CN212859875U - Automatic go up unloading roll forming production line - Google Patents
Automatic go up unloading roll forming production line Download PDFInfo
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- CN212859875U CN212859875U CN202022051702.6U CN202022051702U CN212859875U CN 212859875 U CN212859875 U CN 212859875U CN 202022051702 U CN202022051702 U CN 202022051702U CN 212859875 U CN212859875 U CN 212859875U
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Abstract
The utility model relates to a ceramic manufacture equipment field, concretely relates to automatic go up unloading roll forming production line, its characterized in that: the device comprises a rolling forming machine, a feeding conveyor, a drying conveyor, a mould removing platform, a dryer, a blower, a centering mechanism, an upper mould feeding mechanism, a lower mould feeding mechanism and a residual material recycling mechanism. When in roll forming, the upper forming die descends along with the lower swing arm and is attached to the top surface of the gypsum die, the upper forming die is made of silica gel and seeps water through the water permeable holes, and the sliding resistance is reduced while the attachment with the gypsum die is ensured; the upper forming die and the gypsum die are matched with each other for roll forming, so that the ceramic with the folded upper part can be produced, and the processing cost, weight and processing difficulty of gypsum are reduced; the redundant mud excess material scraper scrapes off, flies into the recovery material cavity of excess material recovery mechanism under the effect of the rotating centrifugal force of the gypsum mold, and is stirred into mud for recycling by adding water.
Description
Technical Field
The utility model relates to a ceramic manufacture equipment field, specificly relate to an automatic go up unloading roll forming production line.
Background
Roll forming was developed from rotary forming. It is characterized by that its profile cutter is changed into rolling head. The rolling head and the mould are rotated around a fixed shaft respectively, and the plastic pug put in the mould is extended and pressed into a green body, and the shape and the size of the green body are completely determined by the 'cavity' formed by the rolling head and the mould surface. The rolling method can be divided into male die rolling and female die rolling. Compared with the rotary blank forming, the rolling forming has the advantages of high blank density, high mechanical strength, small deformation, low labor intensity and easy mechanical and automatic production. The rolling production line is used for completing the working procedures of molding, blank drying, demolding and the like, and generally comprises a rolling molding machine, a belt conveyor, a drying box and a demolding platform. Go up the unloading of current roll extrusion production line and carry out ninety degrees through vertical belt conveyor and horizontal belt conveyor and turn to and toward pay-off in the die holder, adopt the production line of this kind of structure, horizontal belt conveyor can increase the width of production line, and then increase area, in addition, current gypsum mould is used for when producing the pottery that the opening drawn in, need adopt dual cover and gypsum mould, need establish two separable half moulds at the inside cover of outer mould promptly, dual gypsum has manufacturing cost height, the split is complicated, the great scheduling problem of dead weight, moreover the mould is when placing belt conveyor again after the form removal, mould itself is difficult to the centering, lead to the unable accurate material loading of mould to the die holder on.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide an automatic go up unloading roll forming production line to solve the problem that proposes in the background art.
In order to solve the technical problem, the utility model discloses a technical scheme as follows: the utility model provides an unloading roll forming production line in automation which characterized in that: the drying machine is arranged on the drying conveyor, the blower, the centering mechanism, the drying conveyor and the stripping platform are sequentially connected in series, the blower, the centering mechanism and the stripping platform are arranged on the drying conveyor, the rolling forming machine comprises a base, an upper swing arm, a lower swing arm, an upper swing arm driving unit, a lower swing arm driving unit, a rolling head, an upper forming die, a die holder and a die holder driving unit, the upper swing arm and the lower swing arm are pivoted on the base, the lower swing arm is positioned below the upper swing arm, and the upper swing arm and the lower swing arm are driven to rotate by the upper swing arm driving unit and the lower swing arm driving unit respectively, the rolling head is pivoted on the upper swing arm and driven to rotate by the rolling driving unit, the upper forming die is fixedly arranged on the lower swing arm, the die holder is pivoted on the base, the die holder is positioned below the rolling head and the upper forming die, and the die holder is driven to rotate by the die holder driving unit.
Preferably, the die holder is internally provided with a through cavity for placing the gypsum die, and when the lower swing arm is pressed downwards, the upper forming die is attached to the top of the gypsum die embedded in the through cavity of the gypsum die.
