CN205929425U - Lower division of full -automatic rubber gel oil press of entire formula double -cylinder is straightened to straight going up with mode locking device - Google Patents

Abstract

The utility model provides a lower division of full -automatic rubber gel oil press of entire formula double -cylinder is straightened to straight going up with mode locking device, contains a board unit, an oil hydraulic cylinder unit, one first, second clamp plate unit and a plurality of mode locking device. The board unit includes an end bearing, in one bearing, bear responsibility a seat and two side support piece. The oil hydraulic cylinder unit is including setting up in a first oil hydraulic cylinder and a second oil hydraulic cylinder of the end, well bearing respectively. First clamp plate unit includes that two set up respectively in the clamp plate of well bearing and first oil hydraulic cylinder, and second clamp plate unit includes that two set up respectively in the clamp plate of bear responsibility seat and second oil hydraulic cylinder. Each mode locking device includes a driving piece and two sets up respectively in the gripper mechanism of each clamp plate the double -phase portion of tossing about. Each gripper mechanism a horizontal setting has and connect the actuating lever of driving piece, turn to group, a horizontal setting and a connection of connecting the actuating lever turns to the connecting rod of group and the clamping jaw of a plurality of connection connecting rods. This structure can reduce its high space required in the board by a wide margin, reduces required operating environmental conditions's restriction.

Description

Have clamping apparatus drives entire formula twin-tub full-automatic rubber hydraulic press straight up and down

Technical field

The utility model is related to a kind of rubber hydraulic press, and more particularly to a kind of to have opening straight up and down of clamping apparatus entire Formula twin-tub full-automatic rubber hydraulic press.

Background technology

Refering to Fig. 1 and Fig. 2, a kind of existing drive entire formula twin-tub full-automatic rubber hydraulic press 1 straight up and down and comprise a bottom hold 11, two 12, tops being connected to described side plate 12 of the upwardly extending side plate of two opposite side by this base 11 of seat Seat 13, one of bearing responsibility between portion is connected between described side plate 12 and is located at this base 11 and this middle bearing between seat 13 of bearing responsibility 14th, two be respectively arranged at this base 11 and in this oil hydraulic cylinder 15, two of bearing 14 be respectively arranged at this bear responsibility seat 13 and In this upper hot pressboard of both bearings 14 bottom surface 16, two connect respectively described oil hydraulic cylinder 15 and respectively with described upper hot pressboard 16 It is in the lower hot pressing board 17 up and down relative to shape, and multiple locked mode being respectively arranged at described upper hot pressboard 16 and described lower hot pressing board 17 Device 18.Each clamping apparatus 18 include the clip claw mechanism 181 and two of two two opposite side being located at corresponding heating platen 16,17 Individual upright arrange and be respectively intended to the driving cylinder pressure 182 driving described clip claw mechanism 181.Each clip claw mechanism 181 has two phases The jaw 183 at interval and a connecting rod 184 connecting described jaw 183 and horizontally set.Each edge driving cylinder pressure 182 is indulged It is to drive described jaw 183 with respect to each heating platen 16,17 along each connecting rod of zigzag tread patterns 184 to the drive rod 185 of telescopic moving Change is rotated between a clip state and a non-clip state.

Following heat pressing operation is for being arranged at this base 11 and this oil hydraulic cylinder 15 between bearing 14, hot pressing on this in this The start of plate 16, this lower hot pressing board 17 and described clamping apparatus 18 illustrates, when carrying out heat pressing operation, will referring initially to Fig. 2 The die device 19 of one desire hot pressing is arranged on this lower hot pressing board 17, and it is in upper and lower pairing shape that this die device 19 includes two Half mold 191, and it is locked on a top clip buckle closure plate 192 of the lateral wall of described half mold 191 and a bottom clip lid respectively Plate 193, then the described jaw 183 of the clamping apparatus 18 in this lower hot pressing board 17 for the operation setting is in this clip state, and is buckled in This bottom clip cover plate 193 clip is fixed by two opposite side of this bottom clip cover plate 193 with being matched with this lower hot pressing board 17, Operate this oil hydraulic cylinder 15 to drive on this lower hot pressing board 17 referring next to Fig. 3 to move, cause this die device 19 to be resisted against respectively on this Heating platen 16, whereby to carry out heat pressing operation for this die device 19, is resisted against this upper hot pressboard 16 in this die device 19 When, can the clamping apparatus 18 in this upper hot pressboard 16 for the operation setting described jaw 183 in this clip state, and be buckled in this top This top clip buckle closure plate 192 clip is fixed by two opposite side of clip cover plate 192 with being matched with this upper hot pressboard 16.

