WO2024001033A1 - 一种自动换卷设备 - Google Patents
一种自动换卷设备 Download PDFInfo
- Publication number
- WO2024001033A1 WO2024001033A1 PCT/CN2022/135488 CN2022135488W WO2024001033A1 WO 2024001033 A1 WO2024001033 A1 WO 2024001033A1 CN 2022135488 W CN2022135488 W CN 2022135488W WO 2024001033 A1 WO2024001033 A1 WO 2024001033A1
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- WO
- WIPO (PCT)
- Prior art keywords
- tape
- unwinding
- spare
- roll
- belt
- Prior art date
Links
- 230000007246 mechanism Effects 0.000 claims abstract description 589
- 239000000463 material Substances 0.000 claims abstract description 429
- 239000008207 working material Substances 0.000 claims abstract description 161
- 239000002390 adhesive tape Substances 0.000 claims abstract description 44
- 238000012545 processing Methods 0.000 claims abstract description 18
- 238000011144 upstream manufacturing Methods 0.000 claims abstract description 13
- 239000003292 glue Substances 0.000 claims description 152
- 238000001179 sorption measurement Methods 0.000 claims description 59
- 238000002360 preparation method Methods 0.000 claims description 43
- 239000000853 adhesive Substances 0.000 claims description 38
- 230000001070 adhesive effect Effects 0.000 claims description 38
- 238000004804 winding Methods 0.000 claims description 34
- 230000033001 locomotion Effects 0.000 claims description 31
- 238000012937 correction Methods 0.000 claims description 30
- 238000005520 cutting process Methods 0.000 claims description 29
- 238000007664 blowing Methods 0.000 claims description 28
- 238000012546 transfer Methods 0.000 claims description 23
- 238000005304 joining Methods 0.000 claims description 14
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Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/18—Attaching, e.g. pasting, the replacement web to the expiring web
- B65H19/1842—Attaching, e.g. pasting, the replacement web to the expiring web standing splicing, i.e. the expiring web being stationary during splicing contact
- B65H19/1852—Attaching, e.g. pasting, the replacement web to the expiring web standing splicing, i.e. the expiring web being stationary during splicing contact taking place at a distance from the replacement roll
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/12—Lifting, transporting, or inserting the web roll; Removing empty core
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/102—Preparing the leading end of the replacement web before splicing operation; Adhesive arrangements on leading end of replacement web; Tabs and adhesive tapes for splicing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/105—Opening of web rolls; Removing damaged outer layers; Detecting the leading end of a closed web roll
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/18—Attaching, e.g. pasting, the replacement web to the expiring web
- B65H19/1805—Flying splicing, i.e. the expiring web moving during splicing contact
- B65H19/181—Flying splicing, i.e. the expiring web moving during splicing contact taking place on the replacement roll
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/20—Cutting-off the expiring web
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/41—Winding, unwinding
- B65H2301/417—Handling or changing web rolls
- B65H2301/418—Changing web roll
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/46—Splicing
- B65H2301/4604—Opening web rolls, remove outer layers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/46—Splicing
- B65H2301/461—Processing webs in splicing process
- B65H2301/4611—Processing webs in splicing process before splicing
- B65H2301/46115—Processing webs in splicing process before splicing by bringing leading edge to splicing station, e.g. by chain or belt
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/46—Splicing
- B65H2301/461—Processing webs in splicing process
- B65H2301/4615—Processing webs in splicing process after splicing
- B65H2301/4617—Processing webs in splicing process after splicing cutting webs in splicing process
- B65H2301/46172—Processing webs in splicing process after splicing cutting webs in splicing process cutting expiring web only
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/46—Splicing
- B65H2301/463—Splicing splicing means, i.e. means by which a web end is bound to another web end
- B65H2301/4631—Adhesive tape
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2403/00—Power transmission; Driving means
- B65H2403/90—Machine drive
- B65H2403/94—Other features of machine drive
- B65H2403/942—Bidirectional powered handling device
Definitions
- the present application relates to the technical field of battery manufacturing, and more specifically, to an automatic roll changing device.
- winding strips such as cathode sheets, separators, anode sheets, etc.
- the incoming material of the winding tape is often a roll. It is necessary to use the unwinding mechanism to load the material roll and drive the material roll to rotate and unwind the winding material tape.
- An automatic roll changing device including:
- the unwinding device is used to load the working material roll and the spare material roll, and drive the working material roll to unwind and output the working material strip;
- the starting processing device includes a supporting mechanism and a picking-up mechanism.
- the supporting mechanism is located between the spare material roll and the working material roll; the picking-up mechanism is used to pick up the starting end of the material strip on the spare material belt and pull it.
- the starting end of the material tape reaches between the support mechanism and the working material roll, so that the spare material tape is wound around the support mechanism;
- the tape splicing device includes two tape splicing mechanisms, one of which carries the tape.
- the tape splicing mechanism carrying the tape is used to press the first part of the tape and the spare material tape to the support mechanism.
- one side; the tape splicing mechanism that does not carry the tape is used to press the work material tape to the opposite side of the support mechanism, and cut off the work from the upstream side of the support mechanism material tape, and the working material tape is pressed onto the second part of the tape from the downstream side of the support mechanism.
- the support mechanism is controllably movable along a first direction between the avoidance position and the tape connecting position, and the unwinding device includes spaced arrangements along a second direction intersecting the first direction.
- Two unwinding mechanisms, the material rolls loaded on the two unwinding mechanisms can alternately serve as the working material roll and the spare material roll respectively;
- the pickup mechanism can controllably move between the two unwinding mechanisms to pull the starting end of the material tape to pass between the avoidance position and the tape joining position, so that the support mechanism is When the avoidance position moves to the belt connecting position, the spare material belt is wound around the support mechanism.
- the support mechanism includes a support block controllably movable along the first direction, the support block has first adsorption surfaces on both sides in the second direction, and the third An adsorption surface is used to adsorb the spare material belt.
- the support mechanism further includes a first support roller rotatably disposed on the support block, and the first support roller is located on a side of the support block facing the avoidance position;
- Each of the belt splicing mechanisms has a rotatable abutting roller;
- the contact roller of the tape splicing mechanism carrying the tape is used to press the spare material tape on the first support roller.
- the contact roller of the belt splicing mechanism is used to press the working material belt on the first support roller.
- the support mechanism further includes a second support roller rotatably disposed on the support block, and the second support roller is located on a side of the support block facing the belt splicing position, And used for winding the spare material belt.
- the starting processing device further includes a first swing mechanism drivingly connected to the pickup mechanism, and the first swing mechanism is used to drive the pickup mechanism between the two unwinding mechanisms. swing.
- the belt connecting device further includes two second swing mechanisms corresponding to the two belt connecting mechanisms, and each of the second swing mechanisms is driven by the corresponding belt connecting mechanism. Connected to drive the corresponding belt-connecting mechanism to swing in a direction closer to or away from the support mechanism.
- the pickup mechanism includes a mounting base and a clamping assembly disposed on the mounting base, the clamping assembly having a first clamping part and a second clamping part arranged oppositely;
- a clamping space for clamping the starting end of the material strip on the spare material roll is formed between the first clamping member and the second clamping member, and at least one of the two clamping members can be closer to or closer to the other. keep away;
- the mounting base can controllably drive the clamping assembly to move to the spare material roll to clamp the starting end of the material strip, and drive the clamping assembly to move, thereby pulling the spare material strip around the support. mechanism.
- the first clamping member has a second adsorption surface on a side facing the second clamping member, and the second clamping member has a second adsorption surface on a side facing the first clamping member. blowing side;
- the blowing surface blows the corner portion of the starting end of the material toward the second adsorption surface and is adsorbed by the second adsorption surface.
- the pickup mechanism includes:
- a mounting base capable of controlled movement closer to or away from the spare roll
- the adhesive and removal assembly includes a tape unwinding structure, a tape rewinding structure and an adhesive removal part, all of which are arranged on the mounting base; the tape unwinding structure is used to output tape material to the adhesive removal part, so that the adhesive tape can be
- the adhesive tape is wound around the adhesive piece, and the side of the adhesive tape away from the adhesive piece is the adhesive surface; the tape winding structure is used to wind up the adhesive piece after being wound around it.
- the mounting seat when the mounting seat moves close to the spare material roll, it can drive the sticking piece to contact the spare material roll, so that the adhesive tape on the sticking piece can stick to the spare material roll.
- the starting point of the tape on the reel when the mounting seat moves close to the spare material roll, it can drive the sticking piece to contact the spare material roll, so that the adhesive tape on the sticking piece can stick to the spare material roll.
- the sticking member is a sticking roller, and the sticking roller is rotatably connected to the mounting base around its own axis.
- the tape winding structure when the mounting base drives the adhesive roller to contact the spare roll, the tape winding structure rewinds the adhesive tape and drives the adhesive roller to rotate, The spare material roll rotates to unwind the spare material strip, and the rotation direction of the sticking roller is opposite to the rotation direction of the spare material roll.
- the support mechanism has an avoidance state and a connecting state
- the support mechanism When the support mechanism is in the avoidance state, the support mechanism avoids the movement of the mounting base that drives the adhesive and removal piece away from the spare material roll;
- the support mechanism When the support mechanism is in the tape splicing state, the support mechanism allows the spare material tape pulled out by the adhesive tape on the sticking and removing member to wind around.
- the support mechanism includes a transfer base and a support block, one end of the support block is rotatably connected to the transfer base;
- the support block swings relative to the transfer seat until the length direction of the support block is parallel to the width direction of the spare material tape; when the support block When the mechanism is in the avoidance state, the support block swings relative to the transfer seat until the length direction of the support block intersects the width direction of the spare material strip.
- each of the tape connecting mechanisms has a first abutting portion and a second abutting portion that can jointly carry the tape;
- the working material tape is pressed to the other side of the support mechanism through its first contact portion, and passes through Its second contact portion presses the working material belt from the downstream side of the support mechanism toward the belt splicing mechanism carrying the tape until it contacts the belt splicing mechanism carrying the tape.
- the second contact portion is pressed tightly.
- each of the tape splicing mechanisms further includes a cutting portion for cutting the work material tape, the cutting portion is located at the first abutting portion away from the second abutting portion. side.
- each of the tape splicing mechanisms can controllably move between its respective glue preparation position and the tape splicing position
- the tape splicing device also includes a glue preparation mechanism.
- the glue preparation mechanism includes a movable base and a glue supply assembly arranged on the movable base.
- the glue supply assembly has a glue supply suction cup for adsorbing the tape.
- the glue supply suction cup can be controlled moved along the first preset direction;
- the movable base can be controlled to move to the glue preparation position of each of the tape splicing mechanisms; when the movable base moves to the glue preparation position of any of the strap splicing mechanisms, the glue supply suction cup and the corresponding The first contact portion and the second contact portion of the belt splicing mechanism are arranged relatively in the first preset direction.
- the tape splicing device further includes a barrel transportation mechanism and a barrel collection mechanism, the barrel transportation mechanism is installed on the moving base, and the barrel collection mechanism is arranged in the first position;
- the unwinding device includes two unwinding mechanisms respectively arranged in the second position and the third position;
- the movable base can controllably move between the first position, the second position and the third position; when the movable base moves to the second position or the third position, the The barrel transfer mechanism clamps the corresponding empty barrel on the unwinding mechanism; when the moving base moves to the first position, the barrel transfer mechanism transfers the clamped empty barrel to the Barrel collection mechanism.
- the unwinding device includes two unwinding mechanisms
- the automatic roll changing device further includes a device for guiding the working material strip that is unrolled and output by any one of the two unwinding mechanisms. guide device;
- Each unwinding mechanism includes a correction assembly and an unwinding assembly installed at the driving end of the correction assembly.
- the unwinding assembly has an unwinding shaft for loading working material rolls or spare material rolls.
- the correction assembly is used to drive The unwinding assembly moves along the axial direction of the unwinding shaft;
- the guide device includes a fixed base, a guide frame, a guide roller and a switching mechanism; the guide frame is movably connected to the fixed base in a direction parallel to the axial direction of the unwinding shaft, and the guide roller is installed on On the guide frame, the switching mechanism is connected to the guide frame and can be selectively connected to any one of the unwinding assemblies of the two unwinding mechanisms.
- the unwinding device includes two unwinding mechanisms, each of the unwinding mechanisms includes an unwinding component and a material picking component, and the unwinding component includes a carrying base, a carrying shaft, and a unwinding shaft;
- the bearing shaft is installed on the bearing base, the unwinding reel is coaxially arranged on the bearing shaft, and has a mounting section and an unwinding section.
- the unwinding reel is rotatable around its own axis relative to the bearing shaft. and is axially movable, and during the axial movement of the unwinding reel relative to the load-bearing shaft, the unwinding section can be driven to dock or separate from the load-bearing shaft in the axial direction;
- the carrying shaft is used to carry one or more spare material rolls
- the material shifting assembly is used to stir the spare material rolls on the carrying shaft to move toward the unwinding section.
- the unwinding device is initially loaded with working material rolls and spare material rolls, and drives the working material rolls to rotate and transport the working material belt downstream.
- the two strap-connecting mechanisms are respectively named the first strap-joining mechanism and the second strap-joining mechanism.
- the first tape splicing mechanism carries tape.
- the second tape splicing mechanism does not carry tape.
- the pickup mechanism picks up the starting end of the spare material roll on the unwinding device, and pulls the starting end of the material tape to between the support mechanism and the working material roll, so that the pulled out spare material tape is wound around the support mechanism .
- the spare material tape between the support mechanism and the spare material roll is the first spare material tape section
- the spare material tape between the support mechanism and the starting end of the material tape is the second spare material tape section.
- the first tape splicing mechanism is controlled to move toward the support mechanism, so that the first tape splicing mechanism presses the first part of the tape and the first spare tape section on one side of the support mechanism, that is, the first part of the tape is pasted On the spare tape.
- the second belt-joining mechanism is controlled to move toward the support mechanism, so that the second belt-joining mechanism presses the working material belt and the second backup material belt section against the other side of the support mechanism.
- the second tape splicing mechanism is controlled to cut the working material tape from the upstream side of the support mechanism, and the second tape splicing mechanism is controlled to press the working material tape against the third tape of the tape on the first tape splicing mechanism from the downstream side of the supporting mechanism.
- the working material tape is bonded to the second part of the tape on the first tape splicing mechanism.
- the first part of the tape is bonded to the spare material tape
- the second part of the tape is bonded to the working material tape, that is, the spare material tape and the working material tape are bonded together through the tape, thereby realizing tape splicing.
- the first tape splicing mechanism and the second tape splicing mechanism are controlled to move away from the support mechanism respectively to prepare for the next automatic roll change.
- the spare material roll on the unwinding device is switched to the working material roll, and is driven and rotated by the unwinding device to continue to unwind and output the working material strip downstream.
- the empty barrel on the unwinding device (it should be noted that the material roll is formed by wrapping the tape around the empty barrel, and the empty barrel is what remains after the unwinding of the working material roll is completed) can be replaced with new material.
- the new material roll is used as a spare material roll to switch to the working material roll after the next automatic roll change.
- the next automatic roll change process is similar to the above roll change process, so it is not limited here.
- the automatic roll changing equipment of the present application can realize automatic switching between working material rolls and spare material rolls (ie, automatic roll changing) without manual roll changing, which reduces labor costs, has a high degree of automation, and is conducive to improving production efficiency.
- Figure 1 is a front view of the automatic roll changing equipment in an embodiment of the present application (the glue preparation mechanism is omitted);
- FIG 2 is a side view of the automatic roll changing equipment shown in Figure 1 (the glue preparation mechanism is omitted);
- FIGS 3 to 7 are demonstration diagrams of the automatic roll changing process of the automatic roll changing equipment shown in Figure 1;
- Figure 8 is a schematic structural diagram of the connection between the working material belt and the spare material belt
- Figure 9 is a schematic structural diagram of the pickup mechanism of the starting processing device of the automatic roll changing equipment shown in Figure 1;
- Figure 10 is a schematic structural diagram of the pickup mechanism shown in Figure 9 clamping the starting end of the material tape on the spare material tape;
- 11 to 14 are structural schematic diagrams of the action process of the pickup mechanism of the starting processing device pulling out the spare material tape in another embodiment of the present application;
- Figure 15 is a front view of the starting processing device shown in Figure 11;
- Figure 16 is a side view of the starting processing device shown in Figure 15;
- Figure 17 is a cross-sectional view of the tape unwinding structure of the starting processing device shown in Figure 15;
- Figure 18 is a front view of the tape winding structure of the starting processing device shown in Figure 15;
- Figure 19 is a cross-sectional view along the B-B direction of the tape winding structure shown in Figure 18;
- Figure 20 is a cross-sectional view along the A-A direction of the tape winding structure shown in Figure 18;
- Figure 21 is a front view of the pickup mechanism of the start processing device shown in Figure 15;
- Figure 22 is a left view of the pickup mechanism shown in Figure 21;
- Figure 23 is a right view of the pickup mechanism shown in Figure 21;
- Figure 24 is a perspective view of the pickup mechanism shown in Figure 21;
- Figure 25 is a front view of the support mechanism of the starting processing device shown in Figure 15;
- Figure 26 is a side view of the support mechanism shown in Figure 25;
- Figure 27 is a schematic structural diagram of the glue preparation mechanism in an embodiment of the present application.
- Figure 28 is a top view of the glue preparation mechanism shown in Figure 27;
- Figure 29 is a schematic structural diagram of the barrel collection mechanism in an embodiment of the present application.
- Figure 30 is a cross-sectional view along the A-A direction of the barrel collection mechanism shown in Figure 29;
- Figure 31 is a top view of the barrel collection mechanism shown in Figure 29;
- Figure 32 is a schematic structural diagram of the unwinding device and the guide device in one embodiment of the present application.
- Figure 33 is a side view of the unwinding device shown in Figure 32;
- Figure 34 is an assembly structural diagram of the stop block on the bearing shaft of the unwinding device shown in Figure 33;
- Figure 35 is an assembly structural diagram of the first wedge-shaped block and the second wedge-shaped block on the bearing shaft of the unwinding device shown in Figure 33;
- Figure 36 is a schematic structural diagram of a guide device in an embodiment of the present application.
- first and second are used for descriptive purposes only and cannot be understood as indicating or implying relative importance or implicitly indicating the quantity of indicated technical features. Therefore, features defined as “first” and “second” may explicitly or implicitly include at least one of these features.
- “plurality” means at least two, such as two, three, etc., unless otherwise expressly and specifically limited.
- connection In this application, unless otherwise clearly stated and limited, the terms “installation”, “connection”, “connection”, “fixing” and other terms should be understood in a broad sense. For example, it can be a fixed connection or a detachable connection. , or integrated into one; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be an internal connection between two elements or an interactive relationship between two elements, unless otherwise specified restrictions. For those of ordinary skill in the art, the specific meanings of the above terms in this application can be understood according to specific circumstances.
- the first embodiment of the present application provides an automatic roll changing equipment, including an unwinding device, a starting processing device and a tape splicing device.