Preferably, it has a plurality of holes of permeating water to go up forming die bottom distribution, and the hole of permeating water leads to pipe to be connected with the water source, it is the cambered surface with shaping cavity lateral wall smooth connection to go up the side that forming die is close to the inside shaping cavity of gypsum mould, it is servo motor to go up swing arm drive unit and lower swing arm drive unit.
Preferably, the upper and lower die mechanism comprises a feeding swing arm, a discharging swing arm, a feeding driving unit, a discharging driving unit, a lifting platform and a lifting driving unit, wherein the feeding driving unit drives the feeding swing arm to swing between a feeding conveyor and a die holder, the discharging driving unit drives the discharging swing arm to swing between the die holder and a drying conveyor, the cross sections of the through cavity and the lifting platform are circular, the diameter of the lifting platform is smaller than that of the through cavity, and the lifting platform is arranged inside the through cavity of the die holder and driven by the lifting driving unit to move up and down inside the through cavity.
Preferably, the die holder is provided with a damping rubber ring on the inner side of the top of the penetrating cavity, the inner side of the damping rubber ring is a conical surface, anti-skid patterns are arranged on the conical surface, the top of the die holder is detachably provided with an end plate, the bottom of the end plate is provided with an annular groove, and the damping rubber ring is provided with a convex ring embedded into the annular groove.
Preferably, the end of material loading swing arm and unloading swing arm is equipped with the arc push pedal, be equipped with the bar groove in the arc push pedal, the arc push pedal is fixed in on material loading swing arm or the unloading swing arm through the nut locking that passes the bar groove, detachable installs the arc rubber pad in the arc push pedal, material loading drive unit and unloading drive unit are servo motor, go up lower die mechanism and still include two transition linkage connection boards, form between two transition linkage connection boards with the circular opening of die holder complex, the die holder is by transition linkage connection board and material loading conveyer and unloading conveyer link up
Preferably, the centering mechanism is arranged between the blower and the feeding swing arm, the centering mechanism comprises a centering base, a centering swing arm, a centering rotating shaft, short connecting rods, long connecting rods, a sliding block, a guide rod, a centering driving swing arm, a centering rotating block, a centering driving unit and a proximity sensor, the centering base is fixedly arranged below the feeding conveyor, the four centering swing arms are pivoted at four corners of the centering base, each centering swing arm is correspondingly and fixedly provided with one centering swing arm, the guide rod is fixedly arranged on the centering base, the sliding block is slidably arranged on the guide rod, two ends of the sliding block are respectively connected with the centering rotating shaft through the long connecting rods and the short connecting rods which are mutually pivoted, one end of the centering driving swing arm is pivoted with the sliding block, the other end of the centering driving swing arm is pivoted with the centering rotating block, and the centering driving unit drives the centering rotating, the centering driving unit is a servo motor, and the proximity sensor is arranged between the two centering rotating shafts on one side.
Preferably, clout recovery mechanism includes clout swing arm, clout swing drive unit, clout scraper, clout collection feed cylinder and screw conveyer, clout swing arm pivot is located on the base, rotates under clout swing drive unit drive, and the clout collection feed cylinder sets firmly on the clout swing arm, and the clout scraper sets firmly on the clout collection feed cylinder, screw conveyer's feed end and clout collection feed cylinder intercommunication.
Preferably, a recycling cavity for collecting the excess materials scraped by the excess material scraper is arranged in the excess material collecting material barrel, the recycling cavity is horn-shaped, the caliber of the recycling cavity is reduced from the feeding end to the discharging end, wherein the front half section of the material recovery cavity is in a semi-circular arc shape, the rear half section of the material recovery cavity is in a complete circular arc shape, the screw conveyor comprises a screw conveying shell, an upper screw rod, a lower screw rod and a screw driving motor, an upper conveying cavity and a lower conveying cavity are arranged in the spiral conveying shell, the lower conveying cavity is positioned below the upper conveying cavity and communicated with the upper conveying cavity, the upper screw and the lower screw are respectively pivoted in the upper conveying cavity and the lower conveying cavity and are driven to rotate by a screw driving motor, go up the screw rod and stretch into the reclaimed materials intracavity, the feed end of carrying the cavity down is equipped with the water inlet, the discharge end is equipped with the discharge gate, the water inlet is connected the inlet tube, the discharge end is connected the discharging pipe.
