CN117902379A - Fusion tile processing belt deviation rectifying and winding system - Google Patents
Fusion tile processing belt deviation rectifying and winding system Download PDFInfo
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- CN117902379A CN117902379A CN202410290243.7A CN202410290243A CN117902379A CN 117902379 A CN117902379 A CN 117902379A CN 202410290243 A CN202410290243 A CN 202410290243A CN 117902379 A CN117902379 A CN 117902379A
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- 238000007789 sealing Methods 0.000 claims description 3
- 230000004936 stimulating effect Effects 0.000 claims description 3
- 239000012780 transparent material Substances 0.000 claims description 3
- 238000012937 correction Methods 0.000 abstract description 8
- 238000004519 manufacturing process Methods 0.000 abstract description 8
- 229920002397 thermoplastic olefin Polymers 0.000 description 30
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Abstract
The application discloses a correction winding system for a fusion tile processing belt, which belongs to the technical field of fusion tile production and processing and comprises a support frame body, wherein a winding machine is connected to the support frame body, a plurality of groups of carrying roller assemblies are uniformly arranged in an inner cavity of the support frame body, and a driving piece is further arranged on the support frame body. After finishing the production of the TPO waterproof sheet material required by preparing the fusion tile, under the drive of a driving piece, thereby be convenient for carry the TPO waterproof sheet material that is used for producing the fusion tile to the rolling machine department fast, and in the handling, the skew sensing piece on the handling roller subassembly can also carry out the response monitoring to the moving track of material when carrying out the processing of rectifying to the material, take place the skew at the handling to the rolling machine in-process when the material, the skew sensing piece can in time send prompt signal, remind the staff in time to rectify the processing to the material, the circumstances that causes the material rolling to be uneven because of the material takes place the skew when effectively avoiding carrying TPO waterproof sheet material.
Description
Technical Field
The application relates to the technical field of fusion tile production and processing, in particular to a correction winding system for a fusion tile processing belt.
Background
The fusion tile is a light anti-corrosion waterproof building board which is formed by covering a metal substrate and TPO (thermoplastic polyolefin) waterproof sheets through a high-temperature hot-pressing process, and the board is generally used for a factory building light steel roof and has the characteristics of high weather resistance, high water vapor barrier rate, high bonding strength, corrosion resistance and the like.
When the fusion tile is produced and processed, the produced TPO waterproof sheet is rolled up, and after the metal substrate is produced, the TPO waterproof sheet is cut and trimmed to adapt to specific size and shape requirements, and finally the rolled TPO waterproof sheet is cut and trimmed, and the metal substrate and the TPO waterproof sheet are covered and combined to form the fusion tile through high-temperature and hot-pressing processes.
However, at present, in the production processing of fusion tile, degree of automation is not high, when carrying TPO waterproof sheet to empty winding drum department, mostly all through artifical manual transport, wastes time and energy, influences the production machining efficiency of fusion tile.
In view of this, we propose a fusion tile processing area rolling system that rectifies.
Disclosure of Invention
The technical problems to be solved are as follows: the application aims to provide a correction winding system for a fusion tile processing belt, which solves the technical problems in the background technology.
The technical scheme is as follows: the technical scheme of the application provides a correction winding system for a fusion tile processing belt, which comprises a support frame body, wherein a winding machine is connected to the support frame body, a plurality of groups of carrying roller assemblies are uniformly arranged in an inner cavity of the support frame body, and a driving piece is further arranged on the support frame body; the conveying roller assembly comprises a conveying roller rotatably connected in the inner cavity of the support frame body, and a plurality of offset sensing pieces which are annularly arranged on the periphery of the conveying roller shaft line and can slide relative to the conveying roller are uniformly arranged on the side walls of the left end and the right end of the conveying roller; the driving piece is used for driving the TPO waterproof sheet materials placed on the surface of the carrying roller assembly to move to the winding machine; the space between the offset induction pieces arranged on the side walls at the left end and the right end of the carrying roller in the carrying roller assembly can be adjusted according to the width of the carried material, and the offset induction pieces can carry out induction monitoring on the running track of the material in the process that the material is moved to the winding machine by the driving piece.
