CN106426999B - Pressing device and forming machine with same - Google Patents

Abstract

The invention provides a pressing device and a forming machine with the same. The laminating device comprises: a rotating frame; the driving mechanism is in driving connection with the rotating frame and is used for driving the rotating frame to rotate; the pressing mechanism is arranged on the rotating frame and comprises a connecting assembly, a gap adjusting assembly, an installation assembly and a plurality of dead-weight pressing plates, wherein the connecting assembly is used for connecting the gap adjusting assembly and the installation assembly on the rotating frame; the mounting assembly comprises an optical axis, a plurality of dead weight pressing plates are sequentially sleeved on the optical axis, and the dead weight pressing plates can move along the direction vertical to the optical axis; the clearance adjustment assembly is arranged at two ends of the optical axis and used for adjusting the clearance between the multiple dead weight press plates. The pressing device and the forming machine with the pressing device are long in service life and good in pressing effect.

Description

Pressing device and molding machine with the pressing device

Technical field

The present invention relates to tire shaping apparatus technical fields, in particular to a kind of pressing device and have the pressing The molding machine of device.

Background technique

On molding machine used PA composite members cutting device be will be compound after continuous sizing material cut into setting length Portion's set will have moulding material device, sizing material will not move when guarantee is cut to guarantee cutting quality before cutting.PA is multiple Component side wall portion thickness is greater than liner, forms low section between the senior middle school of both sides, and pressing difficulty is larger.

In the prior art, using acupressure probe moulding material, there are three types of forms for acupressure probe: one is monolithic finger version, a kind of It is that multi-disc refers to more plate forms, one is multi-discs to refer to veneer form, and wherein multi-disc refers to that more plate forms can gather into satisfaction by splicing and want The length asked.In use, since the difference of the selection of material and aftertreatment technology causes finger pressure piece elasticity undesirable, hard finger-type piece Lack elasticity, causes side wall portion sizing material to be crushed out of shape, inner liner portion is not pushed down.Soft finger-type piece elasticity is excessive, refers to after binder Shape piece cannot be sprung back, and generate flexible deformation, and pressing effect is undesirable.It is irregular to will cause finger-type piece end after long-time use Situation, be easily destroyed material head.

In addition, there are also a kind of mode being pressed using canvas bag in the prior art, some is filled with sea in canvas bag Silk floss, some are cut into uniform strip, similar to the form of acupressure probe.This mode is carried out using the elasticity of canvas itself Pressing；Although canvas elasticity is greater than metal acupressure probe, its height is identical, and the effective pressing that not can solve thickness difference sizing material is asked Topic, canvas material belong to nonmetallic materials, and service life is limited.

Summary of the invention

It is existing to solve the main purpose of the present invention is to provide a kind of pressing device and with the molding machine of the pressing device There is the problem that the pressing effect of the moulding material device in technology is poor, service life is short.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of pressing device, comprising: swivel mount； Driving mechanism, driving mechanism and swivel mount are drivingly connected, and driving mechanism is for driving swivel mount to rotate；Laminating mechanism, pressing machine Structure is mounted on swivel mount, laminating mechanism include connection component, gap adjustment component, mounting assembly and muti-piece self weight pressing plate, Wherein, connection component is used to gap adjustment component and mounting assembly being connected to swivel mount；Mounting assembly includes optical axis, muti-piece Self weight pressing plate is sequentially sleeved on optical axis, and respectively weight plate can be moved along the direction perpendicular to optical axis；Gap adjustment component The both ends of optical axis are set, for adjusting the gap between muti-piece self weight pressing plate.

Further, swivel mount includes: crossbeam；Two bearing blocks, two bearing blocks are separately positioned on the both ends of crossbeam；The One support plate, the first support plate are connected on the bearing block at the first end of crossbeam by the first connection bearing assembly, and first The second end of fagging is fixedly connected with the first end of crossbeam；Second connecting plate, the second connecting plate pass through the second connection bearing assembly It is connected on the bearing block at the second end of crossbeam, the second end of the second support plate is fixedly connected with the second end of crossbeam.

Further, driving device includes: the first driving cylinder, and the first end of swivel mount is arranged in simultaneously in the first driving cylinder It is drivingly connected with swivel mount；Second driving cylinder, the second driving cylinder are arranged in the second end of swivel mount and drive with swivel mount Connection.

Further, connection component includes: the first connecting plate, and the first connecting plate is arranged on crossbeam, and is located at crossbeam Close to the side of the first end of crossbeam；Second connecting plate, the second connecting plate are arranged on crossbeam, and are located at the close crossbeam of crossbeam Second end side；Mounting assembly is mounted between the first connecting plate and the second connecting plate to install muti-piece self weight pressing plate.

