CN101891071B - Control method of feeding paper gap and sheet thermal lamination device using the method - Google Patents

Abstract

The invention provides a control method of a paper feeding interval and a sheet thermal laminating device applying the method; the sheet thermal laminating device at least comprises an automatic paper feeding mechanism and a sheet thermal laminating mechanism, and a plurality of sensors arranged in the automatic paper feeding mechanism are applied, so that a plurality of files are fed into the sheet thermal laminating mechanism in an isometric distance arrangement mode, and the plurality of files can be cut into plastic packages with the same size after being subjected to plastic package.

Description

Control method of feeding paper gap and sheet thermal lamination device using the method

technical field

The invention relates to a paper feeding method and a device applying the method, in particular to a method for controlling the paper feeding distance and a sheet thermal lamination device using the method.

Background technique

Since the automatic paper feeding technology is becoming more and more sophisticated nowadays, it has been widely used in printers, copiers and business machines. Its main purpose is to automatically feed most documents into these machines to reduce manpower consumption.

However, with the existing automatic paper feeding mechanism, because it only needs to feed the documents into the machine, it does not need to consider whether a plurality of documents are arranged at equal distances from each other in the paper feeding path. , if the existing automatic paper feeding mechanism is directly applied to the sheet thermal lamination device, it will obviously cause difficulties in operation.

For example, please refer to FIG. 1 , which is a conceptual diagram of applying an existing automatic paper feeding mechanism to a sheet thermal lamination device. The existing automatic paper feeding mechanism 11 includes a paper picking roller 111 and a paper feeding path 112. The paper feeding path 112 is between the paper picking roller 111 and the sheet thermal lamination mechanism 12, and the paper output path 13 is located in the sheet thermal lamination mechanism. 12 outlet port. Wherein, the pick-up roller 111 is used to feed a plurality of documents 14 into the paper feeding path 112, and when a plurality of documents 14 are fed into the sheet thermal lamination mechanism 12 through the paper feeding path 112, the sheet thermal lamination mechanism 12 is Start to carry out the action of thermocompression bonding (being commonly called as plastic sealing) to multiple documents 14, and the multiple documents 16 of covering plastic sealing film 15 are sent into paper output path 13, at this moment, the multiple documents 16 of covering plastic sealing film After being cut by an automatic cutting mechanism 17 , the multiple documents 16 coated with plastic film will be cut into multiple plastic seals 18 by the automatic cutting mechanism 17 when they reach the position of the cutting line 19 .

Based on this, if the above-mentioned multiple documents 16 coated with plastic film are arranged at different pitches, the cutting line 19 will be placed in an inappropriate cutting position, resulting in the different sizes of the plastic seals 18, or even damage.

In view of this, the documents must be arranged at equal intervals in the paper feeding path in order to solve the above problems.

A kind of existing way is to utilize the pick-up roller to send different documents into the paper feeding path in turn at intervals of a certain time or a certain distance, so as to achieve equal distance control; however, this method is due to The paper-feeding roller uses friction to feed the document, which still causes the problem that the time for the document to be fed into the paper-feeding path varies. Therefore, it is obviously still difficult to achieve the purpose of making the paper-feeding distance equal.

Contents of the invention

The main technical problem to be solved by the present invention is to provide a method for controlling the paper feeding distance and a sheet thermal lamination device using the method, so that an automatic feeder in the sheet thermal lamination device The paper mechanism can arrange a plurality of documents at equal intervals, and are sequentially fed into a sheet thermal lamination mechanism in the sheet thermal lamination device.

