CN104445876B - Shaping mould mold cooling body - Google Patents

Shaping mould mold cooling body Download PDF

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Publication number
CN104445876B
CN104445876B CN201410801212.XA CN201410801212A CN104445876B CN 104445876 B CN104445876 B CN 104445876B CN 201410801212 A CN201410801212 A CN 201410801212A CN 104445876 B CN104445876 B CN 104445876B
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China
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panel
cooling
cooling wind
piston
shaping mould
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CN104445876A (en
Inventor
王晓亮
李辉
岳婷婷
曹彬
邢涛
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Shandong Sanjin Glass Machinery Co Ltd
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Shandong Sanjin Glass Machinery Co Ltd
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Abstract

Shaping mould mold cooling body belongs to the former field of individual section machine.Including two symmetrically arranged tong arms(1)And it is fixed on tong arm(1)The panel of inside(2), panel(2)Inside is equipped with mold clamping jaw(3), in the mold clamping jaw(3)Place offers cooling air outlet(4), panel(2)Inside offer each cooling air outlet of connection(4)Panel cooling wind channel(15), panel(2)Lower section is equipped with connection panel cooling wind channel(15)Air-supply arrangement.Cooling wind is passed through panel cooling wind channel by air-supply arrangement(15)Reach cooling air outlet(4)Place, cooling wind act directly on shaping mould mold, and cooling wind is not stopped by former other structures, quick, intermittent cooling can be carried out to shaping mould mold, and cooling wind is to act directly on the surface of shaping mould mold, cooling efficiency is high, to effectively improve machine speed, ensure product quality.

Description

Shaping mould mold cooling body
Technical field
Shaping mould mold cooling body belongs to the former field of individual section machine.
Background technology
With the development of science and technology with rapid changepl. never-ending changes and improvements, current international and domestic market is to high efficiency, multi items, good The demand of bottle-making machine is continuously increased.Currently, the shaping mould die side cooling body used in most domestic glass factory is single side To cooling, product qualification rate is low, fast low, the incomplete development for seriously constraining bottle-making machine of shaping mould mold cooling of machine.
Previous cooling body, since mechanism space very little, mold follow tong arm to move on frame, cooling body can only be consolidated It is scheduled on tong arm periphery, for cooling wind by many means blocks, cooling efficiency is low, and shaping mould mold is caused to overheat, to ensure product Quality can only reduce machine speed.Continuous coo1ing wind can only be designed as by promoting cooling effect, manually control air door valve plate, but beat in mold Cooling wind can influence product when holding, and rejection rate is caused to increase.
Invention content
The technical problem to be solved by the present invention is to:Overcome the deficiencies of the prior art and provide it is a kind of it is simple and practical in structure, at Pattern mold carries out 360 ° of coolings, the shaping mould mold cooling that high-efficiency omnibearing is cooled to pattern mold, can effectively improve machine speed Mechanism.
The technical solution adopted by the present invention to solve the technical problems is:The shaping mould mold cooling body, including two Symmetrically arranged tong arm and the panel being fixed on the inside of tong arm, panel inside are equipped with mold clamping jaw, are pressed from both sides in the mold It holds and offers cooling air outlet at jaw, the inside of panel offers the panel cooling wind channel for being connected to each cooling air outlet, embedding The air-supply arrangement in connection panel cooling wind channel is equipped with below plate.Air-supply arrangement reaches cooling wind by panel cooling wind channel At cooling air outlet, cooling wind acts directly on shaping mould mold, and cooling wind is not stopped by former other structures, energy It is enough that quick, intermittent cooling is carried out to shaping mould mold, and cooling wind is to act directly on the surface of shaping mould mold, cooling effect Rate is high, to effectively improve machine speed, ensures product quality.
Preferably, the mold clamping jaw is the arc being adapted with shaping mould outer mold wall, and cooling air outlet is located at The middle part of mold clamping jaw, and cooling air outlet is the arc being laterally arranged along mold clamping jaw.It is cold on the panel of both sides But wind outlet carries out 360 ° of coolings to shaping mould mold, and high-efficiency omnibearing is cooled to pattern mold, improves cooling efficiency.
