CN101927592A - Sheet heat polyunit with real-time temperature control function - Google Patents
Sheet heat polyunit with real-time temperature control function Download PDFInfo
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- CN101927592A CN101927592A CN2009101506289A CN200910150628A CN101927592A CN 101927592 A CN101927592 A CN 101927592A CN 2009101506289 A CN2009101506289 A CN 2009101506289A CN 200910150628 A CN200910150628 A CN 200910150628A CN 101927592 A CN101927592 A CN 101927592A
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Abstract
The invention relates to a sheet heat polyunit with real-time temperature control function, which comprises a first long roller, a second long roller, a first long metal sheet, a second long metal sheet, a first electric heating box, a second electric heating box, a contact sensor and a controller. By using the small and thin long metal sheets, the long rollers have the characteristic of quick temperature change; and by matching with the controller and the contact sensor used for detecting the surface temperature of the long rollers, the sheet heat polyunit can achieve the effects of controlling temperature in real time, realizing more stable working temperature and further improving plastic package (hot press) quality.
Description
Technical field
The present invention relates to a kind of thermal-superposition device, relate in particular to the flake thermal-superposition device that two thermoplasticity glued membrane thin slices and the file that coats are wherein carried out the hot pressing action with real-time temperature control function.
Background technology
In the daily life, flake thermal-superposition device, the plastic packaging machine that promptly is commonly called as often is used to form, as the protection of paper such as file or photo.The user utilizes two thermoplasticity glued membrane thin slices that file is overlayed on wherein, the glued membrane thin slice is sent into carried out hot pressing (plastic packaging that promptly is commonly called as) action in the plastic packaging machine again, so that form the protection glued membrane at paper surface, reaches the effect of protected file.
See also Fig. 1, it is the structural representation of existing flake thermal-superposition device.Flake thermal-superposition device 1 comprises annealing device 10, transmission press fit device 11 and transmits passage 12, and annealing device 10 comprises heater 101 and electrothermal plate 102.Wherein heater 101 coats the circumferential surface of transmission press fit devices 11, and with transmission press fit device 11 at a distance of one at interval.
When the file (not being shown among the figure) that all is coated with thermoplasticity glued membrane thin slice up and down entered flake thermal-superposition device 1 by the inlet 121 that transmits passage 12, transmission press fit device 11 entered file feed and transmits in the passage 12.At this moment, electrothermal plate 102 in the annealing device 10 converts electrical energy into heat energy, and by heater 101 heat energy is evenly distributed, by airborne heat conduction the temperature of transmission press fit device 11 is risen again, and 11 pairs of transmission press fit devices that absorb heat energy transmit the file of advancing in the passage 12 and carry out the action of hot pressing, wherein the thermoplasticity glued membrane thin slice in transmitting passage 12 softens because of being heated, via the transmission pressing of transmission press fit device 11, file is fixed between the two thermoplasticity glued membrane thin slices again.
If will promote the plastic packaging quality, the user needs earlier according to the thickness of desiring the plastic packaging file, flake thermal-superposition device 1 is adjusted to corresponding hot pressing temperature, but because the thickness of heater 101 is blocked up, make that its heat energy distribution is of long duration, and it is too slow to cause transmission press fit device 11 temperature to rise, and the user must wait for by elapsed time, thereby causes the inconvenience in the use.Therefore, the thickness that reduces heater 101 can improve the speed that transmission press fit device 11 temperature rise, and patent No. 484589 bulletin in Taiwan is a bright example.
