CN203246019U - Tire catcher of tire mounting mechanism of giant tire shaped vulcanizer - Google Patents

Abstract

The utility model discloses a tire catcher of a tire mounting mechanism of a giant tire shaped vulcanizer. The tire catcher comprises a fixing tray, inner claw devices for lifting an upper steel ring of a green tire, as well as outer claw devices for supporting a lower tire surface of the green tire, wherein the inner claw devices are uniformly distributed on the circumference of the bottom of the fixing tray through inner claw radial movement mechanisms; the outer claw devices are uniformly distributed on the circumferences and the lower parts of the inner claw devices through outer claw radial movement mechanisms and outer claw lifting mechanisms. The tire catcher adopts an inner claw device and outer claw device combined manner to catch a giant tire, the inner claw devices are used for pulling the upper steel ring of the green tire, and the outer claw devices are used for supporting the lower tire surface of the green tire, so that deformation of the green tire is effectively prevented, and the quality of a vulcanized tire is improved.

Description

Giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus

(1) technical field:

The utility model relates to the tire forming vulcanizer loading tire mechanism, is specially a kind of giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus.

(2) background technology:

The at present application of giant tyre is more and more extensive, and the quality of cured tire base directly has influence on the quality of vulcanizing out tire.Wherein, loading tire mechanism is the important component part of giant tyre vulcanizer, and tyre catching apparatus is the core of loading tire mechanism.Original tyre catching apparatus is because the restriction of mechanism design, and just the sling interior steel ring of tire base of the grasping mechanism of tyre catching apparatus causes the problem of tire base lengthening deformation owing to conducting oneself with dignity in the time of can't solving huge embryo's lifting.

(3) utility model content:

For solving the deficiencies in the prior art, the purpose of this utility model has been to propose a kind of giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus that prevents huge embryo's bulk deformation.

Can realize the giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus of above-mentioned purpose, comprise fixed disk and the interior jaw arrangement of the steel ring on the tire base sling, interior jaw arrangement by interior pawl radial movement mechanism in the circumference uniform distribution setting of fixed disk bottom, difference is also to comprise the outer jaw arrangement of holding tyre surface under the tire base, described outer jaw arrangement by outer pawl radial movement mechanism and outer pawl elevating mechanism in interior jaw arrangement below and the uniform setting of peripheral circumferential.

A kind of structure of described outer pawl radial movement mechanism comprises that horizontally-guided axle, horizontal slip cover and outer pawl move cylinder (or hydraulic cylinder), described horizontally-guided axle by the level connection joint frame in the circumference face diameter of fixed disk to setting, described horizontal slip cover and horizontally-guided axle are slidingly matched, described outer pawl moves cylinder (or hydraulic cylinder) and radially arranges on the level connection joint frame, and the piston rod that outer pawl moves cylinder (or hydraulic cylinder) connects the horizontal slip cover.

A kind of structure of described outer pawl elevating mechanism comprises vertically-guided axle, vertical slip cap and outer pawl lift cylinder (or hydraulic cylinder), described vertically-guided axle is connected and installed in horizontal slip cover bottom by vertical link, described vertical slip cap and vertically-guided axle are slidingly matched, described outer pawl lift cylinder (or hydraulic cylinder) is vertical to be arranged, its cylinder body connects vertical slip cap, and its piston rod connects vertical link.

A kind of structure of described outer jaw arrangement comprises carriage and supporting plate, and the plumbing arm of described carriage connects vertical slip cap, colludes arm in the carriage and is located at the plumbing arm lower end, and described supporting plate is installed on and colludes on the arm in described.

A kind of structure of described interior pawl radial movement mechanism comprises rolling disc, promotes and radially slides pair, described interior jaw arrangement is located at the fixed disk bottom and is radially slided on the secondary slide block, described rolling disc and the coaxial installation of fixed disk, offer the decentraction deep-slotted chip breaker of circumference uniform distribution on the rolling disc, described distribution is located on the slide block that radially slides pair and is snug fit in the deep-slotted chip breaker.

