CN106378946B - Molding machine piecing devices and molding machine - Google Patents

Abstract

The present invention provides a kind of molding machine piecing devices and molding machine, which includes：Conveying device；The output end in conveying device is arranged in press-roller device, press-roller device；Assembly drum, assembly drum can be rotatably set in the side of the separate conveying device of press-roller device；Clamping device, clamping device is arranged between press-roller device and assembly drum, clamping device includes holding down assembly, and is held down assembly including compression bar and the briquetting being arranged on compression bar, is held down assembly with the first state for being adsorbed on assembly drum and being moved with assembly drum and far from the second state of assembly drum.The molding machine piecing devices of the present invention and the stability and reliability that can be effectively improved in tire bond process of molding machine.

Description

Molding machine piecing devices and molding machine

Technical field

The present invention relates to tire shaping apparatus technical fields, in particular to a kind of molding machine piecing devices and at Type machine.

Background technology

At present tyre forming process according to sidewall and liner be all on bulk supply frame it is compound in advance, can be divided into it is pre-composite at Type technique and non-pre-composite moulding process, wherein pre-composite molding machine technique, that is, sidewall and liner layer are pre- advanced on bulk supply frame Row is compound, forms composite members, then sidewall and liner layer are transported on assembly drum 30 in the form of composite members and are bonded.With Non- pre-composite moulding process is compared, and pre-composite moulding process list tire shaping cycle duration is short, and production efficiency is relatively high.

For pre-composite moulding process, composite members realize that automatic joint is to ensure tire building quality, shorten single tire molding Circulation time improves the key factor of production efficiency.Existing composite members connector needs manually to be intervened mostly, including compound Part fits to the alignment of the head and the tail on assembly drum 30, both sides concordant, length compensation and artificial pressing, seriously affects tire building effect Rate.

In a kind of molding machine automatic piecing arrangement of the prior art, composite members severing coordinates ultrasonic cutter using acupressure probe It is cut；Composite members conveying device coordinates limited block to carry out tensioner and correction to conveyer belt using tightening roller；Composite members exist Fitting on assembly drum 30 is brought together using the pressurization of multi-disc pressure roller adheres to composite members on assembly drum 30；The survey length of composite members only exists It carries out primary survey before severing to grow, no secondary survey length and joint detector.In this fashion, composite members severing acupressure probe is variable Shape causes sidewall and liner that cannot be pressed simultaneously completely, influences composite members pressing effect, leads to composite members severing section injustice It is whole；The tightening roller tensioner mode of composite members conveying device is difficult to realize both sides synchronous adjustment, can not ensure the levelness of tightening roller, Meanwhile the limited block of conveying device does not have effect of the limit transport with sideslip, can cause to convey belt wear instead；Composite members exist Fitting on assembly drum 30 is pressurizeed the form brought together using multi-disc pressure roller, larger to bring pressure together composite members material head be caused to be squeezed Compressive strain influences the head and the tail docking of composite members；The primary survey length of composite members can only ensure severing fixed length, can not be bonded to composite members Length and joint quality to assembly drum 30 are detected.

There are another molding machine piecing devices, composite members severing to coordinate ultrasonic cutter using acupressure probe in the prior art It is cut；Composite members conveying device uses the correction mode of the tensioner mode and V-type deviation rectification roller of adjusting center distance；Composite members exist Fitting on assembly drum 30 coordinates magnetic compression bar to fit to composite members on assembly drum 30 using multi-disc pressure roller；The survey of composite members is grown The adjusting of multi-disc platen pressure and conveying are fed back to including surveying length before severing survey length and secondary fitting, and by the secondary long result of survey The speeds match of band and assembly drum 30, to be compensated to the length of composite members.In this fashion, composite members severing finger pressure Plate is equally yielding, causes sidewall and liner that cannot be pressed simultaneously completely, influences composite members and press effect, composite members is caused to be cut out Disconnected section out-of-flatness；The tensioner mode of composite members conveying device adjusting center distance and the correction mode of V-type deviation rectification roller, can not ensure The levelness of conveying cylinder and the automatic deviation correction of conveyer belt；The secondary survey length of composite members can only ensure severing fixed length and fitting length Compensation, can not fit to composite members the length of assembly drum 30 and joint quality is detected

Invention content

It is in the prior art to solve the main purpose of the present invention is to provide a kind of molding machine piecing devices and molding machine The problem of molding machine piecing devices stability difference.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of molding machine piecing devices, including： Conveying device；The output end in conveying device is arranged in press-roller device, press-roller device；Assembly drum, assembly drum can be rotatably set in The side of the separate conveying device of press-roller device；Clamping device, clamping device are arranged between press-roller device and assembly drum, clamp Device includes holding down assembly, and is held down assembly including compression bar and the briquetting being arranged on compression bar, and holding down assembly to have is adsorbed on molding On drum and with the first state of assembly drum movement and far from the second state of assembly drum.

Further, it further includes adsorption magnet to hold down assembly, and adsorption magnet is fixed on compression bar.

Further, clamping device further includes locking assembly, and locking assembly has the first position for the locking that will hold down assembly With the second position for the release that will hold down assembly.

Further, it further includes two piece of first connecting plate to hold down assembly, and two piece of first connecting plate is connected to compression bar First end and second end, locking assembly lock the first connecting plate to be in first position.

Further, locking assembly includes：Installing mechanism；Retaining mechanism, retaining mechanism are mounted on installing mechanism, locking Mechanism includes the first locking mechanism and the second locking mechanism, and the first locking mechanism and the second locking mechanism are opposite from compression bar respectively Compression bar is locked between the first locking mechanism and the second locking mechanism by both sides.

Further, the first side of the first connecting plate is provided with the first locating slot, the first connecting plate it is opposite with the first side The second side be provided with the second locating slot, be provided on installing mechanism carrying the first connecting plate supporting part, the first locking mechanism Including：Locking cylinder, locking cylinder are mounted on installing mechanism；Locking pin, locking pin are arranged on the piston rod of locking cylinder, Locking cylinder is for driving locking pin to be plugged in the first locating slot；Second locking mechanism includes：Positioning sleeve, positioning sleeve are mounted on On installing mechanism, mounting hole is set on positioning sleeve, the first catching step is provided on the inner wall of mounting hole；Lock axis pin, locking Axis pin is mounted in mounting hole, and the one end for locking the close compression bar of axis pin is provided with the second catching step, and locking axis pin, which has, to be inserted The locked position being located in the second locating slot；Dynamic clamping head and quiet clamping head, dynamic clamping head and quiet clamping head are set on locking axis pin, dynamic clamping head and quiet clamping head First end and second end supports be located on the first catching step and the second catching step respectively；Linear bearing, linear bearing are mounted on One end far from the second catching step of positioning sleeve, locking axis pin are fixed on by fastening assembly on linear bearing.

Further, the first side of the first connecting plate is provided with lozenges.

Further, locking assembly is two, and clamping device further includes driving mechanism, and driving mechanism drives with locking assembly Connection is to drive locking assembly to be moved to the direction closer or far from assembly drum；Driving mechanism includes：First driving portion, first drives Dynamic portion and a drive connection in two locking assemblies；Second driving portion, the second driving portion with it is another in two locking assemblies One drive connection.

Further, driving mechanism is connect by the second connecting plate with locking assembly, and the second connecting plate is fixed by axis pin On mounting structure.

Further, installing mechanism includes mounting plate, and it further includes adjusting that mounting plate upper end, which is provided with positioning plate locking assembly, Mechanism, regulating mechanism include：Adjusting bolt, adjusting bolt are supported on a mounting board by positioning plate；Sliding block, sliding block recline installation Plate is arranged, and is provided with link block on sliding block, and adjusting bolt is threaded through on positioning plate and link block successively, the first locking mechanism and the Two locking mechanisms are installed on sliding block；Adjusting nut, adjusting nut are set in adjusting bolt, and positioned at the separate of link block The side of positioning plate.

Further, installing mechanism further includes angle adjustment plate, and the first end of angle adjustment plate is hinged on the second connecting plate Separate driving mechanism one end, the second end connection of angle adjustment plate is provided on a mounting board, on angle adjustment plate along the The arc line shaped hole that the length direction of two connecting plates extends, angle adjustment plate are fixed on by the locking member being threaded through in arc line shaped hole On second connecting plate.

Further, clamping device further includes：Adjustable plate is provided with the short transverse extension along mounting plate on adjustable plate Kidney slot, adjustable plate are installed on a mounting board by locking mechanism；Close to switch, it is mounted on adjustable plate close to switch.

Further, molding machine piecing devices further include the pressing device being arranged in the input terminal of conveying device, pressing dress Set including：Swivel mount；Drive component, drive component are drivingly connected with swivel mount, and drive component is for driving swivel mount to rotate；Pressure Close mechanism, laminating mechanism be mounted on swivel mount on, laminating mechanism include connection component, gap adjustment component, mounting assembly and Polylith dead weight pressing plate, wherein connection component is used to gap adjustment component and mounting assembly being connected to swivel mount；Mounting assembly Including optical axis, polylith dead weight pressing plate is sequentially sleeved on optical axis, and respectively weight plate energy edge is moved perpendicular to the direction of optical axis； Gap adjustment component is arranged at the both ends of optical axis, for adjusting the gap between polylith dead 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 to by the first connection bearing assembly on the bearing block at the first end of crossbeam, first The second end of fagging is fixedly connected with the first end of crossbeam；Second support plate, the second support 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, connection component includes：First connector, the first connector are arranged on crossbeam, and positioned at crossbeam Close to the side of the first end of crossbeam；Second connector, the second connector are arranged on crossbeam, and positioned at the close crossbeam of crossbeam Second end side；Mounting assembly is mounted between the first connector and the second connector to install polylith dead weight pressing plate.

Further, the first connector and the second connector 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 both provided on the first connector and the second connector Direction is vertical with the length direction of crossbeam.