After this die device 19 hot pressing finishes, this oil hydraulic cylinder 15 is operated to drive this lower hot pressing board 17 to move down refering to Fig. 4, due to This bottom clip cover plate 193 of this die device 19 and this top clip buckle closure plate 192 are that clip is solid respectively by corresponding clamping apparatus 18 Due to this lower hot pressing board 17 and this upper hot pressboard 16, the described half mold of this die device 19 therefore can be caused mutual about 191 Away from being molded, the rubber product positioned between described half mold 191 is taken out, then will treat hot-forming dambonite again Material is inserted between the described half mold 191 of this die device 19, to carry out another heat pressing operation.

However, this drive due to the above-mentioned each clamping apparatus 18 driving entire formula twin-tub full-automatic rubber hydraulic press 1 straight up and down Dynamic pressure cylinder 182 is longitudinally directly to drive this connecting rod 184 up and down to drive described jaw 183 to rotate change, along with each driving cylinder pressure 182 is Upright setting, must leave a height space, so that described clamping apparatus 18 are respectively arranged on described therefore in board Heating platen 16 and described lower hot pressing board 17, and for each drive rod 185 telescopic moving driving cylinder pressure 182, along with described oil It is to stack up and down that cylinder pressure 15 drives the start space that described lower hot pressing board 17 becomes respectively close or remote from described upper hot pressboard 16 respectively, Consequently, it is possible to described clamping apparatus 18 in board be occupy more than at least twice this height space so that above-mentioned straight straight Under open the overall board height of entire formula twin-tub full-automatic rubber hydraulic press 1 and cannot effectively reduce, thus operating environment needed for increasing The restriction of condition.

Content of the invention

The purpose of this utility model be to provide a kind of have the relatively low clamping apparatus in required rational height space straight on Entire formula twin-tub full-automatic rubber hydraulic press is driven under straight.

What the utility model had clamping apparatus drives entire formula twin-tub full-automatic rubber hydraulic press straight up and down, comprises a machine Platform unit, oil pressure cylinder unit, the first pressing plate unit, a second pressing plate unit, and multiple clamping apparatus.

This board unit include a base, two respectively two opposite side by this base upwardly extending collateral Support member, a seat of bearing responsibility being connected between the top ends of described side support, and one connect described side support between and be located at This base and this middle bearing between seat of bearing responsibility.

This oil pressure cylinder unit includes first oil hydraulic cylinder being arranged at this base, and one is arranged at bearing in this Second oil hydraulic cylinder.

This first pressing plate unit include about two relative to and be respectively arranged in this bottom surface of bearing and connect this first The pressing plate of oil hydraulic cylinder.

This second pressing plate unit include about two relative to and be respectively arranged at the bottom surface of this seat of bearing responsibility and connect this second The pressing plate of oil hydraulic cylinder.

Described clamping apparatus are respectively arranged at described pressing plate.Each clamping apparatus include two and are respectively arranged at the two of each pressing plate The clip claw mechanism of opposite side and an actuator for driving described clip claw mechanism.Each clip claw mechanism has one and laterally sets Put and connect the drive rod of this actuator, one connect the steering group of this drive rod, a horizontally set and connect this steering group Connecting rod, and multiple connect this connecting rod jaw.Each jaw has an attaching part.

Wherein, each pressing plate has a die pressing surface, and when each actuator drives each drive rod transverse shifting, each drive rod is even Dynamic each steering group drives each connecting rod to vertically move, and each connecting rod drives the die pressing surface of the relatively each pressing plate of described jaw in a locked mode position Put and a non-locked mode position between rotate change, when this locked mode position, the pressing mold of this each pressing plate of attaching part convergence of each jaw Face, when this non-locked mode position, the attaching part of each jaw is away from the die pressing surface of each pressing plate.