Further, the first connecting plate and the second connecting plate are selectively along the length motion of crossbeam, and pass through fastening Part is fixed on crossbeam.

Further, the first kidney slot, the length of the first kidney slot are provided on the first connecting plate and the second connecting plate Direction is vertical with the length direction of crossbeam.

Further, the first connecting plate and the second connecting plate include: positioning plate section, and positioning plate section is laid on crossbeam, First kidney slot is arranged in positioning plate section；Bending plate section, the setting of bending plate section connect with positioning plate section and are located at the outer of crossbeam Edge.

Further, mounting assembly further include: the first mounting plate, the first mounting plate are mounted on the first connecting plate；Second Mounting plate, the second mounting plate are mounted on the second connecting plate；The first end setting of optical axis is connected on the first mounting plate, optical axis Second end is connected on the second mounting plate.

Further, the second kidney slot, the length of the second kidney slot are provided on the first mounting plate and the second mounting plate Length direction of the direction perpendicular to crossbeam；First mounting plate is fixed on the first connecting plate by the first locking member, the first locking Part passes through the second kidney slot on the first mounting plate；Second mounting plate is fixed on the second connecting plate by the second locking member, the One locking member passes through the second kidney slot on the second mounting plate.

Further, the first vertical panel section is provided on the first mounting plate, the first vertical panel section is perpendicular to crossbeam, the second peace The second vertical panel section is provided in loading board, the second vertical panel section is perpendicular to crossbeam；Gap adjustment component includes: the first adjustable plate, One end close to the second vertical panel section of the first vertical panel section is arranged in first adjustable plate, and the first adjustable plate is set on optical axis；The One adjustment structure, the first adjustment structure are used to that the first adjustable plate to be made to move to the direction far from the second vertical panel section；Second is adjusted Structure, the second adjustment structure are used to that the first adjustable plate to be made to move to the direction close to the second vertical panel section；Second adjustable plate, second One end close to the first vertical panel section of the second vertical panel section is arranged in adjustable plate, and the second adjustable plate is set on optical axis；Third tune Section structure, third adjustment structure are used to that the second adjustable plate to be made to move to the direction far from the first vertical panel section；4th adjustment structure, 4th adjustment structure is used to that the second adjustable plate to be made to move to the direction close to the first vertical panel section.

Further, the first adjustment structure includes the first stud and the first nut, and the first stud is fixed at the first tune The side far from the second adjustable plate of plate is saved, the first stud is threaded through in the first vertical panel section, and the setting of the first nut is hung down first Second side of straight panel section, and be set on the first stud；Second adjustment structure is the first bolt, and the first bolt is connected through a screw thread In the first vertical panel section, and the first end of the first bolt is connected on the first adjustable plate；Third adjustment structure includes the second spiral shell Column and the second nut, the second stud are fixed at the side far from the first adjustable plate of the second adjustable plate, and the second stud is worn In the second vertical panel section, the side far from the first vertical panel section of the second vertical panel section is arranged in the second nut, and is set in On second stud；4th adjustment structure is the second bolt, and the second bolt is threadedly attached in the second vertical panel section, and second The first end of bolt is connected on the second adjustable plate.

Further, the side of close second adjustable plate of the first adjustable plate and being adjusted close to first for the second adjustable plate The side of plate is provided with abutting bearing, abuts the axis of bearing perpendicular to optical axis.

Further, the first end of optical axis is mounted in the first vertical panel section by the first installation bearing, the second optical axis Second end is mounted in the second vertical panel section by the second installation bearing.

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

Further, third kidney slot is provided on muti-piece self weight pressing plate, self weight pressing plate is installed by third kidney slot On optical axis, the length direction of third kidney slot is perpendicular to optical axis.

According to a further aspect of the invention, a kind of molding machine, including pressing device are provided, pressing device is above-mentioned pressing Device.