Further, mounting assembly further includes：First mounting plate, the first mounting plate are mounted on the first connector；Second Mounting plate, the second mounting plate are mounted on the second connector；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 both 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 by the first locking member on the first connector, the first locking Part passes through the second kidney slot on the first mounting plate；Second mounting plate is fixed on by the second locking member on the second connector, 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：First adjustable plate, First adjustable plate is arranged in the first vertical panel section close to one end of the second vertical panel section, and the first adjustable plate is set on optical axis； First 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 adjusts Section 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, the Two adjustable plates are arranged in the second vertical panel section close to one end of the first vertical panel section, and the second adjustable plate is set on optical axis；The Three adjustment structures, 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 is adjusted Structure, the 4th adjustment structure are used to that the second adjustable plate to be made to move to the direction close to the first vertical panel section.

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

Further, the first end of optical axis is mounted on by the first installation bearing on the first mounting plate, the second end of optical axis It is mounted on the second mounting plate by the second installation bearing.

Further, third kidney slot is both provided on polylith dead weight pressing plate, dead weight pressing plate is installed by third kidney slot On optical axis, the length direction of third kidney slot is perpendicular to optical axis.

Further, conveying device includes：Installation frame；Conveyer belt, conveyer belt are mounted on installation frame；Driving dress It sets, driving device includes driving drum, and driving drum is with conveyer belt CONTACT WITH FRICTION to drive conveyer belt to move；Swelling device rises Tight device includes tightening part and force section, and force section is connect with tightening part to drive tightening part to move with by conveyer belt tensioner.

Further, tightening part includes：Tensioner roller, tensioner roller is under the driving of force section along the length side of conveyer belt To movement with by conveyer belt tensioner；Locating rack, locating rack are mounted on the bottom of installation frame, are provided with along conveyer belt on locating rack Length direction extend sliding rail；Holder, tensioner roller is rack-mount, and holder is transported under the action of force section along sliding rail It is dynamic.

Further, sliding rail is the dovetail groove being arranged on locating rack, and cunning compatible with dovetail groove is provided on holder Block.

Further, force section includes：Pulley assembly；Gravity box, gravity box are connect by steel wire rope with holder, steel wire rope Around being located on pulley assembly.

Further, pulley assembly includes：The bottom center in installation frame is arranged in first directive wheel, the first directive wheel, The axis of first directive wheel is perpendicular to installation frame；The bottom margin in installation frame is arranged in second directive wheel, the second directive wheel, First directive wheel is axially parallel to installation frame.

Further, the first end of installation frame is provided with the first positioning region, and the second end of installation frame is provided with second Positioning region, conveyer belt are annularly set in the periphery of the first positioning region and the second positioning region；Driving drum is mounted on installation frame Bottom, and with the first positioning region and the second positioning region jointly by conveyer belt tensioner.

Further, molding machine piecing devices further include deviation correcting device, and deviation correcting device is arranged on a conveyor to prevent Conveying object in conveying device shifts.

Further, deviation correcting device includes the multiple roller structures of installation axle and setting on the mounting shaft, multiple pressure roller knots Structure is sequentially arranged along the length direction of installation axle.

Further, molding machine piecing devices further include device for detecting length and controller, and device for detecting length setting exists The top of assembly drum, controller are connect with device for detecting length.

According to another aspect of the present invention, a kind of molding machine, including molding machine piecing devices, molding machine connector dress are provided It is set to above-mentioned molding machine piecing devices.

It applies the technical scheme of the present invention, when molding machine piecing devices work, by the effect of conveying device, can incite somebody to action PA composite members are delivered at press-roller device, are acted on by the pressing of press-roller device, can be carried out pressure roller to PA composite members, conveyed Under the collective effect of device and assembly drum, PA composite members continue to transmit and be wrapped on assembly drum.Due to having energy in the present invention It is enough adsorbed on holding down assembly on assembly drum, during assembly drum rotates, holding down assembly can rotate with assembly drum And it is in first state, the material head end of PA composite members is positioned by the briquetting for being arranged in compression bar, PA can be prevented compound Part slides during assembly drum rotates on assembly drum, after assembly drum rotates a circle, holds down assembly far from assembly drum and locates In the second state.Convenient for being docked to the material head of PA composite members and material tail using other mechanisms, effectively increase the present invention's The stability and reliability of molding machine piecing devices.

Description of the drawings

The accompanying drawings which form a part of this application are used to provide further understanding of the present invention, and of the invention shows Meaning property embodiment and its explanation are not constituted improper limitations of the present invention for explaining the present invention.In the accompanying drawings：

Fig. 1 diagrammatically illustrates the annexation figure of each structure of molding machine piecing devices of the present invention；

Fig. 2 diagrammatically illustrates the three-dimensional structure diagram of the clamping device in the present invention；

Fig. 3 diagrammatically illustrates the first driving structure of the clamping device in the present invention and the connection relation of locking assembly Figure；

The annexation figure that Fig. 4 diagrammatically illustrates the locking assembly of the present invention and holds down assembly；

Fig. 5 diagrammatically illustrates the three-dimensional structure diagram of the locking assembly of the present invention；

Fig. 6 diagrammatically illustrates the three-dimensional structure diagram of the present invention to hold down assembly；

Fig. 7 diagrammatically illustrates the partial view of the present invention to hold down assembly；

Fig. 8 diagrammatically illustrates the sectional view of the second locking mechanism of the present invention；

Fig. 9 diagrammatically illustrates the three-dimensional structure diagram of the pressing device of the present invention；

The pressing device that Figure 10 diagrammatically illustrates the present invention omits the structure chart after dead weight pressing plate；

Figure 11 diagrammatically illustrates the first partial view of the laminating mechanism of the pressing device of the present invention；

Figure 12 diagrammatically illustrates the first installation diagram of optical axis shaft end of the pressing device of the present invention；

Figure 13 diagrammatically illustrates the second installation diagram of the optical axis shaft end of the laminating mechanism of the pressing device of the present invention；

Figure 14 diagrammatically illustrates the front view of the transport device of the present invention；

Figure 15 diagrammatically illustrates the front view of the swelling device of the present invention；And

Figure 16 diagrammatically illustrates the detection scheme figure of the device for detecting length of the present invention.

Wherein, above-mentioned attached drawing includes the following drawings label：

10, conveying device；11, installation frame；111, the first positioning region；12, conveyer belt；13, driving device；131, it drives Roller；14, swelling device；141, tightening part；1411, tensioner roller；1412, locating rack；1413, holder；1414, sliding rail； 142, force section；1421, pulley assembly；1421a, the first directive wheel；1421b, the second directive wheel；1422, gravity box；143, steel Cord；20, pressing device；21, swivel mount；211, crossbeam；212, bearing block；213, the first support plate；214, the second support plate； 22, drive component；221, the first driving cylinder；222, the second driving cylinder；23, laminating mechanism；231, connection component；2311、 First connector；2312, the second connector；2313, the first kidney slot；232, gap adjustment component；2321, the first adjustable plate； 2322, the first adjustment structure；2323, the second adjustment structure；2324, the second adjustable plate；233, mounting assembly；2331, optical axis； 2332, the first mounting plate；2333, the second mounting plate；2334, the second kidney slot；2335, the first vertical panel section；2336, second hangs down Straight panel section；234, dead weight pressing plate；235, bearing is abutted；236, the first locking member；30, assembly drum；40, clamping device；41, it compresses Component；411, compression bar；412, briquetting；413, adsorption magnet；414, the first connecting plate；4141, the first locating slot；4142, second Locating slot；4143, lozenges；42, locking assembly；421, installing mechanism；4211, mounting plate；422, retaining mechanism；423, first Locking mechanism；4231, locking cylinder；4232, locking pin；424, the second locking mechanism；4241, positioning sleeve；4242, locking pin Axis；4243, mounting hole；4244, the first catching step；4245, the second catching step；4246, dynamic clamping head and quiet clamping head；4247, straight line Bearing；4248, fastening assembly；4251, adjusting bolt；4252, sliding block；4253, adjusting nut；4254, link block；4255, fixed Position plate；4256, angle adjustment plate；4257, arc line shaped hole；43, driving mechanism；431, the first driving portion；432, the second driving portion； 44, the second connecting plate；45, adjustable plate；451, kidney slot；46, close to switch；47, locking mechanism；48, fastener；49, first Spacer；410, the second spacer；50, deviation correcting device；60, device for detecting length；70, ultrasonic cutter；80, PA composite members 80；90, length detection mechanism；100, press-roller device.

Specific implementation mode

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.

Shown in Fig. 1 to Figure 15, according to an embodiment of the invention, a kind of molding machine piecing devices are provided.

Shown in Figure 1, the molding machine piecing devices of the present embodiment include being pressed for 80 severing of PA composite members Pressing device 20, the ultrasonic cutter 70 for severing PA composite members 80, the conveying for ensureing 80 delivery precision of PA composite members Device 10, for ensureing that PA composite members 80 are pressed together on clamping device 40 on assembly drum 30, for once surveying long length detection machine Structure 90 is examined for detecting composite members in 30 top connection quality of assembly drum, unfitness of butt joint and the secondary multifunctional length for surveying length of realization It surveys device 60 and the deviation correcting device 50 for preventing PA composite members 80 from deviating is set above conveying device 10.

Wherein, the output end in conveying device 10 is arranged in press-roller device 100；Assembly drum 30 can be rotatably set in pressure roller dress Set the side of 100 separate conveying device 10；Clamping device 40 is arranged between press-roller device 100 and assembly drum 30, clamps dress It includes holding down assembly 41 to set 40, and it 41 includes compression bar 411 and the briquetting 412 that is arranged on compression bar 411 to hold down assembly, and holds down assembly 41 The second state with the first state and separate assembly drum 30 for being adsorbed on assembly drum 30 and being moved with assembly drum 30.