It is preferred that each clip claw mechanism also has an adapter piece being connected between each drive rod and each steering group, each joint Part has a joint guidance part extending longitudinally, and each steering group has one and is arranged at each pressing plate and has one along longitudinally The first pedestal of the first guidance part of extending, one be slidedly arranged on this first guidance part and connect the slide block of each connecting rod, a cunning sets In this joint guidance part of each adapter piece guiding pivot member, two end opposite portion are articulated in this first pedestal respectively and this is led Draw the first connector of pivot member, and two end opposite portions are articulated in this slide block and the second of this guiding pivot member respectively and connect Part.

It is preferred that this guiding pivot member of each steering group is arranged in this first connector and this second connector so that each This first connector of steering group and this second connector are relatively rotated with this guiding pivot member for common pivot.

It is preferred that the described clip claw mechanism of each clamping apparatus is respectively arranged at left and right two opposite side of each pressing plate, each drive Lever is extended along a fore-and-aft direction, and each adapter piece also has the connection substrate of each drive rod and two by this substrate phase An anti-plate face in this drive rod stretches out along this fore-and-aft direction and alternate along the left and right directions of this fore-and-aft direction vertical Every side plate, this substrate of each adapter piece matched with described side plate and defines an installation space, this joint of each adapter piece Guidance part has two and is respectively formed in described side plate and guiding perforation that is corresponding and extending longitudinally, each guiding pivot member Two end opposite portions are slidedly arranged on the described guiding perforation of each adapter piece respectively.

It is preferred that each steering group also has two the second pedestals being arranged at intervals at each pressing plate, each second pedestal has one Individual the second guidance part extending longitudinally, each connecting rod is arranged in each slide block and two end opposite portions are slidedly arranged on described second pedestal respectively The second guidance part.

It is preferred that the chute that this first guidance part of each first pedestal each slide block cunning that is confession sets, the institute of each steering group The second guidance part stating the second pedestal is positioned opposite to each other, and each second guidance part is that the end cunning of each connecting rod of confession sets Chute.

It is preferred that the jaw quantity of each clip claw mechanism is two, and the described jaw of each clip claw mechanism is corresponding described respectively Second pedestal, each jaw also has first articulated section wearing in contrast to this attaching part and for corresponding connecting rod and a position The second articulated section between this first articulated section and this attaching part, each clip claw mechanism also has two, and to be connected to two corresponding Jaw and the second pedestal between articulated part, two end opposite portions of each articulated part are articulated in each second pedestal and each jaw respectively This second articulated section.

It is preferred that each clamping apparatus also include one being arranged between described drive rod and this actuator and one general of permanent offer Described drive rod laterally elapses so that described jaw drives the Flexible element of the elastic force toward this locked mode change in location.

The beneficial effects of the utility model are：By its actuator of each clamping apparatus, and its clip claw mechanism has one Individual horizontally set and connect the drive rod of this actuator, one connect the steering group of this drive rod, a horizontally set and connection The connecting rod of this steering group, and the element Combination Design of multiple jaw connecting this connecting rod, open entire formula straight up and down compared to existing The clamping apparatus of twin-tub full-automatic rubber hydraulic press are its board in required height space to be greatly reduced, so as to effective Reduce the overall board height that the utility model drives entire formula twin-tub full-automatic rubber hydraulic press straight up and down, to reduce required operation The restriction of environmental condition, so really can reach the purpose of this utility model.

Brief description

Others feature of the present utility model and effect, clearly will present, wherein in the embodiment with reference to schema：

Fig. 1 is a front view, and the existing element combination driving entire formula twin-tub full-automatic rubber hydraulic press straight up and down is described Aspect；

Fig. 2 is a partial enlargement front view, illustrates to be arranged at a die device that existing to open entire formula straight up and down double Between a wherein corresponding lower hot pressing board of cylinder full-automatic rubber hydraulic press and a upper hot pressboard；

Fig. 3 is a partial enlargement front view, and this die device is described, and to open entire formula twin-tub straight up and down full-automatic by existing This lower hot pressing board of rubber hydraulic press and this upper hot pressboard clamp；