Preferably, the air-supply arrangement includes ajutage, support base and sleeve, and ajutage upper end is connected to panel cooling wind Channel, ajutage lower end connect support base, and sleeve is fixed on the downside of support base and is connected with ajutage, under sleeve End is cooling wind air inlet, and the piston for being equipped with control cooling wind air inlet break-make is slided in sleeve, is opened on support base and sleeve Control fluid channel equipped with control piston sliding.Piston sliding is controlled by compressed air or hydraulic oil, and then is controlled automatically The opening and closing of cooling wind air inlet processed are automatically controlled by control system and provide intermittent gas supply, make product mold not It will not be cooled wind effect when closure, improve product quality, and pistons work, structure letter are controlled by controlling fluid Single, reliable operation avoids force device from failing under high temperature environment, improves service life.
Preferably, the piston is axially slidably arranged in sleeve, and piston base forms cooling wind air inlet and seals, living Portion is slidably arranged in a piston bush beyond the Great Wall, is fixedly connected on the inside of the side of piston bush and sleeve, piston bush and sleeve lining Between with cooling wind by sleeve cooling wind channel, the inner cavity upper end connection control fluid channel of piston bush, piston also connects It is connected to the resetting-mechanism for pushing its upward sliding, control fluid enters piston bush inner cavity by control fluid channel, pushes piston Lower end skids off downwards sleeve, opens cooling wind air inlet.When tong arm is opened, control fluid channel is closed, and resetting-mechanism pushes Piston moves up to close cooling wind air inlet, avoid at this time cooling wind shaping mould mold is cooled down, realize automatic intermittent Formula provides cooling wind, and simple in structure, reliable operation ensures product quality.
Preferably, the resetting-mechanism includes resetting spring and bottom plate, and below the fixes sleeve of bottom plate interval, resetting spring is perpendicular It is fixed between piston and bottom plate to flexible.Simple in structure, installation, maintenance is convenient.
Preferably, there are one downwardly open spring retention chamber, the opening of spring retention chamber is fixed with the piston tool One buffer stopper, resetting spring top are stretched into spring retention chamber and are connect with buffer stopper.By adjusting resetting spring and buffer stopper Relative position, can adjust thrust of the resetting spring to piston, never adjust the opening degree of cooling wind air inlet, adjusting side Just, and buffer stopper can be to piston into row buffering, and reliable operation delays the mutual gouging abrasion of piston and sleeve, raising to make Use the service life.
Preferably, the piston lower portion is up-small and down-big taper.The piston lower portion of taper is good with sleeve seal effect, It when shaping mould mold is opened, avoids cooling wind from entering air-supply arrangement and mold is cooled down, improve product quality, and can be fast Speed opens cooling wind air inlet, controls high sensitivity.
Preferably, the control fluid channel includes the first control fluid channel being opened in support base and the second control Fluid channel processed and the third control fluid channel being opened in sleeve lateral wall, the first control fluid channel are positioned horizontally in support The both ends of the inside of pedestal, the second control fluid channel are respectively communicated with the first control fluid channel and third control fluid channel, Third controls the inner cavity of fluid channel lower end connection piston bush.Control fluid channel is opened up in support base and sleeve, is overcome It the shortcomings that common fluid pipeline non-refractory, and good airproof performance, avoids revealing, it is stable and reliable in work, while pollution being avoided to produce Product improve product qualification rate.
Preferably, the ajutage includes the upper ajutage being mutually socketed and lower ajutage, and upper ajutage upper end passes through upper Oscillating bearing connects panel, and lower ajutage lower end connects support base by ShiShimonoseki bearings.With tong arm activity, ajutage energy Enough with the free stretching motion of tong arm, cooling wind is set to act directly on shaping mould mold border, cooling effect significantly improves, pole It is big to improve machine speed, and can meet the needs of different height product, reduce the quantity of parts, using more convenient.
