JP2011037217A - Perfect binder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a perfect binder capable of changing the heating control content of a glue in accordance with circumstances whether a user lays weight on temperature rise time or lays weight on deterioration prevention of the glue and capable of changing the standard of use propriety decision of the glue. <P>SOLUTION: The glue is heated when a power source is supplied or when the power is supplied again, and when a "temperature rise short time mode" is set, the present temperature of the glue is calculated in the ratio of 30% of temperature detection output of a glue temperature sensor 34 and 70% of temperature detection output of a temperature sensor 35. When a "glue deterioration prevention mode" is set, the present temperature is calculated in the ratio of 70% of temperature detection output of the temperature sensor 34 and 30% of temperature detection output of the temperature sensor 35. Then, on the basis of the calculated present temperature of the glue and the set temperature, the ratio of on-off time of a heating heater 33 is calculated and the heating heater 33 is controlled. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a perfect binding apparatus including a gluing device that applies glue to the lower end surface of a book (sheet bundle) that is accumulated for one book.

  In the bookbinding process, wired binding for performing a binding process by a stitcher on a body obtained by collecting one printed sheet and wireless binding for performing a gluing process on the body are known. Further, when a cover is pasted on the bound body, the cover is pasted using a cover pasting machine.

  In a perfect binding machine, it is common to heat-melt solid glue and apply it to the lower end surface of a bundle of sheets, and to perform binding by solidifying the glue. For this reason, the hot melted paste is stored in the hot melt tank and a rotating roller partly immersed in the paste is arranged, and the lower end of the body is moved on this roller, so that the rotating roller can paste the glue. It is applied to the back of the stack of paper.

  In such a perfect binding machine, the glue temperature rises to around 180 ° C when the bookbinding machine is started up so that the glue can be melted. It is maintained at around 175 ° C. in a standby state where it can be used (see, for example, Patent Document 1).

JP 2005-238526 A

  Since the glue is consumed as a result of binding in the above-described perfect binding machine, if the amount of bookbinding is large, there is no problem even if a part of the glue deteriorates. When heating and cooling are repeated, deterioration of the glue becomes a problem.

  For example, if it is important to keep the hot melt tank warm, it is necessary to quickly raise the temperature to a paste that is far from the bottom of the hot melt tank and hard to be heated. It is installed and the tank is heated based on the glue temperature detected there. Then, the paste near the bottom of the tank, which is always heated by the heater, will be heated even after reaching the set temperature and will be heated above the set temperature, and the quality of the paste will deteriorate due to the overheating. was there.

  However, in order to prevent overheating, if the temperature rises while detecting the glue temperature near the bottom of the tank that is easily heated, after the glue near the sensor reaches the set temperature, the heater gradually turns on while repeatedly turning on and off. Therefore, it was difficult to raise the temperature in a short time. Because of such differences in temperature rise, it has been important to select specifications for tanks, heater capacities, and sensor positions with emphasis on either.

  On the other hand, when a large number of thick booklets are bound quickly, the amount of glue used is large, and when the solid paste at room temperature is replenished and charged, it should melt quickly even at the expense of overheating of the glue temperature. However, it was difficult to deal with by control.

  The present invention has been made in view of the above-described problem. Depending on whether the user attaches importance to the temperature rise time or to prevent the deterioration of the adhesive, the heating control content of the adhesive can be changed depending on the situation. An object of the present invention is to provide a perfect binding machine that can change the criteria for determining whether or not to use the booklet.

  A simple binding bookbinding machine according to a first aspect of the present invention is a simple binding bookbinding machine in which glue stored in a glue tank is applied to a lower end surface of a sheet bundle by application means, and binding is performed by solidifying the glue. A temperature sensor that measures the glue temperature near the bottom surface, a temperature sensor that measures the glue temperature near the glue surface in the glue tank, and a heater on the glue tank bottom surface based on the glue temperature detected by the two temperature sensors. Control means for controlling on / off, and the control means is based on a calculation formula selected from a plurality of temperature calculation formulas in which the proportion of the paste temperature detected by the two temperature sensors is changed. The present temperature of the glue is calculated, and the heater is controlled by comparing the calculated current temperature of the glue and the set temperature.