Fig. 4 is a partial enlargement front view, illustrate two half molds of this die device respectively by existing straight up and down Open this lower hot pressing board of entire formula twin-tub full-automatic rubber hydraulic press and this upper hot pressboard drives and separates and mold；

Fig. 5 is that drives entire formula twin-tub full-automatic rubber hydraulic press straight up and down that the utility model has clamping apparatus One stereogram of embodiment；

Fig. 6 is a front view, and the element combination aspect of this embodiment is described；

Fig. 7 is a stereogram, the one of pressing plate of this embodiment is described and is arranged at a locked mode dress on this pressing plate The element combination aspect put；

Fig. 8 is a side cutaway view, illustrate this embodiment this clamping apparatus multiple jaws with respect to this pressing plate in One locked mode position；

Fig. 9 is the sectional view acquired by the straight line Ⅸ-Ⅸ in Fig. 8, illustrate this embodiment this clamping apparatus described Jaw is with respect to this pressing plate in this locked mode position；

Figure 10 is a side cutaway view, illustrate this embodiment this clamping apparatus described jaw with respect to this pressing plate in One non-locked mode position；

Figure 11 is the sectional view acquired by the straight line XI-XI in Figure 10, and the institute of this clamping apparatus of this embodiment is described State jaw with respect to this pressing plate in this non-locked mode position；

Figure 12 is a partial enlargement front view, illustrates a die device arranges first pressing plate of this embodiment Between two pressing plates of unit；

Figure 13 is a partial enlargement front view, illustrates this die device by the institute of this first pressing plate unit of this embodiment State pressing plate to clamp；

Figure 14 is a partial enlargement front view, and two half molds being somebody's turn to do by this embodiment respectively of this die device is described The described pressing plate of the first pressing plate unit drives and separates and mold.

Specific embodiment

Refering to Fig. 5, Fig. 6 and Fig. 7, what the utility model had clamping apparatus opens entire formula twin-tub full-automatic rubber straight up and down One embodiment of hydraulic press, comprises 3, first pressing plate unit of 2, oil pressure cylinder unit of a board unit 4, Two pressing plate units 5,6, two assistance for lifting units 7 of multiple heating unit, and multiple clamping apparatus 8.

This board unit 2 includes a base 22, seat 23 of bearing responsibility of 21, two side support, and a middle bearing 24.Described side support 22 is arranged at intervals at left and right two opposite side of this base 21 along left and right directions X, each collateral Support member 22 is extended along in an above-below direction Z-direction by this base 21.This seat 23 of bearing responsibility is connected to the top of described side support 22 Between end and be located at this base 21 top.In this, bearing 24 is connected between described side support 22 and is located at this base 21 And this is born responsibility between seat 23.In the present embodiment, this base 21, this bear responsibility seat 23 and bearing 24 three and described collateral support in this Also locked with multiple spiral locks 25 between part 22.

This oil pressure cylinder unit 3 includes first oil hydraulic cylinder 31, being arranged at this base 21 and is arranged in this holding Second oil hydraulic cylinder 32 of seat 24, and a fueller connecting this first oil hydraulic cylinder 31 and this second oil hydraulic cylinder 32 (figure is not Show).This first oil hydraulic cylinder 31 has first cylinder body 311, and one can be arranged in this up or down along this above-below direction Z The first piston part 312 of the first cylinder body 311.This second oil hydraulic cylinder 32 has second cylinder body 321, and one can be upper and lower along this Direction Z is arranged in the second piston part 322 of this second cylinder body 321 up or down.This fueller is used for for this first oil Cylinder pressure 31 and this second oil hydraulic cylinder 32 carry out conveying circulation oily liquid.

This first pressing plate unit 4 include about two relative to and be respectively arranged in this bottom surface of bearing 24 and connect this The pressing plate 41 of this first piston part 312 of one oil hydraulic cylinder 31.Described pressing plate 41 one of which can be carried by this first piston part 312 Dynamic, and become close or remote from described pressing plate 41 another one along this above-below direction Z.

This second pressing plate unit 5 include about two relative to and be respectively arranged at the bottom surface of this seat 23 of bearing responsibility and connect this The pressing plate 51 of this second piston part 322 of two oil hydraulic cylinders 32.Described pressing plate 51 one of which can be carried by this second piston part 322 Dynamic, and become close or remote from described pressing plate 51 another one along this above-below direction Z.

