CN106142409A - Double vulcanizing press - Google Patents

Abstract

Double vulcanizing press, including left mould board component, right template assembly and main body frame；Main body frame includes base and is vertically connected to base upper end and the I-shaped plate of spaced apart polylith, and the both sides of main body frame are provided with the relative interval C in position and interval D, interval C and interval D and lay respectively at I-shaped plate both sides；Left mould board component and right template assembly are separately mounted in the interval C and interval D of I-shaped plate.It is an advantage of the current invention that the both sides of main body frame are provided with the relative interval C in position and interval D, interval C has a station at interval D respectively, and two stations can work independently, and is independent of each other, and production efficiency is high.Main body frame includes base and is vertically connected to base upper end and the I-shaped plate of spaced apart polylith, is suitable to the production and processing of strip goods, it is simple to the installation of mould, filler and take goods.

Description

Double vulcanizing press

Technical field

The present invention relates to rubber and plastics machine, particularly double vulcanizing press.

Background technology

Vulcanizer is applicable to the sulfuration of various product of rubber and plastic, compacting.Notification number is CN103737768A and CN201389938 Patent document individually disclose a kind of double-station vacuumizing plate vulcanization machine and a kind of double-deck, double-station vacuumizing compression molding Machine.Both vulcanizing presses are four-column type, the structure of Dual-layer, single plunger case provide locked mode pressure during sulfuration Power.

The weak point of both vulcanizing presses is: 1, owing to being upper and lower double-layer structure, and fuselage height dimension is relatively big, Meeting superelevation in transport, it is impossible to use Container Transport.2, upper strata is the highest, operator's filler or take out in mould During the goods of type, need to stand on a work platforms, constrain the safety of operation.3, upper and lower layer can not work independently.Work When making, one set of die is respectively placed in the upper and lower, and the motion of upper mold is transmitted by the motion of lower mold, event once occurs Barrier, normal delivery can not move between upper and lower layer, all can not work, affect production efficiency.

Summary of the invention

It is an object of the invention to overcome the deficiencies in the prior art, and a kind of double vulcanizing press is provided.It has two Individual station, two stations can work independently, and is independent of each other, and mould is installed, filler and to take goods convenient, is suitable for strip goods Production and processing.

The technical scheme is that double vulcanizing press, including left mould board component, right template assembly and body frame Frame；

Main body frame includes base and is vertically connected to base upper end and the I-shaped plate of spaced apart polylith, the two of main body frame Side is provided with the relative interval C in position and interval D, interval C and interval D and lays respectively at I-shaped plate both sides；

Left mould board component and right template assembly are separately mounted in the interval C and interval D of I-shaped plate.

The further technical scheme of the present invention is: left mould board component includes upper left template, lower-left template, upper left hot plate and a left side Lower hot plate；Template plate I-shaped with polylith in upper left is affixed and is the level of state, and is positioned at interval C upper end；Upper left hot plate is fixed in The lower end of upper left template；Template plate I-shaped with polylith in lower-left is affixed and is the level of state, and is positioned at interval C lower end；Lower-left heat Plate is fixed in the upper end of lower-left template, and is positioned at the underface of upper left hot plate；

Right template assembly includes upper right template, bottom right template, upper right hot plate and lower right thermal plate；Upper right template and the I-shaped plate of polylith Affixed and be the level of state, and it is positioned at interval D upper end；Upper right hot plate is fixed in the lower end of upper right template；Bottom right template and polylith I-shaped plate is affixed and is the level of state, and is positioned at interval D lower end；Lower right thermal plate is fixed in the upper end of upper right template, and is positioned at The underface of upper right hot plate.

The present invention further technical scheme is: form interval A and interval B between adjacent I-shaped plate；

It also includes die cylinder assembly and Mode-locking oil cylinder assembly；

Die cylinder assembly includes that left die cylinder and right die cylinder, left die cylinder and right die cylinder are respectively provided at interval The both sides of A lower end, both cylinder barrels are all directly or indirectly affixed with base, and the piston rod of left die cylinder is connected to lower-left template Lower end, the piston rod of right die cylinder is connected to the lower end of bottom right template；The rodless cavity of all of left die cylinder interconnects mutually Logical, left die cylinder is provided with rodless cavity oil-in A and rod chamber oil-in A；The rodless cavity of all of right die cylinder is mutual Connection, right die cylinder is provided with and rodless cavity oil-in B and rod chamber oil-in B；