As an alternative scheme of the technical scheme of the document, the offset sensing piece comprises a built-in base, wherein the top surface of the built-in base is respectively provided with a processing groove, an adjusting screw hole and an indicating groove, the indicating groove is internally connected with a prompting lamp, and a stimulating unit is arranged in the processing groove; a matching cavity is arranged below the treatment tank in the built-in base, the bottom wall of the matching cavity is connected with a trigger negative, and the side wall of the matching cavity is connected with a trigger elastic sheet above the trigger negative; the screw is adjusted to screw internal thread connection has the location double-screw bolt, and the location double-screw bolt top is equipped with the screwdriver groove that can supply the screwdriver tool bit to insert wherein, and the location double-screw bolt bottom is equipped with chamfer portion, and the front and back side of built-in base all begins to have the bayonet socket that is linked together with adjusting the screw, and the one end that the bayonet socket was kept away from to adjust the screw runs through built-in base lateral wall, and the slip is inserted in the bayonet socket and is equipped with the spliced pole, and the one end that the spliced pole is close to adjusting the screw is equipped with the circular arc end that cooperates with chamfer portion, is connected with the slipmat that has elasticity on the one end that the circular arc end was kept away from to the spliced pole.
As an alternative scheme of the technical scheme of the application, the side walls at the left end and the right end of the carrying roller are respectively provided with an adjusting straight groove at the position corresponding to each group of offset sensing parts, and each built-in base is respectively and slidably connected in the corresponding adjusting straight groove.
As an alternative of the technical scheme of the application, the upper surface of the built-in base is an upward convex arc surface, and the curvature of the arc surface is equal to the curvature of the outer circumferential surface of the built-in base.
As an alternative scheme of the file technical scheme of the application, the excitation unit comprises an upper seat body and a lower seat body which are matched with the processing groove, wherein the upper seat body is made of transparent materials, a containing cavity is arranged in the upper seat body, a fault alarm lamp is connected to the top wall of the containing cavity, a buzzer is also connected to the containing cavity, and a sound outlet hole communicated with the containing cavity is formed in the top of the upper seat body;
The bottom of the lower seat body is connected with an annular magnetic block A, the bottom of the annular magnetic block A is magnetically adsorbed with an annular magnetic block B, the bottom of the annular magnetic block B is connected with the bottom wall of the treatment tank, the upper seat body and the lower seat body are movably inserted into the treatment tank, and when the annular magnetic block A is magnetically adsorbed on the end part of the annular magnetic block B, the top end of the upper seat body extends out of the opening at the top end of the treatment tank; the lower seat body is also penetrated and provided with a thimble groove, the thimble groove is internally and hermetically connected with a pressing thimble in a sliding manner, the lower seat body is internally provided with a limit groove communicated with the thimble groove, and the limit groove is internally and slidably connected with a limit slide block connected with the side wall of the pressing thimble; a rebound air bag is connected between the upper seat body and the lower seat body, a preformed hole is formed in the bottom end of the rebound air bag, one end of the preformed hole is communicated with the thimble groove, and the other end of the preformed hole is communicated with the inner cavity of the rebound air bag.
As an alternative scheme of the technical scheme of the application, the bottom ends of the pressing ejector pins respectively penetrate through the inner cavities of the annular magnetic block A and the annular magnetic block B and penetrate into the matching cavity, and the pressing ejector pins are positioned above the triggering elastic pieces.
As an alternative scheme of the technical scheme of the application, an embedded sphere is also arranged in the rebound airbag, an air cavity chamber communicated with the inner cavity of the rebound airbag is arranged on the embedded sphere, a fixed terminal is connected in one end of the air cavity chamber, a passive air plug is connected in a sealing sliding manner in the air cavity chamber, and an approaching terminal matched with the fixed terminal is connected on one end of the passive air plug close to the opening of the air cavity chamber; the air cavity is also filled with balance gas, and the passive air plug is arranged between the balance gas and the approaching terminal; the middle part of the outer wall of the passive air plug is also uniformly connected with a plurality of reset elastic belts which are annularly arranged on the periphery of the embedded ball body, and one end of each reset elastic belt, which is far away from the embedded ball body, is connected with the inner wall of the rebound air bag.
As an alternative to the technical solution of the present application, when the approaching terminal moves toward the fixed terminal and contacts the fixed terminal, the fault warning lamp and the buzzer are triggered to be turned on simultaneously.
