TW201038378A - Control module capable of automatically adjusting positions of slitting blades - Google Patents

Abstract

This invention is related to a control module capable of automatically adjusting positions of slitting blades. The control module comprises a control component, a plurality of slitting blade moving actuators and a drive machine. The control module has functions including data input, drive control, stroke detection and calculation. The slitting blade moving actuators are arranged linearly in sequence and each connected to a respective slitting blade. The drive machine is controlled by the control component and is provided to drive the slitter blade moving actuators with stroke detection so as to move the respective slitting blade in sequence to a desired position. The purpose for automatically adjusting difference interval between slitting blades is achieved.

Description

201038378 VI. Description of the Invention: [Technical Field] The present invention relates to a film cutting machine, and more particularly to a control module for automatically controlling each cutting blade to change position in the film cutting machine. [Prior Art] If the sole, ... 4 film is used in the forming process, the film cutting machine is first used to cut a large area of film into a strip of film of a predetermined width, and the strips of film are respectively introduced into the forming machine. Medium, cutting or punching into a predetermined shape, because the film such as the sole will be divided into appropriate widths due to the size of different models, to save material, therefore, in the existing film cutting machine, it is set The plurality of cutting knives on the same drive shaft are mostly combined with the group adjustment mechanism, so that the distance between the cutting knives has an adjustable work: the cutting knife adjustment mechanism of the film cutting machine is mainly designed as a cutting knife. Position,...: The whole position must be adjusted one by one. The adjustment work of the cutting knife must be used for the working time of t # f U, and there is no operation for the operation of the priest/beihua, the inconvenience, and the time-consuming fee. The shortcomings of work. In order to improve the aforementioned cutting knife manual, the inventor *m is inconvenient to operate the moving mechanism, day. It is also counted as the Chinese version of the 220187 adjustment tool (椟μ I & said the synchronous automatic wear-driven uranium knife machine, the cutting machine is mainly based on the array set by the moving axis of the cutting device The adjustment devices respectively carry the upper and lower adjustment devices, and when the strip cutter is used to adjust the cutting knife, the 4 differential & shifts to make the separation. The knife can be adjusted synchronously with a certain distance. Synchronous automatic adjustment tool plastic (rubber) film cutting machine set 3 201038378 meter, can only drive the adjustment device connected to each tool group to produce equal displacement, so that the position difference of each tool is the same 'does not have automatic adjustment tool The function of unequal spacing between groups, that is, the film slitter can cut a plurality of long strips of film of the same width every time only one large area of film, no