See also Fig. 2, it announces the structural representation of the plastic packaging machine that is proposed for No. 484589 for the Taiwan patent, heat conduction casket 22 (being heater) ladle cover is in the outer rim of cylinder 21 (being the transmission press fit device), and heating element 23 is installed in the heat conduction casket 22 and heat conduction casket 22 is given in heat transfer, the more flat thin heat conduction casket 22 of this patent utilization, to cylinder 21 heating of institute's ladle cover, make cylinder 21 be warming up to operating temperature apace apace.Yet the plastic packaging machine 2 of minimizing heat conduction casket 22 thickness has the too fast shortcoming of heat energy loss, causes the operating temperature instability of cylinder 21, and causes the not good of plastic packaging quality.In addition, the coating scope of heat conduction casket 22 ladle cover cylinders 21 outer rims is big, makes that the volume of heat conduction casket 22 is excessive, has increased the cost of plastic packaging machine 2.
Summary of the invention
The technical problem that the present invention mainly solves is at the prior art above shortcomings, to provide a kind of plastic packaging quality high and lower-cost flake thermal-superposition device with real-time temperature control function.
The technical solution adopted for the present invention to solve the technical problems provides a kind of flake thermal-superposition device with real-time temperature control function, and in order to hot pressing two thin slices, this flake thermal-superposition device comprises:
The first microscler roller has first roller surface;
The second microscler roller, has second roller surface, wherein this first roller surface contacts with this second roller surface, and the direction of rotation of the rotation direction of this first microscler roller and this second microscler roller, passes this thin slice between this first and second microscler roller in order to pressing;
The first elongated metal thin slice, be arranged at this first microscler roller a side and with this first microscler roller surface at a distance of one first at interval, in order to provide heat energy to this first microscler roller;
The first electric heating casket contacts this first elongated metal thin slice, in order to provide heat energy to this first elongated metal thin slice;
The second elongated metal thin slice, be arranged at this second microscler roller a side and with this second microscler roller surface at a distance of one second at interval, in order to provide heat energy to this second microscler roller;
The second electric heating casket contacts this second elongated metal thin slice, in order to provide heat energy to this second elongated metal thin slice;
Touch sensor contacts this first roller surface of this first microscler roller, in order to detect the temperature of this first roller surface; And
Controller is connected in this touch sensor, this first electric heating casket and this second electric heating casket, in order to control the temperature of this first and second roller surface.
Described flake thermal-superposition device also comprises elastomer, in order to this touch sensor to be set thereon, contacts this first roller surface and replace this touch sensor.
Described flake thermal-superposition device also comprises support component, in order to support this elastomer.
This support component is made by the low heat conductivity material.
This first electric heating casket coats this first elongated metal thin slice, and this second electric heating casket coats this second elongated metal thin slice.
The thin thickness and the volume of employed first and second elongated metal thin slice of flake thermal-superposition device that the present invention has real-time temperature control function is little, therefore can reduce cost and make the temperature of first and second roller surface to rise rapidly or to descend, the control compensating action that cooperates controller again, make the present invention have timely temperature controlled effect and under stable state of temperature, operate, and then improved the quality of plastic packaging (hot pressing).
Description of drawings
Fig. 1 is the structural representation of existing flake thermal-superposition device;
Fig. 2 announces the structural representation of the plastic packaging machine that is proposed for No. 484589 for the Taiwan patent;
Fig. 3 has the surface structure schematic diagram of the flake thermal-superposition device preferred embodiment of real-time temperature control function for the present invention;
Fig. 4 has the surface structure side view of the flake thermal-superposition device preferred embodiment of real-time temperature control function for the present invention;
Fig. 5 has the temperature control calcspar of the flake thermal-superposition device preferred embodiment of real-time temperature control function for the present invention.
The specific embodiment
See also Fig. 3 and Fig. 4, Fig. 3 has the surface structure schematic diagram of the flake thermal-superposition device preferred embodiment of real-time temperature control function for the present invention, and Fig. 4 has the surface structure side view of the flake thermal-superposition device preferred embodiment of real-time temperature control function for the present invention.Flake thermal-superposition device 3 comprises the first microscler roller 30 with first roller surface 301, the second microscler roller 31 with second roller surface 311, first and second elongated metal thin slice 32,33, first and second electric heating casket 34,35, touch sensor 36 and controller 37 (seeing also Fig. 5).
