JP2007331215A - Bag making machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bag making machine which asks for proper sealing conditions for hot-pressing a film substrate and can manufacture a bag-shaped product having enough seal strength. <P>SOLUTION: The bag making machine 10 has a mechanism part 30 for manufacturing the bag-shaped products by sealing the film substrates arranged to overlap each other by a hot plate and a control part 40 for supervising/controlling the mechanism part 30 and is provided with an input part 21 for inputting data on the sealing characteristics of the film substrate and data on work conditions for actuating the mechanism part and an operation unit 22 which is connected with the input part 21, calculates the sealing conditions based on the data on the sealing characteristics and the data on the work conditions inputted in the input part 21, and outputs the operation results to the control part 40. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a bag making machine for producing a bag-shaped product by overlapping film base materials.

  In a bag making machine that produces bag-like products by superimposing film substrates, transporting them intermittently, thermocompression-bonding (sealing), and cutting them to the specified dimensions, heat plate temperature, sealing time, feed Seal conditions such as time, cooling temperature, seal pressure, and amount of clearance cause defects such as insufficient seal strength and must be set appropriately. Conventionally, as a measure for efficiently setting such seal conditions, measures such as storing seal conditions that have been used in advance in a bag making machine have been taken (for example, Patent Document 1).

In Patent Document 1, seal conditions that have been used once in production are stored in a data management computer, and when the same item is produced, the seal conditions are automatically set. If there is, it is possible to produce a bag-like product under appropriate sealing conditions without having to re-examine the conditions for sealing conditions.
However, Patent Document 1 has a problem that it is impossible to change a sealing condition due to non-uniformity of materials and equipment or a sealing condition due to a change in the production speed of the bag making machine. In addition, the production of a bag-like product under sealing conditions that have not been used in the past has a problem that it is necessary to newly determine conditions such as sealing conditions.
Japanese Patent No. 3294915

  An object of the present invention is to provide a bag making machine capable of obtaining an appropriate sealing condition for thermocompression bonding of a film base material and producing a bag-shaped product having sufficient sealing strength.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated in a parenthesis, it is not limited to this.
According to the first aspect of the present invention, there is provided a mechanism part (30) for producing a bag-shaped product by sealing a laminated film base material with a hot plate, and a control part (40) for controlling the mechanism part (30). ) Comprising: an input unit (21) for inputting seal characteristic data of the film base material and work condition data for operating the mechanism unit; and connection with the input unit (21) A calculation unit (22) that calculates a seal condition based on the seal characteristic data and the work condition data input to the input unit (21) and outputs a calculation result to the control unit (40); It is a bag making machine (10) provided.

  The invention of claim 2 is the bag making machine (10) according to claim 1, wherein the seal characteristic data includes the temperature of the hot plate, the seal time, and the seal weld surface temperature in the seal processing of the film base material. The measurement result of the relationship and the melting point temperature of the film base material, the working condition data is the feeding time of the film base material of the mechanism (30) and the number of shots of the hot plate, the sealing condition is The set temperature and seal set time of the hot plate, and the calculation unit (22) obtains an approximate expression based on each measurement result of the seal characteristic data, and uses the approximate expression, the working condition data, and the melting point temperature. A bag making machine (10) characterized by calculating an appropriate sealing condition.

  According to a third aspect of the present invention, in the bag making machine (10) according to the first aspect of the present invention, the seal property data includes the temperature of the hot plate, the seal time, and the seal weld surface temperature in the sealing process of the film base material. The measurement result of the relationship and the melting point temperature of the film base material, the work condition data is the set time of the film base material of the mechanism part (30) and the number of shots of the hot plate, and the sealing condition is , The set temperature and feed time of the hot plate, and the calculation unit (22) obtains an approximate expression based on each measurement result of the seal characteristic data, and uses the approximate expression, the working condition data, and the melting point temperature. A bag making machine (10) characterized by calculating an appropriate sealing condition.

