CN209111335U - Ball liner vulcanizer - Google Patents

Abstract

The utility model discloses a kind of ball liner vulcanizers, it is related to vulcanization of rubber equipment technical field, aim to solve the problem that operator needs manually to take out cured liner, the technical issues of to large labor intensity, its key points of the technical solution are that, including workbench, lower bearing bracket, hemispherical cover half, upper spider, hemispherical dynamic model, the lower bearing bracket is connected to table surface, the hemispherical cover half is connected on lower bearing bracket, it further include bracket, push rod, push plate and linkage mechanism, the bracket connection is on the table, the push rod is slidably connected on bracket, the push plate is connected to push rod towards one end of hemispherical dynamic model, the linkage mechanism is connected on bracket, and for connecting upper spider and push rod, when the linkage mechanism makes upper spider uplink, push rod protrudes into the lower section of hemispherical dynamic model, the linkage mechanism makes under upper spider When row, push rod detach the lower section of hemispherical dynamic model, reached automatic material separator, mitigated the effect of labor intensity of operating staff.

Description

Ball liner vulcanizer

Technical field

The utility model relates to a kind of vulcanization of rubber equipment, more specifically, it relates to a kind of ball liner vulcanizer.

Background technique

Currently, ball liner is often rubber product, to make rubber elasticity with higher, drawing high intensity, normal open over cure Change machine vulcanizes rubber.

Existing Authorization Notice No. provides a kind of intelligent basketball rubber liner vulcanization for the Chinese patent of CN206011531U Equipment comprising rack and by the rack-mounted sulfurizing mould of fixture, sulfurizing mould includes being mounted on rack workbench On hemispherical cover half and be mounted on cover half the hemispherical dynamic model that can be moved up and down along cover half, cover half two sides be set along workbench It is equipped with guide post, is connected above guide post by crossbeam, is provided with driving mechanism above crossbeam, is provided on cover half for basketball liner The positioning groove of aeration aperture contact pin positioning, is provided with for basketball liner on cover half in the rearward position opposite with positioning groove The positioning protrusion of upper rubber parts hole positioning.It is by being used for the positioning of basketball liner aeration aperture contact pin along setting on vulcanization cover half Positioning groove and the positioning protrusion positioned for rubber parts on rear side of intelligent basketball liner, can be effectively solid in liner sulfidation Determine the position of liner.

But prior art among the above has the following deficiencies: in practical work process and finds, after the completion of vulcanization, Uplink, liner are attracted in hemispherical dynamic model hemispherical dynamic model under the action of the driving mechanism, and operator needs manually will The liner of vulcanization takes out, this process needs operator's elevation arm, therefore increases the labor intensity of operator.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of ball liner vulcanizer, With can automatic material separator, to reduce the advantage of labor intensity of operating staff.

To achieve the above object, the utility model provides following technical solution:

A kind of ball liner vulcanizer, including workbench, lower bearing bracket, hemispherical cover half, upper spider, hemispherical dynamic model and dynamic Mould driving mechanism, the lower bearing bracket are removably attachable to table surface, and the hemispherical cover half is connected on lower bearing bracket, institute It states workbench and is located at the two sides of lower bearing bracket and slidably connect guide post respectively, the top of two guide posts removably connects the upper machine Frame, the hemispherical dynamic model are connected to the lower section of the upper spider, and the dynamic model driving mechanism is for driving two guide posts along vertical Straight reciprocating motion is done in direction, further includes bracket, push rod, push plate and linkage mechanism, and the bracket connection is on the table, described Push rod is slidably connected on bracket, and the push plate is connected to push rod towards one end of hemispherical dynamic model, the linkage mechanism connection On bracket and for connecting upper spider and push rod, it is dynamic that the linkage mechanism makes when upper spider uplink, push rod protrudes into hemispherical The lower section of mould, the linkage mechanism makes when upper spider downlink, push rod detaches the lower section of hemispherical dynamic model.