Wherein, first roller surface 301 contacts with second roller surface 311.And the first elongated metal thin slice 32 is coated by the first electric heating casket 34, and be positioned at the first microscler roller 30 a side and with first roller surface 301 at a distance of first interval D; And the second elongated metal thin slice 33 is coated by the second electric heating casket 35, and be positioned at the second microscler roller 31 a side and with second roller surface 311 at a distance of second E at interval.
The user adjusted the operating temperature of flake thermal-superposition device 3 according to the thickness of desiring the plastic packaging file before using flake thermal-superposition device 3.First and second electric heating casket 34,35 convert electrical energy into heat energy, and first and second elongated metal thin slice 32, behind the 33 reception heat energy, send heat energy to first and second microscler roller 30 by airborne heat conduction, 31, make first and second microscler roller 30, first and second roller surface 301 of 31,311 temperature rises, when first and second roller surface 301,311 when reaching operating temperature, the file (not being shown among the figure) that all is coated with thermoplasticity glued membrane thin slice up and down enters flake thermal-superposition device 3 with the I direction by the inlet 401 that transmits passage 40, first and second microscler roller 30,31 with opposite direction rotation, file feed is entered in the transmission passage 40, and first and second microscler roller 30 is passed in pressing, thin slice between 31.
Because first and second elongated metal thin slice 32,33 only lays respectively at a side of first and second microscler roller 30,31, it is not first and second roller surface 301,311 of large-scale coating, make the volume of first and second elongated metal thin slice 32,33 significantly reduce, also reduced the cost of flake thermal-superposition device 3.Certainly, have stable operating temperature for guaranteeing flake thermal-superposition device 3, the present invention utilizes FEEDBACK CONTROL to make flake thermal-superposition device 3 have stable operating temperature.
Next illustrate that the present invention has the temperature controlled preferred embodiment of flake thermal-superposition device of real-time temperature control function.Please consult Fig. 5 simultaneously, Fig. 5 has the temperature control calcspar of the flake thermal-superposition device preferred embodiment of real-time temperature control function for the present invention.In this preferred embodiment, the present invention is provided with a touch sensor 36 and makes it contact first roller surface 301, so that detect the temperature of first roller surface 301, and the temperature information that measures is sent to the controller 37 that is connected with touch sensor 36 and first and second electric heating casket 34,35.Then, controller 37 is this temperature information and predetermined operating temperature relatively, be lower than predetermined operating temperature as this temperature information, then the electric energy that affords redress of controller 37 is given first and second electric heating casket 34,35, first and second electric heating casket 34,35 convert electrical energy into heat energy again, make first and second roller surface 301,311 temperature returns to predetermined operating temperature apace, be higher than predetermined operating temperature as this temperature information, then controller 37 stops to provide electric energy to first and second electric heating casket 34,35, make first and second roller surface 301,311 temperature is reduced to predetermined operating temperature apace.
In addition, flake thermal-superposition device 3 also comprises an elastomer 38 and a support component 39, and wherein, support component 39 is in order to support elastic body 38, and touch sensor 36 then is arranged on the elastomer 38.Elastomer 38 is replaced touch sensor 36 makes touch sensor 36 contact first roller surface 301, avoiding, and cause touch sensor 36 can't contact the defective of first roller surface 301 because of support component 39 produces material aging and deformation under permanent the use.In addition, support component 39 is made by the low heat conductivity material, and this low Heat Conduction Material makes heat energy be difficult to conduct to other element, thereby can avoid unnecessary heat energy to run off, and this low Heat Conduction Material is chosen as pellosil material, pottery material etc.
According to above description as can be known, the thin thickness and the volume of employed first and second elongated metal thin slice 32,33 of flake thermal-superposition device of the present invention are little, therefore can reduce cost and make the temperature of first and second roller surface 301,311 to rise rapidly or to descend, the control compensating action that cooperates controller 37 again, make flake thermal-superposition device of the present invention have timely temperature controlled effect and under stable state of temperature, operate, and then promoted the quality of plastic packaging.
