylinder B, 204-is horizontal
Swing arm A, 205-Pneumatic suction cups, 206-pallets, 207-horizontal swing arm B, 208-arc backup plates, 3-molding dies, 301-
Pot wall mould, 3011-pot wall mould A, 3012-pot wall mould B, 302-bottom of the pot molds, 3021-removable pins, 3022-spiral shells
Bolt, 3023-limited blocks, 3024-kidney slots, 4-spray equipments, 5-high-boron-silicon glass material cakes, 6-annular slide tracks, 7-folders
Plate is held, 8-through-holes, 9-pedestals, 10-articulated shafts, 11-left connectors, 12-right connectors, 13-rolling bearings, 14-is perpendicular
D-axis, 15-triangle connecting plates, 16-triangular jaws, 17-connecting rods, 18-cylinder A, 19-air blowing pressing plates, 20-blow machine
Axis, 21-sprocket wheels, 22-cylinder B, 23-chains, 24-motor B, 25-high-pressure air feed tanks, 26-low pressure air feed tanks, 27-is defeated
Tracheae A, 28-appendix B, 29-gas distributing chamber, 30-solenoid valve A, 31-solenoid valve B, 32-gas transmission branch pipes, 33-proportioning valves,
34-fixing axles, 35-left mold hanging plates, 36-right moulds tool hanging plate, 37-arc convex, 38-cylinder C, 39-L shapes are fallen
Hook, 40-lug bosses, 41-stomatas, 42-strip-shaped holes, 43-fastening bolts, 44-brackets, 45-caging bolts, 46-insert
Pin, 47-jacks, 48-kettle bodies, 49-sinking mouths, 50-globoidal structures.
Specific embodiment
Embodiment 1
Referring to Fig. 1, a kind of high-boron-silicon glass health-promotion kettle blow-forming facility, including giving for 5 feeding of high-boron-silicon glass material cake
Expect mechanism 2, the blowing mechanism 1 for being blown to high-boron-silicon glass material cake 5 and high-boron-silicon glass health-promotion kettle molding die 3 with
And the spray equipment 4 for carrying out water cooling to molding die 3;
Referring to fig. 2, Fig. 3, the feeder 2 include 90 ° of rotary cylinder A201, the top that left, center, right are successively arranged side by side
Rise cylinder 202 and 90 ° rotary cylinder B203;The output end of 90 ° of rotary cylinder A201 connects one end of horizontal swing arm A204, horizontal
The other end of swing arm A204 is equipped with Pneumatic suction cup 205;Pallet 206, the Pneumatic suction cup are housed in the telescopic end of jacking cylinder 202
205 for being transferred to blowing mechanism 1 for the high-boron-silicon glass material cake 5 of support on pallet 206;The output of 90 ° of rotary cylinder B203
End connects one end of horizontal swing arm B207, and the other end of horizontal swing arm B207 is equipped with for the high boron for support on pallet 206
The arc backup plate 208 that silicon frit cake 5 is positioned;
Referring to fig. 4, Fig. 5, the blowing mechanism 1 include the annular rotation rack 102 driven by motor A101, are turned in annular
Six table glass pots are circumferentially installed on motivation frame 102 and blow machine 103, are fitted on the output shaft of motor A101 every for monitoring
Table glass pot blows the encoder of 103 position of machine, and every table glass pot blows machine 103 and is equipped with a control cabinet 104;The glass pot is blown
Annular slide track 6 of the machine 103 including upper and lower arranged concentric and the ring gripping plate 7 for clamping high-boron-silicon glass material cake 5, wherein
The center of grip block 7 is equipped with through-hole 8, and annular slide track 6 and grip block 7 are set as corresponding three separation structure up and down, and by base
Plinth unit and the left and right left folding unit being arranged symmetrically, right folding unit form, wherein the basis of annular slide track 6 and grip block 7
Unit is connected as one formula structure by pedestal 9, and pedestal 9 is respectively articulated with a left side by the way that the articulated shaft 10 of its arranged on left and right sides is arranged in
The left folding unit of connector 11 and right connector 12, annular slide track 6 and grip block 7 is connected as one by left connector 11,
The right folding unit of annular slide track 6 and grip block 7 is connected as one by right connector 12;The arranged on left and right sides in annular slide track 6
For each symmetrical dress there are two rolling bearing 13, each rolling bearing 13 is each attached to the lower end of a vertical axes 14, and ipsilateral two perpendicular
The upper end of d-axis is fixedly connected with the two corners of the triangle connecting plate 15 above annular slide track 6, each triangle connecting plate 15
16 first jiaos of the hinged triangular jaws of the third angle, 16 second jiaos of triangular jaws are hinged on articulated shaft 10, triangular jaws 16
The other end of one end of the third angle articulated linkage 17, connecting rod 17 is fixedly connected with the telescopic end of cylinder A18, the pedestal of cylinder A18
