CN104445876A - Forming die cooling mechanism - Google Patents

Abstract

The invention discloses a forming die cooling mechanism, and belongs to the field of forming equipment of independent-section bottle making machines. The forming die cooling mechanism comprises two symmetric tong arms (1) and inserting panels (2) which are fixed at the inner sides of the tong arms (1), wherein die clamping openings (3) are formed in the inner sides of the inserting panels (2); cooling air outlets (4) are formed in the die clamping openings (3); inserting panel cooling air channels (15) which are communicated with the cooling air outlets (4) are formed on the inserting panels; air supply devices which are communicated with the inserting panel cooling air channels (15) are arranged below the inserting panels (2). The air supply devices supply cooling air to the cooling air outlets (4) through the inserting panel cooling air channels (15); the cooling air directly acts on a forming die without being blocked by other structure of the forming equipment, so that the forming die can be rapidly and intermittently cooled; the cooling air directly acts on the surface of the forming die, so that the cooling efficiency is high, further the machine speed is effectively increased and the product quality is ensured.

Description

Shaping mould mold cools down mechanism

Technical field

Shaping mould mold cools down mechanism, belongs to the molding device field of individual section machine.

Background technology

Along with the development of the science and technology of making rapid progress, the current world and the domestic market demand to the bottle-making machine of high-level efficiency, multi items, high-quality constantly increases.At present, most domestic glasswork shaping mould die side cooling body used is single direction cooling, the development that conforming product rate is low, machine speed is low, shaping mould mold cools down not exclusively seriously constrains bottle-making machine.

Cooling body in the past, because on framework, mechanism space is very little, mould is followed tong arm and is moved, cooling body can only be fixed on tong arm periphery, and cooling air is by a lot of means block, and cooling efficiency is low, cause shaping mould mould overheated, for ensureing that quality product can only reduce machine speed.Promote cooling performance and can only be designed to continuous coo1ing wind, Non-follow control air door valve plate, but cooling air can affect goods when mould is opened, and causes scrap rate to increase.

Summary of the invention

The technical problem to be solved in the present invention is: overcome the deficiencies in the prior art, provide a kind of simple and practical, 360 ° of coolings are carried out to shaping mould mould, high-efficiency omnibearing is cooled to pattern mould, effectively can improves the shaping mould mold cools down mechanism of machine speed.

The technical solution adopted for the present invention to solve the technical problems is: this shaping mould mold cools down mechanism, the panel comprising two symmetrically arranged tong arms and be fixed on inside tong arm, mould holding jaw is provided with inside panel, cooling air outlet is offered at described mould holding jaw place, the inside of panel offers the panel cooling air passage being communicated with each cooling air outlet, is provided with the air-supply arrangement being communicated with panel cooling air passage below panel.Cooling air is arrived cooling air outlet place by panel cooling air passage by air-supply arrangement, cooling air acts directly on shaping mould mould, cooling air is not by the stop of other structures of molding device, can carry out fast shaping mould mould, intermittent cooling, and cooling air is the surface acting directly on shaping mould mould, cooling efficiency is high, thus effectively improves machine speed, ensures quality product.

Preferably, described mould holding jaw is the arc adapted with shaping mould outer mold wall, and cooling air outlet is positioned at the middle part of mould holding jaw, and cooling air outlet is the arc along mould holding jaw arranged transversely.Cooling air outlet on the panel of both sides carries out 360 ° of coolings to shaping mould mould, and high-efficiency omnibearing is cooled to pattern mould, improves cooling efficiency.

Preferably, described air-supply arrangement comprises blast tube, base for supporting and sleeve, blast tube upper end is communicated with panel cooling air passage, blast tube lower end connects base for supporting, sleeve is fixed on the downside of base for supporting and is connected with blast tube, the lower end of sleeve is cooling air blast inlet, and sliding in sleeve is provided with the piston of controlled cooling model wind blast inlet break-make, base for supporting and sleeve offers the control fluid channel that control piston slides.Carry out control piston by pressurized air or hydraulic efficiency oil to slide, and then the opening and closing of automatic controlled cooling model wind blast inlet, automatically control to provide intermittent type air feed by Controlling System, make goods can not be subject to cooling air impact when mould is not closed, improve the quality of products, and carry out control piston work by controlling fluid, structure is simple, reliable operation, avoids force device to lose efficacy in high temperature environments, improves work-ing life.