Preferably, set on the panel there are three mold clamping jaw arranged side by side, opened up on the inside of panel there are two point Not Lian Tong air-supply arrangement cooling wind transfer chamber, the mold clamping jaw of panel end is connected to by a panel cooling wind channel Corresponding cooling wind transfer chamber, the mold clamping jaw in the middle part of panel pass through panel cooling wind channel and two cooling wind transfers Chamber is respectively communicated with.The shaping mould mold at middle part passes through two panel cooling wind channels pair because in intermediate heat dissipation is worst The shaping mould mold at middle part is fully cooled, it is ensured that all shaping mould molds are all adequately cooled, and improve product Quality, and two cooling wind transfer chambers can carry out uniform divided flows to the cooling wind of air-supply arrangement, and pass through panel cooling wind Channel makes cooling wind uniformly reach each cooling air outlet, it is ensured that each shaping mould mold uniformly cools down, and product quality is stablized.
Compared with prior art, advantageous effect possessed by the present invention is:
1, air-supply arrangement reaches cooling wind at cooling air outlet by panel cooling wind channel, and cooling wind acts directly on On shaping mould mold, cooling wind is not stopped by former other structures, can be carried out to shaping mould mold quick, intermittently cold But, and cooling wind is to act directly on the surface of shaping mould mold, and cooling efficiency is high, to effectively improve machine speed, ensures production Quality.
2, cooling air outlet is the arc being laterally arranged along mold clamping jaw.Cooling air outlet on the panel of both sides at Pattern mold carries out 360 ° of coolings, and high-efficiency omnibearing is cooled to pattern mold, improves cooling efficiency.
3, by compressed air or hydraulic oil come control piston sliding, and then automatically control cooling wind air inlet unlatching and It closes, is automatically controlled by control system and intermittent gas supply is provided, product is made not to be cooled wind shadow when mold is not closed It rings, improves product quality, and pistons work is controlled by controlling fluid, simple in structure, reliable operation avoids force device It fails under high temperature environment, improves service life.
4, the shortcomings that opening up control fluid channel in support base and sleeve, overcoming common fluid pipeline non-refractory, And good airproof performance, it avoids revealing, it is stable and reliable in work, while polluted product is avoided, improve product qualification rate.
5, with tong arm activity, ajutage can be such that cooling wind acts directly on into the free stretching motion of tong arm Pattern mold border, cooling effect significantly improve, and greatly improve machine speed, and can meet the needs of different height product, The quantity for reducing parts, using more convenient.
Description of the drawings
Fig. 1 is the dimensional structure diagram of the shaping mould mold cooling body.
Fig. 2 is the vertical view of the shaping mould mold cooling body.
Fig. 3 is the front view of the shaping mould mold cooling body.
Fig. 4 is the structural schematic diagram of air-supply arrangement.
Fig. 5 is the vertical view of Fig. 4.
Fig. 6 is the sectional view at A-A in Fig. 5.
Fig. 7 is the sectional view at B-B in Fig. 6.
Wherein:1, tong arm 2, panel 3, mold clamping jaw 4, cooling air outlet 5, support plate 6, connecting pin 7, bolt 8, limiting slot 9, support base 10, ShiShimonoseki bearings 11, support base 12, sleeve 13, pad pipe 14, Bottom plate 15, panel cooling wind channel 16, cooling wind transfer chamber 17, upper joint bearing 18, upper ajutage 19, under give Air hose 20, piston bush 21, resetting spring 22, piston 23, buffer stopper 24, sleeve cooling wind channel 25, third It controls fluid channel 26, second and controls the control of fluid channel 27, first fluid channel 28, pouring orifice 29, lubricating oil Channel 30, control fluid inlet.
Specific implementation mode
Fig. 1 ~ 7 are the most preferred embodiments of the shaping mould mold cooling body, and 1 ~ 7 couple of present invention is done into one below in conjunction with the accompanying drawings Walk explanation.
The shaping mould mold cooling body, including two symmetrically arranged tong arms 1 and the panel for being fixed on 1 inside of tong arm 2,2 inside of panel is equipped with mold clamping jaw 3, cooling air outlet 4 is offered at mold clamping jaw 3, the inside of panel 2 is opened Equipped with the panel cooling wind channel 15 for being connected to each cooling air outlet 4,2 lower section of panel is equipped with sending for connection panel cooling wind channel 15 Wind apparatus, air-supply arrangement reach cooling wind at cooling air outlet 4 by panel cooling wind channel 15, and cooling wind acts directly on On shaping mould mold, cooling wind is not stopped by former other structures, can be carried out to shaping mould mold quick, intermittently cold But, and cooling wind is to act directly on the surface of shaping mould mold, and cooling efficiency is high, to effectively improve machine speed, ensures production Quality.
