CN205112445U - Compression fittings and have this compression fittings's make -up machine - Google Patents

Abstract

The utility model provides a compression fittings and have this compression fittings's make -up machine. Compression fittings includes: the swivel mount, actuating mechanism, actuating mechanism is connected with the swivel mount drive, and it is rotatory that actuating mechanism is used for driving the swivel mount, pressing mechanism, pressing mechanism install on the swivel mount, and pressing mechanism includes coupling assembling, clearance adjustment subassembly, installation component and polylith dead weight clamp plate, and wherein, coupling assembling is used for connecting clearance adjustment subassembly and installation component at the swivel mount, installation component includes the optical axis, and polylith dead weight clamp plate overlaps in proper order to be established on the optical axis, and heavy load board homoenergetic moves along the direction of perpendicular to optical axis separately, the clearance adjustment subassembly sets up the both ends at the optical axis for adjust the clearance between the polylith dead weight clamp plate. The utility model discloses a compression fittings and have this compression fittings's make -up machine's long service life, the pressfitting is effectual.

Description

Press fit device and there is the forming machine of this press fit device

Technical field

The utility model relates to tire shaping apparatus technical field, in particular to a kind of press fit device and the forming machine with this press fit device.

Background technology

The PA composite members cutting device that forming machine uses be by compound after continuous sizing material cut into portion's cover of preseting length, for ensureing to cut quality, moulding materials device to be had before cutting, ensureing that sizing material can not be moved when cutting.PA composite members side wall portion thickness is greater than liner, and form section low between the senior middle school of both sides, its pressing difficulty is larger.

In the prior art, adopt acupressure probe moulding material, acupressure probe has three kinds of forms: one is monolithic finger version, and one is that multi-disc refers to many plates form, and one is that multi-disc refers to veneer form, and wherein multi-disc refers to that many plates form gathers into by splicing the length met the demands.In use, because the difference of the selection of material and aftertreatment technology causes finger pressure sheet elasticity undesirable, hard finger-type sheet lacks elasticity, and cause side wall portion sizing material to be crushed out of shape, inner liner portion is not pushed down.Soft finger-type sheet elasticity is excessive, and after binder, finger-type sheet can not resilience, and produce elastic deformation, pressing effect is undesirable.The uneven situation in finger-type sheet end can be caused after long-time use, easily destroy stub bar.

In addition, also have a kind of mode to be adopt canvas bag to carry out pressing in prior art, what have in canvas bag is filled with sponge, and what have is cut into uniform strip, is similar to the form of acupressure probe.This mode utilizes the elasticity of canvas itself to carry out pressing; Although canvas elasticity is greater than metal finger pressing plate, it is highly identical, and can not solve effective stitching problems of the different sizing material of thickness, canvas material belongs to nonmetallic materials, and service life is limited.

Utility model content

Main purpose of the present utility model is the forming machine providing a kind of press fit device and have this press fit device, to solve the pressing weak effect of moulding materials device of the prior art, service life short problem.

To achieve these goals, according to an aspect of the present utility model, provide a kind of press fit device, comprising: swivel mount; Driving mechanism, driving mechanism drives with swivel mount and is connected, and driving mechanism rotates for driving swivel mount; Laminating mechanism, laminating mechanism is arranged on swivel mount, and laminating mechanism comprises coupling assembling, gap adjustment assembly, installation component and polylith deadweight pressing plate, and wherein, coupling assembling is for being connected to swivel mount by gap adjustment assembly and installation component; Installation component comprises optical axis, and polylith deadweight pressing plate is set on optical axis successively, and weight plate all can move along the direction perpendicular to optical axis separately; Gap adjustment assembly is arranged on the two ends of optical axis, for the gap regulating polylith to conduct oneself with dignity between pressing plate.

Further, swivel mount comprises: crossbeam; Two bearing blocks, two bearing blocks are separately positioned on the two ends of crossbeam; First gripper shoe, the first gripper shoe is connected on the bearing block at first end place of crossbeam by the first connection bearing assembly, and the second end of the first gripper shoe is fixedly connected with the first end of crossbeam; Second gripper shoe is connected on the bearing block at the second end place of crossbeam by the second connection bearing assembly, and the second end of the second gripper shoe is fixedly connected with the second end of crossbeam.

Further, driving mechanism comprises: first drives cylinder, and the first first end driving with swivel mount driving cylinder to be arranged on swivel mount is connected; Second drives cylinder, and the second the second end driving with swivel mount driving cylinder to be arranged on swivel mount is connected.