By using above-mentioned technical proposal, after the liner wait vulcanize is put into hemispherical cover half, the driving of dynamic model driving mechanism Two guide post downlinks, to drive upper spider, hemispherical dynamic model downlink, linkage mechanism will be so that push rod detaches hemispherical dynamic model at this time Lower section, therefore hemispherical dynamic model by smooth downlink, in conjunction with hemispherical cover half, carry out vulcanization reaction；

After the completion of liner vulcanization, dynamic model driving mechanism drives two guide post uplinks, to drive upper spider, hemispherical dynamic model Uplink, the lower section that linkage mechanism will make push rod protrude into hemispherical dynamic model at this time, the liner that push plate will push vulcanization to complete, thus So that liner is detached from hemispherical dynamic model, the automatic material separator of liner can be realized without operator's manual operation, to reduce The labor intensity of operator.

Further, the bracket includes two vertical plates, two vertical plates with table vertical and parallel to each other.

By using above-mentioned technical proposal, so that being connected on bracket, each component is more stable, improves the stability of this case.

Further, any vertical plate is equipped with cross slide and vertical slide plate, and the cross slide is connected to On vertical plate and vertical with vertical plate, the vertical slide plate is vertical to be connected on cross slide, the vertical slide plate, cross slide Sliding slot is surrounded with vertical plate, the push rod adaptation is slidably connected in sliding slot.

By using above-mentioned technical proposal, it is slidably connected on vertical plate so that push rod is stable.

Further, the push rod is connected with limited block far from one end of hemispherical dynamic model, and the width of the limited block is big In the width of sliding slot inner sidewall.

By using above-mentioned technical proposal, push rod can be effectively prevent to skid off sliding slot.

Further, recessing groove is offered on the vertical plate, the recessing groove detaches push plate below hemispherical dynamic model When be placed in recessing groove.

By using above-mentioned technical proposal, when push plate may make to detach below hemispherical dynamic model, push plate can be placed in recessing groove In, to save the occupied space of equipment, on the other hand also save material.

Further, the linkage mechanism includes tooth post and ratch, and the tooth post is rotatably connected between two vertical plates, The ratch is connected on upper spider, and the ratch and upper spider are perpendicular, and the ratch is meshed with tooth post, the push rod Upper surface is equipped with rack gear, and the tooth post is meshed with rack gear.

By using above-mentioned technical proposal, when upper spider downlink, ratch downlink, since ratch is meshed with tooth post, Tooth post rotation, and since tooth post is meshed with rack gear, the rotation of tooth post will drive push rod to move far from hemispherical dynamic model, pumping Below hemispherical dynamic model；When upper spider uplink, ratch uplink, since ratch is meshed with tooth post, tooth post is rotated backward, It is meshed again due to tooth post with rack gear, rotating backward for tooth post will drive push rod to move towards hemispherical dynamic model, protrude into half The lower section of spherical dynamic model can be realized without additional driving, when upper spider uplink, push rod protrude into hemispherical dynamic model Lower section, when upper spider downlink, push rod detach the lower section of hemispherical dynamic model.

Further, the one side of the push plate towards hemispherical dynamic model is cambered surface.

By using above-mentioned technical proposal, so that push plate is more adapted to the shape of liner, so that contact area is bigger, push Effect is more preferable.

Further, the push plate includes push plate one and push plate two, and the push plate one and push plate two removably connect respectively It connects in the two sides of push rod.

By using above-mentioned technical proposal, the angle of push plate one and push plate two can be easily adjusted, to be suitable for difference The liner of size, practicability are wider.

In conclusion the utility model has the following beneficial effects:

1, linkage mechanism connection upper spider and push rod are used, may make machine without additional driving mechanism to generate When frame uplink, push rod protrude into the lower section of hemispherical dynamic model, when upper spider downlink, push rod detach the lower section of hemispherical dynamic model, thus The advantages of realizing automatic material separator, mitigating labor intensity of operating staff；

2, it is equipped with limited block far from one end of hemispherical dynamic model using in push rod, the width of limited block is greater than on the inside of sliding slot The width of wall, to generate the effect that push rod can be effectively prevent to skid off sliding slot.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the present embodiment；

Fig. 2 is in the present embodiment for embodying the schematic diagram of vertical plate Yu workbench connection relationship；

Fig. 3 is in the present embodiment for embodying the schematic diagram of push rod Yu linkage mechanism connection relationship；

Fig. 4 is in the present embodiment for embodying the schematic diagram of push rod Yu push plate connection relationship.

