CN109367086A - Bimodulus hydraulic pressure vulcanizing machine - Google Patents

Abstract

The invention discloses a kind of bimodulus hydraulic pressure vulcanizing machines, including the left and right die assembly being arranged based on rack, the rack includes lower seat board and upper connection frame, and the lower seat board is mounted on the base, and the upper connection frame is installed on lower seat board by preceding central post, left back column and right rear column；Left die assembly is installed on lower seat board between preceding central post and left back column；Right die assembly is installed on lower seat board between preceding central post and right rear column.Non- frame of the invention, non-wall board type structure save material, and have bigger available space between upper and lower form unit, and bigger maintenance and mold changing space are left to vulcanizer.

Description

Bimodulus hydraulic pressure vulcanizing machine

Technical field

The present invention relates to tyre vulcanizer, specially a kind of bimodulus hydraulic pressure vulcanizing machine.

Background technique

Existing hydraulic pressure vulcanizing machine is mostly frame-type or wall board type structure, and two sides are frame or wallboard, for installing guide rail And guiding mechanism, guarantee that the elevating movement of upper mold is vertical.

Because vulcanizer is made of left and right rack or wallboard, crossbeam, pedestal, left and right vulcanizing chamber and central authority, so that vulcanization Machine or so and upper and lower space relatively narrower, are unfavorable for the installation and maintenance of vulcanizer, nor be conducive to pipeline optimization design, And the disassembling, assembling and replacing of mold.

Not only the installation of hydraulic pressure vulcanizing machine will occupy large space, but also precision is also difficult to ensure；In addition existing hydraulic sulphur Structure is complicated for change machine, the process-cycle is long, at high cost, and quality control is also relatively difficult.

Summary of the invention

In view of the deficiencies of the prior art, the technical problem to be solved by the present invention is to propose a kind of non-frame, non-wallboard, The bimodulus hydraulic pressure vulcanizing machine that structure is simple, installation and maintenance are saved greatly and with material using space.

Be able to solve the bimodulus hydraulic pressure vulcanizing machine of above-mentioned technical problem, technical solution include a left side based on rack setting, Right die assembly, except that:

1, the rack includes lower seat board and upper connection frame, and the lower seat board is mounted on the base, and the upper connection frame is logical Preceding central post, left back column and right rear column is crossed to be installed on lower seat board.

2, left die assembly is installed on lower seat board between preceding central post and left back column.

3, right die assembly is installed on lower seat board between preceding central post and right rear column.

Conventionally, left die assembly includes upper left form unit and lower-left form unit, the lower-left form unit is installed on lower-left On supporting plate, the lower-left supporting plate is supported on above lower seat board by left oil cylinder force adding machine and left guide rod lifting guide mechanism；It is described Upper left form unit is installed on above the mould of lower-left by left oil cylinder clasp mould mechanism and left rail lifting guide mechanism, left oil cylinder open mold Mechanism includes folding mould oil cylinder before left back folding mould oil cylinder and the right side, and the cylinder body point of mould oil cylinder is opened and closed before left back folding mould oil cylinder and the right side It is not set on lower seat board by left back column and preceding central post, left back folding mould oil cylinder is connected with the cylinder rod of right preceding folding mould oil cylinder Upper left form unit, left rail lifting guide mechanism include the left back line slide rail being respectively arranged on left back column and preceding central post With line slide rail before the right side, the left back sliding block and right front-slider being slidably matched on line slide rail before left back line slide rail and the right side It is respectively arranged on the form unit of upper left.

Conventionally, upper left form unit includes left active mold mechanism, lower-left form unit includes left concentric mechanism.