Further, coupling assembling comprises: the first connecting plate, and the first connecting plate is arranged on crossbeam, and is positioned at the side of the first end of the close crossbeam of crossbeam; Second connecting plate, the second connecting plate is arranged on crossbeam, and is positioned at the side of the second end of the close crossbeam of crossbeam; Installation component is arranged between the first connecting plate and the second connecting plate to install polylith deadweight pressing plate.

Further, the first connecting plate and the second connecting plate all selectively along the length motion of crossbeam, and are fixed on crossbeam by securing member.

Further, the first connecting plate and the second connecting plate are provided with the first mounting hole, and the length direction of the first mounting hole is vertical with the length direction of crossbeam.

Further, the first connecting plate and the second connecting plate include: location-plate section, and location-plate section is laid on crossbeam, and the first mounting hole is arranged in location-plate section; Bending plate section, bending plate section is connected with location-plate section and is positioned at the outer edge of crossbeam.

Further, installation component also comprises: the first installing plate, and the first installing plate is arranged on the first connecting plate; Second installing plate, the second installing plate is arranged on the second connecting plate; The first end of optical axis is connected on the first installing plate, and the second end of optical axis is connected on the second installing plate.

Further, the first installing plate and the second installing plate are provided with the second mounting hole, the length direction of the second mounting hole is perpendicular to the length direction of crossbeam; First installing plate is fixed on the first connecting plate by the first locking member, and the first locking member is through the second mounting hole on the first installing plate; Second installing plate is fixed on the second connecting plate by the second locking member, and the first locking member is through the second mounting hole on the second installing plate.

Further, the first installing plate is provided with the first vertical panel section, the first vertical panel section, perpendicular to crossbeam, the second installing plate is provided with the second vertical panel section, and the second vertical panel section is perpendicular to crossbeam; Gap adjustment assembly comprises: the first adjustable plate, and the first adjustable plate is arranged on one end near the second vertical panel section of the first vertical panel section, and the first adjustable plate is set on optical axis; First adjustment structure, the first adjustment structure is moved to the direction away from the second vertical panel section for making the first adjustable plate; Second adjustment structure, the second adjustment structure is moved near the direction of the second vertical panel section for making the first adjustable plate; Second adjustable plate, the second adjustable plate is arranged on one end near the first vertical panel section of the second vertical panel section, and the second adjustable plate is set on optical axis; 3rd adjustment structure, the 3rd adjustment structure is moved to the direction away from the first vertical panel section for making the second adjustable plate; 4th adjustment structure, the 4th adjustment structure is moved near the direction of the first vertical panel section for making the second adjustable plate.

Further, first adjustment structure comprises the first stud and the first nut, and the first stud is fixedly installed on the side away from the second adjustable plate of the first adjustable plate, and the first stud is located in the first vertical panel section, first nut is arranged on the second side of the first vertical panel section, and is set on the first stud; Second adjustment structure is the first bolt, and the first bolt is threaded connection in the first vertical panel section, and the first end of the first bolt is connected on the first adjustable plate; 3rd adjustment structure comprises the second stud and the second nut, second stud is fixedly installed on the side away from the first adjustable plate of the second adjustable plate, second stud is located in the second vertical panel section, second nut is arranged on the side away from the first vertical panel section of the second vertical panel section, and is set on the second stud; 4th adjustment structure is the second bolt, and the second bolt is threaded connection in the second vertical panel section, and the first end of the second bolt is connected on the second adjustable plate.

Further, the side near the second adjustable plate of the first adjustable plate and the side near the first adjustable plate of the second adjustable plate are provided with abutting bearing, abut the axes normal of bearing in optical axis.

Further, the first end of optical axis is installed bearing by first and is arranged in the first vertical panel section, and the second end of optical axis is installed bearing by second and is arranged in the second vertical panel section.

Further, optical axis is two, and the axis direction of two optical axises is consistent with the length direction of crossbeam.

Further, polylith deadweight pressing plate is provided with the 3rd mounting hole, and deadweight pressing plate is arranged on optical axis by the 3rd mounting hole, and the length direction of the 3rd mounting hole is perpendicular to optical axis.

According to the utility model on the other hand, provide a kind of forming machine, comprise press fit device, press fit device is above-mentioned press fit device.

Application the technical solution of the utility model, in the process of pressing, due to deadweight pressing plate between be only the relation contacted with each other, there is interaction force less, when pressing plate of conducting oneself with dignity contacts with PA composite members, respective weight plate according to the automatic edge of the different-thickness of the diverse location of PA composite members and synchronously along the radial motion of optical axis, and then can realize the adjustment of the height of deadweight pressing plate on optical axis.Now, the pressing track of polylith deadweight pressing plate can form the shape suitable with the appearance of PA composite members, thus carries out uniform pressing by the self gravitation of pressing plate of conducting oneself with dignity to PA composite members.Can know according to above-mentioned process, polylith of the present utility model deadweight pressing plate the thickness of the PA composite members of pressing as required can adjust the pressing track of polylith deadweight pressing plate automatically, makes polylith pressing plate of conducting oneself with dignity can carry out uniform bonding operation to PA composite members.In the course of the work, the situation occurring obvious unbalance stress between the deadweight pressing plate for pressing can not be caused, the service life of the press fit device that effectively improve because the thickness of PA composite members is different.