  According to a fourth aspect of the present invention, in the bag making machine (10) according to the first aspect, the seal characteristic data includes a temperature of the hot plate, a seal time, and a seal weld surface temperature in the sealing process of the film base material. The measurement result of the relationship and the melting point temperature of the film substrate, the working condition data is the set temperature and the number of shots of the hot plate of the mechanism part (30), and the sealing condition is the film substrate The calculation unit (22) obtains an approximate expression based on each measurement result of the seal characteristic data, and the appropriate seal is determined by the approximate expression, the working condition data, and the melting point temperature. A bag making machine (10) characterized in that a condition is calculated.

  According to a fifth aspect of the present invention, in the bag making machine (10) according to any one of the first to fourth aspects, the input unit (21) is material information data associated with the seal characteristic data. The bag making machine (10) is provided with a storage unit (23) for storing a plurality of the material information data and the seal characteristic data input by the input unit (21).

  The invention of claim 6 is the bag making machine (10) according to claim 5, wherein the material information data that matches the material information data newly input from the input unit (21) is stored in the storage unit ( 23) A bag making machine (10) including a search unit (24) for searching from 23).

  According to a seventh aspect of the present invention, in the bag making machine (10) according to the sixth aspect, the search unit (24) is newly added from the input unit (21) from the material information data in the storage unit (23). The bag making machine (10) is characterized by searching for a material similar to the material information data input to the box.

  The invention of claim 8 is the bag making machine (10) according to any one of claims 5 to 7, wherein the material information data includes the item name of the film base and the film base. It is a bag making machine (10) characterized by having a layer structure of material.

  According to a ninth aspect of the present invention, in the bag making machine (10) according to any one of the first to eighth aspects, the seal characteristic data is calculated from a measuring instrument that measures the seal characteristic data. 22), the bag making machine (10).

As described above, the present invention has the following effects.
(1) Since the bag making machine includes an input unit and a calculation unit, an appropriate seal condition can be calculated by inputting seal characteristic data and work condition data from the input unit. A bag-like product with sufficient adhesive strength can be produced.
(2) The seal characteristic data is the measurement result of the relationship between the temperature of the hot plate, the sealing time and the seal weld surface temperature in the sealing processing of the film base material and the melting point temperature of the film base material. Since the film substrate feed time and the number of shots of the hot plate are calculated, the calculation unit uses the approximate expression obtained from each measurement result of the seal characteristic data, the working condition data, and the melting point temperature to determine the appropriateness A hot plate setting temperature and seal setting time can be obtained.
(3) The seal characteristic data is the measurement result of the relationship between the temperature of the hot plate, the seal time and the seal weld surface temperature and the melting point temperature of the film base material in the sealing processing of the film base material. Since the setting time of the seal of the film base of the part and the number of shots of the hot plate, the calculation part was accompanied by the actual measurement by the approximate expression obtained from each measurement result of the seal characteristic data, the working condition data and the melting point temperature. Appropriate hot plate set temperature and feed time can be obtained.
(4) The sealing characteristic data is the measurement result of the relationship between the temperature of the hot plate, the sealing time, and the seal welding surface temperature in the sealing processing of the film base material and the melting point temperature of the film base material. Therefore, the calculation unit uses the approximate formula, working condition data, and melting point temperature obtained from each measurement result of the seal characteristic data to send an appropriate feed according to the actual measurement. Time and seal set time can be determined.
(5) Since the bag making machine includes a storage unit, it can store a plurality of material information data and seal characteristic data input from the input unit, and read and use them as necessary.
(6) Since the bag making machine includes the search unit, it is possible to search the storage unit for material information data that matches the newly input material information data.
(7) Since the bag making machine includes the search unit, the material information data similar to the newly input material information data can be searched from the storage unit.
(8) Since the seal characteristic data is output from the measuring instrument that has measured the seal characteristic data to the calculation unit, it is possible to save the trouble of inputting the seal characteristic data through the input unit.