In figure: 1, workbench；11, lower bearing bracket；12, hemispherical cover half；13, hemispherical dynamic model；14, upper spider；15, it leads Column；16, crossbeam；17, cylinder；2, vertical plate；20, recessing groove；21, cross slide；22, vertical slide plate；23, sliding slot；24, push rod； 240, limited block；241, rack gear；242, extension board；25, push plate；251, push plate one；252, push plate two；3, tooth post；31, ratch； 311, connecting rod.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment:

A kind of ball liner vulcanizer, referring to Fig.1 comprising workbench 1 is removably connected by screw on workbench 1 It is connected to lower bearing bracket 11, hemispherical cover half 12 is fixedly connected on lower bearing bracket 11, the two sides that workbench 1 is located at lower bearing bracket 11 are passed through respectively It is equipped with guide post 15, two guide posts 15 can slide along the vertical direction, and the top of two guide posts 15 is removably connected with by screw Rack 14, the lower section of upper spider 14 are fixedly connected with hemispherical dynamic model 13.

Referring to Fig.1, dynamic model driving mechanism is also connected on workbench 1, dynamic model driving mechanism is cylinder 17 in the present embodiment, One end that two guide posts 15 stretch out 1 lower section of workbench is connected by crossbeam 16, and cylinder 17 is connected to the lower section of workbench 1, cylinder 17 Output shaft be connected with crossbeam 16, with for drive two guide posts 15 do straight reciprocating motion along the vertical direction.

Referring to Fig. 2 and Fig. 3, two vertical plates 2 are additionally provided on workbench 1, two vertical plates 2 are parallel to each other and hang down with workbench 1 Directly, wherein a vertical plate 2 is equipped with cross slide 21 and vertical slide plate 22, cross slide 21 is vertical to be fixedly connected on vertical plate 2, Vertical slide plate 22 is vertical to be fixedly connected on cross slide 21, and vertical slide plate 22, cross slide 21 and vertical plate 2 surround sliding slot 23。

Referring to Fig. 3, push rod 24 is slidably connected in sliding slot 23, one end connection of the push rod 24 far from hemispherical dynamic model 13 is limited Position block 240, the width of limited block 240 are greater than the width of 23 inner sidewall of sliding slot, skid off sliding slot 23 to prevent throw-out lever 24.

Referring to Fig. 3 and Fig. 4, one end of push rod 24 towards hemispherical dynamic model 13 is hinged with push plate 25, and push plate 25 includes push plate One 251 and push plate 2 252, extension board 242 is connected on push rod 24, and push plate 1 and push plate 2 252 are detachable by screw Be connected on extension board 242.

Referring to Fig. 3 and Fig. 4, the one side of push plate 1 and push plate 2 252 towards hemispherical dynamic model 13 is cambered surface, so that It obtains push plate 1 and push plate 2 252 and the contact area of liner is bigger.

Referring to Fig. 3, recessing groove 20 is offered on two vertical plates 2, so that push plate 1 and push plate 2 252 detach hemisphere It is placed in recessing groove 20 when shape 13 lower section of dynamic model, to save occupied space.

Referring to Fig. 2 and Fig. 3, it is additionally provided with linkage mechanism on vertical plate 2, linkage mechanism includes tooth post 3 and ratch 31, tooth post 3 Both ends of the surface pass through the side that pin rotation is connected to two vertical plates 2, and ratch 31 is fixedly connected on upper spider 14 by connecting rod 311 On, ratch 31 is meshed with tooth post 3, and the upper surface of push rod 24 is equipped with rack gear 241, and tooth post 3 is meshed with rack gear 241, to pass through The movement driving push rod 24 of 14 vertical direction of upper spider protrudes into or detaches the lower section of hemispherical dynamic model 13.