The above is preferred embodiment of the present invention only, is not in order to limiting practical range of the present invention, and therefore all other do not break away from the equivalence of being finished under the disclosed spirit and change or modify, and all should be included in protection scope of the present invention.
Claims (5)
1. flake thermal-superposition device with real-time temperature control function, is characterized in that this flake thermal-superposition device comprises in order to hot pressing two thin slices:
The first microscler roller has first roller surface;
The second microscler roller, has second roller surface, wherein this first roller surface contacts with this second roller surface, and the direction of rotation of the rotation direction of this first microscler roller and this second microscler roller, passes this thin slice between this first and second microscler roller in order to pressing;
The first elongated metal thin slice, be arranged at this first microscler roller a side and with this first microscler roller surface at a distance of one first at interval, in order to provide heat energy to this first microscler roller;
The first electric heating casket contacts this first elongated metal thin slice, in order to provide heat energy to this first elongated metal thin slice;
The second elongated metal thin slice, be arranged at this second microscler roller a side and with this second microscler roller surface at a distance of one second at interval, in order to provide heat energy to this second microscler roller;
The second electric heating casket contacts this second elongated metal thin slice, in order to provide heat energy to this second elongated metal thin slice;
Touch sensor contacts this first roller surface of this first microscler roller, in order to detect the temperature of this first roller surface; And
Controller is connected in this touch sensor, this first electric heating casket and this second electric heating casket, in order to control the temperature of this first and second roller surface.
2. the flake thermal-superposition device with real-time temperature control function as claimed in claim 1 is characterized in that: also comprise elastomer, in order to this touch sensor to be set thereon, contact this first roller surface and replace this touch sensor.
3. the flake thermal-superposition device with real-time temperature control function as claimed in claim 2 is characterized in that: also comprise support component, in order to support this elastomer.
4. the flake thermal-superposition device with real-time temperature control function as claimed in claim 3 is characterized in that: this support component is made by the low heat conductivity material.
5. the flake thermal-superposition device with real-time temperature control function as claimed in claim 1 is characterized in that: this first electric heating casket coats this first elongated metal thin slice, and this second electric heating casket coats this second elongated metal thin slice.
Priority Applications (1)
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CN2009101506289A CN101927592A (en) | 2009-06-19 | 2009-06-19 | Sheet heat polyunit with real-time temperature control function |
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CN2009101506289A CN101927592A (en) | 2009-06-19 | 2009-06-19 | Sheet heat polyunit with real-time temperature control function |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102139775A (en) * | 2011-03-04 | 2011-08-03 | 南通富士通微电子股份有限公司 | Preheating system for plastic packaging product |
CN106393936A (en) * | 2016-08-31 | 2017-02-15 | 张家港市弘扬石化设备有限公司 | Multifunctional production line of metal clad plate and processing technology of metal clad plate |
CN106793523A (en) * | 2017-02-08 | 2017-05-31 | 广州中志橡胶科技有限公司 | A kind of pressing wheel |
-
2009
- 2009-06-19 CN CN2009101506289A patent/CN101927592A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102139775A (en) * | 2011-03-04 | 2011-08-03 | 南通富士通微电子股份有限公司 | Preheating system for plastic packaging product |
CN106393936A (en) * | 2016-08-31 | 2017-02-15 | 张家港市弘扬石化设备有限公司 | Multifunctional production line of metal clad plate and processing technology of metal clad plate |
CN106393936B (en) * | 2016-08-31 | 2018-06-08 | 张家港市弘扬石化设备有限公司 | The multifunctional production line and its production technology of a kind of composite metal plate |
CN106793523A (en) * | 2017-02-08 | 2017-05-31 | 广州中志橡胶科技有限公司 | A kind of pressing wheel |
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Application publication date: 20101229 |