- the unwinding device is used to load the working material roll A1 (see Figure 3) and the spare material roll A2 (see Figure 3), and drive the working material roll A1 to unwind and output the working material strip B1 downstream.
- the working material belt B1 and the backup material belt B2 may be diaphragms. That is to say, the working material roll A1 and the backup material roll A2 are diaphragm material rolls.
- the working material belt B1 and the backup material belt B2 can also be other types of material belts, which are not limited here.
- the start processing device includes a support mechanism 21 and a pickup mechanism 22 .
- the support mechanism 21 is located between the working material roll A1 and the spare material roll A2 of the unwinding device.
- the pickup mechanism 22 is used to pick up the starting end B21 of the spare material roll A2 on the unwinding device, and pull the starting end B21 of the material tape (see Figure 3) to between the support mechanism 21 and the working material roll A1, so that the starting end B21 of the material tape is pulled out.
- the spare material belt B2 is wound around the support mechanism 21.
- the tape splicing device includes two tape splicing mechanisms 31 , either of which carries the tape C. As shown in FIG. That is to say, when one of the two tape splicing mechanisms 31 carries the tape C, the other one does not carry the tape C.
- the tape splicing mechanism 31 carrying the tape C is used to press the first part of the tape C and the spare material tape B2 to one side of the support mechanism 21, so that the first part of the tape C and the spare material tape B2 are bonded.
- Another tape splicing mechanism 31 that does not carry tape C is used to press the working material tape B1 to the opposite side of the support mechanism 21, and is connected by the upstream side of the support mechanism 21 (ie, the support mechanism as shown in Figure 5 21) cuts the working material belt B1, and the downstream side of the support mechanism 21 (ie, the upper side of the support mechanism 21 as shown in Figure 5) presses the working material belt B1 against the second part of the tape C, The working material strip B1 is bonded to the second part of the adhesive tape C. At this time, the working material tape B1 and the backup material tape B2 are bonded to the same tape C, that is, tape splicing is achieved.
- the unwinding device is loaded with the working material roll A1 and the spare material roll A2, and drives the working material roll A1 to rotate and transports the working material belt B1 downstream.
- the two belt connecting mechanisms 31 are respectively named the first belt connecting mechanism 31a and the second belt connecting mechanism 31b.
- the first tape splicing mechanism 31a carries the tape C.
- the second tape splicing mechanism 31b does not carry the tape C.
- the pickup mechanism 22 picks up the starting end B21 of the spare material roll A2 on the unwinding device, and pulls the starting end B21 of the material tape to reach between the support mechanism 21 and the working material roll A1, so that the pulled out spare material tape B2 is wound around the support mechanism 21 .
- the spare material tape B2 between the support mechanism 21 and the spare material roll A2 is the first spare material tape section B22 (see Figure 5)
- the spare material tape B2 between the support mechanism 21 and the starting end B21 of the material tape is the third spare material tape section B22. 2.
- Reserve material belt section B23 see Figure 5).
- the first tape splicing mechanism 31a is controlled to move toward the support mechanism 21, so that the first tape splicing mechanism 31a presses the first part of the tape C and the first spare material tape segment B22 on one side of the support mechanism 21, That is, stick the first part of tape C on the spare tape B2.
- the second belt connecting mechanism 31b is controlled to move toward the support mechanism 21, so that the second belt connecting mechanism 31b presses the working material belt B1 and the second backup material belt section B23 against the other side of the support mechanism 21.
- the second belt splicing mechanism 31b is controlled to cut the working material belt B1 from the upstream side of the support mechanism 21, and the second belt splicing mechanism 31b is controlled to press the working material belt B1 against the first belt splicing from the downstream side of the supporting mechanism 21.
- the second part of the adhesive tape C on the mechanism 31a causes the working material belt B1 to be bonded to the second part of the adhesive tape C on the first tape splicing mechanism 31a.
- the first part of the tape C is bonded to the spare material tape B2
- the second part of the tape C is bonded to the working material tape B1, that is, the spare material tape B2 and the working material tape B1 are bonded together through the tape C, thereby achieving Tape.
- the first tape splicing mechanism 31a and the second tape splicing mechanism 31b are controlled to move away from the support mechanism 21 respectively to prepare for the next automatic roll change.
- the spare material roll A2 on the unwinding device is switched to the working material roll A1, and is driven and rotated by the unwinding device to continue to unwind and output the working material tape B1 downstream.
- the empty barrel A3 on the unwinding device (it should be noted that the material roll is formed by wrapping the tape around the empty barrel A3, and when the unwinding of the working material roll A1 is completed, the empty barrel A3 is left).
- Replace with a new material roll which is used as a spare material roll A2 to switch to the working material roll A1 after the next automatic roll change.
- the next automatic roll change process is similar to the above roll change process, so it is not limited here.
- the automatic roll changing equipment of the present application can realize automatic switching between the working material roll A1 and the spare material roll A2 (that is, automatic roll changing) without the need for manual roll changing, which reduces labor costs, has a high degree of automation, and is conducive to improving production efficiency. .
- the working material roll A1 refers to a material roll that is driven to rotate by the unwinding device and transports the working material belt B1 downstream.
- the working material strip B1 refers to the material strip on the working material roll A1.
- the spare roll A2 refers to the roll on the unwinding device that does not convey the material belt downstream.
- the spare material tape B2 refers to the material tape on the spare material roll A2. It can be understood that after automatic roll change, the spare material roll A2 is switched to the working material roll A1 and the working material belt B1 is transported downstream; at the same time, the working material roll A1 is unrolled to form an empty barrel A3, which can be The barrel A3 is replaced with a new roll, and the new roll is used as the spare roll A2.
- the upstream and downstream of the support mechanism 21 are relative to the working material belt B1, that is, the end of the support mechanism 21 closer to the downstream of the working material belt B1 is the downstream end, and the end closer to the working material belt B1 is the downstream end.
- the upstream end is the upstream end.
- the lower side of the support mechanism 21 is the upstream side
- the upper side of the support mechanism 21 is the downstream side.
- the automatic roll changing device has a first roll changing state and a second roll changing state.
- the first tape splicing mechanism 31a carries a tape C.
- the first tape splicing mechanism 31a and the second tape splicing mechanism 31b move to the support mechanism 21 and abut against the opposite sides of the support mechanism 21 respectively, the first tape splicing mechanism 31a connects the first part of the tape C and the first backup tape C.
- the strip section B22 is pressed against one side of the support mechanism 21 (ie, the right side of the support mechanism 21 as shown in Figure 5).
- the second belt splicing mechanism 31b presses the working material belt B1 and the second backup material belt segment B23 on the other side of the support mechanism 21 (ie, the left side of the support mechanism 21 as shown in FIG. 5 ).
- the second tape splicing mechanism 31b can be controlled to cut the working material tape B1
- the second tape splicing mechanism 31b can be controlled to press the working material tape B1 against the second part of the tape C on the first tape splicing mechanism 31a. on, so that the working material tape B1 and the backup material tape B2 are bonded and connected through the tape C to complete the tape splicing.
- the second tape splicing mechanism 31b When the automatic roll changing device is in the second roll changing state, the second tape splicing mechanism 31b carries a tape C.
- the first tape splicing mechanism 31a and the second tape splicing mechanism 31b move to the support mechanism 21 and abut against the opposite sides of the support mechanism 21 respectively, the second tape splicing mechanism 31b connects the first part of the tape C and the first backup tape C.
- the strip section B22 is pressed against one side of the support mechanism 21 (ie, the left side of the support mechanism 21 as shown in Figure 5).
- the first belt splicing mechanism 31a presses the working material belt B1 and the second backup material belt section B23 on the other side of the support mechanism 21 (ie, the right side of the support mechanism 21 as shown in Figure 5).
- the first tape splicing mechanism 31a can be controlled to cut the working material tape B1, and the first tape splicing mechanism 31a can be controlled to press the working material tape B1 against the second part of the tape C of the second tape splicing mechanism 31b. , so that the working material belt B1 and the backup material belt B2 are bonded and connected through the tape C to complete the tape splicing.
- the support mechanism 21 can be controllably moved along the first direction ).
- the strap connecting position is located above the avoidance position.
- the unwinding device includes two unwinding mechanisms 11 spaced apart along the second direction Y intersecting the first direction X.
- the rolls loaded on the two unwinding mechanisms 11 can be alternately used as working rolls A1 and spare rolls A2.
- the pickup mechanism 22 can controllably move between the two unwinding mechanisms 11 to pull the starting end B21 of the material belt to pass between the avoidance position and the belt connection position, so that the pulled out spare material belt B2 is located between the avoidance position and the connection position.
- the backup material belt B2 is wound around the support mechanism 21 when the support mechanism 21 moves from the avoidance position to the belt connection position.
- the first direction X is perpendicular to the second direction Y.
- the first direction X is the up-down direction
- the second direction Y is the left-right direction.
- the two unwinding mechanisms 11 are respectively named the first unwinding mechanism 11a and the second unwinding mechanism 11b.
- the material roll on the first unwinding mechanism 11a is the working material roll A1, and the working material belt B1 is transported downstream.
- the roll on the second unwinding mechanism 11b is the spare roll A2, and the first tape splicing mechanism 31a carries the tape C.
- the pickup mechanism 22 moves toward the spare material roll A2 on the second unwinding mechanism 11b until the spare material strip is picked up.
- the material belt on B2 starts from the starting end B21 (see Figure 3).
- the pickup mechanism 22 moves to the left, so that the leading end B21 of the pulling material belt passes between the avoidance position and the belt joining position.
- the support mechanism 21 moves upward from the avoidance position to the tape connecting position, so that the spare material tape B2 passes through the upper side of the support mechanism 21 (see Figure 4).
- the part of the spare material tape B2 between the support mechanism 21 and the spare material roll A2 (that is, the right side of the support mechanism 21) is the first spare material tape section B22; the spare material tape B2 is between the support mechanism 21 and the pickup mechanism 22.
- the part between (that is, the left side of the support mechanism 21) is the second spare material belt section B23.
- the first belt connecting mechanism 31a is controlled to move toward the supporting mechanism 21 in the belt connecting position, so that the first belt connecting mechanism 31a abuts the right side of the supporting mechanism 21, and then the supporting mechanism 21 and the first belt connecting mechanism 31a are The first spare material strip segment B22 and the first part of the adhesive tape C are bonded (see Figure 5).
- the second belt connecting mechanism 31b moves toward the support mechanism 21 in the belt connecting position, so that the second belt connecting mechanism 31b abuts the left side of the support mechanism 21, so that the support mechanism 21 and the second belt connecting mechanism 31b jointly connect the belt.
- the working material belt B1 and the second spare material belt section B23 are compacted (see Figure 6).
- the second belt splicing mechanism 31b is controlled to cut the working material belt B1 from the upstream side of the support mechanism 21, and the second belt splicing mechanism 31b is controlled to compress the working material belt B1 to the first belt splicing from the downstream side of the supporting mechanism 21.
- the working material belt B1 is bonded to the second part of the adhesive tape C (see Figure 7).
- the right sides of the working material belt B1 and the backup material belt B2 are bonded and connected through the tape C, that is, the tape splicing is realized.
- the first belt connecting mechanism 31a moves to the right to the initial position
- the second belt connecting mechanism 31b moves to the left to the initial position
- the supporting mechanism 21 moves downward to the avoidance position.
- the spare material roll A2 on the second unwinding mechanism 11b is switched to the working material roll A1, and the second unwinding mechanism 11b drives the working material roll A1 on it to rotate and continue to convey the working material belt B1 downstream.
- the empty material barrel A3 on the first unwinding mechanism 11a can be replaced with a new material roll, and the new material roll is used as the spare material roll A2.
- glue can be prepared for the second tape splicing mechanism 31b to prepare for the next automatic roll change.
- the pickup mechanism 22 moves toward the spare material roll A2 on the first unwinding mechanism 11a until the spare material is picked up.
- the tape on roll A2 starts at end B21.
- the pickup mechanism 22 moves to the right, so that the starting end B21 of the pulling material belt passes between the avoidance position and the belt joining position.
- the support mechanism 21 moves upward from the avoidance position to the tape connecting position, so that the spare material tape B2 passes through the upper side of the support mechanism 21 .
- the part of the spare material tape B2 between the support mechanism 21 and the spare material roll A2 (ie, the left side of the support mechanism 21) is the first spare material tape section B22; the spare material tape B2 is between the support mechanism 21 and the pickup mechanism 22.
- the part between (that is, the right side of the support mechanism 21) is the second spare material belt section B23.
- the second belt connecting mechanism 31b is controlled to move toward the support mechanism 21 in the belt connecting position, so that the second belt connecting mechanism 31b contacts the left side of the support mechanism 21, and then the support mechanism 21 and the second belt connecting mechanism 31b
- the first spare material strip segment B22 and the adhesive tape C are bonded.
- the first belt connecting mechanism 31a moves toward the supporting mechanism 21 in the belt connecting position, so that the first belt connecting mechanism 31a abuts the right side of the supporting mechanism 21, and then the supporting mechanism 21 and the first belt connecting mechanism 31a jointly move Press the working material belt B1 and the second spare material belt section B23 tightly.
- the first belt splicing mechanism 31a is controlled to cut the working material belt B1 from the upstream side of the support mechanism 21, and the first belt splicing mechanism 31a is controlled from the downstream side of the supporting mechanism 21 to compress the working material belt B1 to the second belt splicing mechanism.
- the adhesive tape C on the second tape splicing mechanism 31b is bonded to the adhesive tape C on the second tape splicing mechanism 31b.
- the left sides of the working material belt B1 and the backup material belt B2 are bonded through the tape C, that is, the tape splicing is realized.
- the second belt connecting mechanism 31b moves to the left to the initial position
- the first belt connecting mechanism 31a moves to the right to the initial position
- the supporting mechanism 21 moves downward to the avoidance position.
- the standby material roll A2 on the first unwinding mechanism 11a is switched to the working material roll A1, and the first unwinding mechanism 11a drives the working material roll A1 on it to rotate and continues to convey the working material belt B1 downstream.
- the pick-up mechanism 22 can move between the two unwinding mechanisms 11 by means of swing or linear movement, so as to pick up the starting end B21 of the material tape on the spare material roll A2 and pull the picked up starting end of the material tape. B21 passes between the avoidance position and the belt connection position.
- the pickup mechanism 22 moves between the two unwinding mechanisms 11 in a swinging manner, which is beneficial to reducing the space occupied near the support mechanism 21 and thereby providing better support for the support mechanism. 21 cooperates with the two strap splicing mechanisms 31 to leave enough space for strap splicing.
- the starting processing device also includes a first swing mechanism 23 drivingly connected to the pickup mechanism 22. The first swing mechanism 23 is used to drive the pickup mechanism 22 to swing between the two unwinding mechanisms 11 around the first swing axis.
- the first swing mechanism 23 includes a base 232 and a first swing driving member 233 .
- the first swing driving member 233 is disposed on the base 232 , and the pickup mechanism 22 is connected to the output shaft of the first swing driving member 233 to be driven by the first swing driving member 233 to swing around the first swing axis, so that the pickup mechanism 22 Under the driving action of the first swing driving member 233, the unwinding device 11 swings around the first swing axis between the two unwinding mechanisms 11.
- the first swing driving member 233 may use a motor.
- the first swing axis is perpendicular to both the first direction X and the second direction Y.
- the picking mechanism 22 includes a mounting base 221 and a clamping component 222 provided on the mounting base 221 .
- the clamping assembly 222 has a first clamping part 2221 and a second clamping part 2223 arranged oppositely.
- a clamping space f is formed between the first clamping member 2221 and the second clamping member 2223 for clamping the starting end B21 of the material strip on the spare material roll A2, and at least one of the two is opposite to the other. It can be moved closer or farther away to clamp or loosen the starting end B21 of the material belt.
- the mounting base 221 is configured to controllably drive the first clamping member 2221 and the second clamping member 2223 to the backup material roll A2 to clamp the starting end B21 of the material strip and drive the first clamping member 2221 and the second clamping member 2223 pull the starting end B21 of the material belt to pass between the avoidance position and the belt connecting position.
- the control mounting base 221 moves toward the spare material roll A2 until the first clamping member 2221 and the second clamping member 2223 of the clamping assembly 222 are driven. against the spare material roll A2, so that the starting end B21 of the material strip on the spare material roll A2 is located between the first clamping part 2221 and the second clamping part 2223 (the spare material roll A2 can be driven to rotate through the unwinding mechanism 11 , until the starting end B21 of the material strip on the spare material roll A2 is located between the first clamping member 2221 and the second clamping member 2223).
- the installation seat 221 is controlled to move in a direction away from the backup material roll A2 until the leading end B21 of the traction material belt passes between the avoidance position and the belt connection position, so that the support mechanism 21 moves from the avoidance position to the belt connection position for backup.
- the material tape B2 is wound around the support mechanism 21, and the tape splicing is completed with the cooperation of the two tape splicing mechanisms 31.
- the mounting base 221 can controllably move to a clamping position close to the spare material roll A2 and a pulling position away from the spare material roll A2.
- the clamping assembly 222 clamps the starting end B21 of the spare material strip B2.
- the clamping assembly 222 pulls the starting end B21 of the clamped material belt to pass between the avoidance position and the belt connecting position.
- one end of the mounting base 221 is connected to the first swing driving member 233, and the clamping assembly 222 is installed on the other end of the mounting base 211, so that the clamping assembly 22 swings between the two unwinding mechanisms 11 along with the mounting base 221.
- the clamping assembly 222 is driven to clamp the starting end B21 of the material strip on the spare material roll A2, and the clamped starting end B21 of the material strip is pulled to pass between the avoidance position and the tape connecting position.
- the corner parts B211 on both sides of the middle part of the starting end B21 of the material tape are in a free state.
- the first clamping member 2221 has a second adsorption surface g1 on the side facing the second clamping member 2223, and the second clamping member 2223 faces the first One side of the clamping member 2221 has a blowing surface g2.
- the blowing surface g2 blows the corner part B211 of the starting end B21 of the material tape towards the second adsorption surface g1 And is adsorbed by the second adsorption surface g1. At least one of the first clamping member 2221 and the second clamping member 2223 is close to the other until the blowing surface g2 on the second clamping member 2223 clamps the corner portion B211 of the spare material strip B2. on the second adsorption surface g1 of the first clamping member 2221.
- the blowing surface g2 on the second clamping part 2223 is used to blow up the corner part B211 of the starting end B21 of the material tape to the second adsorption surface g1 of the first clamping part 2221, and then use The first clamping member 2221 and the second clamping member 2223 clamp the corner portion B211 of the tape starting end B21 that is adsorbed on the second adsorption surface g1.
- the first clamping part 2221 is stationary, and the second clamping part 2223 can move closer to or away from the first clamping part 2221.
- the blowing surface g2 on the second clamping member 2223 blows air, so that the corner B211 of the starting end B21 of the tape is blown up to the first clamping member 2221 on the second adsorption surface g1 and is adsorbed by the second adsorption surface g1.
- the second clamping member 2223 is controlled to move close to the first clamping member 2221 until the first clamping member 2221 and the second clamping member 2223 clamp the corner B211 of the starting end B21 of the material strip on the blowing surface g2 and the second adsorption surface g1.