Mode-locking oil cylinder assembly includes that left Mode-locking oil cylinder and right Mode-locking oil cylinder, left Mode-locking oil cylinder and right Mode-locking oil cylinder are respectively provided at interval The both sides of B lower end, both cylinder barrels are all directly or indirectly affixed with base, and the plunger of left Mode-locking oil cylinder is connected to lower-left template Lower end, the plunger of right Mode-locking oil cylinder is connected to the lower end of bottom right template；The plunger cavity of all of left Mode-locking oil cylinder is interconnected, left Mode-locking oil cylinder is provided with plunger cavity oil-in A, and the plunger cavity of all of right Mode-locking oil cylinder is interconnected, and right Mode-locking oil cylinder is provided with Plunger cavity oil-in B.

The present invention further technical scheme is: it also includes sensor and electrical control cubicles；Sensor is electrically connected with electrical control cubicles Connect, to detect the displacement of lower-left hot plate and lower right thermal plate.

The present invention further technical scheme is: it also includes lower-left template up and down balance system mechanism and/or bottom right template Up and down balance system mechanism；

Lower-left template up and down balance system mechanism includes that two tooth bar A, two gear A, synchronizing bar A and two synchronize pole socket A, synchronizing bar Seat A is separately mounted on the outer wall of two left Mode-locking oil cylinders, and synchronizing bar A two ends are movably arranged on two axis holes synchronizing pole socket A In, and be positioned in the axial direction, tooth bar A is vertically fixed in the lower end of lower-left template, and gear A is respectively and fixedly installed to synchronizing bar A Two ends, and engage with two tooth bar A respectively；

Bottom right template up and down balance system mechanism includes that two tooth bar B, two gear B, synchronizing bar B and two synchronize pole socket B, synchronizing bar Seat B is separately mounted on the outer wall of two right Mode-locking oil cylinders, and synchronizing bar B two ends are movably arranged on two axis holes synchronizing pole socket B In, and be positioned in the axial direction, tooth bar B is vertically fixed in the lower end of bottom right template, and gear B is respectively and fixedly installed to synchronizing bar B Two ends, and engage with two toothed rack B respectively.

The present invention further technical scheme is: the quantity of left die cylinder is two, the work of two left die cylinders Stopper rod is connected to the two ends of lower-left template lower surface respectively by contiguous block；The quantity of right die cylinder is two, two right conjunctions The piston rod of mould oil cylinder is connected to the two ends of bottom right template lower surface respectively by contiguous block.

The present invention further technical scheme is: sensor is photosensitive opposite type sensor or infrared ray sensor or spacing Switch.

The present invention compared with prior art has the advantage that

1, the both sides of main body frame are provided with at the relative interval C in position and interval D, interval C and interval D a station respectively, Two stations can work independently, and is independent of each other, and production efficiency is high.

2, main body frame includes base and is vertically connected to base upper end and the I-shaped plate of spaced apart polylith, is suitable to long The production and processing of rod-shaped articles, it is simple to the installation of mould, filler and take goods.

3, the piston rod of two left die cylinders is connected to the two ends of lower-left template lower surface respectively by contiguous block, two The piston rod of right die cylinder is connected to the two ends of bottom right template lower surface respectively by contiguous block, it is ensured that stablizing during lifting Property.The rodless cavity of all of right die cylinder is interconnected, and the rodless cavity of all of left die cylinder is interconnected, it is ensured that Left and right die cylinder synchronization lifting.

4, lower-left template up and down balance system mechanism and/or bottom right template up and down balance system mechanism ensure that lower-left template and the right side respectively Stability during lower bolster lifting.

Below in conjunction with figure, the invention will be further described with embodiment.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the rearview of Fig. 1；

Fig. 3 is the top view of Fig. 1；

Fig. 4 is the A-A sectional view of Fig. 1；

Fig. 5 is structural representation and the installation site schematic diagram of the sensor being positioned at interval C.

Detailed description of the invention

Embodiment 1:

Double vulcanizing press, including main body frame 1, die cylinder assembly, Mode-locking oil cylinder assembly, left mould board component, right mould Board component, sensor 4, electrical control cubicles (not shown), lower-left template up and down balance system mechanism and bottom right template up and down balance system mechanism.

Main body frame 1 includes base 11 and is vertically connected to base 11 upper end and the I-shaped plate of spaced apart polylith 12, Formed for installing left die cylinder 51 and the interval A13 of right die cylinder 52 and for installing a left side between adjacent I-shaped plate 12 The interval B 14 of Mode-locking oil cylinder 61 and right Mode-locking oil cylinder 62, the both sides of main body frame 1 are provided with the relative interval C15 in position and interval D16, interval C15 and interval D16 lay respectively at I-shaped plate 12 both sides.