  According to a second aspect of the present invention, there is provided a saddle stitch binding machine that applies glue stored in a glue tank to a lower end surface of a sheet bundle by an application means and binds the glue by solidifying the glue. A temperature sensor that measures the glue temperature near the bottom of the tank, a temperature sensor that measures the glue temperature near the glue surface in the glue tank, and the bookbinding timing based on the glue temperature detected by the two temperature sensors. Control means for making a determination, and the control means is based on a formula selected from a plurality of temperature calculation formulas in which the proportion of the paste temperature detected by the two temperature sensors is changed. The present temperature is calculated, and the calculated current temperature of the glue and the set temperature are compared to determine whether or not bookbinding is possible.

  For a user who uses a perfect binding machine, there are various ways of increasing the temperature of the glue tank depending on the situation at that time. For example, there are cases where it is desired to use the saddle stitching machine early, when it is desired to prevent the deterioration of the glue, or when the replenishing glue in use is to be melted quickly. , It is possible to select the two temperature sensors in the glue and the temperature increase control method of the glue using the detection result as appropriate, so the glue heating control that can respond to the user's wishes at a high level is executed can do. For example, the current temperature of glue at a rate of 30% temperature detection output of the temperature sensor that measures the glue temperature near the bottom of the glue tank and 70% temperature detection output of the temperature sensor that measures the glue temperature near the glue surface in the glue tank By calculating, the temperature rise time can be shortened, while the temperature detection output of the temperature sensor that measures the glue temperature near the bottom of the glue tank is 70%, and the glue temperature near the glue surface in the glue tank is measured. By calculating the current temperature of the paste at a rate of 30% of the temperature detection output of the temperature sensor that performs the deterioration of the paste can be prevented.

  In addition, according to the saddle stitching machine of the invention according to claim 2, similarly, it is possible to appropriately select the two temperature sensors in the glue and the method for determining the availability using the detection result. Therefore, it is possible to eliminate an unnecessary temperature increase time at the time of reuse immediately after the bookbinding machine is turned off. For example, the current temperature of glue at a rate of 80% of the temperature detection output of the temperature sensor that measures the glue temperature near the bottom of the glue tank and 20% of the temperature detection output of the temperature sensor that measures the glue temperature near the glue surface in the glue tank By calculating, the use start time can be advanced. On the other hand, the temperature detection output of the temperature sensor that measures the paste temperature near the bottom of the paste tank is 20%, and the paste temperature near the paste surface in the paste tank is measured. By calculating the current temperature of the glue at a rate of 80% of the temperature detection output of the temperature sensor, the glue can be used after sufficiently dissolving the glue.

It is a figure which shows the state which the clamper of the perfect binding bookbinding machine of this invention exists in a cover sticking position. It is a figure which shows the state which the clamper of the perfect binding machine moved to the other side. It is a perspective view which shows the detail of a gluing part. It is a top view which shows the detail of a pasting part. It is a block diagram which shows the structure of the control part of a perfect binding machine. It is a flowchart which shows the effect | action of the heating control of a glue tank. It is a wave form diagram which shows the on-off state of a heater. It is a flowchart which shows the effect | action of the adhesive availability determination program.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments in which the binding device according to the present invention is applied to a binding device in which a nipping portion serving as a cover sticking portion also serves as a clamp portion will be described with reference to the drawings.
1 and 2 are diagrams showing a configuration of a perfect binding machine, FIG. 1 is a diagram showing a state where the clamper is in a cover sheet attaching position, and FIG. 2 is a diagram showing a state where the clamper is moved to the opposite side. It is.

