Disclosure of Invention
The invention provides a curing chamber for producing a laser positioning film, which can solve the above-mentioned problems.
In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a radium-shine locating film production curing chamber, is including the curing case that is used for solidifying radium-shine locating film, the operation mouth that is convenient for radium-shine locating film to put things in good order and take out is seted up to curing case front end, the incasement of curing is provided with the clamping device who is used for the radium-shine locating film reel of centre gripping, the incasement of curing is provided with heating device.
Heating device includes a plurality of hot gas pipes that set up at the curing incasement portion, the hot gas pipe intercommunication has the intake pipe that runs through the curing case, and the intake pipe communicates through first control valve and outside hot gas source, even intercommunication has a plurality of gas shower nozzles on the hot gas pipe, be provided with the blast pipe with the inside intercommunication of curing incasement portion on the curing case, and the blast pipe is linked together through second control valve and outside storage jar.
Clamping device includes the axis of rotation of installing in the curing incasement through the bearing, the axis of rotation is connected with the current motor that has just reverse function, the rolling disc is all installed at both ends about the axis of rotation, the left and right sides wall in the curing incasement has all been seted up and has been placed the circular slot, the rolling disc is located places the circular slot, the bar hole has evenly been seted up to circumference on the rolling disc, and the length in bar hole distributes along the radius direction of rolling disc, it is provided with the mount pad to slide in the bar hole, rotate on the mount pad and install the location centre gripping axle, control and be provided with the centre gripping dabber between two location centre gripping axles that distribute.
As a preferable technical scheme of the invention, one end of the positioning clamping shaft facing the outside of the curing box is provided with a matching belt wheel, two ends of the rotating disc and along the length direction of the strip-shaped hole are provided with matching belt wheels through rotating shafts, the three matching belt wheels are connected through belts and are not in the same straight line, the rotating shaft positioned on the outer edge of the rotating disc is provided with a transmission gear, and the inner side wall of the placing circular groove is provided with an inner gear ring meshed with the transmission gear.
A plurality of tensioning grooves are uniformly formed in the circumferential direction on the rotating disc and towards one side of the rotating shaft, the positions of the tensioning grooves correspond to the positions of the strip-shaped holes one by one, auxiliary blocks are arranged in the tensioning grooves in a sliding mode, the rotating shaft is arranged on the auxiliary blocks and is close to one side of the rotating shaft, and tensioning springs are connected between the auxiliary blocks and the tensioning grooves.
As a preferred technical scheme of the invention, control discs are rotatably sleeved at both ends of the rotating shaft, the control discs are positioned between the two rotating discs, a plurality of arc-shaped grooves are uniformly formed in the control discs in the circumferential direction, the positions of the arc-shaped grooves correspond to the positions of the positioning clamping shafts one by one, and one end of the positioning clamping shaft, which faces the middle part of the rotating shaft, penetrates through the arc-shaped grooves; and an auxiliary circular ring is arranged on the positioning clamping shaft through a bearing and is in sliding fit with the arc-shaped groove.
According to a preferred technical scheme, a limiting chute is formed in the outer side wall of the control panel, an L-shaped limiting block is arranged in the limiting chute in a sliding mode, a homing spring is connected between the limiting chute and the L-shaped limiting block, a plurality of matching grooves are uniformly formed in the outer side wall of the rotating disc in the circumferential direction and matched with the horizontal section of the L-shaped limiting block, a limiting groove matched with the horizontal section of the L-shaped limiting block in a clamping mode is formed in the inner side wall of the placing circular groove, an electromagnetic block is arranged in the limiting groove, and an iron sheet is arranged at one end, facing the limiting groove, of the L-shaped limiting block.
According to a preferable technical scheme, the left side and the right side of the operation port are provided with the batching plates, one opposite side of each batching plate is provided with the supporting guide frame, the supporting guide frame is provided with the U-shaped guide rail, the guide plate is arranged in the U-shaped guide rail in a sliding mode, one end, facing the inside of the curing box, of the guide plate is provided with the limiting strip, one end, facing the inside of the curing box, of the guide plate and one side, facing the rotating disc, of the guide plate is provided with the L-shaped plate, and the outer side walls of the two ends of the clamping mandrel are provided with annular grooves in sliding fit with the upper ends of the guide plates.
According to the preferred technical scheme, one end, facing the clamping mandrel, of the positioning clamping shaft is provided with a square groove, a square matching strip is arranged in the square groove in a sliding mode, a clamping spring is connected between the square matching strip and the square groove, one end, far away from the clamping spring, of the square matching strip is provided with a clamping circular table, the inclined wall of the clamping circular table faces the clamping mandrel, the inclined wall of the clamping circular table is provided with a rough surface structure, the inclined wall of the clamping circular table is in interference fit with the vertical section of the L-shaped plate, and the end portion of the clamping mandrel is provided with a positioning hole matched with the clamping circular table.