As an alternative scheme of the file technical scheme of the application, the driving piece comprises two lifting seats, two rotating shafts are symmetrically connected between the two lifting seats in a rotating way, synchronous pulleys are sleeved and fixed on the periphery of each rotating shaft, synchronous toothed belts are sleeved on the peripheries of the two synchronous pulleys together, an electric push rod is connected to the lifting seats, a base connected with the side wall of a supporting frame body is connected to one end of the electric push rod far away from the lifting seats, the side wall of one lifting seat is connected with an output shaft penetrating through the lifting seat and connected with the end part of one rotating shaft; the support frame body is located between two lifting seats, the side wall of the support frame body vertically penetrates through the lifting groove matched with the rotating shaft at the position corresponding to the rotating shaft, and one end, away from the connected synchronous belt wheel, of the rotating shaft penetrates through the lifting groove and is connected with the corresponding lifting seat.
The beneficial effects are that: one or more technical schemes provided in the technical scheme of the application at least have the following technical effects or advantages: 1. after the TPO waterproof sheet material required for preparing the fusion tile is produced, one end of the TPO waterproof sheet material is pulled to the surface of the carrying roller assembly on the support frame body, and the TPO waterproof sheet material for producing the fusion tile is conveniently and rapidly carried to a winding machine under the driving of a driving piece, and then the end part of the TPO waterproof sheet material is fixed on the surface of the winding drum of the winding machine.
2. When carrying TPO waterproof sheet material, when putting one end of material behind the handling roller subassembly surface, the electric putter shrink in the control holder, electric putter drives synchronous toothed belt and pushes down the clamping force to the material surface, opens afterwards, and the drive is rotatory with the pivot that its output is connected, and TPO waterproof sheet material that is driven by the synchronous toothed belt of rotation is in its below moves to the rolling machine department again to be convenient for with the TPO waterproof sheet material that is used for producing the fusion tile carries fast to the rolling machine department.
3. After one end of a TPO waterproof sheet material is pulled to the surface of a carrying roller assembly on a supporting frame body, the sheet material is straightened, offset induction pieces arranged on side walls at two ends of the carrying roller are close to the sheet material, when the material is positioned between two excitation units, and after two opposite surfaces are attached to the side walls of the material, positioning studs are screwed by a screwdriver, in the process of screwing the positioning studs, the two clamping studs are driven to move back to back by the continuously screwed positioning studs, then pressure is applied to the side walls of an adjusting straight groove by the two clamping studs moving back to back, so that the offset induction pieces after the position adjustment can be fixed.
4. According to the application, in the process of carrying TPO waterproof sheet materials required by preparing the fusion tiles through the cooperation of the driving piece and the carrying roller assembly, when materials entering between the driving piece and the carrying roller are deviated, and further after the materials are deviated in the carrying process, the deviation sensing piece on the carrying roller assembly can also sense and monitor the running track of the materials in the process of carrying the materials, when the materials deviate in the carrying process, the upper seat body in the deviation sensing piece is propped against the bottom surface of the deviated materials and then retracted into the processing tank, the upper seat body retracted into the processing tank extrudes the rebound air bag, the extruded rebound air bag extrudes and injects internal gas into the thimble tank through the reserved hole, after the air pressure in the thimble tank is increased, the downward moving pressing thimble applies a lower pressure to the triggering shrapnel, and then the triggering shrapnel which is elastically bent downwards contacts with the triggering negative, so that the prompting lamp is started, and the deviation sensing piece on the carrying roller assembly can also sense and monitor the running track of the materials in the process of the materials, when the materials deviate in the carrying process of the coiling machine, the deviation sensing piece can timely send prompting signals, and workers are reminded of correcting the deviation of the materials, so that the deviation of the materials can be corrected, the production efficiency of the fusion tiles is further improved, and the production efficiency of the fusion tiles is favorable for the fusion tiles is improved.
5. When the trigger unit which synchronously rotates along with the carrying roller assembly is separated from the deflected material, the rebound airbag can rebound rapidly to recover the initial form and can be put into the operation for sensing and monitoring the material running track again under the pulling of the elastic force of the reset elastic belt, the gas which is originally injected into the thimble groove is pumped back into the inner cavity of the rebound airbag again in the process of recovering the initial form, the pressing thimble is retracted into the thimble groove after the air pressure in the thimble groove is reduced, and during the process, when the trigger elastic sheet is not contacted with the trigger negative sheet any more, the prompting lamp is extinguished, so that the trigger unit with the sensing and monitoring function in the offset sensing piece can be triggered repeatedly, and the monitoring effect of the TPO waterproof sheet material which is carried by the application and is used for preparing the fusion tile is ensured.