Left mould board component includes upper left template 21, lower-left template 22, upper left hot plate 23 and lower-left hot plate 24.Upper left template 21 Plate 12 I-shaped with polylith is affixed and is the level of state, and is positioned at interval C15 upper end.Upper left hot plate 23 is fixed in upper left template 21 Lower end, be internally provided with kerosene passage, which is provided with T-slot.Lower-left template 22 is affixed with the I-shaped plate of polylith 12 and in water Level state, and it is positioned at interval C15 lower end.Lower-left hot plate 24 is fixed in the upper end of lower-left template 22, and is positioned at upper left hot plate 23 Underface, is internally provided with kerosene passage, which is provided with T-slot.

Right template assembly includes upper right template 31, bottom right template 32, upper right hot plate 33 and lower right thermal plate 34.Upper right template 31 Plate 12 I-shaped with polylith is affixed and is the level of state, and is positioned at interval D16 upper end.Upper right hot plate 33 is fixed in upper right template 31 Lower end, be internally provided with kerosene passage, which is provided with T-slot.Bottom right template 32 is affixed with the I-shaped plate of polylith 12 and in water Level state, and it is positioned at interval D16 lower end.Lower right thermal plate 34 is fixed in the upper end of upper right template 31, and is positioned at upper right hot plate 33 Underface, is internally provided with kerosene passage, which is provided with T-slot.

The quantity of sensor 4 is two, is respectively used to detect lower-left template 22 and bottom right template 32 displacement, and then really Determine the stroke end of die sinking and matched moulds.Sensor 4 includes detecting bar 41, detection 42, upper sensing threshold switch 43 and lower transducer valve Switch 44.Detection bar 41 is arranged in mounting seat 45, and mounting seat 45 is arranged on I-shaped plate 12, and the upper end of detection bar 41 is with left The lower surface of lower bolster 22 or the lower surface of bottom right template 32 connect, and can synchronize to rise with lower-left template 22 or bottom right template 32 Fall, measurement 42 is arranged on the termination, bottom of detection bar 41, and upper sensing threshold switch 43 and lower transducer valve switch 44 are respectively by upper Being arranged on I-shaped plate 12 under to, when lower-left template 22 or bottom right template 32 move to determine opening stroke terminal, surveys Amount 42 contacts with lower transducer valve switch 44, when lower-left template 22 or bottom right template 32 move to determine mould-closing stroke terminal, Measurement 42 contacts with upper sensing threshold switch 43.Upper sensing threshold switch 43 and lower transducer valve switch 44 are electrically connected with electrical control cubicles respectively Connect.

Die cylinder assembly includes left die cylinder 51 and right die cylinder 52, left die cylinder 51 and right die cylinder 52 Being respectively provided at the both sides of interval A13 lower end, both cylinder barrels are all directly or indirectly affixed with base 11, the work of left die cylinder 51 Stopper rod is connected to the lower end of lower-left template 22 by contiguous block, and the piston rod of right die cylinder 52 is connected to bottom right by contiguous block The lower end of template 32；The rodless cavity of all of left die cylinder 51 is interconnected, and left die cylinder 51 is provided with rodless cavity oil-feed Mouth A511 and rod chamber oil-in A512；The rodless cavity of all of right die cylinder 52 is interconnected, and right die cylinder 52 sets Being and not being bar chamber oil-in B521 and rod chamber oil-in B522.

Mode-locking oil cylinder assembly includes left Mode-locking oil cylinder 61 and right Mode-locking oil cylinder 62, left Mode-locking oil cylinder 61 and right Mode-locking oil cylinder 62 Being respectively provided at the both sides of interval B 14 lower end, both cylinder barrels are all directly or indirectly affixed with base 11, the post of left Mode-locking oil cylinder 61 Plug is connected to the lower end of lower-left template 22 by contiguous block, and the plunger of right Mode-locking oil cylinder 62 is connected to bottom right template by contiguous block The lower end of 32；The plunger cavity of all of left Mode-locking oil cylinder 61 is interconnected, and left Mode-locking oil cylinder 61 is provided with plunger cavity oil-in A611, the plunger cavity of all of right Mode-locking oil cylinder 62 is interconnected, and right Mode-locking oil cylinder 62 is provided with plunger cavity oil-in B621.