Accompanying drawing explanation

The Figure of description forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 diagrammatically illustrates the three-dimensional structure diagram of press fit device of the present utility model;

Fig. 2 diagrammatically illustrates the structure chart after press fit device of the present utility model omission deadweight pressing plate;

Fig. 3 diagrammatically illustrates the swivel mount of press fit device of the present utility model and the annexation figure of driving mechanism;

Fig. 4 diagrammatically illustrates view during being arranged on swivel mount of the laminating mechanism of press fit device of the present utility model;

Fig. 5 diagrammatically illustrates the first partial view of the laminating mechanism of press fit device of the present utility model;

Fig. 6 diagrammatically illustrates the three-dimensional structure diagram of laminating mechanism first connecting plate of press fit device of the present utility model;

Fig. 7 diagrammatically illustrates the second partial view of the laminating mechanism of press fit device of the present utility model;

Fig. 8 diagrammatically illustrates optical axis axle head first installation diagram of press fit device of the present utility model;

Fig. 9 diagrammatically illustrates the second installation diagram of the optical axis axle head of the laminating mechanism of press fit device of the present utility model; And

Figure 10 diagrammatically illustrates the 3rd installation diagram of the optical axis axle head of the laminating mechanism of press fit device of the present utility model.

Wherein, above-mentioned accompanying drawing comprises the following drawings mark:

10, swivel mount; 11, crossbeam; 12, bearing block; 13, the first gripper shoe; 14, the second gripper shoe; 15, the first connection bearing assembly; 20, driving mechanism; 21, first cylinder is driven; 22, second cylinder is driven; 30, laminating mechanism; 31, coupling assembling; 311, the first connecting plate; 312, the second connecting plate; 313, the first mounting hole; 314, location-plate section; 315, bending plate section; 32, gap adjustment assembly; 321, the first adjustable plate; 322, the second adjustable plate; 323, the first adjustment structure; 324, the second adjustment structure; 33, installation component; 331, the first installing plate; 332, the second installing plate; 333, the second mounting hole; 334, the first vertical panel section; 335, the second vertical panel section; 336, optical axis; 34, deadweight pressing plate; 341, the 3rd mounting hole; 40, the first locking member; 50, securing member; 60, bearing is abutted; 70, first bearing is installed; 80, back-up ring.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

See shown in Fig. 1 to Figure 10, according to embodiment of the present utility model, provide a kind of press fit device.

The press fit device of the present embodiment comprises swivel mount 10, driving mechanism 20 and laminating mechanism 30.

Driving mechanism 20 drives with swivel mount 10 and is connected, and driving mechanism 20 rotates for driving swivel mount 10; Laminating mechanism 30 is arranged on swivel mount 10, laminating mechanism 30 comprises coupling assembling 31, gap adjustment assembly 32, installation component 33 and polylith deadweight pressing plate 34, wherein, coupling assembling 31 is for being connected to swivel mount 10 by gap adjustment assembly 32 and installation component 33; Installation component 33 comprises optical axis 336, and polylith deadweight pressing plate 34 is set on optical axis 336 successively, and weight plate 34 all can move along the direction perpendicular to optical axis 336 separately; Gap adjustment assembly 32 is arranged on the two ends of optical axis 336, for the gap regulating polylith to conduct oneself with dignity between pressing plate 34.

According to above-mentioned structure, when carrying out pressing to PA composite members, first regulated by the gap between gap adjustment assembly 32 pairs of polylith deadweight pressing plates 34, when regulating, there is not relative motion for making adjacent two pieces of deadweight pressing plates 34 just contact in gap adjustment assembly 32.After regulating the gap between polylith deadweight pressing plate 34, by the effect of driving mechanism 20, swivel mount 10 is driven to rotate, and drive the laminating mechanism 30 be arranged on swivel mount 10 to rotate, when laminating mechanism 30 move to contact with PA composite members time, respective weight plate 34 can the power that applies of hard to bear PA composite members and along the radial motion of optical axis 336, carry out pressing finally by self gravitation to PA composite members.

