CN202113987U - A coating machine head capable of automatic knife jumping - Google Patents

Abstract

A coating machine head capable of automatically jumping a cutter comprises a rack, a coating bottom wheel, a power mechanism for driving the coating bottom wheel, a scraper, a cutter jumping adjusting device for adjusting a gap between the scraper and the coating bottom wheel, and a controller, and further comprises a substrate joint detection device for detecting a substrate joint, wherein the substrate joint detection device comprises a joint detection roller, a detection roller pressing device, a detection induction block and a joint sensor; the joint sensor is arranged on the rack, and the sensing end of the joint sensor faces the detection sensing block; the joint sensor is electrically connected with the controller; the gap change between the joint detection roller and the coating bottom wheel is monitored by the joint sensor, so that the gap between the scraper and the coating bottom wheel is automatically adjusted by the jump cutter adjusting device, the joint of the substrate can smoothly pass through the edge of the scraper, and the substrate is prevented from being damaged.

Description

A kind of coater head of lifts automatically

Technical field

The utility model relates to the coating machinery technical field, relates in particular to a kind of coater head of lifts automatically.

Background technology

In the continuous flow procedure of coating machine; The base material that is applied has joint inevitably; Generally the thickness of blank area can be thicker than the gap that is coated with between the cutter edge of a knife and the return pulley; Blank area just is difficult to successfully pass through scraper when therefore often running into joint, and traditional method is on scraper, to connect one group of cylinder, when blank area arrives the edge of a knife, raises with manual control cylinder; Manually scraper is put down again through behind the scraper Deng blank area; Tend to like this cause damage, especially be easy to cause disconnected paper with traditional lifts mode in the coating process of artificial leather, thereby cause very big loss because of the coating effect of bad this section of artificial reason control.

The utility model content

The purpose of the utility model is to the deficiency of prior art a kind of coater head of lifts automatically to be provided.

For achieving the above object, the utility model is realized through following technical scheme.

A kind of coater head of lifts automatically; The lifts adjusting device and the controller that comprise gap between frame, coating return pulley, the said scraper of actuating unit, scraper, adjusting that drives said coating return pulley and the said coating return pulley; Further comprise the base material joint detector that is used to detect the base material joint; Said base material joint detector comprises that joint detects roller, detects the roller press device, detects sensor block and connecting sensor; Said joint detects roller and is connected with said detection sensor block, and said joint detection roller contacts with the base material that passes through said coating return pulley, the press-side of said detection roller press device and said detection sensor block against; Said connecting sensor is arranged at said frame, and the induction end of said connecting sensor is towards said detection sensor block; Said connecting sensor is electrically connected with said controller.

Said base material joint detector also comprises holder, and said holder is arranged at said frame, and said detection sensor block and said holder are slidingly matched, and said joint detects roller and contacts with the outer rim of said coating return pulley.

Said coater head is provided with guide wheel; Said joint detects the outer rim that roller is arranged at said guide wheel; Said detection sensor block be shaped as strip; Said joint detects the side that roller is arranged at said detection sensor block, and the press-side of said detection roller press device and the induction end of said connecting sensor are resisted against the opposite side of said detection sensor block respectively, and the press-side of said detection roller press device and the induction end of said connecting sensor are oppositely arranged.

Said detection sensor block comprises that first detects the sensor block and the second detection sensor block; The said first detection sensor block and said second detects the sensor block shape and is strip; The end of the end of the said first detection sensor block and the said second detection sensor block is hinged; Said joint detects roller and is arranged at the said first detection sensor block free end; The press-side of said detection roller press device and said first detect sensor block against, the induction end of said connecting sensor and the said second detection sensor block against.