- the second clamping member 2223 moves close to the first clamping member 2221 to clamp the corner portion B211, and the first clamping member 2221 is fixed, thereby avoiding the edge of the first clamping member 2221 when moving.
- the corner portion B211 gradually separates from the second adsorption surface g1, resulting in a smaller area of the clamped corner portion B211 and is unstable.
- both the second adsorption surface g1 and the blowing surface g2 include two. That is to say, the side of the first clamping member 2221 facing the second clamping member 2223 has two second adsorption surfaces g1. The side of the holding member 2223 facing the first holding member 2221 has two blowing surfaces g2. The two second adsorption surfaces g1 and the two blowing surfaces g2 are arranged opposite each other in the arrangement direction of the first clamping parts 2221 to the second clamping parts 2223 (that is, in the left and right direction as shown in FIG. 9 ).
- one of the second adsorption surfaces g1 is opposite to one of the blowing surfaces g2, and the other second adsorption surface g1 is opposite to the other one of them.
- One blowing surface g2 is opposite.
- the corner B211 is located between a set of opposite second adsorption surfaces g1 and the air blowing surface g2, and the other corner part B211 of the starting end B21 of the material belt is located between another set of opposite second adsorption surfaces g1 and air blowing surfaces g2. between.
- the two blowing surfaces g2 blow air at the same time, so that the two corner portions B211 are blown up to the two second adsorption surfaces g1 respectively, and are then respectively adsorbed by the two second adsorption surfaces g1.
- the second clamping member 2223 is controlled to move closer to the first clamping member 2221 until the two blowing surfaces g2 on the second clamping member 2223 respectively clamp the two corner portions B211 between the two second suction On the surface g1, the clamping of the starting end B21 of the material belt is further made more stable.
- each second adsorption surface g1 and the corresponding blowing surface g2 are parallel to each other, so that when the corner part B211 is clamped, the second adsorption surface g1 and the opposite blowing surface g2 fit more closely.
- the clamping of Part B211 is more stable.
- the distance between the two blowing surfaces g2 gradually decreases, and the distance between the two second adsorption surfaces g1 The spacing between them is also gradually reduced, thereby ensuring that the blowing surface g2 can blow as much material as possible in the corner portion B211 to the corresponding second adsorption surface g1, thereby making as much material in the corner portion B211 as possible It is clamped and fixed to further improve the stability of the clamping.
- the clamping component 222 is rotatably connected to the mounting base 221 around a rotation axis, and the arrangement direction of the first to second clamping parts 2221 to 2223 is perpendicular to the rotation axis.
- the spatial angle of the first clamping part 2221 and the second clamping part 2223 can be adjusted by controlling the clamping component 222 to rotate around the rotation axis, so that when the first clamping part 2221 and the second clamping part 2223 are installed,
- the first clamping part 2221 and the second clamping part 2223 both abut against the peripheral surface of the spare material roll A2, and the first clamping part 2221 and the second clamping part 2223 are spaced along the circumferential direction of the spare material roll A2, so that the first clamping part 2221 and the second clamping part 2223 can accurately clamp the starting end B21 of the material strip on the spare material roll A2.
- the clamping assembly 222 also includes a rotating base 2225 and a clamping driving member 2226.
- the rotating base 2225 is rotatably connected to the mounting base 221 around the rotation axis.
- the first clamping member 2221 is fixedly connected to the rotating base 2225, and the second clamping member 2223 is movably connected to the rotating base 2225 close to or away from the first clamping member 2221, so that the first clamping member 2221 and the second clamping member 2221 are connected to the rotating base 2225.
- the two clamping parts 2223 can rotate around the rotation axis following the rotating base 2225 to adjust the spatial angle of the first clamping part 2221 and the second clamping part 2223 so that the beginning of the material strip on the spare material roll A2 can be accurately clamped.
- the clamping driving member 2226 is disposed on the rotating base 2225 and is drivingly connected with the second clamping member 2223, so that the second clamping member 2223 can be driven toward or away from the first clamping member 2221 to clamp or loosen the material. Bring up the head end B21.
- the gripper drive 2226 may be a cylinder.
- the first clamping member 2221 may include two first sub-clamping members, and the second clamping member 2223 may also include one corresponding to the two first sub-clamping members.
- a set of two second sub-clamps The two sets of first sub-clamping parts and the second set of sub-clamping parts are respectively used to clamp the two corner parts B211 of the starting end B21 of the material strip.
- the two first sub-clamping parts are both fixedly connected to the rotating base 2225, and the two second sub-clamping parts can be connected to the rotating base 2225 toward or away from the respective first sub-clamping parts.
- Each first sub-clamp has a second adsorption surface g1 on its side facing the corresponding second sub-clamp
- each second sub-clamp has a second adsorption surface g1 on its side facing the corresponding first sub-clamp. Blowing side g2.
- the clamping driving parts 2226 include two.
- the two clamping driving parts 2226 are both arranged on the rotating base 2225 and are drivingly connected to the two second sub-clamping parts respectively. That is to say, one of the clamping driving parts 2226 is used to drive the blowing surface g2 of one of the second sub-clamping parts toward or away from the second adsorption surface g1 of the corresponding first sub-clamping part to clamp Tighten or loosen one of the corner portions B211; the other clamping driving member 2226 is used to drive the blowing surface g2 of the other second sub-clamping member toward the second corresponding first sub-clamping member.
- the suction surface g1 is moved closer or farther away to clamp or loosen the other corner portion B211.
- the clamping assembly 222 also includes a rotary driving member 234 , a driving wheel 235 , a driven wheel 236 and a transmission belt (not shown).
- the rotating driving member 234 is installed on the mounting base 221
- the driving wheel 235 is installed on the output shaft of the rotating driving member 23
- the driven wheel 236 is installed on the rotating base 2225
- the transmission belt is sleeved between the driving wheel 235 and the driven wheel 236.
- the rotating driving member 234 drives the driving wheel 235 to rotate, and the driving wheel 235 drives the driven wheel 236 to rotate through the transmission belt, from which The driving wheel 236 drives the rotating base 2225 to rotate, and the rotating base 2225 drives the first clamping member 2221 and the second clamping member 2223 to rotate.
- the starting processing device also includes a detection mechanism 23, which is used to detect the starting end B21 of the material tape on the spare material roll A2. s position.
- the unwinding device can be controlled to drive the spare material roll A2 to rotate, and the detection mechanism 23 can be used to detect the position of the starting end B21 of the material strip on the spare material roll A2.
- the unwinding device controls the backup material roll A2 to stop rotating, thereby ensuring that the pickup mechanism 22 moves to the position where the first clamping member 2221 and the second clamping member 2223 are in contact with the backup material roll A2.
- the starting end B21 of the material tape on the spare material tape A2 is located between the first clamping part 2221 and the second clamping part 2223, thereby ensuring that the first clamping part 2221 and the second clamping part 2223
- the starting end B21 of the material strip can be accurately clamped.
- the detection mechanism 23 may use a photoelectric sensor or an image sensor.
- each tape splicing mechanism 31 has a first abutment portion 310 and a second abutment portion 311 that can jointly carry an adhesive tape C.
- the tape splicing mechanism 31 carrying the tape C connects the tape C (i.e., the first part of the tape C) and the first spare tape segment through its first contact portion 310 B22 is pressed to one side of the support mechanism 21; the other tape joining mechanism 31 that does not carry the tape C presses the working material belt B1 to the other side of the support mechanism 21 through its first contact portion 310, and passes
- the second contact portion 311 of itself presses the working material belt B1 from the downstream side of the support mechanism 21 to the tape C (that is, the second part of the tape C) of the second contact portion 311 of the tape splicing mechanism 31 carrying the tape C.
- the tape splicing mechanism 31 uses the first contact part 310 and the second contact part 311 to jointly carry the tape C, so that the first contact part 310 bonds the first part of the tape C to the spare material tape B2, and the third The two contact parts 311 bond the second part of the adhesive tape C to the working material tape B1 to realize tape splicing.
- each tape splicing mechanism 31 further includes a cutting part 312 for cutting the work material tape B1.
- the cutting part 312 is located on the side of the first abutting part 310 away from the second abutting part 311. In this way, after the belt splicing mechanism 31 uses the first contact portion 310 to press the working material belt B1 on the support mechanism 21, the cutting portion 312 cuts the passing working material belt B1, so that the working material belt B1 is separated from the empty space. Barrel A3 is separated.
- the support mechanism 21 includes a support block 210 controllably movable along the first direction On the first adsorption surface 2101 of the adsorption spare material belt B2.
- the support mechanism 21 also includes a first support roller 212 rotatably disposed on the side of the support block 210 facing the avoidance position (ie, the lower side of the support block 210 in FIG. 2 ).
- the belt splicing mechanism 31 has a contact roller 313 that can rotate around its own axis (see Figure 3).
- the contact roller 313 on the belt connecting mechanism 31 abuts against the first support roller 212 of the support mechanism 21 at the belt connecting position, thereby pressing together.
- the first spare material belt segment B22 or the working material belt B1 is tightened; and the first contact portion 310 of the belt connecting mechanism 31 can controllably move toward the corresponding first adsorption surface 2101 and abut against each other, thereby placing the first spare material belt B1.
- the material belt section B22 or the working material belt B1 is pressed against the corresponding first adsorption surface 2101.
- the tape splicing mechanism 31 carrying the tape C moves to the tape splicing position, so that the contact roller 313 of the tape splicing mechanism 31 presses the first spare tape section B22 of the spare tape B2 on the second tape.
- the first adsorption surfaces 2101 on both sides of the support block 210 respectively adsorb the first spare material belt section B22 and the second spare material belt section B23 of the spare material belt B2, thereby preventing the spare material from bypassing the support mechanism 21.
- the second clamping member 2223 is controlled to move away from the first clamping member 2221, thereby releasing the clamping of the starting end B21 of the material strip.
- the unwinding mechanism 11 that controls the loading of the spare material roll A2 drives the spare material roll A2 to rotate to gradually wind up the spare material tape B2 until the starting end B21 of the tape moves to the first adsorption surface 2101 of the support block 210 and is adsorbed. Then, the first contact portion 310 of the tape splicing mechanism 31 that is adsorbed with the tape C presses the first spare material tape segment B22 and the tape C against the first adsorption surface 2101 on one side of the support block 210, so that the spare material tape B2 It is adhered to the portion of the tape C located on the first contact portion 310 .
- the tape splicing mechanism 31 that does not absorb the tape C is controlled to move to the tape splicing position, so that the contact roller 313 on the tape splicing mechanism 31 presses the working material belt B1 against the first support roller 212, and controls the splicing mechanism 31 to press the working material belt B1 against the first support roller 212.
- the first contact portion 310 of the belt mechanism 31 presses the working material belt B1 and the starting end B21 of the material belt against the first adsorption surface 2101 on the side of the support block 210 away from the tape C.
- the cutting part 312 of the tape splicing mechanism 31 that does not absorb the tape C is controlled to cut the work material belt B1
- the second contact part 311 of the tape splicing mechanism 31 that does not absorb the tape C is controlled to press the work material tape B1. It is tightly attached to the second contact portion 311 of the tape splicing mechanism 31 where the adhesive tape C is adsorbed, so that the working material belt B1 and the portion of the adhesive tape C located on the second contact portion 311 are bonded.
- the two tape splicing mechanisms 31 leave the support block 210 and return to the initial position. The support block 210 moves to the avoidance position, and the tape splicing is completed at this time.
- the support mechanism 21 further includes a second support roller 213 rotatably installed on the side of the support block 210 facing the belt connecting position (ie, above the support block 210 shown in FIG. 2 ).
- the spare material tape B2 is wound around the second support roller 213, thereby ensuring that the spare material tape B2 can be wound up smoothly in the future.
- the support mechanism 21 also includes a lifting assembly 214, and the support block 210 is installed at the driving end of the lifting assembly 214, so that the lifting assembly 214 can drive the support block 210 to move along the first direction X to the avoidance position or the belt connection position.
- the first support roller 212 and the second support roller 213 are respectively rotatably connected to both sides of the support block 210 in the first direction X around their own axes, and the first support roller 212 is located on the side of the support block 210 facing the avoidance position ( That is, the lower side of the support block 210 shown in FIG.
- the lifting component 214 can be a cylinder, an electric cylinder or a linear module.
- the belt connecting device further includes two second swing mechanisms 32 corresponding to the two belt connecting mechanisms 31 one-to-one.
- Each second swing mechanism 32 includes a second swing driving member 321 and a second swing arm 322 .
- One end of the second swing arm 322 is connected to the driving end of the second swing driving member 321 so as to be driven to rotate by the second swing driving member 321 .
- the other end of the second swing arm 322 is connected to a corresponding tape splicing mechanism 31 so that the strap splicing mechanism 31 follows the second swing arm 322 to swing between the glue preparation position and the tape splicing position.
- the two tape splicing mechanisms 31 are respectively driven by the two second swing mechanisms 32 to swing between their respective glue preparation positions and tape splicing positions.
- the two belt connecting mechanisms 31 swing to the belt connecting position, they cooperate with the support mechanism 21 to complete the belt connecting.
- the two tape splicing mechanisms 31 swing to their respective glue preparation positions to complete glue preparation (ie, provide tape C for the first contact part 310 and the second contact part 311).
- the second swing driving member 321 may use a motor.
- the two belt connecting mechanisms 31 are respectively arranged on both sides of the support mechanism 21 in the second direction Y, and both the two belt connecting mechanisms 31 swing toward the support mechanism 21 until they reach the belt connecting position.
- the two tape splicing mechanisms 31 swing in directions away from each other until they both reach their respective glue preparation positions.
- the glue preparation positions of the two tape splicing mechanisms 31 cannot be understood as the same position, but should be understood as two different positions.
- each belt splicing mechanism 31 includes a first driving member 314, a moving block 315, a second driving member 316, a first contact portion 310, a second contact portion 311, a third driving member 317 and a cutting member. Cut part 312.
- the first driving member 314 is installed on the second swing arm 322, and the moving block 315 is provided at the driving end of the first driving member 314, so that the first driving member 314 can drive the moving block 315 to move.
- the second driving member 316 , the first contact portion 310 and the third driving member 317 are all installed on the moving block 315 , so that the second driving member 316 , the first contacting portion 310 and the third driving member 317 follow the moving block 315 move.
- the second contact portion 311 is provided at the driving end of the second driving member 316 so that the second driving member 316 can drive the second contact portion 311 to move.
- the cutting part 312 is provided at the driving end of the third driving member 317, so that the third driving member 317 can drive the cutting part 312 to move, thereby completing the cutting action.
- the first driving member 314 drives the moving block 315 to extend along the second direction Y to drive the first contact portion 310 to move the material belt (working material belt) B1 or spare material belt B2) is pressed on one side of the support mechanism 21.
- the third driving member 317 can drive the cutting part 312 to cut the working material belt B1 from the upstream side of the support mechanism 21.
- the second driving member 316 can drive the second driving member 316.
- the contact portion 311 extends along the second direction Y to press the work material belt B1 on the downstream side of the support mechanism 21 toward the opposite side of the support mechanism 21 until the work material belt B1 and the adhesive tape C are adhered.
- the first driving member 314, the second driving member 316 and the third driving member 317 can all use air cylinders.
- the first contact part 310 and the second contact part 311 can both use contact blocks, and the cutting part 312 can use a cutter.
- the tape splicing device also includes a glue preparation mechanism 33.
- the glue preparation mechanism 33 is used to prepare glue for the tape splicing mechanism 31 that swings to the glue preparation position (ie, tape). C is adsorbed on the first contact part 310 and the second contact part 311).
- the glue preparation mechanism 33 includes a movable base 331 and a glue supply assembly 336 arranged on the movable base 331.
- the glue supply assembly 336 has a glue supply suction cup 3361 for adsorbing the tape C.
- the glue supply suction cup 3361 is along the first preset direction. Controlled movement.
- the movable base 331 can be controlled to move to the glue preparation position of each tape splicing mechanism 31; when the movable base 331 moves to the glue preparation position of any tape splicing mechanism 31, the glue supply suction cup 3361 moves to the glue preparation position.
- the first abutting portion 310 and the second abutting portion 311 of the tape splicing mechanism 31 are arranged relatively in the first preset direction, so that the glue supply suction cup 3361 can move toward the first abutting portion 310 and the first abutting portion 311 in the first preset direction.
- the second contact part 311 moves until the first contact part 310 and the second contact part 311 absorb the tape C on the glue supply suction cup 3361.
- the first preset direction is parallel to the first direction X.
- both the first contact part 310 and the second contact part 311 have a third adsorption surface d1.
- the second driving member 316 drives the second contact portion 311 to retract, the two third adsorption surfaces d1 of the first contact portion 310 and the second contact portion 311 are flush to jointly form the glue suction surface d, thereby The glue suction surface d can be used to suck the tape C on the glue supply suction cup 3361.
- the second swing arm 322 drives the tape splicing mechanism 31 to swing to the glue preparation position, the two third adsorption surfaces d1 of the first contact part 310 and the second contact part 311 are flush, so as to jointly form the glue suction surface d.
- the glue suction surface d is opposite to the glue supply suction cup 3361 moved to the glue preparation position in the first preset direction, so that the glue supply suction cup 3361 can move toward the first abutment part 310 and the second contact part 310 along the first preset direction.
- the contact portion 311 moves until the glue suction surface d sucks the tape C on the glue supply suction cup 3361 .
- the glue preparation mechanism 33 also includes a tape unwinding assembly 333, a glue clamping assembly 334, a glue cutting assembly 335 and a glue pulling assembly 337 installed on the moving base 331.
- the tape unwinding component 333 is used to unwind and output the tape material h to the clamping component 334, and the clamping component 334 can controllably clamp or loosen the passing tape material h.
- the glue supply suction cup 3361 is located on the downstream side of the glue clamping assembly 334 and is used to absorb the passing tape material h.
- the glue pulling assembly 337 is configured to controllably clamp the tape strip h passing through the glue clamping assembly 334 , and pull the tape strip h to move to the side of the glue supply suction cup 3361 away from the glue clamping assembly 334 .
- the glue cutting assembly 335 is located between the glue clamping assembly 334 and the glue supply suction cup 3361, and is used to cut the passing tape material h.
- the head of the tape h is clamped by the glue clamping assembly 334, and the glue pulling assembly 337 is controlled to move toward the glue clamping assembly 334 until the glue clamping assembly 334 is clamped.
- the head of the tape strip h Then, the clamping assembly 334 releases the adhesive tape h, and controls the adhesive pulling assembly 337 to pull the adhesive tape h through the glue supply sucker 3361 until it reaches the side of the glue supply sucker 3361 away from the glue clamp assembly 334 .
- the glue clamping component 334 clamps the tape material h
- the glue supply suction cup 3361 absorbs and fixes the tape material h passing by, and controls the glue cutting component 335 to cut the tape material h between the glue clip component 334 and the glue supply suction cup 3361
- the glue pulling assembly 337 is released.