When molding machine piecing devices work, by the effect of conveying device 10, PA composite members 80 can be delivered to pressure At roller arrangement 100, acts on, PA composite members 80 can be fitted on assembly drum 30 by the pressing of press-roller device 100, while into Row pressure roller, the outer round surface of press-roller device 100 and the outer round surface of assembly drum 30 are tangent；In conveying device 10 and assembly drum 30 and press-roller device 100 collective effect under, PA composite members 80 continue to transmit and be wrapped on assembly drum 30.Due to this reality It applies in example to have to be adsorbed on assembly drum 30 and holds down assembly 41, during assembly drum 30 rotates, hold down assembly 41 It can be rotated with assembly drum 30 and be in first state, by the way that the briquetting 412 in compression bar 411 is arranged to PA composite members 80 Material head end is positioned, and can be prevented PA composite members 80 from being slid on assembly drum 30 during assembly drum 30 rotates, be worked as molding After drum 30 rotates a circle, 41 are held down assembly far from assembly drum 30 and is in the second state.Convenient for compound to PA using other mechanisms The material head and material tail of part 80 are docked, and the stability and reliability of the molding machine piecing devices of the present embodiment are effectively increased.

Shown in Fig. 6 and Fig. 7, holding down assembly in the present embodiment 41 further includes adsorption magnet 413, when installation, absorption Magnet 413 is fixed on compression bar 411, by the effect of adsorption magnet 413, can compression bar 411 be fixed on assembly drum 30 On, guarantee hold down assembly 41 can with assembly drum 30 rotate and be in first state, prevent the material head of PA composite members 80 being molded Drum 30 is detached from assembly drum 30 during rotating.

In conjunction with shown in Fig. 2 to Fig. 5, the clamping device in the present embodiment further includes locking assembly 42, the locking assembly 42 tool Have by the first position for 41 lockings that hold down assembly and by the second position for 41 releases that hold down assembly.When locking assembly 42 will compress group When part 41 is locked, holding down assembly 41 is in its second state, after locking assembly 42 will hold down assembly 41 release, holds down assembly 41 In its first state.By the locking of locking assembly 42 effect can make to hold down assembly 41 first position and the second position it Between switch.For 41 lockings that will hold down assembly, holding down assembly for the present embodiment 41 further includes two piece of first connecting plate 414, two pieces First connecting plate 414 is connected to the first end and second end of compression bar 411, and is fixed on compression bar 411 by fastener 48. When work, locking assembly 42 locks the first connecting plate 414 to be in its first position, and the first connecting plate 414 is unlocked to locate In its second position.

In conjunction with shown in Fig. 5, the locking assembly 42 in the present embodiment includes installing mechanism 421 and retaining mechanism 422.

Wherein, retaining mechanism 422 is mounted on installing mechanism 421, and retaining mechanism 422 includes 423 He of the first locking mechanism Second locking mechanism 424, when needs will hold down assembly 41 locking, the first locking mechanism 423 and the second locking mechanism 424 difference It is locked between the first locking mechanism 423 and the second locking mechanism 424 from the opposite both sides of compression bar 411 by compression bar 411, it can It prevents from holding down assembly and 41 be rotated together with assembly drum 30.

First side of first connecting plate 414 of the present embodiment is provided with the first locating slot 4141, the first connecting plate 414 with The opposite the second side in first side is provided with the second locating slot 4142.When design, the first connection of carrying is provided on installing mechanism 421 The supporting part of plate 414, the first locking mechanism 423 include：Locking cylinder 4231 and locking pin 4232.Locking cylinder 4231 is mounted on On installing mechanism 421；Locking pin 4232 is arranged on the piston rod of locking cylinder 4231, when needing will to hold down assembly 41 lockings When, drive locking pin 4232 to be plugged in the first locating slot 4141 using locking cylinder 4231, thus by the first side of compression bar 411 It limits.

Second locking mechanism 424 includes：Positioning sleeve 4241, locking axis pin 4242, dynamic clamping head and quiet clamping head 4246 and linear axis Hold 4247.Wherein, positioning sleeve 4241 is mounted on installing mechanism 421, and mounting hole 4243, mounting hole are provided on positioning sleeve 4241 The first catching step 4244 is provided on 4243 inner wall；It locks axis pin 4242 to be mounted in mounting hole 4243, locks axis pin One end of 4242 close compression bar 411 is provided with the second catching step 4245, and locking axis pin 4242, which has, is plugged in the second positioning Locked position in slot 4142；Dynamic clamping head and quiet clamping head 4246 is set on locking axis pin 4242, the first end of dynamic clamping head and quiet clamping head 4246 It supports and is located on the first catching step 4244 and the second catching step 4245 respectively with second end；Linear bearing 4247 is mounted on positioning One end far from the second catching step 4245 of set 4241, locking axis pin 4242 are fixed on linear bearing by fastening assembly 4248 On 4247.The first connecting plate 414 is set to ride upon installing mechanism when needs will hold down assembly 41 locking according to above-mentioned structure On 421 supporting part, at this point, drive locking pin 4232 to be plugged in the first locating slot 4141 using locking cylinder 4231, second The locking axis pin 4242 of locking mechanism 424 is plugged under the action of dynamic clamping head and quiet clamping head 4246 in second locating slot 4142.Pass through The collective effect of locking pin 4232 and locking axis pin 4242, can limit first connecting plate 414 at 411 both ends of compression bar, in turn To hold down assembly 41 lockings, simple in structure, be easy to implement.Preferably, the dynamic clamping head and quiet clamping head 4246 in the present embodiment is to reset bullet Spring.

In other embodiments of the invention, the first locking mechanism 423 and the second locking mechanism 424 can also be changed to The structure of the achievable identical function such as drag hook, ratchet.Preferably, the first side of first connecting plate 414 of the present embodiment is provided with Lozenges 4143.During the work time, when hold down assembly 41 rotate a circle with assembly drum 30 after, touch the second locking knot first Structure 424 enables to the first side thickness of the first connecting plate 414 thinning at this point, due to the setting of lozenges 4143, convenient for inserting It is set to the bottom of the second locking mechanism 424.In the first connecting plate 414 the second locking mechanism is plugged in the movement of assembly drum 30 During 424, locking axis pin 4242 is shunk along lozenges 4143, until being plugged in the second locating slot 4142.Meanwhile it locking Cylinder 4231 drives locking pin 4232 to be plugged in the first locating slot 4141, and then 41 lockings that will hold down assembly, and prevents compression group Part 41 continues to rotate with assembly drum 30.When need by release hold down assembly 41 when, it is only necessary to using locking cylinder 4231 will lock Pin 4232 is withdrawn from the first locating slot 4141, at this point, adsorption magnet 413 is adsorbed on assembly drum 30 so that holds down assembly 41 It is moved with assembly drum 30, the locking axis pin 4242 of the second locking mechanism 424 is detached from the from the notch of the second locating slot 4142 Two locating slots 4142, make locking assembly 42 release to hold down assembly 41 locking.

In order to improve the present embodiment molding machine piecing devices stability and reliability, the locking assembly in the present embodiment 42 are set as two, and two locking assemblies 42 are respectively used to lock first connecting plate 414 at 41 both ends that hold down assembly.

Shown in Fig. 2 and Fig. 3, the clamping device in the present embodiment further includes driving mechanism 43, the driving mechanism 43 are drivingly connected with locking assembly 42 to drive locking assembly 42 to be moved to the direction closer or far from assembly drum 30.In the present invention Other embodiment in, locking assembly 42 is put by front template into, the drive form that swings back and is changed to by beacon light frame body along assembly drum 30 extend radially out the drive form with retraction.

Specifically, the driving mechanism 43 in the present embodiment includes：First driving portion 431 and the second driving portion 432.

Wherein, a drive connection in the first driving portion 431 and two locking assemblies 42；Second driving portion 432 and two Another drive connection in a locking assembly 42.It is driven by the collective effect of the first driving portion 431 and the second driving portion 432 Two locking assemblies 42 are moved to the direction closer or far from assembly drum 30, and stable structure is reliable.

Preferably, the first driving portion 431 in the present embodiment and the second driving portion 432 include driving cylinder, cylinder block With Y type band pin connecting rods, wherein driving cylinder is mounted on cylinder block, and Y type band pin connecting rods are docked at the piston rod of driving cylinder On.

In the present embodiment, driving mechanism 43 is connect by the second connecting plate 44 with locking assembly 42.When installation, this second Connecting plate 44 passes through axis pin（It is not shown in figure）It is fixedly mounted on mounting structure（It is not shown in figure）On, the of the second connecting plate 44 One end is connect by Y types band pin connecting rod with driving cylinder, and the second end of the second connecting plate 44 is connect with locking assembly 42.Work as driving When mechanism 43 drives the second connecting plate 44 to be rotated around axis pin, locking assembly 42 is transported to the direction closer or far from the assembly drum 30 It is dynamic.

Shown in Fig. 5, the installing mechanism 421 of the present embodiment further includes mounting plate 4211, mounting plate 4211 it is upper End is provided with link block 4254, and locking assembly 42 further includes regulating mechanism, which includes adjusting bolt 4251, sliding block 4252 and adjusting nut 4253.

When installation, adjusting bolt 4251 is supported on by positioning plate 4255 on mounting plate 4211；Sliding block 4252 reclines installation Plate 4211 is arranged, and link block 4254 is provided on sliding block 4252, and adjusting bolt 4251 is threaded through positioning plate 4255 and connection successively On block 4254, and above-mentioned the first locking mechanism 423 and the second locking mechanism 424 is installed on sliding block 4252；Adjusting nut 4253 are set in adjusting bolt 4251, and the side of the remotely located plate 4255 positioned at link block 4254.

During being docked to PA composite members 80, since the type of PA composite members 80 is various, it is therefore desirable to lock The position of tight component 42 is adjusted.According to above-mentioned structure, 42 position of locking assembly can be adjusted using regulating mechanism Section.When adjusting, by screwing adjusting nut 4253, so that it may so that sliding block 4252 is moved along the short transverse of mounting plate 4211, into And to the height of the first locking mechanism 423 and the second locking mechanism 424 on mounting plate 4211 on sliding block 4252 into Row adjustment, makes the molding machine piecing devices of the present embodiment can adapt to different types of PA composite members 80.