Said detection sensor block comprises that first detects the sensor block and the second detection sensor block; The said first detection sensor block and said second detects the sensor block shape and is strip; The end of the end of the said first detection sensor block and the said second detection sensor block is hinged; Said joint detects roller and is arranged at the said first detection sensor block free end; The free end of the said second detection sensor block is provided with magnet; The free end of the said second detection sensor block is provided with the support that is used to support said magnet, and the induction end of said connecting sensor is arranged at the place ahead that said coating return pulley rotates, and the diameter of the circular path at the induction end of said connecting sensor place is greater than the diameter of the circular path of said magnet movement.

Said coating return pulley is provided with the limit sliding chutes that is used to limit said magnet movement, and the external diameter of said limit sliding chutes is less than the diameter of the circular path at the induction end place of said connecting sensor.

Said lifts adjusting device comprises scrapes tool rest, swing arm, swing arm pole and lifts cylinder; Said scraper is arranged at the said tool rest of scraping, and the said tool rest of scraping is arranged at said swing arm, and said swing arm strut fixation is in said frame; One end of said swing arm is connected with said swing arm pole; The other end is connected with the piston rod of said lifts cylinder, and said lifts cylinder is fixed in said frame, and said lifts cylinder is electrically connected with said controller.

Said lifts adjusting device also comprises a caging bolt, and said caging bolt is arranged at said frame, and said caging bolt is arranged at the top of said swing arm.

Said scraper below is provided with the coating clearance sensor, and the induction end of said coating clearance sensor is relative with said scraper.

Said detection roller press device is the air-cylinder type press device.

The beneficial effect of the utility model is: the utility model changes through the gap that connecting sensor monitoring joint detects between roller and the coating return pulley; Make the lifts adjusting device adjust the gap between scraper and the coating return pulley automatically; Make the joint of base material guarantee that base material can not damage smoothly through the edge of a knife of scraper.

Description of drawings

Utilize accompanying drawing to come the utility model is further described below, but the embodiment in the accompanying drawing does not constitute any restriction to the utility model.

Fig. 1 is the utility model embodiment 1 structural representation.

Fig. 2 is the enlarged diagram at A place among Fig. 1.

Fig. 3 is the enlarged diagram at B place among Fig. 1.

Fig. 4 is the utility model embodiment 2 structural representations.

Fig. 5 is the utility model embodiment 3 structural representations.

Fig. 6 is the utility model embodiment 4 structural representations.

Fig. 7 is the enlarged diagram at the C place among Fig. 6.

The specific embodiment

Come the utility model is further described below in conjunction with embodiment.

Embodiment 1

See Fig. 1, Fig. 2 and Fig. 3; A kind of coater head of lifts automatically; The lifts adjusting device 4 and the controller (not drawing among the figure) that comprise gap between frame 1, coating return pulley 2, the actuating unit (not drawing among the figure) that drives coating return pulley 2, scraper 3, adjusting scraper 3 and the coating return pulley 2; Further comprise the base material joint detector 5 that is used to detect the base material joint; Base material joint detector 5 comprises that joint detects roller 51, detects roller press device 53, detection sensor block 54 and connecting sensor 55, and joint detects roller 51 and is connected with detection sensor block 54, and joint detects roller 51 and contacts through the base material that is coated with return pulley 2; Detect sensor block 54 and be arranged at frame 1, the press-side that detects roller press device 53 with detect sensor block 54 against; Connecting sensor 55 is arranged at frame 1, and the induction end of connecting sensor 55 is towards detecting sensor block 54; Connecting sensor 55 is electrically connected with controller.

In the present embodiment, base material joint detector 5 also comprises holder 56, and holder 56 is arranged at frame 1, detects sensor block 54 and is slidingly matched with holder 56, and joint detects roller 51 and contacts with the outer rim of coating return pulley 2.When the base material joint detects roller 51 through joint; Receive the extruding of base material joint, detect sensor block 54 relative fixed seats 56 and slide, the gap of detecting between sensor block 54 and the coating return pulley 2 is strengthened; Connecting sensor 55 detects the variation in gap, and this variation is fed back to controller.