Preferably, described piston slides axially and is arranged in sleeve, piston base forms sealing to cooling air blast inlet, upper piston area is slidably arranged in a piston bush, the side of piston bush is fixedly connected with inside sleeve, there is between piston bush and sleeve lining the sleeve cooling air passage that cooling air passes through, the inner chamber upper end of piston bush is communicated with control fluid channel, piston is also connected with the resetting mechanism promoting its upward sliding, control fluid and enter piston bush inner chamber through controlling fluid channel, promote piston and skid off sleeve downwards, open cooling air blast inlet.When tong arm is opened, control fluid pathway closure, resetting mechanism promotes piston moves thus closes cooling air blast inlet, avoid now cooling air to cool shaping mould mould, realize automatic batch-type and provide cooling air, structure is simple, reliable operation, ensures quality product.

Preferably, described resetting mechanism comprises return spring and base plate, and below the fixed muffle of base plate interval, what return spring vertically stretched is fixed between piston and base plate.Structure is simple, and installation, maintenance is convenient.

Preferably, described piston has a spring retention chamber to lower opening, and the opening part of spring retention chamber is fixed with a buffer block, and return spring top is stretched into spring retention chamber and is connected with buffer block.By regulating the relative position of return spring and buffer block, return spring can be regulated the thrust of piston, never the opening degree of cooling air blast inlet is regulated, easy to adjust, and buffer block can cushion piston, reliable operation, delays the mutual gouging abrasion of piston and sleeve, improves work-ing life.

Preferably, described piston lower portion is up-small and down-big taper.Piston lower portion and the sleeve seal of taper are effective, when shaping mould mould is opened, avoid cooling air to enter air-supply arrangement and cool mould, improve the quality of products, and can open cooling air blast inlet fast, control highly sensitive.

Preferably, described control fluid channel comprises the first control fluid channel and second be opened in base for supporting and controls fluid channel and be opened in the 3rd in sleeve lateral wall to control fluid channel, first controls fluid channel water prosposition in the inside of base for supporting, second two ends controlling fluid channel are communicated with the first control fluid channel and the 3rd respectively and control fluid channel, and the 3rd control lower end, fluid channel is communicated with the inner chamber of piston bush.Offer in base for supporting and sleeve and control fluid channel, overcome the shortcoming of common fluid pipeline non-refractory, and good airproof performance, avoid revealing, working stability is reliable, avoids polluted product simultaneously, improves conforming product rate.

Preferably, described blast tube comprises the upper blast tube of socket mutually and lower blast tube, and upper blast tube upper end connects panel by upper joint bearing, and lower blast tube lower end connects base for supporting by hypozygal bearing.Along with tong arm is movable, blast tube can move with tong arm free-extension, makes cooling air can act directly on shaping mould mould border, cooling performance significantly improves, and greatly improves machine speed, and can meet the demand of different heights goods, decrease the quantity of component, use more convenient.

Preferably, described panel is provided with three mould holding jaws be arranged side by side, the cooling air transfer chamber that two are communicated with air-supply arrangement is respectively offered inside panel, the mould holding jaw of panel end passes through the corresponding cooling air transfer chamber of a panel cooling air channel connection, and the mould holding jaw in the middle part of panel is communicated with two cooling air transfer chambers respectively by panel cooling air passage.Middle part shaping mould mould because mediate dispel the heat the poorest, fully cooled by the shaping mould mould of two panel cooling air passages to middle part, guarantee that all shaping mould moulds are all cooled fully, improve the quality of products, and two cooling air transfer chambers can carry out uniform divided flows to the cooling air of air-supply arrangement, and make cooling air evenly arrive each cooling air outlet by panel cooling air passage, guarantee each shaping mould mould Homogeneous cooling, constant product quality.

Compared with prior art, the beneficial effect that the present invention has is:

1, cooling air is arrived cooling air outlet place by panel cooling air passage by air-supply arrangement, cooling air acts directly on shaping mould mould, cooling air is not by the stop of other structures of molding device, can carry out fast shaping mould mould, intermittent cooling, and cooling air is the surface acting directly on shaping mould mould, cooling efficiency is high, thus effectively improves machine speed, ensures quality product.

2, cooling air outlet is the arc along mould holding jaw arranged transversely.Cooling air outlet on the panel of both sides carries out 360 ° of coolings to shaping mould mould, and high-efficiency omnibearing is cooled to pattern mould, improves cooling efficiency.