6. When the upper seat body is retracted to the inside of the processing groove by the jacking of the deflected material and the rebound air bag is extruded, the gas injected into the thimble groove is reduced, so that the pressure in the thimble groove is difficult to drive the pressure thimble to push and bend the trigger elastic sheet and enable the trigger elastic sheet to be contacted with the trigger negative film to trigger the prompting lamp to be started, the trigger unit fails, then, after the trigger unit is separated from the material conveyed on the surface of the conveying roller assembly, the approaching terminal gradually moves towards the direction of the fixed terminal and is contacted with the fixed terminal under the action of the pressure, the fault alarming lamp and the buzzer are triggered to be simultaneously started after the approaching terminal is contacted with the fixed terminal, the working personnel are reminded of the failure of the trigger unit by the buzzer, and the working personnel can conveniently and rapidly find the failed trigger unit and process the failure by the on the basis of the on-off fault alarming lamp, so that the working personnel can normally search the system.
Drawings
Fig. 1 is a schematic diagram of the overall structure of the present invention.
Fig. 2 is an enlarged schematic view of a partial structure of the portion a in fig. 1 according to the present invention.
Fig. 3 is a schematic structural diagram of an offset sensing member according to the present invention.
Fig. 4 is a side view of the offset sensing member of the present invention.
Fig. 5 is a schematic structural diagram of the excitation unit in the present invention.
FIG. 6 is a schematic cross-sectional view of a rebound airbag of the present invention.
The reference numerals in the figures illustrate: 1. a support frame body; 201. a carrying roller; 202. a built-in base; 203. positioning a stud; 204. a warning light; 205. an upper base; 206. a clamping column; 207. a chamfering part; 208. arc end; 209. a fault alarm lamp; 210. a buzzer; 211. a rebound airbag; 212. a limit sliding block; 213. an annular magnetic block A; 214. a pressing thimble; 215. triggering a spring plate; 216. triggering the negative film; 217. resetting the elastic belt; 218. an annular magnetic block B; 219. a sphere is embedded; 220. a fixed terminal; 221. a passive air plug; 222. an approach terminal; 223. balancing the gas; 3. a winding machine; 4. an electric push rod; 5. a synchronous pulley; 6. a lifting seat; 7. synchronous toothed belts.
Detailed Description
The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art without making any inventive effort, are intended to fall within the scope of the present application, based on the embodiments of the present application, which is further described in detail below with reference to the drawings.
Referring to fig. 1 and 2, an embodiment of the application provides a correction winding system for a fusion tile processing belt, which comprises a support frame body 1, wherein a winding machine 3 is connected to the support frame body 1, a plurality of groups of carrying roller assemblies are uniformly arranged in an inner cavity of the support frame body 1, and a driving piece is further arranged on the support frame body 1; the carrying roller assembly comprises a carrying roller 201 rotatably connected in the inner cavity of the support frame body 1, and a plurality of offset sensing pieces which are annularly arranged on the periphery of the axis of the carrying roller 201 and can slide relative to the carrying roller 201 are uniformly arranged on the side walls of the left end and the right end of the carrying roller 201; the driving piece is used for driving the TPO waterproof sheet material placed on the surface of the carrying roller assembly to move to the winding machine 3; the space between the offset sensing pieces arranged on the side walls at the left end and the right end of the carrying roller 201 in the carrying roller assembly can be adjusted according to the width of the carried material, and the offset sensing pieces can sense and monitor the running track of the material in the process that the material driven piece moves to the winding machine 3. After the TPO waterproof sheet material required for preparing the fusion tile is produced, one end of the TPO waterproof sheet material is pulled to the surface of the carrying roller assembly on the support frame body 1, and the TPO waterproof sheet material for producing the fusion tile is conveniently and rapidly carried to the position of the winding machine 3 under the driving of the driving piece, and then the end part of the TPO waterproof sheet material is fixed on the surface of the winding drum of the winding machine 3.