The automatic feeding and discharging roll forming method utilizes the automatic feeding and discharging roll forming production line and is characterized in that: the method comprises the following steps:
step a, a gypsum mold fed with pug is conveyed to a feeding conveyor, and when the gypsum mold passes through a centering mechanism, the gypsum mold is sensed by a proximity sensor, a centering driving unit drives a centering rotating block to rotate, a centering driving swing arm is driven to rotate, and then a sliding block is driven to move on a guide rod, the sliding block drives the centering swing arm to rotate through a short connecting rod and a long connecting rod in the moving process, so that the four centering swing arms are simultaneously closed towards the gypsum mold, and the gypsum mold is centered to the central line of the feeding conveyor;
b, conveying the gypsum mold to the front of a feeding swing arm by a feeding conveyor, and swinging the feeding swing arm between the feeding conveyor and the mold base to drive the gypsum mold to enter a lifting platform in the mold base;
c, the lifting platform moves downwards in the through cavity under the driving of the lifting driving unit, and the gypsum mold falls into the through cavity;
d, the die holder is driven by the die holder driving unit to rotate the upper swing arm and the lower swing arm to rotate downwards so as to drive the rolling head and the upper forming die to press downwards, the upper forming die is attached to the top surface of the gypsum die, meanwhile, a remainder scraper of the remainder recovery mechanism is close to the top of the gypsum die, a water permeable hole at the bottom of the upper forming die is communicated with a water source so as to lubricate the space between the lower forming die and the top surface of the gypsum die, the rolling head is driven by the rolling driving unit to rotate, the die holder is driven by the die holder driving unit to rotate, and pug is formed under the extrusion action;
e, scraping the excessive mud and the excess material by a scraper, flying into a recovery cavity of the excess material recovery mechanism under the action of the rotating centrifugal force of the gypsum mold, entering the interior of a screw conveyor, adding water at the joint of an upper conveying cavity and a lower conveying cavity, stirring into slurry, and recycling;
and f, lifting the upper swing arm and the lower swing arm, separating the upper forming die from the gypsum die, enabling the rolling head to leave the forming cavity, pushing the gypsum die into a drying conveyor by the lower swing arm, drying the gypsum die in the drying conveyor, and finally taking out the dried green body.
Known by the above description, the utility model provides an unloading roll forming production line has following beneficial effect in automation: when in roll forming, the upper forming die descends along with the lower swing arm and is attached to the top surface of the gypsum die, the upper forming die is made of silica gel and seeps water through the water permeable holes, and the sliding resistance is reduced while the attachment with the gypsum die is ensured; the upper forming die and the gypsum die are matched with each other for roll forming, so that the ceramic with the folded upper part can be produced, and the processing cost, weight and processing difficulty of gypsum are reduced; the excess mud and excess material are scraped by a scraper and fly into a material recovery cavity of an excess material recovery mechanism under the action of the rotating centrifugal force of the gypsum mold, and the mud is formed by adding water and stirring for recycling; the feeding and discharging and lifting of the die on the die holder are realized through the feeding swing arm, the discharging swing arm and the lifting platform of the die feeding and discharging mechanism, so that the automatic feeding and discharging of the gypsum die are realized, the labor is saved, and the transverse width of the production line is reduced; the position of the arc-shaped push plate on the feeding swing arm or the discharging swing arm can be adjusted, so that the length is adjusted, and the arc-shaped rubber pad can reduce the impact on the die; a damping rubber ring is arranged in a through cavity of the die holder to relieve the impact force at the moment when the die falls into the die holder, so that the die is prevented from being damaged, and anti-skidding patterns are arranged on the damping rubber ring to enhance the friction force between the die holder and the die and reduce the skidding phenomenon; the centering mechanism corrects the gypsum mold on the feeding conveyor to a centering position through the centering swing arm, so that the mold can accurately reach a designated station.
Drawings
Fig. 1 is the three-dimensional structure schematic diagram of the automatic feeding and discharging roll forming production line of the utility model.