Conventionally, right die assembly includes upper right form unit and bottom right form unit, the bottom right form unit is installed on bottom right On supporting plate, the bottom right supporting plate is supported on above lower seat board by right oil cylinder force adding machine and right guide rod lifting guide mechanism；It is described Upper right form unit is installed on above the form unit of bottom right by right oil cylinder clasp mould mechanism and right lifting rail guiding mechanism, and right oil cylinder is opened Clamping includes folding mould oil cylinder and left front folding mould oil cylinder behind the right side, and the cylinder of mould oil cylinder and left front folding mould oil cylinder is opened and closed after right Body is set on lower seat board by right rear column and preceding central post, and the cylinder rod of mould oil cylinder and left front folding mould oil cylinder is opened and closed after right Upper right form unit is connected, right lifting rail guiding mechanism includes straight line cunning behind the right side for being respectively arranged in right rear column and preceding central post Rail and left front line slide rail, the right rear slider being slidably matched on line slide rail and left front line slide rail behind the right side and left front cunning Block is respectively arranged on upper right form unit.

Conventionally, upper right form unit includes right active mold mechanism, bottom right form unit includes right central authority.

Further, the upper connection frame is the forward isosceles tripod of apex angle or the forward arc frame of radian.

Beneficial effects of the present invention:

1, the non-frame of bimodulus hydraulic pressure vulcanizing machine of the present invention, non-wall board type structure save material, and upper and lower form unit it Between have bigger available space.

2, non-frame of the invention, non-wall board type structure leave bigger maintenance and mold changing space to vulcanizer.

3, upper connection frame of the invention shares for left and right die assembly, and shape is designed as tripod or arcuate structure, beautiful It is generous.

Detailed description of the invention

Fig. 1 is the three-dimensional structure diagram of one embodiment of the present invention.

Fig. 2 is the main view of Fig. 1 embodiment.

Figure number mark: 1, lower seat board；2, upper connection frame；3, pedestal；4, preceding central post；5, left back column；6, right rear column； 7, upper left form unit；8, lower-left form unit；9, lower-left supporting plate；10, left oil cylinder force adding machine；11, left guide rod lifting guide mechanism； 12, left concentric mechanism；13, left oil cylinder clasp mould mechanism；14, left rail lifting guide mechanism；15, upper right form unit；16, bottom right Form unit；17, bottom right supporting plate；18, right oil cylinder force adding machine；19, right guide rod lifting guide mechanism；20, right oil cylinder Mould opening and closing machine Structure；21, right lifting rail guiding mechanism；22, left segmented mold operating mechanism；23, right central authority；24, right segmented mold manipulates machine Structure.

Specific embodiment

Illustrated embodiment is described further technical solution of the present invention with reference to the accompanying drawing.

Bimodulus hydraulic pressure vulcanizing machine of the present invention, technical solution include the left and right die assembly based on rack setting.

The rack includes upper connection frame 2 and lower seat board 1, and the lower seat board 1 is rectangular plate body, and length direction is a left side Dextrad, lower seat board 1 are fixedly installed on the pedestal 3 of frame-type, and the front, center of lower seat board 1 is vertically arranged with preceding central post 4, under It is provided with vertical left back column 5 at the left rear corner of seat board 1, vertical right rear column 6 is provided at the right relief angle of lower seat board 1, The upper connection frame 2 is designed as the forward arc shape of radian, and the upper connection frame 2 of arc shape is fixedly mounted on preceding central post 4, left back On column 5 and right rear column 6, as shown in Figure 1 and Figure 2.

Left die assembly is installed on the left side plate body of lower seat board 1 between preceding central post 4 and left back column 5, as Fig. 1, Shown in Fig. 2.