The technical solution adopted by the present invention to solve the technical problem is to provide a method for controlling the paper feeding distance, which is used to make multiple documents be fed into a thin sheet thermal lamination by the automatic paper feeding mechanism in an arrangement of equal length. mechanism, and the automatic paper feeding mechanism has a paper-feeding roller module, a paper-feeding channel, a conveying roller module, a first sensor, and a second sensor; wherein, the paper-feeding roller module and/or the conveying roller module are used to convey the paper-feeding The plurality of documents in the channel are sequentially transported from the document inlet of the automatic document feeding mechanism to the document outlet for connecting to the sheet thermal lamination mechanism; the method at least includes the following steps :

(A). Using the paper pickup roller module to feed different documents from the document inlet into the paper feeding channel in turn, and the files are sequentially transported with the operation of the paper pickup roller module and/or the transmission roller module go ahead;

(B). Utilize the first sensor to detect the document being transported in the paper feeding channel, when the end of the document is detected by the first sensor, make the pick-up roller module and/or the transport roller module stop transporting the document documents; and

(C). Use the second sensor to detect another document that is being transported in the paper feeding channel and is located behind the document. When the front end of the other document is detected by the second sensor, the paper is picked up The roller module and/or the transmission roller module resumes the action of transmitting the document, and the other document is continuously transmitted forward with the operation of the paper pickup roller module and/or the transmission roller module; wherein, the second sensor is separated by the The equidistant distance is arranged behind the first sensor.

The method utilizes the second sensor to detect the document transported in the paper feeding path in the step (A), and when the end of the document is detected by the second sensor, the pick-up roller module starts to feed the other The document enters the paper feeding channel through the document paper inlet.

The method utilizes a third sensor to detect the document transported in the paper feeding path in the step (A), and the third sensor is located between the document feeding port and the second sensor, when the end of the document is detected by the first When detected by the three sensors, the paper pickup roller module starts to feed the other document into the paper feeding channel from the document paper inlet.

The method detects whether the plurality of documents are actually fed into the sheet thermal lamination mechanism using a fourth sensor located at the end of the paper feeding path, and counts the number of the plurality of documents fed into the sheet thermal lamination mechanism.

The present invention also provides a sheet thermal lamination device with an automatic paper feeding mechanism, which is used to make multiple documents be fed into the sheet thermal lamination mechanism through the feeding action of the automatic paper feeding mechanism in an arrangement of equal lengths ; Wherein, the automatic paper feeding mechanism includes:

a paper feeding channel, located in the automatic paper feeding mechanism, used as a transmission path for the plurality of documents;

The paper-feeding roller module is located close to the document inlet, and is used to feed the different documents in turn, so that they are sequentially transported from the document inlet into the paper feeding channel;

The conveying roller module is used to convey the plurality of documents, so that they are conveyed from the paper feeding channel to the document paper outlet; wherein, the document paper outlet is connected to the sheet thermal lamination mechanism; and

The first sensor and the second sensor are both used to detect the transmission status of the plurality of documents in the paper feeding channel; wherein the first and second sensors are arranged at a distance of the same long distance, and when the first sensor When a sensor detects the end of a document and the second sensor detects the front end of another document, the two documents will be simultaneously transported by the pick-up roller module and/or the transmission roller module in a synchronous manner, so that the A plurality of documents are kept at the same distance, and are sequentially fed into the sheet thermal lamination mechanism.

When the end of the document is detected by the second sensor, the pick-up roller module starts to feed the other document from the document inlet into the paper feeding channel.

The automatic paper feeding mechanism also includes a third sensor, located between the paper pickup roller module and the second sensor, for detecting the transmission status of the plurality of documents in the paper feeding channel; wherein, when the end of the document When detected by the third sensor, the pick-up roller module starts to feed the other document from the document feeding port into the feeding path.

When the end of the document is detected by the first sensor, the transmission roller module is stopped, so that the transmission of the document is stopped synchronously, and the other document is still continuously transported to the forward.

The transmission roller module includes a first transmission roller set and a second transmission roller set, and when the end of the document is detected by the first sensor, the first transmission roller set is stopped so that the document is synchronously stopped from transmission, And this another file still continues to be transported forward along with the operation of this second transmission roller set.

The automatic paper feeding mechanism also includes a fourth sensor, located at the end of the paper feeding path, to detect whether the plurality of documents are actually fed into the sheet thermal lamination mechanism, and to calculate the number of documents fed into the sheet thermal lamination mechanism. quantity.