- the part adsorbed on the glue supply sucker 3361 is the tape C.
- the glue supply assembly 336 also includes a glue supply driving part 3362 installed on the moving base 331 and a glue supply driving part 3363 installed on the driving end of the glue supply driving part 3362.
- the glue supply driving component 3362 is used to drive the glue supply driving component 3363 to move along a second preset direction that intersects with the first preset direction.
- the glue supply driving member 3363 is drivingly connected to the glue supply suction cup 3361 to drive the glue supply suction cup 3361 to move along the first preset direction.
- the movable base 331 moves to the glue preparation position, and drives the glue supply driving part 3363 and the glue supply suction cup 3361 along the glue supply driving part 3362.
- the glue supply driving member 3363 drives the glue supply suction cup 3361 to move along the first preset direction until the tape C is sent to the first abutment portion 310 and the second abutment portion 311 of the tape splicing mechanism 31 .
- the glue supply driving member 3363 can use a cylinder.
- the first preset direction is the up and down direction
- the second preset direction is the direction perpendicular to the paper surface
- the glue supply driving component 3362 includes a first moving driving part 3364 and a second moving driving part 3365.
- the first moving driving member 3364 is installed on the moving base 331, and the second moving driving member 3365 is provided at the driving end of the first moving driving member 3364 to be driven by the first moving driving member 3364 to move in the second preset direction.
- the glue supply driving member 3363 is provided at the driving end of the second moving driving member 3365 to be driven by the second moving driving member 3365 to move in the second preset direction.
- the first moving driving member 3364 and the second moving driving member 3365 drive the glue supply driving member 3363 and the glue supply sucker 3361 to move along the second preset direction, which on the one hand ensures that the stroke of the glue supply sucker 3361 meets the demand;
- two smaller-stroke driving members are used instead of the large-stroke driving member, which is beneficial to saving the space required and making the structure more compact.
- both the first moving driving member 3364 and the second moving driving member 3365 may use air cylinders.
- the glue supply driving component 3362 can also be provided with only one moving driving member, or three or more moving driving members, as long as it can drive the glue supply sucker 3361 along the first It can move in two preset directions and meet the travel requirements, and there is no limit here.
- the clamping assembly 334 includes a clamping jaw cylinder installed on the moving base 331 and a clamping jaw installed at the driving end of the clamping jaw cylinder.
- the clamping jaw cylinder drives the clamping jaw to clamp or loosen the passing tape material h.
- other types of clamping structures can also be used in other embodiments, as long as they can clamp the passing tape h, which is not limited here.
- the glue cutting assembly 335 includes a glue cutting cylinder installed on the moving base 331 and a glue cutting knife installed on the driving end of the glue cutting cylinder.
- the glue cutting cylinder drives the glue cutting knife to cut the passing tape strip h.
- other types of cutting structures can also be used in other embodiments, as long as they can cut the passing tape h, which is not limited here.
- the glue pulling assembly 337 includes a glue pulling driving component 3371, a glue pulling slide 3372, a glue pulling jaw cylinder 3373, and a glue pulling clamp jaw 3374.
- the glue pulling driving component 3371 is installed on the moving base 331, and the glue pulling slide seat 3372 is installed on the driving end of the glue pulling driving component 3371, so that the glue pulling driving component 3371 can drive the glue pulling slide seat 3372 to move.
- the glue-pull clamping jaw cylinder 3373 is installed on the glue-pull slide 3372 to move together with the glue-pull slide 3372.
- the glue-pull clamp 3374 is installed at the driving end of the glue-pull clamp cylinder 3373, so that the glue-pull clamp cylinder 3373 can drive the glue clamp 3374 to clamp or loosen the tape material h.
- the glue-drawing driving component 3371 drives the glue-drawing slide 3372 to move close to the glue-clamping assembly 334 until the glue-drawing clamping jaw cylinder 3373 can drive the glue-drawing clamping jaw 3374 to clamp it.
- the glue clamping assembly 334 releases the adhesive tape h, and the glue pulling driving component 3371 drives the glue pulling slide 3372 away from the glue clamping assembly 334 until it reaches the side of the glue supply sucker 3361 away from the glue clamping assembly 334, that is, the glue pulling is completed.
- the glue pulling driving component 3371 can be a linear drive module in the prior art, such as a motor screw module or an electric cylinder, which is not limited here.
- the tape splicing device also includes a barrel conveying mechanism 35 and a barrel collecting mechanism 34 (see FIG. 1 ).
- the barrel conveying mechanism 35 is installed on the moving base 331 .
- the barrel collecting mechanism 34 is arranged in a first position, and the unwinding device includes two unwinding mechanisms 11 respectively arranged in a second position and a third position.
- the moving base 331 can controllably move between the first position, the second position and the third position.
- the barrel transport mechanism 35 clamps the corresponding empty barrel A3 on the unwinding mechanism 11 .
- the barrel transfer mechanism 35 transfers the clamped empty barrel A3 to the barrel collection mechanism 34 . In this way, the empty barrel A3 on the unwinding mechanism 11 is automatically transported to the barrel collection mechanism 34 for collection, which further reduces labor costs and improves the degree of automation.
- the barrel conveying mechanism 35 includes a conveying drive assembly and a clamping assembly 356 .
- the conveyance driving assembly is installed on the moving base 331
- the clamping assembly 356 is installed on the driving end of the conveyance driving assembly so as to be driven by the conveyance driving assembly to move along the axial direction of the unwinding shaft of the unwinding mechanism 11 .
- the clamping assembly 356 is used to clamp or release the empty barrel A3. In this way, when the moving base 331 moves to the second position or the third position, the conveyance driving assembly drives the clamping assembly 356 to approach the empty barrel A3 on the unwinding shaft of the unwinding mechanism 11 until the clamping assembly 356 clamps the empty barrel A3.
- the conveying driving assembly drives the clamping assembly 356 to move along the axial direction of the unwinding shaft until the clamping assembly 356 drives the empty barrel A3 to separate from the unwinding shaft of the unwinding mechanism 11 .
- the moving base 331 moves to the first position, and the conveying driving assembly drives the clamping assembly 356 to move toward the barrel collecting mechanism 34 until the empty barrel A3 is placed on the barrel collecting mechanism 34 .
- the clamping assembly 356 releases the clamping of the empty barrel A3 and moves away from the barrel collecting mechanism 34 under the driving of the conveyance driving assembly to prepare for the next handling of the empty barrel A3.
- the conveyance driving assembly includes a first conveyance driving part 351 , a first driving plate 352 , a second conveying driving part 353 and a second driving plate 354 .
- the first conveying driving member 351 is installed on the moving base 331
- the first driving plate 352 is installed on the driving end of the first conveying driving member 351 , so that the first conveying driving member 351 can drive the first driving plate 352 along the unwinding mechanism 11 The axial movement of the unwinding reel.
- the second conveying driving member 353 is installed on the first driving plate 352 to move together with the first driving plate 352 .
- the second driving plate 354 is installed at the driving end of the second conveying driving member 353 so that the second conveying driving member 353 can drive the second driving plate 354 to move along the axial direction of the unwinding shaft of the unwinding mechanism 11 .
- the clamping assembly 356 is installed on the second driving plate 354 so that the clamping assembly 356 can move together with the second driving plate 354 .
- the first conveying driving member 351 or the second conveying driving member 353 drives the clamping assembly 356 to approach the empty barrel A3 on the unwinding shaft of the unwinding mechanism 11, Until the clamping assembly 356 clamps the empty barrel A3. Then, the first conveying driving member 351 or the second conveying driving member 353 drives the clamping assembly 356 to move along the axial direction of the unwinding shaft until the clamping assembly 356 drives the empty barrel A3 to separate from the unwinding shaft of the unwinding mechanism 11 .
- both the first conveying driving member 351 and the second conveying driving member 353 may adopt air cylinders.
- the clamping component 356 may be a pneumatic clamping jaw or an electric clamping jaw, as long as the empty barrel A3 can be clamped and released, and is not limited here.
- the use of two conveying driving members to form a two-stage driving of the clamping assembly 356 is not limited. In other embodiments, only one transport driving member may be provided to drive the clamping assembly 356 to move (ie, a primary drive). In other embodiments, three or more transport driving members may also be provided, which is not limited here.
- the glue preparation mechanism 33 also includes a moving driving component 332, which is drivingly connected to the moving base 331 to drive the moving base 331 to move along the second direction Y, so that the moving base 331 passes through the first position, The second position, the third position and the respective glue preparation positions of the two tape splicing mechanisms 31.
- a moving driving component 332 which is drivingly connected to the moving base 331 to drive the moving base 331 to move along the second direction Y, so that the moving base 331 passes through the first position, The second position, the third position and the respective glue preparation positions of the two tape splicing mechanisms 31.
- the barrel conveying mechanism 35 places the empty barrel A3 on the barrel collecting mechanism 34; when the moving base 331 moves to the second position or the third position, The barrel transporting mechanism 35 removes the empty barrel A3 from the corresponding unwinding shaft of the unwinding mechanism 11; when the movable base 331 moves to the glue preparation position of one of the tape splicing mechanisms 31, the glue preparation mechanism 33 Glue is prepared on the glue suction surface d of the first contact part 310 and the second contact part 311 of 31; when the movable base 331 moves to the glue preparation position of the other strap connecting mechanism 31, the glue preparation mechanism 33 Glue is prepared on the glue suction surface d of the first contact portion 310 and the second contact portion 311 of the tape splicing mechanism 31 .
- the mobile driving component 332 may be a linear drive module in the prior art such as a motor screw module or an electric cylinder, which is not limited here.
- the barrel collecting mechanism 34 includes a connecting seat 340 and a collecting shaft 341 .
- the collecting shaft 341 is connected to the connecting base 340 and has a fixed end 3412 and a collecting end 3411 as its two longitudinal ends.
- the empty barrel A3 clamped on the clamping assembly 356 is aligned with the collecting end 3411 of the collecting shaft 341, so that the first conveying driving member 351 and the second conveying driving member
- the driving clamping assembly 356 moves toward the collecting shaft 341 along the axial direction of the collecting shaft 341, the empty barrel A3 can be sleeved on the collecting shaft 341.
- the clamping assembly 356 releases the empty barrel A3 and returns driven by the first conveying driving member 351 and the second conveying driving member.
- the first conveying driving member 351 or the second conveying driving member 353 drives the clamping assembly 356 to approach the unwinding shaft of the unwinding mechanism 11 on the empty barrel A3 until the clamping assembly 356 clamps the empty barrel A3. Then, the first conveying driving member 351 or the second conveying driving member 353 drives the clamping assembly 356 to move along the axial direction of the unwinding shaft until the clamping assembly 356 drives the empty barrel A3 to separate from the unwinding shaft of the unwinding mechanism 11 .
- the first conveying driving member 351 and the second conveying driving member 353 drive the clamping assembly 356 to move toward the collecting shaft 341 along the axial direction of the collecting shaft 341, so that the clamping assembly 356 moves toward the collecting shaft 341.
- the empty barrel A3 held by the holding assembly 356 is inserted into the collecting shaft 341 by the collecting end 3411 of the collecting shaft 341 .
- the clamping assembly 356 releases the empty barrel A3, and the first conveying driving member 351 and the second conveying driving member 353 drive the clamping assembly 356 back until it is disengaged from the collecting end 3411 of the collecting shaft 341, so as to facilitate the next operation.
- the stroke of the clamping assembly 356 is different when clamping the empty barrel A3 in the second position or the third position and when releasing the empty barrel A3 in the first position. Therefore, the first conveying driving member 351 and the second conveying driving member 351 are provided.
- the transport drive 353 is used to meet the needs of different strokes. That is to say, the required stroke of the clamping assembly 356 is satisfied by the first conveyance driving member 351 or the second conveyance driving member 353 in the second position or the third position, and the first conveyance driving member 351 is used in the first position. Together with the second conveying drive member 353, the required stroke of the clamping assembly 356 is satisfied.
- the barrel collection mechanism 34 also includes a sliding sleeve 342, a connecting rod 343 and a handle 344.
- the receiving shaft 341 is a hollow shaft and is provided with a chute extending longitudinally along its axial direction.
- the sliding sleeve 342 is disposed in the collecting shaft 341 and is movable along the axial direction of the collecting shaft 341 .
- the sliding sleeve 342 has a pushing part 3421, which extends from the chute to the peripheral surface of the collecting shaft 341, so that the sliding sleeve 342 moves from the fixed end 3412 of the collecting shaft 341 to the collecting end 3411.
- the pushing part 3421 can push the empty cylinders A3 on the collecting shaft 341 to move toward the collecting end 3411 until each empty cylinder A3 is discharged from the collecting end 3411 in sequence.
- the connecting rod 343 is disposed in the material collecting shaft 341, and one end of the connecting rod 343 is connected to the sliding sleeve 342. The other end of the connecting rod 343 extends to the material collecting end 3411 and is connected to the handle 344.
- the barrel collecting mechanism 34 also includes a guide rod 345 disposed in the collecting shaft 341.
- the two ends of the guide rod 345 are connected to the collecting end 3411 and the fixed end 3412 respectively.
- the sliding sleeve 342 is sleeved on the guide rod 345, so that the guide rod 345 is used to guide the axial movement of the sliding sleeve 342 along the collecting shaft 341.
- the barrel collection mechanism 34 also includes a first sensor 346 and a detection rod 348 .
- the first sensor 346 is installed on the connecting seat 340
- the detection rod 348 is installed on the sliding sleeve 342 .
- the first sensor 346 can detect the detection rod 348.
- the receiving shaft 341 can receive the empty barrel A3 transported by the barrel conveying mechanism 35.
- the first sensor 346 may be a photoelectric sensor or a proximity sensor.
- the barrel collection mechanism 34 also includes a second sensor 347 installed on the connection base 340.
- the second sensor 347 can detect the empty barrel A3 moving to the fixed end 3412. In this way, when the second sensor 347 detects the empty barrel A3 moving to the fixed end 3412, it indicates that the empty barrel A3 on the receiving shaft 341 is full, and the handle 344 needs to be pulled to unload the empty barrel A3.
- the second sensor 347 may be a photoelectric sensor.
- the barrel collection mechanism 34 also includes a stopper block 349 installed on the fixed end 3412 of the collecting shaft 341, and the stopper block 349 is used to stop and limit the empty barrel A3 that moves to the fixed end 3412.
- each unwinding mechanism 11 includes an unwinding assembly 13 and a material picking assembly 14 .
- the unwinding assembly 13 includes a bearing base 131, a bearing shaft 132 and an unwinding shaft.
- the bearing shaft 132 is installed on the bearing base 131
- the unwinding reel is coaxially arranged on the bearing shaft 132 and has an installation section 1331 and an unwinding section 1332 .
- the unwinding reel can rotate around its own axis and move in the axial direction relative to the bearing shaft 132 .
- the unwinding section 1332 can be driven to axially connect or separate from the bearing shaft 132.
- the bearing shaft 132 is used to carry one or more spare material rolls A2 along the axial direction
- the material shifting assembly 14 is used to stir the spare material rolls A2 on the bearing shaft 132 to move toward the unwinding section 1332 until the frontmost spare material roll A2 is moved. Roll A2 is moved to the unwinding section 1332.
- the material shifting assembly 14 moves a spare material roll A2 on the carrying shaft 132 to the unwinding section of the unwinding reel. 1332 on.
- the spare material roll A2 on the unwinding section 1332 is switched to the working material roll A1, and rotates driven by the unwinding shaft, thereby unwinding and outputting the working material tape B1 downstream.
- the unwinding mechanism 11 further includes an unwinding drive assembly disposed on the bearing base 131 .
- the bearing shaft 132 is a hollow shaft, the unwinding reel is inserted into the bearing shaft 132 , and the unwinding section 1332 extends from one end of the bearing shaft 132 .
- One end of the installation section 1331 facing away from the unwinding section 1332 is drivingly connected to the unwinding drive assembly, so that the unwinding drive assembly can drive the unwinding reel to move in the axial direction or rotate around its own axis.
- the unwinding drive assembly drives the unwinding shaft to move axially until the unwinding section 1332 is axially connected to the bearing shaft 132 .
- the material rolling assembly 14 is used to push the spare roll A2 on the carrying shaft 132 to the unwinding section 1332 .
- the unwinding drive assembly drives the unwinding reel to move in the axial direction reversely, so that the unwinding section 1332 is separated from the bearing shaft 132, thereby preventing the bearing shaft 132 from adversely affecting the unwinding process of the unwinding reel.
- the unwinding driving assembly drives the unwinding shaft to rotate, thereby driving the working material roll A1 on the unwinding section 1332 to rotate to realize unwinding.
- the unwinding driving assembly includes a separation seat 134, an unwinding driving member 136 and a separating driving member 135.
- the separation seat 134 is movably connected to the bearing seat 131 along the axial direction of the bearing shaft 132 .
- the unwinding driving member 136 is installed on the separation seat 134 and is drivingly connected with the mounting section 1331 to drive the unwinding shaft to rotate.
- the separation driving member 135 is installed on the bearing base 131 and is drivingly connected with the separation base 134 to drive the separation base 134 to move along the axial direction of the bearing shaft 132, thereby driving the unwinding driving member 136 and the unwinding shaft to move along the axial direction of the unwinding shaft. , achieving axial docking and separation between the unwinding section 1332 of the unwinding shaft and the bearing shaft 132 .
- the unwinding driving member 136 may be a motor
- the separation driving member 135 may be a cylinder.
- the unwinding drive assembly also includes a driving gear 1361 and a driven gear.
- the driving gear 1361 is installed at the driving end of the unwinding drive member 136.
- the driven gear is installed at the installation section 1331 of the unwinding shaft and is connected with the driving gear. 1361 mesh.
- the unwinding driving member 136 drives the driving gear 1361 to rotate
- the driving gear 1361 drives the driven gear to rotate
- the driven gear drives the unwinding shaft to rotate, thereby realizing unwinding.
- a slide rail and a slide block structure can be provided between the carrying seat 131 and the separation seat 134, and the slide rail and slide block structure are used to guide the movement of the separation seat 134 relative to the carrying seat 131.
- the unwinding assembly 13 further includes a stop structure, which includes a stop block 1371 .
- a stop structure which includes a stop block 1371 .
- the stop block 1371 is disposed in the installation groove 1321 and can be controllably moved along the radial direction of the bearing shaft 132 to the stop position and the loading position.
- the stop block 1371 protrudes from the circumferential side of the carrying shaft 132 to block the spare roll A2 on the carrying shaft 132 from moving toward the unwinding section 1332 .
- the stopper 1371 retracts into the carrying shaft 132 to allow the spare roll A2 on the carrying shaft 132 to move toward the unwinding section 1332 .
- the stop structure also includes a first wedge block 1374 , a second wedge block 1373 and a stop driving member 1372 (see FIG. 17 ).
- the first wedge block 1374 is installed in the installation groove 1321 of the bearing shaft 132 and has a first inclined surface L1 that is inclined relative to the axial direction of the bearing shaft 132 .