Left die assembly includes upper left form unit 7 and lower-left form unit 8, the lower lock ring seat installation of the lower-left form unit 8 In on lower-left supporting plate 9, the lower-left supporting plate 9 is supported on lower seat by left oil cylinder force adding machine 10 and left guide rod lifting guide mechanism 11 1 top of plate, left oil cylinder force adding machine 10 include two opposite reinforcing oil cylinders, and each cylinder body for reinforcing oil cylinder is installed on lower 1 bottom of seat board Portion, each cylinder rod for reinforcing oil cylinder pass through the bottom that lower seat board 1 is connected to lower-left supporting plate 9, and left guide rod lifting guide mechanism 11 includes Opposite two guide rods (position misplaces 180 ° with two reinforcing oil cylinders), each guide rod cooperates in the guide sleeve inside lower seat board 1, The bottom of lower-left supporting plate 9 is connected at the top of each guide rod；The upper left form unit 7 is led by left oil cylinder clasp mould mechanism 13 and a left side Rail lifting guide mechanism 14 is installed on the top of lower-left form unit 8, left oil cylinder clasp mould mechanism 13 include left back folding mould oil cylinder with Right preceding folding mould oil cylinder, left back folding mould oil cylinder and the right preceding cylinder body for opening and closing mould oil cylinder are respectively at left back column 5 and preceding central post 4 Side is set on lower seat board 1, and the cylinder rod upper end of folding mould oil cylinder passes through spherical bearing cylinder rod earrings before left back folding mould oil cylinder and the right side It is installed at the top of the locking ring seat of upper left form unit 7, left rail lifting guide mechanism 14 includes being respectively arranged in left back 5 He of column Line slide rail before left back line slide rail and the right side on preceding central post 4 is sliding on line slide rail before left back line slide rail and the right side The left back sliding block and right front-slider of dynamic cooperation are respectively arranged on the locking ring seat side of upper left form unit 7；Upper left form unit 7 Ring seat of locking is equipped with left segmented mold operating mechanism 22, and lower-left form unit 8 is equipped with left concentric mechanism 12, as shown in Figure 1 and Figure 2.

Right die assembly is installed on the right side plate body of lower seat board 1 between preceding central post 4 and right rear column 6, as Fig. 1, Shown in Fig. 2.

Right die assembly includes upper right form unit 15 and bottom right form unit 16, the lower lock ring seat peace of the bottom right form unit 16 Loaded on bottom right supporting plate 17, the bottom right supporting plate 17 is supported on by right oil cylinder force adding machine 18 and right guide rod lifting guide mechanism 19 Lower 1 top of seat board, right oil cylinder force adding machine 18 include two opposite reinforcing oil cylinders, and each cylinder body for reinforcing oil cylinder is installed on lower seat board 1 bottom, each cylinder rod for reinforcing oil cylinder pass through the bottom that lower seat board 1 is connected to bottom right supporting plate 17, right guide rod lifting guide mechanism 19 Including opposite two guide rods (position misplaces 180 ° with two reinforcing oil cylinders), each guide rod cooperates the guiding inside lower seat board 1 In set, the bottom of bottom right supporting plate 17 is connected at the top of each guide rod；The upper right form unit 15 is by right oil cylinder clasp mould mechanism 20 and right lifting rail guiding mechanism 21 be installed on the top of bottom right form unit 16, right oil cylinder clasp mould mechanism 20 include it is right after open and close Mould oil cylinder and left front folding mould oil cylinder open and close the cylinder body of mould oil cylinder and left front folding mould oil cylinder respectively at right 6 He of rear column after right It is set on lower seat board 1 by preceding central post 4, the cylinder rod upper end that mould oil cylinder and left front folding mould oil cylinder are opened and closed after right passes through spherical bearing Cylinder rod earrings is installed at the top of the locking ring seat of upper right form unit 15, and right lifting rail guiding mechanism 21 includes being respectively arranged in the right side Line slide rail and left front line slide rail behind the right side on rear column 6 and preceding central post 4, line slide rail and left front straight line behind the right side The right rear slider and left front sliding block being slidably matched on sliding rail are respectively arranged on the locking ring seat side of upper right form unit 15；Upper right The locking ring seat of form unit 15 is equipped with right segmented mold operating mechanism 24, and bottom right form unit 16 is equipped with right central authority 23, such as Shown in Fig. 1, Fig. 2.

The method of operation of the invention are as follows:

When molding, the cylinder rod of oil cylinder clasp mould mechanism is shunk, and upper die unit is sagging in the guiding of lifting rail guiding mechanism Straight decline, the upper and lower lock ring seat of upper and lower form unit fasten to form die cavity, and lower lock ring seat turns an angle, the lock of lower lock ring seat Tooth is bonded with the lock tooth of lower seat board 1 and ring seat of locking and realizes mode locking, makes upper and lower die unit stress more evenly, oil cylinder assistor Structure reinforces lower pallet upwards and generates mold clamping force, and the cylinder rod stroke of oil cylinder force adding machine is detected by displacement sensor, can be real The function of existing automatic stepless mode transfer.