Referring to Fig.1~2,2 upside of panel is rotatablely connected tong arm 1 by a support plate 5, specifically, the longitudinal section of tong arm 1 For L-shaped, panel 2 is horizontally supported on the upside of the horizontal part of tong arm 1, and support plate 5 is solid by the upper end of bolt 7 and 1 vertical portion of tong arm Fixed connection, support plate 5 is rotatablely connected by a connecting pin 6 and 2 upside of panel, while vertical positioning is carried out to panel 2, is tied Structure is simple, reliable operation.It is improved as further, 2 upside of panel opens up that there are one opposite with support plate 5 in the present embodiment The limiting slot 8 for the V-arrangement answered, the side that support plate 5 is connect with panel 2 are the triangle being fixed in limiting slot 8, and limiting slot 8 The angle of two sides is more than the angle of 5 respective side of support plate, and panel 2 can be rotated around support plate 5, but support plate 5 passes through limit Position slot 8 limits the rotational angle of panel 2, and 2 rotational angle of panel is realized using the structure of panel 2 and support plate 5 itself Limit, simple in structure, secured, reliable operation.
Preferably, mold clamping jaw 3 is the arc being adapted with shaping mould outer mold wall, jail is carried out to shaping mould mold Gu clamping, cooling air outlet 4 is located at the middle part of mold clamping jaw 3, and cooling air outlet 4 is lateral along mold clamping jaw 3 The arc of setting, the cooling air outlet 4 on both sides panel 2 carry out 360 ° of coolings to shaping mould mold, and high-efficiency omnibearing is cooled to Pattern mold improves cooling efficiency.
Air-supply arrangement includes ajutage, support base 11 and sleeve 12, and ajutage upper end is connected to panel cooling wind channel 15, Ajutage lower end connects support base 11, and sleeve 12 is fixed on the downside of support base 11 and is connected with ajutage, sleeve 12 Lower end be cooling wind air inlet, cooling wind air inlet is connected to the cooling wind in frame body, in sleeve 12 sliding be equipped with control it is cold But it is logical that the control fluid that control piston 22 slides is offered on the piston 22 of wind air inlet break-make, support base 11 and sleeve 12 Road.It is slided by gas or hydraulic oil to control piston 22, and then automatically controls the opening and closing of cooling wind air inlet, passed through Control system, which automatically controls, provides intermittent gas supply, so that product is not cooled wind effect when mold is not closed, improves production Quality, and by controlling fluid(Gas or liquid)It works to control piston 22, simple in structure, reliable operation avoids electricity Power element fails under high temperature environment, improves service life.
It is set on each panel 2 in the present embodiment there are three mold clamping jaw 3 arranged side by side, three can be clamped simultaneously Shaping mould mold improves working efficiency, and 2 inside of panel is opened up there are two the cooling wind transfer chamber 16 for being respectively communicated with air-supply arrangement, The mold clamping jaw 3 of 2 end of panel is connected to corresponding cooling wind transfer chamber 16 by a panel cooling wind channel 15, embedding The mold clamping jaw 3 at 2 middle part of plate is respectively communicated with by panel cooling wind channel 15 and two cooling wind transfer chambers 16, middle part Shaping mould mold is because in centre heat dissipation is worst, by two panel cooling wind channels 15 to the shaping mould mold at middle part It is fully cooled, it is ensured that all shaping mould molds are all adequately cooled, and improve product quality, and the present embodiment In two cooling wind transfer chambers 16 can carry out uniform divided flows to the cooling wind of air-supply arrangement, and pass through panel cooling wind channel 15 make cooling wind uniformly reach each cooling air outlet 4, it is ensured that each shaping mould mold uniformly cools down, and product quality is stablized.