Lifts adjusting device 4 comprises scrapes tool rest 41, swing arm 42, swing arm pole 43 and lifts cylinder 44, and scraper 3 is arranged at scrapes tool rest 41, scrapes tool rest 41 and is arranged at swing arm 42; Swing arm pole 43 is fixed in frame 1, and an end of swing arm 42 is connected with swing arm pole 43, and the other end is connected with the piston rod of lifts cylinder 44; Lifts cylinder 44 is fixed in frame 1; Lifts cylinder 44 is electrically connected with controller, when controller when lifts cylinder 44 sends the instruction of lifts or decline, the piston rod of lifts cylinder 44 stretches out or shrinks; Upwards jack-up swing arm 42 or spur swing arm 42 is downwards upwards risen scraper 3 or is descended.

Preferably; Lifts adjusting device 4 also comprises a caging bolt 45, and caging bolt 45 is arranged at frame 1, and caging bolt 45 is arranged at the top of swing arm 42; The effect of caging bolt 45 is maximum vertical penetrations of restriction swing arm 42, prevents the excesssive gap of scraper 3 and base material.

Scraper 3 belows are provided with coating clearance sensor 6, and the induction end of coating clearance sensor 6 is relative with scraper 3.Coating clearance sensor 6 is used to detect the gap between scraper 3 and the coating return pulley 2, and after joint was through scraper 3 belows, coating clearance sensor 6 sent instruction to lifts cylinder 44, and scraper 3 is descended, and scraper 3 recovers normal operating position.

Preferably, detecting roller press device 53 is the air-cylinder type press device.

Operation principle: the induction end of connecting sensor 55 contacts with detection sensor block 54; Detect the change in displacement of surveying sensor block 54; What this variation reflected is that the gap that joint detects between roller 51 and the coating return pulley 2 changes; This variable quantity is geostationary during ordinary production, when joint detects roller 51 through joint, because blank area is thicker; Force joint to detect the passive increasing in gap between roller 51 and the coating return pulley 2; After the gap arrived setting value, just in the time of the joint process, connecting sensor 55 sent transducing signal and gives controller; Controller moves to the needed time of knife-edge part (or revolution of return pulley motor) according to the outer rim of the rotating speed computing coating return pulley 2 of coating return pulley 2 from connecting sensor 55 monitoring points; (or suitably in advance) sends the magnetic valve that control signal is given control lifts cylinder 44 by controller when joint arrives the edge of a knife, by 44 actions of solenoid control lifts cylinder; Thereby make the gap between scraper 2 and the coating return pulley 2 highly transfer the lifts height of setting in advance to by original coating; Let joint waltz through the edge of a knife of scraper 3, after connecting sensor 55 detected joint and detects roller 51 and revert to regime values again with gap between the coating return pulley 2, just this connecting sensor 55 sent electromagnetic signal to controller when joint has passed through joint detection roller 51; PLC moves to the needed time of knife-edge part (or revolution of return pulley motor) according to the outer rim of the rotating speed computing coating return pulley 2 that is coated with return pulley 2 again from connecting sensor 55 monitoring points; (or suitably delaying) sent the magnetic valve that control signal is given control lifts cylinder 44 by controller when the afterbody of joint arrives the edge of a knife, by 44 actions of solenoid control lifts cylinder, thereby makes the gap between scraper 3 and the coating return pulley 2 transferred to the normal coating height of setting in advance by the lifts height.

Embodiment 2

See Fig. 4, different with embodiment 1, in the present embodiment; Coater head is provided with guide wheel 7; Joint detects the outer rim that roller 51 is arranged at guide wheel 7, detects the strip that is shaped as of sensor block 54, and joint detects roller 51 and is arranged at a side that detects sensor block 54; The press-side that detects roller press device 53 is resisted against the opposite side that detects sensor block 54 respectively with the induction end of connecting sensor 55, and the press-side of detection roller press device 53 and the induction end of connecting sensor 55 are oppositely arranged.Such benefit be joint detect roller 51 can be away from coating, in order to avoid by coating pollution or hinder operation, and, also can the gap variable quantity be amplified through the principle of lever, detected by connecting sensor 55 easily.Other structure is identical with embodiment 1 with operation principle, no longer repeats here.