When die sinking, oil cylinder force adding machine pressure release, lower lock ring seat, which turns an angle to be staggered with locking ring seat lock tooth, realizes pine It locks, pushes to lock ring seat on oil cylinder clasp mould mechanism and rise to upper die unit downward vertically in leading for lifting rail guiding mechanism Maximum die sinking position.

Claims (6)

1. bimodulus hydraulic pressure vulcanizing machine, including the left and right die assembly being arranged based on rack, it is characterised in that:

The rack includes lower seat board (1) and upper connection frame (2), and the lower seat board (1) is mounted on pedestal (3), the upper company Frame (2) are connect to be installed on lower seat board (1) by preceding central post (4), left back column (5) and right rear column (6)；

Left die assembly is installed on lower seat board (1) between preceding central post (4) and left back column (5)；

Right die assembly is installed on lower seat board (1) between preceding central post (4) and right rear column (6).

2. bimodulus hydraulic pressure vulcanizing machine according to claim 1, it is characterised in that: left die assembly includes upper left form unit (7) it is installed on lower-left supporting plate (9) with lower-left form unit (8), the lower-left form unit (8), the lower-left supporting plate (9) is by left oil Cylinder force adding machine (10) and left guide rod lifting guide mechanism (11) are supported on above lower seat board (1)；The upper left form unit (7) by Left oil cylinder clasp mould mechanism (13) and left rail lifting guide mechanism (14) are installed on above lower-left form unit (8), and left oil cylinder is opened Clamping (13) includes the preceding folding mould oil cylinder of left back folding mould oil cylinder and the right side, left back folding mould oil cylinder and right preceding folding mould oil cylinder Cylinder body be set on lower seat board (1) by left back column (5) and preceding central post (4), opened before left back folding mould oil cylinder and the right side The cylinder rod of die cylinder connects upper left form unit (7), and left rail lifting guide mechanism (14) includes being respectively arranged in left back column (5) and the left back line slide rail on preceding central post (4) and it is right before line slide rail, respectively at left back line slide rail and it is right before straight line it is sliding The left back sliding block and right front-slider being slidably matched on rail are respectively arranged on upper left form unit (7).

3. bimodulus hydraulic pressure vulcanizing machine according to claim 2, it is characterised in that: upper left form unit (7) includes left active Mould operating mechanism (22), lower-left form unit (8) include left concentric mechanism (12).

4. bimodulus hydraulic pressure vulcanizing machine according to claim 1, it is characterised in that: right die assembly includes upper right form unit (15) it is installed on bottom right supporting plate (17) with bottom right form unit (16), the bottom right form unit (16), the bottom right supporting plate (17) It is supported on above lower seat board (1) by right oil cylinder force adding machine (18) and right guide rod lifting guide mechanism (19)；The upper right mould list First (15) are installed on above bottom right form unit (16) by right oil cylinder clasp mould mechanism (20) and right lifting rail guiding mechanism (21), Right oil cylinder clasp mould mechanism (20) include it is right after open and close mould oil cylinder and left front folding mould oil cylinder, mould oil cylinder is opened and closed after right and left front is opened The cylinder body of die cylinder is set on lower seat board (1) by right rear column (6) and preceding central post (4), opens and closes mould oil cylinder after right It is connected upper right form unit (15) with the cylinder rod of left front folding mould oil cylinder, right lifting rail guiding mechanism (21) includes being respectively arranged in Line slide rail and left front line slide rail behind the right side of right rear column (6) and preceding central post (4), the line slide rail and left front behind the right side The right rear slider and left front sliding block being slidably matched on line slide rail are respectively arranged on upper right form unit (15).

5. bimodulus hydraulic pressure vulcanizing machine according to claim 4, it is characterised in that: upper right form unit (15) includes right active Mould operating mechanism (24), bottom right form unit (16) include right central authority (23).

6. bimodulus hydraulic pressure vulcanizing machine described according to claim 1~any one of 5, it is characterised in that: the upper connection frame It (2) is the forward isosceles tripod of apex angle or the forward arc frame of radian.