Referring to fig. 1, an embodiment of the application provides a correction winding system for a fusion tile processing belt, a driving piece comprises two lifting seats 6, two rotating shafts are symmetrically connected between the two lifting seats 6 in a rotating way, a synchronous pulley 5 is sleeved and fixed on the periphery of each rotating shaft, synchronous toothed belts 7 are sleeved and arranged on the peripheries of the two synchronous pulleys 5 in a common way, an electric push rod 4 is connected to the lifting seats 6, a base connected with the side wall of a supporting frame body 1 is connected to one end of the electric push rod 4 far away from the lifting seats 6, 8 is connected to the side wall of one lifting seat 6, and an output shaft of the 8 penetrates through the lifting seat 6 and is connected with the end part of one rotating shaft; the support frame body 1 is located between two lifting seats 6, the side wall of the support frame body 1 vertically penetrates through the lifting groove matched with the rotating shaft at the position corresponding to the rotating shaft, and one end, away from the connected synchronous pulley 5, of the rotating shaft penetrates through the lifting groove and is connected with the corresponding lifting seat 6. When the TPO waterproof sheet material is carried, after one end of the material is placed on the surface of a carrying roller assembly, an electric push rod 4 in a clamping piece is controlled to shrink, the electric push rod 4 drives a synchronous toothed belt 7 to move downwards and applies a pressing clamping acting force to the surface of the material, then 8 and 8 are started to drive a rotating shaft connected with the output end of the synchronous toothed belt to rotate, and the TPO waterproof sheet material pressed below the synchronous toothed belt is driven by the rotating synchronous toothed belt 7 to move to a winding machine 3, so that the TPO waterproof sheet material for producing fusion tiles is conveniently and rapidly carried to the winding machine 3, wherein the winding machine 3 is equipment for winding raw materials into coiled materials in a mechanical mode in the prior art, and the specific structure and the using method of the equipment are not described in detail herein.
Referring to fig. 1 to 4, an embodiment of the present application provides a deviation rectifying and winding system for a processing belt of a fusion tile, wherein a deviation sensing element comprises a built-in base 202, a processing groove, an adjusting screw hole and an indicating groove are respectively arranged on the top surface of the built-in base 202, a prompting lamp 204 is connected in the indicating groove, and a stimulating unit is arranged in the processing groove; a matching cavity is further arranged below the treatment tank in the built-in base 202, a trigger bottom plate 216 is connected to the bottom wall of the matching cavity, and a trigger elastic plate 215 above the trigger bottom plate 216 is connected to the side wall of the matching cavity; the screw hole is internally and in threaded connection with a positioning stud 203, a screw tool groove into which a screw tool bit can be inserted is formed in the top end of the positioning stud 203, a chamfer part 207 is formed in the bottom end of the positioning stud 203, clamping holes communicated with the adjusting screw hole are formed in the front side and the rear side of the built-in base 202, one ends of the clamping holes far away from the adjusting screw hole penetrate through the side wall of the built-in base 202, clamping columns 206 are inserted in the clamping holes in a sliding manner, an arc end 208 matched with the chamfer part 207 is arranged at one end of the clamping columns 206 close to the adjusting screw hole, and an elastic anti-slip pad is connected to one end of the clamping columns 206 far away from the arc end 208. The side walls of the left and right ends of the carrying roller 201 are provided with adjusting straight grooves corresponding to the positions of each group of offset sensing parts, and each built-in base 202 is respectively and slidably connected in the corresponding adjusting straight groove. The upper surface of the built-in base 202 is an upwardly convex arc surface, and the curvature of the arc surface is equal to the curvature of the outer circumferential surface of the built-in base 202.
Referring to fig. 2, 3 and 5, an embodiment of the present application provides a correction winding system for a fusion tile processing belt, where the excitation unit includes an upper base 205 and a lower base that are adapted to a processing tank, where the upper base 205 is made of a transparent material, a containing cavity is provided in the upper base 205, a fault alarm lamp 209 is connected to a top wall of the containing cavity, a buzzer 210 is connected in the containing cavity, and a sound outlet hole communicated with the containing cavity is provided at a top of the upper base 205; the bottom of the lower seat body is connected with an annular magnetic block A213, an annular magnetic block B218 with the bottom connected with the bottom wall of the treatment tank is magnetically adsorbed at the bottom of the annular magnetic block A213, the upper seat body 205 and the lower seat body are movably inserted into the treatment tank, and when the annular magnetic block A213 is magnetically adsorbed on the end part of the annular magnetic block B218, the top end of the upper seat body 205 extends out of the opening at the top end of the treatment tank; the lower seat body is also penetrated and provided with a thimble groove, the thimble groove is internally and hermetically connected with a pressing thimble 214 in a sliding manner, the lower seat body is internally provided with a limit groove communicated with the thimble groove, and the limit groove is internally and slidingly connected with a limit slide block 212 connected with the side wall of the pressing thimble 214; a rebound airbag 211 is connected between the upper seat 205 and the lower seat, a preformed hole is formed in the bottom end of the rebound airbag 211, one end of the preformed hole is communicated with the thimble groove, and the other end of the preformed hole is communicated with the inner cavity of the rebound airbag 211. The bottom ends of the pressing ejector pins 214 respectively penetrate through the inner cavities of the annular magnetic block A213 and the annular magnetic block B218 and penetrate into the matching cavity, and the pressing ejector pins 214 are positioned above the triggering spring plates 215. After one end of a TPO waterproof sheet material