Fig. 2 is a schematic perspective view of a roll forming machine.
Fig. 3 is a top view of fig. 2.
Fig. 4 is a perspective view of the centering mechanism.
Fig. 5 is a bottom view of fig. 4.
Fig. 6 is an operational schematic of the centering mechanism.
Fig. 7 is a schematic structural view of the remainder recovery mechanism.
Fig. 8 is a top view of fig. 7.
Fig. 9 is a sectional view a-a of fig. 8.
Fig. 10 is a sectional view B-B of fig. 8.
Detailed Description
In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.
As shown in fig. 1, the automatic feeding and discharging roll forming production line includes a roll forming machine 1, a feeding conveyor 2, a drying conveyor 3, a form removing platform 4, a dryer 5, a blower 6, a centering mechanism 7, a feeding and discharging mechanism 8 and a remainder recycling mechanism 9.
As shown in fig. 2 and 3, the roll forming machine 1 includes a base 11, an upper swing arm 12, a lower swing arm 13, an upper swing arm driving unit 14, a lower swing arm driving unit 15, a roll driving unit 16, a roll head 17, an upper forming mold 18, a mold base 19 and a mold base driving unit, the upper swing arm 12 and the lower swing arm 13 are pivotally disposed on the base 11, a swing radius of the upper swing arm 12 is larger than that of the lower swing arm 13, the lower swing arm 13 is disposed below the upper swing arm 12, the upper swing arm 12 and the lower swing arm 13 are respectively driven to rotate by the upper swing arm driving unit 14 and the lower swing arm driving unit 15, the roll head 17 is pivotally disposed on the upper swing arm 12, the roll head 17 is driven to rotate by the roll driving unit 16, the upper forming mold 18 is fixedly disposed on the lower swing arm 13, the mold base 19 is pivotally disposed on the base 11, the mold base 19 is disposed below the roll head 17 and the upper forming.
The die holder 19 is internally provided with a through cavity for placing the gypsum die 100, and when the lower swing arm 13 is pressed downwards, the upper forming die 18 is attached to the top of the gypsum die 100 embedded in the through cavity of the gypsum die 100. As shown in fig. 8, a damping rubber ring 192 is arranged on the inner side of the top of the cavity of the die holder 19, the inner side of the damping rubber ring 192 is a conical surface, anti-slip patterns are arranged on the conical surface, an end plate 191 is detachably arranged on the top of the die holder 19, an annular groove is arranged at the bottom of the end plate 191, and a convex ring embedded in the annular groove is arranged on the damping rubber ring 192.
The upper forming die 18 is detachably and fixedly arranged at the tail end of the lower swing arm 13, a layer of silica gel is fixedly arranged at the bottom of the upper forming die 18, a plurality of water permeable holes are distributed on the silica gel at the bottom of the upper forming die 18 and are connected with a water source through water pipes, the purpose of the water permeable holes is that when the upper forming die 18 is attached to the gypsum die 100 on the die holder 19, a water film is formed between the upper forming die 18 and the top surface of the gypsum die 100 through slow water seepage, the sealing is ensured, the friction force is reduced, meanwhile, a layer of silica gel material layer is fixedly arranged on the top surface of the gypsum die 100, the water film can be gradually thrown outwards under the action of centrifugal force, in order to reduce the influence of the water film on the shape of a blank body, the water permeable speed is controlled to be 0.6-0.8ml/min, the side surface of the upper forming die 18 close to the, the upper swing arm drive unit 14 and the lower swing arm drive unit 15 are servo motors.
As shown in fig. 2, 3, and 9, the upper and lower mold mechanism 8 includes a feeding swing arm 81, a discharging swing arm 82, a feeding driving unit, a discharging driving unit, a lifting platform 83 and a lifting driving unit, the feeding driving unit drives the feeding swing arm 81 to swing between the feeding conveyor 2 and the mold base 19, the discharging driving unit drives the discharging swing arm 82 to swing between the mold base 19 and the drying conveyor 3, the cross-section of the through cavity and the lifting platform 83 is circular, the diameter of the lifting platform 83 is smaller than that of the through cavity, the lifting platform 83 is disposed inside the through cavity of the mold base 19, the lifting driving unit drives the through cavity to move up and down, and the feeding swing arm 81 and the mold base 19 are correspondingly provided with proximity sensors for sensing the gypsum mold 100.