In order to improve the present embodiment molding machine piecing devices flexibility, the installing mechanism 421 of the present embodiment further includes Angle adjustment plate 4256, the first end of angle adjustment plate 4256 are hinged on the one of the separate driving mechanism 43 of the second connecting plate 44 End, the first end of angle adjustment plate 4256 are welded to connect on mounting plate 4211, are provided with along second on angle adjustment plate 4256 The arc line shaped hole 4257 that the length direction of connecting plate 44 extends, angle adjustment plate 4256 is by being threaded through in arc line shaped hole 4257 Locking member（It is not shown in figure）It is fixed on the second connecting plate 44.By being provided with angle adjustment plate 4256 in this present embodiment, when When the angle to locking assembly 42 being needed to be adjusted, it is only necessary to which then rotation angle adjustable plate 4256 utilizes locking member by angle Degree adjustable plate 4256 is locked on the second connecting plate 44.

Preferably, the clamping device of the present embodiment further includes：Adjustable plate 45 and close switch 46.Wherein, on adjustable plate 45 It is provided with the kidney slot 451 of the short transverse extension along mounting plate 4211, adjustable plate 45 is mounted on installation by locking mechanism 47 On plate 4211；It is mounted on adjustable plate 45 close to switch 46.By the effect of kidney slot 451 and locking mechanism 47, can dock Nearly mounting height of the switch 46 on mounting plate 4211 is adjusted.Preferably, locking mechanism 47 is clamping screw.

According to the description above it is recognised that as shown in Fig. 2 to Fig. 8, clamping device of the embodiment of the present invention 40 has：For driving The driving mechanism 43 of dynamic 42 rotation of locking assembly, the second connecting plate 44 for connecting driving mechanism 43 and locking assembly 42 and 41 are held down assembly for fitting to PA composite members 80 on assembly drum 30.

As shown in Figures 2 and 3, driving mechanism 43 drives locking assembly 42 around the second connecting plate 44 by the second connecting plate 44 Oscillation center swing.The driving mechanism 43 includes the first driving portion 431 and the second driving portion 432, wherein the first driving portion 431 and second driving portion 432 include Standard Cylinder, cylinder block, trunnion mounting component and Y types band pin joint bar.

In actual installation process, the driving mechanism 43 is mounted on molding machine front template frame body, and passes through Y type band pins Extension bar is connect with the second connecting plate 44.Second connecting plate, 44 both ends are connect with driving mechanism 43 and locking assembly 42 respectively, and are led to It crosses axis pin to connect with front template mounting base, under the driving of driving mechanism 43, the second connecting plate 44 can be swung around axis pin, in turn Locking assembly 42 is driven to swing.

As shown in Figure 4 and Figure 5,41 are held down assembly for PA composite members 80 to be fitted to assembly drum 30.When PA composite members 80 from molding machine front template to assembly drum 30 when being bonded, and locking assembly 42 is under the action of driving mechanism 43 to close to assembly drum 30 Direction rotation.After the completion of rotation, holding down assembly for 42 lower end of locking assembly 41 is adsorbed onto by the effect of adsorption magnet 413 On type drum 30, the material head of PA composite members 80 is automatically and accurately pressed on assembly drum 30；At this point, it is described hold down assembly 41 Side is locked by the first locking mechanism 423, locking pin 4232 is plugged in the first locating slot 4141 of the first connecting plate 414, Hold down assembly 41 the second side by the second locking mechanism 424 lock locking axis pin 4242 be plugged on the first connecting plate 414 In second locating slot 4142, hereby it is achieved that hold down assembly 41 position fix and locking.

When hold down assembly 41 the material head of PA composite members 80 is fitted on assembly drum 30 after, locking cylinder 4231 shrink drive Locking pin 4232 is promoted, to release fixation and locking to 41 first side positions that hold down assembly, it is possible thereby to realize compression group Part 41 during the fitting of PA composite members 80 with assembly drum 30 rotate, realize to hold down assembly 41 release.

It 41 compression PA composite members, 80 material head and is rotated with assembly drum 30 when holding down assembly, meanwhile, it 46 is detected close to switch It holds down assembly after 41 releases, locking cylinder 4231 stretches out, and locking pin 4232 is driven to reset.41 are held down assembly with assembly drum when described 30 when being approximately rotated to pressing device, pressing device release, and guarantee, which holds down assembly, 41 passes through pressing device bottom；Pass through Afterwards, the instantaneous subregion pressurization of pressing device, continues to roll the fitting of PA composite members 80.It is revolved with assembly drum 30 when holding down assembly When transferring nearly one week, 30 speed of wrap of assembly drum reduces, the lozenges of first connecting plate 414 at 41 both ends that hold down assembly at this time 4143 contact with the end of the locking axis pin 4242 in the second locking mechanism 424, and locking axis pin 4242 is pushed to be promoted；When compression group After part 41 rotates a circle, locking axis pin 4242 is inserted into the second locating slot 4142 of the first connecting plate 414, as a result, compression group Second side position of part 41 is fixed and locks.At this point, hold down assembly 41 the first side position locking cylinder 4231 and locking It is fixed and locks under the action of pin 4232 and the first locating slot 4141.Complete as a result, to hold down assembly 41 recycling and lock Tightly.

After close switch 46, which detects, holds down assembly 41 recycling, driving mechanism 43 is shunk, and 44 band of the second connecting plate is passed through Dynamic locking assembly 42 swings back reset, thus completes a whole set of circulation action.

As shown in Figure 6 and Figure 7,414 first side of the first connecting plate and the second side have the first locating slot 4141 and Two locating slots 4142, for limit hold down assembly 41 position, and it is locked；Meanwhile 414 first side of the first connecting plate Lozenges 4143 is provided with for ensureing that the first connecting plate 414 smoothly connects with the locking axis pin 4242 in the second locking mechanism 424 It touches and transition, the adsorption magnet 413 41 is adsorbed onto molding by that will hold down assembly with the contact of the adsorption site on assembly drum 30 On drum 30.

In other embodiments of the invention, adsorption magnet 413 can also be arranged on the first connecting plate 414, and first adjusts Section pad 49 and the second spacer 410 are respectively used to the position of 414 opposite locking assembly 42 of adjustment adsorption magnet 413 and the first connecting plate Height is set, to realize the fitting to different size sizing material.The compression bar 411 is for fixing briquetting 412, to realize to PA composite members 80 fitting.Two distinct types of briquetting 412 is provided on the compression bar 411, briquetting 412 is polylith, and polylith is along compression bar 411 Length direction arranged for interval, and be less than the briquetting for being located at the middle part of compression bar 411 close to the length of the briquetting 412 at 411 both ends of compression bar 412 length, be respectively used to in PA composite members 80 sidewall and liner press；412 independent split blade type structure of briquetting can Realize the quick-replaceable pressed for different size PA composite members 80.

As shown in figure 8, second locking mechanism 424 is used to that 41 the second side position of holding down assembly to be limited and locked Tightly.Positioning sleeve 4241 is installed to by screw on sliding block 4252.The locking axis pin 4242 is for limiting and holding down assembly 41 The position of the second side, wherein the front end of the locking axis pin 4242 is spherical surface, and when work, front end spherical surface with first for connecting Second locating slot 4142 of the second side of plate 414 contacts, and the middle-end axis of locking axis pin 4242 is used to support the dynamic clamping head and quiet clamping head 4246, locking axis pin 4242 is provided with threaded hole, and rear end threaded hole is for installing fastening assembly 4248.Dynamic clamping head and quiet clamping head 4246 is used In limit and locking of the realization locking axis pin 4242 to 414 the second side of the first connecting plate at 41 both ends that hold down assembly.Fastening assembly 4248 include screw, washer and baffle ring, and baffle ring is used to limit the axial displacement of locking axis pin 4242.

Shown in Fig. 9 to Figure 13, the pressing device 20 of the present embodiment is arranged in the front end of conveying device 10, pressing dress It sets including swivel mount 21, drive component 22 and laminating mechanism 23.

Drive component 22 is drivingly connected with swivel mount 21, and drive component 22 is for driving swivel mount 21 to rotate；Laminating mechanism 23 be mounted on swivel mount 21 on, laminating mechanism 23 include connection component 231, gap adjustment component 232, mounting assembly 233 and Polylith dead weight pressing plate 234, wherein connection component 231 is used to gap adjustment component 232 and mounting assembly 233 being connected to rotation On frame 21；Mounting assembly 233 includes optical axis 2331, and polylith dead weight pressing plate 234 is sequentially sleeved on optical axis 2331, and respective weight The energy edge of plate 234 is moved perpendicular to the direction of optical axis 2331；Gap adjustment component 232 is arranged at the both ends of optical axis 2331, is used for Adjust the gap between polylith dead weight pressing plate 234.

According to above-mentioned structure, when being pressed to PA composite members 80, first by gap adjustment component 232 to polylith Gap between dead weight pressing plate 234 is adjusted, and when adjusting, gap adjustment component 232 is for making adjacent two pieces of dead weight pressing plates 234 just contact relative motion do not occur.After regulating the gap between polylith dead weight pressing plate 234, pass through driving group The effect of part 22, driving swivel mount 21 rotate, and the laminating mechanism 23 being mounted on swivel mount 21 is driven to rotate, and work as laminating mechanism 23 move to when being contacted with PA composite members 80, and respective weight plate 234 can be by the power that PA composite members 80 apply and along optical axis 2331 Diameter mutually move, PA composite members 80 are pressed finally by its own gravity.

During pressing, due to being only the relationship to contact with each other between dead weight pressing plate 234, there are interaction forces Smaller, when pressing plate 234 of conducting oneself with dignity is contacted with PA composite members 80, respective weight plate 234 can be according to the different positions of PA composite members 80 The different-thickness set automatically along and it is synchronous along being moved perpendicular to the direction of optical axis 2331, and then realize dead weight pressing plate 234 in optical axis The adjusting of height on 2331.At this point, the peripheral structure of polylith dead weight pressing plate 234 can form the appearance phase with PA composite members 80 The shape of adaptation, to uniformly be pressed to PA composite members 80 by its own gravity for pressing plate 234 of conducting oneself with dignity.