In the process of pressing, due to deadweight pressing plate 34 between be only the relation contacted with each other, there is interaction force less, when pressing plate 34 of conducting oneself with dignity contacts with PA composite members, respective weight plate 34 according to the automatic edge of the different-thickness of the diverse location of PA composite members and synchronously along the radial motion of optical axis 336, and then can realize the adjustment of the height of deadweight pressing plate 34 on optical axis 336.Now, the pressing track of polylith deadweight pressing plate 34 can form the shape suitable with the appearance of PA composite members, thus carries out uniform pressing by the self gravitation of pressing plate 34 of conducting oneself with dignity to PA composite members.

Can know according to above-mentioned process, the polylith deadweight pressing plate 34 of the present embodiment the thickness of the PA composite members of pressing as required can adjust the pressing track of polylith deadweight pressing plate 34 automatically, makes polylith pressing plate 34 of conducting oneself with dignity can carry out uniform bonding operation to PA composite members.In the course of the work, the situation occurring obvious unbalance stress between the deadweight pressing plate 34 for pressing can not be caused, the service life of the press fit device that effectively improve because the thickness of PA composite members is different.

In addition, the overall structure formed due to the polylith deadweight pressing plate 34 in the present embodiment can according to specifically by the section thickness of pressing PA composite members difference, corresponding change being occurred, therefore, it is possible to be widely used in, in the bonding operation of different-thickness sizing material, effectively improve the versatility of press fit device.

Deadweight pressing plate 34 in the present embodiment be provided with hollows bottom, during pressing, deadweight pressing plate 34 is positioned on the hollows of bottom with the pressing point of sizing material, prevents deadweight pressing plate 34 pairs of sizing materials from causing damage.

Due to the deadweight that this structure is deadweight pressing plate 34 itself to the pressure that sizing material produces, therefore each pressing point place pressure is identical, defines an even distributed force system, can controlled pressure by changing gap adjustment assembly 32.

The present embodiment adopts the thought design multiple-piece structure of differential, and the thickness of each monolithic is 5mm, also can effectively pressing to sizing material in uneven thickness, realizes the object of profiling.

See shown in Fig. 1 to Fig. 3, the swivel mount 10 in the present embodiment comprises crossbeam 11, two bearing block 12, first gripper shoes 13 and the second gripper shoe 14.

During installation, two bearing blocks 12 are separately positioned on the two ends of crossbeam 11; First gripper shoe 13 is connected to by the first connection bearing assembly 15 on the bearing block 12 at the first end place of crossbeam 11, and the second end of the first gripper shoe 13 is fixedly connected with the first end of crossbeam 11; Second gripper shoe 14 is connected on the bearing block 12 at the second end place of crossbeam 11 by the second connection bearing assembly (not shown), and the second end of the second gripper shoe 14 is fixedly connected with the second end of crossbeam 11.

When driving mechanism 20 drives swivel mount 10 to move, the bearing block 12 of swivel mount 10 around its two ends rotates, and structure is simple, is convenient to control.

Preferably, driving mechanism 20 comprises the first end driving with swivel mount 10 that the first driving cylinder 21 and second drives cylinder 22, first to drive cylinder 21 to be arranged on swivel mount 10 and is connected; Second the second end driving with swivel mount 10 driving cylinder 22 to be arranged on swivel mount 10 is connected.Drive cylinder to drive swivel mount 10 to rotate from the two ends of swivel mount 10 respectively by two in the present embodiment, effectively can ensure the stationarity in swivel mount 10 motion process, and then ensure the pressing effect of laminating mechanism 30 pairs of PA composite members.

Shown in composition graphs 4 to Figure 10, the coupling assembling 31 in the present embodiment comprises the first connecting plate 311 and the second connecting plate 312.Wherein, the first connecting plate 311 is arranged on crossbeam 11, and is positioned at the side of the first end of the close crossbeam 11 of crossbeam 11; Second connecting plate 312 is also arranged on crossbeam 11, and is positioned at the side of the second end of the close crossbeam 11 of crossbeam 11; Installation component 33 is arranged between the first connecting plate 311 and the second connecting plate 312, for carrying and install above-mentioned polylith deadweight pressing plate 34.

In order to adapt to the pressing demand of different sizing material, the first connecting plate 311 in the present embodiment and the second connecting plate 312 all selectively along the length motion of crossbeam 11, and are fixed on crossbeam 11 by securing member.The length direction first connecting plate 311 of the present embodiment and the second connecting plate 312 being provided with the first mounting hole 313, first mounting hole 313 is vertical with the length direction of crossbeam 11.Preferably, the securing member in the present embodiment is fastening bolt, and structure is simple, is convenient to realize.

Preferably, the first connecting plate 311 and the second connecting plate 312 include: location-plate section 314 and bending plate section 315.Wherein, location-plate section 314 is laid on crossbeam 11, and the first mounting hole 313 is arranged in location-plate section 314; Bending plate section 315 is connected with location-plate section 314 and is positioned at the outer edge of crossbeam 11, is convenient to install installation component 33 and gap adjustment assembly 32.