The method of equal-width cutting film makes the large-area glue J unnecessary unnecessary material to be fully utilized and reduced. [Inventive content] The main purpose of the present invention is to provide a 桃 桃 桃 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 The control module of the knife position u is designed to change the disadvantages of the different spacing of the cutting knife. 〃 can not be automatically adjusted to achieve the pre-existing purpose of the present invention, the design of the positionable control module includes a control group and a drive unit, the set of tool displacement drives, and the control Component package, stroke detection and calculation processing function knife '』in, drive control line is linearly arranged and connected to a relatively wide = tool displacement actuator according to the control component and 捭m knives' Detect 'to drive the array of knives and set them. The corresponding slitting knife is sequentially displaced to the designated position. The present invention is automatically adjusted by the foregoing, and is applied to the control module of the plastic (oil) #g + & knife position for the operator to set each adjustment. When cutting the position of the knife, the spacing between the adjacent cutting blades and the Hitachi _ distance is not necessarily equal, Λ h the mother and the adjacent cutting knife between the milk δ and the completion of the German, the control means can be used to control the components With the automatic σ仃钿 detection method, the freezing device drives every piece of the '° mother-group tool displacement belt TJJ universal position stop/tool displacement actuator displacement' and then causes each group to reach the predetermined cutting knife. Positioning after positioning, 201038378 In this way, let the operation be cut, and waste the plastic (rubber) film area that can be cut into strips. The knife uses plastic (rubber) ray material to avoid unnecessary materials. [The method of the invention] $-r ώ * TM ^ μ The control die for automatically adjusting the position of the cutting blade is used to set the second blade. In the machine, the function of the number of slitting knives (?) on the drive shaft (1) of the cutting machine is as follows: 'The composition of the control module is mainly package 〇 (3),: the part and the array tool displacement The actuator (4) and the drive unit are specifically designed in the following several preferred embodiments. In the basin: ', 士, 、, the figure shows that the control module can automatically adjust the position of the cutting blade. The first preferred embodiment is applied to a state of use of a drive shaft (1) having a plurality of slitting blades (2) in a film slitter, as can be seen from the figure, the control mode capable of automatically adjusting the position of the cutting blade The first preferred embodiment includes a drive unit (3), an array of tool displacement actuators (4), and a control unit, wherein: the drive unit (3) comprises two drive shafts (3A) and two drive assemblies (3C), the two drive assemblies (3C) each include a drive motor (3d), the two The drive shafts (3A) are arranged in parallel, and the two drive motors (3D) are respectively connected by their spindles to corresponding drive shaft (3A) ends for respectively driving the two drive shafts (3a) to rotate, the two drive assemblies ( 3C) one of the drive components (3C) as a forward drive assembly for driving the drive shaft (3A) forward rotation function, and the other drive assembly (3C) as a reverse drive assembly for driving the drive shaft _ reverse rotation Features. The array tool displacement actuators (4) each comprise a set of clutch transmission kits 201038378 () and a 'tool shifting member (41), the tool shifting member (41) being disposed under the clutch transmission kit (40), The array cutter actuators (4) are sequentially arranged in a row and each of the clutch shafts (3A) of the two drive assemblies (3C) are provided with their clutch transmission kits (4), wherein the clutch transmissions are provided therein. The kit (4〇) is operatively coupled to one of the two transmission shafts (3A) to be driven, and the other transmission shaft (3A) is idling therein, or The drive shaft (3A) is in an idling and disengaged state, and the tool shifting member () is used to connect all the knives (2) corresponding to the drive shaft (1). The control component comprises a controller (5) and a plurality of stroke measuring components, and the controller (5) comprises a data input, a drive control and an arithmetic processing function, and the controller (5) is electrically connected to the controller a clutch transmission kit (4〇) and the two driving components (3C), the plurality of stroke measuring members are respectively disposed on the clutch transmission kits (40), and electrically connected to the controller (5), The displacement travel data of the tool displacement π actuator (4) on the two transmission shafts (3A) is transmitted to the control (5), and the stroke measuring component can select a rotary encoder for obtaining ◎ * ^ The I-type transmission kit (4Q) linearly shifts the line-spinning material on the three transmission shafts (3A) so that the cymbal controller (5) can selectively activate the two-drive motor (3D) for positive (reverse) rotation. And determining, according to the displacement stroke data provided by the range 1 measuring member disposed on the array tool displacement 2 (4), sequentially determining the clutch transmission actuator (40) of the array tool displacement actuator (4) Clutch timing on the second drive shaft (3A). The first preferred addition of the control module that automatically adjusts the position of the cutting blade = when applied to a film cutting machine, the operator can sequentially input each adjacent cutting knife in the controller (5) ( 2) The value of the spacing between the two, after which, the cutting machine is stopped, '", the lowering or reversing drive assembly (3C) commanded by the controller (5) 6 201038378 =: motor Π) drives the connected transmission shaft (3α) Rotation, such as the second: 糸 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令 令Stroke measuring member detection arrival: fixed position shift (4) The cutting knife (7) corresponding to the linkage state of the rotating transmission shaft (3Α) is first positioned on the driving shaft (1), and then one or two standing, Ο ο: with displacement