It is fixed in annular rotation rack 102, the upside of grip block 7 is equipped with the air blowing pressing plate 19 with its 8 arranged concentric of through-hole, pressure of blowing
Plate 19 with pass through 6 center of annular slide track 20 one end of arbor of blowing connect, blow 20 other end of arbor and connect with sprocket wheel 21, sprocket wheel 21 and
The push rod of cylinder B22 connects, and the motor B24 for passing through 23 drive sprocket 21 of chain is also equipped in annular rotation rack 102;
Referring to Fig. 6, the blow-forming facility further includes air supply system, and air supply system is equipped with high-pressure air feed tank 25 and low pressure supplies
Tank 26, high-pressure air feed tank 25 and low pressure air feed tank 26 are corresponding to connect gas distributing chamber 29 with appendix B28 by appendix A27, and
Appendix A27 and appendix B28 is corresponding to be equipped with solenoid valve A30 and solenoid valve B31;Gas distributing chamber 29 is equipped with the six roots of sensation and each blow-and-blow machine
The gas transmission branch pipe 32 for blowing arbor 20 and being connected on structure 1, and proportioning valve 33 is housed on every gas transmission branch pipe 32;Described in every
Glass pot, which is blown, is equipped with PLC controller in the control cabinet 104 of machine 103, the PLC controller communication connection encoder, and according to reality
When the glass pot that gets blow the location information where machine 103, respectively to the swing state of 90 ° of rotary cylinder A201, to electromagnetism
The switch state of valve A30 and solenoid valve B31 and real-time control is carried out to the aperture of each proportioning valve 33;
Referring to Fig. 7, Fig. 8, Fig. 9, Figure 10, equipped with the fixing axle 34 arranged vertically in annular rotation rack 102, with fixation
Axis 34 is that axle center is hinged with left mold hanging plate 35, right mould has hanging plate 36, is equipped with arc convex 37 at the top of each mold hanging plate, is used
In installation high-boron-silicon glass health-promotion kettle molding die 3, each mold hanging plate back side and the telescopic end of cylinder C38 are hinged, cylinder
The pedestal of C38 is hinged in annular rotation rack 102;The molding die 3 is assembled by pot wall mould 301 and bottom of the pot mold 302
It forms, molding die 3 is arranged in the underface of grip block 7 and coaxially arranges, the inner cavity of molding die 3 and high-boron-silicon glass
The shape of health-promotion kettle matches, and is equipped with and the matched L shape barb of the arc convex 37 in the outside wall surface of pot wall mould 301
39, pot wall mould 301 is docked by the pot wall mould A3011 and pot wall mould B3012 being divided into two along center, bottom of the pot mold
302 centrally under is equipped with a removable pin 3021, and the bottom of pot wall mould B3012 is equipped with by bolt 3022 along bottom of the pot mould
The strip limited block 3023 that tool 302 is radially arranged, limited block 3023 are equipped with kidney slot 3024, pot wall mould B3012 and pot
After 302 assembling of bed die tool, the removable pin 3021 can slide in kidney slot 3024, pot wall mould A3011 and pot wall mould
The inner cavity of B3012 is along the circumferential direction equipped with several lug bosses 40 according to the shape of high-boron-silicon glass pot, in pot wall mould A3011
It is equal with inner wall top, bottom and each lug boss 40 and each lug boss 40 of pot wall mould B3012 and the engaging portion of inner cavity
Circumferentially there are several perforative stomatas 41, bottom of the pot mold 302 also offers several perforative stomatas 41;
The spray head of the spray equipment 4 along annular rotation rack 102 radial arranging, and in height with shaping mould
It is corresponding to have 3.
In the non-swinging end of horizontal swing arm A204 in the present embodiment, open up that there are two the items being arranged side by side along its longitudinal direction
The non-swinging end of horizontal swing arm A204 is fastened on 90 ° of rotary cylinders by shape hole 42, the fastening bolt 43 by passing through strip-shaped hole 42
The output end of A201;It is equipped with bracket 44 on Pneumatic suction cup 205, and caging bolt 45 is housed on bracket 44, in horizontal swing arm
When A204 drives Pneumatic suction cup 205 to make 90 ° of beats, caging bolt 45 is touched with 19 phase of air blowing pressing plate, so that caging bolt 45 is used
It is controlled in the situation in place for carrying out 90 ° of beats to horizontal swing arm A204, so that Pneumatic suction cup 205 is inclined in horizontal swing arm A204
With grip block 7 in arranged concentric when swinging to.