is pulled to the surface of a carrying roller assembly on a supporting frame body 1, the sheet material is then aligned, offset sensing pieces arranged on side walls at two ends of a carrying roller 201 are close to the sheet material, when the material is positioned between two excitation units, and after two opposite surfaces are attached to the side walls of the material, a positioning stud 203 is screwed by a screwdriver, in the process of screwing the positioning stud 203, the two clamping columns 206 are driven to move oppositely by the continuously screwed positioning stud 203, then pressure is applied to the side walls of an adjusting straight groove by the two clamping columns 206 which move oppositely, so that the offset sensing pieces after the position adjustment can be fixed, when the rotating synchronous toothed belt 7 drives the sheet material to move, the moving material is subjected to deviation correction treatment through 205 at the left side and the right side of the material, the situation that the material is wound unevenly due to the offset of the material when the TPO waterproof sheet material is carried, the influence on the subsequent accurate cutting of the material is caused, and the subsequent cutting processing quality of the fused tile is further influenced is avoided. In the process of carrying TPO waterproof sheet materials required by preparing fusion tiles through the cooperation of the driving piece and the carrying roller assembly, when materials entering between the driving piece and the carrying roller are deflected, and then after the materials are deflected in the carrying process, the triggering unit rotating along with the carrying roller assembly rotates to the position right below the deflected materials, the upper seat 205 in the triggering unit is propped against the bottom surface of the deflected materials, the upper seat 205 in the processing tank is retracted inwards, the upper seat 205 retracted to the inside of the processing tank extrudes the rebound airbag 211, the extruded rebound airbag 211 extrudes and injects internal gas into the thimble tank through a preformed hole, after the air pressure in the thimble tank is increased, the downward moving pressing thimble 214 applies lower pressure to the triggering shrapnel 215, and then the triggering shrapnel 215 which is elastically bent downwards is contacted with the triggering bottom plate 216, triggers the prompting lamp 204 to be started, so that the deflection sensing piece on the carrying roller assembly can sense and monitor the running track of the materials in the material carrying process, and when the materials are deflected in the carrying process of a rolling machine 3, the deflection sensing piece can send prompting signals, so that the performance of the TPO waterproof tiles can be further improved in time, and the production efficiency of the fusion tiles is further improved.
Referring to fig. 5 and 6, an embodiment of the present application provides a deviation rectifying and winding system for a fusion tile processing belt, wherein an embedded sphere 219 is further arranged inside a rebound airbag 211, an air cavity chamber communicated with an inner cavity of the rebound airbag 211 is formed on the embedded sphere 219, a fixed terminal 220 is connected inside an opening end of the air cavity chamber, a passive air plug 221 is connected in a sealing sliding manner in the air cavity chamber, and an approaching terminal 222 matched with the fixed terminal 220 is connected on an end, close to the opening end of the air cavity chamber, of the passive air plug 221; the air chamber is also filled with balance gas 223, and a passive gas plug 221 is interposed between the balance gas 223 and the approaching terminal 222; the middle part of the outer wall of the passive air plug 221 is also uniformly connected with a plurality of reset elastic bands 217 which are annularly arranged on the periphery of the embedded sphere 219, and one end of the reset elastic bands 217 far away from the embedded sphere 219 is connected with the inner wall of the rebound air bag 211. When the approaching terminal 222 moves toward the fixed terminal 220 and contacts the fixed terminal 220, the malfunction alerting lamp 209 is triggered to be turned on simultaneously with the buzzer 210. After the trigger unit which synchronously rotates along with the carrying roller assembly is separated from the deflected material, under the elastic pull of the reset elastic belt 217, the rebound airbag 211 can rebound rapidly to recover the initial form and can be put into the operation for sensing and monitoring the material running track again, in the process of rebound of the rebound airbag 211 to recover the initial form, the gas originally injected into the thimble groove is pumped back into the inner cavity of the rebound airbag 211 again, after the air pressure in the thimble groove is reduced, the pressing thimble 214 is retracted into the thimble groove, during the process, when the trigger elastic sheet 215 is not contacted with the trigger negative sheet 216 any more, the prompt lamp 204 is extinguished, so that the trigger unit with the sensing and monitoring function in the offset sensing piece can realize repeated triggering. When the trigger unit is used for a long time, the rebound airbag 211 leaks air due to aging caused by long-term extrusion, the air pressure in the rebound airbag 211 is equal to the air pressure of balance air 223 filled in the air cavity chamber, the air pressure in the rebound airbag 211 starts to gradually decrease and is smaller than the air pressure of the balance air 223, at this time, when the upper seat 205 is retracted to the inside of the processing tank by the jacking of the material deflected and extrudes the rebound airbag 211, the air injected into the thimble tank is reduced, the air pressure in the thimble tank is difficult to drive the pressure thimble 214 to push and bend the trigger elastic sheet 215, so that the trigger elastic sheet 215 is contacted with the trigger negative sheet 216 to trigger the prompt lamp 204 to open, the trigger unit fails, then, under the action of 233 air pressure, the approaching terminal 222 gradually moves towards the direction of the fixed terminal 220 and contacts with the fixed terminal 220, the fault alarm lamp 209 is triggered to open simultaneously with the buzzer 210 after the approaching terminal 222 contacts with the fixed terminal 220, the buzzer 210 sends alarm sound to remind the worker that the trigger unit fails, and the worker can conveniently search the working unit to find out the failure by the on the fast alarm lamp 209.