The stroke measuring component on the actuator (4) detects: two = capture, and then the first departure and the rotation I are sequenced until the last one is set to the second (1) t position, according to the detection of the component When the set position is reached, the stroke measuring shaft (10) on the turbulence (4) is screwed to the Lrr line and the rotation is transmitted. This uses all the tool positions first; :=(4) displacement, and then the tool displacement actuators (4) are sequentially displaced to the position and then automatically positioned so that the individual control = (? spacing) can be achieved. It is effective to avoid the collision of the displacement of the tool displacement actuators (4). The fifth figure shows that the second preferred embodiment of the control module for automatically adjusting the position of the cutting blade of the present invention is applied. The film cutting machine has a use state diagram above the drive shaft (1) of the plurality of slitting blades (2), and the control module capable of automatically adjusting the position of the cutting blade comprises a driving unit (3), an array a tool displacement actuator (4) and a control assembly, wherein: the drive unit (3) comprises: a drive shaft (3Α), a guide rod (36) and a plurality of drive assemblies (3C), the drive shaft (3Α) And the guide (3 days) is parallel and placed above the drive shaft (1), each of the drive assemblies (3C) includes a 201038378 drive shaft (3A) and can be along the drive shaft (3A) Displaced transmission element and a drive motor 1 connected to the transmission element ... the array The displacement actuator (4) is sequentially arranged on the transmission shaft (3A) and the guide rod (3B). The array tool displacement actuators (4) each comprise a set of joint assemblies (40A) and a tool shifting member (4). 41) The sleeve assembly (4〇a) provides the drive shaft (3A) and the guide rod (3B) disposed in parallel, and respectively provides a group of drive assemblies (3C) disposed thereon, the cutter The pushing member (41) is disposed under the driving component (3C) for connecting the corresponding slitting blade (2). The control component comprises a controller (5) and a plurality of stroke measuring members, the controller (5) 〉including data input, drive control and arithmetic processing functions, the controller (5) is electrically connected to the drive components (3C), and the plurality of components are respectively disposed on the socket components (5GA) and electrically connected to the control ^ (5) 'The displacement travel data for obtaining the tool displacement actuator (4) on the transmission shaft (3) is transmitted to the controller (5), and the stroke measuring member can be selected by rotary coding. To obtain the torque data of the displacement of the drive component (3C) along the drive shaft (3a), and then calculate by the controller (5) The processing means is converted into the stroke data of the linear displacement of the tool displacement actuator (4), and the controller can respectively control whether the array driving component (3C) starts displacement along the transmission shaft (3A) and is provided according to the stroke measuring component. The travel data is displaced, and the timing of the movement and stop of the array tool displacement actuator (4) along the drive shaft (3A) is sequentially determined. The second preferred embodiment of the control module capable of automatically adjusting the position of the cutting blade is applied to the position of the plastic (rubber) film cutting machine to adjust the cutting blade. The operator can sequentially insert each in the controller (5). The value of the spacing between two adjacent cutting knives (2), then, in the state where the cutting machine is stopped, as shown in the seventh and eighth figures, 201038378 = = (5) command each group of driving components (3c) respectively Drive the displacement of the tool at the same time, and be placed on the first set of tool displacement actuators (4) 丄 = when the component detection reaches the set position, "τ ° ° and then the drive assembly (3C) is placed on the drive shaft (3Α) positioning, (1) the fixed #, + ^ ^ cutting knife (2) in the driving shaft amount χί槿 '' set on the second group of tool displacement actuator (4) When the detection reaches the set position, the workpiece (10) is fixed on the transmission shaft (3Α), and the cutting knife (2) corresponding to the stencil #2 on the upper drive group axis is driven in the order of (4) γ 立. Until the last set of tool displacement: () the stroke measuring member _ reaches the set position, the driver assembly (3C) is fixed and the drive shaft (3A) is fixed. k stops all the tool displacement actuators (4) bit eight; thereby using the first-order displacement to the predetermined position since: stop =: with = motion = =::, the knife (2 -, and two two tool displacement actuator (4) The collision occurs when the displacement occurs. ο The invention can automatically adjust the cutting blade position by the prior disclosure = the preferred embodiment design, when it is applied to the plastic (rubber) glue::: knife position operation, it can be achieved ::Adjust the cutting function, so that the distance between the two adjacent cutting blades is not -: "The plastic cutting edge of the adjacent cutting knife to be cut into strips is equal to "疋", so that the operator can t琢J Film area and appropriate plastic (rubber) film material, to avoid a charge / knife use can provide a pole /, therefore, the control module design of the present invention. (four) ^ value of the automatic adjustment of the knife position Brief Description of the Drawings] The first figure is a control module capable of automatically adjusting the position of the cutting blade automatically according to the present invention. 9 201038378 - The preferred embodiment is applied to the cutting blade diagram. The side view plane above the driving shaft indicates the second BRIEF DESCRIPTION OF THE DRAWINGS A preferred embodiment of the invention is applied to the drawings. The third diagram is the invention - a preferred embodiment Drive the cutting diagram (1) 0 The control module can automatically adjust the position of the cutting knife. The top plane of the driving shaft of the cutting knife can automatically adjust the position of the cutting blade. The first knife is displaced on the driving shaft. Use status reference