The end of material loading swing arm 81 and unloading swing arm 82 is equipped with arc push pedal 84, be equipped with the bar groove on the arc push pedal 84, arc push pedal 84 is fixed in on material loading swing arm 81 or the unloading swing arm 82 through the nut locking that passes the bar groove, detachable installs the arc rubber pad on the arc push pedal 84, material loading drive unit and unloading drive unit are servo motor, it still includes two transition linkage plate 85 to go up lower die mechanism 8, form between two transition linkage plate 85 with die holder 19 complex circular opening, die holder 19 borrows by transition linkage plate 85 and links up with material loading conveyor 2 and unloading conveyor.
As shown in fig. 4 to 6, the centering mechanism 7 is disposed between the blower 6 and the feeding swing arm 81, the centering mechanism 7 includes a centering base 71, a centering swing arm 72, a centering rotating shaft 73, short connecting rods 74, long connecting rods 75, sliding blocks 76, guide rods 77, a centering driving swing arm 78, a centering rotating block 79, a centering driving unit and a proximity sensor, the centering base 71 is fixedly disposed below the feeding conveyor 2, the four centering swing arms 72 are pivotally disposed at four corners of the centering base 71, each centering swing arm 72 is correspondingly and fixedly provided with one centering swing arm 72, each centering swing arm 72 is provided with a roller, the guide rods 77 are fixedly disposed on the centering base 71, the sliding blocks 76 are slidably disposed on the guide rods 77, two ends of each sliding block 76 are respectively connected with the centering rotating shaft 73 through the long connecting rods 75 and the short connecting rods 74 which are pivotally connected with each other, the short connecting rods 74 are fixedly connected with the centering rotating shaft, The other end of the centering rotating block 79 is pivoted, the two centering driving swing arms 78 are in central symmetry by taking the rotating axis of the centering rotating block 79 as a center, the centering driving unit drives the centering rotating block 79 to rotate, the centering driving unit is a servo motor, and the proximity sensor is arranged between the two centering rotating shafts 73 on one side.
The principle of the centering mechanism 7 for centering is as follows: when the gypsum mold 100 passes through the centering mechanism 7 on the feeding conveyor 2 and is detected by the proximity sensor, a signal is transmitted to the PLC, the PLC controls the centering driving unit to rotate ninety degrees, the two centering driving swing arms 78 are driven to move, and then the slide block 76 is driven to move towards the centering rotating block 79 on the guide rod 77, because the centering rotating block 79, the short connecting rod 74 and the long connecting rod 75 are sequentially pivoted, the slide block 76 drives the centering rotating shaft 73 and the centering swing arm 72 to rotate, the four centering swing arms 72 synchronously rotate, and the gypsum mold 100 is centered on the shaft center of the centering rotating block 79.
As shown in fig. 3, 7, 8 and 9, the excess material recycling mechanism 9 comprises an excess material swing arm 91, an excess material swing driving unit 92, an excess material scraper 93, an excess material collecting material barrel 94 and a screw conveyor, wherein the excess material swing arm 91 is pivoted on the base 11 and driven by the excess material swing driving unit 92 to rotate, the excess material collecting material barrel 94 is fixedly arranged on the excess material swing arm 91, the excess material scraper 93 is fixedly arranged on the excess material collecting material barrel 94, and the feeding end of the screw conveyor is communicated with the excess material collecting material barrel 94.
A recycling cavity 941 for collecting the excess materials scraped by the excess material scraper 93 is arranged in the excess material collecting cylinder 94, the recycling cavity 941 is horn-shaped, the caliber of the recycling cavity 941 is reduced from the feeding end to the discharging end, wherein the first half section of retrieving material chamber 941 is half circular arc, the second half section is complete arc, screw conveyer includes auger delivery casing 95, go up screw 96, lower screw 97 and screw drive motor 98, be equipped with in the auger delivery casing 95 and carry the cavity with lower, carry the cavity to be located down and carry the cavity below and communicate with last transport cavity, it locates respectively with lower screw 97 to go up to carry the cavity and carry the cavity down with last screw 96, and by the drive of screw drive motor 98 rotation, it stretches into in retrieving material chamber 941 to go up screw 96, the feed end of carrying the cavity down is equipped with water inlet 951, the discharge end is equipped with discharge gate 952, the inlet tube is connected to water inlet 951, the discharging pipe is connected to the discharge end.