The paper pickup roller module includes a paper pickup roller, a paper separation roller, and a paper separation sheet. The paper pickup roller is used to feed the plurality of documents into the paper feeding channel, and the paper separation roller and the paper separation sheet are used to provide the plurality of documents. A friction force that allows the pick roller module to feed only one document into the paper path at a time.

The present invention further provides a method for controlling the thermocompression spacing, which is used to arrange multiple documents at equal intervals, and after the thermocompression action of the sheet thermal lamination device, the automatic cutting mechanism will provide these documents A plurality of documents after thermal pressing action are cut into a plurality of plastic seals of the same size, and the sheet thermal lamination device has a paper pickup roller module, a paper feeding channel, a transmission roller module, a first sensor and a second sensor, and Thermal compression mechanism; wherein, the paper feeding channel is the transmission path of the plurality of documents, and the paper pickup roller module and/or the transmission roller module are used to transport the multiple documents in the paper feeding channel, so that it is fed by a document The paper outlets are sequentially transported to the document outlet, and the document outlet is connected to the inlet end of the thermal pressing mechanism, and the method at least includes the following steps:

(A). Using the paper pickup roller module to feed different documents from the document inlet into the paper feeding channel in turn, and the files are sequentially transported with the operation of the paper pickup roller module and/or the transmission roller module go ahead;

(B). Utilize the first sensor to detect a document being transported in the paper feeding channel, and when the end of the document is detected by the first sensor, the paper pickup roller module and/or the transport roller module stop transporting the document document;

(C). Use the second sensor to detect another document that is being transported in the paper feeding channel and is located behind the document. When the front end of the other document is detected by the second sensor, the paper pickup roller module and /or the transport roller module resumes the action of transporting the document, and the other document is continuously transported forward with the operation of the paper pickup roller module and/or the transport roller module; wherein, the second sensor is separated by the equal distance A distance of is set behind the first sensor; and

(D). Utilizing the heat-pressing mechanism to start the heat-pressing action on the document transported to the document outlet.

The method utilizes the second sensor to detect the document transported in the paper feeding path in the step (A), and when the end of the document is detected by the second sensor, the pick-up roller module starts to feed the other document Enter the paper feeding channel from the document feeding port.

The method utilizes a third sensor to detect the document transported in the paper feeding path in the step (A), and the third sensor is located between the document feeding port and the second sensor, when the end of the document is detected by the second sensor When the three sensors detect it, the paper pickup roller module starts to feed another document from the document feeding port into the paper feeding channel.

The method uses a fourth sensor located at the end of the paper feeding path to detect whether a plurality of documents are actually fed into the thermal compression mechanism, and count the number of the plurality of documents fed into the thermal compression mechanism.

The present invention also provides a thermal lamination device for sheets, which is used to perform thermocompression bonding of multiple documents in an arrangement of equal lengths, and for the automatic cutting mechanism to cut a plurality of documents after thermocompression bonding Multiple molded objects of the same size, the sheet thermal lamination device includes:

a thermocompression mechanism for thermocompressing the plurality of documents;

a paper feeding channel, located in the sheet thermal lamination device, used as a transmission path for the plurality of documents;

The paper-feeding roller module is located close to the document inlet, and is used to feed the different documents in turn, so that they are sequentially transported from the document inlet into the paper feeding channel;

The transport roller module is used to transport the plurality of documents, so that they are transported from the paper feeding channel to the document paper outlet; wherein, the document paper outlet is connected to the thermal pressing mechanism; and

The first sensor and the second sensor are both used to detect the transmission status of the plurality of documents in the paper feeding channel; wherein the first and second sensors are arranged at a distance of the same long interval, and when the first sensor When the end of a document is detected and the second sensor detects the front end of another document, the two documents will be simultaneously transported by the pick-up roller module and/or the transmission roller module in a synchronous transmission manner, so that the plurality of documents Keeping the distance of the equal length interval, they are fed into the thermocompression mechanism sequentially.

When the end of the document is detected by the second sensor, the pick-up roller module starts to feed another document from the document inlet into the paper feeding channel.