In use procedure, the installation site on crossbeam 11 length direction of laminating mechanism 30 can be regulated by moving the first connecting plate 311 and the second connecting plate 312 along the length direction of crossbeam 11, then distance between laminating mechanism 30 and crossbeam 11 is regulated by moving the first connecting plate 311 and the second connecting plate 312 along the width of crossbeam 11, structure is simple, is convenient to regulate.

In the present embodiment, installation component 33 also comprises the first installing plate 331 and the second installing plate 332, and during installation, the first installing plate 331 is arranged on the first connecting plate 311; Second installing plate 332 is arranged on the second connecting plate 312; The first end of optical axis 336 is connected in the first vertical panel section 334, and the second end of optical axis 336 is connected in the second vertical panel section 335.Preferably, first installing plate 331 of the present embodiment and the second installing plate 332 are arranged in the bending plate section 315 of the first connecting plate 311 and the second connecting plate 312 respectively, be convenient to laminating mechanism 30 to hang be located on crossbeam 11, and then provide reliable installation foundation for the carrying out of bonding operation.

Preferably, first installing plate 331 of the present embodiment and the second installing plate 332 are provided with the length direction of length direction perpendicular to crossbeam 11 of the second mounting hole 333, second mounting hole 333; During installation, the first installing plate 331 is fixed on the first connecting plate 311 by the first locking member 40, and the first locking member 40 is through the second mounting hole 333 on the first installing plate 331; Second installing plate 332 is fixed on the second connecting plate 312 by the second locking member (not shown), and the first locking member 40 is through the second mounting hole 333 on the second installing plate 332.

Due to first installing plate 331 of the present embodiment and the second installing plate 332 being provided with the second mounting hole 333, by the effect of the second mounting hole 333, first locking member 40 and the second locking member, can do further adjustment to the position relationship between optical axis 336 and crossbeam 11, convenient operation personnel adjust according to the position of the user demand of reality to laminating mechanism 30.

Preferably, the first locking member 40 in the present embodiment and the second locking member are clamping screw.

In order to assemblage gap adjusting part 32, the first installing plate 331 in the present embodiment is provided with the first vertical panel section 334, and wherein, the first vertical panel section 334 is perpendicular to crossbeam 11, second installing plate 332 is provided with the second vertical panel section 335, second vertical panel section 335 perpendicular to crossbeam 11.

Specifically, the gap adjustment assembly 32 in the present embodiment comprises the first adjustable plate 321, first adjustment structure 323, second adjustment structure 324, second adjustable plate 322, the 3rd adjustment structure and the 4th adjustment structure.

During installation, the first adjustable plate 321 is arranged on one end near the second vertical panel section 335 of the first vertical panel section 334, and the first adjustable plate 321 is set on optical axis 336; First adjustment structure 323 is moved to the direction away from the second vertical panel section 335 for making the first adjustable plate 321; Second adjustment structure 324 is moved near the direction of the second vertical panel section 335 for making the first adjustable plate 321; Second adjustable plate 322 arranges one end near the first vertical panel section 334 of the second vertical panel section 335, and the second adjustable plate 322 is also set on optical axis 336; 3rd adjustment structure is moved to the direction away from the first vertical panel section 334 for making the second adjustable plate 322; 4th adjustment structure is moved near the direction of the first vertical panel section 334 for making the second adjustable plate 322.

During work, by the acting in conjunction of the first adjustment structure 323, second adjustment structure 324, the 3rd adjustment structure and the 4th adjustment structure, gap between above-mentioned polylith deadweight pressing plate 34 can be adjusted, ensure pressing the moving radially smoothly along optical axis 336 that each deadweight pressing plate 34 can be independent on.In order to ensure the guide effect of gap adjustment assembly 32, first adjustable plate 321 and the second adjustable plate 322 have the pilot hole coordinated with optical axis 336 wide arc gap, when adjustment first adjustment structure 323, second adjustment structure 324, the 3rd adjustment structure and the 4th adjustment structure, gap adjustment assembly 32 can move along optical axis 336.

Preferably, the first adjustment structure 323 in the present embodiment comprises the first stud and the first nut, first stud is fixedly installed on the side away from the second adjustable plate 322 of the first adjustable plate 321, first stud is located in the first vertical panel section 334, first nut is arranged on the second side of the first vertical panel section 334, and is set on the first stud; Second adjustment structure 324 is the first bolt, and the first bolt is threaded connection in the first vertical panel section 334, and the first end of the first bolt is connected on the first adjustable plate 321; 3rd adjustment structure also comprises the second stud and the second nut, second stud is fixedly installed on the side away from the first adjustable plate 321 of the second adjustable plate 322, second stud is located in the second vertical panel section 335, second nut is arranged on the side away from the first vertical panel section 334 of the second vertical panel section 335, and is set on the second stud; 4th adjustment structure is the second bolt, and the second bolt is threaded connection in the second vertical panel section 335, and the first end of the second bolt is connected on the second adjustable plate 322.