Embodiment 3

See Fig. 5; Different with embodiment 2 is; In the present embodiment, detect sensor block 54 and comprise that the first detection sensor block 541 and second detects sensor block 542, the first detection sensor blocks 541 and the second detection sensor block, 542 shapes are strip; The end of the end of the first detection sensor block 541 and the second detection sensor block 542 is hinged; Joint detects roller 51 and is arranged at first and detects sensor block 541 free ends, the press-side and first that detects roller press device 53 detect sensor block 541 against, the induction end of connecting sensor 55 and the second detection sensor block 542 against.Present embodiment comes amplification detection roller 51 and the gap variable quantity that is coated with return pulley 2 through two leverages that link to each other; Such benefit is that the gap variable quantity through two levers that link to each other further amplifies; Detected by connecting sensor 55 more easily; Other structure is identical with embodiment 2 with operation principle, no longer repeats here.

Embodiment 4

See Fig. 6 and Fig. 7; Different with embodiment 1 is; In the present embodiment, detect sensor block 54 and comprise that the first detection sensor block 541 and second detects sensor block 542, the first detection sensor blocks 541 and the second detection sensor block, 542 shapes are strip; The end of the end of the first detection sensor block 541 and the second detection sensor block 542 is hinged; Joint detects roller 51 and is arranged at the first detection sensor block, 541 free ends, and the free end that the free end of the second detection sensor block 542 is provided with magnet 8, the second detection sensor blocks 542 is provided with the support 9 that is used to support magnet 8; The induction end of connecting sensor 55 is arranged at the place ahead that coating return pulley 2 rotates, and the diameter of the circular path at the induction end of connecting sensor 55 place is greater than the diameter of the circular path of magnet 8 motions.

Coating return pulley 2 is provided with the limit sliding chutes 10 that is used to limit magnet 8 motions, and the external diameter of limit sliding chutes 10 is less than the diameter of the circular path at the induction end place of connecting sensor 55.The purpose that limit sliding chutes 10 is set is to make magnet 8 to move in limit sliding chutes 10 all the time.

Operation principle: when the base material joint passed through joint detection roller 51, joint detected the variation that the gap has just been arranged between roller 51 and the coating return pulley 2, and this changes the leverage amplification that quilt links to each other with joint detection roller 51; When variable quantity this magnet 8 behind the certain value is just discharged the end face that is adsorbed on coating return pulley 2 by support 10; Make circular motion with 2 runnings of coating return pulley, when magnet 8 runs to scraper 3 places, by connecting sensor 55 inductions; Connecting sensor 55 sends transducing signal and gives controller; Send the magnetic valve that control signal is given control lifts cylinder 44 by controller, by 44 actions of solenoid control lifts cylinder; Thereby make the gap between scraper and the coating return pulley 2 highly transfer the lifts height of setting in advance to by original coating; Let joint waltz through the edge of a knife, through delayer by the time delays of setting after by solenoid control lifts cylinder 44 counteragents, thereby make the gap between scraper 3 and the coating return pulley 2 transfer the normal coating set in advance to highly by the lifts height; Magnet 8 is fixed by support 10 again after running to support 10 places; Do sliding friction with the end face of coating return pulley 2, when joint detection roller 51 had detected the joint process once more, whole device repeated to do last process again.

Above content is merely the preferred embodiment of the utility model; For those of ordinary skill in the art; According to the thought of the utility model, the part that on the specific embodiment and range of application, all can change, this description should not be construed as the restriction to the utility model.