Advantage of the present utility model:

The utility model giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus adopts the mode of inside and outside jaw arrangement combination, and interior jaw arrangement is held steel ring on the tire base, and outer jaw arrangement is held tyre surface under the tire base, thereby effectively prevents the distortion of tire base, has improved tire curing quality.

(4) description of drawings:

Fig. 1 is the structural representation of a kind of embodiment of the utility model.

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

Figure number sign: 1, promote; 2, fixed disk; 3, tire base; 4, interior jaw arrangement; 5, level connection joint frame; 6, horizontally-guided axle; 7, horizontal slip cover; 8, outer pawl moves cylinder; 9, vertically-guided axle; 10, vertical slip cap; 11, outer pawl lift cylinder; 12, vertical link; 13, supporting plate; 14, plumbing arm; 15, collude arm in; 16, rolling disc; 17, deep-slotted chip breaker; 18, rolling disc cylinder.

(5) specific embodiment:

Below in conjunction with accompanying drawing the technical solution of the utility model is described further.

The utility model giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus mainly is made of fixed disk 2, rolling disc 16, interior jaw arrangement 4 and outer jaw arrangement.

It rotates described rolling disc 16(by the flexible realization of the piston rod of rolling disc cylinder 18) coaxial installation on fixed disk 2, described fixed disk 2 is installed on the pivoted arm end, even circumferential offers eight deep-slotted chip breakers 17 on the rolling disc 16, described each deep-slotted chip breaker 17 and rolling disc 16 decentraction, as shown in Figure 1 and Figure 2.

Jaw arrangement 4 is in the circumference uniform distribution setting of below, fixed disk 2 bottoms in eight covers, and be connected and installed with fixed disk 2 by radially sliding of correspondence is secondary, be specially the described slide rail that respectively radially slides pair and be located at fixed disk 2, described each interior jaw arrangement 4 is located at corresponding radially sliding on the secondary slide block, also be provided with on described each slide block and promote 1, describedly respectively promote 1 and be snug fit in the deep-slotted chip breaker 17 of rolling disc 16 correspondences; Described rolling disc 16, rolling disc cylinder 18, radially slide pair and promote 1 consist of in the interior pawl radial movement mechanism of jaw arrangement 4, as shown in Figure 1 and Figure 2.

The outer jaw arrangement of six covers comprises carriage and supporting plate 13 in interior jaw arrangement 4 belows and the uniform setting of peripheral circumferential, and each overlaps outer jaw arrangement and is connected and installed by outer pawl radial movement mechanism and outer pawl elevating mechanism and fixed disk 2.

Described outer pawl radial movement mechanism comprises that level connection joint frame 5, horizontally-guided axle 6, horizontal slip cover 7 and outer pawl move cylinder 8, described level connection joint frame 5 is radially installed on fixed disk 2 side circumference, described horizontally-guided axle 6 radially arranges on level connection joint frame 5, described horizontal slip cover 7 is slidingly matched with horizontally-guided axle 6, described outer pawl moves cylinder 8 and radially arranges on level connection joint frame 5, the piston rod that outer pawl moves cylinder 8 connects horizontal slip cover 7, as shown in Figure 1 and Figure 2.

Described outer pawl elevating mechanism comprises vertical link 12, vertically-guided axle 9, vertical slip cap 10 and outer pawl lift cylinder 11, described vertical link 12 overlaps 7 bottoms in horizontal slip and is fixedly mounted with, the upper end of described vertically-guided axle 9 is installed on the vertical link 12, described vertical slip cap 10 is slidingly matched with vertically-guided axle 9, described outer pawl lift cylinder 11 be arranged in parallel in vertically-guided axle 9 outsides, the cylinder body of outer pawl lift cylinder 11 is connected with vertical slip cap 10, the piston rod of outer pawl lift cylinder 11 upwards connects vertical link 12, as shown in Figure 1.