Claims (9)
1. The utility model provides a merge tile processing area rolling system that rectifies which characterized in that: the automatic rolling machine comprises a support frame body (1), wherein a rolling machine (3) is connected to the support frame body (1), a plurality of groups of carrying roller assemblies are uniformly arranged in an inner cavity of the support frame body (1), and a driving piece is further arranged on the support frame body (1);
the conveying roller assembly comprises a conveying roller (201) rotatably connected in the inner cavity of the support frame body (1), and a plurality of offset sensing pieces which are annularly arranged on the periphery of the axis of the conveying roller (201) and can slide relative to the conveying roller (201) are uniformly arranged on the side walls of the left end and the right end of the conveying roller (201);
the driving piece is used for driving the TPO waterproof sheet material placed on the surface of the carrying roller assembly to move to the winding machine (3);
The space between the offset induction pieces arranged on the side walls at the left end and the right end of the carrying roller (201) in the carrying roller assembly can be adjusted according to the width of the carried material, and the offset induction pieces can carry out induction monitoring on the running track of the material in the process that the material is moved to the winding machine (3) by the driving piece.
2. The fused tile processing belt deviation rectifying and winding system according to claim 1, wherein: the offset sensing piece comprises a built-in base (202), wherein the top surface of the built-in base (202) is respectively provided with a processing groove, an adjusting screw hole and an indicating groove, the indicating groove is internally connected with a prompting lamp (204), and a stimulating unit is arranged in the processing groove;
A matching cavity is further arranged below the treatment tank in the built-in base (202), a trigger bottom plate (216) is connected to the bottom wall of the matching cavity, and a trigger elastic sheet (215) above the trigger bottom plate (216) is connected to the side wall of the matching cavity;
The screw is adjusted to screw internal thread connection has positioning stud (203), positioning stud (203) top is equipped with the screw groove that can supply screw tool bit to insert wherein, positioning stud (203) bottom is equipped with chamfer portion (207), the front and back side of built-in base (202) all begins to have the bayonet socket that is linked together with adjusting the screw, and the one end that the bayonet socket was kept away from adjusting the screw runs through built-in base (202) lateral wall, the slip is inserted in the bayonet socket and is equipped with grip post (206), grip post (206) are close to the one end of adjusting the screw and are equipped with circular arc end (208) that cooperate work with chamfer portion (207), be connected with on the one end that circular arc end (208) were kept away from to grip post (206) has elastic slipmat.
3. The fused tile processing belt deviation correcting and winding system according to claim 2, wherein: the side walls of the left end and the right end of the carrying roller (201) are provided with adjusting straight grooves corresponding to the positions of each group of offset sensing parts, and each built-in base (202) is respectively and slidably connected in the corresponding adjusting straight groove.
4. The fused tile processing belt deviation correcting and winding system according to claim 3, wherein: the upper surface of the built-in base (202) is an upward-protruding arc surface, and the curvature of the arc surface is equal to the curvature of the outer circumferential surface of the built-in base (202).