Claims (10)

1. A coating machine head that can automatically jump the knife, including a frame, a coating bottom wheel, a power mechanism for driving the coating bottom wheel, a scraper, and adjusting the gap between the scraper and the coating bottom wheel The skip knife adjustment device and controller are characterized in that: further comprising a substrate joint detection device for detecting substrate joints, the substrate joint detection device includes a joint detection roller, a detection roller pressing device, a detection induction block and a joint sensor, the joint detection roller is connected to the detection induction block, the joint detection roller is in contact with the substrate passing through the coating bottom wheel, and the pressing end of the detection roller pressing device is against the detection induction block The joint sensor is arranged on the frame, and the sensing end of the joint sensor faces the detection sensing block; the joint sensor is electrically connected to the controller. 2. A coating machine head capable of automatic knife jumping according to claim 1, characterized in that: said substrate joint detection device also includes a fixing seat, said fixing seat is arranged on said frame, said The detection induction block is slidingly matched with the fixed seat, and the joint detection roller is in contact with the outer edge of the bottom coating wheel. 3. A coating machine head capable of automatic knife jumping according to claim 1, characterized in that: the coating machine head is provided with a guide wheel, and the joint detection roller is arranged on the outer edge of the guide wheel , the shape of the detection sensing block is long strip shape, the joint detection roller is arranged on one side of the detection sensing block, the pressing end of the detection roller pressing device and the sensing end of the joint sensor respectively abut against The other side of the detection sensing block, and the pressing end of the detection roller pressing device is opposite to the sensing end of the joint sensor. 4. A coating machine head capable of automatic knife jumping according to claim 1, characterized in that: the detection sensing block includes a first detection sensing block and a second detection sensing block, and the first detection sensing block The shapes of the sensing block and the second sensing block are long strips, the end of the sensing block of the first sensing block is hinged with the end of the sensing sensing block of the second sensing block, and the joint detecting roller is arranged on the first sensing block The free end of the sensing block, the pressing end of the detection roller pressing device abuts against the first detection sensing block, and the sensing end of the joint sensor abuts against the second detection sensing block. 5. A coating machine head capable of automatic knife jumping according to claim 1, characterized in that: the detection sensing block includes a first detection sensing block and a second detection sensing block, and the first detection sensing block The shapes of the sensing block and the second sensing block are long strips, the end of the sensing block of the first sensing block is hinged with the end of the sensing sensing block of the second sensing block, and the joint detecting roller is arranged on the first sensing block The free end of the induction block, the free end of the second detection induction block is provided with a magnet, the free end of the second detection induction block is provided with a bracket for supporting the magnet, and the induction end of the joint sensor is arranged on the The front of the rotation of the coating bottom wheel, and the diameter of the circular track where the sensing end of the joint sensor is located is larger than the diameter of the circular track where the magnet moves. 6. A coating machine head capable of automatic knife jumping according to claim 5, characterized in that: the coating bottom wheel is provided with a limit chute for limiting the movement of the magnet, and the limit slide The outer diameter of the groove is smaller than the diameter of the circular track on which the sensing end of the joint sensor is located. 7. A coating machine head capable of automatic knife jumping according to claim 1, characterized in that: said knife jumping adjustment device comprises a scraper seat, a swing arm, a swing arm strut and a knife jumping cylinder, said scraper Set on the scraper seat, the scraper seat is set on the swing arm, the swing arm strut is fixed on the frame, one end of the swing arm is connected to the swing arm strut, and the other end is connected to the swing arm strut The piston rod of the jumping knife cylinder is fixed on the frame, and the jumping knife cylinder is electrically connected with the controller. 8. A coating machine head capable of automatic knife jumping according to claim 7, characterized in that: the knife jumping adjustment device also includes a limit bolt, the limit bolt is arranged on the frame, The limit bolt is arranged above the swing arm. 9. A coating machine head capable of automatic knife jumping according to any one of claims 1 to 4, characterized in that: a coating gap sensor is arranged below the scraper, and the sensing end of the coating gap sensor Opposite to said scraper. 10. A coating machine head capable of automatic knife jumping according to any one of claims 1 to 6, characterized in that: the detection roller pressing device is a cylinder type pressing device.

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