This perfect binding machine comprises a base 1, a nipping part 2, a gluing part 3, a milling part 4, and a clamper 5.
As shown in FIG. 2, the nipping portion 2 provided on the base 1 is arranged on a back push plate 21 that moves up and down by driving a cam, and an upper surface of the back push plate 21. ), And a pair of nip plates 22a and 22b that move toward and away from each other.

  3 and 4 are diagrams showing details of the gluing portion 3, FIG. 3 is a perspective view of the gluing portion, and FIG. 4 is a top view of the gluing portion. As shown in FIGS. 3 and 4, the gluing unit 3 includes a glue tank 31 and a glue roller 32. The glue is thermally melted and stored in the glue tank 31, and the glue roller 32 glues the back of the sheet bundle 6. Process. On the other hand, a heater 33 for heating glue is provided on the bottom surface of the glue tank 31, and a temperature sensor 34 for detecting the temperature of glue on the tank bottom surface and glue on the tank top surface are provided on the side surface of the glue tank 31. A temperature sensor 35 for detecting the temperature is installed. Note that the heating by the heater 33 is controlled so as to reduce the overshoot and reach the target temperature by gradually changing the ON / OFF time ratio (weakening the heating) as the temperature approaches the set temperature.

  Further, as shown in FIG. 1, the milling unit 4 includes a milling machine 41 and a cutting blade 42 formed on the milling machine 41, and the paper bundle 6 is passed when the paper bundle 6 passes over the milling machine 41. The back surface of the paper sheet is aligned so that the paste is evenly applied to the entire surface of the back surface, and the cutting blade 42 forms a cut groove that bites into the back surface of the sheet bundle 6 with a rough pitch. . This groove is for expanding the surface area of the back portion of the inner book for applying the glue to improve the strength and at the same time achieve a good binding quality.

  Further, the clamper 5 includes a movable clamp plate, a fixed clamp plate, and a clamp plate holding frame (not shown). After the sheet bundle 6 is inserted between the pair of clamp plates, the movable clamp plate is moved toward the fixed clamp plate. That is, by closing the clamper 5, the sheet bundle 6 can be held and the sheet bundle 6 can be conveyed.

  On the other hand, FIG. 5 is a block diagram showing the configuration of the control unit of the saddle stitching machine. The control unit 1a includes a nipping unit driving mechanism 1b for driving the nipping unit 2, a clamper driving mechanism 1c for driving the clamper 5, and a gluing unit. 3 controls the gluing part drive mechanism 1d for driving 3 and the milling part drive mechanism 1e for driving the milling part 4. The operation panel 1f displays an operation / setting screen, and the control unit 1a outputs the operation / setting screen information to the operation panel 1f to display the operation / setting screen of the saddle stitching machine. The setting information set on the operation panel 1f is taken in and stored in a storage unit (not shown).

Hereinafter, an operation when a cover is pasted on a sheet bundle will be briefly described.
As shown in FIG. 1, after the operator inserts the back of the sheet stack 6 into the clamper 5 with the back surface of the sheet bundle 6 facing the back pressing plate 21 while the height of the back pressing plate 21 is adjusted to the height at the time of clamping. When a start button (not shown) is pressed, the control unit 1a controls the clamper driving mechanism 1c to close the clamper 5 and hold the sheet bundle 6 on the clamper 5.

  Next, the control unit 1a moves the clamper 5 in the direction of the milling unit 4 by controlling the clamper driving mechanism 1c after lowering the back pushing plate 21 by controlling the nipping unit driving mechanism 1b. During this movement, when the sheet bundle 6 passes over the milling machine 41, the back surface of the sheet bundle 6 is flushed, and the cutting blade 42 forms a kerf that is slightly deeply cut into the back surface of the sheet bundle 6 at a rough pitch. Is done. At this time, since the glue tank 31 of the gluing unit 3 is in the lowered state, no glue adheres to the back surface of the sheet bundle 6 while the clamper 5 is moving.

  When the clamper 5 is stopped at the position shown in FIG. 2 and the operator presses the start button again after setting the cover on the nipping unit 2, the control unit 1a controls the gluing unit drive mechanism 1d. By doing so, the glue tank 31 of the glue part 3 is raised.