The sheet thermal lamination device further includes a third sensor, located between the paper pickup roller module and the second sensor, for detecting the transmission status of the plurality of documents in the paper feeding channel; wherein, when the end of the document When detected by the third sensor, the pick-up roller module starts to feed the other document from the document feed port into the feed path.

When the end of the document is detected by the first sensor, the transmission roller module is stopped, so that the transmission of the document is stopped synchronously, and the other document is still continuously transported to the forward.

The transmission roller module includes a first transmission roller set and a second transmission roller set, and when the end of the document is detected by the first sensor, the first transmission roller set is stopped so that the transmission of the file is stopped synchronously, and The other file is still continuously transported forward along with the operation of the second transmission roller set.

The sheet thermal lamination device further includes a fourth sensor, located at the end of the paper feeding path, to detect whether the plurality of documents are actually fed into the thermal compression mechanism, and count the number of documents fed into the thermal compression mechanism quantity.

The paper pickup roller module includes a paper pickup roller, a paper separation roller, and a paper separation sheet. The paper pickup roller is used to feed the plurality of documents into the paper feeding channel, and the paper separation roller and the paper separation sheet are used to provide the plurality of documents. A frictional force, so that the pickup roller module only feeds one document into the paper feeding path at a time.

The present invention enables the automatic paper feeding mechanism in the sheet thermal lamination device to arrange a plurality of documents at equal intervals and to be fed into the sheet thermal lamination mechanism of the sheet thermal lamination device in sequence, so that the documents can be easily Multiple documents are cut into laminates of the same size after lamination.

Description of drawings

FIG. 1 is a schematic diagram of the concept of applying the existing automatic paper feeding mechanism to a sheet thermal lamination device.

Fig. 2 is a structural schematic diagram of a first preferred embodiment of a sheet thermal lamination device applying the method for controlling the feeding gap of the present invention.

Fig. 3 is a structural schematic diagram of a second preferred embodiment of a sheet thermal lamination device applying the method for controlling the feeding gap of the present invention.

Fig. 4 is a schematic block flow diagram of a preferred embodiment of the method for controlling the paper feeding distance of the present invention.

Detailed ways

Please refer to FIG. 2 , which is a structural diagram of a first preferred embodiment of a sheet thermal lamination device applying the method for controlling the feeding gap of the present invention. The sheet thermal lamination device at least includes an automatic paper feeding mechanism 2 and a sheet thermal lamination mechanism 3 , and the sheet thermal lamination mechanism 3 is connected to the end of the document transmission path of the automatic paper feeding mechanism 2 . The automatic paper feeding mechanism 2 includes a document inlet 20, a document outlet 21, a paper feeding channel 22, a paper pickup roller module 23, a first sensor 24, a second sensor 25 and a fourth sensor 27, and a transport roller module 28 . Wherein, the pickup roller module 23 is located at the document inlet 20, and includes a pickup roller 231, a paper separation roller 232, and a paper separation piece 233; and the paper feed channel 22 is used as a transmission path for the document, and is located at the document inlet. 20 and the document outlet 21; In addition, the pickup roller module 23 and the transport roller module 28 are used to transport the documents located in the paper feeding channel 22, and use the first, second and fourth sensors 24, 25, 27 to detect the transport status of the documents respectively; , the first and second sensors 24, 25 are spaced apart by a distance D.

Please refer to FIG. 3 , which is a structural schematic diagram of a second preferred embodiment of a sheet thermal lamination device applying the method for controlling the feeding gap of the present invention. The structural difference between the second preferred embodiment and the first preferred embodiment is that the transmission roller module 28 is divided into a first transmission roller group 281 and a second transmission roller group 282, and the first transmission roller group 281 is used to replace The paper pickup roller module 23 of the first preferred embodiment is used to transmit the documents located in the paper feeding channel 22, and the automatic paper feeding mechanism 2 in the second preferred embodiment further includes a third device for detecting the document transmission status. sensor 26.

Next, a preferred embodiment of the method for controlling the paper feeding distance of the present invention will be further introduced. Please refer to FIG. 4 , which is a block flow chart of a preferred embodiment of the method for controlling the feeding gap of the present invention.