  The present invention seeks an appropriate sealing condition for thermocompression bonding of a film base material, and aims to provide a bag making machine capable of producing a bag-like product with sufficient sealing strength. This is realized by calculating an appropriate seal condition based on the characteristic data and the work condition data.

Hereinafter, the present invention will be described in more detail with reference to the drawings and the like.
FIG. 1 is a schematic view showing a bag making machine according to an embodiment of the present invention. Moreover, FIG. 2 is a figure which shows the display screen displayed when determining the sealing conditions of the bag making machine of an Example.
As shown in FIG. 1, the bag making machine 10 includes a seal condition calculation unit 20, a mechanism unit 30, and a control unit 40, and superimposes film base materials and thermocompression-bonds (seal) them to form a bag-shaped product. It is a device to manufacture.
The seal condition calculation unit 20 includes an input unit 21, a calculation unit 22, a storage unit 23, a search unit 24, a display unit 25, and an input / output unit 26, and calculates an appropriate seal condition for sealing the film base material. It is a computer to do. In this embodiment, the sealing conditions are a hot plate set temperature and a seal set time.

・・・（式１）

なお、Ｓはショット数［ｓｐｍ］、Ｔ１は送り時間［ｍｓｅｃ］、Ｔ２はシール時間［ｍｓｅｃ］である。
また、材料情報データ及びシール特性データは、お互いにデータが関連付けされており、後述の材料情報データの検索に伴って、特定のシール特性データを読み出すことができる。 The input unit 21 is a keyboard for inputting material information data, seal characteristic data, and work condition data necessary for calculating the seal condition to the calculation unit 22 and operating the control unit 40 of the bag making machine 10. . In this embodiment, the material information data is the item name of the film base and the layer structure of the material used for the bag making machine 10, and the seal characteristic data is the seal time, the temperature of the hot plate, and the seal weld surface temperature. The measurement result of the relationship and the melting point temperature of the film substrate, and the working condition data are the thickness of the film substrate, the feeding time, and the number of shots of the hot plate. Here, the number of shots is the number of times the hot plate presses (seals) the film base material per unit time (the unit is the number of shots per minute [spm]), and it corresponds to the production speed of the bag-shaped product to be produced Equally, the feeding time and the sealing time have the relationship shown in Equation 1.

... (Formula 1)

S is the number of shots [spm], T1 is the feed time [msec], and T2 is the seal time [msec].
In addition, the material information data and the seal characteristic data are associated with each other, and specific seal characteristic data can be read with the search of the material information data described later.

The calculation unit 22 obtains an approximate expression of the seal characteristic based on the measurement result of the input seal characteristic data, and integrally controls the seal condition calculation unit 20 that calculates an appropriate seal condition from the approximate expression and work condition data. Circuit.
The storage unit 23 is a non-volatile memory that stores a plurality of material information data and seal characteristic data input in the past.
The search unit 24 is a circuit for searching the material information data and the seal characteristic data stored in the storage unit for data that matches and is similar to the material information data input by the input unit 21. The search criteria for similar material information data can be searched by, for example, matching the types of seal welded surface materials in the layer configuration, matching or approximating the thickness of the film base material, and the like.

The display unit 25 is a display that displays information such as the content input by the input unit 21, the calculation result of the calculation unit 22, and the operating status of the bag making machine 10.
The input / output unit 26 outputs the seal condition determined from the calculation result of the calculation unit 22 to the control unit 40, and inputs information such as the operation status of the bag making machine 10 from the controller 40.
The mechanism unit 30 is a bag making mechanism for producing a bag-like product including a transport mechanism for transporting a film base material and a pressure-bonding mechanism for thermo-compression (sealing) the film base material with a hot plate.
Based on the sealing conditions output from the input / output unit 26, the control unit 40 controls the temperature of the hot plate of the crimping mechanism of the mechanism unit 30, the number of shots, the sealing time, and the feeding time of the film base material by the transport mechanism. It is a control circuit to control.