The automatic feeding and discharging roll forming method utilizes the automatic feeding and discharging roll forming production line and is characterized in that: the method comprises the following steps:
step a, the gypsum mold 100 with the pug put into is sent to a feeding conveyor 2, when the gypsum mold passes through a centering mechanism 7, the gypsum mold is sensed by a proximity sensor, a centering driving unit drives a centering rotating block 79 to rotate to drive a centering driving swing arm 78 to rotate, further drives a slide block 76 to move on a guide rod 77, and the slide block 76 drives a centering swing arm 72 to rotate through a short connecting rod 74 and a long connecting rod 75 in the moving process, so that the four centering swing arms 72 are simultaneously closed towards the gypsum mold 100, and the gypsum mold 100 is centered to the central line of the feeding conveyor 2;
step b, before the gypsum mold 100 is conveyed to the feeding swing arm 81 by the feeding conveyor 2, the feeding swing arm 81 swings between the feeding conveyor 2 and the mold base 19 to drive the gypsum mold 100 to enter the lifting platform 83 in the mold base 19;
step c, the lifting platform 83 moves downwards in the through cavity under the driving of the lifting driving unit, and the gypsum mold 100 falls into the through cavity;
d, the die holder 19 drives the rotary upper swing arm 12 and the lower swing arm 13 to rotate downwards by the die holder driving unit to drive the rolling head 17 and the upper forming die 18 to press downwards, the upper forming die 18 is attached to the top surface of the gypsum die 100, meanwhile, the excess material scraper 93 of the excess material recycling mechanism 9 is close to the top of the gypsum die 100, a water permeable hole at the bottom of the upper forming die 18 is communicated with a water source to lubricate the space between the lower forming die and the top surface of the gypsum die 100, the rolling head 17 is driven to rotate by the rolling driving unit 16, the die holder 19 is driven to rotate by the die holder driving unit, and pug is formed under the extrusion action of the rolling head 17, the gypsum die 100 and;
e, scraping the excessive mud and excess material by a scraper 93, flying into a recovery cavity 941 of the excess material recovery mechanism 9 under the action of the rotating centrifugal force of the gypsum mold 100, entering the interior of a spiral conveyor, adding water at the joint of an upper conveying cavity and a lower conveying cavity, stirring into mud, and recycling;
and f, lifting the upper swing arm 12 and the lower swing arm 13, separating the upper forming die 18 from the gypsum die 100, enabling the rolling head 17 to leave the forming cavity, pushing the gypsum die 100 into the drying conveyor 3 by the blanking swing arm 82, enabling the gypsum die to enter the drying conveyor 5 for drying, and finally taking out the dried green body.
The utility model provides an unloading roll forming production line has following beneficial effect in the automation: during roll forming, the upper forming die 18 descends along with the lower swing arm 13 and is attached to the top surface of the gypsum die 100, the upper forming die 18 is made of silica gel and seeps water through the water permeable holes, and sliding resistance is reduced while the upper forming die is attached to the gypsum die 100; the upper forming die 18 and the gypsum die 100 are matched for roll forming, so that the ceramic with the folded upper part can be produced, the dual gypsum die 100 is not needed, and the processing cost, weight and processing difficulty of gypsum are reduced; the excess mud and excess material scraper 93 scrapes off the excess mud and excess material, flies into a material recovery cavity 941 of the excess material recovery mechanism 9 under the action of the rotating centrifugal force of the gypsum mold 100, and is stirred into mud by adding water for recycling; the feeding and discharging and lifting of the die on the die holder 19 are realized through the feeding swing arm 81, the discharging swing arm 82 and the lifting platform 83 of the upper and lower die mechanisms 8, so that the automatic feeding and discharging of the gypsum die 100 are realized, the labor is saved, and the transverse width of the production line is reduced; the arc-shaped push plate 84 is adjustable in position on the feeding swing arm 81 or the discharging swing arm 82, so that the length is adjusted, and the arc-shaped rubber pad can reduce the impact on the die; a damping rubber ring 192 is arranged in a through cavity of the die holder 19 to relieve the instant impact force when the die falls into the die holder 19, so that the die is prevented from being damaged, and anti-skid patterns are arranged on the damping rubber ring 192 to enhance the friction force between the die holder 19 and the die and reduce the slipping phenomenon; the centering mechanism 7 corrects the plaster mold 100 on the feeding conveyor 2 to a centered position through the centering swing arm 72, so that the mold can accurately reach a designated station.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "back", "left", "right", "top", "bottom", "inner", "outer", and the like refer to the orientation or positional relationship shown in the drawings, which is only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be considered limiting of the present invention, as these terms are not used in the present specification and are known in the art to which those skilled in the art will recognize.