Step S1: Use the paper picking roller module 23 to feed different documents from the document feeding port 20 into the paper feeding channel 22 in turn, and these files are selected according to the operation of the paper picking roller module 23 and/or the transmission roller module 28 Sequence transmission forward;

Step S2: Use the first sensor 24 to detect a document being transported in the paper feeding passage 22, and when the end of the document is detected by the first sensor 24, make the transport roller module 28 stop transporting the document;

Step S3: Use the second sensor 25 to detect another document that is being transported in the paper feeding passage 22 and located behind the document detected by the first sensor 24, when the front end of the other document is detected by the second sensor 25 , the transmission roller module 28 resumes the action of transmitting the document detected by the first sensor 24, and the other document is continuously transported forward with the operation of the paper pickup roller module 23 and/or the transmission roller module 28; and

Step S4: Use the sheet thermal lamination mechanism 3 to start the thermal lamination action on the documents transported to the document output port 21 .

2 and 3 to illustrate the spirit of the present invention, please refer to FIG. 2 and FIG. 3 again, assuming that the automatic paper feeding mechanism 2 has already started to operate before the sheet thermal lamination mechanism 3 performs the thermal pressing action. The pick-up roller 231 feeds the document from the document inlet 20 to the paper-separation roller 232, and the paper-separation roller 232 and the paper-separation sheet 233 are used to provide a friction force for the document, so that the paper pick-up roller module 23 will only feed each time A document enters the paper feeding path 22 .

Among them, the part about the friction force needs to be specially explained: that is, _the friction force between the document, the paper separation sheet 233 and the paper separation roller 232 must be specially designed _. The condition of >U ₂ will be more helpful to the feeding of the document; wherein, U ₁ is the friction force of the document on the separation sheet 233, U ₂ is the friction force of the document on the document, and U ₃ is the friction force of the document on the separation roller 232. friction.

In step S1 shown in FIG. 4 , the practice of the first preferred embodiment (see FIG. 2 ) is to use the paper pickup roller module 23 to feed a document (hereinafter referred to as the first document) into the paper feeding passage 22. At this time, the first document A file is transported forward with the operation of the paper pickup roller module 23 and the transmission roller module 28. When the end of the first document is detected by the second sensor 25, it is still moved along with the paper pickup roller module 23 and the transmission roller module 28. The paper pick-up roller module 23 starts to feed another document (hereinafter referred to as the second document) into the paper feeding passage 22 while continuing to be transported forward.

The way of the second preferred embodiment (please refer to Fig. 3) also utilizes the paper-feeding roller module 23 to feed the first document and enters the paper-feeding channel 22, and at this moment the first document follows the first conveying roller group 281 (also can be paper-feeding) Roller module 23) and the operation of the second transmission roller group 282 are transported forward, and when the end of the first file is detected by the third sensor 26 (also can be the second sensor 25), except that it still follows the first document The conveying roller set 281 (which can also be the pickup roller module 23 ) and the second conveying roller set 282 continue to be transported forward and outward, and the pickup roller module 23 starts to feed the second document into the paper feeding channel 22 .

Then enter steps S2 and S3 shown in FIG. 4, in the first preferred embodiment (see FIG. 2), when the end of the first document that is continuously conveyed forward is detected by the first sensor 24, the transmission The roller module 28 stops running immediately, so that the first file is synchronously stopped from being transported forward, and waits for the second file behind to be detected by the second sensor 25 . Once the front end of the second document is detected by the second sensor 25, the transmission roller module 28 resumes operation immediately, so that the first document is resumed and transported forward synchronously, and the second document also follows the paper pickup roller module 23 and the transmission roller module 28 The operation continues to be transmitted forward.