- the second wedge-shaped block 1373 is in sliding fit with the first inclined surface L1 and abuts with the stop block 1371 along the radial direction of the bearing shaft 132 , so that while the second wedge-shaped block 1373 moves along the axial direction of the bearing shaft 132 , the second wedge-shaped block 1373 is moved along the axial direction of the bearing shaft 132 .
- the stopper 1371 moves in the radial direction of the load-bearing shaft 132, thereby driving the stopper 1371 to move in the radial direction of the load-bearing shaft 132, that is, the stopper 1371 moves between the stopper position and the loading position.
- the stop driving member 1372 is installed on the bearing base 131 or the bearing shaft 132 and is drivingly connected with the second wedge block 1373 to drive the second wedge block 1373 to move along the axial direction of the bearing shaft 132 to realize the stop block 1371 in the stop position. Move between the blocking position and the loading position. In this way, the sliding fit between the second wedge block 1373 and the first inclined surface L1 of the first wedge block 1374 converts the axial movement of the second wedge block 1373 along the bearing shaft 132 into the diameter of the stop block 1371 along the bearing shaft 132 . It has a simple structure and the switching between the stop position and the loading position of the stop block 1371 is stable and reliable.
- the stop driver 1372 may be a cylinder.
- the stop structure also includes a transmission rod 1377 (see Figure 17).
- One end of the transmission rod 1377 is connected to the second wedge block 1373.
- the other end of the transmission rod 1377 extends to an end of the bearing shaft 132 close to the bearing seat 131, and Connected to the driving end of the stop driver 1372.
- the transmission rod 1377 is used to transmit the linear motion output by the stop driving member 1372 along the axial direction of the bearing shaft 132 to the second wedge block 1373 .
- the carrying shaft 132 is provided with a receiving groove extending along its axial direction. The receiving groove is used to receive the transmission rod 1377 to prevent the transmission rod 1377 from interacting with the spare material roll A2 on the carrying shaft 132 .
- the second wedge-shaped block 1373 has a second inclined surface L2 parallel to the first inclined surface L1.
- the first inclined surface L1 and the second inclined surface L2 fit together, so that the second wedge-shaped block 1373 is opposite to the first wedge-shaped block.
- the movement of 1374 is smoother, more stable and reliable.
- the second wedge-shaped block 1373 also has an abutment plane for abutting with the stopper block 1371 .
- the abutment plane is located on the side of the second wedge-shaped block 1373 away from the second inclined surface L2 and is in contact with the bearing shaft 132 . Axis parallel.
- the stop structure also includes a limiting block 1375 and an elastic member 1376.
- the limit block 1375 is installed in the installation groove 1321 and slides with the stop block 1371. When the stop block 1371 moves to the stop position, it contacts the stop block 1371 to prevent the stop block 1371 from continuing to move.
- the mounting groove 1321 moves outward.
- the elastic member 1376 is connected to the stop block 1371 and the limiting block 1375 to provide a pre-tightening force that causes the stop block 1371 to have a tendency to move toward the feeding position.
- the stop driving member 1372 drives the second wedge block 1373 to move to the left
- the second wedge block 1373 moves along the downward slope direction of the first inclined surface L1 of the first wedge block 1374 , so that the stop block 1371 is on the elastic member 1376 It moves into the installation groove 1321 under the action of the force until it completely enters the installation groove 1321 (that is, it reaches the loading position).
- the elastic member 1376 may be a torsion spring.
- each unwinding mechanism 11 further includes a correction component 12
- the correction component 12 includes a correction bottom plate 121 and a correction driver 122 .
- the bearing seat 131 of the unwinding assembly 13 is movably connected to the correction base plate 121 along the axial direction of the bearing shaft 132.
- the bearing seat 131 can drive the bearing shaft 132 and the unwinding shaft to move along the axial direction.
- the correction driver 122 is disposed on the correction bottom plate 121 and is drivingly connected to the bearing seat 131 to drive the bearing seat 131 to move along the axial direction of the unwinding reel, and then the bearing seat 131 drives the work on the unwinding reel and the unwinding section 1332 of the unwinding reel.
- the material roll A1 moves along the axial direction together, that is, the deviation of the working material belt B1 is realized.
- the deviation-correcting driving member 122 may be a linear module or the like.
- a guide structure of slide rails and slide blocks can be provided between the correction bottom plate 121 and the bearing base 131 , so that the movement of the bearing base 131 relative to the correction base plate 121 is guided by the guide structures of the slide rails and slide blocks.
- the picking assembly 14 includes a picking driving assembly 141 and a picking fork 142 installed at the driving end of the picking driving assembly 141 .
- the picking fork 142 has a picking end that extends to the bearing shaft 132 .
- the material-shifting drive assembly 141 is used to drive the material-shifting fork 142 to move along the axial direction of the bearing shaft 132, so that the material-shifting end is used to stir the spare material roll A2 on the bearing shaft 132 to move toward the unwinding section 1332, until the frontmost one The spare roll A2 moves to the unwinding section 1332.
- the shape of the material-moving end matches the shape of the peripheral surface of the carrying shaft 132, so as to better move the spare material roll A2.
- the material driving assembly 141 may be a linear module or the like.
- the automatic roll changing equipment also includes a guide device 40 for guiding the working material strip B1 unrolled and output by any one of the two unwinding mechanisms 11. .
- the unwinding assembly 13 of each unwinding mechanism 11 also includes a connecting driving block 15 connected to the bearing base 131 or the bearing shaft 132 .
- the unwinding components 13 of the two unwinding mechanisms 11 are respectively named the first unwinding component 13a and the second unwinding component 13b.
- the guide device 40 includes a fixed base 42, a guide frame 44 and a switching mechanism 45.
- the guide frame 44 is movably connected to the fixed base 42 in a direction parallel to the axial direction of the unwinding shaft of the unwinding assembly 13 .
- the guide frame 44 is equipped with a guide roller 41 for winding the working material belt B1.
- the switching mechanism 45 is connected to the guide frame 44 and can be selectively connected to one of the connecting driving block 15 of the first unwinding assembly 13a or the connecting driving block 15 of the second unwinding assembly 13b.
- the above-mentioned guide device 40 when the material roll on the first unwinding assembly 13a is the working material roll A1, the material roll on the second unwinding assembly 13b is the spare material roll A2, and the first unwinding assembly 13 performs deviation correction, first
- the control switching mechanism 45 is connected to the connection driving block 15 of the first unwinding assembly 13a, so that the first unwinding assembly 13a, driven by the correction assembly 12, performs a correction movement along the axial direction of the unwinding shaft, and at the same time, it also drives the guide frame 44 and The guide rollers 41 on the guide frame 44 perform synchronous correction movements.
- the material roll on the second unwinding assembly 13b is the working material roll A1
- the material roll on the first unwinding assembly 13a is the spare material roll A2
- the second unwinding assembly 13b performs deviation correction
- first control the switching mechanism 45 and The connection driving block 15 of the second unwinding assembly 13b is connected, so that the second unwinding assembly 13b, driven by the correction assembly 12, performs a correction movement along the axial direction of the unwinding shaft, and at the same time, it also drives the guide frame 44 and the guide frame 44.
- the guide rollers 41 perform synchronous correction movements.
- the switching mechanism 45 can be selectively connected to one of the connection driving blocks 15 of the two unwinding assemblies 13, thereby ensuring the consistency of the guide roller 41 and the unwinding shaft loading the working material roll A1. Good, improve the correction effect and ensure product quality.
- the switching mechanism 45 includes a first holding assembly 451 and a second holding assembly 452 installed on the guide frame 44 .
- the first holding component 451 can be connected to or separated from the connecting driving block 15 of one of the unwinding components 13
- the second holding component 452 can be connected to or separated from the connecting driving block 15 of the other unwinding component 13 .
- the first holding assembly 451 can be connected or separated from the connection driving block 15 of the first unwinding assembly 13a.
- the second holding component 452 can be connected or separated from the connection driving block 15 of the second unwinding component 13b.
- the first holding assembly 451 is connected to the connection driving block 15 of the first unwinding assembly 13a
- the second holding assembly 452 is connected to the second unwinding assembly 13a.
- the connecting driving block 15 of the roll assembly 13b is separated, so that the guide roller 41 and the first unwinding assembly 13a perform deviation correction movements synchronously.
- the first holding assembly 451 is separated from the connecting driving block 15 of the first unwinding assembly 13a
- the second holding assembly 452 is separated from the second unwinding assembly 13a.
- the connection driving block 15 of 13b is connected, so that the guide roller 41 and the second unwinding assembly 13b perform deviation correction movement synchronously.
- the first holding assembly 451 includes two first holding blocks 4511 and a first holding driving member 4512.
- the two first holding blocks 4511 are arranged on the guide frame 44 opposite to each other.
- the first holding driving member 4512 is drivingly connected to the two first holding blocks 4511. Driven by the first holding driving member 4512, at least one of the two first holding blocks 4511 moves closer to or away from the other to clamp or loosen the connection driving block 15 corresponding to the unwinding assembly 13.
- a first connecting block 4513 is connected to both first holding blocks 4511.
- the first holding driving member 4512 has a first fixed end and a first telescopic end that is telescopic relative to the first fixed end.
- the first fixed end and the first telescopic end are respectively connected to the two first connecting blocks 4513, so that the two first tightening blocks 4511 are driven to clamp or loosen the corresponding places by the expansion and contraction of the first telescopic end relative to the first fixed end.
- the connection of the volume assembly 13 drives the block 15 .
- the first holding driver 4512 may be a cylinder.
- the guide frame 44 is provided with a first slide rail
- the two first holding blocks 4511 are each provided with a first slide block that slides with the first slide rail.
- the two first sliding blocks are used to respectively slide along the first slide rail to guide the movement of the two first holding blocks 4511 toward or away from each other relative to the guide frame 44 .
- the second holding assembly 452 includes two second holding blocks 4521 and a second holding driving member 4522.
- the two second holding blocks 4521 are arranged on the guide frame 44 opposite to each other.
- the second holding driving member 4522 is drivingly connected to the two second holding blocks 4521. Driven by the second holding driving member 4522, at least one of the two second holding blocks 4521 moves closer to or away from the other to clamp or loosen the connection driving block 15 of the corresponding unwinding assembly 13.
- the two second holding blocks 4521 are both connected with second connecting blocks 4523.
- the second holding driving member 4522 has a second fixed end and a second telescopic end that is telescopic relative to the second fixed end.
- the second fixed end and the second telescopic end are respectively connected to the two second connecting blocks 4523, so that the two second holding blocks 4521 are driven to clamp or loosen the corresponding places by telescopically extending the second telescopic end relative to the second fixed end.
- the connection of the volume assembly 13 drives the block 15 .
- the second holding driver 4522 may be a cylinder.
- the guide frame 44 is provided with a second slide rail
- the two second holding blocks 4521 are each provided with a second slide block that slides with the second slide rail.
- the two second sliding blocks are used to respectively slide along the second slide rail to guide the movement of the two second holding blocks 4521 toward or away from each other relative to the guide frame 44 .
- the guide frame 44 includes a first guide post 441 , a guide roller base 43 and a moving base 442 .
- the first guide post 441 is in sliding fit with the fixed base 42
- the guide roller seat 43 is connected to one end of the first guide post 441 , so that the guide roller seat 43 can follow the first guide post 441 and move relative to the fixed seat 42 .
- the guide roller 41 is installed on the guide roller seat 43 so that it can move together with the guide roller seat 43 .
- the moving base 442 is connected to the other end of the first guide post 441, and the above-mentioned switching mechanism 45 is installed on the moving base 442.
- the switching mechanism 45 drives the moving base 442 to move synchronously, and then the moving base 442 passes through the first guide.
- the column 441 and the guide roller base 43 drive the guide roller 41 to move synchronously to ensure that the guide roller 41 and the unwinding shaft of the unwinding assembly 13 correct the deviation synchronously.
- the guide frame 44 further includes a second guide post 443 that is slidably matched with the moving base 442 , and one end of the second guide post 443 is connected to the fixed base 42 .
- the first guide post 441 and the second guide post 443 are used to jointly guide the movement of the moving base 442 and the guide roller base 43 .
- the guide device 40 further includes a locking component 46 provided on the moving base 442 , and the locking component 46 is configured to be able to be connected or separated from the second guide post 443 .
- the locking component 46 is connected to the second guide post 443 so that the moving seat 442 cannot move relative to the fixed seat 42, thereby locking the position of the guide roller 41 to ensure that the working material wound on the guide roller 41
- the belt B1 will not move, thus ensuring that the spare material tape B2 of the spare material roll A2 is aligned with the working material tape B1 during automatic roll change.
- the locking component 46 is separated from the second guide post 443 so that the moving seat 442 can follow the unwinding component 13 to perform synchronous correction movements.
- the locking assembly 46 includes a locking driving member and a holding claw.
- the locking driving member is installed on the moving seat 442.
- the holding claw is installed on the driving end of the locking driving member.
- the locking driving member is used to drive the holding claw to hold or tighten. Release the second guide post 443.
- the locking driving member drives the holding claw to hold the second guide post 443 tightly
- the moving base 442 cannot move relative to the fixed base 42, that is, the position of the guide roller 41 is locked.
- the locking driver drives the holding claw to loosen the second guide post 443
- the moving base 442 can move relative to the fixed base 42 , so that the guide roller 41 can perform synchronous correction movement with any unwinding assembly 13 through the switching mechanism 45 .
- the locking drive may be a jaw cylinder.
- the material roll on the first unwinding mechanism 11a is the working material roll A1, and the unwinding output working material strip B1 is transported downstream through the guide roller 41.
- the material roll on the second unwinding mechanism 11b is the spare material roll A2.
- the tape C is adsorbed on the first contact portion 310 and the second contact portion 311 of the first tape joining mechanism 31a, but is not adsorbed on the first contact portion 310 and the second contact portion 311 of the second tape joining mechanism 31b. Tape C.
- the pick-up mechanism 22 swings clockwise under the drive of the first swing mechanism 23 until both the first clamping member 2221 and the second clamping member 2223 abut against the spare roll A2 on the second unwinding mechanism 11b. And the tape starting end B21 of the spare material roll A2 is located between the first clamping member 2221 and the second clamping member 2223.
- the two blowing surfaces g2 on the second clamping member 2223 blow air, thereby blowing up the two corner portions B211 of the starting end B21 of the material strip to the two second suction holes on the first clamping member 2221 respectively. on the surface g1, and is adsorbed and fixed by the two second adsorption surfaces g1.
- the second clamping member 2223 is controlled to move toward the first clamping member 2221 until it and the first clamping member 2221 jointly clamp the two corner portions B211 of the starting end B21 of the material strip.
- the pickup mechanism 22 swings counterclockwise driven by the first swing mechanism 23 until the first clamping member 2221 and the second clamping member 2223 drive the starting end B21 of the material belt to pass between the avoidance position and the belt connecting position. Pass (that is, pass through the top of the support mechanism 21).
- the support mechanism 21 moves upward to the belt splicing position, so that the backup material belt B2 is wound around the second support roller 213 of the support mechanism 21 .
- the first belt connecting mechanism 31a follows the second swing arm 322 to swing clockwise to the belt connecting position, so that the contact roller 313 of the first belt connecting mechanism 31a contacts the spare material belt B2 on the first support roller 212 .
- the second clamping member 2223 is controlled to move away from the first clamping member 2221, thereby releasing the starting end B21 of the material strip.
- the second unwinding mechanism 11b drives the spare material roll A2 to rotate clockwise, so that the spare material tape B2 is gradually wound on the spare material roll A2 until the starting end B21 of the material tape is adsorbed on the first adsorption surface 2101 on the left side of the support block 210 .
- the two first adsorption surfaces 2101 on the left and right sides of the support block 210 respectively adsorb the passing spare material tape B2, thereby preventing the starting end B21 of the material tape from swinging arbitrarily.
- first contact portion 310 and the second contact portion 311 of the first tape splicing mechanism 31a move to the left until the first contact portion 310 presses the tape C and the spare material tape B2 to the right of the support block 210
- the right side of the backup tape B2 is bonded to the lower half of the tape C.
- the second belt connecting mechanism 31b follows the second swing arm 322 to swing counterclockwise to the belt connecting position, so that the contact roller 313 of the second belt connecting mechanism 31b presses the working material belt B1 against the first support roller 212 .
- the first contact portion 310 and the second contact portion 311 of the second belt splicing mechanism 31b are controlled to move to the right until the first contact portion 310 presses the working material belt B1 and the starting end B21 of the material belt against the support block 210 On the first adsorption surface 2101 on the left side.
- the cutting part 312 of the second tape splicing mechanism 31b is controlled to cut the work material tape B1 between the contact roller 313 and the first contact part 310.
- the second contact portion 311 of the second belt connecting mechanism 31b is controlled to move to the right until the second contact portion 311 presses the working material belt B1 against the second contact portion 311 of the first belt connecting mechanism 31a.
- the working material tape B1 is bonded to the upper part of the tape C.
- the right sides of the working material tape B1 and the backup material tape B2 are both bonded to the tape C, that is, the tape splicing is completed.
- the first tape joining mechanism 31a follows the second swing arm 322 to swing counterclockwise to the glue preparation position
- the second tape joining mechanism 31b follows the second swing arm 322 to swing clockwise to the glue preparation position
- the support mechanism 21 moves downward to Get out of position.
- the spare material roll A2 on the second unwinding mechanism 11b is switched to the working material roll A1, and the second unwinding mechanism 11b drives the working material roll A1 on it to rotate counterclockwise, thereby conveying the working material belt B1 downstream.
- the empty barrel A3 on the first unwinding mechanism 11 a can be transported to the retracting shaft 341 of the barrel collecting mechanism 34 by using the barrel conveying mechanism 35 .
- the glue preparation mechanism 33 can be used to prepare glue on the first abutting portion 310 and the second abutting portion 311 of the second tape splicing mechanism 31b for the next automatic operation. Prepare for changing rolls.
- the starting processing device is not limited to using a clamping method to pick up the starting end B21 of the material strip on the spare material roll A2 as in the above-mentioned first embodiment.
- the tape E may also be used to pick up the starting end B21 of the tape on the spare roll A2.
- the pickup mechanism 22 includes a mounting base 221 and a sticking component (not labeled).
- the mounting base 221 can move closer to or away from the backup material roll A2 in a controlled manner.
- the adhesion and removal assembly includes a tape unwinding structure 224, a tape rewinding structure 225 and an adhesion and removal part 226 which are all arranged on the mounting base 221.
- the tape unwinding structure 224 is used to output the tape strip E to the sticking piece 226, so that the tape strip E is wound around the sticking piece 226, and the side of the tape strip E away from the sticking piece 226 is the glued surface. That is, the non-adhesive surface of the adhesive tape E is in contact with the sticking member 226 .
- the tape winding structure 225 is used to wind up the tape E after being wound by the adhesive take-up piece 226 . When the mounting base 221 moves close to the spare material roll A2, it can drive the sticking piece 226 to contact the spare material roll A2, so that the adhesive tape E on the sticking piece 226 sticks to the tape on the spare material roll A2. Starting point B21.