5. The fused tile processing belt deviation correcting and winding system according to claim 2, wherein: the excitation unit comprises an upper base body (205) and a lower base body which are matched with the processing groove, wherein the upper base body (205) is made of transparent materials, a containing cavity is formed in the upper base body (205), a fault alarm lamp (209) is connected to the top wall of the containing cavity, a buzzer (210) is connected to the containing cavity, and a sound outlet hole communicated with the containing cavity is formed in the top of the upper base body (205);
The bottom of the lower seat body is connected with an annular magnetic block A (213), the bottom of the annular magnetic block A (213) is magnetically adsorbed with an annular magnetic block B (218) with the bottom end connected with the bottom wall of the treatment tank, the upper seat body (205) and the lower seat body are movably inserted into the treatment tank, and when the annular magnetic block A (213) is magnetically adsorbed on the end part of the annular magnetic block B (218), the top end of the upper seat body (205) extends out of the opening at the top end of the treatment tank;
The lower seat body is also penetrated and provided with a thimble groove, the thimble groove is internally and hermetically connected with a pressing thimble (214), the lower seat body is internally provided with a limit groove communicated with the thimble groove, and the limit groove is internally and slidably connected with a limit slide block (212) connected with the side wall of the pressing thimble (214);
a rebound airbag (211) is connected between the upper seat body (205) and the lower seat body, a reserved hole is formed in the bottom end of the rebound airbag (211), one end ejector pin grooves of the reserved hole are communicated, and the other end of the reserved hole is communicated with the inner cavity of the rebound airbag (211).
6. The fused tile processing belt deviation correcting and winding system according to claim 5, wherein: the bottom ends of the pressing ejector pins (214) respectively penetrate through the inner cavities of the annular magnetic block A (213) and the annular magnetic block B (218) and penetrate into the matching cavity, and the pressing ejector pins (214) are positioned above the triggering elastic pieces (215).
7. The fused tile processing belt deviation correcting and winding system according to claim 5, wherein: the inside of the rebound airbag (211) is also provided with an embedded sphere (219), the embedded sphere (219) is provided with an air cavity chamber communicated with the inner cavity of the rebound airbag (211), the inside of one end of the opening of the air cavity chamber is connected with a fixed terminal (220), the air cavity chamber is connected with a passive air plug (221) in a sealing sliding manner, and one end of the passive air plug (221) close to the opening of the air cavity chamber is connected with an approaching terminal (222) which works in a matched manner with the fixed terminal (220);
The air cavity is also filled with balance gas (223), and a passive air plug (221) is arranged between the balance gas (223) and the approaching terminal (222);
The middle part of the outer wall of the passive air plug (221) is also uniformly connected with a plurality of reset elastic belts (217) which are annularly arranged on the periphery of the embedded sphere (219), and one end of the reset elastic belt (217) which is far away from the embedded sphere (219) is connected with the inner wall of the rebound air bag (211).
8. The fused tile processing belt deviation rectifying and winding system according to claim 7, wherein: when the approaching terminal (222) moves towards the direction of the fixed terminal (220) and contacts with the fixed terminal (220), the fault alarm lamp (209) and the buzzer (210) are triggered to be simultaneously started.
9. The fused tile processing belt deviation rectifying and winding system according to claim 1, wherein: the driving piece comprises two lifting seats (6), two rotating shafts are symmetrically connected between the lifting seats (6), a synchronous pulley (5) is sleeved and fixed on the periphery of each rotating shaft, synchronous toothed belts (7) are sleeved on the peripheries of the synchronous pulleys (5) in a common mode, an electric push rod (4) is connected to the lifting seats (6), a base connected with the side wall of the supporting frame body (1) is connected to one end, far away from the lifting seats (6), of the electric push rod (4), an 8 is connected to the side wall of one lifting seat (6), and an output shaft of the 8 penetrates through the lifting seat (6) and is connected with the end portion of one rotating shaft;
the support frame body (1) is located between two lifting seats (6), lifting grooves matched with the rotating shafts are vertically formed in the positions, corresponding to the positions of the rotating shafts, of the side walls of the support frame body (1), and one end, far away from the connected synchronous belt wheels (5), of the rotating shafts penetrates through the lifting grooves and is connected with the corresponding lifting seat (6).
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| CN202410290243.7A CN117902379B (en) | 2024-03-14 | 2024-03-14 | Fusion tile processing belt deviation rectifying and winding system |
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| CN202410290243.7A CN117902379B (en) | 2024-03-14 | 2024-03-14 | Fusion tile processing belt deviation rectifying and winding system |
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| CN117902379B CN117902379B (en) | 2024-05-24 |
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|---|---|
| CN117902379B (en) | 2024-05-24 |
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