CN103612353A - Flat vulcanizing machine for brake pads - Google Patents

Abstract

The invention provides a flat vulcanizing machine for brake pads, belongs to the technical field of vulcanizing machines, and is used for solving the technical problems that the existing vulcanizing machine has low automation degree and low production efficiency and is inconvenient for taking materials. The technical scheme is as follows: the flat vulcanizing machine for brake pads is arranged on a base and comprises a lifting mechanism and a mould closing mechanism, wherein the lifting mechanism comprises a mould clamping oil cylinder fixed on the base and a lifting rod, the mould closing mechanism is movably connected with the lifting rod, the mould clamping oil cylinder controls the mould closing mechanism to close the mould or split the mould, a mould assembly is arranged on the mould closing mechanism, an ejection-out mechanism is arranged on the mould closing mechanism, and the ejection-out mechanism controls the mould assembly to move vertically and enables the mould assembly to realize mould closing or splitting. The flat vulcanizing machine for brake pads is convenient for taking out the brake pads, reduces the labor intensity while improving the production efficiency, and ensures the quality and the service life of the brake pads.

Description

A kind of brake block vulcanizing press

Technical field

The invention belongs to vulcanizer technical field, relate to a kind of vulcanizer, especially a kind of vulcanizing press of making brake block.

Background technology

Vulcanizing press is to utilize mould to be pressed into the main former of the rubber of various shapes rubber, be widely used the every field in daily life, it is in today of rubber industry develop rapidly, in quantity or kind, all occupy critical role, and final rubber-moulding is realized by forming machine and mould.

The use field of vulcanizing press is different, its final moulded products is not identical yet, the vulcanizing press of making brake block is exactly wherein a kind of, brake block is the parts that automotive field is often used, in today of vulcanizer fast development, people also produce brake block in a large number with vulcanizer, the part of traditional brake block vulcanizer comprises Clamping System and the hydraulic control system of controlling Clamping System matched moulds and parting substantially, mould is installed on Clamping System, rubber raw materials is sent in mould cavity by artificial or machinery, then through Clamping System matched moulds, pressurize, insulation, finally make brake block, after die sinking, need manually the brake block of moulding to be taken out in mould, though this brake block vulcanizing press can meet basic Production requirement, but due to traditional vulcanizer structure with design on relative backward, thereby in production procedure with regard to some problems below existing, 1, mould need be by manually opening, formed brake plate in mould could be taken out, the automaticity that embodies this kind of vulcanizer is lower, and some products formed can be bonded on mould, be difficult for taking off, so need the more time of artificial cost that the formed brake plate being bonded in mould is taken off, greatly increased labour intensity, the time of its production is also relatively long, 2, this vulcanizer is because structure is more backward, and its production efficiency is very limited, and its output of single batch is less, and yield rate is lower, 3, the brake block due to moulding can be bonded on mould, if take out improperly, can cause brake block damaged, and the globality of brake block products formed is reduced greatly, greatly affects its quality and service life.

Summary of the invention

The object of the invention is to have the problems referred to above for existing technology, proposed a kind of automaticity high, the brake block vulcanizing press that production efficiency is higher.

Object of the present invention can realize by following technical proposal: a kind of brake block vulcanizing press; be installed on base; comprise elevating mechanism and clamping; described elevating mechanism comprises Mode-locking oil cylinder and the elevating lever being fixed on base; described clamping is flexibly connected with elevating lever; described Mode-locking oil cylinder is controlled clamping matched moulds or parting; on described clamping, be provided with die assembly; on clamping, be provided with ejecting mechanism, ejecting mechanism is controlled die assembly and is vertically moved and make die assembly realize matched moulds or parting.

In above-mentioned a kind of brake block vulcanizing press, described clamping comprises dynamic model group and cover half group, described die assembly comprises upper module and lower module, cover half group and elevating lever are fixedly linked, Mode-locking oil cylinder is controlled dynamic model group and is moved both vertically on elevating lever, described ejecting mechanism comprises two ejection cylinders and two support bars with piston rod, ejection cylinder is symmetricly set in dynamic model group both sides and is fixedly connected with dynamic model group, support bar axially arranges and is fixedly connected with piston rod, post upper face is against on upper module lower surface, described ejection cylinder is controlled support bar and is driven upper module to move up and down.

In above-mentioned a kind of brake block vulcanizing press, on described support bar, be provided with adjusting top board, on described adjusting top board, be horizontally arranged with bar hole, in bar hole, be provided with adjusting rod, described adjusting top board be take adjusting rod as basic point transverse shifting on support bar.