As shown in FIG. 2, the display screen 200 includes a material information data input column 201, a search result display column 202, a seal characteristic data input column 203, a work condition data input column 204, a seal condition display column 205, and a determined seal condition display column. 207 and a display setting field 208 are screens displayed on the display unit 25 when an appropriate seal condition is obtained.
The material information data input column 201 includes a column for inputting an item name and a layer configuration that are material information data.
The search result display column 202 is a column for displaying the matched or similar material information data searched by the search unit 24.
The seal property data input column 203 is a column for inputting the measurement result of the seal property data of a specific film substrate and the melting point temperature of the film substrate. As the measurement results of the seal characteristic data, the results of performing three types of measurements on the seal time, the temperature of the hot plate, and the seal weld surface temperature are used.
The work condition data input column 204 is a column for inputting the item name of the film base material and the layer structure of the material, which are the work condition data.

The seal condition display column 205 is a column for displaying the input work information data and seal characteristic data, or the result of calculating the search result of the search unit 24 by the calculation unit 22 in a table and a graph. In the table of the seal characteristic data 205, the vertical column is the hot plate set temperature [° C.], the horizontal column is the seal time [msec], and the number of shots [spm] and the feed time [msec] related to the seal time as shown in Equation 1. The numerical value in the table is the seal weld surface temperature [° C.].
The effective use area 205-1 indicates an effective use area of seal suitability based on the melting point temperature in the seal characteristic data input field 203 and the calculation result displayed in the seal condition display field 205. For example, in FIG. 2, since the melting point temperature is 120 [° C.], the portion where the seal weld surface temperature is 120 [° C.] or higher and 150 [° C.] or lower is set as the effective use region 205-1. In this effective use area 205-1, the cursor frame 206 can be moved to a desired condition by the input unit 21 (arrow A), and an optimum seal condition can be selected and determined.
The determined seal condition display field 207 is a field for displaying the seal condition determined by the cursor frame 206.
The display setting column 208 is a column in which the lower limit value and step value of each axis of the table and graph of the seal condition display column 205 can be arbitrarily set.

Then, the usage method of the bag making machine 10 of an Example is demonstrated. FIG. 3 is a flowchart showing the operation of the bag making machine 10 according to the embodiment.
As shown in FIG. 3, the seal condition calculation unit 20 of the bag making machine 10 displays a display screen 200 on the display unit 25 when the power is turned on by an operator (S100), and enters the material information data input field 201. An instruction to input material information data is displayed (S101). When the material information data is input by the input unit 21, the search unit 24 is searched for whether or not the material information data matching the search unit 24 is stored in the storage unit 23 (S 102), and the search result is displayed in the search result display column 202. At the same time, the presence or absence of a search result is determined (S103).

When there is no coincidence data as a result of the search (S103, No), the seal condition calculation unit 20 searches for whether or not material information data similar to the search unit 24 is stored in the storage unit 23. The result is displayed in the search result display column 202 (S104), and an instruction waiting screen as to whether to use the search result is displayed (S105).
When the search result is not used (S105, No), an instruction to input seal characteristic data and work condition data is displayed in the seal characteristic data input field 203 and the work condition data input field 204 (S106).
When the matched material information data exists (S103, Yes), the sheet characteristic data associated with the matched material information data is read from the storage unit 23 and displayed in the material information data input field 201 and the seal characteristic data input field 203. To do. Further, when using material information data of similar search results (S105, Yes), the desired material information data is selected from the search result display column 202, sheet characteristic data associated therewith is read out, and material information data input Displayed in the column 201 and the seal characteristic data input column 203.

When input or reading of predetermined data is completed in the material information data input field 201 and the sheet characteristic data input field 203, an appropriate seal condition is calculated by the calculation unit 22 (S107), and seal condition display is performed based on the calculation result. The relationship between the hot plate set temperature, the seal time and the seal weld surface temperature of the predetermined material information data is displayed in a column 205 as a table and a graph (S108). In the seal condition display field 205, the lower limit value and the step value of the table and graph can be changed by the display setting field 208, and the newly input material information data and sheet characteristic data are automatically stored. Stored in the unit 23.
Next, the seal condition calculation unit 20 asks the worker for an instruction to change the setting of the number of shots (production speed) (S109), and when there is a change instruction (S109, Yes), the work condition data input field 204 The work condition data is input again, and the calculation result is displayed in the seal condition display field 205 (S110).