- the mounting base 221 is controlled to move close to the spare material roll A2 until the sticking piece 226 is driven to contact. on the spare material roll A2, so that the adhesive tape E wound on the sticking member 226 sticks to the starting end B21 of the tape on the spare material roll A2. Then, the mounting base 221 is controlled to move away from the spare material roll A2. Since the starting end B21 of the material tape on the spare material roll A2 is bonded and fixed on the tape E, the spare material tape B2 on the spare material roll A2 is pulled out. In order to facilitate the subsequent splicing of the spare material belt B2 and the working material belt B1.
- the tape E wrapped around the sticking member 226 is used to stick the starting end B21 of the spare material roll A2, and the mounting seat 221 moves away from the spare material roll A2 to pull out the spare material of the spare material roll A2.
- the tape E is used to fix the starting end B21 of the material tape, which makes the fixing of the starting end B21 of the material tape more reliable and stable, and will not cause the starting end B21 of the material tape to fall off, resulting in the inability to pull out the spare tape. B2 situation, thus improving the stability of equipment operation.
- the sticking member 226 may be a sticking roller, which is rotatably connected to the mounting base 221 around its own axis, so that the adhesive tape E can be wound more smoothly from the sticking roller. Pass.
- the tape winding structure 225 winds up the tape E and drives the adhesive roller to rotate, and the rotation direction of the adhesive roller is consistent with the spare material roll A2.
- the direction of rotation is opposite, so that the tape E sticks to a section of the spare tape B2 released from the spare roll A2, that is, the tape E sticks to a longer section of the spare tape B2, making the spare tape B2 more securely fixed. , to further prevent the starting end B21 of the material belt from falling off.
- the mounting base 221 is controlled to move close to the spare material roll A2 until the bonding roller is driven to contact the On the spare material roll A2, the tape E wound on the sticking roller sticks to the starting end B21 of the tape on the spare material roll A2. Then, the tape rewinding structure 225 and the tape unwinding structure 224 drive the tape E to travel a certain distance. At the same time, the spare material roll A2 also rotates and unwinds a section of the spare material tape B2.
- the abutment of roll A2 causes the unrolled spare material tape B2 to be bonded and fixed on the tape tape E, that is, at this time, except for the starting end B21 of the tape of the spare material tape B2, which is bonded and fixed on the tape tape E
- the mounting base 221 is controlled to move away from the spare material roll A2. Since the starting end B21 of the material tape on the spare material roll A2 is bonded and fixed on the tape E, the spare material tape B2 on the spare material roll A2 is pulled out. , to facilitate the subsequent splicing of the spare material belt B2 and the working material belt B1.
- the rotation direction of the adhesive roller is driven to rotate in the same direction as the spare tape B2.
- the rotation direction of the material roll A2 is opposite (that is, as shown in Figure 12, the adhesive roller rotates clockwise, and the spare material roll A2 rotates counterclockwise), so that the adhesive tape between the adhesive roller and the spare material roll A2
- the tape running directions of E and the spare tape B2 are consistent, thereby ensuring that the unrolled spare tape B2 can adhere to the tape E.
- the tape unwinding structure 224 includes a fixed shaft 2241 , an unwinding roller 2242 and a damper 2243 .
- the fixed shaft 2241 is fixedly installed on the mounting base 221.
- the unwinding roller 2242 is sleeved on the fixed shaft 2241 through bearings, so that the unwinding roller 2242 is rotatable around its own axis relative to the fixed shaft 2241.
- the unwinding roller 2242 is used to load the tape roll G (see FIG. 11 ), so that the unwinding roller 2242 and the tape roll G rotate synchronously.
- the damper 2243 is installed between the unwinding roller 2242 and the fixed shaft 2241.
- the tape rewinding structure 225 rewinds the tape E (see Figure 11), and under the traction of the tape rewinding structure 225, drives the unwinding roller 2242 and the tape roll G on it. Rotate relative to the fixed shaft 2241 to unwind the tape E.
- the tape rewinding structure 225 stops rewinding the tape E, and the unwinding roller 2242 also stops rotating relative to the fixed shaft 2241 under the damping provided by the damper 2243, that is, it stops unwinding the tape E. .
- the tape winding structure 225 includes a winding roller 2251 rotatably connected to the mounting base 221 around its own axis.
- the winding roller 2251 has a tape threading slit 2252 extending along its axial direction, and the tape threading slit 2252 is for the starting end of the tape E to be inserted.
- a pressing member 2254 is provided inside the winding roller 2251, and the pressing member 2254 is used to press and fix the starting end of the tape strip E inserted into the tape threading slit 2252.
- the tape roll G when installing the tape roll G, the tape roll G is first installed on the unwinding roller 2242, and then the starting end of the tape E on the tape roll G is pulled around the sticking roller and then reaches the rewinding roller 2251. position, and insert the starting end of the tape E into the tape threading slit 2252 of the rewinding roller 2251, and then use the pressing member 2254 in the rewinding roller 2251 to press and fix the starting end of the tape E into the threading slit 2252 of the rewinding roller 2251.
- the tape strip E can be wound up when the winding roller 2251 rotates.
- the tape winding structure 225 also includes an abutting seat 2257 and an elastic member 2256.
- the abutting seat 2257 is fixedly installed in the rewinding roller 2251, and the pressing member 2254 is installed on the abutting seat 2257 through a limit screw, so that the pressing The fastener 2254 can move relative to the abutment seat 2257.
- the elastic member 2256 is in contact between the abutment seat 2257 and the pressing member 2254. Under the elastic force of the elastic member 2256, the pressing member 2254 is driven to move and enter the belt threading slit 2252 until the string inserted into the belt threading slit 2252 is The starting end of the tape strip E is pressed and fixed.
- the elastic member 2256 may be a spring.
- the tape winding structure 225 also includes a transmission shaft 2253 and a winding driving member 227 (see Figure 16).
- the transmission shaft 2253 is rotatably connected to the mounting base 221 and is coaxially connected to the winding roller 2251, so that The transmission shaft 2253 can drive the winding roller 2251 to rotate synchronously.
- the rewinding driving member 227 is installed on the mounting base 221 and is drivingly connected to the transmission shaft 2253 to drive the transmission shaft 2253 to rotate, and then the transmission shaft 2253 drives the rewinding roller 2251 to rotate, and the rewinding roller 2251 rotates to realize the tape strip. E's winding.
- the output shaft of the winding driving member 227 and the transmission shaft 2253 may be transmission connected through a belt transmission structure, so that the winding driving member 227 can drive the transmission shaft 2253 to rotate through the belt transmission structure.
- the winding driving member 227 may use a motor.
- the pickup mechanism 22 also includes a first roller 2281 and a pressing assembly 2282.
- the first roller 2281 is rotatably connected to the mounting base 221 around its own axis, and is located between the tape unwinding structure 224 and the adhesive take-up part 226 .
- the first roller 2281 is used for winding the tape E passing between the unwinding structure 224 and the adhesive take-up part 226 .
- the pressing assembly 2282 can controllably compress the tape E that has been wound around the first roller 2281 on the first roller 2281, thereby preventing the tape E from continuing to run, thus avoiding the need to pull out the spare material.
- the tape E shakes or moves during the process of tape B2. It should be noted that in order to prevent the first roller 2281 from adhering to the adhesive surface of the tape E, the circumferential surface of the first roller 2281 needs to be subjected to anti-adhesion treatment.
- the pressing assembly 2282 includes a pressing driving member F2 and a pressing block F1.
- the pressing driving member F2 is installed on the mounting base 221, and the pressing block F1 is installed on the driving end of the pressing driving member F2, so that the pressing driving member F2 can drive the pressing block F1 close to or away from the first roller 2281, Thereby, the pressing block F1 can compress or loosen the tape E wound on the first roller 2281 .
- At least one guide roller 229 for the tape strip E to be wound is also provided between the tape winding structure 225 and the adhesive take-up piece 226.
- the guide roller 229 is used to guide the tape tape E, so that The tape unwinding structure 224 unwinds the tape material E and arrives at the sticking piece 226 .
- at least one guide roller 229 for the adhesive tape E to be wound is also provided between the adhesive take-up piece 226 and the adhesive tape unwinding structure 224.
- the guide roller 229 is used to guide the adhesive tape E so that the adhesive tape E passes through the adhesive tape.
- the tape E taken out of the pickup 226 reaches the tape winding structure 225 .
- the mounting base 221 can drive one of the sticking and picking-up parts 226 to connect with the first unwinding mechanism.
- the material roll on 11a abuts; when the material roll on the second unwinding mechanism 11b is the spare material roll A2, the mounting base 221 can drive the other sticking piece 226 to abut against the material roll on the second unwinding mechanism 11b. catch.
- the material roll on the left is the working material roll A1
- the material roll on the right is the spare material roll A2.
- the mounting base 221 drives the sticking part 226 on the right side to contact the material roll on the right side, so that the adhesive tape E sticks to the starting end B21 of the tape on the right side of the material roll.
- the mounting base 221 drives the sticking and removing part 226 on the right side to move toward the material roll on the left side, so as to pull out the spare material strip B2 on the right side material roll.