3, carry out control piston by pressurized air or hydraulic efficiency oil to slide, and then the opening and closing of automatic controlled cooling model wind blast inlet, automatically control to provide intermittent type air feed by Controlling System, make goods can not be subject to cooling air impact when mould is not closed, improve the quality of products, and carry out control piston work by controlling fluid, structure is simple, reliable operation, avoids force device to lose efficacy in high temperature environments, improves work-ing life.

4, in base for supporting and sleeve, offer control fluid channel, overcome the shortcoming of common fluid pipeline non-refractory, and good airproof performance, avoid revealing, working stability is reliable, avoids polluted product simultaneously, improves conforming product rate.

5, along with tong arm is movable, blast tube can move with tong arm free-extension, makes cooling air can act directly on shaping mould mould border, cooling performance significantly improves, and greatly improves machine speed, and can meet the demand of different heights goods, decrease the quantity of component, use more convenient.

Accompanying drawing explanation

Fig. 1 is the perspective view of this shaping mould mold cools down mechanism.

Fig. 2 is the vertical view of this shaping mould mold cools down mechanism.

Fig. 3 is the front view of this shaping mould mold cools down mechanism.

Fig. 4 is the structural representation of air-supply arrangement.

Fig. 5 is the vertical view of Fig. 4.

Fig. 6 is the sectional view at A-A place in Fig. 5.

Fig. 7 is the sectional view at B-B place in Fig. 6.

Wherein: 1, tong arm 2, panel 3, mould holding jaw 4, cooling air outlet 5, back up pad 6, joint pin 7, bolt 8, stopper slot 9, supporting seat 10, hypozygal bearing 11, base for supporting 12, sleeve 13, pad pipe 14, base plate 15, panel cooling air passage 16, cooling air transfer chamber 17, upper joint bearing 18, upper blast tube 19, lower blast tube 20, piston bush 21, return spring 22, piston 23, buffer block 24, sleeve cooling air passage 25, 3rd controls fluid channel 26, second controls fluid channel 27, first controls fluid channel 28, pouring orifice 29, grease channel 30, control fluid intake.

Embodiment

Fig. 1 ~ 7 are most preferred embodiments of this shaping mould mold cools down mechanism, and below in conjunction with accompanying drawing 1 ~ 7, the present invention will be further described.

This shaping mould mold cools down mechanism, the panel 2 comprising two symmetrically arranged tong arms 1 and be fixed on inside tong arm 1, mould holding jaw 3 is provided with inside panel 2, at mould holding jaw 3, place offers cooling air outlet 4, the inside of panel 2 offers the panel cooling air passage 15 being communicated with each cooling air outlet 4, the air-supply arrangement being communicated with panel cooling air passage 15 is provided with below panel 2, cooling air is arrived cooling air outlet 4 place by panel cooling air passage 15 by air-supply arrangement, cooling air acts directly on shaping mould mould, cooling air is not by the stop of other structures of molding device, can carry out fast to shaping mould mould, intermittent cooling, and cooling air is the surface acting directly on shaping mould mould, cooling efficiency is high, thus effectively improve machine speed, ensure quality product.

With reference to Fig. 1 ~ 2, tong arm 1 is rotationally connected by a back up pad 5 on the upside of panel 2, concrete, the vertical section of tong arm 1 is L shape, and panel 2 horizontal support is on the upside of the horizontal part of tong arm 1, and back up pad 5 is fixedly connected with by the upper end of bolt 7 with tong arm 1 vertical portion, back up pad 5 is by being rotationally connected on the upside of a joint pin 6 and panel 2, carry out vertical location to panel 2, structure is simple, reliable operation simultaneously.As further improving, the stopper slot 8 of a V-arrangement corresponding with back up pad 5 is offered on the upside of panel 2 in the present embodiment, the side that back up pad 5 is connected with panel 2 is be fixed on the trilateral in stopper slot 8, and the angle of stopper slot 8 dual-side is greater than the angle of back up pad 5 respective side, panel 2 can rotate around back up pad 5, but back up pad 5 is undertaken spacing by the rotational angle of stopper slot 8 pairs of panels 2, panel 2 is utilized to realize the spacing of panel 2 rotational angle with the structure of back up pad 5 self, structure is simple, firm, reliable operation.

Preferably, mould holding jaw 3 is the arcs adapted with shaping mould outer mold wall, firm grip is carried out to shaping mould mould, cooling air outlet 4 is positioned at the middle part of mould holding jaw 3, and cooling air outlet 4 is the arcs along mould holding jaw 3 arranged transversely, cooling air outlet on both sides panel 24 pairs of shaping mould moulds carry out 360 ° of coolings, and high-efficiency omnibearing is cooled to pattern mould, improve cooling efficiency.