When there is no change instruction (S109, No) or when the change (S110) is finished, the effective use area 205-1 is calculated based on the calculation result in the seal condition display column 205 and the melting point temperature in the sheet characteristic data display column 203. The information is displayed in the table and graph of the seal condition display field 205 (S111).
When the cursor frame 206 is moved by the input unit 21 and the optimum seal condition is selected and determined from the effective use area 205-1 by the operator (S112), the determined seal condition is displayed in the determined seal condition display field 207. At the same time, it is output to the control unit 40 of the bag making machine 10 and the mechanism unit 30 starts the bag making operation based on the sealing conditions. After the mechanism unit 30 has produced a predetermined number of bag-shaped products, the control unit 40 ends the bag making operation (S113).

Next, how to obtain the approximate expression of the calculation unit 22 of the bag making machine 10 according to the embodiment will be described.
The sealing condition is a setting item of the bag making machine 10. Among them, the setting items having a large influence on the seal welding surface temperature are the hot plate setting temperature and the sealing time. From the experimental results, if the conditions of the bag making machine, material, etc. are the same, the seal weld surface temperature is approximately proportional to the hot plate setting temperature and the seal time (limited to the seal time region used in actual production). I know that there is a relationship. Therefore, as shown in the graph of the seal condition display column 205 in FIG. 3, the seal condition can be expressed by a plane in the relationship between the seal weld surface temperature, the hot plate set temperature, and the seal time.

When this plane is expressed using a general mathematical expression, the following expression is obtained.
ax + by + cz + d = 0 (Formula 2)
here,
x: Hot plate set temperature (° C)
y: Sealing time (msec)
z: Seal weld surface temperature (° C)
a, b, c, d: coefficients.
Therefore, in order to obtain the coefficients a, b, c, and d, information on A (xA, yA, zA), B (xB, yB, zB), and C (xC, yC, zC) is necessary. If the seal welding surface temperature is measured at the measurement points A to C with the plate set temperature and the seal time changed, the coefficient can be calculated and the seal condition can be defined as a plane. (However, the points A to C must not be on an arbitrary straight line).

From the above, the bag making machine 10 of the embodiment has the following effects.
(1) Since the bag making machine 10 includes the input unit 21 and the calculation unit 22, by inputting seal characteristic data and work condition data from the input unit 21, an appropriate seal condition can be calculated. The bag making machine 10 can produce a bag-like product with sufficient adhesive strength.
(2) The seal characteristic data is the measurement result of the relationship between the temperature of the hot plate, the sealing time and the seal weld surface temperature in the sealing processing of the film base material and the melting point temperature of the film base material. Since it is the feeding time of the film base of the unit 30 and the number of shots of the hot plate, the calculation unit 22 is accompanied by the actual measurement based on the approximate expression obtained from each measurement result of the seal characteristic data, the working condition data, and the melting point temperature. In addition, an appropriate hot plate setting temperature and seal setting time can be obtained as the effective use area 205-1.

(3) Since the bag making machine 10 includes the storage unit 23, it can store a plurality of material information data and seal characteristic data input from the input unit 21, and read and use them as necessary.
(4) Since the bag making machine 10 includes the search unit 24, the storage unit 23 can search for material information data that matches the newly input material information data.
(5) Since the bag making machine 10 includes the search unit 24, the storage unit 23 can search for material information data similar to the newly input material information data.