In the second preferred embodiment (see FIG. 3 ), when the end of the first document that is continuously conveyed forward is detected by the first sensor 24, the second transport roller set 282 stops running immediately, so that the first document A file is stopped synchronously from advancing, and waits for the second file behind to be detected by the second sensor 25 . Once the front end of the second file is detected by the second sensor 25, the second transmission roller set 282 resumes operation immediately, so that the first file is synchronously resumed and transported forward, and the second file also follows the first transmission roller set 281 (also It can be continuously transported forward by the operation of the pickup roller module 23) and the second transport roller set 282.

It should be noted that since the first and second sensors 24, 25 are arranged at a distance D apart, when the front end of the second document is detected by the second sensor 25 and the end of the first document is detected by the first sensor When measurement 24 arrives, the files are transported forward at the same time, so that the files can be arranged at a fixed distance D and fed into the sheet thermal lamination mechanism 3 .

In addition, other multiple documents that are sequentially fed into the paper feeding channel 22 by the group roller module 23 following the second document can also be arranged at a fixed distance D according to the above-mentioned control method and fed into Sheet thermal lamination mechanism3.

Before these documents are fed into the sheet thermal lamination mechanism 3, a fourth sensor 27 can be added at the end of the paper feeding passage 22 to detect whether these documents are actually fed into the sheet thermal lamination mechanism 3. In addition to counting the number of these documents, it is also possible to avoid accidents of paper jams or other failures in the automatic document feeding mechanism 2 without being discovered.

Finally, according to step S4 shown in FIG. 4 , use the sheet heat-sealing mechanism 3 to start the heat-sealing action on the documents that are transported to the document outlet 21, and use the automatic heat-sealing mechanism connected to the exit end of the sheet heat-sealing mechanism 3 The cutting mechanism (not shown in Fig. 2 and Fig. 3) performs a cutting action on the documents after the thermocompression action; at this time, since these documents have been arranged at a fixed distance D, the automatic cutting mechanism Only need to carry out the cutting action at regular intervals, the files which have been heat-pressed can be easily cut into plastic seals of the same size.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the patent scope of the present invention. Therefore, all other equivalent changes or modifications that do not deviate from the spirit disclosed in the present invention should be included in this application. Inventions within the scope of patent applications.

Claims (22)

1. the control method of a paper feed spacing; It is characterized in that; With so that a plurality of file with the arrangement mode of first-class long spacing; Be fed entering one flake thermal-superposition mechanism by an automatic sheet feed mechanism, and this automatic sheet feed mechanism have a pickup roller module, a paper-feeding channel, a conveying roller module and the first sensor and second sensor; Wherein, This pickup roller module and/or this conveying roller module are in order to transmit these a plurality of files in this paper-feeding channel; So that it is by a file paper feeding port of this automatic sheet feed mechanism, transferred in regular turn in order to be connected in a file paper output of this flake thermal-superposition mechanism; This method may further comprise the steps at least:

(A). utilize this pickup roller module that different files is presented from this document paper feeding port respectively in turn and get in this paper-feeding channel, and said file is advanced by transmission in regular turn with the operation of this pickup roller module and/or this conveying roller module;

(B). utilize this first sensor detecting to be transmitted in the file in this paper-feeding channel, when the end of this document is detected by this first sensor, make this pickup roller module and/or this conveying roller module stop to transmit this document; And

(C). utilize this second sensor detecting just being transmitted in this paper-feeding channel and be positioned at another file at this document rear; When the front end of this another file by this second sensor detecting then; Make the action of this pickup roller module and/or this conveying roller module recovery transmission this document, this another file then continues to be transmitted forward with the operation of this pickup roller module and/or this conveying roller module; Wherein, this second sensor is arranged at the rear of this first sensor with the distance of these long spacings of interval.

2. the method for claim 1; It is characterized in that; In this step (A), utilize this second sensor detecting to be transmitted in this document in this paper-feeding channel; When the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

3. the method for claim 1; It is characterized in that; In this step (A), utilize one the 3rd sensor detecting to be transmitted in this document in this paper-feeding channel; And the 3rd sensor is between this document paper feeding port and this second sensor, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

4. the method for claim 1; It is characterized in that; Utilize one to be positioned at the 3rd terminal sensor of this paper-feeding channel, detect these a plurality of files and whether definitely present this flake thermal-superposition mechanism of entering, and calculate the quantity of presenting these a plurality of files that get into this flake thermal-superposition mechanism.