- the support mechanism includes an avoidance state and a connecting state.
- the support mechanism 21 When the support mechanism 21 is in the avoidance state, the support mechanism 21 avoids the movement of the mounting base 221 that drives the sticking piece 226 away from the spare material roll A2 (that is, to prevent the support mechanism 21 from colliding with the guide roller 229 on the mounting base 221). This ensures that the spare material strip B2 on the spare material roll A2 can be pulled out smoothly.
- the support mechanism 21 is in the tape splicing state (as shown in Figure 26)
- the support mechanism 21 allows the spare tape B2 pulled out by the tape E on the adhesive pick-up piece 226 to wind around, thereby allowing the support mechanism 21 to cooperate with the tape splicing.
- the device performs the connecting action of the backup material belt B2 and the working material belt B1 on the support mechanism 21.
- the support mechanism 21 also includes a transfer seat 215, which is installed on the driving end of the lifting assembly 214, so that the lifting assembly 214 can drive the transfer base 215 along the first direction X between the avoidance position and the belt connection position. move between.
- One end of the support block 210 is rotatably connected to the transfer base 215 .
- the support block 210 swings relative to the transfer seat 215 until the length direction of the support block 210 (that is, the direction perpendicular to the paper as shown in Figure 25) is consistent with the width direction of the spare material tape B2. Parallel, so that the spare material strip B2 can be wound around the support block 210.
- the support block 210 rotates to the avoidance position, the support block 210 swings relative to the transfer seat 215 until the length direction of the support block 210 intersects with the width direction of the backup material belt B2, that is, the length direction of the support block 210 intersects with each guide roller 229.
- the axes intersect, so that the support block 210 will not collide with each guide roller 229 and the tape strip E, so that the spare strip B2 can be smoothly pulled out when the mounting base 221 swings.
- the length direction of the support block 210 is perpendicular to the width direction of the backup material belt B2.
- the support mechanism 21 also includes a third moving driving member 216, a rack 217 and a gear 218.
- the third moving driving member 216 is installed on the transfer base 215
- the rack 217 is installed on the driving end of the third moving driving member 216 .
- the gear 218 is installed on the support block 210 and meshes with the rack 217 .
- the third moving driving member 216 is used to drive the rack 217 to move, so that the rack 217 drives the support block 210 to swing through the gear 218 .
- the meshing of the gear 218 and the rack 217 is used for transmission, and the linear motion output by the third mobile driving member 216 is converted into a swing motion of the support block 210 relative to the transfer seat 215.
- the structure is simple, the transmission is stable and reliable, and the space required is small. Small.
- the third moving driving member 216 may be a cylinder.
Landscapes
- Replacement Of Web Rolls (AREA)
Abstract
一种自动换卷设备,包括:放卷装置,用于装载工作料卷(A1)和备用料卷(A2),并驱动工作料卷放卷输出工作料带(B1);起头处理装置,包括支撑机构(21)和拾取机构(22),支撑机构位于备用料卷和工作料卷之间;拾取机构用于拾取备用料带(B2)上的料带起头端(B21),并牵引料带起头端到达支撑机构与工作料卷之间,使得备用料带绕经在支撑机构上;及接带装置,包括任意一者携带胶带(C)的两个接带机构(31),携带有胶带的接带机构用于将胶带的第一部分与备用料带压紧至支撑机构的一侧;另一个接带机构用于将工作料带压紧至支撑机构的相对的另一侧,并由支撑机构的上游侧切断工作料带,且由支撑机构的下游侧将工作料带压紧至胶带的第二部分上。自动换卷设备能够实现工作料卷和备用料卷的自动切换,自动化程度高,有利于提高生产效率。
Description
本申请涉及电池制造技术领域,更具体的说,涉及一种自动换卷设备。
在锂电池生产制造过程中,需要将多个卷绕料带(例如阴极片、隔膜及阳极片等)进行卷绕形成电芯。卷绕料带的来料往往是料卷,需要利用放卷机构装载料卷,并带动料卷转动而放卷输出卷绕料带。
在实际生产过程中,当料卷用完后,尤其是隔膜料卷,需要先暂停卷绕作业,并利用人工对料卷进行更换和接带,换卷完成后再继续进行卷绕作业,存在人工成本高、自动化程度不高和生产效率较低的缺陷。
发明内容
基于此,有必要针对现有技术中需要利用人工进行更换料卷和接带,存在人工成本高、自动化程度不高和生产效率较低的问题,提供一种改善上述缺陷的自动换卷设备。
一种自动换卷设备,包括:
放卷装置,用于装载工作料卷和备用料卷,并驱动所述工作料卷放卷输出工作料带;
起头处理装置,包括支撑机构和拾取机构,所述支撑机构位于所述备用料卷和所述工作料卷之间;所述拾取机构用于拾取备用料带上的料带起头端,并牵引所述料带起头端到达所述支撑机构与所述工作料卷之间,使得所述备用料带绕经在所述支撑机构上;及
接带装置,包括任意一者携带胶带的两个接带机构,携带有所述胶带的所述接带机构用于将所述胶带的第一部分与所述备用料带压紧至所述支撑机构的一侧;未携带所述胶带的所述接带机构用于将所述工作料带压紧至所述支撑机构的相对的另一侧,并由所述支撑机构的上游侧切断所述工作料带,且由所述支撑机构的下游侧将所述工作料带压紧至所述胶带的第二部分上。
在其中一个实施例中,所述支撑机构可受控地沿第一方向在避让位置与接带位置之间移动,所述放卷装置包括沿与所述第一方向相交的第二方向间隔布设的两个放卷机构,两个所述放卷机构上装载的料卷可交替地分别作为所述工作料卷和所述备用料卷;
所述拾取机构可受控地在两个所述放卷机构之间运动,以牵引所述料带起头端由所述避让位置与所述接带位置之间穿过,使得所述支撑机构由所述避让位置移动至所述接带位置时,所述备用料带绕经在所述支撑机构上。
在其中一个实施例中,所述支撑机构包括沿所述第一方向可受控移动的支撑块,所述支撑块在所述第二方向上的两侧均具有第一吸附面,所述第一吸附面用于吸附所述备用料带。
在其中一个实施例中,所述支撑机构还包括可转动地设置在所述支撑块上的第一支撑辊,且所述第一支撑辊位于所述支撑块朝向所述避让位置的一侧;每一所述接带机构均具有可转动的抵接辊;
在所述接带位置,携带有所述胶带的所述接带机构的所述抵接辊用于将所述备用料带压紧在所述第一支撑辊上,未携带有所述胶带的所述接带机构的所述抵接辊用于将所述工作料带压紧在所述第一支撑辊上。
在其中一个实施例中,所述支撑机构还包括可转动地设置在所述支撑块上的第二支撑辊,所述第二支撑辊位于所述支撑块朝向所述接带位置的一侧,且用于供所述备用料带绕经。
在其中一个实施例中,所述起头处理装置还包括与所述拾取机构驱动连接的第一摆动机构,所述第一摆动机构用于驱动所述拾取机构在两个所述放卷机构之间摆动。
在其中一个实施例中,所述接带装置还包括与两个所述接带机构一一对应的两个第二摆动机构,每一所述第二摆动机构与对应的所述接带机构驱动连接,以驱动对应的所述接带机构朝向靠近或远离所述支撑机构的方向摆动。
在其中一个实施例中,所述拾取机构包括安装座以及设置在所述安装座上的夹取组件,所述夹取组件具有相对布设的第一夹持件和第二夹持件;所述第一夹持件和所述第二夹持件之间形成用于夹持所述备用料卷上的料带起头端的夹持空间,且二者中的至少一者相对另一者可靠近或远离;
其中,所述安装座可受控地带动所述夹取组件运动至所述备用料卷处以夹持料带起头端,并带动所述夹取组件运动,从而牵引备用料带绕经所述支撑机构。
在其中一个实施例中,所述第一夹持件朝向所述第二夹持件的一侧具有第二吸附面,所述第二夹持件朝向所述第一夹持件的一侧具有吹气面;
当所述安装座带动所述夹取组件运动至所述备用料卷处时,所述吹气面将料带起头端的边角部朝向所述第二吸附面吹起而被所述第二吸附面吸附。
在其中一个实施例中,所述拾取机构包括:
安装座,可受控地靠近或远离所述备用料卷运动;
粘取组件,包括均设置在所述安装座上的胶带放卷结构、胶带收卷结构和粘取件;所述胶带放卷结构用于向所述粘取件输出胶带料带,以使所述胶带料带绕经所述粘取件,且所述胶带料带背离所述粘取件的一侧为带胶面;所述胶带收卷结构用于收卷绕经所述粘取件后的所述胶带料带;
其中,所述安装座靠近所述备用料卷运动时,能够带动所述粘取件与所述备用料卷抵 接,以使所述粘取件上的所述胶带料带粘取所述备用料卷上的料带起始端。
在其中一个实施例中,所述粘取件为粘取辊,所述粘取辊绕自身轴线可旋转地连接在所述安装座上。
在其中一个实施例中,当所述安装座带动所述粘取辊与所述备用料卷抵接时,所述胶带收卷结构收卷所述胶带料带并带动所述粘取辊旋转,所述备用料卷旋转以放卷出备用料带,且所述粘取辊的旋转方向与所述备用料卷的旋转方向相反。
在其中一个实施例中,所述支撑机构具有避让状态和接带状态;
当所述支撑机构处于所述避让状态时,所述支撑机构对所述安装座带动所述粘取件远离所述备用料卷的运动进行避让;
当所述支撑机构处于所述接带状态时,所述支撑机构供被所述粘取件上的所述胶带料带牵引出的所述备用料带绕经。
在其中一个实施例中,所述支撑机构包括移载座及支撑块,所述支撑块的一端可转动地连接在所述移载座上;
其中,当所述支撑机构处于所述接带状态时,所述支撑块相对所述移载座摆动至所述支撑块的长度方向与所述备用料带的宽幅方向平行;当所述支撑机构处于所述避让状态时,所述支撑块相对所述移载座摆动至所述支撑块的长度方向与所述备用料带的宽幅方向相交。
在其中一个实施例中,每一所述接带机构均具有可共同携带所述胶带的第一抵接部和第二抵接部;
携带有所述胶带的所述接带机构运动至所述接带位置时,通过自身的所述第一抵接部将所述胶带和所述备用料带压紧至所述支撑机构的一侧;
未携带所述胶带的所述接带机构运动至所述接带位置时,通过自身的所述第一抵接部将所述工作料带压紧至所述支撑机构的另一侧,并通过自身的第二抵接部由所述支撑机构的下游侧将所述工作料带向携带有所述胶带的所述接带机构抵压,直至与携带有所述胶带的所述接带机构的所述第二抵接部压紧。
在其中一个实施例中,每一所述接带机构还包括用于切断所述工作料带的裁切部,所述裁切部位于所述第一抵接部背离所述第二抵接部的一侧。
在其中一个实施例中,每一所述接带机构均可受控地在各自的备胶位置与所述接带位置之间运动;
所述接带装置还包括备胶机构,所述备胶机构包括移动座及设置在所述移动座上的供胶组件,所述供胶组件具有一用于吸附所述胶带的供胶吸盘,所述供胶吸盘沿第一预设方向可受控移动;
所述移动座可受控地移动至每一所述接带机构的备胶位置;当所述移动座移动至任一所述接带机构的备胶位置时,所述供胶吸盘与对应的所述接带机构的所述第一抵接部和所述第 二抵接部在所述第一预设方向上相对布设。
在其中一个实施例中,所述接带装置还包括料筒搬运机构和料筒收集机构,所述料筒搬运机构安装在所述移动座上,所述料筒收集机构布置在第一位置;所述放卷装置包括分别布置在第二位置和第三位置的两个放卷机构;
所述移动座可受控地在所述第一位置、所述第二位置和第三位置之间移动;当所述移动座移动至所述第二位置或所述第三位置时,所述料筒搬运机构夹取对应的所述放卷机构上的空料筒;当所述移动座移动至所述第一位置时,所述料筒搬运机构将夹取的空料筒转移至所述料筒收集机构。
在其中一个实施例中,所述放卷装置包括两个放卷机构,所述自动换卷设备还包括用于对两个所述放卷机构中的任一个放卷输出的工作料带进行导向的导向装置;
每一所述放卷机构包括纠偏组件和安装在所述纠偏组件驱动端的放卷组件,所述放卷组件具有用于装载工作料卷或备用料卷的放卷轴,所述纠偏组件用于驱动所述放卷组件沿所述放卷轴的轴向移动;
所述导向装置包括固定座、导向架、导向辊及切换机构;所述导向架沿与所述放卷轴的轴向平行的方向可移动地连接在所述固定座上,所述导向辊安装在所述导向架上,所述切换机构与所述导向架连接,且可选择性地与两个所述放卷机构的所述放卷组件中的任一者连接。
在其中一个实施例中,所述放卷装置包括两个放卷机构,每一所述放卷机构包括放卷组件和拨料组件,所述放卷组件包括承载座、承载轴及放卷轴;
所述承载轴安装在所述承载座上,所述放卷轴同轴地设置在所述承载轴上,且具有安装段和放卷段,所述放卷轴相对所述承载轴绕自身轴线可旋转和沿轴向可移动,所述放卷轴相对所述承载轴沿轴向移动地过程中,能够带动所述放卷段与所述承载轴沿轴向对接或分离;
其中,所述承载轴用于承载一个或多个备用料卷,所述拨料组件用于拨动所述承载轴上的备用料卷向所述放卷段移动。
上述自动换卷设备,在实际生产过程中,初始时,放卷装置上装载有工作料卷和备用料卷,并驱动工作料卷旋转而向下游输送工作料带。为便于描述,将两个接带机构分别命名为第一接带机构和第二接带机构。初始时,第一接带机构携带有胶带。第二接带机构未携带胶带。
当工作料卷放卷完成时,需要进行自动换卷。首先,拾取机构拾取放卷装置上的备用料卷的料带起头端,并牵引该料带起头端到达支撑机构与工作料卷之间,使得被牵引出的备用料带绕经在支撑机构上。此时,支撑机构与备用料卷之间的备用料带为第一备用料带段,支撑机构与料带起头端之间的备用料带为第二备用料带段。然后,控制第一接带机构朝向支撑机构运动,使得该第一接带机构将其上的胶带的第一部分和第一备用料带段抵压在支撑机构 的一侧,即将胶带的第一部分粘贴在备用料带上。再然后,控制第二接带机构朝向支撑机构运动,使得该第二接带机构将工作料带和第二备用料带段抵压在支撑机构的另一侧。
再然后,控制第二接带机构由支撑机构的上游侧将工作料带切断,控制第二接带机构由支撑机构的下游侧将工作料带压紧在第一接带机构上的胶带的第二部分上,使得工作料带与第一接带机构上的胶带的第二部分粘接。此时,胶带的第一部分与备用料带粘接,胶带的第二部分与工作料带粘接,即备用料带和工作料带通过胶带粘接在一起,从而实现接带。
再然后,控制第一接带机构和第二接带机构分别远离支撑机构运动,以为下一次的自动换卷作准备。此时,放卷装置上的备用料卷切换为工作料卷,并被放卷装置驱动旋转而向下游继续放卷输出工作料带。并且,放卷装置上的空料筒(需要说明的是,料卷由空料筒上缠绕料带形成,当工作料卷放卷完成后剩下的即为空料筒)可更换为新料卷,该新料卷作为备用料卷,以在经过下一次的自动换卷后切换为工作料卷。下一次的自动换卷过程与上述换卷过程类似,故在此不作限定。
如此,本申请的自动换卷设备能够实现工作料卷和备用料卷的自动切换(即自动换卷),无需采用人工换卷,降低了人工成本,自动化程度高,有利于提高生产效率。
为了更清楚地说明本申请实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本申请的实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据公开的附图获得其它的附图。
图1为本申请一实施例中自动换卷设备的主视图(省略了备胶机构);
图2为图1所示的自动换卷设备的侧视图(省略了备胶机构);
图3至图7为图1所示的自动换卷设备的自动换卷过程的演示图;
图8为工作料带和备用料带的接带处的结构示意图;
图9为图1所示的自动换卷设备的起头处理装置的拾取机构的结构示意图;
图10为图9所示的拾取机构夹取备用料带上的料带起头端的结构示意图;
图11至图14为本申请的另一实施例中起头处理装置的拾取机构牵出备用料带的动作过程的结构示意图;
图15为图11所示的起头处理装置的主视图;
图16为图15所示的起头处理装置的侧视图;
图17为图15所示的起头处理装置的胶带放卷结构的剖视图;
图18为图15所示的起头处理装置的胶带收卷结构的主视图;
图19为图18所示的胶带收卷结构的沿B-B方向的剖视图;
图20为图18所示的胶带收卷结构的沿A-A方向的剖视图;
图21为图15所示的起头处理装置的拾取机构的主视图;
图22为图21所示的拾取机构的左视图;
图23为图21所示的拾取机构的右视图;
图24为图21所示的拾取机构的立体图;
图25为图15所示的起头处理装置的支撑机构的主视图;
图26为图25所示的支撑机构的侧视图;
图27为本申请一实施例中备胶机构的结构示意图;
图28为图27所示的备胶机构的俯视图;
图29为本申请一实施例中料筒收集机构的结构示意图;
图30为图29所示的料筒收集机构沿A-A方向的剖视图;
图31为图29所示的料筒收集机构的俯视图;
图32为本申请一实施例中放卷装置和导向装置的结构示意图;
图33为图32所示的放卷装置的侧视图;
图34为图33所示的放卷装置的承载轴上的止挡块的装配结构图;
图35为图33所示的放卷装置的承载轴上的第一楔形块和第二楔形块的装配结构图;
图36为本申请一实施例中导向装置的结构示意图。
下面将结合本申请实施例中的附图,对本申请实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其它实施例,都属于本申请保护的范围。
此外,术语“第一”、“第二”仅用于描述目的,而不能理解为指示或暗示相对重要性或者隐含指明所指示的技术特征的数量。由此,限定有“第一”、“第二”的特征可以明示或者隐含地包括至少一个该特征。在本申请的描述中,“多个”的含义是至少两个,例如两个,三个等,除非另有明确具体的限定。
在本申请中,除非另有明确的规定和限定,术语“安装”、“相连”、“连接”、“固定”等术语应做广义理解,例如,可以是固定连接,也可以是可拆卸连接,或成一体;可以是机械连接,也可以是电连接;可以是直接相连,也可以通过中间媒介间接相连,可以是两个元件内部的连通或两个元件的相互作用关系,除非另有明确的限定。对于本领域的普通技术人员而言,可以根据具体情况理解上述术语在本申请中的具体含义。
本申请的第一实施例提供了一种自动换卷设备,包括放卷装置、起头处理装置及接带装 置。
请参阅图1,该放卷装置用于装载工作料卷A1(见图3)和备用料卷A2(见图3),并驱动该工作料卷A1向下游放卷输出工作料带B1。还需要说明的是,本申请的一个实施例中,工作料带B1和备用料带B2可以为隔膜,也就是说,工作料卷A1和备用料卷A2为隔膜料卷。当然,在其它实施例中,工作料带B1和备用料带B2也可为其它类型的料带,在此不作限定。
起头处理装置包括支撑机构21和拾取机构22。支撑机构21位于放卷装置的工作料卷A1和备用料卷A2之间。拾取机构22用于拾取放卷装置上的备用料卷A2的料带起头端B21,并牵引该料带起头端B21(见图3)到达支撑机构21与工作料卷A1之间,使得牵引出的备用料带B2绕经在支撑机构21上。
请参见图1至图3所示,接带装置包括任意一者携带胶带C的两个接带机构31。也就是说,两个接带机构31的其中一个携带胶带C时,其中另一个就不携带胶带C。携带有胶带C的接带机构31用于将该胶带C的第一部分与备用料带B2压紧至支撑机构21的一侧,使得胶带C的第一部分与备用料带B2粘接。另一个未携带胶带C的接带机构31用于将工作料带B1压紧至支撑机构21的相对的另一侧,并由该支撑机构21的上游侧(即如图5所示的支撑机构21的下侧)切断工作料带B1,且由支撑机构21的下游侧(即如图5所示的支撑机构21的上侧)将工作料带B1抵压至胶带C的第二部分上,使得工作料带B1与胶带C的第二部分粘接。此时,工作料带B1和备用料带B2与同一胶带C粘接,即实现了接带。
上述自动换卷设备,在实际生产过程中,初始时,放卷装置上装载有工作料卷A1和备用料卷A2,并驱动工作料卷A1旋转而向下游输送工作料带B1。为便于描述,将两个接带机构31分别命名为第一接带机构31a和第二接带机构31b。初始时,第一接带机构31a携带有胶带C。第二接带机构31b未携带胶带C。
请参见图3至图8所示,当工作料卷A1放卷完成时,需要进行自动换卷。首先,拾取机构22拾取放卷装置上的备用料卷A2的料带起头端B21,并牵引该料带起头端B21到达支撑机构21与工作料卷A1之间,使得被牵引出的备用料带B2绕经在支撑机构21上。此时,支撑机构21与备用料卷A2之间的备用料带B2为第一备用料带段B22(见图5),支撑机构21与料带起头端B21之间的备用料带B2为第二备用料带段B23(见图5)。然后,控制第一接带机构31a朝向支撑机构21运动,使得该第一接带机构31a将其上的胶带C的第一部分和第一备用料带段B22抵压在支撑机构21的一侧,即将胶带C的第一部分粘贴在备用料带B2上。再然后,控制第二接带机构31b朝向支撑机构21运动,使得该第二接带机构31b将工作料带B1和第二备用料带段B23抵压在支撑机构21的另一侧。