It applies the technical scheme of the present invention, during pressing, due to being only to contact with each other between self weight pressing plate Relationship, it is smaller that there are interaction forces, and when pressing plate of being self-possessed is contacted with PA composite members, respective weight plate can be according to PA composite members Different location different-thickness automatically along and the synchronous radial motion along optical axis, and then realize height of the self weight pressing plate on optical axis The adjusting of degree.At this point, the pressing track of muti-piece self weight pressing plate is capable of forming shape compatible with the appearance of PA composite members, thus PA composite members are uniformly pressed by the self gravity for pressing plate of being self-possessed.According to above-mentioned process it is recognised that the present invention The PA composite members that can press as needed of muti-piece self weight pressing plate thickness adjust automatically muti-piece self weight pressing plate pressing track, Muti-piece self weight pressing plate is enabled to carry out uniform bonding operation to PA composite members.It during the work time, will not be compound because of PA The thickness of part is different and causes occur the case where obvious unbalance stress between the self weight pressing plate for pressing, the pressure effectively increased Attach together the service life set.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 diagrammatically illustrates the three-dimensional structure diagram of pressing device of the invention；

Fig. 2 diagrammatically illustrates pressing device of the invention and omits the structure chart after self weight pressing plate；

Fig. 3 diagrammatically illustrates the swivel mount of pressing device of the invention and the annexation figure of driving device；

Fig. 4 diagrammatically illustrates view when being mounted on swivel mount of the laminating mechanism of pressing device of the invention；

Fig. 5 diagrammatically illustrates the first partial view of the laminating mechanism of pressing device of the invention；

Fig. 6 diagrammatically illustrates the three-dimensional structure diagram of the first connecting plate of laminating mechanism of pressing device of the invention；

Fig. 7 diagrammatically illustrates the second partial view of the laminating mechanism of pressing device of the invention；

Fig. 8 diagrammatically illustrates the first installation diagram of optical axis shaft end of pressing device of the invention；

Fig. 9 diagrammatically illustrates the second installation diagram of the optical axis shaft end of the laminating mechanism of pressing device of the invention；And

Figure 10 diagrammatically illustrates the third installation diagram of the optical axis shaft end of the laminating mechanism of pressing device of the invention.

Wherein, the above drawings include the following reference numerals:

10, swivel mount；11, crossbeam；12, bearing block；13, the first support plate；14, the second support plate；15, the first connecting shaft Bearing assembly；20, driving mechanism；21, the first driving cylinder；22, the second driving cylinder；30, laminating mechanism；31, connection component； 311, the first connecting plate；312, the second connecting plate；313, the first kidney slot；314, positioning plate section；315, bending plate section；32, Gap adjusts component；321, the first adjustable plate；322, the second adjustable plate；323, the first adjustment structure；324, the second adjustment structure； 33, mounting assembly；331, the first mounting plate；332, the second mounting plate；333, the second kidney slot；334, the first vertical panel section； 335, the second vertical panel section；336, optical axis；34, self weight pressing plate；341, third kidney slot；40, the first locking member；50, fastener； 60, bearing is abutted；70, the first installation bearing；80, retaining ring.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

Referring to shown in Fig. 1 to Figure 10, according to an embodiment of the invention, providing a kind of pressing device.

The pressing device of the present embodiment includes swivel mount 10, driving mechanism 20 and laminating mechanism 30.

Driving mechanism 20 and swivel mount 10 are drivingly connected, and driving mechanism 20 is for driving swivel mount 10 to rotate；Laminating mechanism 30 are mounted on swivel mount 10, and laminating mechanism 30 includes connection component 31, gap adjustment component 32, mounting assembly 33 and muti-piece Self weight pressing plate 34, wherein connection component 31 is used to gap adjustment component 32 and mounting assembly 33 being connected to swivel mount 10；Peace Arrangement 33 includes optical axis 336, and muti-piece self weight pressing plate 34 is sequentially sleeved on optical axis 336, and respectively weight plate 34 can be along vertical Directly moved in the direction of optical axis 336；The both ends of optical axis 336 are arranged in gap adjustment component 32, for adjusting muti-piece self weight pressing plate Gap between 34.

According to above-mentioned structure, when being pressed to PA composite members, first by gap adjustment component 32 to muti-piece from Gap between weight plate 34 is adjusted, and when adjusting, gap adjustment component 32 is for keeping adjacent two pieces of self weight pressing plates 34 rigid Relative motion does not occur for good contact.After regulating the gap between muti-piece self weight pressing plate 34, pass through driving mechanism 30 Effect, driving swivel mount 10 rotate, and the laminating mechanism 30 being mounted on swivel mount 10 is driven to rotate, when laminating mechanism 30 moves To when contacting with PA composite members, respective weight plate 34 can be by the power that PA composite members apply and along the radial motion of optical axis 336, most PA composite members are pressed by self gravity afterwards.