The material of the pressing plate 41,51 of this first pressing plate unit 4 and this second pressing plate unit 5 is all heat-conducting metal material, and Each pressing plate 41,51 has a die pressing surface 411,511.

Described heating unit 6 is respectively arranged in described pressing plate 41,51, is respectively used to carry out for described pressing plate 41,51 Heating.In the present embodiment, each heating unit 6 includes multiple spaced electrothermal tubes 61.

Described assistance for lifting unit 7 is arranged at this board unit 2, to should the first oil pressure in described assistance for lifting unit 7 One of cylinder 31 has two the first auxiliary oil hydraulic cylinders 71 being respectively arranged at described side support 22, and one be connected to this Between one piston piece 312 and the described first auxiliary oil hydraulic cylinder 71 first is connected group 72.To should in described assistance for lifting unit 7 One of two oil hydraulic cylinders 32 have two the second auxiliary oil hydraulic cylinders 73 being respectively arranged at described side support 22, and a connection In between this second piston part 322 and the described second auxiliary oil hydraulic cylinder 73 second is connected group 74.This first auxiliary oil hydraulic cylinder 71 and This second auxiliary oil hydraulic cylinder 73 connects the fueller of this oil pressure cylinder unit 3, and this first auxiliary oil hydraulic cylinder 71 and this is second auxiliary Help oil hydraulic cylinder 73 to control respectively synchronously to be lifted with this first oil hydraulic cylinder 31 and this second oil hydraulic cylinder 32, being respectively used to auxiliary should The lifting moving of this second piston part 322 of this first piston part 312 of the first oil hydraulic cylinder 31 and this second oil hydraulic cylinder 32, it is to avoid This first oil hydraulic cylinder 31 and this second oil hydraulic cylinder 32 during oil transportation or oil return, because oil circuit improper control produced by improper liter The situation of fall.

Refering to Fig. 6, Fig. 7 and Fig. 8, described clamping apparatus 8 are respectively arranged at described pressing plate 41,51, and each clamping apparatus 8 include The clip claw mechanism 80 of two left and right two opposite side being respectively arranged at each pressing plate 41,51, and one be arranged at each pressing plate 41,51 Rear lateral portion and be used for driving the actuator 81 of described clip claw mechanism 80.Each clip claw mechanism 80 has one laterally (along before one Rear direction Y) setting and connect the drive rod 82, of this actuator 81 and be arranged at this drive rod 82 in contrast to this actuator 81 The adapter piece of one end 83, one connects steering group 84, horizontal (along this fore-and-aft direction Y) setting of this adapter piece 83 and connects Connect 85, two jaws 86 connecting this connecting rod 85 of connecting rod of this steering group 84, and two articulated parts 87.

Each adapter piece 83 have one connection each drive rod 82 substrate 831, two by this substrate 831 in contrast to this driving One plate face of bar 82 extends and the side plate 832 separately along this left and right directions X along outside this fore-and-aft direction Y-direction, and an edge is vertical The joint guidance part 833 extending to (this above-below direction Z).This substrate 831 of each adapter piece 83 is matched with described side plate 832 boundary Make an installation space 834, this joint guidance part 833 of each adapter piece 83 has two and is respectively formed in described side plate 832 And corresponding and along this above-below direction Z extend guiding perforation 835.

Each steering group 84 has one and is arranged at each pressing plate 41,51 and has one along longitudinally (this above-below direction Z) extension The first guidance part 842 the first pedestal 841, two be arranged at intervals at each pressing plate 41,51 and respectively be located at this first pedestal 841 Before and after side there is 843, cunning of the second pedestal of second guidance part 844 extending along longitudinally (this above-below direction Z) Located at this first guidance part 842 and connect the slide block 845, of each connecting rod 85 and be slidedly arranged on this joint guidance part of each adapter piece 83 846, two end opposite portion of 833 guiding pivot member are articulated in the of this first pedestal 841 and this guiding pivot member 846 respectively A connection piece 847, and two end opposite portion are articulated in the second connector of this slide block 845 and this guiding pivot member 846 respectively 848.