Lower-left template up and down balance system mechanism includes two tooth bar A71, two gear A 72, synchronizing bar A73 and two synchronizing bars Seat A74, synchronizes pole socket A74 and is separately mounted on the outer wall of two left Mode-locking oil cylinders 51, and synchronizing bar A73 two ends are movably arranged on two In the axis hole of individual synchronization pole socket A74, and being positioned in the axial direction, tooth bar A71 is vertically fixed in the lower end of lower-left template 22, gear A72 is respectively and fixedly installed to the two ends of synchronizing bar A72, and engages with two tooth bar A71 respectively.

Bottom right template up and down balance system mechanism includes two tooth bar B81, two gear B 82, synchronizing bar B83 and two synchronizing bars Seat B84, synchronizes pole socket B84 and is separately mounted on the outer wall of two right Mode-locking oil cylinders 52, and synchronizing bar B83 two ends are movably arranged on two In the axis hole of individual synchronization pole socket B84, and being positioned in the axial direction, tooth bar B81 is vertically fixed in the lower end of bottom right template 32, gear B82 is respectively and fixedly installed to the two ends of synchronizing bar B83, and engages with two toothed rack B81 respectively.

Left die cylinder 51 and right die cylinder 52 in die cylinder assembly are piston-type hydraulic cylinder.Piston hydraulic Cylinder includes cylinder barrel and piston rod, and piston rod will be divided into mutual disconnected rod chamber and rodless cavity, rod chamber and nothing inside cylinder barrel Bar chamber is respectively equipped with oil-in and oil-out respectively.When piston rod stretches out, rodless cavity oil-feed, rod chamber oil extraction；Piston rod contracts Hui Shi, rod chamber oil-feed, rodless cavity oil extraction.

Left Mode-locking oil cylinder 61 and right Mode-locking oil cylinder 62 in Mode-locking oil cylinder assembly are plunger-type cylinder.Plunger hydraulic Cylinder includes cylinder body and plunger, is provided with plunger cavity and hydraulic fluid port in cylinder body.When hydraulic fluid port oil-feed, plunger protrudes upward；When hydraulic fluid port oil extraction Time, plunger is retracted downwards.

Electrical control cubicles effect is as follows: 1, controls external hydraulic oil piping system and produces pressure oil, and then controls left matched moulds oil respectively The piston rod of cylinder 51 and right die cylinder 52 stretches out or retracts, and controls left Mode-locking oil cylinder 61 and right Mode-locking oil cylinder 62 supercharging respectively Or pressure release.2, receive the feedback of sensor 4, control die cylinder assembly matched moulds or die sinking, control hot coal oil and add to upper and lower hot plate Heat.3, control hot coal oil respectively and enter the kerosene passage of lower right thermal plate 34, the kerosene passage of upper right hot plate 33, lower-left hot plate 24 The kerosene passage of kerosene passage and upper left hot plate 23, heats mould.

Preferably, the quantity of left Mode-locking oil cylinder 61 is 5, and the plunger of 5 left Mode-locking oil cylinders 61 is uniform by contiguous block respectively It is connected to lower-left template 22 lower surface.The quantity of right Mode-locking oil cylinder 62 is 5, and the plunger of 5 right Mode-locking oil cylinders 62 passes through respectively Contiguous block is uniform is connected to bottom right template 32 lower surface.

Preferably, the quantity of left die cylinder 51 is 2, and the piston rod of 2 left die cylinders is connected by contiguous block respectively Two ends at lower-left template 22 lower surface.The quantity of right die cylinder 52 is 2, and the piston rod of 2 right die cylinders leads to respectively Cross contiguous block and be connected to the lower surface of bottom right template 32.

Preferably, sensor 4 is photosensitive opposite type sensor or infrared ray sensor.

The work process of the summary present invention: the interval C15 of main body frame 1 both sides and interval D16 is respectively a station, two Station can work independently, and is independent of each other.

The work process of the present invention is described as a example by the station at interval C15:

A, installation mold: by fast mounting die mechanism installation mold, the upper mold 991 of mould is fixed on the T-slot of upper left hot plate 23 In, lower mold 992 is fixed in the T-slot of lower-left hot plate 24.