During pressing, due to being only the relationship to contact with each other between self weight pressing plate 34, there are interaction forces Smaller, when be self-possessed pressing plate 34 and PA composite members contact, respective weight plate 34 can be according to the different locations of PA composite members not Stack pile edge and the synchronous radial motion along optical axis 336 automatically, and then realize the tune of height of the self weight pressing plate 34 on optical axis 336 Section.At this point, the pressing track of muti-piece self weight pressing plate 34 is capable of forming shape compatible with the appearance of PA composite members, to pass through The self gravity of self weight pressing plate 34 uniformly presses PA composite members.

According to above-mentioned process it is recognised that the PA that the muti-piece self weight pressing plate 34 of the present embodiment can press as needed is answered Component thickness adjust automatically muti-piece self weight pressing plate 34 pressing track, enable muti-piece self weight pressing plate 34 to PA composite members into The uniform bonding operation of row.During the work time, will not because of PA composite members thickness it is different and cause the self weight for pressing There is the case where obvious unbalance stress between pressing plate 34, the service life of the pressing device effectively increased.

Further, since the overall structure that the muti-piece self weight pressing plate 34 in the present embodiment is formed can be according to specifically by pressing PA The section thickness of composite members is different and corresponding variation occurs, and therefore, the pressing that can be widely applied for different-thickness sizing material is made In industry, the versatility of pressing device is effectively increased.

The bottom of self weight pressing plate 34 in the present embodiment is provided with hollows, when pressing, self weight pressing plate 34 and sizing material Pressing point is located on the hollows of bottom, prevents self weight pressing plate 34 from damaging to sizing material.

Since this structure is the self weight of self weight pressing plate 34 itself to the pressure that sizing material generates, therefore pressure phase at each pressing point Together, an even distributed force system is formd, can control pressure by changing gap adjustment component 32.

The present embodiment using differential thought design multiple-piece construction, each monolithic with a thickness of 5mm, in uneven thickness Sizing material can also effectively press, realize the purpose of profiling.

Referring to shown in Fig. 1 to Fig. 3, the swivel mount 10 in the present embodiment includes that 11, two bearing blocks 12, first of crossbeam support Plate 13 and the second connecting plate 312.

When installation, two bearing blocks 12 are separately positioned on the both ends of crossbeam 11；First support plate 13 passes through the first connecting shaft Bearing assembly 15 is connected on the bearing block 12 at the first end of crossbeam 11, the second end of the first support plate 13 and the first of crossbeam 11 End is fixedly connected；Second connecting plate 312 is connected to the second end of crossbeam 11 by the second connection bearing assembly (not shown) On the bearing block 12 at place, the second end of the second support plate 14 is fixedly connected with the second end of crossbeam 11.

When driving mechanism 20 drives swivel mount 10 to move, bearing block 12 of the swivel mount 10 around its both ends is rotated, structure letter It is single, convenient for control.

Preferably, driving mechanism 20 includes the first driving cylinder 21 and the second driving cylinder 22, and the first driving cylinder 21 is set It sets the first end in swivel mount 10 and is drivingly connected with swivel mount 10；The second end of swivel mount 10 is arranged in second driving cylinder 22 And it is drivingly connected with swivel mount 10.Drive rotation in the present embodiment from the both ends of swivel mount 10 respectively by two driving cylinders Frame 10 rotates, and can effectively ensure that the stationarity in 10 motion process of swivel mount, and then guarantees laminating mechanism 30 to PA composite members Pressing effect.

In conjunction with shown in Fig. 4 to Figure 10, the connection component 31 in the present embodiment includes the first connecting plate 311 and the second connecting plate 312.Wherein, the first connecting plate 311 is arranged on crossbeam 11, and is located at the side of the first end of the close crossbeam 11 of crossbeam 11； Second connecting plate 312 is also disposed on crossbeam 11, and is located at the side of the second end of the close crossbeam 11 of crossbeam 11；Mounting assembly 33 are mounted between the first connecting plate 311 and the second connecting plate 312, for carrying and installing above-mentioned muti-piece self weight pressing plate 34.

In order to adapt to the pressing demand of different sizing materials, the first connecting plate 311 and the second connecting plate 312 in the present embodiment are Selectively along the length motion of crossbeam 11, and it is fixed on crossbeam 11 by fastener.First connecting plate 311 of the present embodiment Be provided with the first kidney slot 313 on the second connecting plate 312, the length direction of the first kidney slot 313 and the length of crossbeam 11 Direction is vertical.Preferably, the fastener in the present embodiment is fastening bolt, and structure is simple, is easy to implement.

Preferably, the first connecting plate 311 and the second connecting plate 312 include: positioning plate section 314 and bending plate section 315.Its In, positioning plate section 314 is laid on crossbeam 11, and the first kidney slot 313 is arranged in positioning plate section 314；Bending plate section 315 is arranged The outer edge of crossbeam 11 is connect and be located at positioning plate section 314, is easily installed mounting assembly 33 and gap adjustment component 32.