The fourth figure is a preferred embodiment of the present invention to drive the cut (2). The control module for automatically adjusting the position of the cutting blade is used in the state of displacement of the driving shaft. The fifth embodiment is applied to the drawing. A control plane that automatically adjusts the position of the cutting blade. The side view plane above the drive shaft of the cutting blade

6 is a top plan view of a preferred embodiment of the present invention applied to a control module of a cutting blade capable of automatically adjusting the position of a cutting blade. FIG. 7 is a second embodiment of the present invention. (One). The control module that can automatically adjust the position of the cutting blade is used. The eighth embodiment of the present invention drives the cutting (2). The control module that can automatically adjust the position of the cutting knife. The state of the displacement of the first knife on the drive shaft. [Main component symbol description] (1) Drive shaft (2) Cutting knife 201038378 (3) Drive unit (3 A) Drive Shaft (3 C) Drive Assembly (4) Tool Displacement Actuator (40) Clutch Drive Kit (41) Tool Shift (5) Controller (3B> Guide Rod (3D) Drive Motor (40A) Socket Assembly

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Claims (1)

201038378 VII. Patent application scope: 1_ kinds of control modules that can automatically adjust the position of the cutting knife, including: The data system includes data input, drive control, stroke measurement and arithmetic processing functions; Array tool displacement actuator The system is arranged in a straight line and is respectively connected to the corresponding slitting knife; and the β motive '', and the text is controlled by the control component and the matching stroke detection, and is used to drive the number of the implanting knife. ' /, displacement V actuators respectively drive their corresponding cutters to sequentially shift to the specified position. The invention can automatically adjust the cutting knife according to the scope of the patent scope: the industrial module 'where' the driving unit includes two transmission shafts and components, the two transmissions are positive >< w ^ 仃 ° The two driving components each include a driving description, and the (four) motor is respectively connected to one of the driving shafts for driving the two driving shafts and the driving shaft to rotate and drive the rotating shaft in the forward direction. The number and the tool displacement actuators each comprise a set of clutches of a set of knives, and the knives are provided in the clutch drive set. The transmission shaft is inserted therein, and the clutch transmission t/; 11 control connection transmission kit can be connected to one of the transmission sleeves of the transmission sleeve and is driven by the moving shaft in the straight line. ',, the second two-way, or the combination of the clutch transmission kit and the two transmission idling; the transmission shaft is included in the control assembly _such as: Μ # ,,, „ & The control and write connection ▲ The stroke measuring component is electrically connected to the clutch-type linkage kits, and the plurality of stroke measuring components are respectively disposed on the clutches 12 201038378 to electrically connect the controller, so that the controller can selectively activate the two-drive I ^ ¥ -2^ One of the rotations of A, and the displacement stroke data provided by the measurement measuring component disposed on the tool displacement actuator, and sequentially determining the clutch linkage of the array of tool displacement actuators In the second transmission On occasion. Σ 3- The control module capable of automatically adjusting the position of the cutting blade as described in claim 2, wherein the stroke measuring member is a rotary encoder for obtaining each clutch transmission kit on the two transmission shafts The linear displacement data is transmitted to the controller. 4. The control mold stage capable of automatically adjusting the position of the cutting blade according to the scope of the patent application, wherein the driver assembly comprises a transmission shaft, a guide rod and a plurality of driving components, the transmission deduction rod is parallel Providing that the plurality of drive components each comprise a transmission element that can be driven to be displaced along the transmission shaft and a drive motor that connects the transmission elements; The array tool displacement actuator, the array tool displacement carrier shifting member provides the set and respectively provides a set of driving component group driving components; the sequential arrangement of the driving shaft and the guiding rod respectively comprises a set The connecting component and a tool pushing drive shaft and the guiding rod are disposed in parallel, wherein the tool pushing member is disposed on the 丨g ...~妖.丨回1丁到菫测部件, the engineering component includes - controller And a plurality of stroke measuring members, the controller is electrically connected to the driving components, the plurality of stroke measuring members are respectively disposed on the socket assemblies, and the poor connection is also connected to the control stolen, so that the controller It is possible to separately control whether the array driving component starts A, VL & + dry or not to start the transmission shaft displacement, and according to the displacement line provided by the stroke measuring component ^ ^ ^ ^ 夕定牙王贝枓, The sequence determines the timing of the array cutter 13 201038378 with the displacement actuator moving and stopping along the drive shaft. - 5. The control module capable of automatically adjusting the position of the cutting blade according to the scope of claim 4, wherein the stroke measuring member is a rotary encoder for obtaining each driving component separately The torque data of the transmission shaft displacement is transmitted to the controller, and the controller calculates the stroke data converted into the linear displacement of the tool displacement actuator. Eight, schema: (such as the next page) ❹ 14