As a preferred technical scheme of the invention, a plurality of through positioning jacks are uniformly arranged on the U-shaped guide rail along the length direction of the U-shaped guide rail, a plurality of matching holes are uniformly arranged on the material guide plate along the length direction of the material guide plate, the distance between two adjacent matching holes is the same as the distance between two adjacent positioning jacks, and the matching holes on the material guide plate are in splicing fit with the positioning jacks on the U-shaped guide rail through positioning inserting strips.
According to a preferable technical scheme, one end, facing the operation opening, of the supporting guide frame is rotatably installed on the batching plate through a pin shaft, one end, far away from the operation opening, of the supporting guide frame is provided with a positioning round hole, a locking clamping strip is slidably arranged in the positioning round hole, three locking holes which are distributed in an arc shape and take the pin shaft as the center are formed in the batching plate, far away from the operation opening, and the locking holes are in inserting fit with the locking clamping strip.
As a preferable technical scheme of the invention, two partition plates which are distributed up and down are arranged in the operation port in a sliding mode, the partition plates are in sealing fit with the operation port, and the partition plates are transparent glass which is convenient for observation.
The invention has the beneficial effects that: 1. the distance between the clamping mandrels can be adjusted through the rotating disc and the strip-shaped holes on the rotating disc, so that the distance between the clamping mandrels can be adaptively adjusted according to the circumferential diameter of the laser positioning film; meanwhile, the laser positioning film on the clamping mandrel can rotate along with the rotation of the rotating disc and the rotation of the positioning clamping shaft, so that the laser positioning film in the curing box is uniformly heated, the curing degree of the laser positioning film is the same, and the condition that the laser positioning film is not cured uniformly is avoided.
2. According to the invention, the L-shaped plate is in interference fit with the inclined wall of the clamping circular truncated cone, and the conventional motor with the forward and reverse rotation functions drives the rotating shaft to rotate clockwise and anticlockwise, so that the automatic clamping and automatic separation functions of the clamping mandrel and the two clamping circular truncated cones can be realized, and thus, the automatic feeding and automatic blanking of the laser positioning film can be realized.
3. According to the invention, the laser positioning film can be automatically moved out of or into the curing box by adjusting the inclination angle of the supporting guide frame, the laser positioning film can be automatically fed when the supporting guide frame inclines downwards towards the curing box, and the laser positioning film can be automatically discharged when the supporting guide frame inclines upwards towards the curing box.
Detailed Description
Embodiments of the present invention will be described below with reference to the drawings. In this process, the widths of lines or the sizes of components in the drawings may be exaggerated for clarity and convenience of description.
The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the convention. Therefore, these terms are defined based on the entire contents of the present specification.
With reference to fig. 1 and 3, a laser positioning film production curing chamber comprises a curing box 1 for curing a laser positioning film, wherein an operation port 2 convenient for stacking and taking out the laser positioning film is formed in the front end of the curing box 1, a clamping device 3 used for clamping a laser positioning film reel is arranged in the curing box 1, and a heating device 4 is arranged in the curing box 1.
Referring to fig. 1, two partition plates 21 distributed up and down are slidably disposed in the operation opening 2, and the partition plates 21 are in sealing fit with the operation opening 2, and the partition plates 21 are transparent glass for easy observation.
During specific work, two division boards 21 upwards, move down so that open curing box 1's operation mouth 2 respectively about promoting, then with a plurality of radium-shine locating film reels of treating processing centre gripping on the clamping device 3 of curing box 1, then pulling division board 21 so that close operation mouth 2, division board 21 and operation mouth 2 sealed cooperation simultaneously, so that ensure that curing box 1 is in a sealed environment, later heat the curing through heating device 4 radium-shine locating film in curing box 1, open operation mouth 2 after finishing treating processing, take out radium-shine locating film.
Referring to fig. 1 and 3, the heating device 4 includes a plurality of hot air pipes 41 arranged inside the curing box 1, the hot air pipes 41 are communicated with an air inlet pipe 42 penetrating through the curing box 1, the air inlet pipe 42 is communicated with an external hot air source through a first control valve 43, the hot air pipes 41 are uniformly communicated with a plurality of air nozzles 44, the curing box 1 is provided with an air outlet pipe 45 communicated with the inside of the curing box 1, and the air outlet pipe 45 is communicated with an external storage tank through a second control valve 46.