In the course of work, it is divided into following two working condition, working principle difference is as follows:

After liner wait vulcanize is put into hemispherical cover half 12, cylinder 17 push 16 downlink of crossbeam, thus drive guide post 15, 31 downlink of upper spider 14, hemispherical dynamic model 13 and ratch, since ratch 31 is meshed with tooth post 3, tooth post 3 is rotated, and by It is meshed in tooth post 3 with rack gear 241, therefore the rotation of tooth post 3 will drive push rod 24 to move far from hemispherical dynamic model 13, detach half Spherical 13 lower section of dynamic model carries out vulcanization reaction so that the smooth downlink of hemispherical dynamic model 13, is combined with hemispherical dynamic model 13；

After the completion of liner vulcanization, cylinder 17 pushes 16 uplink of crossbeam, to drive guide post 15, upper spider 14, hemispherical 31 uplink of dynamic model 13 and ratch, since ratch 31 is meshed with tooth post 3, tooth post 3 is rotated backward, and due to tooth post 3 and tooth Item 241 is meshed, therefore rotating backward for tooth post 3 will drive push rod 24 to move towards hemispherical dynamic model 13, and it is dynamic to protrude into hemispherical The lower section of mould 13, so that hemispherical dynamic model 13 will be detached under the promotion of push plate 25 by sticking in the liner in hemispherical dynamic model 13, Complete automatic material separator movement.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (8)

1. a kind of ball liner vulcanizer, including workbench (1), lower bearing bracket (11), hemispherical cover half (12), upper spider (14), Hemispherical dynamic model (13) and dynamic model driving mechanism, the lower bearing bracket (11) are removably attachable to workbench (1) surface, and described half Spherical cover half (12) is connected on lower bearing bracket (11), and the two sides that the workbench (1) is located at lower bearing bracket (11) are slidably connected respectively Have guide post (15), the top of two guide posts (15) removably connects the upper spider (14), hemispherical dynamic model (13) connection In the lower section of the upper spider (14), the dynamic model driving mechanism is for driving two guide posts (15) to do linear reciprocation along the vertical direction Movement, it is characterised in that: further include that bracket, push rod (24), push plate (25) and linkage mechanism, the bracket are connected to workbench (1) on, the push rod (24) is slidably connected on bracket, and the push plate (25) is connected to push rod (24) towards hemispherical dynamic model (13) one end, the linkage mechanism are connected on bracket and for connecting upper spider (14) and push rod (24), the gear Structure makes when upper spider (14) uplink, push rod (24) protrudes into the lower sections of hemispherical dynamic model (13), and when upper spider (14) downlink, push away Bar (24) detaches the lower section of hemispherical dynamic model (13).

2. ball liner vulcanizer according to claim 1, it is characterised in that: the bracket include two vertical plates (2), two The vertical plate (2) is vertical and parallel to each other with workbench (1).

3. ball liner vulcanizer according to claim 2, it is characterised in that: any vertical plate (2) is equipped with Cross slide (21) and vertical slide plate (22), the cross slide (21) is connected on vertical plate (2) and, institute vertical with vertical plate (2) State that vertical slide plate (22) is vertical to be connected on cross slide (21), the vertical slide plate (22), cross slide (21) and vertical plate (2) it surrounds sliding slot (23), push rod (24) adaptation is slidably connected in sliding slot (23).

4. ball liner vulcanizer according to claim 3, it is characterised in that: the push rod (24) is far from hemispherical dynamic model (13) one end is connected with limited block (240), and the width of the limited block (240) is greater than the width of sliding slot (23) inner sidewall.

5. ball liner vulcanizer according to claim 3, it is characterised in that: offer recessing groove on the vertical plate (2) (20), the recessing groove (20) is placed in push plate (25) in recessing groove (20) when detaching below hemispherical dynamic model (13).

6. ball liner vulcanizer according to claim 2, it is characterised in that: the linkage mechanism include tooth post (3) and Ratch (31), the tooth post (3) are rotatably connected between two vertical plates (2), and the ratch (31) is connected to upper spider (14) On, the ratch (31) and upper spider (14) are perpendicular, and the ratch (31) is meshed with tooth post (3), the push rod (24) Upper surface is equipped with rack gear (241), and the tooth post (3) is meshed with rack gear (241).

7. ball liner vulcanizer according to claim 1, it is characterised in that: the push plate (25) is towards hemispherical dynamic model (13) one side is cambered surface.

8. ball liner vulcanizer according to claim 1 or claim 7, it is characterised in that: the push plate (25) includes push plate one (251) it is removably attachable on push rod (24) with push plate two (252), the push plate one (251) and push plate two (252).