According to above-mentioned process it is recognised that the PA that the polylith dead weight pressing plate 234 of the present embodiment can press as needed The integrally-built shape that the thickness adjust automatically polylith dead weight pressing plate 234 of composite members 80 is formed so that polylith dead weight pressing plate 234 Uniform bonding operation can be carried out to PA composite members 80.It during the work time, will not be because of the thickness difference of PA composite members 80 And cause the case where apparent unbalance stress occur between the dead weight pressing plate 234 for pressing, the pressing device effectively increased Service life.

Further, since the overall structure that the polylith dead weight pressing plate 234 in the present embodiment is formed can be according to specifically being pressed PA composite members 80 and corresponding variation occurs, therefore, it is possible to be widely used in the bonding operation of different sizing materials, effectively increase The versatility of pressing device.

The bottom of dead weight pressing plate 234 in the present embodiment is provided with hollows, when pressing, conduct oneself with dignity pressing plate 234 and sizing material Pressing point on the hollows of bottom, prevent dead weight pressing plate 234 from being damaged to glue.

Since this structure is the dead weight of of dead weight pressing plate 234 itself to the pressure that sizing material generates, therefore pressure at each pressing point It is identical, an even distributed force system is formd, it can be with control pressure by changing gap adjustment component 232.

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

Shown in Fig. 9 to Figure 11, the swivel mount 21 in the present embodiment includes 211, two bearing blocks 212, first of crossbeam Support plate 213 and the second connector 2312.

When installation, two bearing blocks 212 are separately positioned on the both ends of crossbeam 211；First support plate 213 passes through the first connection Bearing assembly is connected on the bearing block 212 at the first end of crossbeam 211, second end and the crossbeam 211 of the first support plate 213 First end is fixedly connected；Second connector 2312 passes through the second connection bearing assembly（It is not shown in figure）It is connected to crossbeam 211 On bearing block 212 at second end, the second end of the second support plate 214 is fixedly connected with the second end of crossbeam 211.

When drive component 22 drives swivel mount 21 to move, bearing block 212 of the swivel mount 21 around its both ends rotates, structure letter It is single, convenient for control.

Preferably, drive component 22 includes that the first driving cylinder 221 and second drives cylinder 222, the first driving cylinder 221 First end in swivel mount 21 is set and is drivingly connected with swivel mount 21；Second driving cylinder 222 is arranged the of swivel mount 21 Two ends are simultaneously drivingly connected with swivel mount 21.It is driven respectively from the both ends of swivel mount 21 by two driving cylinders in the present embodiment Swivel mount 21 rotates, and can effectively ensure that the stationarity in 21 motion process of swivel mount, and then ensures that laminating mechanism 23 is multiple to PA The pressing effect of component 80.

In conjunction with shown in Figure 10 to Figure 13, the connection component 231 in the present embodiment connects including the first connector 2311 and second Fitting 2312.Wherein, the first connector 2311 is arranged on crossbeam 211, and first of the close crossbeam 211 positioned at crossbeam 211 The side at end；Second connector 2312 is also disposed on crossbeam 211, and positioned at the second end of the close crossbeam 211 of crossbeam 211 Side；Mounting assembly 233 is mounted between the first connector 2311 and the second connector 2312, above-mentioned for carrying and installing Polylith dead weight pressing plate 234.

In order to adapt to the pressing demand of different sizing materials, the first connector 2311 in the present embodiment and the second connector 2312 Selectively along the length motion of crossbeam 211, and it is fixed on crossbeam 211 by fastener.First connection of the present embodiment The first kidney slot 2313, the length direction and crossbeam of the first kidney slot 2313 are both provided on part 2311 and the second connector 2312 211 length direction is vertical.Preferably, the fastener in the present embodiment is fastening bolt, simple in structure, is easy to implement.

Preferably, the first connector 2311 and the second connector 2312 include：Positioning plate section and bending plate section.Wherein, Positioning plate section is laid on crossbeam 211, and the first kidney slot 2313 is arranged in positioning plate section；Bending plate section is arranged and positioning plate section The outer edge for connecting and being located at crossbeam 211 is easily installed mounting assembly 233 and gap adjustment component 232.

It, can be by moving the first connector 2311 and the second connector along the length direction of crossbeam 211 during use 2312 adjust the installation site on 211 length direction of crossbeam of laminating mechanism 23, then pass through the width direction along crossbeam 211 The first connector 2311 and the second connector 2312 are moved to adjust the distance between laminating mechanism 23 and crossbeam 211, structure letter It is single, convenient for adjusting.

In the present embodiment, mounting assembly 233 further includes the first mounting plate 2332 and the second mounting plate 2333, when installation, First mounting plate 2332 is mounted on the first connector 2311；Second mounting plate 2333 is mounted on the second connector 2312；Light The first end setting of axis 2331 is connected on the first mounting plate 2332, and the second end of optical axis 2331 is connected to the second mounting plate 2333 On.Preferably, first mounting plate 2332 of the present embodiment and the second mounting plate 2333 are separately mounted to 2311 He of the first connector In the bending plate section of second connector 2312, be located on crossbeam 211 convenient for hanging laminating mechanism 23, so for bonding operation into Row provides reliable installation foundation.

Preferably, it is both provided with the second kidney slot on first mounting plate 2332 and the second mounting plate 2333 of the present embodiment 2334, the length direction of the length direction of the second kidney slot 2334 perpendicular to crossbeam 211；When installation, the first mounting plate 2332 is logical It crosses 236 first locking member 236 of the first locking member to be fixed on the first connector 2311,236 first locking member 236 of the first locking member The second kidney slot 2334 on the first mounting plate 2332；Second mounting plate 2333 passes through the second locking member（It is not shown in figure） It is fixed on the second connector 2312,236 first locking member 236 of the first locking member passes through the second waist on the second mounting plate 2333 Shape hole 2334.

Due to being both provided with the second kidney slot 2334 on first mounting plate 2332 and the second mounting plate 2333 of the present embodiment, It, can be to optical axis by the effect of the second kidney slot 2334,236 first locking member 236 of the first locking member and the second locking member Position relationship between 2331 and crossbeam 211 does further adjustment, and personnel easy to operation are according to actual use demand to pressing The position of mechanism 23 is adjusted.

Preferably, 236 first locking member 236 of the first locking member in the present embodiment and the second locking member are locking screw Bolt.

In order to install gap adjustment component 232, the first vertical panel is provided on the first mounting plate 2332 in the present embodiment Section 2335, wherein the first vertical panel section 2335 is provided with the second vertical panel section on crossbeam 211, the second mounting plate 2333 2336, the second vertical panel section 2336 is perpendicular to crossbeam 211.

Specifically, the gap adjustment component 232 in the present embodiment includes the first adjustable plate 2321, the first adjustment structure 2322, the second adjustment structure 2323, the second adjustable plate 2324, third adjustment structure and the 4th adjustment structure.

When installation, the first adjustable plate 2321 is arranged in the first vertical panel section 2335 close to the one of the second vertical panel section 2336 End, the first adjustable plate 2321 are set on optical axis 2331；First adjustment structure 2322 is for making the first adjustable plate 2321 to separate The direction of second vertical panel section 2336 moves；Second adjustment structure 2323 is for keeping the first adjustable plate 2321 vertical to close second The direction of plate section 2336 moves；Second adjustable plate 2324 is arranged in the second vertical panel section 2336 close to the first vertical panel section 2335 One end, the second adjustable plate 2324 is also set on optical axis 2331；Third adjustment structure is for making the second adjustable plate 2324 to remote Direction movement from the first vertical panel section 2335；4th adjustment structure is for making the second adjustable plate 2324 to close to the first vertical panel The direction movement of section 2335.

When work, adjusted by the first adjustment structure 2322, the second adjustment structure 2323, third adjustment structure and the 4th The collective effect of structure can be adjusted the gap between above-mentioned polylith dead weight pressing plate 234, ensure energy in pressing effect It is enough that PA composite members 80 are uniformly pressed.In order to ensure the guiding role of gap adjustment component 232, the first adjustable plate 2321 With the pilot hole coordinated with 2331 wide arc gap of optical axis is provided on the second adjustable plate 2324, when adjusting the first adjustment structure 2322, the When two adjustment structures 2323, third adjustment structure and four adjustment structures, gap adjustment component 232 can be moved along optical axis 2331 It is dynamic.

Preferably, the first adjustment structure 2322 in the present embodiment includes the first stud and the first nut, and the first stud is solid Fixed to be arranged in the side far from the second adjustable plate 2324 of the first adjustable plate 2321, the first stud is threaded through the first vertical panel section On 2335, the second side in the first vertical panel section 2335 is arranged in the first nut, and is set on the first stud；Second adjustment structure 2323 be the first bolt, and the first bolt is threadedly attached in the first vertical panel section 2335, and the first end of the first bolt is supported It is connected on the first adjustable plate 2321；Third adjustment structure also includes the second stud and the second nut, and the second stud is fixed at The side far from the first adjustable plate 2321 of second adjustable plate 2324, the second stud are threaded through in the second vertical panel section 2336, the Two nuts are arranged in the side far from the first vertical panel section 2335 of the second vertical panel section 2336, and are set on the second stud； 4th adjustment structure is the second bolt, and the second bolt is threadedly attached in the second vertical panel section 2336, and the second bolt First end is connected on the second adjustable plate 2324.

When specific works, it is only necessary to screw the first nut, the second nut, the first bolt and the second spiral shell to different directions Bolt, it is simple and quick.The first installation bearing and the second installation bearing in the present embodiment can be from the two of optical axis 2331 End is supported dead weight pressing plate 234, while ensureing that dead weight pressing plate 234 is smoothly slided up and down along optical axis 2331.Due to gap Adjusting part 232 is to be symmetrically to using, therefore by the second nut on the first nut of the first stud above it, the second bolt The gap between dead weight pressing plate 234 can be increased after tightening；Gap can then be reduced when tightening the first bolt and the second bolt.