With reference to Fig. 3, piston 22 is arranged in axial sliding in sleeve 12, and 22 bottom of piston forms cooling wind air inlet close Envelope, 22 top of piston are slidably arranged in a piston bush 20, and the side of piston bush 20 is fixedly connected with 12 inside of sleeve, piston Set 20 and 12 inner wall of sleeve between with cooling wind by sleeve cooling wind channel 24, piston bush 20 inner cavity upper end connection control Fluid channel processed, 22 lower end of piston are connected with the resetting spring 21 for pushing its upward sliding, and control fluid is by control fluid Channel enters 20 inner cavity of piston bush, and 22 lower end of piston is pushed to skid off sleeve 12 downwards, cooling wind air inlet is opened, in shaping mould mould When tool opening, control fluid is closed, and resetting spring 21 pushes piston 22 to move upwards to close cooling wind air inlet, realizes certainly Dynamic control.12 lower section of sleeve is fixed at intervals a bottom plate 14 by padding pipe 13, and what resetting spring 21 vertically stretched is fixed on work Between plug 22 and bottom plate 14, preferably, there are one downwardly open spring retention chamber, the openings of spring retention chamber for the tool of piston 22 Fixed there are one buffer stoppers 23, and 21 top of resetting spring is stretched into spring retention chamber and connect with buffer stopper 23.
22 lower part of piston is up-small and down-big taper in the present embodiment, and control fluid forces piston 22 overcomes resetting spring 21 Thrust when moving downward, cooling wind can enter in sleeve 12 quickly through cooling wind air inlet, and reaction speed is fast, and bore 22 lower part of piston of shape and 12 sealing effect of sleeve are good, when shaping mould mold is opened, cooling wind are avoided to enter air-supply arrangement pair Mold is cooled down, and product quality is improved.
With reference to Fig. 4, ajutage includes the upper ajutage 18 being mutually socketed and lower ajutage 19, and 18 upper end of upper ajutage passes through 17 connecting support seat 9 of upper joint bearing, support base 9 are fixed on the lower section of tong arm 1, and upper ajutage 18 passes through support base 9 and tong arm 1 It is connected to cooling wind transfer chamber 16, lower 19 lower end of ajutage connects support base 11 by ShiShimonoseki bearings 10, as tong arm 1 is lived Dynamic, ajutage can allow cooling wind to act directly on shaping mould mold border, cooling effect with 1 free stretching motion of tong arm Fruit significantly improves, and greatly improves machine speed, and can meet the needs of different height product, reduces the quantity of parts, Using more convenient.In the production process of glass bottle and jar, to adapt to the different height of product, upper ajutage 18 and lower ajutage 19 Have length different two sets are available.
With reference to Fig. 5~7, control fluid channel includes the first control fluid channel 27 being opened in support base 11 and the Two control fluid channels 26 and the third control fluid channel 25 being opened on 12 side wall of sleeve, the first control fluid channel 27 It is positioned horizontally in the inside of support base 11, the both ends of the second control fluid channel 26 are respectively communicated with 27 He of the first control fluid channel Third controls fluid channel 25, and third controls the inner cavity of 25 lower end of fluid channel connection piston bush 20, opened up in support base 11 There are the control fluid inlet 30 of connection the first control fluid channel 27, piston bush 20 to be structure as a whole with sleeve 12, good airproof performance, It is easy for installation.The present invention overcomes common fluid pipeline not by opening up control fluid channel in support base 11 and sleeve 12 Heat safe disadvantage, and good airproof performance avoid revealing, stable and reliable in work, while avoiding polluted product, and it is qualified to improve product Rate.
With reference to Fig. 6, the grease channel 29 of connection ShiShimonoseki bearings 10, branch are further opened in 11 inside of support base The pouring orifice 28 that pedestal 11 is equipped with connection grease channel 29 is supportted, ShiShimonoseki nodal axisn is given by pouring orifice 28 and grease channel 29 10 offer lubricant greases are provided, ensures the normal work of ShiShimonoseki bearings 10, grease channel 29 is opened up in support base 11, are tied Structure is simple, reduces the pipeline of equipment, and the structure that lubricant grease is provided for upper joint bearing 17 is equipped with equally on support base 9.