It, can be by moving the first connecting plate 311 and the second connecting plate 312 along the length direction of crossbeam 11 in use process The installation site on 11 length direction of crossbeam of laminating mechanism 30 is adjusted, then by moving along the width direction of crossbeam 11 One connecting plate 311 and the second connecting plate 312 adjust the distance between laminating mechanism 30 and crossbeam 11, and structure is simple, convenient for adjusting Section.

In the present embodiment, mounting assembly 33 further includes the first mounting plate 331 and the second mounting plate 332, when installation, first Mounting plate 331 is mounted on the first connecting plate 311；Second mounting plate 332 is mounted on the second connecting plate 312；The of optical axis 336 One end 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, originally The first mounting plate 331 and the second connecting plate 332 of embodiment are separately mounted to the first connecting plate 331 and the second connecting plate 332 In bending plate section 315, be located on crossbeam 11 convenient for hanging laminating mechanism 30, so for bonding operation carry out reliable peace is provided Dress basis.

Preferably, it is provided with the second kidney slot 333 on first mounting plate 331 and the second mounting plate 332 of the present embodiment, Length direction of the length direction of second kidney slot 333 perpendicular to crossbeam 11；When installation, the first mounting plate 331 passes through the first lock Tight part 40 is fixed on the first connecting plate 311, and the first locking member 40 passes through the second kidney slot 333 on the first mounting plate 331；The Two mounting plates 332 are fixed on the second connecting plate 312 by the second locking member (not shown), and the first locking member 40 passes through the The second kidney slot 333 on two mounting plates 332.

Due to being provided with the second kidney slot 333 on first mounting plate 331 and the second mounting plate 332 of the present embodiment, lead to The effect in the second waist hole 333, the first locking member 40 and the second locking member is crossed, it can be between optical axis 336 and crossbeam 11 Positional relationship does further adjustment, is adjusted convenient for operator according to position of the actual use demand to laminating mechanism 30 It is whole.

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

In order to install gap adjustment component 32, the first vertical panel section is provided on the first mounting plate 331 in the present embodiment 334, wherein the first vertical panel section 334 is provided with the second vertical panel section 335 on second mounting plate 332 perpendicular to crossbeam 11, and Two vertical panel sections 335 are perpendicular to crossbeam 11.

Specifically, the gap adjustment component 32 in the present embodiment include the first adjustable plate 321, the first adjustment structure 323, Second adjustment structure 324, the second adjustable plate 322, third adjustment structure and the 4th adjustment structure.

When installation, one end close to the second vertical panel section 335 of the first vertical panel section 334 is arranged in the first adjustable plate 321, First adjustable plate 321 is set on optical axis 336；First adjustment structure 323 is for keeping the first adjustable plate 321 vertical to separate second The direction of plate section 335 moves；Second adjustment structure 324 is used to make the first adjustable plate 321 to the side close to the second vertical panel section 335 To movement；One end close to the first vertical panel section 334 of the second vertical panel section 335, the second adjustable plate is arranged in second adjustable plate 322 322 are also set on optical axis 336；Third adjustment structure is used to make the second adjustable plate 322 to the side far from the first vertical panel section 334 To movement；4th adjustment structure is used to that the second adjustable plate 322 to be made to move to the direction close to the first vertical panel section 334.

When work, is adjusted and tied by the first adjustment structure 323, the second adjustment structure 324, third adjustment structure and the 4th The collective effect of structure can be adjusted the gap between above-mentioned muti-piece self weight pressing plate 34, guarantee each in pressing effect Being self-possessed pressing plate 34 can individual smoothly moving radially along optical axis 336.In order to guarantee that the guiding of gap adjustment component 32 is made With, be provided on the first adjustable plate 321 and the second adjustable plate 322 with 336 wide arc gap of optical axis cooperation pilot hole, when adjustment first adjust When section structure 323, the second adjustment structure 324, third adjustment structure and four adjustment structures, gap adjusts component 32 can edge Optical axis 336 is mobile.