During concrete structure, only need to screw the first nut, the second nut, the first bolt and the second bolt to different directions, simple and quick.In the present embodiment first installs bearing 70 and the second installation bearing can support from the two ends of optical axis 336 to deadweight pressing plate 34, ensures deadweight pressing plate 34 moving radially smoothly along optical axis 336 simultaneously.Because gap adjustment assembly 32 is for being symmetrically use, therefore the gap that will can increase after the second nut screwing clamping on the first nut of the first stud above it, the second bolt between deadweight pressing plate 34; Then gap can be reduced when tightening the first bolt and the second bolt.

Preferably, the side near the second adjustable plate 322 of the first adjustable plate 321 and the side near the first adjustable plate 321 of the second adjustable plate 322 are provided with and abut bearing 60, and the axes normal of this abutting bearing 60 is in optical axis 336.When regulating the gap adjustment assembly 32 of the present embodiment, contacting with deadweight pressing plate 34 by abutting bearing 60, effectively can subtract the wearing and tearing of gap adjustment assembly 32 to deadweight pressing plate 34.In addition, owing to being contacted with deadweight pressing plate 34 by abutting bearing 60, the gap of conducting oneself with dignity between pressing plate 34 is regulated, in the process that deadweight pressing plate 34 moves along the direction perpendicular to optical axis 336, effectively can also reduce the inhibition of gap adjustment assembly 32 to deadweight pressing plate 34.

Preferably, the first end of optical axis 336 is installed bearing 70 by first and is arranged in the first vertical panel section 334, and the second end of optical axis 336 is installed bearing (not shown) by second and is arranged in the second vertical panel section 335.All deadweight pressing plates 34 in the present embodiment are arranged on two optical axises 336, optical axis 336 installs bearing 70, second connection bearing by first and hole back-up ring 80 is fixed in the first vertical panel section 334 and the second vertical panel section 335, rolling friction is become by between deadweight pressing plate 34 and optical axis 336, ensure that all deadweight pressing plates 34 can radially move smoothly on optical axis 336, two optical axises 336 also play guide effect, ensure that deadweight pressing plate 34 side is vertical with knife plate surface.As shown in Figure 9, adopt the form of screw+steel check washer optical axis 336 and the first inner ring installing bearing 70 to be fixed in the present embodiment, ensure fixing reliable.

In the present embodiment first installs bearing 70 and the second installation bearing can support from the two ends of optical axis 336 to deadweight pressing plate 34, ensures that deadweight pressing plate 34 slides up and down along optical axis 336 smoothly simultaneously.Because gap adjustment assembly 32 is for being symmetrically use, therefore the gap that will can increase after the second nut screwing clamping on the first nut of the first stud above it, the second bolt between deadweight pressing plate 34; Then gap can be reduced when tightening the first bolt and the second bolt.

Preferably, optical axis 336 is two, and the axis direction of two optical axises 336 is consistent with the length direction of crossbeam 11, can improve stability and the reliability of the press fit device of the present embodiment.

Can move automatically to adjust pressing track along the direction perpendicular to optical axis 336 axis in bonding operation for the ease of deadweight pressing plate 34, polylith deadweight pressing plate 34 in the present embodiment is provided with the 3rd mounting hole 341, deadweight pressing plate 34 is arranged on optical axis 336 by the 3rd mounting hole 341, and the length direction of the 3rd mounting hole 341 is perpendicular to optical axis 336.When laminating mechanism 30 carries out bonding operation, respective weight plate 34 can be moved along the direction perpendicular to optical axis 336 by the 3rd mounting hole 341, and then carries out self-adaptative adjustment to the pressing track that polylith deadweight pressing plate 34 is formed.

The press fit device of the present embodiment is positioned on front side of the cut-off knife of forming machine bulk supply frame composite shuttering, adopt multiple-piece deadweight pressing plate 34, position adjustment and guiding is carried out by two the 3rd mounting holes 341 on deadweight pressing plate 34, every sheet deadweight pressing plate 34 can move up and down by gravity on two optical axises 336, all deadweight pressing plates 34 directly contact between two, are arranged side by side.In order to ensure that deadweight pressing plate 34 outermost surface has support, between all pressing plates, gap appropriateness, adds gap adjustment assembly 32.