5. the flake thermal-superposition device with automatic sheet feed mechanism is characterized in that, with so that a plurality of file with the arrangement mode of first-class long spacing, presenting action and being fed and get in the flake thermal-superposition mechanism via an automatic sheet feed mechanism; Wherein, this automatic sheet feed mechanism comprises:

One paper-feeding channel is positioned at this automatic sheet feed mechanism, in order to the transmission path as these a plurality of files;

One pickup roller module is positioned near a file paper feeding port part, in order to present this difference file respectively in turn, it is transmitted by this document paper feeding port in regular turn gets in this paper-feeding channel;

One conveying roller module is in order to these a plurality of files of transmission, so that it is by being transferred to a file paper output in this paper-feeding channel; Wherein, this document paper output is connected in this flake thermal-superposition mechanism; And

The first sensor and second sensor are in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, This first and second sensor is with the distance setting of these long spacings at interval; And terminal and this second sensor detecting that detects a file when this first sensor is during to the front end of another file; This two file will be simultaneously transmitted by this pickup roller module and/or this conveying roller module mode with synchronous transmission, makes these a plurality of files keep the distance of these long spacings, and is fed this flake thermal-superposition mechanism of entering in regular turn with arranging.

6. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; When the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

7. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This automatic sheet feed mechanism also comprises one the 3rd sensor, between this pickup roller module and this second sensor, in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

8. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; When the end of this document is detected by this first sensor; Make this conveying roller module out of service, stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this pickup roller module.

9. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This conveying roller module comprises the first conveying roller group and the second conveying roller group, when the end of this document is detected by this first sensor, makes this first conveying roller group out of service; Stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this second conveying roller group.

10. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This automatic sheet feed mechanism also comprises one the 3rd sensor; Be positioned at the end of this paper-feeding channel, whether definitely present this flake thermal-superposition mechanism of entering in order to detect these a plurality of files, and calculate the quantity of presenting these a plurality of files that get into this flake thermal-superposition mechanism.

11. the flake thermal-superposition device with automatic sheet feed mechanism as claimed in claim 5; It is characterized in that; This pickup roller module comprises a pickup roller, a comber and one fen scraps of paper; This pickup roller in order to should be a plurality of file feeds get into these paper-feeding channels, and this comber with divide the scraps of paper in order to this a plurality of file one friction force to be provided, make this pickup roller module only present a file at every turn and get in this paper-feeding channel.

12. the control method of a hot pressing spacing; It is characterized in that; With so that a plurality of file with the arrangement mode of first-class long spacing; After being carried out hot pressing action by a flake thermal-superposition device, supply an automatic cutting mechanism that this quilt is carried out a plurality of plastic packaging things that a plurality of files after hot pressing moves cut into identical size, and this flake thermal-superposition device have a pickup roller module, a paper-feeding channel, a conveying roller module, first sensor and second sensor and a hot pressing mechanism; Wherein, This paper-feeding channel is the transmission path of these a plurality of files; And this pickup roller module and/or this conveying roller module are in order to transmit these a plurality of files in this paper-feeding channel; So that it is transferred to a file paper output in regular turn by a file paper feeding port, and this document paper output is connected in an arrival end of this hot pressing mechanism, and this method may further comprise the steps at least:

(A). utilize this pickup roller module that different files is presented from this document paper feeding port respectively in turn and get in this paper-feeding channel, and said file is advanced by transmission in regular turn with the operation of this pickup roller module and/or this conveying roller module;

(B). utilize this first sensor detecting to be transmitted in the file in this paper-feeding channel, when the end of this document is detected by this first sensor, make this pickup roller module and/or this conveying roller module stop to transmit this document;

(C). utilize this second sensor detecting just being transmitted in this paper-feeding channel and be positioned at another file at this document rear; When the front end of this another file by this second sensor detecting then; Make the action of this pickup roller module and/or this conveying roller module recovery transmission this document, this another file then continues to be transmitted forward with the operation of this pickup roller module and/or this conveying roller module; Wherein, this second sensor is arranged at the rear of this first sensor with the distance of these long spacings of interval; And

(D). utilize this hot pressing mechanism that the file that is transferred to this document paper output is begun to carry out this hot pressing action.