In above-mentioned a kind of brake block vulcanizing press, each support bar two ends is provided with respectively tooth bar downward vertically, be respectively arranged with and homonymy the tooth bar corresponding and gear that is meshed one by one, and each gear is in the same plane at dynamic model group transverse side two ends.

In above-mentioned a kind of brake block vulcanizing press, dynamic model group transverse side two ends are respectively arranged with gear-box, and gear-box is fixedly connected with dynamic model group, and described gear is installed in gear-box, and tooth bar vertically runs through gear-box and is connected with a joggle with described gear.

In above-mentioned a kind of brake block vulcanizing press, between two gear-boxes of dynamic model group with one end, be provided with SEQ bar, SEQ bar two ends are stretched into respectively in two corresponding gear-boxes and are connected with gear.

In above-mentioned a kind of brake block vulcanizing press, described lower module lower surface is provided with backing plate, described backing plate is installed on dynamic model group upper surface, upper module vertically offers some cavitys that evenly run through described upper module, lower module is correspondingly provided with some projections, and described projection top embeds in cavity bottom and is formed with die cavity.

In above-mentioned a kind of brake block vulcanizing press, upper module both sides are horizontally arranged with respectively gripper shoe laterally, and described gripper shoe is fixedly connected with upper module, and described adjusting top board is against gripper shoe lower surface and drives upper module to move up and down.

In above-mentioned a kind of brake block vulcanizing press, described die assembly also comprises cover plate, on cover plate, offer some locating holes, described upper module upper surface is provided with locating piece some and that locating hole is suitable, and when cover plate is placed on upper module, locating piece inserts in locating hole.

In above-mentioned a kind of brake block vulcanizing press, described dynamic model group rear and front end is respectively arranged with light curtain protective device, and described light curtain protective device comprises infrared transmitter and infrared remote receiver, and infrared transmitter and infrared remote receiver are arranged at respectively dynamic model group both sides.

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

1, by setting up ejecting mechanism, and use supporting mould, after brake block is completed, more convenient taking-up, has saved manpower greatly, effectively reduces labour intensity.

2, the output of single batch increases, and production efficiency improves greatly.

3, because the brake block of moulding easily takes out and can not stick on mould, so formed brake plate preserved its integrality preferably, and products formed qualification rate also improves, and quality of brake pad can not be affected, longer service life.

Accompanying drawing explanation

Fig. 1 is the perspective view of a kind of brake block vulcanizing press of the present invention.

Fig. 2 is the positive facade structural representation of a kind of brake block vulcanizing press of the present invention.

Fig. 3 is the side elevation structural representation of a kind of brake block vulcanizing press of the present invention.

Fig. 4 is the perspective view of ejecting mechanism in a kind of brake block vulcanizing press of the present invention.

Fig. 5 is the profile of die assembly in a kind of brake block vulcanizing press of the present invention.

In figure, 100, base; 110, Mode-locking oil cylinder; 120, elevating lever; 130, dynamic model group; 131, moving platen; 140, cover half group; 141, solid plate; 200, die assembly; 210, upper module; 211, gripper shoe; 212, locating piece; 220, lower module; 230, backing plate; 240, cover plate; 241, locating hole; 300, ejection cylinder; 310, support bar; 320, regulate top board; 321, bar hole; 322, adjusting rod; 400, lazy-tongs; 410, tooth bar; 420, gear; 421, gear-box; 430, SEQ bar; 510, infrared transmitter; 520, infrared remote receiver.

The specific embodiment

Be below specific embodiments of the invention by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiment.

As shown in Figure 1, Figure 2, Figure 3 shows; a kind of brake block vulcanizing press of the present invention; be installed on base 100; comprise elevating mechanism and clamping; this elevating mechanism comprises Mode-locking oil cylinder 110, elevating lever 120, and this Mode-locking oil cylinder 110 is fixed on base 100, and this elevating lever 120 has four; erect respectively and be arranged at base 100 surroundings and be fixedly connected with base 100, this Mode-locking oil cylinder 110 has two and be arranged at respectively between two elevating levers 120 of base 100 every sides.