This first guidance part 842 of each first pedestal 841 is the chute that confession each slide block 845 cunning sets.Each steering group 84 This second guidance part 844 of described second pedestal 843 be positioned opposite to each other, and each second guidance part 844 is a chute. This guiding pivot member 846 of each steering group 84 is arranged in this first connector 847 and this second connector 848, and respectively guides pivot Two end opposite portions of shaft member 846 are slidedly arranged on the described guiding perforation 835 of each adapter piece 83, this first company of each steering group 84 respectively Fitting 847 is relatively rotated for common pivot with this guiding pivot member 846 with this second connector 848.

Refering to Fig. 7, Fig. 8 and Fig. 9, before and after the described jaw 86 of each clip claw mechanism 80 is located at each first pedestal 841 respectively Side, and it is respectively adjacent to described second pedestal 843, and each jaw 86 has an attaching part 861, in contrast to this attaching part 861 and the first articulated section 862 of wearing for corresponding connecting rod 85, and one be located at this first articulated section 862 and this attaching part 861 Between the second articulated section 863.The described articulated part 87 of each clip claw mechanism 80 is connected to two the second adjacent pedestals 843 and folder Between pawl 86, two end opposite portions of each articulated part 87 are articulated in this second articulated section of each second pedestal 843 and each jaw 86 respectively 863.It is noted that being respectively arranged at the described jaw of the described clip claw mechanism 80 of two pressing plates 41,51 opposing upper and lower 86 set location is non-corresponding up and down (see Fig. 8 and Figure 10), that is, is arranged at two pressing plates 41 opposing upper and lower, 51 top persons Described jaw 86 spacing of each clip claw mechanism 80 be less than arranging the institute of each clip claw mechanism 80 of described pressing plate 41,51 lower section persons State jaw 86 spacing, and be arranged at described pressing plate 41,51 top persons each clip claw mechanism 80 described jaw 86 along this front and back It is in Y being arranged between the described jaw 86 of each clip claw mechanism 80 of described pressing plate 41,51 lower section persons.

When this actuator 81 of each clamping apparatus 8 drives described drive rod 82 horizontal (along this fore-and-aft direction Y) mobile, respectively Drive rod 82 interlocks each steering group 84 and drives each connecting rod 85 longitudinal (along this above-below direction Z) mobile, and each connecting rod 85 drive is connected to This die pressing surface 411,511 of the relatively each pressing plate 41,51 simultaneously of described jaw 86 thereon is in a locked mode position (see Fig. 8 and figure 9) and rotate between a non-locked mode position (see Figure 10 and Figure 11) and change.

During the described jaw 86 of each clip claw mechanism 80 turns to this locked mode position by this non-locked mode position, each folder This first articulated section 862 of pawl 86 is above pushed away along this above-below direction Z and transports as circumference around this second articulated section 863 by each connecting rod 85 Dynamic, this attaching part 861 of each jaw 86 then circles around this second articulated section 863 and moves down each pressing plate of convergence 41,51 This die pressing surface 411,511.When this locked mode position, this attaching part 861 of each jaw 86 is parallel each pressing plate 41,51 to each jaw 86 This die pressing surface 411,511.

During the described jaw 86 of each clip claw mechanism 80 turns to this non-locked mode position by this locked mode position, each folder This first articulated section 862 of pawl 86 is subject to each connecting rod 85 drop-down and transport as circumference around this second articulated section 863 along this above-below direction Z Dynamic, this attaching part 861 of each jaw 86 then circles around this second articulated section 863 and upper moves away from each pressing plate 41,51 This die pressing surface 411,511.Each jaw 86 when this non-locked mode position, this attaching part 861 of each jaw 86 be vertically each pressing plate 41, 51 this die pressing surface 411,511.

It is noted that each clamping apparatus 8 also include one be arranged between described drive rod 82 and this actuator 81 and Permanent offer one is by described drive rod 82 along this fore-and-aft direction Y passage so that described jaw 86 drives the elastic force toward this locked mode change in location Flexible element 88.