During specific work, the first control valve 43 is opened, so that an external hot gas source is conveyed into the hot gas pipe 41 through the gas inlet pipe 42 and then sprayed into the curing box 1 through the gas spray head 44, so that curing treatment can be performed on the laser positioning film in the curing box 1, and the second control valve 46 is controlled, so that gas in the curing box 1 is collected into an external storage tank through the gas exhaust pipe 45, and then the collected gas is purified.
Referring to fig. 3, 5 and 7, clamping device 3 includes installs the axis of rotation 31 in curing case 1 through the bearing, axis of rotation 31 is connected with the current motor that has just reversing function, the rolling disc 32 is all installed at both ends about axis of rotation 31, the left and right sides wall in curing case 1 has all been seted up and has been placed circular slot 11, rolling disc 32 is located and places circular slot 11, a plurality of bar holes 321 have evenly been seted up to circumference on the rolling disc 32, and the length of bar hole 321 distributes along the radius direction of rolling disc 32, it is provided with mount pad 322 to slide in the bar hole 321, rotate on the mount pad 322 and install location centre gripping axle 323, control and be provided with centre gripping dabber 324 between two location centre gripping axles 323 that distribute, centre gripping dabber 324 is used for the radium-shine locating film reel of suit.
During specific work, firstly, the distance between the clamping mandrels 324 is adaptively adjusted according to the circumferential diameter of the laser positioning film, then the laser positioning film reel is sleeved on the clamping mandrels 324, the clamping mandrels 324 are clamped between the two positioning clamping shafts 323, after the clamping of the laser positioning film is completed, the existing motor drives the rotating shaft 31 to rotate, and then the laser positioning film reel sleeved on the clamping mandrels 324 rotates along with the rotating shaft 31, so that the laser positioning film in the curing box 1 can be uniformly heated, and the curing degree of the laser positioning film is further ensured to be the same.
Referring to fig. 3, 4, 5 and 9, both ends of the rotating shaft 31 are rotatably sleeved with control discs 33, the control discs 33 are located between the two rotating discs 32, a plurality of arc-shaped grooves 331 are uniformly formed in the control discs 33 in the circumferential direction, the positions of the arc-shaped grooves 331 correspond to the positions of the positioning clamping shafts 323 one by one, and one end of the positioning clamping shaft 323 facing the middle of the rotating shaft 31 penetrates through the arc-shaped grooves 331; an auxiliary circular ring 3231 is mounted on the positioning clamping shaft 323 through a bearing, and the auxiliary circular ring 3231 is in sliding fit with the arc-shaped groove 331.
Spacing spout 332 has been seted up on the last lateral wall of control panel 33, it is provided with L type stopper 333 to slide in spacing spout 332, and is connected with playback spring between spacing spout 332 and the L type stopper 333, a plurality of cooperation grooves 328 have evenly been seted up to rolling disc 32 lateral wall circumference, and cooperation groove 328 and the cooperation of L type stopper 333 horizontal segment, place and set up on the circular slot 11 inside wall with L type stopper 333 horizontal segment complex spacing groove 112, be provided with the electromagnetic block in the spacing groove 112, L type stopper 333 sets up iron sheet (not shown in the figure) towards the one end of spacing groove 112.
During specific work, when the distance between the clamping mandrels 324 needs to be adjusted, the electromagnetic block is electrified, the electromagnetic block adsorbs and pulls the iron sheet, so that the horizontal section of the L-shaped limiting block 333 is separated from the matching groove 328 on the rotating disc 32 in a sliding manner, and is movably clamped into the limiting groove 112 on the inner side wall of the circular groove 11, so that the control disc 33 does not rotate when the rotating disc 32 is driven by the rotating shaft 31 to rotate, the positioning clamping shaft 323 realizes that the mounting seat 322 moves in the strip-shaped hole 321 through the matching of the arc-shaped groove 331, and the distance between the clamping mandrels 324 can be adjusted; after the adjustment is completed, under the condition that the electromagnetic block is powered off and the reset spring is pulled, the horizontal section of the L-shaped limiting block 333 slides to be separated from the limiting groove 112 and is movably clamped into the matching groove 328 on the outer side wall of the rotating disc 32, so that the rotating disc 32 can drive the control disc 33 to synchronously rotate when rotating, and the mounting seat 322 is limited to move in the strip-shaped hole 321 on the rotating disc 32; according to the positioning clamping shaft 323, the auxiliary circular ring 3231 is in sliding fit with the arc-shaped groove 331, so that friction force generated when the positioning clamping shaft 323 is directly contacted with the arc-shaped groove 331 is reduced, and the positioning clamping shaft 323 can slide in the arc-shaped groove 331 more smoothly.