B, matched moulds: start external hydraulic oil piping system by electrical control cubicles, external hydraulic oil piping system by oil line pipe and Interface C511 die cylinder 51 to the left rodless cavity charged pressure oil, promote the piston rod of left die cylinder 51 protrude upward (by Rodless cavity in all of left die cylinder 51 is interconnected, therefore the piston rod of all of left die cylinder 51 synchronizes upwards to stretch Go out).The piston rod of left die cylinder 51 drives lower-left template 22, lower-left hot plate 24, the plunger of left Mode-locking oil cylinder 61 and mould Lower mold 991 together moves up, and carries out matched moulds.

During matched moulds, lower-left template up and down balance system mechanism ensures lower-left by tooth bar A71 with engaging of gear A 72 Holding level when template 22 moves up, occurs without the lowest high situation.

During matched moulds, sensor 4 detects matched moulds distance, when the upper mold 991 of mould contacts with lower mold 992, passes Sensor 4 delivers a signal to electrical control cubicles, and electrical control cubicles control external hydraulic oil piping system stops the rodless cavity of die cylinder 51 to the left and fills Entering pressure oil, the piston rod of left die cylinder 51 stops mobile, and matched moulds completes.

C, pressurized, heated and sulfuration: electrical control cubicles controls the plunger cavity of left Mode-locking oil cylinder 61 and is filled with hydraulic oil, carries out supercharging, left The plunger of Mode-locking oil cylinder 61 produces thrust upwards, acts in lower-left template 22, to mould pressurizing (pressurization and retention time root Determine according to the production technology of product).The external electrical magnet valve of electrical control cubicles control simultaneously opens kerosene passage and a left side for hot plate 24 to left down The kerosene passage of upper hot plate 23 is passed through hot coal oil, lower-left hot plate 24, upper left hot plate 23 and mould is heated, acts on one section After time (action time determines according to product material and volume), raw material vulcanizes, and forms goods.

D, die sinking: electrical control cubicles controls the plunger cavity pressure release of left Mode-locking oil cylinder 61, and control left die cylinder 51 has bar simultaneously Chamber charged pressure oil, promotes the piston rod of left die cylinder 51 to move down, and the piston rod of left die cylinder 51 drives lower-left mould The lower mold 991 of plate 22, lower-left hot plate 24, the plunger of left Mode-locking oil cylinder 61 and mould together moves down, and carries out die sinking.

During die sinking, lower-left template up and down balance system mechanism ensures lower-left by tooth bar A71 with engaging of gear A 72 Holding level when template 22 moves down, occurs without the lowest high situation.

During die sinking, sensor 4 detects matched moulds distance, when detecting that die sinking puts in place (the work of left die cylinder 51 Stopper rod is retracted into stroke end) after, sensor 4 delivers a signal to electrical control cubicles, and electrical control cubicles controls external hydraulic oil piping system and stops The rodless cavity charged pressure oil of die cylinder 51 to the left, the piston rod of left die cylinder 51 stops mobile, and die sinking completes.

E, taking-up goods, fill raw material, and enter the next working cycle.

Claims (8)

1. double vulcanizing press, is characterized in that: include left mould board component, right template assembly and main body frame (1)；

Main body frame (1) includes base (11) and is vertically connected to base (11) upper end and the I-shaped plate of spaced apart polylith (12), the both sides of main body frame (1) are provided with the relative interval C (15) in position and interval D (16), interval C (15) and interval D (16) Lay respectively at I-shaped plate (12) both sides；

Left mould board component and right template assembly are separately mounted in interval C (15) and the interval D (16) of I-shaped plate (12).

2. double vulcanizing press as claimed in claim 1, is characterized in that:

Left mould board component includes upper left template (21), lower-left template (22), upper left hot plate (23) and lower-left hot plate (24)；Upper left mould Plate (21) plate I-shaped with polylith (12) is affixed and is the level of state, and is positioned at interval C (15) upper end；Upper left hot plate (23) is affixed Lower end in upper left template (21)；Lower-left template (22) plate I-shaped with polylith (12) is affixed and is the level of state, and is positioned at district Between C (15) lower end；Lower-left hot plate (24) is fixed in the upper end of lower-left template (22), and is positioned at the underface of upper left hot plate (23)；

Right template assembly includes upper right template (31), bottom right template (32), upper right hot plate (33) and lower right thermal plate (34)；Upper right mould Plate (31) plate I-shaped with polylith (12) is affixed and is the level of state, and is positioned at interval D (16) upper end；Upper right hot plate (33) is affixed Lower end in upper right template (31)；Bottom right template (32) plate I-shaped with polylith (12) is affixed and is the level of state, and is positioned at district Between D (16) lower end；Lower right thermal plate (34) is fixed in the upper end of upper right template (31), and is positioned at the underface of upper right hot plate (33).