Six sets of blowing mechanisms 1 and corresponding are uniformly distributed with along the circumference in the rotation rack 102 of annular described in the present embodiment
Molding die 3;The joint face of the pot wall mould A3011 is equipped with the bolt 46 perpendicular to joint face, pot wall mould B3012's
It is corresponded on joint face and is equipped with jack 47 at bolt 46.
90 ° of rotary cylinder A201 of feeder 2 described in the present embodiment and the spray head of spray equipment 4 are relative to annular
The size for the central angle alpha that the central axis of rotation rack 102 is in is 0 °~50 °, referring to Fig. 1.
The aperture of stomata 41 described in the present embodiment is 5~15mm.
Embodiment 2
Blow-forming facility of the present embodiment based on embodiment 1, the blowing method of high-boron-silicon glass health-promotion kettle, including following step
Rapid: step 1: feeding, definition is annular rotation rack in the location of annular rotation 102 side of rack by feeder 2
The benchmark station of 102 rotations, encoder blow machine on the basis of benchmark station, to any one table glass in annular rotation rack 102
The position rotated is recorded;When a wherein table glass, which blows machine, to be rotated to benchmark station, which, which blows machine and be in, closes shape
High-boron-silicon glass material cake 5 is placed in the glass by feeder 2 and blown on the grip block 7 of machine by state, high-boron-silicon glass material cake 5
Temperature is 1220~1240 DEG C;
Step 2: blowing machine 103 by glass carries out a blowing mould to high-boron-silicon glass material cake 5, during a blowing mould,
For the pressure control of blowing in 0.1~0.2MPa, it is 25 ° that glass, which blows machine 103 relative to the center of circle angular region that benchmark station is rotated,
~100 °, and in blow molding process, by spray equipment 4 with 20~25 DEG C of tap water to the shaping mould of 1 downside of blowing mechanism
Tool 3 carries out water cooling, and molding die 3 is in the open state at this time;
Step 3: being formed by distance of the glass envelope apart from bottom of the pot mold 302 after blowing in high-boron-silicon glass material cake 5 and being
When 2~3mm, molding die 3 is closed, and machine 103 is blown by glass, secondary blowing mould is carried out to high-boron-silicon glass material cake 5, blown secondary
In mold process, for the pressure control of blowing in 4~6KPa, glass blows the central angle model that machine 103 rotates again relative to benchmark station
Enclosing is 100 °~200 °, and after secondary blowing mould, blowing terminates;
Step 4: feeding, successively opens molding die 3 and glass blows machine 103, the blank of blow molding is blown from glass
It is taken out in machine 103.
The feeding operation of the cake of high-boron-silicon glass material described in the present embodiment 5 includes the following steps: firstly, by high-boron-silicon glass
Material cake 5 is placed on pallet 206;Then, 90 ° of rotary cylinder B203 startings, 90 ° of rotary cylinder B203 drive horizontal swing arm B207
Make 90 ° of beats, when horizontal swing arm B207 beat in place when, by its swinging end arc backup plate 208 control high-boron-silicon glass material cake 5
With the concentricity of pallet 206;Then, jacking cylinder 202 starts, and jacking cylinder 202 drives pallet 206 to jack upwards, and will be high
5 support of Pyrex material cake is to the lower end surface of Pneumatic suction cup 205;Finally, 90 ° of rotary cylinder A201 and Pneumatic suction cup 5 open simultaneously
Dynamic, 90 ° of rotary cylinder A201 drive horizontal swing arm A204 to make 90 ° of beats, when horizontal swing arm A204 beat in place when, Pneumatic suction cup
5 are placed in the high-boron-silicon glass material cake 5 being adsorbed on its lower end surface on grip block 7.
6 sets of glass are uniformly distributed with along the circumference in the rotation rack 102 of annular described in the present embodiment blows machine 103 and corresponding
The velocity of rotation of molding die, annular rotation rack is 1~2r/min;The 90 ° of rotary cylinder A and spray of the feeder are filled
The spray head set is 0 °~50 ° relative to the size for the central angle alpha that the central axis of annular rotation rack is in.