The present embodiment is mainly by cylinders providing power, and the magnetic switch that cylinder is placed can the position of effective Feedback cylinder, and when sizing material needs severing, cylinder rod is retracted and driven crossbeam 11 to press down, and after severing, cylinder rod stretches out and drives crossbeam 11 to rise.Crossbeam 11 is the aluminium section bar of square-section, and its 4 sides are all fluted, is convenient to the position adjustment realizing coupling assembling 31.

In the present embodiment, first connecting plate 311 and the second connecting plate 312 have the first mounting hole 313 with crossbeam 11 standing part and are convenient to adjust, have screwed hole with the first installing plate 331 and the fixing part of the second installing plate 332, by with the first installing plate 331 and the second installing plate 332 realize position adjustment coordinating of second mounting hole 333.Ensure that the pressing point of deadweight pressing plate 34 is positioned at the front of cut-off knife cutter groove by the adjustment of two mounting holes on the first connecting plate 311, second connecting plate 312, first installing plate 331 and the second installing plate 332, and as far as possible close to cutting a little, and under the first effect driving cylinder 21 and the second driving cylinder 22, ensure that both sides first gripper shoe 13 and the second gripper shoe 14 have identical stitching state at every turn after being bolted.

According to another aspect of the present utility model, provide a kind of forming machine, this forming machine comprises press fit device, and this press fit device is the press fit device in above-described embodiment.

These are only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (16)

1. a press fit device, is characterized in that, comprising:

Swivel mount (10);

Driving mechanism (20), described driving mechanism (20) drives with described swivel mount (10) and is connected, and described driving mechanism (20) rotates for driving described swivel mount (10);

Laminating mechanism (30), described laminating mechanism (30) is arranged on described swivel mount (10), and described laminating mechanism (30) comprises coupling assembling (31), gap adjustment assembly (32), installation component (33) and polylith deadweight pressing plate (34), wherein,

Described coupling assembling (31) is for being connected to described swivel mount (10) by described gap adjustment assembly (32) and described installation component (33);

Described installation component (33) comprises optical axis (336), and described polylith deadweight pressing plate (34) is set on described optical axis (336) successively, and each described deadweight pressing plate (34) all can be moved along the direction perpendicular to described optical axis (336);

Described gap adjustment assembly (32) is arranged on the two ends of described optical axis (336), for the gap regulating described polylith to conduct oneself with dignity between pressing plate (34).

2. press fit device according to claim 1, is characterized in that, described swivel mount (10) comprising:

Crossbeam (11);

Two bearing blocks (12), described two bearing blocks (12) are separately positioned on the two ends of described crossbeam (11);

First gripper shoe (13), described first gripper shoe (13) is connected on the described bearing block (12) at the first end place of described crossbeam (11) by the first connection bearing assembly (15), and the second end of described first gripper shoe (13) is fixedly connected with the first end of described crossbeam (11);

Second gripper shoe (14), described second gripper shoe (14) is connected to by the second connection bearing assembly on the described bearing block (12) at the second end place of described crossbeam (11), and the second end of described second gripper shoe (14) is fixedly connected with the second end of described crossbeam (11).

3. press fit device according to claim 1, is characterized in that, described driving mechanism (20) comprising:

First drives cylinder (21), and the described first first end driving with described swivel mount (10) driving cylinder (21) to be arranged on described swivel mount (10) is connected;

Second drives cylinder (22), and the described second the second end driving with described swivel mount (10) driving cylinder (22) to be arranged on described swivel mount (10) is connected.

4. press fit device according to claim 2, is characterized in that, described coupling assembling (31) comprising:

First connecting plate (311), described first connecting plate (311) is arranged on described crossbeam (11), and is positioned at the side of the first end of the close described crossbeam (11) of described crossbeam (11);

Second connecting plate (312), described second connecting plate (312) is arranged on described crossbeam (11), and is positioned at the side of the second end of the close described crossbeam (11) of described crossbeam (11);

Described installation component (33) is arranged between described first connecting plate (311) and described second connecting plate (312) to install described polylith deadweight pressing plate (34).

5. press fit device according to claim 4, is characterized in that, described first connecting plate (311) and described second connecting plate (312) all selectively along the length motion of described crossbeam (11), and are fixed on described crossbeam (11) by securing member.

6. press fit device according to claim 4, it is characterized in that, described first connecting plate (311) and described second connecting plate (312) are provided with the first mounting hole (313), and the length direction of described first mounting hole (313) is vertical with the length direction of described crossbeam (11).