3. double vulcanizing press as claimed in claim 2, is characterized in that:

Interval A (13) and interval B (14) is formed between adjacent I-shaped plate (12)；

It also includes die cylinder assembly and Mode-locking oil cylinder assembly；

Die cylinder assembly includes left die cylinder (51) and right die cylinder (52), left die cylinder (51) and right die cylinder (52) being respectively provided at the both sides of interval A (13) lower end, both cylinder barrels are all directly or indirectly affixed with base (11), left matched moulds oil The piston rod of cylinder (51) is connected to the lower end of lower-left template (22), and the piston rod of right die cylinder (52) is connected to bottom right template (32) lower end；The rodless cavity of all of left die cylinder (51) is interconnected, and left die cylinder (51) is provided with rodless cavity and enters Hydraulic fluid port A (511) and rod chamber oil-in A (512)；The rodless cavity of all of right die cylinder (52) is interconnected, right matched moulds oil Cylinder (52) is provided with and rodless cavity oil-in B (521) and rod chamber oil-in B (522)；

Mode-locking oil cylinder assembly includes left Mode-locking oil cylinder (61) and right Mode-locking oil cylinder (62), left Mode-locking oil cylinder (61) and right Mode-locking oil cylinder (62) being respectively provided at the both sides of interval B (14) lower end, both cylinder barrels are all directly or indirectly affixed with base (11), left locked mode oil The plunger of cylinder (61) is connected to the lower end of lower-left template (22), and the plunger of right Mode-locking oil cylinder (62) is connected to bottom right template (32) Lower end；The plunger cavity of all of left Mode-locking oil cylinder (61) is interconnected, and left Mode-locking oil cylinder (61) is provided with plunger cavity oil-in A (611), the plunger cavity of all of right Mode-locking oil cylinder (62) is interconnected, and right Mode-locking oil cylinder (62) is provided with plunger cavity oil-in B (621)。

4. the double vulcanizing press as according to any one of claim 1-3, is characterized in that: it also includes sensor (4) And electrical control cubicles；Sensor (4) electrically connects with electrical control cubicles, to detect lower-left hot plate (24) and the displacement of lower right thermal plate (34).

5. double vulcanizing press as claimed in claim 4, is characterized in that: it also includes lower-left template up and down balance system mechanism And/or bottom right template up and down balance system mechanism；

Lower-left template up and down balance system mechanism includes two tooth bar A (71), two gear A (72), synchronizing bar A (73) and two synchronizations Pole socket A (74), synchronizes pole socket A (74) and is separately mounted on the outer wall of two left Mode-locking oil cylinders (51), lives in synchronizing bar A (73) two ends In the dynamic axis holes being arranged on two synchronizations pole socket A (74), and being positioned in the axial direction, tooth bar A (71) is vertically fixed in lower-left mould The lower end of plate (22), gear A (72) is respectively and fixedly installed to the two ends of synchronizing bar A (72), and nibbles with two tooth bar A (71) respectively Close；

Bottom right template up and down balance system mechanism includes two tooth bar B (81), two gear B (82), synchronizing bar B (83) and two synchronizations Pole socket B (84), synchronizes pole socket B (84) and is separately mounted on the outer wall of two right Mode-locking oil cylinders (52), lives in synchronizing bar B (83) two ends In the dynamic axis holes being arranged on two synchronizations pole socket B (84), and being positioned in the axial direction, tooth bar B (81) is vertically fixed in bottom right mould The lower end of plate (32), gear B (82) is respectively and fixedly installed to the two ends of synchronizing bar B (83), and nibbles with two toothed rack B (81) respectively Close.

6. the double vulcanizing press as described in claim 3 or 5, is characterized in that: the quantity of left die cylinder (51) is two Individual, the piston rod of two left die cylinders (51) is connected to the two ends of lower-left template (22) lower surface respectively by contiguous block；Right The quantity of die cylinder (52) is two, and the piston rod of two right die cylinders (52) is connected to bottom right mould by contiguous block respectively The two ends of plate (32) lower surface.

7. double vulcanizing press as claimed in claim 4, is characterized in that: sensor (4) be photosensitive opposite type sensor or Infrared ray sensor or limit switch.

8. double vulcanizing press as claimed in claim 6, is characterized in that: sensor (4) be photosensitive opposite type sensor or Infrared ray sensor or limit switch.