Preferably, the close side of second adjustable plate 2324 and the leaning on for the second adjustable plate 2324 of the first adjustable plate 2321 The side of nearly first adjustable plate 2321, which is both provided with, abuts bearing 235, and the axis of the abutting bearing 235 is perpendicular to optical axis 2331. When the gap adjustment component 232 to the present embodiment is adjusted, contacted with dead weight pressing plate 234 by abutting bearing 235, Abrasion of the gap adjustment component 232 to pressing plate 234 of conducting oneself with dignity can effectively be subtracted.Further, since by abutting bearing 235 and dead weight Pressing plate 234 contacts and the gap between dead weight pressing plate 234 is adjusted, in dead weight pressing plate 234 along perpendicular to optical axis 2331 During direction moves, additionally it is possible to effectively reduce inhibition of the gap adjustment component 232 to pressing plate 234 of conducting oneself with dignity.

Preferably, the first end of optical axis 2331 is mounted on by the first installation bearing on the first mounting plate 2332, the second light The second end of axis 2331 passes through the second installation bearing（It is not shown in figure）On the second mounting plate 2333.In the present embodiment All dead weight pressing plates 234 are mounted on two optical axises 2331, optical axis 2331 by the first installation bearing, the second connection bearing with And hole is fixed on baffle ring in the first vertical panel section 2335 and the second vertical panel section 2336, by dead weight pressing plate 234 and optical axis 2331 Between become rolling form, ensure that all dead weight pressing plates 234 can be moved up and down smoothly, two optical axises 2331 also act as guiding Effect ensures that 234 side of dead weight pressing plate is vertical with knife plate surface.As shown in figure 9, being loosened using screw+steel in the present embodiment The inner ring that optical axis 2331 and first is installed bearing by the form of gasket is fixed, and is ensured fixed reliable.

The first installation bearing and the second installation bearing in the present embodiment can be from the both ends of optical axis 2331 to pressing plate of conducting oneself with dignity 234 are supported, while ensureing that dead weight pressing plate 234 is smoothly slided up and down along optical axis 2331.Since gap adjustment component 232 is It is symmetrically to using, therefore can increases after the second nut on the first nut of the first stud above it, the second bolt is tightened Gap between big dead weight pressing plate 234；Gap can then be reduced when tightening the first bolt and the second bolt.

Preferably, optical axis 2331 is two, and the axis direction of two optical axises 2331 is consistent with the length direction of crossbeam 211, The stability and reliability of the pressing device of the present embodiment can be improved.

It can be moved perpendicular to the direction of optical axis 2331 to adjust automatically on edge in bonding operation for the ease of dead weight pressing plate 234 Its whole shape is both provided with third kidney slot on the polylith dead weight pressing plate 234 in the present embodiment, and dead weight pressing plate 234 passes through third Kidney slot is mounted on optical axis 2331, and the length direction of third kidney slot is perpendicular to optical axis 2331.When laminating mechanism 23 is pressed When cooperation industry, respective weight plate 234 can be moved by third kidney slot edge perpendicular to the direction of optical axis 2331, and then to polylith The integrally-built shape that dead weight pressing plate 234 is formed adaptively is 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 conducted oneself with dignity using multiple-piece Pressing plate 234 carries out position adjustment and guiding by the two third kidney slots conducted oneself with dignity on pressing plate 234, and every dead weight pressing plate 234 is all It can be moved up and down by gravity on two optical axises 2331, all dead weight pressing plates 234 are in direct contact two-by-two, are arranged side by side.For Ensureing dead weight pressing plate 234 outermost surface has a support, and gap appropriateness between all pressing plates increases gap adjustment component 232.

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 is retracted, drives crossbeam 211 to push, and cylinder rod, which stretches out, after severing drives on crossbeam 211 It rises.Crossbeam 211 is the aluminium section bar of square-section, and 4 sides are fluted, is easy to implement the position adjustment of connection component 231.

In the present embodiment, the first connector 2311 and the second connector 2312 are provided with first with 211 fixed part of crossbeam Kidney slot 2313 is conveniently adjusted, and is provided with threaded hole with the first mounting plate 2332 and 2333 fixed part of the second mounting plate, is passed through Position adjustment is realized in cooperation with the second kidney slot 2334 on the first mounting plate 2332 and the second mounting plate 2333.Pass through first The adjustment of two kidney slots is protected on connector 2311, the second connector 2312, the first mounting plate 2332 and the second mounting plate 2333 The pressing point of card dead weight pressing plate 234 is positioned at a front for cut-off knife cutter groove, and as close possible to cutting a little, and after being bolted First driving cylinder 221 and second ensures both sides the first support plate 213 and the second support plate 214 under the action of driving cylinder 222 There is identical stitching state every time.

Shown in Figure 14 and Figure 15, the conveying device 10 of the present embodiment includes installation frame 11, conveyer belt 12, tensioner dress Set 14 and driving device 13.

Wherein, conveyer belt 12 is mounted on installation frame 11；Driving device 13 includes driving drum 131 and driving motor （It is not shown in figure）, when work, being rotated by driving motor of driving drum 131, and with 12 CONTACT WITH FRICTION of conveyer belt To drive conveyer belt 12 to move, to convey the object being placed on conveyer belt 12.

In the course of work, conveyer belt 12 can because abrasion, aging, expand with heat and contract with cold due to generate elongation, in order to absorb conveyer belt 12 Extended length, swelling device 14 is provided in the present embodiment, which includes tightening part 141 and force section 142, is applied Power portion 142 is connect with tightening part 141, and when work, force section 142 drives the movement of tightening part 141 by 12 tensioner of conveyer belt, to prevent There is deviation phenomenon in conveyer belt 12.

Due to being provided with swelling device 14 in the conveying device 10 of the present embodiment, when abrasion, aging, heat occur for conveyer belt 12 Swollen shrinkage and when generating elongation, the force section 142 of swelling device 14 can drive tightening part 141 to move so that conveyer belt 12 to rise Tightly, to absorb conveyer belt 12 because abrasion, aging, expand with heat and contract with cold due to generate elongation, and then it is existing to prevent conveyer belt 12 from going out sideslip As improving the service life of the conveying device 10 of the present embodiment, stability and reliability.

In order to position conveyer belt 12, the first end of the installation frame 11 of the present embodiment is provided with the first positioning region 111, installation The second end of frame 11 is provided with the second positioning region 112, and when installation, conveyer belt 12 is annularly set in 111 He of the first positioning region The periphery of second positioning region 112；And driving drum 131 is mounted on the bottom of installation frame 11, and with the first positioning region 111 and the Two positioning regions are jointly by 12 tensioner of conveyer belt.

Preferably, the first positioning region 111 and the second positioning region are positioning rolls, convenient for reducing 111 He of the first positioning region Abrasion of second positioning region to conveyer belt 12.

In conjunction with shown in Figure 15, tightening part 141 in the present embodiment includes tensioner roller 1411, when work, tensioner roller 1411 move along the length direction of conveyer belt 12 with by 12 tensioner of conveyer belt under the driving of force section 142.As it can be seen that passing through tensioner The effect of roller 1411, can be by 12 tensioner of conveyer belt to absorb the elongation of conveyer belt 12.

In order to install tensioner roller 1411, the tightening part 141 of the present embodiment further includes locating rack 1412 and holder 1413.Its In, locating rack 1412 is mounted on the bottom of installation frame 11, and the length direction along conveyer belt 12 is provided on the locating rack 1412 The sliding rail 1414 of extension；And tensioner roller 1411 is mounted on holder 1413, when conveyer belt 12 extends, holder 1413 is exerting a force It is moved along sliding rail 1414 under the action of portion 142, and then by 12 tensioner of conveyer belt.

In a kind of preferred embodiment of the present invention, sliding rail 1414 is the dovetail groove being arranged on locating rack 1412, branch It is provided with sliding block compatible with dovetail groove on frame 1413, by the cooperation of dovetail groove and sliding block, holder 1413 can be stablized Ground is fixed together.In other embodiments of the invention, dovetail groove can also be set on holder 1413, and in locating rack Sliding block is set on 1412.

In other embodiments of the invention, sliding rail 1414 may be arranged as sliding slot, and rolling is arranged on holder 1413 Wheel is so that holder 1413 can slide on sliding rail 1414.As long as the other improvements carried out under the thought of the present invention, exist Within protection scope of the present invention.

It recombines shown in Figure 15, the force section 142 in the present embodiment includes pulley assembly 1421 and gravity box 1422, is connected When connecing, gravity box 1422 is connect by steel wire rope 143 with holder 1413, by the effect of gravity box 1422, can to automatic and The elongation for absorbing conveyer belt 12 in real time, saves labour, further effectively increases the steady of the conveying device 10 of the present embodiment Qualitative, when installation, steel wire rope 143 is adjusted around being located on pulley assembly 1421 convenient for the force direction to gravity box 1422.

Specifically, pulley assembly 1421 includes the first directive wheel 1421a and the second directive wheel 1421b.

When installation, the bottom center in installation frame 11, the axis of the first directive wheel 1421a is arranged in the first directive wheel 1421a Line is perpendicular to installation frame 11；The bottom margin in installation frame 11, the first directive wheel 1421a is arranged in second directive wheel 1421b Be axially parallel to installation frame 11.According to above-mentioned structure it is recognised that passing through the first directive wheel 1421a and the second directive wheel The guiding role of 1421b, can apply holder 1413 power of horizontal direction, and then pull tensioner roller 1411 along conveyer belt 12 Length direction movement with 12 tensioner of conveyer belt, it is simple in structure, be easy to implement.

Preferably, the first directive wheel 1421a is arranged in the side of the separate driving drum 131 of tensioner roller 1411, is convenient for Tensioner roller 1411 is pulled into the side far from driving drum 131 with by 12 tensioner of conveyer belt.