Following heat pressing operation be for be arranged at this base 21 and this first oil hydraulic cylinder 31 between bearing 24 in this, this The start of one pressing plate unit 4 and described clamping apparatus 8 illustrates, and when carrying out heat pressing operation, is intended to one referring initially to Figure 12 The die device 9 of hot pressing is arranged at this first pressing plate unit 4 and connects on the pressing plate 41 of this first piston part 312, this die device 9 Including two half molds 91 in upper and lower pairing shape, and a top clip buckle closure being locked on the lateral wall of described half mold 91 respectively Plate 92 and a bottom clip cover plate 93, then the described jaw 86 of the clamping apparatus 8 in above-mentioned pressing plate 41 for the operation setting is in this lock Mould position, and it is buckled in two opposite side of this bottom clip cover plate 93, to match this bottom clip cover plate 93 with above-mentioned pressing plate 41 Clip is fixed, and operates this first oil hydraulic cylinder 31 to drive on above-mentioned pressing plate 41 referring next to Figure 13 and moves, cause this die device 9 contact In another pressing plate 41 of this first pressing plate unit 4, whereby to carry out heat pressing operation for this die device 9, in above-mentioned mould When device 9 is resisted against above-mentioned pressing plate 41, you can the described jaw 86 of the clamping apparatus 8 in above-mentioned pressing plate 41 for the operation setting is in this lock Mould position, and it is buckled in two opposite side of this top clip buckle closure plate 92, to match this top clip buckle closure plate 92 with above-mentioned pressing plate 41 Clip is fixed.

After this die device 9 hot pressing finishes, this first oil hydraulic cylinder 31 is operated to drive under connected pressing plate 41 refering to Figure 14 Move, because this bottom clip cover plate 93 of this die device 9 and this top clip buckle closure plate 92 are by corresponding clamping apparatus 8 clip respectively It is fixed on described pressing plate 41, the described half mold of this die device 9 therefore can be caused to be located remotely from each other about 91 and molded, will Rubber product positioned between described half mold 91 takes out, and then will treat that hot-forming rubber material inserts this die device 9 again Described half mold 91 between, to carry out another heat pressing operation.If each actuator 81 loses each clip claw mechanism 80 at this moment When described jaw 86 is held in the power of this locked mode position, each Flexible element 88 can be provided immediately by described in each clip claw mechanism 80 Jaw 86 is held in the elastic force of this locked mode position, thus avoiding the half mold 91 being clipped on each pressing plate 41 to get loose and drop, from And cause the damage of described half mold 91 or cause operating personnel injured.

Through as shown in the above description, each clamping apparatus 8 pass through the actuator 81 of its horizontally set, and its clip claw mechanism 80 The drive rod 82, one having a horizontally set and connecting this actuator 81 connects the steering group 84, of this drive rod 82 Horizontally set and connect the connecting rod 85 of this steering group 84, and the element Combination Design of multiple jaw 86 connecting this connecting rod 85, phase It is that its board in institute is greatly reduced compared with the existing clamping apparatus driving entire formula twin-tub full-automatic rubber hydraulic press straight up and down The height space needing, reduces, so as to effective, the entirety that the utility model drives entire formula twin-tub full-automatic rubber hydraulic press straight up and down Board height, to reduce the restriction of required operating environmental condition, so really can reach the purpose of this utility model.

As described above, embodiment only of the present utility model, when can not with this limit the utility model enforcement Scope, that is, all simple equivalence changes made according to the utility model claims and description and modification, all still belong to Scope of the present utility model.

Claims (8)

1. a kind of there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, comprise a board unit, One oil pressure cylinder unit, the first pressing plate unit, the second pressing plate unit and multiple clamping apparatus, this board unit includes One base, two respectively by the upwardly extending side support of two opposite side of this base, one be connected to described side Seat of bearing responsibility between the top ends of support member, and one connect described side support between and be located at this base and this bear responsibility between seat Middle bearing, this oil pressure cylinder unit includes first oil hydraulic cylinder being arranged at this base, and one is arranged at bearing in this Second oil hydraulic cylinder, this first pressing plate unit include about two relative to and be respectively arranged in this bottom surface of bearing and connect this The pressing plate of one oil hydraulic cylinder, this second pressing plate unit include about two relative to and be respectively arranged at bottom surface and the connection of this seat of bearing responsibility The pressing plate of this second oil hydraulic cylinder, described clamping apparatus be respectively arranged at described pressing plate it is characterised in that：