Further, this clamping comprises cover half group 140 and dynamic model group 130, solid plate 141 is installed in cover half group 140, moving platen 131 is installed in dynamic model group 130, four elevating levers 120 run through four angles of cover half group 140 and dynamic model group 130 simultaneously, cover half group 140 is upper and be fixedly connected with elevating lever 120, dynamic model group 130 is lower and be flexibly connected with elevating lever 120, this Mode-locking oil cylinder 110 is fixedly connected with dynamic model group 130, Mode-locking oil cylinder 110 control dynamic model groups 130 on elevating lever 120 vertical mobile and with cover half group 140 matched moulds and parting, at moving platen 131 upper surfaces, be provided with die assembly 200, this dynamic model assembly is installed on moving platen 131, this die assembly 200 comprises upper module 210 and lower module 220, lower module 220 bottoms are provided with backing plate 230, this backing plate 230 is installed on dynamic model group 130 upper surfaces, upper module 210 has been arranged side by side a plurality of cavitys, on lower module 220, be correspondingly provided with the vertical piece of a plurality of projections, during matched moulds, this vertical piece top embeds in cavity bottom and forms die cavity, dynamic model group 130 both sides are provided with ejecting mechanism, this ejecting mechanism is connected with upper module 210 and drives that upper module 210 is vertical to be moved.

Further, this ejecting mechanism comprises two ejection cylinders 300 and two support bars 310 that are arranged at die assembly 200 both sides, this ejection cylinder 300 is vertically installed in respectively dynamic model group 130 both sides and is fixedly connected with dynamic model group 130, ejection cylinder 300 has piston rod, support bar 310 is horizontally disposed with, there is good counterbalance effect when making support bar 310 increase, piston rod is fixedly connected with the middle part, bottom surface of support bar 310, these support bar 310 upper surfaces are against on upper module 210 1 side lower surfaces, upper module 210 with lower module 220 for being flexibly connected, when ejection cylinder 300 control piston bars move up, support bar 310 is held upper module 210 and is moved up simultaneously, because brake block is clamped with less power by the two side of upper module 210, under lower module 220 own wts, brake block is taken out of by upper module 210 and is separated with lower module 220, complete the demoulding, only the very little power of need just can be conveniently by its taking-up on upper module 210 for brake block, greatly saved manpower, effectively reduce labour intensity, more improved production efficiency.

As Fig. 1, Fig. 3, shown in Fig. 4, in support bar 310 upper surfaces, be also axially provided with and regulate top board 320, one side of this adjusting top board 320 is stretched out support bar 310 and is withstood on the lower surface of upper module 210 with the upper surface of circumscribed this part, regulate top board 320 middle parts to be horizontally arranged with bar hole 321, in bar hole 321, be provided with adjusting rod 322, this adjusting rod 322 is fixedly connected with adjusting top board 320 with support bar 310, when loosening adjusting rod 322, regulate top board 320 can be on support bar 310 in bar hole 321 scopes transverse shifting, the width that this adjusting top board 320 stretches out the part of support bar 310 increases or reduces with the mobile of adjusting top board 320, with this, finely tune the distance size regulating between top board 320, to be applicable to the mould of different size, its scope of application is wider.

As shown in Figures 1 to 4, ejecting mechanism also includes lazy-tongs 400, these lazy-tongs 400 comprise tooth bar 410 and gear 420, this tooth bar 410 is arranged at respectively support bar 310 two ends, tooth bar 410 is erect setting vertical with support bar 310, this gear 420 is arranged at respectively on dynamic model group 130 two sides, front and back and on each sidewall, is provided with two gears 420 in left and right, before and after homonymy, two gears 420 are connected with a joggle with corresponding tooth bar 410, tooth bar 410 is done synchro-meshing campaign with support bar 310 liftings and corresponding gear 420, and four gears 420 are in the same plane; Because the gravity of upper module 210 is by passing to successively ejection cylinder 300 on two adjusting top boards 320, the gravity of upper module 210 both sides there will be unequal situation, therefore upper module 210 can shake in moving up and down process, mobile not steady, if rock more severely, upper module 210 easily tilts, even landing, and by lazy-tongs 400, make the two ends of two support bars 310 and each support bar 310 in the same plane all the time, prevent that rocking from appearring in upper module 210 when moving up and down.

As shown in Fig. 1, Fig. 3, Fig. 4; in order better to protect gear 420; prevent that tooth bar 410 and gear 420 from departing from; guarantee synchronous validity; in dynamic model group 130 front end both sides and both sides, rear end, be respectively arranged with a gear-box 421; this gear-box 421 is fixedly connected with dynamic model group 130; each gear-box 421 is interior all installs a gear 420; tooth bar 410 vertically runs through gear-box 421 and is connected with a joggle with gear-box 421 internal gears 420; simultaneously; gear-box 421 also protects gear 420 not to be damaged, and has increased the service life of gear 420.