It is shown in Figure 16, it is used to detect composite members in 30 top connection quality of assembly drum, mistake described in the embodiment of the present invention Side measures and realizes that the secondary multifunctional length detection device 60 for surveying length, device for detecting length 60 include 5 dot laser sensors, It is respectively used to the thickness and 2 misalignment detection cameras of detection P1 points, P2 points, P3 points, P4 points and P5 points, for detecting M1 With at M2 whether there is misalignment.The dot laser sensing is for detecting the head and the tail overlap joint of sidewall and liner layer on assembly drum 30 Amount, and detection signal is fed back into controller（It is not shown in figure）, controller is according to detection signal to the sanction of next composite members Disconnected length is modified, and head and the tail amount of lap is in the range of requiring after next PA composite members 80 of guarantee fit to assembly drum 30. The misalignment detection camera is used to detect the misalignment that composite members fit to both sides opposite sides beacon light line during assembly drum 30 The unfitness of butt joint of head and the tail both sides after the completion of amount and composite members fitting, and detection signal is fed back into controller, controller passes through algorithm Provide corresponding testing result.

Preferably, the deviation correcting device 50 in the present embodiment includes the multiple pressure roller knots of installation axle and setting on the mounting shaft Structure, multiple roller structures are sequentially arranged along the length direction of installation axle.Each roller structure includes support construction and idler wheel, is passed through Multiple roller structures carry out pressure roller to PA composite members 80, and abundant roll-in is carried out convenient for the PA composite members 80 to different-thickness.

According to the another aspect of invention, a kind of molding machine is provided, which includes molding machine piecing devices, this implementation Molding machine piecing devices in example are the molding machine piecing devices in above-described embodiment.

It can be seen from the above description that the above embodiments of the present invention realize following technique effect：

（1）Locking assembly is adjustable by angle adjustment plate with respect to the angle position of assembly drum 30, guarantee hold down assembly at Type drum 30 is radial vertical, realizes the accurate pressing to 80 material head of PA composite members.

（2）Locking assembly is adjustable by sliding block with respect to the height and position of assembly drum 30, ensures locking assembly to different size The full adaptation of sizing material and practicability.

（3）The first locking mechanism and the second locking mechanism of locking assembly may be implemented to hold down assembly it is reliable limit with Locking, switches between the first state and a second state convenient for making to hold down assembly.

（4）The quick-replaceable to different size sizing material pressing plate may be implemented in the independent split blade type structure of the briquetting to hold down assembly It is pressed completely with PA composite members 80.

（5）Traditional acupressure probe is replaced using from gravity pressure plate, multiple-piece construction is designed using the thought of differential, by pressure The dead weight of plate itself realizes that the severing to sidewall and liner presses, and ensures that pressure is identical at each pressing point, so as to form one A even distributed force system realizes that profiling presses purpose.

（6）80 conveyer belt of PA composite members replaces traditional tensioner roll assembly, conveyer belt using automatic tension and deviation correcting device It is arranged at S-shaped with driving drum by tensioner roller, tensioner roller realizes the automatic tension to roller by the counterweight of gravity box.

（7）The fitting of PA composite members 80 to assembly drum 30 is held down assembly using magnetism brings together instead of traditional multi-disc pressure roller, Head and the tail misalignment caused by avoiding the excessive compression of 80 material head of PA composite members ensure that composite members material head and expect the accurate right of tail What neat and PA composite members 80 were bonded on drum is properly positioned.

（8）Dot laser sensor and misalignment inspection is respectively adopted in connector and the unfitness of butt joint detection that PA composite members 80 fit on drum Camera is surveyed to be detected.Dot laser sensor is applied not only to the joint quality of detection composite members（Overlap joint or cracking）, simultaneously Secondary survey can be carried out to the head and the tail amount of building of composite members to grow, and by measurement feedback to controller, controller is according to detection As a result the severing length of next composite members is modified；Misalignment detection camera is for detecting two side lamp of composite members both sides pair The offset of graticule and the unfitness of butt joint of composite members head and the tail.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (31)

1. a kind of molding machine piecing devices, which is characterized in that including：

Conveying device（10）；

Press-roller device（100）, the press-roller device（100）It is arranged in the conveying device（10）Output end；

Assembly drum（30）, the assembly drum（30）It can be rotatably set in the press-roller device（100）Separate conveying device （10）Side；

Clamping device（40）, the clamping device（40）It is arranged in the press-roller device（100）With the assembly drum（30）Between, The clamping device（40）Including holding down assembly（41）, described to hold down assembly（41）Including compression bar（411）With setting in the pressure Bar（411）On briquetting（412）, described to hold down assembly（41）With being adsorbed on the assembly drum（30）Above and with the assembly drum （30）The first state of movement and the separate assembly drum（30）The second state；

The molding machine piecing devices further include being arranged in the conveying device（10）Input terminal pressing device（20）, described Pressing device（20）Including：

Swivel mount（21）；

Drive component（22）, the driving component（22）It is drivingly connected with the swivel mount, the driving component（22）For driving Move the swivel mount（21）Rotation；

Laminating mechanism（23）, the laminating mechanism（23）Mounted on the swivel mount（21）On, the laminating mechanism（23）Including Connection component（231）, gap adjustment component（232）, mounting assembly（233）And polylith dead weight pressing plate（234）, wherein

The connection component（231）For by the gap adjustment component（232）With the mounting assembly（233）It is connected to described On swivel mount；

The mounting assembly（233）Including optical axis（2331）, the polylith dead weight pressing plate（234）It is sequentially sleeved at the optical axis （2331）On, and each dead weight pressing plate（234）It can be along perpendicular to the optical axis（2331）Direction movement；

The gap adjustment component（232）It is arranged in the optical axis（2331）Both ends, conduct oneself with dignity pressing plate for adjusting the polylith （234）Between gap；

The molding machine piecing devices further include deviation correcting device（50）, the deviation correcting device（50）It is arranged in the conveying device （10）On to prevent the conveying device（10）On conveying object shift.

2. molding machine piecing devices according to claim 1, which is characterized in that described to hold down assembly（41）Further include absorption Magnet（413）, the adsorption magnet（413）It is fixed at the compression bar（411）On.

3. molding machine piecing devices according to claim 1, which is characterized in that the clamping device（40）Further include locking Component（42）, the locking assembly（42）With holding down assembly described（41）It the first position of locking and holds down assembly described （41）The second position of release.

4. molding machine piecing devices according to claim 3, which is characterized in that described to hold down assembly（41）It further include two pieces First connecting plate（414）, two piece of first connecting plate（414）It is connected to the compression bar（411）First end and second End, the locking assembly（42）By first connecting plate（414）Locking is to be in the first position.

5. molding machine piecing devices according to claim 4, which is characterized in that the locking assembly（42）Including：

Installing mechanism（421）；

Retaining mechanism（422）, the retaining mechanism（422）Mounted on the installing mechanism（421）On, the retaining mechanism （422）Including the first locking mechanism（423）With the second locking mechanism（424）, first locking mechanism（423）With described second Locking mechanism（424）Respectively from the compression bar（411）Opposite both sides are by the compression bar（411）It is locked at the first locking knot Structure（423）With second locking mechanism（424）Between.

6. molding machine piecing devices according to claim 5, which is characterized in that first connecting plate（414）First Side is provided with the first locating slot（4141）, first connecting plate（414）The second side opposite with the first side be provided with second Locating slot（4142）, the installing mechanism（421）On be provided with carrying first connecting plate（414）Supporting part, described One locking mechanism（423）Including：

Locking cylinder（4231）, the locking cylinder（4231）Mounted on the installing mechanism（421）On；

Locking pin（4232）, the locking pin（4232）It is arranged in the locking cylinder（4231）Piston rod on, the locking Cylinder（4231）For driving the locking pin（4232）It is plugged in first locating slot（4141）It is interior；

Second locking mechanism（424）Including：

Positioning sleeve（4241）, the positioning sleeve（4241）Mounted on the installing mechanism（421）On, the positioning sleeve（4241）On Mounting hole is set（4243）, the mounting hole（4243）Inner wall on be provided with the first catching step（4244）；

Lock axis pin（4242）, the locking axis pin（4242）Mounted on the mounting hole（4243）It is interior, the locking axis pin （4242）Close to the compression bar（411）One end be provided with the second catching step（4245）, the locking axis pin（4242）Tool It is plugged in second locating slot（4142）Interior locked position；

Dynamic clamping head and quiet clamping head（4246）, the dynamic clamping head and quiet clamping head（4246）It is set in the locking axis pin（4242）On, the elasticity Return unit（4246）First end and second end respectively support be located at first catching step（4244）With the second catching step （4245）On；

Linear bearing（4247）, the linear bearing（4247）Mounted on positioning sleeve（4241）Far from second catching step （4245）One end, the locking axis pin（4242）Pass through fastening assembly（4248）It is fixed on the linear bearing（4247）On.

7. molding machine piecing devices according to claim 4, which is characterized in that first connecting plate（414）First Side is provided with lozenges（4143）.

8. molding machine piecing devices according to claim 6, which is characterized in that the locking assembly（42）It is two, it is described Clamping device（40）It further include driving mechanism（43）, the driving mechanism（43）With the locking assembly（42）It is drivingly connected to drive Move the locking assembly（42）To closer or far from the assembly drum（30）Direction movement；The driving mechanism（43）Including：

First driving portion（431）, first driving portion（431）With described two locking assemblies（42）In one driving connect It connects；

Second driving portion（432）, second driving portion（432）With described two locking assemblies（42）In another driving connect It connects.

9. molding machine piecing devices according to claim 8, which is characterized in that the driving mechanism（43）Connect by second Fishplate bar（44）With the locking assembly（42）Connection, second connecting plate（44）It is fixedly mounted on mounting structure by axis pin On.