Next, the control unit 1a drives the clamper driving mechanism 1c to move the clamper 5 in the direction of the nipping unit 2. During this movement, the rear surface of the sheet bundle 6 is made flush with the milling unit 4 again. In addition, a cut groove is formed, and in the gluing unit 3, after the hot melt melt paste stored in the glue tank 31 is applied to the lower end surface of the sheet bundle 6 by the glue roller 32, the pair of nip plates 22 a and 22 b The lower end surface on which the glue of the sheet bundle 6 is applied is positioned above the gap.
Thereafter, the control unit 1a raises the back pushing plate 21 by controlling the nipping unit driving mechanism 1b, and moves the nip plates 22a and 22b to the inside so that the cover is attached to the sheet bundle 6. The back of the sheet bundle 6 is formed.

On the other hand, when the glue is melted, the control unit 1a takes in the outputs of the temperature sensors 34 and 35 of the gluing unit 3 to control on / off of the heater 33 of the gluing unit 3, and the temperature of the glue becomes a usable temperature. It is determined whether or not.
Hereinafter, the operation when the glue is heated will be described.
The user can select and set in advance either the “temperature rise short time mode” or the “glue deterioration prevention mode” regarding glue heating on the temperature rise setting screen displayed on the operation panel 1f. it can.

When power is initially turned on or when power is turned on again, the control unit 1a starts the glue tank heating control program shown in the flowchart of FIG. It is determined whether or not (step 101). When it is determined that the mode set by the user is the “temperature rising short time mode”, the control unit 1a displays the current amount of glue at a ratio of the temperature detection output 30% of the temperature sensor 34 and the temperature detection output 70% of the temperature sensor 35. The temperature is calculated (step 102).
For example, when the temperature detection output of the temperature sensor 34 is 180 ° C. and the temperature detection output of the temperature sensor 35 is 150 ° C., the current temperature T of the paste is T = 180 ° C. × 0.3 + 150 ° C. × 0.7 = 159 ° C.

  After calculating the current temperature of the glue, the control unit 1a calculates the ratio of the on / off time of the heater 33 based on the calculated current temperature of the glue and the set temperature (180 ° C.), and controls the heater 33 at the calculated ratio. Control (step 103). As shown in the above example, when the current temperature of the glue is 159 ° C., the difference from the set temperature (180 ° C.) is large. Therefore, as shown in FIG. The heater 33 is controlled.

  After calculating the ratio of the on / off time of the heater 33, the controller 1a determines whether or not 10 seconds have elapsed after completion of the calculation (step 104), and determines whether or not bookbinding has ended after 10 seconds (step 104). 105). When it is determined that the bookbinding is not completed, the control unit 1a returns to step 102 to calculate the current temperature of the glue again. When it is determined that the bookbinding is completed, the heating of the glue by the heater 33 is stopped (step 106). Exit the program.

On the other hand, when it is determined that the mode set by the user in step 101 is not the “temperature rise short-time mode”, that is, the “glue deterioration prevention mode”, the control unit 1a determines that the temperature detection output of the temperature sensor 34 is 70%, The current temperature of the glue is calculated at a rate of 30% of the temperature detection output of the temperature sensor 35 (step 107).
For example, when the temperature detection output of the temperature sensor 34 is 180 ° C. and the temperature detection output of the temperature sensor 35 is 150 ° C., the current temperature T of the glue is T = 180 ° C. × 0.7 + 150 ° C. × 0.3 = 171 ° C.

  After calculating the current temperature of the glue, the control unit 1a calculates the ratio of the on / off time of the heater 33 based on the calculated current temperature of the glue and the set temperature (180 ° C.), and controls the heater 33 at the calculated ratio. Control (step 108). As shown in the above example, when the current temperature of the glue is 171 ° C., the difference from the set temperature (180 ° C.) is slight. Therefore, as shown in FIG. The heater 33 is controlled.