Further, between dynamic model group 130 front end two gear-boxes 421, be provided with a SEQ bar 430, between dynamic model group 130 rear end two gear-boxes 421, be also provided with a SEQ bar 430, SEQ bar 430 two ends are fixedly connected with gear-box 421 respectively, the inner formative gear axle of two gear-boxes 421 is stretched into respectively at SEQ bar 430 two ends, the diameter of this gear shaft is slightly less than the diameter that SEQ bar 430 is exposed to gear-box 421 outer parts, and said gear 420 is sheathed on respectively on the gear shaft at SEQ bar 430 two ends; The two ends that can only guarantee single support bar 310 due to the tooth bar 410 at same support bar 310 two ends and gear 420 engagements are in level, and cannot guarantee that two support bars 310 are in level, and SEQ bar 430 is set between two support bars 310 of front and back end, make two support bar 310 supports also keep level simultaneously, when being non-standard state between two support bars 310, by the level of observation SEQ bar 430, also can to lazy-tongs 400 integral body, adjust in time.

As shown in Fig. 1 and Fig. 4, dynamic model group 130 rear and front ends are respectively arranged with light curtain protective device, this light curtain protective device comprises infrared transmitter 510 and infrared remote receiver 520, this infrared transmitter 510 and infrared remote receiver 520 are arranged at respectively the outside of both sides gear-box 421, and this infrared transmitter 510 is fixedly connected with dynamic model group 130 respectively with infrared remote receiver 520; This light curtain protective device is set, and is in order to prevent that staff from stretching into limbs in vulcanizing press clamping unintentionally when working, and effectively protected staff's life safety.

As shown in Figure 5, in upper module 210 both sides, be horizontally disposed with laterally respectively gripper shoe 211, this gripper shoe 211 is " L " type, one of them part of this gripper shoe 211 is erect and is arranged and be bolted to connection with the sidewall of upper module 210, another part of horizontal arranges and maintains an equal level with upper module 210 upper surfaces, and above-mentioned adjusting top board 320 upper surfaces withstand on the lower surface of gripper shoe 211 horizontal components and drive upper module 210 to move up and down; Because the specification of brake block is different; the size of upper module 210 is not identical yet; in upper module 210 both sides, gripper shoe 211 is set; not only effectively saved the making material of upper module 210; and this gripper shoe 211 can be connected with the upper module 210 of different size; use more extensively, also prevent from regulating top board 320 directly to contact with upper module 210 simultaneously, effectively protected upper module 210 not to be damaged.

As shown in Figure 5, this die assembly 200 also comprises cover plate 240, this cover plate 240 is placed on upper module 210 upper surfaces, at cover plate 240 lower surfaces, be evenly horizontally arranged with four row locating holes 241, these upper module 210 upper surfaces are provided with four row 212, this is 212 suitable with locating hole 241, and when cover plate 240 is placed on upper module 210,212 insert in locating holes 241; This cover plate 240 both can prevent that the raw material in die cavity from directly contacting with cover half group 140, avoid raw material to be bonded in cover half group 140, be difficult to cleaning, more convenient by the brake block of moulding by taking off on upper module 210, after upper module 210 is separated with lower module 220, brake block is clipped in the cavity of upper module 210, upper module 210 is taken off in the lump with cover plate 240, then upper module 210 is turned, cover plate 240 is positioned at upper module 210 times, and brake block is naturally fallen on cover plate 240 under self gravitation.

By above-described embodiment, show that operation principle of the present invention is as follows:

A kind of brake block vulcanizing press of the present invention is under original state, dynamic model group 130 is in initial position, dynamic model group 130 bottoms rest on Mode-locking oil cylinder 110, distance between dynamic model group 130 upper surfaces and adjusting top board 320 upper surfaces equals the distance between gripper shoe 211 lower surfaces and lower module 220 bottom surfaces, between upper module 210 and lower module 220, forms die cavity.

The raw material of making brake block are put into die cavity, cover plate 240 is placed on upper module 210 surfaces, cover plate 240 lower surfaces are pressed in upper module 210 upper surfaces, Mode-locking oil cylinder 110 work, dynamic model group 130 is fast rise under Mode-locking oil cylinder 110 pressure, dynamic model group 130 and cover half group 140 matched moulds, the lower surface of cover half group 140 is pressed in cover plate 240 upper surfaces, after matched moulds, of short duration the stopping of dynamic model group 130 rises, again to rise compared with moving continuation of jogging speed, Mode-locking oil cylinder 110 pressurizes in mode-lock status and to upper module 210 and lower module 220, raw material are subject to larger pressure in die cavity, escaping gas in raw material or steam are extruded outside mould under pressure, brake block is at forming under the pressure, then brake block starts to solidify in mould, after solidifying, Mode-locking oil cylinder 110 is started working again, Mode-locking oil cylinder 110 is controlled dynamic model group 130 and is declined, dynamic model group 130 is separated with cover half group 140, dynamic model group 130 drops to initial position.