Referring to fig. 3, 5, 7 and 8, a fitting belt wheel 325 is installed at one end of the positioning clamping shaft 323 facing the outside of the curing box 1, fitting belt wheels 325 are installed at two ends of the rotating disc 32 along the length direction of the strip-shaped hole 321 through rotating shafts, the three fitting belt wheels 325 are connected through a belt 326, the three fitting belt wheels 325 are not on the same straight line, a transmission gear 327 is installed on the rotating shaft located at the outer edge of the rotating disc 32, and an inner gear ring 111 engaged with the transmission gear 327 is arranged on the inner side wall of the placing circular groove 11.
A plurality of tensioning grooves 3251 are uniformly formed in the circumferential direction of one side, facing the rotating shaft 31, of the rotating disc 32, the positions of the tensioning grooves 3251 correspond to the positions of the strip-shaped holes 321 one by one, auxiliary blocks 3252 are arranged in the tensioning grooves 3251 in a sliding mode, the rotating shaft, close to one side of the rotating shaft 31, is installed on the auxiliary blocks 3252, and tensioning springs 3253 are connected between the auxiliary blocks 3252 and the tensioning grooves 3251.
When the laser positioning film specifically works, when the rotating disc 32 drives the positioning clamping shaft 323 to rotate through the mounting seat 322, the transmission gear 327 on the rotating disc 32 is meshed with the inner gear ring 111 on the inner side wall of the placing circular groove 11, so that the transmission gear 327 drives the coaxial matching belt wheel 325 to synchronously rotate, and simultaneously, the matching belt wheel 325 on the positioning clamping shaft 323 also rotates under the matching of the belt 326, so that the positioning clamping shaft 323 drives the clamping mandrel 324 to rotate, and the laser positioning film can be uniformly heated and cured; three matching belt wheels 325 are arranged at each strip-shaped hole 321, and the three matching belt wheels 325 are not on the same straight line, so that the matching belt wheels 325 on the positioning clamping shaft 323 are meshed with one position of the belt 326, the positioning clamping shaft 323 can smoothly move in the strip-shaped holes 321 through the mounting seat 322 when the distance between the clamping mandrels 324 is adjusted, and the belt 326 can be always kept in a tightened state through the matching of the tensioning spring 3253 and the auxiliary block 3252.
Referring to fig. 1, 2, 5 and 6, the left and right sides of the operation opening 2 are provided with the batching plates 5, one opposite side of each batching plate 5 is provided with a supporting guide frame 51, the supporting guide frame 51 is provided with a U-shaped guide rail 52, a material guide plate 53 is slidably arranged in the U-shaped guide rail 52, a limiting strip 54 is installed towards one end inside the curing box 1 on the material guide plate 53, the limiting strip 54 limits the clamping mandrel 324 for feeding, one side of the limiting strip 54, which faces the clamping mandrel 324, is inclined, an L-shaped plate 55 is arranged at one end inside the curing box 1 and one side, which faces the rotating disc 32, on the outer side wall of the two ends of the clamping mandrel 324, and annular grooves 3241 which are in sliding fit with the upper end of the material guide plate 53 are respectively arranged.
Referring to fig. 2, support the one end of leading truck 51 towards operation mouth 2 and pass through the round pin axle rotation and install on batching board 5, support the one end that leading truck 51 kept away from operation mouth 2 and seted up the location round hole, it is provided with locking card strip 512 to slide in the round hole of location, batching board 5 keeps away from operation mouth 2 and sets up three locking hole 513 that are the arc and distribute that use the round pin axle as the center, locking hole 513 is pegged graft with locking card strip 512 and is cooperated.
Referring to fig. 2 and 6, the U-shaped guide rail 52 is uniformly provided with a plurality of through positioning insertion holes 521 along the length direction thereof, the material guide plate 53 is uniformly provided with a plurality of matching holes 531 along the length direction thereof, the distance between two adjacent matching holes 531 is the same as the distance between two adjacent positioning insertion holes 521, and the matching holes 531 on the material guide plate 53 are matched with the positioning insertion holes 521 on the U-shaped guide rail 52 through the positioning insertion strips 522 in an inserting manner.