Air-supply arrangement comprises blast tube, base for supporting 11 and sleeve 12, blast tube upper end is communicated with panel cooling air passage 15, blast tube lower end connects base for supporting 11, sleeve 12 is fixed on the downside of base for supporting 11 and is connected with blast tube, the lower end of sleeve 12 is cooling air blast inlet, cooling air blast inlet is communicated with the cooling air in frame body, slide in sleeve 12 and be provided with the piston 22 of controlled cooling model wind blast inlet break-make, base for supporting 11 and sleeve 12 offer the control fluid channel that control piston 22 slides.Carry out control piston 22 by gas or hydraulic efficiency oil to slide, and then the opening and closing of automatic controlled cooling model wind blast inlet, automatically control to provide intermittent type air feed by Controlling System, make goods can not be subject to cooling air impact when mould is not closed, improve the quality of products, and carry out control piston 22 work by controlling fluid (gas or liquid), structure is simple, reliable operation, avoids force device to lose efficacy in high temperature environments, improves work-ing life.

In the present embodiment, each panel 2 is provided with three mould holding jaws 3 be arranged side by side, three shaping mould moulds can be clamped simultaneously, increase work efficiency, the cooling air transfer chamber 16 that two are communicated with air-supply arrangement is respectively offered inside panel 2, the mould holding jaw 3 of panel 2 end is communicated with corresponding cooling air transfer chamber 16 by a panel cooling air passage 15, mould holding jaw 3 in the middle part of panel 2 is communicated with two cooling air transfer chambers 16 respectively by panel cooling air passage 15, middle part shaping mould mould because mediate dispel the heat the poorest, fully cooled by the shaping mould mould of two panel cooling air passages 15 to middle part, guarantee that all shaping mould moulds are all cooled fully, improve the quality of products, and two cooling air transfer chambers 16 in the present embodiment can carry out uniform divided flows to the cooling air of air-supply arrangement, and make cooling air evenly arrive each cooling air outlet 4 by panel cooling air passage 15, guarantee each shaping mould mould Homogeneous cooling, constant product quality.

With reference to Fig. 3, piston 22 is arranged in sleeve 12 in axial sliding, bottom piston 22, sealing is formed to cooling air blast inlet, piston 22 top is slidably arranged in a piston bush 20, the side of piston bush 20 is fixedly connected with inside sleeve 12, there is between piston bush 20 and sleeve 12 inwall the sleeve cooling air passage 24 that cooling air passes through, the inner chamber upper end of piston bush 20 is communicated with control fluid channel, piston 22 lower end is connected with the return spring 21 promoting its upward sliding, control fluid and enter piston bush 20 inner chamber through controlling fluid channel, promote piston 22 lower end and skid off sleeve 12 downwards, open cooling air blast inlet, when shaping mould mould is opened, control fluid is closed, return spring 21 promotes piston 22 and moves upward thus close cooling air blast inlet, realize automatically controlling.A base plate 14 is fixed with by pad pipe 13 interval below sleeve 12, what return spring 21 vertically stretched is fixed between piston 22 and base plate 14, preferably, piston 22 has a spring retention chamber to lower opening, the opening part of spring retention chamber is fixed with a buffer block 23, and return spring 21 top is stretched into spring retention chamber and is connected with buffer block 23.

In the present embodiment, piston 22 bottom is up-small and down-big taper, when the thrust that control fluid forces piston 22 overcomes return spring 21 moves downward, cooling air can enter in sleeve 12 quickly through cooling air blast inlet, speed of response is fast, and piston 22 bottom of taper and sleeve 12 good sealing effect, when shaping mould mould is opened, avoid cooling air to enter air-supply arrangement and mould is cooled, improve the quality of products.

With reference to Fig. 4, blast tube comprises the upper blast tube 18 of socket mutually and lower blast tube 19, upper blast tube 18 upper end is by upper joint bearing 17 connecting support seat 9, supporting seat 9 is fixed on the below of tong arm 1, upper blast tube 18 is communicated with cooling air transfer chamber 16 by supporting seat 9 with tong arm 1, lower blast tube 19 lower end connects base for supporting 11 by hypozygal bearing 10, along with tong arm 1 is movable, blast tube can move with tong arm 1 free-extension, make cooling air can act directly on shaping mould mould border, cooling performance significantly improves, greatly improve machine speed, and the demand of different heights goods can be met, decrease the quantity of component, use more convenient.In the production process of glass bottle and jar, for adapting to the different heights of goods, two covers that upper blast tube 18 and lower blast tube 19 have length different are available.