The plumbing arm 14 of described carriage is connected on the vertical slip cap 10 in vertically-guided axle 9 inboards, the inside bias in described plumbing arm 14 lower ends become carriage in collude arm 15, collude in described supporting plate 13 be installed on the arm 15, as shown in Figure 1.

The running of described interior jaw arrangement 4: the flexible rolling disc 16 that promotes of the piston rod of rolling disc cylinder 18 comes back rotation, each deep-slotted chip breaker 17 on the rolling disc 16 promotes simultaneously to promote the interior jaw arrangement 4 of 1 drive and does synchronous radial dilatation and contraction, thus crawl and the release of steel ring on 4 pairs of tire bases 3 of jaw arrangement in realizing.

The running of described outer jaw arrangement: the outer pawl of each outer pawl radial movement mechanism moves cylinder 8 piston rod synchronization telescopes, drive supporting plate 13 and do synchronous radial dilatation and contraction in tire base 3 belows, the outer pawl lift cylinder 11 piston rod synchronization telescopes of each outer pawl elevating mechanism, drive supporting plate 13 liftings, make supporting plate 13 hold simultaneously lower tyre surface and releasing the lifting 3 times tyre surfaces of tire base of tire base 3.

Jaw arrangement 4 strutted the upper steel ring of the tire base 3 of slinging in the utility model adopted, and adopted outer jaw arrangement to hold the lower tyre surface of tire base 3, tire base 3 inside and outside and up and down the while stressed, can reduce tire base 3 in the distortion of the process of lifting.

Claims (5)

1. giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus, comprise fixed disk (2) and the interior jaw arrangement of the upper steel ring of tire base (3) of slinging, described interior jaw arrangement (4) by interior pawl radial movement mechanism in the circumference uniform distribution setting of fixed disk (2) bottom, it is characterized in that: also comprise the outer jaw arrangement of holding tyre surface under the tire base (3), described outer jaw arrangement by outer pawl radial movement mechanism and outer pawl elevating mechanism in interior jaw arrangement (4) below and the uniform setting of peripheral circumferential.

2. giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus according to claim 1, it is characterized in that: described outer pawl radial movement mechanism comprises horizontally-guided axle (6), horizontal slip cover (7) and outer pawl move cylinder (8), described horizontally-guided axle (6) by level connection joint frame (5) in the circumference face diameter of fixed disk (2) to setting, described horizontal slip cover (7) is slidingly matched with horizontally-guided axle (6), described outer pawl moves cylinder (8) and radially arranges on level connection joint frame (5), and the piston rod that outer pawl moves cylinder (8) connects horizontal slip cover (7).

3. giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus according to claim 2, it is characterized in that: described outer pawl elevating mechanism comprises vertically-guided axle (9), vertical slip cap (10) and outer pawl lift cylinder (11), described vertically-guided axle (9) is connected and installed in horizontal slip cover (7) bottom by vertical link (12), described vertical slip cap (10) is slidingly matched with vertically-guided axle (9), described outer pawl lift cylinder (11) is vertical to be arranged, its cylinder body connects vertical slip cap (10), and its piston rod connects vertical link (12).

4. giant embryo shaper vulcanizer loading tire mechanism tyre catching apparatus according to claim 3, it is characterized in that: described outer jaw arrangement comprises carriage and supporting plate (13), the plumbing arm of described carriage (14) connects vertical slip cap (10), collude arm (15) in the carriage and be located at plumbing arm (14) lower end, described supporting plate (13) is installed on and colludes on the arm (15) in described.

5. the described giant embryo shaper vulcanizer of any one loading tire mechanism tyre catching apparatus according to claim 1～4, it is characterized in that: described interior pawl radial movement mechanism comprises rolling disc (16), promotes (1) and radially slides pair, described interior jaw arrangement (4) is located at fixed disk (2) bottom and is radially slided on the secondary slide block, described rolling disc (16) and the coaxial installation of fixed disk (2), offer the decentraction deep-slotted chip breaker (17) of circumference uniform distribution on the rolling disc (16), described distribution (1) is located on the slide block that radially slides pair and is snug fit in the deep-slotted chip breaker (17).

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