When dynamic model group 130 drops to initial position, ejection cylinder 300 control and regulation top boards 320 also drive upper module 210 to rise, after upper module 210 is separated with lower module 220, brake block products formed ejects with upper module 210, takes off brake block, because lower module 220 and brake block depart from completely, therefore be clipped in the easily demoulding of brake block in upper module 210, then conveniently take off, convenient, fast, greatly improved production efficiency.

Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various modifications or supplement or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.

Claims (10)

1. a brake block vulcanizing press; be installed on base; comprise elevating mechanism and clamping; described elevating mechanism comprises Mode-locking oil cylinder and the elevating lever being fixed on base; described clamping is flexibly connected with elevating lever, and described Mode-locking oil cylinder is controlled clamping matched moulds or parting, on described clamping, is provided with die assembly; it is characterized in that: on clamping, be provided with ejecting mechanism, ejecting mechanism is controlled die assembly and vertically moved and make die assembly realize matched moulds or parting.

2. a kind of brake block vulcanizing press according to claim 1, it is characterized in that: described clamping comprises dynamic model group and cover half group, described die assembly comprises upper module and lower module, cover half group and elevating lever are fixedly linked, Mode-locking oil cylinder is controlled dynamic model group and is moved both vertically on elevating lever, described ejecting mechanism comprises two ejection cylinders and two support bars with piston rod, ejection cylinder is symmetricly set in dynamic model group both sides and is fixedly connected with dynamic model group, support bar axially arranges and is fixedly connected with piston rod, post upper face is against on upper module lower surface, described ejection cylinder is controlled support bar and is driven upper module to move up and down.

3. a kind of brake block vulcanizing press according to claim 2, it is characterized in that: on described support bar, be provided with adjusting top board, on described adjusting top board, be horizontally arranged with bar hole, be provided with adjusting rod in bar hole, described adjusting top board be take adjusting rod as basic point transverse shifting on support bar.

4. according to a kind of brake block vulcanizing press described in claim 2 or 3, it is characterized in that: each support bar two ends is provided with respectively tooth bar downward vertically, at dynamic model group transverse side two ends, be respectively arranged with and homonymy the tooth bar corresponding and gear that is meshed one by one, and each gear is in the same plane.

5. a kind of brake block vulcanizing press according to claim 4, it is characterized in that: dynamic model group transverse side two ends are respectively arranged with gear-box, gear-box is fixedly connected with dynamic model group, and described gear is installed in gear-box, and tooth bar vertically runs through gear-box and is connected with a joggle with described gear.

6. a kind of brake block vulcanizing press according to claim 5, is characterized in that: between two gear-boxes of dynamic model group with one end, be provided with SEQ bar, SEQ bar two ends are stretched into respectively in two corresponding gear-boxes and are connected with gear.

7. according to a kind of brake block vulcanizing press described in claim 2 or 6, described lower module lower surface is provided with backing plate, described backing plate is installed on dynamic model group upper surface, upper module vertically offers some cavitys that evenly run through described upper module, lower module is correspondingly provided with some projections, and described projection top embeds in cavity bottom and is formed with die cavity.

8. a kind of brake block vulcanizing press according to claim 7, it is characterized in that: upper module both sides are horizontally arranged with respectively gripper shoe laterally, described gripper shoe is fixedly connected with upper module, and described adjusting top board is against gripper shoe lower surface and drives upper module to move up and down.

9. according to a kind of brake block vulcanizing press described in claim 2 or 8, it is characterized in that: described die assembly also comprises cover plate, on cover plate, offer some locating holes, described upper module upper surface is provided with locating piece some and that locating hole is suitable, and when cover plate is placed on upper module, locating piece inserts in locating hole.

10. a kind of brake block vulcanizing press according to claim 9; it is characterized in that: described dynamic model group rear and front end is respectively arranged with light curtain protective device; described light curtain protective device comprises infrared transmitter and infrared remote receiver, and infrared transmitter and infrared remote receiver are arranged at respectively dynamic model group both sides.

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