Each clamping apparatus include two clip claw mechanisms of two opposite side being respectively arranged at each pressing plate and one for driving State the actuator of clip claw mechanism, each clip claw mechanism has a horizontally set and connects the drive rod of this actuator, a connection The steering group of this drive rod, a horizontally set and connect the connecting rod of this steering group and the jaw of multiple this connecting rod of connection, each press from both sides Pawl has an attaching part；

Wherein, each pressing plate has a die pressing surface, and when each actuator drives each drive rod transverse shifting, each driving lever linkage is each Steering group drives each connecting rod to vertically move, each connecting rod drive the die pressing surface of the relatively each pressing plate of described jaw in a locked mode position and Change is rotated between one non-locked mode position, when this locked mode position, the die pressing surface of this each pressing plate of attaching part convergence of each jaw, During this non-locked mode position, the attaching part of each jaw is away from the die pressing surface of each pressing plate.

2. according to claim 1 there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, its It is characterised by：Each clip claw mechanism also has an adapter piece being connected between each drive rod and each steering group, and each adapter piece has The joint guidance part that one extends longitudinally, each steering group has one and is arranged at each pressing plate and has one and extend longitudinally First pedestal of the first guidance part, one be slidedly arranged on this first guidance part and connect the slide block of each connecting rod, one be slidedly arranged on and respectively connect The guiding pivot member of this joint guidance part of head, two end opposite portions are articulated in this first pedestal and this guiding pivot respectively First connector of part, and two end opposite portion are articulated in the second connector of this slide block and this guiding pivot member respectively.

3. according to claim 2 there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, its It is characterised by：This guiding pivot member of each steering group is arranged in this first connector and this second connector so that each steering group This first connector relatively rotated for common pivot with this guiding pivot member with this second connector.

4. according to claim 2 there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, its It is characterised by：The described clip claw mechanism of each clamping apparatus is respectively arranged at left and right two opposite side of each pressing plate, each drive rod edge One fore-and-aft direction is extended, and each adapter piece also has the connection substrate of each drive rod and two by this substrate in contrast to this One plate face of drive rod stretches out along this fore-and-aft direction and the left and right directions side separately along this fore-and-aft direction vertical Plate, this substrate of each adapter piece is matched with described side plate and defines an installation space, this joint guidance part of each adapter piece There are two and be respectively formed in described side plate and guiding perforation that is corresponding and extending longitudinally, the two of each guiding pivot member are contrary End is slidedly arranged on the described guiding perforation of each adapter piece respectively.

5. according to claim 2 there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, its It is characterised by：Each steering group also has two the second pedestals being arranged at intervals at each pressing plate, and it is vertical that each second pedestal has an edge To the second guidance part extending, each connecting rod is arranged in each slide block and two end opposite portions are slidedly arranged on the second of described second pedestal respectively Guidance part.

6. according to claim 5 there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, its It is characterised by：This first guidance part of each first pedestal is the chute that confession each slide block cunning sets, described the second of each steering group Second guidance part of pedestal is positioned opposite to each other, and each second guidance part is the chute that sets of end cunning of each connecting rod of confession.

7. according to claim 5 there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, its It is characterised by：The jaw quantity of each clip claw mechanism is two, and the described jaw of each clip claw mechanism corresponds to described second base respectively Seat, each jaw also there is first articulated section wearing in contrast to this attaching part and for corresponding connecting rod and one be located at this The second articulated section between one articulated section and this attaching part, each clip claw mechanism also has two and is connected to the corresponding jaw of two-phase Articulated part and between the second pedestal, two end opposite portions of each articulated part be articulated in respectively each second pedestal and each jaw this second Articulated section.

8. according to claim 1 there are clamping apparatus drive entire formula twin-tub full-automatic rubber hydraulic press straight up and down, its It is characterised by：Each clamping apparatus also include one and are arranged between described drive rod and this actuator and permanent provide one by described drive Lever laterally elapses so that described jaw drives the Flexible element of the elastic force toward this locked mode change in location.