13. method as claimed in claim 12; It is characterized in that; In this step (A), utilize this second sensor detecting to be transmitted in this document in this paper-feeding channel; When the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

14. method as claimed in claim 12; It is characterized in that; In this step (A), utilize one the 3rd sensor detecting to be transmitted in this document in this paper-feeding channel; And the 3rd sensor is between this document paper feeding port and this second sensor, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

15. method as claimed in claim 12; It is characterized in that; Utilize one to be positioned at one the 3rd terminal sensor of this paper-feeding channel, detect these a plurality of files and whether definitely present this hot pressing mechanism of entering, and calculate the quantity of presenting these a plurality of files that get into this hot pressing mechanism.

16. flake thermal-superposition device; It is characterized in that; With so that a plurality of file carries out hot pressing action with the arrangement mode of first-class long spacing; Supply an automatic cutting mechanism that this quilt is carried out a plurality of plastic packaging things that a plurality of files after hot pressing moves cut into identical size, this flake thermal-superposition device comprises:

One hot pressing mechanism is in order to carry out this hot pressing action to these a plurality of files;

One paper-feeding channel is positioned at this flake thermal-superposition device, in order to the transmission path as these a plurality of files;

One pickup roller module is positioned near a file paper feeding port part, in order to present this difference file respectively in turn, it is transmitted by this document paper feeding port in regular turn gets in this paper-feeding channel;

One conveying roller module is in order to these a plurality of files of transmission, so that it is by being transferred to a file paper output in this paper-feeding channel; Wherein, this document paper output system is connected in this hot pressing mechanism; And

The first sensor and second sensor are in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, This first and second sensor is with the distance setting of these long spacings at interval; And terminal and this second sensor detecting that detects a file when this first sensor is during to the front end of another file; This two file will be simultaneously transmitted by this pickup roller module and/or this conveying roller module mode with synchronous transmission, makes these a plurality of files keep the distance of these long spacings, and is fed this hot pressing mechanism of entering in regular turn with arranging.

17. flake thermal-superposition device as claimed in claim 16 is characterized in that, when the end of this document by this second sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

18. flake thermal-superposition device as claimed in claim 16 is characterized in that, also comprises one the 3rd sensor, between this pickup roller module and this second sensor, in order to detect the transmission state of these a plurality of files in this paper-feeding channel; Wherein, when the end of this document by the 3rd sensor detecting then, this pickup roller module begins to present this another file and is got in this paper-feeding channel by this document paper feeding port.

19. flake thermal-superposition device as claimed in claim 16; It is characterized in that; When the end of this document is detected by this first sensor; Make this conveying roller module out of service, stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this pickup roller module.

20. flake thermal-superposition device as claimed in claim 16; It is characterized in that; This conveying roller module comprises the first conveying roller group and the second conveying roller group, when the end of this document is detected by this first sensor, makes this first conveying roller group out of service; Stop transmission so that this document is synchronized, and this another file still continues to be transferred forward with the operation of this second conveying roller group.

21. flake thermal-superposition device as claimed in claim 16; It is characterized in that; Also comprise one the 3rd sensor; Be positioned at the end of this paper-feeding channel, whether definitely present this hot pressing mechanism of entering in order to detect these a plurality of files, and calculate the quantity of presenting these a plurality of files that get into this hot pressing mechanism.

22. flake thermal-superposition device as claimed in claim 16; It is characterized in that; This pickup roller module comprises a pickup roller, a comber and one fen scraps of paper; This pickup roller in order to should be a plurality of file feeds get into these paper-feeding channels, and this comber with divide the scraps of paper in order to this a plurality of file one friction force to be provided, make this pickup roller module only present a file at every turn and get in this paper-feeding channel.

Images