The course of work:Control fluid in the present embodiment is compressed air, clack box(It is not drawn into figure)It is equipped with and control " the 360 ° of coolings of shaping mould mold " gas circuit that the control fluid inlet 30 of fluid channel is connected to, when work, tong arm 1 is opened, at this time " the 360 ° of coolings of shaping mould mold " gas circuit is closed, and without cooling wind, semi-finished product are turned to shaping mould by brank, and the closure of tong arm 1 makes Mold encases semi-finished product, and support base 9 follows tong arm 1 to move, and upper ajutage 18 and the sliding of lower ajutage 19 are elongated, clack box " molding 360 ° of coolings of mould mold " gas circuit is connected, and compressed air is entered by the control fluid inlet 30 in Fig. 7, along the first control fluid Channel 27 enters the second control fluid channel 26, enters in piston bush 20 eventually by the third control fluid channel 25 in Fig. 6 Side, piston 22 start downlink by compressed air-driven, and sleeve 12 is whole in frame inner cavity, and piston 22 is once opening, frame body Interior cooling wind enters sleeve cooling wind channel 24 by cooling wind air inlet, and passes through ajutage and panel cooling wind channel 15 pairs of shaping mould molds cool down, and subsequent tong arm 1 is opened, and support base 9 follows tong arm 1 to move, upper ajutage 18 and lower air-supply The sliding of pipe 19 is shortened, and clack box " the 360 ° of coolings of shaping mould mold " gas circuit is closed, and the compressed air controlled in fluid channel is reduced, multiple Position spring 21 drives piston 22 to start uplink, and cooling wind air inlet is closed, and cooling wind no longer carries out shaping mould mold cold at this time But.The shaping mould mold cooling body can carry out 360 ° of borders to shaping mould mold and cool down, the intermittent supply of cooling wind, greatly Promotion bottle-making machine machine speed and product qualification rate.
It the above is only highly preferred embodiment of the present invention, the present invention can also use other structures.
Cooling wind transfer chamber 16 in the present invention can be one, can also be three and be respectively communicated with each mold gripper clamp Mouth 3;The inside of panel 2 can also be arranged the mold clamping jaw 3 of other quantity, cooling air outlet 4 can be it is rectangular, can also be by Multiple hole shape structures compositions or horn-like;Ajutage can be metal hose;The sleeve for the setting that piston 22 can radially slide In 12;Resetting-mechanism can also use 22 upward sliding of Hydraulic Cylinder piston;Control fluid channel can also only be opened in set On cylinder.The present invention can be above arbitrary combination.
The above described is only a preferred embodiment of the present invention, being not that the invention has other forms of limitations, appoint What those skilled in the art changed or be modified as possibly also with the technology contents of the disclosure above equivalent variations etc. Imitate embodiment.But it is every without departing from technical solution of the present invention content, according to the technical essence of the invention to above example institute Any simple modification, equivalent variations and the remodeling made, still fall within the protection domain of technical solution of the present invention.

Claims (8)

1. a kind of shaping mould mold cooling body, including two symmetrically arranged tong arms(1)And it is fixed on tong arm(1)Inside Panel(2), panel(2)Inside is equipped with mold clamping jaw(3), it is characterised in that:In the mold clamping jaw(3)Place opens up There is cooling air outlet(4), panel(2)Inside offer each cooling air outlet of connection(4)Panel cooling wind channel(15), embedding Plate(2)Lower section is equipped with connection panel cooling wind channel(15)Air-supply arrangement;The mold clamping jaw(3)It is and shaping mould mould Have the adaptable arc of outer wall, cooling air outlet(4)Positioned at mold clamping jaw(3)Middle part, and cooling air outlet(4)It is edge Mold clamping jaw(3)The arc being laterally arranged;The panel(2)On set that there are three mold clamping jaws arranged side by side(3), Panel(2)Inside opens up that there are two be respectively communicated with the cooling wind transfer chamber of air-supply arrangement(16), panel(2)The mold of end is clamped Jaw(3)Pass through a panel cooling wind channel(15)It is connected to corresponding cooling wind transfer chamber(16), panel(2)The mould at middle part Has clamping jaw(3)Pass through panel cooling wind channel(15)With two cooling wind transfer chambers(16)It is respectively communicated with;Panel(2)Upside Open up there are one and support plate(5)The limiting slot of corresponding V-arrangement(8), support plate(5)With panel(2)The side of connection is solid It is scheduled on limiting slot(8)Interior triangle, and limiting slot(8)The angle of two sides is more than support plate(5)The angle of respective side.