7. press fit device according to claim 6, is characterized in that, described first connecting plate (311) and described second connecting plate (312) include:

Location-plate section (314), described location-plate section (314) is laid on described crossbeam (11), and the first mounting hole (313) is arranged on described location-plate section (314);

Bending plate section (315), described bending plate section (315) is connected with described location-plate section (314) and is positioned at the outer edge of described crossbeam (11).

8. press fit device according to claim 4, is characterized in that, described installation component (33) also comprises:

First installing plate (331), described first installing plate (331) is arranged on described first connecting plate (311);

Second installing plate (332), described second installing plate (332) is arranged on described second connecting plate (312);

The first end of described optical axis (336) is connected on described first installing plate (331), and the second end of described optical axis (336) is connected on described second installing plate (332).

9. press fit device according to claim 8, it is characterized in that, described first installing plate (331) and described second installing plate (332) are provided with the second mounting hole (333), and the length direction of described second mounting hole (333) is perpendicular to the length direction of described crossbeam (11);

Described first installing plate (331) is fixed on described first connecting plate (311) by the first locking member (40), and described first locking member (40) is through described second mounting hole (333) on described first installing plate (331);

Described second installing plate (332) is fixed on described second connecting plate (312) by the second locking member, and described first locking member (40) is through described second mounting hole (333) on described second installing plate (332).

10. press fit device according to claim 8, it is characterized in that, described first installing plate (331) is provided with the first vertical panel section (334), described first vertical panel section (334) is perpendicular to described crossbeam (11), described second installing plate (332) is provided with the second vertical panel section (335), described second vertical panel section (335) is perpendicular to described crossbeam (11);

Described gap adjustment assembly (32) comprising:

First adjustable plate (321), described first adjustable plate (321) is arranged on one end of the close described second vertical panel section (335) of described first vertical panel section (334), and described first adjustable plate (321) is set on described optical axis (336);

First adjustment structure (323), described first adjustment structure (323) is moved to the direction away from described second vertical panel section (335) for making described first adjustable plate (321);

Second adjustment structure (324), described second adjustment structure (324) is moved near the direction of described second vertical panel section (335) for making described first adjustable plate (321);

Second adjustable plate (322), described second adjustable plate (322) is arranged on one end of the close described first vertical panel section (334) of described second vertical panel section (335), and described second adjustable plate (322) is set on described optical axis (336);

3rd adjustment structure, described 3rd adjustment structure is used for described second adjustable plate (322) is moved to the direction away from described first vertical panel section (334);

4th adjustment structure, described 4th adjustment structure is used for described second adjustable plate (322) is moved near the direction of described first vertical panel section (334).

11. press fit devices according to claim 10, it is characterized in that, described first adjustment structure (323) comprises the first stud and the first nut, described first stud is fixedly installed on the side away from described second adjustable plate (322) of described first adjustable plate (321), described first stud is located in described first vertical panel section (334), described first nut is arranged on the second side of described first vertical panel section (334), and is set on described first stud;

Described second adjustment structure (324) is the first bolt, and described first bolt is threaded connection in described first vertical panel section (334), and the first end of described first bolt is connected on described first adjustable plate (321);

Described 3rd adjustment structure comprises the second stud and the second nut, described second stud is fixedly installed on the side away from described first adjustable plate (321) of described second adjustable plate (322), described second stud is located in described second vertical panel section (335), described second nut is arranged on the side away from described first vertical panel section (334) of described second vertical panel section (335), and is set on described second stud;

Described 4th adjustment structure is the second bolt, and described second bolt is threaded connection in described second vertical panel section (335), and the first end of described second bolt is connected on described second adjustable plate (322).

12. press fit devices according to claim 10, it is characterized in that, the side of the side of close described second adjustable plate (322) of described first adjustable plate (321) and close described first adjustable plate (321) of described second adjustable plate (322) is provided with and abuts bearing (60), and the axes normal of described abutting bearing (60) is in described optical axis (336).

13. press fit devices according to claim 10, it is characterized in that, the first end of described optical axis (336) is installed bearing (70) by first and is arranged in described first vertical panel section (334), and the second end of described optical axis (336) is installed bearing by second and is arranged in described second vertical panel section (335).

14. press fit devices according to claim 2, is characterized in that, described optical axis (336) is two, and the axis direction of described two optical axises (336) is consistent with the length direction of described crossbeam (11).

15. press fit devices according to any one of claim 1 to 14, it is characterized in that, described polylith deadweight pressing plate (34) is provided with the 3rd mounting hole (341), described deadweight pressing plate (34) is arranged on described optical axis (336) by described 3rd mounting hole (341), and the length direction of described 3rd mounting hole (341) is perpendicular to described optical axis (336).

16. 1 kinds of forming machines, comprise press fit device, it is characterized in that, the press fit device of described press fit device according to any one of claim 1 to 15.