In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "connected" and "disposed" are to be interpreted broadly, and may be, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed; the utility model discloses in provide only supply the reference with the model of electrical apparatus. For those skilled in the art, different types of electrical appliances with the same function can be replaced according to actual use conditions, and for those skilled in the art, the specific meaning of the above terms in the present invention can be understood in specific situations.
The aforesaid is only a plurality of concrete implementation manners of the utility model, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.
Claims (9)
1. The utility model provides an unloading roll forming production line in automation which characterized in that: the automatic die-stripping machine comprises a rolling forming machine, a feeding conveyor, a drying conveyor, a die-stripping platform, a dryer, a blower, a centering mechanism, an upper die-stripping mechanism, a lower die-stripping mechanism and a residual material recovery mechanism, wherein the feeding conveyor and the drying conveyor are arranged in parallel, the feeding conveyor, the rolling forming machine, the drying conveyor and the die-stripping platform are sequentially connected in series, the dryer is arranged on the drying conveyor, the blower, the centering mechanism and the upper die-stripping mechanism are arranged on the feeding conveyor, the rolling forming machine comprises a base, an upper swing arm, a lower swing arm, an upper swing arm driving unit, a lower swing arm driving unit, a rolling head, an upper forming die, a die holder and a die holder driving unit, the upper swing arm and the lower swing arm are arranged on the base, the lower swing arm is positioned below the upper swing arm, and the upper swing arm and the lower swing arm are respectively driven to rotate by the upper, the die holder is arranged on the base, the die holder is positioned below the rolling head and the upper forming die, and the die holder is driven to rotate by the die holder driving unit.
2. The automatic feeding and discharging roll forming production line as claimed in claim 1, wherein: the inside cavity that runs through that is used for placing the gypsum mould that is equipped with of die holder, when swing arm pushes down, go up the gypsum mould top laminating in the cavity that runs through of forming die and embedding gypsum mould.
3. The automatic feeding and discharging roll forming production line as claimed in claim 2, wherein: go up forming die bottom distribution and have a plurality of holes of permeating water, the hole of permeating water leads to pipe to be connected with the water source, it is the cambered surface with shaping cavity lateral wall smooth connection to go up the side that forming die is close to the inside shaping cavity of gypsum mould, it is servo motor to go up swing arm drive unit and lower swing arm drive unit.
4. The automatic feeding and discharging roll forming production line as claimed in claim 2, wherein: the upper and lower die mechanism comprises a feeding swing arm, a discharging swing arm, a feeding driving unit, a discharging driving unit, a lifting platform and a lifting driving unit, wherein the feeding driving unit drives the feeding swing arm to swing between a feeding conveyor and a die holder, the discharging driving unit drives the discharging swing arm to swing between the die holder and a drying conveyor, the cross sections of the through cavity and the lifting platform are circular, the diameter of the lifting platform is smaller than that of the through cavity, and the lifting platform is arranged inside the through cavity of the die holder and driven by the lifting driving unit to move up and down inside the through cavity.
5. The automatic feeding and discharging roll forming production line of claim 4, wherein: the die holder runs through cavity top inboard and is equipped with the yielding rubber circle, the yielding rubber circle inboard is the conical surface, is equipped with anti-skidding decorative pattern on the conical surface, die holder top detachable is equipped with the end plate, and this end plate bottom is equipped with the ring channel, be equipped with the bulge loop of embedding ring channel on the yielding rubber circle.