Glass blows blowing (including a blowing mould and secondary blowing mould) of the machine 103 to high-boron-silicon glass material cake 5 in the present embodiment
It operates as follows: firstly, cylinder B22 is acted, pushing air blowing pressing plate 19 to move downward until air blowing pressing plate 19 covers on grip block 7
High-boron-silicon glass material cake 5 on, then, motor B24 starting, motor B24 drives glass with this by 23 drive sprocket 21 of chain
Glass blows machine 103 and is rotated with blowing arbor 20 for axle center, and then, PLC controller is according to when a blowing mould and secondary blowing mould pairs
Glass blows the requirement for the air pressure supplied needed for machine 103, switching value command signal is exported, respectively to solenoid valve A30 and solenoid valve B31
The switch state and glass is blown blown on machine 103 proportioning valve 33 on the gas transmission branch pipe 32 where arbor 20 aperture carry out it is real
When control.
Embodiment 3
Thus the blowing method of the present embodiment blow-forming facility based on embodiment 1 and embodiment 2 is blown referring to Figure 11, Figure 12
Molding health-promotion kettle is made with kettle body 48, is equipped with the sinking mouth 49 for nested electric heating plate in 48 bottom of kettle body;Kettle body 48
Side wall and its bottom of the pot joint are set as globoidal structure 50, and the bending radius of globoidal structure 50 is R2.5 ± 0.5mm, as a result, substantially
The bending radius for reducing to degree globoidal structure 50, improves the aesthetics of shaped article, also efficiently utilizes and be nested with
Electric heating plate heating area.
Claims (5)
1. a kind of high-boron-silicon glass health-promotion kettle blow-forming facility, it is characterized in that: including the feed for high-boron-silicon glass material cake feeding
It mechanism, the blowing mechanism for being blown to high-boron-silicon glass material cake and high-boron-silicon glass health-promotion kettle molding die and is used for
The spray equipment of water cooling is carried out to molding die;
The feeder includes 90 ° of rotary cylinder A, jacking cylinder and the 90 ° of rotary cylinders that left, center, right are successively arranged side by side
B;The output end of 90 ° of rotary cylinder A connects one end of horizontal swing arm A, and the other end of horizontal swing arm A is equipped with Pneumatic suction cup;It is pushing up
The telescopic end for rising cylinder is equipped with pallet, and the Pneumatic suction cup is used to the high-boron-silicon glass material cake of support on pallet being transferred to blowing
Mechanism;The output end of 90 ° of rotary cylinder B connects one end of horizontal swing arm B, and the other end of horizontal swing arm B is equipped with for for support
The arc backup plate that the high-boron-silicon glass material cake of support is positioned on disk;
It is described blowing mechanism include driven by motor A annular rotation rack, annular rotation rack on be circumferentially equipped with to
Few three table glass pots blow machine, are fitted on the output shaft of motor A and blow the encoder set seat in the plane for monitoring every table glass pot, often
Table glass pot blows machine and is equipped with a control cabinet;The glass pot blows the annular slide track and be used for that machine includes upper and lower arranged concentric
The ring gripping plate of high-boron-silicon glass material cake is clamped, wherein the center of grip block is equipped with through-hole, and annular slide track and grip block are all provided with
For upper and lower corresponding three separation structure, and it is made of base unit and the left and right left and right folding unit being arranged symmetrically, wherein
The base unit of annular slide track and grip block is connected as one formula structure by pedestal, and pedestal is by being arranged in its arranged on left and right sides
Articulated shaft be respectively articulated with left connector and right connector, the left folding unit of annular slide track and grip block is connected by left connector
It is connected in one, the right folding unit of annular slide track and grip block is connected as one by right connector;It is left and right in annular slide track
For each symmetrical dress in two sides there are two rolling bearing, each rolling bearing is each attached to the lower end of a vertical axes, and ipsilateral two vertical
The upper end of axis is fixedly connected with the two corners of the triangle connecting plate above annular slide track, each triangle connecting plate the third angle hinge
First jiao of triangular jaws is connect, second jiao of triangular jaws is hinged on articulated shaft, triangular jaws the third angle articulated linkage one
End, the other end of connecting rod are fixedly connected with the telescopic end of cylinder A, and cylinder A pedestal is fixed in annular rotation rack, grip block
Upside connects equipped with the air blowing pressing plate with its through-hole arranged concentric, air blowing pressing plate with the arbor one end of blowing for passing through annular slide track center