10. molding machine piecing devices according to claim 9, which is characterized in that the installing mechanism（421）Including installation Plate（4211）, the mounting plate（4211）Upper end is provided with positioning plate（4255）The locking assembly（42）It further include adjusting machine Structure, the regulating mechanism include：

Adjusting bolt（4251）, the adjusting bolt（4251）Pass through positioning plate（4255）It is supported on the mounting plate（4211） On；

Sliding block（4252）, the sliding block（4252）Recline the mounting plate（4211）Setting, the sliding block（4252）On be provided with Link block（4254）, the adjusting bolt（4251）It is threaded through the positioning plate successively（4255）With the link block（4254） On, first locking mechanism（423）With second locking mechanism（424）It is installed in the sliding block（4252）On；

Adjusting nut（4253）, the adjusting nut（4253）It is set in the adjusting bolt（4251）On, and it is located at the company Connect block（4254）Far from the positioning plate（4255）Side.

11. molding machine piecing devices according to claim 10, which is characterized in that the installing mechanism（421）Further include Angle adjustment plate（4256）, the angle adjustment plate（4256）First end be hinged on second connecting plate（44）Separate institute State driving mechanism（43）One end, the angle adjustment plate（4256）Second end be connected to the mounting plate（4211）On, institute State angle adjustment plate（4256）On be provided with along second connecting plate（44）Length direction extend arc line shaped hole（4257）, The angle adjustment plate（4256）By being threaded through the arc line shaped hole（4257）Interior locking member is fixed on second connection Plate（44）On.

12. molding machine piecing devices according to claim 10, which is characterized in that the clamping device（40）Further include：

Adjustable plate（45）, the adjustable plate（45）On be provided with along the mounting plate（4211）Short transverse extend kidney slot （451）, the adjustable plate（45）Pass through locking mechanism（47）Mounted on the mounting plate（4211）On；

Close to switch（46）, described close to switch（46）Mounted on the adjustable plate（45）On.

13. molding machine piecing devices according to claim 1, which is characterized in that the swivel mount（21）Including：

Crossbeam（211）；

Two bearing blocks（212）, described two bearing blocks（212）It is separately positioned on the crossbeam（211）Both ends；

First support plate（213）, first support plate（213）It is connected to the crossbeam by the first connection bearing assembly （211）First end at the bearing block（212）On, first support plate（213）Second end and the crossbeam（211） First end be fixedly connected；

Second support plate（214）, second support plate（214）It is connected to the crossbeam by the second connection bearing assembly （211）Second end at the bearing block（212）On, second support plate（214）Second end and the crossbeam（211） Second end be fixedly connected.

14. molding machine piecing devices according to claim 13, which is characterized in that the connection component（231）Including：

First connector（2311）, first connector（2311）It is arranged in the crossbeam（211）On, and it is located at the crossbeam （211）Close to the crossbeam（211）First end side；

Second connector（2312）, second connector（2312）It is arranged in the crossbeam（211）On, and it is located at the crossbeam （211）Close to the crossbeam（211）Second end side；

The mounting assembly（233）Mounted on first connector（2311）With second connector（2312）Between with peace Fill the polylith dead weight pressing plate（234）.

15. molding machine piecing devices according to claim 14, which is characterized in that first connector（2311）And institute State the second connector（2312）Selectively along the crossbeam（211）Length motion, and be fixed on by fastener described Crossbeam（211）On.

16. molding machine piecing devices according to claim 14, which is characterized in that first connector（2311）And institute State the second connector（2312）On be both provided with the first kidney slot（2313）, first kidney slot（2313）Length direction with The crossbeam（211）Length direction it is vertical.

17. molding machine piecing devices according to claim 14, which is characterized in that the mounting assembly（233）Further include：

First mounting plate（2332）, first mounting plate（2332）Mounted on first connector（2311）On；

Second mounting plate（2333）, second mounting plate（2333）Mounted on second connector（2312）On；

The optical axis（2331）First end setting be connected to first mounting plate（2332）On, the optical axis（2331） Two ends are connected to second mounting plate（2333）On.

18. molding machine piecing devices according to claim 17, which is characterized in that first mounting plate（2332）And institute State the second mounting plate（2333）On be both provided with the second kidney slot（2334）, second kidney slot（2334）Length direction hang down Directly in the crossbeam（211）Length direction；

First mounting plate（2332）Pass through the first locking member（236）It is fixed on first connector（2311）On, it is described First locking member（236）Across first mounting plate（2332）On second kidney slot（2334）；

Second mounting plate（2333）It is fixed on second connector by the second locking member（2312）On, first lock Tight part（236）Across second mounting plate（2333）On second kidney slot（2334）.

19. molding machine piecing devices according to claim 17, which is characterized in that first mounting plate（2332）On set It is equipped with the first vertical panel section（2335）, the first vertical panel section（2335）Perpendicular to the crossbeam（211）, second installation Plate（2333）On be provided with the second vertical panel section（2336）, the second vertical panel section（2336）Perpendicular to the crossbeam（211）；

The gap adjustment component（232）Including：

First adjustable plate（2321）, first adjustable plate（2321）It is arranged in the first vertical panel section（2335）Close institute State the second vertical panel section（2336）One end, first adjustable plate（2321）It is set in the optical axis（2331）On；

First adjustment structure（2322）, first adjustment structure（2322）For making first adjustable plate（2321）To separate The second vertical panel section（2336）Direction movement；

Second adjustment structure（2323）, second adjustment structure（2323）For making first adjustable plate（2321）To close The second vertical panel section（2336）Direction movement；

Second adjustable plate（2324）, second adjustable plate（2324）It is arranged in the second vertical panel section（2336）Close institute State the first vertical panel section（2335）One end, second adjustable plate（2324）It is set in the optical axis（2331）On；

Third adjustment structure, the third adjustment structure is for making second adjustable plate（2324）It is vertical to separate described first Plate section（2335）Direction movement；

4th adjustment structure, the 4th adjustment structure is for making second adjustable plate（2324）It is vertical to close described first Plate section（2335）Direction movement.

20. molding machine piecing devices according to claim 19, which is characterized in that first adjustable plate（2321）Lean on Nearly second adjustable plate（2324）Side and second adjustable plate（2324）Close to first adjustable plate（2321） Side be both provided with abutting bearing（235）, the abutting bearing（235）Axis perpendicular to the optical axis（2331）.

21. molding machine piecing devices according to claim 17, which is characterized in that the optical axis（2331）First end it is logical It crosses the first installation bearing and is mounted on first mounting plate（2332）On, the optical axis（2331）Second end pass through second installation Bearing is mounted on second mounting plate（2333）On.

22. the molding machine piecing devices according to any one of claim 1 to 21, which is characterized in that the polylith dead weight Pressing plate（234）On be both provided with third kidney slot, the dead weight pressing plate（234）It is mounted on the light by the third kidney slot Axis（2331）On, the length direction of the third kidney slot is perpendicular to the optical axis（2331）.

23. molding machine piecing devices according to claim 1, which is characterized in that the conveying device（10）Including：

Installation frame（11）；

Conveyer belt（12）, the conveyer belt（12）Mounted on the installation frame（11）On；

Driving device（13）, the driving device（13）Including driving drum（131）, the driving drum（131）With it is described defeated Send band（12）CONTACT WITH FRICTION is to drive the conveyer belt（12）Movement；

Swelling device（14）, the swelling device（14）Including tightening part（141）The force section and（142）, the force section（142） With the tightening part（141）Connection is to drive the tightening part（141）Movement is with by the conveyer belt（12）Tensioner.

24. molding machine piecing devices according to claim 23, which is characterized in that the tightening part（141）Including：

Tensioner roller（1411）, the tensioner roller（1411）In the force section（142）Driving lower edge described in conveyer belt （12）Length direction move with by the conveyer belt（12）Tensioner；

Locating rack（1412）, the locating rack（1412）Mounted on the installation frame（11）Bottom, the locating rack （1412）On be provided with along the conveyer belt（12）Length direction extend sliding rail（1414）；

Holder（1413）, the tensioner roller（1411）Mounted on the holder（1413）On, the holder（1413）Described Force section（142）Under the action of along the sliding rail（1414）Movement.

25. molding machine piecing devices according to claim 24, which is characterized in that the sliding rail（1414）It is to be arranged in institute State locating rack（1412）On dovetail groove, the holder（1413）On be provided with sliding block compatible with the dovetail groove （4252）.

26. molding machine piecing devices according to claim 24, which is characterized in that the force section（142）Including：

Pulley assembly（1421）；

Gravity box（1422）, the gravity box（1422）Pass through steel wire rope（143）With the holder（1413）Connection, the steel wire Rope（143）Around being located at the pulley assembly（1421）On.

27. molding machine piecing devices according to claim 26, which is characterized in that the pulley assembly（1421）Including：

First directive wheel（1421a）, first directive wheel（1421a）It is arranged in the installation frame（11）Bottom center, First directive wheel（1421a）Axis perpendicular to the installation frame（11）；

Second directive wheel（1421b）, second directive wheel（1421b）It is arranged in the installation frame（11）Bottom margin, First directive wheel（1421a）Be axially parallel to the installation frame（11）.

28. molding machine piecing devices according to claim 23, which is characterized in that the installation frame（11）First end It is provided with the first positioning region（111）, the installation frame（11）Second end be provided with the second positioning region（112）, the conveying Band（12）Annularly it is set in first positioning region（111）With second positioning region（112）Periphery；

The driving drum（131）Mounted on the installation frame（11）Bottom, and with first positioning region（111）And institute State the second positioning region（112）Jointly by the conveyer belt（12）Tensioner.

29. molding machine piecing devices according to claim 1, which is characterized in that the deviation correcting device（50）Including installation Axis and setting multiple roller structures on the mounting shaft, length direction successively cloth of the multiple roller structure along the installation axle It sets.

30. molding machine piecing devices according to claim 1, which is characterized in that the molding machine piecing devices further include Device for detecting length（60）And controller, the device for detecting length（60）It is arranged in the assembly drum（30）Top, it is described Controller and the device for detecting length（60）Connection.

31. a kind of molding machine, including molding machine piecing devices, which is characterized in that the molding machine piecing devices are claim 1 To the molding machine piecing devices described in any one of 30.