6. The automatic feeding and discharging roll forming production line as claimed in claim 1, wherein: the end of material loading swing arm and unloading swing arm is equipped with the arc push pedal, be equipped with the bar groove in the arc push pedal, the arc push pedal is fixed in on material loading swing arm or the unloading swing arm through the nut locking that passes the bar groove, detachable installs the arc rubber pad in the arc push pedal, material loading drive unit and unloading drive unit are servo motor, go up lower die mechanism and still include two transition linkage connection boards, form between two transition linkage connection boards with die holder complex circular opening, the die holder is borrowd by transition linkage connection board and material loading conveyer and unloading conveyer link up.
7. The automatic feeding and discharging roll forming production line as claimed in claim 1, wherein: the centering mechanism is arranged between the blower and the feeding swing arm and comprises a centering base, a centering swing arm, a centering rotating shaft, a short connecting rod, a long connecting rod, a sliding block, a guide rod, a centering driving swing arm, a centering rotating block, a centering driving unit and a proximity sensor, wherein the centering base is fixedly arranged below the feeding conveyor, the four centering swing arms are pivotally arranged at four corners of the centering base, each centering swing arm is correspondingly and fixedly provided with one centering swing arm, the centering swing arm is provided with a roller, the guide rod is fixedly arranged on the centering base, the sliding block is slidably arranged on the guide rod, two ends of the sliding block are respectively connected with the centering rotating shaft through the long connecting rod and the short connecting rod which are mutually pivoted, one end of the centering driving swing arm is pivoted with the sliding block, the other end of the centering driving swing arm is pivoted with the centering rotating block, the centering driving unit, the proximity sensor is arranged between the two centering rotating shafts on one side.
8. The automatic feeding and discharging roll forming production line as claimed in claim 1, wherein: the clout recovery mechanism includes clout swing arm, clout swing drive unit, clout scraper, clout collection feed cylinder and screw conveyer, clout swing arm pivot is located on the base, rotates under clout swing drive unit drive, and the clout collection feed cylinder sets firmly on the clout swing arm, and the clout scraper sets firmly on the clout collection feed cylinder, screw conveyer's feed end and clout collection feed cylinder intercommunication.
9. The automatic feeding and discharging roll forming production line of claim 8, wherein: a recovery cavity for collecting the excess materials scraped by the excess material scraper is arranged in the excess material collecting cylinder, the recovery cavity is horn-shaped, the caliber of the recovery cavity is reduced from the feeding end to the discharging end, wherein the front half section of the material recovery cavity is in a semi-circular arc shape, the rear half section of the material recovery cavity is in a complete circular arc shape, the screw conveyor comprises a screw conveying shell, an upper screw rod, a lower screw rod and a screw driving motor, an upper conveying cavity and a lower conveying cavity are arranged in the spiral conveying shell, the lower conveying cavity is positioned below the upper conveying cavity and communicated with the upper conveying cavity, the upper screw and the lower screw are respectively pivoted in the upper conveying cavity and the lower conveying cavity and are driven to rotate by a screw driving motor, go up the screw rod and stretch into the reclaimed materials intracavity, the feed end of carrying the cavity down is equipped with the water inlet, the discharge end is equipped with the discharge gate, the water inlet is connected the inlet tube, the discharge end is connected the discharging pipe.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111941631A (en) * | 2020-09-18 | 2020-11-17 | 福建泉州顺美集团有限责任公司 | Automatic feeding and discharging roll forming production line and roll forming method thereof |
CN118123974A (en) * | 2024-05-10 | 2024-06-04 | 兴化市华伦达铸钢有限公司 | Ceramic roll forming device |
-
2020
- 2020-09-18 CN CN202022051702.6U patent/CN212859875U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111941631A (en) * | 2020-09-18 | 2020-11-17 | 福建泉州顺美集团有限责任公司 | Automatic feeding and discharging roll forming production line and roll forming method thereof |
CN111941631B (en) * | 2020-09-18 | 2024-10-01 | 福建泉州顺美集团有限责任公司 | Automatic feeding and discharging roll forming production line and roll forming method thereof |
CN118123974A (en) * | 2024-05-10 | 2024-06-04 | 兴化市华伦达铸钢有限公司 | Ceramic roll forming device |
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