Referring to fig. 6 and 7, a square groove is formed in one end, facing the clamping mandrel 324, of the positioning clamping shaft 323, a square matching strip 3233 is arranged in the square groove in a sliding manner, a clamping spring 3234 is connected between the square matching strip 3233 and the square groove, a clamping circular truncated cone 3235 is installed at one end, away from the clamping spring 3234, of the square matching strip 3233, an inclined wall of the clamping circular truncated cone 3235 faces the clamping mandrel 324, a rough surface structure is arranged on the inclined wall of the clamping circular truncated cone 3235, the inclined wall of the clamping circular truncated cone 3235 is in interference fit with a vertical section of the L-shaped plate 55, and a positioning hole 3242 matched with the clamping circular truncated cone 3235 is formed in the end portion of the clamping mandrel 324.
During the specific operation, during the blanking, the material guiding plate 53 is pushed to move towards the curing box 1 on the U-shaped guide rail 52 until the rear end of the material guiding plate 53 moves to the position below the positioning clamping shaft 323 at the foremost end of the rotating shaft 31, then the matching hole 531 on the material guiding plate 53 is matched with the positioning insertion hole 521 on the U-shaped guide rail 52 through the plurality of positioning insertion strips 522 in an inserting manner, so that the material guiding plate 53 is fixed on the U-shaped guide rail 52, then the locking clamping strip 512 is pulled out of the locking hole 513, so that the front end of the supporting guide frame 51 can rotate downwards, and then the locking clamping strip 512 is inserted into the locking hole 513 at the lowermost end in a moving manner, so that the supporting guide frame 51 is fixed on the material mixing plate 5.
When the rotating shaft 31 drives the rotating disc 32 to rotate anticlockwise, the positioning clamping shaft 323 on the rotating shaft drives the laser positioning film to rotate anticlockwise through the clamping mandrel 324, and when the inclined wall of the clamping circular table 3235 on the to-be-positioned clamping shaft 323 is abutted against the upper end of the vertical section of the L-shaped plate 55, the clamping circular table 3235 is extruded and pushed to move towards the direction of compressing the clamping spring 3234, so that the clamping circular table 3235 is not extruded and clamped with the positioning hole 3242 at the end part of the clamping mandrel 324 any more, and then the clamping mandrel 324 can smoothly fall onto the material guide plate 53 and then is moved out of the curing box 1 along the direction that the material guide plate 53 inclines downwards; the annular grooves 3241 at the left end and the right end of the clamping mandrel 324 are matched with the upper end of the material guide plate 53, so that the problem that the clamping mandrel 324 is separated from the material guide plate 53 due to deflection when the clamping mandrel 324 moves is solved.
When feeding, the inclination angle of the supporting guide frame 51 is adjusted, so that the material guide plate 53 inclines downwards towards the curing box 1, when the rotating shaft 31 drives the rotating disc 32 to rotate clockwise, the inclined wall of the clamping circular truncated cone 3235 abuts against the lower end of the vertical section of the L-shaped plate 55, so as to enlarge the distance between two clamping circular truncated cones 3235 which are symmetrically distributed in the left-right direction, and ensure that the clamping mandrel 324 can smoothly move between the two clamping circular truncated cones 3235, when the inclined wall of the clamping circular truncated cone 3235 crosses the vertical section of the L-shaped plate 55, the clamping circular truncated cone 3235 moves towards the positioning hole 3242 of the clamping mandrel 324 under the pushing of the clamping spring 3234 until the inclined wall of the clamping circular truncated cone 3235 tightly abuts against the positioning hole 3242, and the clamping mandrel 324 is clamped and fixed.
The invention comprises the following working steps: the first step is as follows: the distance between the clamping mandrels 324 is adjusted adaptively according to the circumferential diameter of the laser positioning film, and the function of adjusting the positions of the clamping mandrels 324 is realized mainly by the arc-shaped groove 331 of the control panel 33.
The second step: during feeding, the separating plate 21 is opened so as to move the material guide plate 53 into the curing box 1, the inclination angle of the supporting guide frame 51 is adjusted, so that the material guide plate 53 inclines downwards towards the curing box 1, so as to realize automatic feeding and clamping of the laser positioning film, after the automatic feeding and clamping, the material guide plate 53 is moved out of the curing box 1, and the separating plate 21 is closed.
The third step: an external hot gas source is conveyed into the hot gas pipe 41 through the gas inlet pipe 42 and then sprayed into the curing box 1 through the gas spray head 44, so that the laser positioning film in the curing box 1 can be cured, and the second control valve 46 is controlled to collect the gas in the curing box 1 into an external storage tank through the gas outlet pipe 45, so that the collected gas can be purified subsequently.
The fourth step: during blanking, the isolation plate 21 is opened so as to move the material guide plate 53 into the curing box 1, and the inclination angle of the supporting guide frame 51 is adjusted, so that the material guide plate 53 inclines upwards towards the curing box 1, and automatic blanking of the laser positioning film is realized.
The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.