Preferably, the first adjustment structure 323 in the present embodiment includes the first stud and the first nut, and the first stud is fixed The side far from the second adjustable plate 322 of first adjustable plate 321 is set, the first stud is threaded through in the first vertical panel section 334, Second side of the first vertical panel section 334 is arranged in first nut, and is set on the first stud；Second adjustment structure 324 is the One bolt, the first bolt is threadedly attached in the first vertical panel section 334, and the first end of the first bolt is connected to the first tune It saves on plate 321；Third adjustment structure also includes the second stud and the second nut, and the second stud is fixed at the second adjustable plate 322 side far from the first adjustable plate 321, the second stud is threaded through in the second vertical panel section 335, and the setting of the second nut is the The side far from the first vertical panel section 334 of two vertical panel sections 335, and be set on the second stud；4th adjustment structure is the Two bolts, the second bolt is threadedly attached in the second vertical panel section 335, and the first end of the second bolt is connected to the second tune It saves on plate 322.

When specific structure, it is only necessary to which the direction of Xiang Butong screws the first nut, the second nut, the first bolt and the second spiral shell Bolt, it is simple and quick.The first installation bearing 70 and the second installation bearing in the present embodiment can be from the two of optical axis 336 End is supported self weight pressing plate 34, while guaranteeing smoothly the moving radially along optical axis 336 of pressing plate 34 of being self-possessed.Due to gap tune Whole group part 32 is to be symmetrically to using, therefore the second nut on the first nut of the first stud above it, the second bolt is twisted Next gap that can increase between self weight pressing plate 34；It then can reduce gap when tightening the first bolt and the second bolt.

Preferably, the first adjustable plate 321 close to the second adjustable plate 322 side and the second adjustable plate 322 close to the The side of one adjustable plate 321, which is provided with, abuts bearing 60, and the axis of the abutting bearing 60 is perpendicular to optical axis 336.When to this reality When applying the gap adjustment component 32 of example and being adjusted, it is to be contacted by abutting bearing 60 with pressing plate 34 of being self-possessed, can effectively subtracts The abrasion of 32 pairs of self weight pressing plates 34 of gap adjustment component.Further, since by abut bearing 60 be self-possessed pressing plate 34 contact it is right Gap between self weight pressing plate 34 is adjusted, during pressing plate 34 of being self-possessed is moved along the direction perpendicular to optical axis 336, also It can be effectively reduced the inhibition of 30 pairs of self weight pressing plates 34 of gap adjustment component.

Preferably, the first end of optical axis 336 is mounted in the first vertical panel section 334 by the first installation bearing 70, optical axis 336 second end is mounted in the second vertical panel section 335 by the second installation bearing (not shown).Institute in the present embodiment Some self weight pressing plates 34 are mounted on two optical axises 336, optical axis 336 by first connection bearing 70, second connect bearing and Hole retaining ring 80 is fixed in the first vertical panel section 334 and the second vertical panel section 335, will be between self weight pressing plate 34 and optical axis 336 Become rolling friction, guarantee that all self weight pressing plates 34 can be moved radially smoothly on optical axis 336, two optical axises 336 are also Guiding role is played, guarantees that self weight 34 side of pressing plate is vertical with knife plate surface.As shown in figure 9, using screw+steel in the present embodiment The form of check washer processed fixes the inner ring of optical axis 336 and the first connection bearing 70, guarantees fixed reliable.

The first installation bearing 70 and the second installation bearing in the present embodiment can be from the both ends of optical axis 336 to self weight pressing plate 34 are supported, while guaranteeing that self weight pressing plate 34 is smoothly slided up and down along optical axis 336.Since gap adjustment component 32 is symmetrical It uses, therefore can increase after the second nut on the first nut of the first stud above it, the second bolt is tightened certainly in pairs Gap between weight plate 34；It then can reduce gap 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 the stability and reliability of the pressing device of the present embodiment.

It can move for the ease of self weight briquetting 34 in bonding operation along the direction perpendicular to 336 axis of optical axis with automatic Adjustment presses track, is provided with third kidney slot 341 on the muti-piece self weight pressing plate 34 in the present embodiment, self weight pressing plate 34 passes through Third kidney slot 341 is mounted on optical axis 336, and the length direction of third kidney slot 341 is perpendicular to optical axis 336.Work as laminating mechanism When 30 progress bonding operation, respective weight plate 34 can be moved by third kidney slot 341 along the direction perpendicular to optical axis 336, And then the pressing track formed to muti-piece self weight pressing plate 34 is adaptively adjusted.

The pressing device of the present embodiment is located on front side of the cut-off knife of molding machine bulk supply frame composite shuttering, is self-possessed using multiple-piece Pressing plate 34 carries out position adjustment and guiding by two third kidney slots 341 on self weight pressing plate 34, and every self weight pressing plate 34 is all It can be moved up and down on two optical axises 336 by gravity, all self weight pressing plates 34 directly contact two-by-two, are arranged side by side.In order to Guarantee that self weight 34 outermost surface of pressing plate has support, gap appropriateness between all pressing plates increases gap adjustment component 32.