  After calculating the ratio of the on / off time of the heater 33, the controller 1a determines whether or not 10 seconds have elapsed after completion of the calculation (step 109), and determines whether or not bookbinding has ended after 10 seconds (step 109). 110). When it is determined that the bookbinding is not finished, the control unit 1a returns to step 107 to calculate the current temperature of the glue again, and when it is judged that bookbinding is finished, the heating of the glue by the heater 33 is stopped (step 106). Exit the program.

  As described above, the current temperature of the glue can be calculated by selecting one of a plurality of calculation formulas in which the ratio of the temperature detected by the two temperature sensors is regarded as important. It is possible to easily select whether to place importance on warm time or on prevention of paste deterioration. In addition, the “temperature rise short time mode” is not limited to when the temperature rises, and when the thick paste is used continuously, such as when a thick booklet is bound continuously, the temperature of the paste temperature is increased when replenishing and charging solid paste at room temperature. It is also effective when you want to melt quickly even at the expense of overshoot.

Next, an operation when it is determined whether or not the temperature of the glue can be bound when the temperature of the glue is raised will be described.
Similarly to the above, the user may select and set either “immediate use mode” or “sufficient melting mode” in advance on the usable temperature determination on the setting screen displayed on the operation panel 1f. it can.

  When the temperature rise of the glue is started when the power is initially turned on or when the power is turned on again, the control unit 1a starts the glue use availability determination program shown in the flowchart of FIG. 8, and the mode set by the user is “immediate use mode”. Is determined (step 201). When it is determined that the mode set by the user is the “immediate use mode”, the control unit 1a sets the current temperature of the glue at a rate of 80% of the temperature detection output of the temperature sensor 34 and 20% of the temperature detection output of the temperature sensor 35. After the calculation (step 202), it is determined whether or not the current temperature of the paste is equal to or higher than the usable temperature (set temperature ± 10 ° C.) (step 203).

When it is determined that the current temperature of the paste is equal to or lower than the usable temperature, the control unit 1a displays “tank heating” on the operation panel 1f (step 204), and then returns to step 202 to set the current temperature of the paste again. calculate. If it is determined in step 203 that the current temperature of the glue is equal to or higher than the usable temperature, the display of “tank heating” displayed on the operation panel 1f is changed to “tank available” and displayed (step 205).
For example, when the temperature detection output of the temperature sensor 34 is 180 ° C. and the temperature detection output of the temperature sensor 35 is 150 ° C., the current temperature T of the glue is T = 180 ° C. × 0.8 + 150 ° C. × 0.2 = 174 ° C. Therefore, the display of “tank heating” is changed to “tank available”.

  After displaying “Tank available”, the control unit 1a determines whether or not bookbinding is completed (step 206). When it is determined that bookbinding is completed, the program ends. On the other hand, when it is determined that the bookbinding is not completed, the control unit 1a returns to Step 202 to calculate the current temperature of the paste again, and the current temperature of the paste becomes lower than the usable temperature by replenishing and feeding the normal temperature solid paste. In the case, the “tank available” display displayed on the operation panel 1 f is changed to “tank heating” and displayed (step 204).

  On the other hand, when it is determined that the mode set by the user in step 201 is not the “immediate use mode”, that is, the “sufficient melting mode”, the control unit 1a displays the temperature detection output 20% of the temperature sensor 34 and the temperature sensor 35. The current temperature of the glue is calculated at a rate of 80% of the temperature detection output (step 207), and then it is determined whether or not the current temperature of the glue is equal to or higher than the usable temperature (step 208).