(Modification)
The present invention is not limited to the embodiments described above, and various modifications and changes are possible, and these are also within the equivalent scope of the present invention.
(1) In the examples, the working condition data is the film substrate feeding time and the number of hot plate shots of the mechanism unit 30, and the sealing conditions are the hot plate set temperature and the seal set time. A combination of these is also possible. For example, the work condition data can be set as the seal setting time of the film base material and the number of shots of the hot plate in the mechanism, and the seal condition can be set as the hot plate setting temperature and the feed time. As the hot plate set temperature of the mechanism and the number of shots of the hot plate, the seal condition can be set as the feed time and the seal set time.
(2) In the embodiment, the seal characteristic data is input from the input unit 21 to the calculation unit 22. However, the measurement unit 22 is connected to the storage unit 22 and the measurement unit 22 measures the measurement result. Can be output to the storage unit 22. As a result, it is possible to save labor for the operator to input the seal characteristic data from the input unit 21.

It is a schematic diagram which shows the bag making machine of the Example by this invention. It is a figure which shows the display screen displayed when determining the sealing conditions of the bag making machine of the Example by this invention. It is a flowchart which shows operation | movement of the bag making machine of the Example by this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Bag making machine 20 Seal condition calculation part 21 Input part 22 Calculation part 30 Mechanism part 40 Control part 200 Display screen

Claims (9)

A mechanism that produces a bag-shaped product by sealing the laminated film base material with a hot plate, and a bag making machine that includes a control unit that performs overall control of the mechanism.
An input unit for inputting seal characteristic data of the film base material and work condition data for operating the mechanism unit;
An arithmetic unit that is connected to the input unit and calculates a seal condition based on the seal characteristic data and the work condition data input to the input unit and outputs a calculation result to the control unit;
A bag making machine. The bag making machine according to claim 1,
The sealing property data is the measurement result of the relationship between the temperature of the hot plate, the sealing time and the seal welding surface temperature in the sealing processing of the film base material, and the melting point temperature of the film base material,
The working condition data is a feeding time of the film base of the mechanism unit and the number of shots of the hot plate,
The seal condition is a set temperature and a set time of the hot plate,
The calculation unit obtains an approximate expression based on each measurement result of the seal characteristic data, and calculates the appropriate seal condition based on the approximate expression, the working condition data, and the melting point temperature,
A bag making machine characterized by The bag making machine according to claim 1,
The sealing property data is the measurement result of the relationship between the temperature of the hot plate, the sealing time and the seal welding surface temperature in the sealing processing of the film base material, and the melting point temperature of the film base material,
The working condition data is the set time of the seal of the film base of the mechanism unit and the number of shots of the hot plate,
The sealing condition is a set temperature and feed time of the hot plate,
The calculation unit obtains an approximate expression based on each measurement result of the seal characteristic data, and calculates the appropriate seal condition based on the approximate expression, the working condition data, and the melting point temperature,
A bag making machine characterized by The bag making machine according to claim 1,
The sealing property data is the measurement result of the relationship between the temperature of the hot plate, the sealing time and the seal welding surface temperature in the sealing processing of the film base material, and the melting point temperature of the film base material,
The working condition data is a set temperature and the number of shots of the hot plate of the mechanism unit,
The sealing condition is a feeding time and a seal setting time of the film base material,
The calculation unit obtains an approximate expression based on each measurement result of the seal characteristic data, and calculates the appropriate seal condition based on the approximate expression, the working condition data, and the melting point temperature,
A bag making machine characterized by In the bag making machine according to any one of claims 1 to 4,
The input unit inputs material information data associated with the seal property data,
A storage unit for storing a plurality of the material information data and the seal characteristic data input by the input unit;
A bag making machine characterized by The bag making machine according to claim 5,
A search unit that searches the storage unit for the material information data that matches the material information data newly input from the input unit;
A bag making machine characterized by The bag making machine according to claim 6,
The search unit searches the material information data in the storage unit for a material similar to the material information data newly input from the input unit;
A bag making machine characterized by In the bag making machine according to any one of claims 5 to 7,
The material information data is the item name of the film base material and the layer structure of the material of the film base material,
A bag making machine characterized by In the bag making machine according to any one of claims 1 to 8,
The seal characteristic data is output from the measuring instrument that measures the seal characteristic data to the arithmetic unit;
A bag making machine characterized by

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