The present embodiment mainly by cylinders providing power, the magnetic switch placed on cylinder can effective Feedback cylinder position It sets, when sizing material needs severing, cylinder rod, which retracts, drives crossbeam 11 to push, and cylinder rod, which stretches out, after severing drives on crossbeam 11 It rises.Crossbeam 11 is the aluminum profile of square-section, and 4 sides are fluted, is easy to implement the position adjustment of connection component 31.

In the present embodiment, the first connecting plate 311 and the second connecting plate 312 and 11 fixed part of crossbeam are provided with the first kidney-shaped Hole 313 is conveniently adjusted, and fixed part is provided with threaded hole with the first mounting plate 331 and the second mounting plate 332, by pacifying with first Position adjustment is realized in the cooperation of the second kidney slot 333 in loading board 331 and the second mounting plate 332.By the first connecting plate 311, The adjustment of two kidney slots guarantees self weight pressing plate 34 on second connecting plate 312, the first mounting plate 331 and the second mounting plate 332 Pressing point is located at a front for cut-off knife cutter groove, and as close possible to cutting a little, and drives cylinder 21 first after being bolted Guarantee that two sides the first support plate 13 and the second support plate 14 have identical pressing shape every time under the action of the second driving cylinder 22 State.

According to another aspect of the present invention, a kind of molding machine is provided, which includes pressing device, the pressing device For the pressing device in above-described embodiment.

These are only the preferred embodiment of the present invention, is not intended to restrict the invention, for those skilled in the art For member, the invention may be variously modified and varied.All within the spirits and principles of the present invention, it is made it is any modification, Equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (16)

1. a kind of pressing device characterized by comprising

Swivel mount (10)；

Driving mechanism (20), the driving mechanism (20) and the swivel mount (10) are drivingly connected, and the driving mechanism (20) is used In driving swivel mount (10) rotation；

Laminating mechanism (30), the laminating mechanism (30) are mounted on the swivel mount (10), and the laminating mechanism (30) includes Connection component (31), gap adjustment component (32), mounting assembly (33) and muti-piece self weight pressing plate (34), wherein

The connection component (31) is used to the gap adjustment component (32) and the mounting assembly (33) being connected to the rotation On pivoted frame (10)；

The mounting assembly (33) includes optical axis (336), and muti-piece self weight pressing plate (34) is sequentially sleeved at the optical axis (336) On, and each self weight pressing plate (34) can move along the direction perpendicular to the optical axis (336)；

Gap adjustment component (32) setting is at the both ends of the optical axis (336), for adjusting the muti-piece self weight pressing plate (34) gap between.

2. pressing device according to claim 1, which is characterized in that the swivel mount (10) includes:

Crossbeam (11)；

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

First support plate (13), first support plate (13) are connected to the crossbeam by the first connection bearing assembly (15) (11) on the bearing block (12) at first end, the of the second end of first support plate (13) and the crossbeam (11) One end is fixedly connected；

Second support plate (14), second support plate (14) are connected to the crossbeam (11) by the second connection bearing assembly On the bearing block (12) at second end, the second end of second support plate (14) and the second end of the crossbeam (11) are solid Fixed connection.

3. pressing device according to claim 1, which is characterized in that the driving device includes:

First driving cylinder (21), it is described first driving cylinder (21) setting the swivel mount (10) first end and with it is described Swivel mount (10) is drivingly connected；

Second driving cylinder (22), it is described second driving cylinder (22) setting the swivel mount (10) second end and with it is described Swivel mount (10) is drivingly connected.

4. pressing device according to claim 2, which is characterized in that the connection component (31) includes:

First connecting plate (311), first connecting plate (311) are arranged on the crossbeam (11), and are located at the crossbeam (11) side of the first end close to the crossbeam (11)；

Second connecting plate (312), second connecting plate (312) are arranged on the crossbeam (11), and are located at the crossbeam (11) side of the second end close to the crossbeam (11)；

The mounting assembly (33) is mounted between first connecting plate (311) and second connecting plate (312) to install The muti-piece is self-possessed pressing plate (34).

5. pressing device according to claim 4, which is characterized in that first connecting plate (311) and described second connects Fishplate bar (312) is fixed on the crossbeam (11) selectively along the length motion of the crossbeam (11) by fastener.

6. pressing device according to claim 4, which is characterized in that first connecting plate (311) and described second connects It is provided on fishplate bar (312) the first kidney slot (313), the length direction and the crossbeam of first kidney slot (313) (11) length direction is vertical.