If it is determined that the current temperature of the glue is equal to or lower than the usable temperature, the control unit 1a similarly displays “tank heating” on the operation panel 1f (step 209), and then returns to step 207 to return the glue again. Calculate the current temperature. If it is determined in step 208 that the current temperature of the glue is equal to or higher than the usable temperature, the display of “tank heating” displayed on the operation panel 1f is changed to “can use tank” and displayed (step 210).
For example, when the temperature detection output of the temperature sensor 34 is 180 ° C. and the temperature detection output of the temperature sensor 35 is 150 ° C., the current temperature T of the glue is T = 180 ° C. × 0.2 + 150 ° C. × 0.8 = Since the usable temperature has not reached 170 ° C. since it is 156 ° C., the display on the operation panel 1 f remains “tank heating”.

  After displaying “Tank available”, the control unit 1a determines whether or not bookbinding is completed (step 105). When it is determined that bookbinding is completed, the program is terminated, and when it is determined that bookbinding is not completed, Returning to step 207, the current temperature of the glue is calculated again.

  As described above, since it is determined whether or not the glue can be used by selecting from a plurality of calculation formulas that change the proportion of the temperature detected by the plurality of temperature sensors, the simple binding machine is used. This is useful when you want to use it quickly. For example, when the temperature detected by the temperature sensor 34 is the set temperature, a bookbinding operation with a small amount of glue used, such as a thin booklet, can be used.

  Regardless of the importance of the temperature sensor 35, it is possible to determine whether the power is initially turned on (temperature rise from the normal temperature of the glue) and the power is turned on again only by using a formula for calculating the current temperature from the outputs of the two temperature sensors. It is also possible to eliminate unnecessary waiting time when re-inserting. That is, when detecting and controlling with a single conventional temperature sensor, the position of the sensor is close to the bottom of the tank, and in this state, the above determination cannot be made, and a waiting time for melting the glue for a certain period of time has been provided. However, by providing two temperature sensors and using the “immediate use mode”, it is possible to eliminate unnecessary waiting time at the time of re-insertion.

The importance ratio of the two temperature sensors used in the calculation formulas of the above-described embodiments is an example, and a calculation formula in which the importance ratio is appropriately changed can be used.
Further, in the above-described embodiment, the example in which the saddle stitching machine of the present invention is applied to the saddle stitching bookbinding machine serving as the nipping part and the clamp part has been described. However, the saddle stitching machine of the present invention includes the clamp part and the milling machine. The present invention can also be applied to a perfect binding bookbinding machine in which a print part, a glue application part, and a cover sticking part are separately provided, or a simple binding machine that does not have a milling part.

DESCRIPTION OF SYMBOLS 1 Base 2 Nipping part 21 Back pushing plate 22a, 22b Nip board 3 Gluing part 31 Glue tank 32 Glue roller 33 Heater 34, 35 Temperature sensor 4 Milling part 41 Milling machine 42 Cutting blade 5 Clamper 6 Paper bundle

Claims (2)

A glue binding machine that applies the glue stored in the glue tank to the lower end surface of the sheet bundle by application means, and binds the glue by solidifying the glue;
A temperature sensor for measuring a paste temperature near the bottom surface of the paste tank, a temperature sensor for measuring a paste temperature near the paste surface in the paste tank, and a paste tank based on the paste temperature detected by the two temperature sensors Control means for controlling on / off of the heater on the bottom surface, wherein the control means is selected from a plurality of temperature calculation formulas in which the proportion of the glue temperature detected by the two temperature sensors is changed. A perfect binding bookbinding machine that calculates a current temperature of glue based on an equation and controls the heater by comparing the calculated current temperature of the glue and a set temperature. A glue binding machine that applies the glue stored in the glue tank to the lower end surface of the sheet bundle by application means, and binds the glue by solidifying the glue;
Binding is possible based on the temperature sensor that measures the glue temperature near the bottom of the glue tank, the temperature sensor that measures the glue temperature near the glue surface in the glue tank, and the glue temperature detected by the two temperature sensors Control means for determining timing, and the control means is based on a calculation formula selected from a plurality of temperature calculation formulas in which the proportion of the paste temperature detected by the two temperature sensors is changed. And calculating a current temperature of the glue and comparing the calculated current temperature of the glue and a set temperature to determine whether or not binding is possible.

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