With reference to Fig. 5 ~ 7, control fluid channel comprises the first control fluid channel 27 and second be opened in base for supporting 11 and controls fluid channel 26 and be opened in the 3rd on sleeve 12 sidewall to control fluid channel 25, first controls the inside that fluid channel 27 is positioned horizontally in base for supporting 11, second two ends controlling fluid channel 26 are communicated with the first control fluid channel 27 and the 3rd respectively and control fluid channel 25, 3rd control lower end, fluid channel 25 is communicated with the inner chamber of piston bush 20, base for supporting 11 offers the control fluid intake 30 that connection first controls fluid channel 27, piston bush 20 and sleeve 12 are structure as a whole, good airproof performance, easy for installation.The present invention controls fluid channel by offering in base for supporting 11 and sleeve 12, overcomes the shortcoming of common fluid pipeline non-refractory, and good airproof performance, and avoid revealing, working stability is reliable, avoids polluted product simultaneously, improves conforming product rate.

With reference to Fig. 6, the grease channel 29 that one is communicated with hypozygal bearing 10 is also offered inside base for supporting 11, base for supporting 11 is provided with the pouring orifice 28 being communicated with grease channel 29, there is provided lubricating grease to hypozygal bearing 10 by pouring orifice 28 and grease channel 29, ensure the normal work of hypozygal bearing 10, in base for supporting 11, offer grease channel 29, structure is simple, the pipeline of minimizing equipment, is provided with equally as upper joint bearing 17 provides the structure of lubricating grease on supporting seat 9.

Working process: the control fluid in the present embodiment is pressurized air, clack box (not shown in FIG.) is provided with " 360 °, the shaping mould mould cools " gas circuit be communicated with the control fluid intake 30 controlling fluid channel, during work, tong arm 1 is opened, now " cooling of 360 °, shaping mould mould " gas circuit is closed, there is no cooling air, work in-process are turned to shaping mould by brank, tong arm 1 is closed makes mould encase work in-process, supporting seat 9 is followed tong arm 1 and is moved, upper blast tube 18 and lower blast tube 19 slide and elongate, clack box " cooling of 360 °, shaping mould mould " gas circuit is connected, pressurized air is entered by the control fluid intake 30 in Fig. 7, control fluid channel 27 along first and enter the second control fluid channel 26, controlling fluid channel 25 eventually through the 3rd in Fig. 6 enters inside piston bush 20, piston 22 is started descending by air-operated drive, sleeve 12 entirety is in framework inner chamber, piston 22 is once opening, cooling air in frame body enters sleeve cooling air passage 24 through cooling air blast inlet, and cooled by blast tube and panel cooling air passage 15 pairs of shaping mould moulds, tong arm 1 is opened subsequently, supporting seat 9 is followed tong arm 1 and is moved, upper blast tube 18 and lower blast tube 19 slide and shorten, clack box " cooling of 360 °, shaping mould mould " gas circuit is closed, the pressurized air controlled in fluid channel reduces, return spring 21 driven plunger 22 starts up, cooling air blast inlet is closed, now cooling air no longer cools shaping mould mould.This shaping mould mold cools down mechanism can carry out 360 ° of border coolings to shaping mould mould, and cooling air intermittent type is supplied, and promotes bottle-making machine machine speed and conforming product rate greatly.

Below be only most preferred embodiment of the present invention, the present invention can also adopt other structures.

Cooling air transfer chamber 16 in the present invention can be one, also can be three and be communicated with each mould holding jaw 3 respectively; Can also arrange the mould holding jaw 3 of other quantity inside panel 2, cooling air outlet 4 can be square, can also by multiple hole shape Structure composing or horn-like; Blast tube can be metallic hose; In the sleeve 12 of the setting that piston 22 can radially slide; Resetting mechanism can also adopt cylinder pushes piston 22 upward sliding; Controlling fluid channel can also only be opened on sleeve.The present invention can be above arbitrary combination.

The above is only preferred embodiment of the present invention, and be not restriction the present invention being made to other form, any those skilled in the art may utilize the technology contents of above-mentioned announcement to be changed or be modified as the Equivalent embodiments of equivalent variations.But everyly do not depart from technical solution of the present invention content, any simple modification, equivalent variations and the remodeling done above embodiment according to technical spirit of the present invention, still belong to the protection domain of technical solution of the present invention.