7. pressing device according to claim 6, which is characterized in that first connecting plate (311) and described second connects Fishplate bar (312) includes:

Positioning plate section (314), the positioning plate section (314) are laid on the crossbeam (11), and the first kidney slot (313) setting exists On the positioning plate section (314)；

Bending plate section (315), the bending plate section (315), which is arranged, to be connect with the positioning plate section (314) and is located at the crossbeam (11) outer edge.

8. pressing device according to claim 4, which is characterized in that the mounting assembly (33) further include:

First mounting plate (331), first mounting plate (331) are mounted on first connecting plate (311)；

Second mounting plate (332), second mounting plate (332) are mounted on second connecting plate (312)；

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

9. pressing device according to claim 8, which is characterized in that first mounting plate (331) and second peace It is provided in loading board (332) the second kidney slot (333), the length direction of second kidney slot (333) is perpendicular to the cross The length direction of beam (11)；

First mounting plate (331) is fixed on first connecting plate (311) by the first locking member (40), and described first Locking member (40) passes through second kidney slot (333) on first mounting plate (331)；

Second mounting plate (332) is fixed on second connecting plate (312) by the second locking member, first locking Part (40) passes through second kidney slot (333) on second mounting plate (332).

10. pressing device according to claim 8, which is characterized in that be provided with first on first mounting plate (331) Vertical panel section (334), the first vertical panel section (334) are set on second mounting plate (332) perpendicular to the crossbeam (11) It is equipped with the second vertical panel section (335), the second vertical panel section (335) is perpendicular to the crossbeam (11)；

The gap adjustment component (32) includes:

First adjustable plate (321), first adjustable plate (321) be arranged the first vertical panel section (334) close to described the One end of two vertical panel sections (335), first adjustable plate (321) are set on the optical axis (336)；

First adjustment structure (323), first adjustment structure (323) is for making first adjustable plate (321) to far from institute State the direction movement of the second vertical panel section (335)；

Second adjustment structure (324), second adjustment structure (324) is for making first adjustable plate (321) to close to institute State the direction movement of the second vertical panel section (335)；

Second adjustable plate (322), second adjustable plate (322) be arranged the second vertical panel section (335) close to described the One end of one vertical panel section (334), second adjustable plate (322) are set on the optical axis (336)；

Third adjustment structure, the third adjustment structure is for keeping second adjustable plate (322) vertical to separate described first The direction of plate section (334) moves；

4th adjustment structure, the 4th adjustment structure is for keeping second adjustable plate (322) vertical to close described first The direction of plate section (334) moves.

11. pressing device according to claim 10, which is characterized in that first adjustment structure (323) includes first Stud and the first nut, first stud are fixed at separate second adjustable plate of first adjustable plate (321) (322) side, first stud are threaded through on the first vertical panel section (334), and first nut is arranged described Second side of first vertical panel section (334), and be set on first stud；

Second adjustment structure (324) is the first bolt, and first bolt is threadedly attached in first vertical panel In section (334), and the first end of first bolt is connected on first adjustable plate (321)；

The third adjustment structure includes the second stud and the second nut, and second stud is fixed at described second and adjusts The side far from first adjustable plate (321) of plate (322), second stud are threaded through the second vertical panel section (335) on, second nut setting is in the second vertical panel section (335) far from the first vertical panel section (334) Side, and be set on second stud；

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

12. pressing device according to claim 10, which is characterized in that first adjustable plate (321) close to described The side of second adjustable plate (322) and the side close to first adjustable plate (321) of second adjustable plate (322) are equal It is provided with and abuts bearing (60), the axis for abutting bearing (60) is perpendicular to the optical axis (336).

13. pressing device according to claim 10, which is characterized in that the first end of the optical axis (336) passes through first Installation bearing (70) is mounted on the first vertical panel section (334), and the second end of the optical axis (336) is pacified by described second Dress bearing is mounted on the second vertical panel section (335).

14. pressing device according to claim 2, which is characterized in that the optical axis (336) is two, two light The axis direction of axis (336) is consistent with the length direction of the crossbeam (11).

15. according to claim 1 to pressing device described in any one of 14, which is characterized in that the muti-piece self weight pressing plate (34) it is provided on third kidney slot (341), the self weight pressing plate (34) is mounted on institute by the third kidney slot (341) It states on optical axis (336), the length direction of the third kidney slot (341) is perpendicular to the optical axis (336).

16. a kind of molding machine, including pressing device, which is characterized in that the pressing device is any one of claims 1 to 15 The pressing device.