2. shaping mould mold cooling body according to claim 1, it is characterised in that:The air-supply arrangement includes air-supply Pipe, support base(11)And sleeve(12), ajutage upper end is connected to panel cooling wind channel(15), the connection support of ajutage lower end Pedestal(11), sleeve(12)It is fixed on support base(11)Downside and be connected with ajutage, sleeve(12)Lower end be it is cold But wind air inlet, sleeve(12)Interior sliding is equipped with the piston of control cooling wind air inlet break-make(22), support base(11)And set Cylinder(12)On offer control piston(22)The control fluid channel of sliding.
3. shaping mould mold cooling body according to claim 2, it is characterised in that:The piston(22)It slides axially and sets It sets in sleeve(12)It is interior, piston(22)Bottom forms cooling wind air inlet and seals, piston(22)Top is slidably arranged in one Piston bush(20)It is interior, piston bush(20)Side and sleeve(12)Inside is fixedly connected, piston bush(20)With sleeve(12)Inner wall Between with cooling wind by sleeve cooling wind channel(24), piston bush(20)Inner cavity upper end connection control fluid channel, Piston(22)It is also associated with the resetting-mechanism for pushing its upward sliding, control fluid enters piston bush by control fluid channel (20)Inner cavity pushes piston(22)Lower end skids off downwards sleeve(12), open cooling wind air inlet.
4. shaping mould mold cooling body according to claim 3, it is characterised in that:The resetting-mechanism includes resetting bullet Spring(21)And bottom plate(14), bottom plate(14)It is spaced fixes sleeve(12)Lower section, resetting spring(21)That vertically stretches is fixed on work Plug(22)With bottom plate(14)Between.
5. shaping mould mold cooling body according to claim 4, it is characterised in that:The piston(22)Tool there are one to The spring retention chamber of under shed, there are one buffer stoppers for the opening fixation of spring retention chamber(23), resetting spring(21)It stretches on top Enter spring retention chamber and and buffer stopper(23)Connection.
6. according to claim 2~5 any one of them shaping mould mold cooling body, it is characterised in that:The piston(22) Lower part is up-small and down-big taper.
7. shaping mould mold cooling body according to claim 2 or 3, it is characterised in that:The control fluid channel packet It includes and is opened in support base(11)The first interior control fluid channel(27)With the second control fluid channel(26)And it is opened in Sleeve(12)Third on side wall controls fluid channel(25), the first control fluid channel(27)It is positioned horizontally in support base(11) Inside, second control fluid channel(26)Both ends be respectively communicated with the first control fluid channel(27)It is logical with third control fluid Road(25), third control fluid channel(25)Lower end is connected to piston bush(20)Inner cavity.
8. shaping mould mold cooling body according to claim 2, it is characterised in that:The ajutage includes mutually socket Upper ajutage(18)With lower ajutage(19), upper ajutage(18)Upper end passes through upper joint bearing(17)Connect panel(2), under Ajutage(19)Lower end passes through ShiShimonoseki bearings(10)Connect support base(11).
CN201410801212.XA 2014-12-22 2014-12-22 Shaping mould mold cooling body Active CN104445876B (en)

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Application Number Priority Date Filing Date Title
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Publication number Priority date Publication date Assignee Title
US10899649B2 (en) * 2015-12-15 2021-01-26 Vitro, S.A.B. De C.V. System and method for cooling moulds for a machine used to form hollow glass items
CN111018318B (en) * 2019-12-24 2022-02-08 重庆市合川区金星玻璃制品有限公司 Glass pressure-blowing forming machine
CN111704348A (en) * 2020-08-04 2020-09-25 山东三金玻璃机械有限公司 Mould cooling mechanism that parallel switch type parison mold was used
CN113754250B (en) * 2021-09-25 2022-12-13 浙江恒雁通用设备有限公司 Single-drip pliers

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CN1020189C (en) * 1990-12-10 1993-03-31 郑可有 Cooling device in glass bottle blowing machine
GB2256868B (en) * 1991-06-21 1995-06-21 Vhc Ltd Apparatus and method for cooling a mould

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