Claims (10)

1. a shaping mould mold cools down mechanism, comprise two symmetrically arranged tong arms (1) and be fixed on the panel (2) of tong arm (1) inner side, panel (2) inner side is provided with mould holding jaw (3), it is characterized in that: offer cooling air outlet (4) at described mould holding jaw (3) place, the inside of panel (2) offers the panel cooling air passage (15) being communicated with each cooling air outlet (4), and panel (2) below is provided with the air-supply arrangement being communicated with panel cooling air passage (15).

2. shaping mould mold cools down mechanism according to claim 1, it is characterized in that: described mould holding jaw (3) is the arc adapted with shaping mould outer mold wall, cooling air outlet (4) is positioned at the middle part of mould holding jaw (3), and cooling air outlet (4) is the arc along mould holding jaw (3) arranged transversely.

3. shaping mould mold cools down mechanism according to claim 1, it is characterized in that: described air-supply arrangement comprises blast tube, base for supporting (11) and sleeve (12), blast tube upper end is communicated with panel cooling air passage (15), blast tube lower end connects base for supporting (11), sleeve (12) is fixed on the downside of base for supporting (11) and is connected with blast tube, the lower end of sleeve (12) is cooling air blast inlet, slide in sleeve (12) and be provided with the piston (22) of controlled cooling model wind blast inlet break-make, base for supporting (11) and sleeve (12) offer the control fluid channel that control piston (22) slides.

4. shaping mould mold cools down mechanism according to claim 3, it is characterized in that: described piston (22) slides axially and is arranged in sleeve (12), piston (22) bottom forms sealing to cooling air blast inlet, piston (22) top is slidably arranged in a piston bush (20), the side of piston bush (20) is fixedly connected with sleeve (12) inner side, there is between piston bush (20) and sleeve (12) inwall the sleeve cooling air passage (24) that cooling air passes through, the inner chamber upper end of piston bush (20) is communicated with control fluid channel, piston (22) is also connected with the resetting mechanism promoting its upward sliding, control fluid and enter piston bush (20) inner chamber through controlling fluid channel, promote piston (22) lower end and skid off sleeve (12) downwards, open cooling air blast inlet.

5. shaping mould mold cools down mechanism according to claim 4, it is characterized in that: described resetting mechanism comprises return spring (21) and base plate (14), below, base plate (14) interval fixed muffle (12), what return spring (21) vertically stretched is fixed between piston (22) and base plate (14).

6. shaping mould mold cools down mechanism according to claim 5, it is characterized in that: described piston (22) has a spring retention chamber to lower opening, the opening part of spring retention chamber is fixed with a buffer block (23), and return spring (21) top is stretched into spring retention chamber and is connected with buffer block (23).

7. the shaping mould mold cools down mechanism according to any one of claim 3 ~ 6, is characterized in that: described piston (22) bottom is up-small and down-big taper.

8. the shaping mould mold cools down mechanism according to claim 3 or 4, it is characterized in that: described control fluid channel comprises the first control fluid channel (27) and second be opened in base for supporting (11) and controls fluid channel (26) and be opened in the 3rd on sleeve (12) sidewall to control fluid channel (25), first controls the inside that fluid channel (27) is positioned horizontally in base for supporting (11), second two ends controlling fluid channel (26) are communicated with the first control fluid channel (27) and the 3rd respectively and control fluid channel (25), 3rd control fluid channel (25) lower end is communicated with the inner chamber of piston bush (20).

9. shaping mould mold cools down mechanism according to claim 3, it is characterized in that: described blast tube comprises upper blast tube (18) and the lower blast tube (19) of socket mutually, upper blast tube (18) upper end connects panel (2) by upper joint bearing (17), and lower blast tube (19) lower end connects base for supporting (11) by hypozygal bearing (10).

10. shaping mould mold cools down mechanism according to claim 1, it is characterized in that: described panel (2) is provided with three mould holding jaws (3) be arranged side by side, panel (2) inner side offers the cooling air transfer chamber (16) that two are communicated with air-supply arrangement respectively, the mould holding jaw (3) of panel (2) end is communicated with corresponding cooling air transfer chamber (16) by a panel cooling air passage (15), and the mould holding jaw (3) at panel (2) middle part is communicated with two cooling air transfer chambers (16) respectively by panel cooling air passage (15).