It connects, blows the arbor other end and connect with sprocket wheel, sprocket wheel is connect with the push rod of cylinder B, is also equipped in annular rotation rack for passing through
The motor B of chain drive sprocket;
The blow-forming facility further includes air supply system, and air supply system is equipped with high-pressure air feed tank and low pressure air feed tank, high-pressure air feed tank
It is corresponded to low pressure air feed tank and gas distributing chamber is connected with appendix B by appendix A, and is corresponding equipped with electricity in appendix A and appendix B
Magnet valve A and solenoid valve B;Gas distributing chamber be equipped with several and it is each blowing mechanism on the gas transmission branch pipe for blowing arbor and being connected, and
Proportioning valve is housed on every gas transmission branch pipe;PLC controller, the PLC are housed in the control cabinet that every glass pot blows machine
Controller communication connects encoder, and the location information where machine is blown according to the glass pot got in real time, rotates respectively to 90 °
The swing state of cylinder A carries out real-time control to the switch state of solenoid valve A and solenoid valve B and the aperture of comparative example valve;
Equipped with the fixing axle arranged vertically in annular rotation rack, it is hinged with left and right mold hanging plate by axle center of fixing axle, often
Arc convex is equipped at the top of a mold hanging plate for installing high-boron-silicon glass health-promotion kettle molding die, each mold hanging plate back side
It is hinged with the telescopic end of cylinder C, the pedestal of cylinder C is hinged in annular rotation rack;The molding die is by pot wall mould
Assembled with bottom of the pot mold, molding die is arranged in the underface of grip block and coaxially arranges, the inner cavity of molding die
Match with the shape of high-boron-silicon glass health-promotion kettle, is equipped in the outside wall surface of pot wall mould matched with the arc convex
L shape barb, pot wall mould is docked by the pot wall mould A and pot wall mould B being divided into two along center, under bottom of the pot mold
A removable pin is equipped at Fang Zhongxin, the bottom of pot wall mould B is equipped with the strip radially arranged along bottom of the pot mold by bolt
Limited block, limited block are equipped with kidney slot, and the removable pin can be slided in kidney slot after pot wall mould B and bottom of the pot mold assemble
Dynamic, the inner cavity of pot wall mould A and pot wall mould B are along the circumferential direction equipped with several protrusions according to the shape of high-boron-silicon glass pot
Portion, at the top of the inner wall of pot wall mould A and pot wall mould B, the knot of bottom and each lug boss and each lug boss and inner cavity
Circumferentially there are several perforative stomatas in conjunction portion, and bottom of the pot mold also offers several perforative stomatas;
The spray head of the spray equipment rotates the radial of rack along annular and arranges, and opposite with molding die in height
It answers.
2. a kind of high-boron-silicon glass health-promotion kettle blow-forming facility according to claim 1, it is characterized in that: horizontal swing arm A's
Non- swinging end is opened up along its longitudinal direction there are two the strip-shaped hole that is arranged side by side, by passing through the fastening bolt of strip-shaped hole for water
The non-swinging end of flat pendulum arm A is fastened on the output end of 90 ° of rotary cylinder A;It is equipped with bracket on Pneumatic suction cup, and is filled on bracket
There is caging bolt, when horizontal swing arm A drives Pneumatic suction cup to make 90 ° of beats, caging bolt is mutually touched with air blowing pressing plate.
3. a kind of high-boron-silicon glass health-promotion kettle blow-forming facility according to claim 1, it is characterized in that: the annular rotating machine
It is uniformly distributed with 6 sets or 12 sets blowing mechanisms and corresponding molding die on frame along the circumference;On the joint face of the pot wall mould A
Equipped with the bolt perpendicular to joint face, is corresponded on the joint face of pot wall mould B and be equipped with jack at bolt.
4. a kind of high-boron-silicon glass health-promotion kettle blow-forming facility according to claim 1, it is characterized in that: the feeder
The spray head of 90 ° of rotary cylinder A and spray equipment is relative to the size of the central axis central angle alpha that is in of annular rotation rack
0 °~50 °.
5. a kind of high-boron-silicon glass health-promotion kettle blow-forming facility according to claim 1, it is characterized in that: the aperture of the stomata
For 5~15mm.
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CN108821545A (en) * | 2018-07-19 | 2018-11-16 | 湖北瑞信养生用品科技有限公司 | A kind of high-boron-silicon glass health-promotion kettle and its blow-forming facility and blowing method |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108821545A (en) * | 2018-07-19 | 2018-11-16 | 湖北瑞信养生用品科技有限公司 | A kind of high-boron-silicon glass health-promotion kettle and its blow-forming facility and blowing method |
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