再然后,控制第二接带机构31b由支撑机构21的上游侧将工作料带B1切断,控制第二接带机构31b由支撑机构21的下游侧将工作料带B1压紧在第一接带机构31a上的胶带C的 第二部分上,使得工作料带B1与第一接带机构31a上的胶带C的第二部分粘接。此时,胶带C的第一部分与备用料带B2粘接,胶带C的第二部分与工作料带B1粘接,即备用料带B2和工作料带B1通过胶带C粘接在一起,从而实现接带。
再然后,控制第一接带机构31a和第二接带机构31b分别远离支撑机构21运动,以为下一次的自动换卷作准备。此时,放卷装置上的备用料卷A2切换为工作料卷A1,并被放卷装置驱动旋转而向下游继续放卷输出工作料带B1。并且,放卷装置上的空料筒A3(需要说明的是,料卷由空料筒A3上缠绕料带形成,当工作料卷A1放卷完成后剩下的即为空料筒A3)可更换为新料卷,该新料卷作为备用料卷A2,以在经过下一次的自动换卷后切换为工作料卷A1。下一次的自动换卷过程与上述换卷过程类似,故在此不作限定。
如此,本申请的自动换卷设备能够实现工作料卷A1和备用料卷A2的自动切换(即自动换卷),无需采用人工换卷,降低了人工成本,自动化程度高,有利于提高生产效率。
需要说明的是,工作料卷A1指的是由放卷装置驱动旋转并向下游输送工作料带B1的料卷。工作料带B1指的是工作料卷A1上的料带。备用料卷A2指的是放卷装置上的未向下游输送料带的料卷。备用料带B2指的是备用料卷A2上的料带。可以理解的是,经过自动换卷后,备用料卷A2切换为工作料卷A1而向下游输送工作料带B1;同时,工作料卷A1放卷完成而形成空料筒A3,可将该空料筒A3更换为新料卷,该新料卷即作为备用料卷A2。
还需要说明的是,本文中支撑机构21的上游和下游是相对工作料带B1而言的,即支撑机构21更靠近工作料带B1的下游的一端为下游端,更靠近工作料带B1的上游的一端为上游端。具体到附图所示的实施例中,支撑机构21的下侧为上游侧,支撑机构21的上侧为下游侧。
请参见图8所示,还需要说明的是,自动换卷完成后,工作料带B1和备用料带B2的接带处仅一侧粘贴有胶带C,并且工作料带B1和备用料带B2的接带处背离胶带C的一侧残留有一定长度的工作料带B1的切断端和备用料带B2的料带起头端B21。由于隔膜的材质较轻且较软,因此采用单侧贴胶,且工作料带B1的切断端和备用料带B2的料带起头端B21过长,也不会影响隔膜的使用。
具体到实施例中,自动换卷设备具有第一换卷状态和第二换卷状态。当自动换卷设备处于第一换卷状态时,第一接带机构31a携带一胶带C。第一接带机构31a和第二接带机构31b运动至支持机构21处,且分别与支撑机构21的相对两侧抵接时,第一接带机构31a将胶带C的第一部分和第一备用料带段B22压紧在支撑机构21的一侧(即如图5所示的支撑机构21的右侧)。并且,第二接带机构31b将工作料带B1和第二备用料带段B23压紧在支撑机构21的另一侧(即如图5所示的支撑机构21的左侧)。此状态下,能够控制第二接带机构31b将工作料带B1切断,并能够控制第二接带机构31b将工作料带B1抵压至第一接带机构31a上的胶带C的第二部分上,从而使得工作料带B1和备用料带B2通过胶带C粘接连 接,以完成接带。
当自动换卷设备处于第二换卷状态时,第二接带机构31b携带一胶带C。第一接带机构31a和第二接带机构31b运动至支持机构21处,且分别与支撑机构21的相对两侧抵接时,第二接带机构31b将胶带C的第一部分和第一备用料带段B22压紧在支撑机构21的一侧(即如图5所示的支撑机构21的左侧)。并且,第一接带机构31a将工作料带B1和第二备用料带段B23压紧在支撑机构21的另一侧(即如图5所示的支撑机构21的右侧)。此状态下,能够控制第一接带机构31a将工作料带B1切断,并能够控制第一接带机构31a将工作料带B1压紧在第二接带机构31b的胶带C的第二部分上,从而使得工作料带B1和备用料带B2通过胶带C粘接连接,以完成接带。
具体到实施例中,支撑机构21可受控地沿第一方向X在避让位置(即图4中支撑机构21所处的位置)与接带位置(即图5中支撑机构21所处的位置)之间移动。具体到图3至图7所示的实施例中,接带位置位于避让位置的上方。放卷装置包括沿与该第一方向X相交的第二方向Y间隔布设的两个放卷机构11。该两个放卷机构11上装载的料卷可交替地分别作为工作料卷A1和备用料卷A2。拾取机构22可受控地在两个放卷机构11之间运动,以牵引料带起头端B21由避让位置与接带位置之间穿过,使得牵引出的备用料带B2位于避让位置与接带位置之间,进而使得支撑机构21由避让位置移动至接带位置时备用料带B2绕在支撑机构21上。优选地,第一方向X与第二方向Y垂直。具体到图1所示的实施例中,第一方向X为上下方向,第二方向Y为左右方向。
请参见图3至图8所示,为便于描述,将两个放卷机构11分别命名为第一放卷机构11a和第二放卷机构11b。若初始时,第一放卷机构11a上的料卷为工作料卷A1,并向下游输送工作料带B1。第二放卷机构11b上的料卷为备用料卷A2,且第一接带机构31a携带有胶带C。
当第一放卷机构11a上的工作料卷A1放卷完成,需要进行自动换卷时,首先,拾取机构22朝向第二放卷机构11b上的备用料卷A2运动,直至拾取该备用料带B2上的料带起头端B21(见图3)。然后,拾取机构22向左运动,从而牵引料带起头端B21由避让位置和接带位置之间穿过。再然后,支撑机构21由避让位置向上移动至接带位置,使得备用料带B2绕经支撑机构21的上侧(见图4)。此时,备用料带B2在支撑机构21和备用料卷A2之间(即支撑机构21右侧)的部分为第一备用料带段B22;备用料带B2在支撑机构21和拾取机构22之间(即支撑机构21左侧)的部分为第二备用料带段B23。再然后,控制第一接带机构31a朝向接带位置的支撑机构21运动,使得该第一接带机构31a与支撑机构21的右侧抵接,进而使得支撑机构21与第一接带机构31a之间的第一备用料带段B22和胶带C的第一部分粘接(见图5)。再然后,第二接带机构31b向接带位置的支撑机构21运动,使得第二接带机构31b与支撑机构21的左侧抵接,进而使得支撑机构21与第二接带机构31b共同 将工作料带B1和第二备用料带段B23压紧(见图6)。再然后,控制第二接带机构31b由支撑机构21的上游侧切断工作料带B1,并控制第二接带机构31b由支撑机构21的下游侧将工作料带B1压紧至第一接带机构31a的胶带C的第二部分上,使得工作料带B1与胶带C的第二部分粘接(见图7)。此时,工作料带B1和备用料带B2的右侧通过胶带C粘接连接,即实现接带。最后,第一接带机构31a向右运动至初始位置,第二接带机构31b向左运动至初始位置,支撑机构21向下运动至避让位置。此时,第二放卷机构11b上的备用料卷A2切换为工作料卷A1,第二放卷机构11b驱动其上的工作料卷A1旋转而继续向下游输送工作料带B1。
可将第一放卷机构11a上的空料筒A3更换为新的料卷,该新的料卷即作为备用料卷A2。并且,可向第二接带机构31b进行备胶,以为下一次的自动换卷作准备。
当第二放卷机构11b上的工作料卷A1放卷完成,需要再次进行自动换卷时,首先,拾取机构22朝向第一放卷机构11a上的备用料卷A2运动,直至拾取该备用料卷A2上的料带起头端B21。然后,拾取机构22向右运动,从而牵引料带起头端B21由避让位置和接带位置之间穿过。再然后,支撑机构21由避让位置向上移动至接带位置,使得备用料带B2绕经支撑机构21的上侧。此时,备用料带B2在支撑机构21和备用料卷A2之间(即支撑机构21左侧)的部分为第一备用料带段B22;备用料带B2在支撑机构21和拾取机构22之间(即支撑机构21右侧)的部分为第二备用料带段B23。再然后,控制第二接带机构31b朝向接带位置的支撑机构21运动,使得该第二接带机构31b与支撑机构21的左侧抵接,进而使得支撑机构21与第二接带机构31b之间的第一备用料带段B22和胶带C粘接。再然后,第一接带机构31a向接带位置的支撑机构21运动,使得该第一接带机构31a与支撑机构21的右侧抵接,进而使得支撑机构21与第一接带机构31a共同将工作料带B1和第二备用料带段B23压紧。再然后,控制第一接带机构31a由支撑机构21的上游侧切断工作料带B1,并控制第一接带机构31a由支撑机构21的下游侧将工作料带B1压紧在第二接带机构31b的胶带C上,使得工作料带B1与第二接带机构31b上的胶带C粘接。此时,工作料带B1和备用料带B2的左侧通过胶带C粘接,即实现接带。最后,第二接带机构31b向左运动至初始位置,第一接带机构31a向右运动至初始位置,支撑机构21向下运动至避让位置。此时,第一放卷机构11a上的备用料卷A2切换为了工作料卷A1,第一放卷机构11a驱动其上的工作料卷A1旋转而继续向下游输送工作料带B1。
可选地,拾取机构22可采用摆动或直线移动等方式在两个放卷机构11之间运动,以便于实现拾取备用料卷A2上的料带起头端B21,并牵引拾取的料带起头端B21由避让位置和接带位置之间穿过。
请参见图1及图2所示,在一个实施例中,拾取机构22采用摆动的方式在两个放卷机构11之间运动,从而有利于减少占用支撑机构21附近的空间,进而为支撑机构21与两个 接带机构31配合进行接带留出足够的空间。进一步地,起头处理装置还包括与拾取机构22驱动连接的第一摆动机构23,该第一摆动机构23用于驱动拾取机构22绕第一摆动轴线在两个放卷机构11之间摆动。
进一步地,第一摆动机构23包括底座232及第一摆动驱动件233。该第一摆动驱动件233设置在底座232上,拾取机构22连接在第一摆动驱动件233的输出轴上,以由第一摆动驱动件233驱动绕第一摆动轴线摆动,从而使得拾取机构22在第一摆动驱动件233的驱动作用下绕第一摆动轴线在两个放卷机构11之间摆动。可选地,第一摆动驱动件233可以采用电机。第一摆动轴线与第一方向X和第二方向Y均垂直。
请参见图9及图10所示,本申请的实施例中,拾取机构22包括安装座221以及设置在该安装座221上的夹取组件222。该夹取组件222具有相对布设的第一夹持件2221和第二夹持件2223。该第一夹持件2221和第二夹持件2223之间形成用于夹持备用料卷A2上的料带起头端B21的夹持空间f,且二者中的至少一者相对另一者可靠近或远离,从而夹紧或松开料带起头端B21。其中,安装座221被构造为可受控地带动第一夹持件2221和第二夹持件2223运动至备用料卷A2处,以夹持料带起头端B21,并带动第一夹持件2221和第二夹持件2223牵引料带起头端B21由避让位置和接带位置之间穿过。
如此,当需要拾取备用料卷A2的料带起头端B21时,首先,控制安装座221朝向备用料卷A2运动,直至带动夹取组件222的第一夹持件2221和第二夹持件2223抵靠在备用料卷A2上,使得备用料卷A2上的料带起头端B21位于第一夹持件2221和第二夹持件2223之间(可通过放卷机构11驱动备用料卷A2旋转,直至备用料卷A2上的料带起头端B21位于第一夹持件2221和第二夹持件2223之间的位置)。然后,驱动第一夹持件2221和第二夹持件2223中的至少一者靠近另一者,直至第一夹持件2221和第二夹持件2223夹持料带起头端B21。然后,控制安装座221朝向远离备用料卷A2的方向运动,直至牵引料带起头端B21由避让位置和接带位置之间穿过,以使支撑机构21由避让位置移动至接带位置时备用料带B2绕在支撑机构21上,进而在两个接带机构31的配合下完成接带。
具体到实施例中,安装座221可受控地运动至靠近备用料卷A2的夹取位置和远离备用料卷A2的牵引位置。当安装座221移动至夹取位置时,夹取组件222夹取备用料带B2上的料带起头端B21。当安装座221移动至牵引位置时,夹取组件222牵引夹取的料带起头端B21由避让位置和接带位置之间穿过。
具体地,安装座221的一端与第一摆动驱动件233连接,夹取组件222安装在安装座211的另一端,使得夹取组件22随安装座221在两个放卷机构11之间摆动,从而带动夹取组件222夹取备用料卷A2上的料带起头端B21,并牵引夹取的料带起头端B21由避让位置和接带位置之间穿过。
由于初始时料带起头端B21的中部被连接件B24(例如胶条等)固定在备用料卷A2 上,而料带起头端B21的中部两侧的边角部B211处于自由状态。为了能够准确的夹取料带起头端B21,具体到实施例中,第一夹持件2221朝向第二夹持件2223的一侧具有第二吸附面g1,第二夹持件2223朝向第一夹持件2221的一侧具有吹气面g2。当安装座221带动第一夹持件2221和第二夹持件2223移动至备用料卷A2处时,吹气面g2将料带起头端B21的边角部B211朝向第二吸附面g1吹起而被第二吸附面g1吸附。第一夹持件2221和第二夹持件2223中的至少一者相对另一者靠近,直至第二夹持件2223上的吹气面g2将备用料带B2的边角部B211夹紧在第一夹持件2221的第二吸附面g1上。如此,在夹取之前,利用第二夹持件2223上的吹气面g2将料带起头端B21的边角部B211吹起至第一夹持件2221的第二吸附面g1上,再利用第一夹持件2221和第二夹持件2223夹紧被吸附在第二吸附面g1上的料带起头端B21的边角部B211。
优选地,第一夹持件2221固定不动,第二夹持件2223能够靠近或远离第一夹持件2221移动。如此,在夹持料带起头端B21时,第二夹持件2223上的吹气面g2吹气,使得料带起头端B21的边角部B211被吹起至第一夹持件2221上的第二吸附面g1上而被第二吸附面g1吸附。然后,控制第二夹持件2223靠近第一夹持件2221移动,直至第一夹持件2221和第二夹持件2223将料带起头端B21的边角部B211夹紧在吹气面g2和第二吸附面g1之间。
需要说明的是,仅仅第二夹持件2223靠近第一夹持件2221移动而夹持边角部B211,第一夹持件2221固定不动,从而避免了第一夹持件2221移动时边角部B211逐渐脱离第二吸附面g1,导致夹持的边角部B211面积较小而不稳固。
进一步地,第二吸附面g1和吹气面g2均包括两个,也就是说,第一夹持件2221朝向第二夹持件2223的一侧具有两个第二吸附面g1,第二夹持件2223朝向第一夹持件2221的一侧具有两个吹气面g2。两个第二吸附面g1和两个吹气面g2在第一夹持件2221至第二夹持件2223的排布方向上(即如图9中的左右方向上)一一相对布设。也就是说,在第一夹持件2221至第二夹持件2223的排布方向,其中一个第二吸附面g1与其中一个吹气面g2相对,其中另一个第二吸附面g1与其中另一个吹气面g2相对。如此,当安装座221朝向备用料卷A2运动,直至带动夹取组件222的第一夹持件2221和第二夹持件2223与备用料卷A2抵靠时,料带起头端B21的一个边角部B211位于一组相对的第二吸附面g1和吹气面g2之间,料带起头端B21的另一个边角部B211位于另一组相对的第二吸附面g1和吹气面g2之间。此时,两个吹气面g2同时吹气,使得两个边角部B211分别被吹起至两个第二吸附面g1上,进而分别被两个第二吸附面g1吸附。然后,控制第二夹持件2223朝向第一夹持件2221靠近移动,直至第二夹持件2223上的两个吹气面g2分别将两个边角部B211夹紧在两个第二吸附面g1上,进一步使得对料带起头端B21的夹持更加稳固。
优选地,每一第二吸附面g1与对应的一个吹气面g2相互平行,从而使得夹持边角部 B211时第二吸附面g1与相对的吹气面g2贴合更加紧密,对边角部B211的夹持更加稳固。
具体到实施例中,在由第一夹持件2221指向第二夹持件2223的排布方向上,两个吹气面g2之间的间距逐渐减小,且两个第二吸附面g1之间的间距也逐渐减小,从而确保吹气面g2能够将边角部B211的尽可能多的材料吹起至对应的第二吸附面g1上,进而使得边角部B211的尽可能多的材料被夹持固定,进一步提升夹持的稳固性。
在一些实施例中,夹取组件222绕一旋转轴线可转动地连接在安装座221上,且第一夹持件2221至第二夹持件2223的排布方向与该旋转轴线相垂直。如此,可通过控制夹取组件222绕旋转轴线转动,从而调整第一夹持件2221和第二夹持件2223的空间角度,使得当第一夹持件2221和第二夹持件2223跟随安装座221摆动至备用料卷A2处时,第一夹持件2221和第二夹持件2223均与备用料卷A2的周侧表面抵靠,且第一夹持件2221和第二夹持件2223沿备用料卷A2的周向间隔,以便于第一夹持件2221和第二夹持件2223能够准确的夹取备用料卷A2上的料带起头端B21。
具体到实施例中,夹取组件222还包括旋转座2225及夹取驱动件2226。该旋转座2225绕旋转轴线可转动地连接在安装座221上。第一夹持件2221固定连接在该旋转座2225上,第二夹持件2223可靠近或远离第一夹持件2221移动地连接在旋转座2225上,从而使得第一夹持件2221和第二夹持件2223能够跟随旋转座2225绕旋转轴线转动,以调节第一夹持件2221和第二夹持件2223的空间角度,以便于能够准确的夹取备用料卷A2上的料带起头端B21。夹取驱动件2226设置在旋转座2225上,且与第二夹持件2223驱动连接,从而可驱动第二夹持件2223朝向第一夹持件2221靠近或远离,以夹紧或松开料带起头端B21。可选地,夹取驱动件2226可以是气缸。
需要说明的是,在另一些实施例中,第一夹持件2221可包括两个第一子夹持件,第二夹持件2223也可包括与两个第一子夹持件一一对应成组的两个第二子夹持件。两组第一子夹持件和第二子夹持件分别用于夹持料带起头端B21的两个边角部B211。其中,两个第一子夹持件均固定连接在旋转座2225上,两个第二子夹持件均可朝向各自对应的第一子夹持件靠近或远离地连接在旋转座2225上。每一第一子夹持件朝向与之对应第二子夹持件的一侧具有第二吸附面g1,每一第二子夹持件朝向与之对应第一子夹持件的一侧具有吹气面g2。
夹取驱动件2226包括两个,该两个夹取驱动件2226均设置在旋转座2225上,并分别与两个第二子夹持件驱动连接。也就是说,其中一个夹取驱动件2226用于驱动其中一个第二子夹持件的吹气面g2朝向与之对应的第一子夹持件的第二吸附面g1靠近或远离,以夹紧或松开其中一个边角部B211;其中另一个夹取驱动件2226用于驱动其中另一个第二子夹持件的吹气面g2朝向与之对应的第一子夹持件的第二吸附面g1靠近或远离,以夹紧或松开其中另一个边角部B211。
请继续参见图2所示,具体到实施例中,夹取组件222还包括旋转驱动件234、主动轮235、从动轮236及传动带(图未示)。旋转驱动件234安装在安装座221上,主动轮235安装在旋转驱动件234的输出轴上,从动轮236安装在旋转座2225上,传动带套设在主动轮235和从动轮236之间。如此,当需要调整第一夹持件2221和第二夹持件2223相对备用料卷A2的空间角度时,旋转驱动件234驱动主动轮235旋转,主动轮235通过传动带带动从动轮236旋转,从动轮236带动旋转座2225旋转,旋转座2225带动第一夹持件2221和第二夹持件2223转动。
为了确保拾取机构22能够准确的夹持料带起头端B21,具体到一个实施例中,起头处理装置还包括检测机构23,该检测机构23用于检测备用料卷A2上的料带起头端B21的位置。如此,在自动换卷之前,可控制放卷装置驱动备用料卷A2转动,并利用检测机构23检测备用料卷A2上的料带起头端B21的位置。当料带起头端B21转动至朝向拾取机构22的方位时,放卷装置控制备用料卷A2停止转动,从而确保拾取机构22运动至第一夹持件2221和第二夹持件2223与该备用料卷A2相抵靠时,备用料带A2上的料带起头端B21位于第一夹持件2221和第二夹持件2223之间,进而确保第一夹持件2221和第二夹持件2223能够准确地夹取该料带起头端B21。可选地,该检测机构23可以采用光电传感器或图像传感器。
在一些实施例中,每一接带机构31均具有可共同携带一胶带C的第一抵接部310和第二抵接部311。当两个接带机构31运动至接带位置时,携带有胶带C的接带机构31通过自身的第一抵接部310将胶带C(即胶带C的第一部分)和第一备用料带段B22压紧至支撑机构21的一侧;其中另一个未携带胶带C的接带机构31通过自身的第一抵接部310将工作料带B1压紧至支撑机构21的另一侧,并通过自身的第二抵接部311由支撑机构21的下游侧将工作料带B1压紧至携带有胶带C的接带机构31的第二抵接部311的胶带C(即胶带C的第二部分)上。如此,接带机构31利用第一抵接部310和第二抵接部311共同携带胶带C,使得第一抵接部310将胶带C的第一分部粘接在备用料带B2上,第二抵接部311将胶带C的第二部分粘接在工作料带B1上,从而实现接带。
具体到实施例中,每一接带机构31还包括用于切断工作料带B1的裁切部312,该裁切部312位于第一抵接部310背离第二抵接部311的一侧。如此,当接带机构31利用第一抵接部310将工作料带B1压紧在支撑机构21上后,通过该裁切部312将途经的工作料带B1切断,使得工作料带B1与空料筒A3分离。
在一些实施例中,支撑机构21包括沿第一方向X可受控移动的支撑块210,该支撑块210的第二方向Y上的两侧(即图1中的左右两侧)均具有用于吸附备用料带B2的第一吸附面2101。支撑机构21还包括可转动地设置在支撑块210朝向避让位置的一侧(即图2中支撑块210的下侧)的第一支撑辊212。接带机构31具有可绕自身轴线转动的抵接辊313(见图3)。
请参见图6所示,当接带机构31运动至接带位置时,接带机构31上的抵接辊313与位于接带位置的支撑机构21的第一支撑辊212抵靠,从而共同压紧第一备用料带段B22或工作料带B1;并且,接带机构31的第一抵接部310可受控地朝向对应的第一吸附面2101移动而相互抵靠,从而将第一备用料带段B22或工作料带B1压紧在对应的第一吸附面2101上。
如此,在换卷时,携带有胶带C的接带机构31运动至接带位置,使得该接带机构31的抵接辊313将备用料带B2的第一备用料带段B22压紧在第一支撑辊212上,支撑块210两侧的第一吸附面2101分别吸附备用料带B2的第一备用料带段B22和第二备用料带段B23,从而防止绕经支撑机构21的备用料带B2随意摆荡。此时,控制第二夹持件2223远离第一夹持件2221移动,从而松开对料带起头端B21的夹持。控制装载备用料卷A2的放卷机构11驱动该备用料卷A2旋转,以逐渐收卷备用料带B2,直至料带起头端B21移动至支撑块210的第一吸附面2101上而被吸附。然后,吸附有胶带C的接带机构31的第一抵接部310将第一备用料带段B22和胶带C抵压在支撑块210一侧的第一吸附面2101上,使得备用料带B2与胶带C位于该第一抵接部310上的部分粘接。
再然后,控制未吸附胶带C的接带机构31运动至接带位置,使得该接带机构31上的抵接辊313将工作料带B1压紧在第一支撑辊212上,并控制该接带机构31的第一抵接部310将工作料带B1和料带起头端B21压紧在支撑块210背离胶带C的一侧的第一吸附面2101上。再然后,控制未吸附胶带C的接带机构31的裁切部312将工作料带B1切断,并控制该未吸附胶带C的接带机构31的第二抵接部311将工作料带B1压紧在吸附有胶带C的接带机构31的第二抵接部311上,使得工作料带B1与胶带C位于第二抵接部311上的部分粘接。最后,两个接带机构31均离开支撑块210并返回至初始位置,支撑块210移动至避让位置,此时完成接带。
需要说明的是,在换卷的过程中,未吸附有胶带C的接带机构31运动至接带位置之前,收卷一段备用料带B2,使得备用料带B2的料带起头端B21移动至支撑块210的背离胶带C的一侧的第一吸附面2101上,从而使得在后续利用未吸附有胶带C的接带机构31的裁切部312切断工作料带B1时不会切到备用料带B2的料带起头端B21,即避免了产生备用料带B2的废料。
具体到实施例中,支撑机构21还包括可转动地安装在支撑块210朝向接带位置的一侧(即图2所示的支撑块210的上方)的第二支撑辊213。如此,当支撑机构21由避让位置移动至接带位置时,备用料带B2绕在该第二支撑辊213上,从而确保在后续能够顺畅地收卷备用料带B2。
具体到实施例中,支撑机构21还包括升降组件214,支撑块210安装在升降组件214的驱动端,以使升降组件214能够驱动支撑块210沿第一方向X移动至避让位置或接带位 置。第一支撑辊212和第二支撑辊213分别绕自身轴线可转动地连接在支撑块210在第一方向X上的两侧,且第一支撑辊212位于支撑块210朝向避让位置的一侧(即图2所示的支撑块210的下侧),第二支撑辊213位于支撑块210朝向接带位置的一侧(即图2所示的支撑块210的上侧)。两个第一吸附面2101分别位于支撑块210在第二方向Y上的两侧,且均位于第一支撑辊212和第二支撑辊213之间。可选地,第一吸附面2101上开设有多个与外部负压源连通的吸附孔,从而利用负压来实现吸附料带。该升降组件214可以采用气缸、电缸或直线模组等。
本申请的实施例中,接带装置还包括与两个接带机构31一一对应的两个第二摆动机构32。每一第二摆动机构32包括第二摆动驱动件321及第二摆臂322。第二摆臂322的一端与第二摆动驱动件321的驱动端连接,以由第二摆动驱动件321驱动转动。第二摆臂322的另一端与对应的一个接带机构31连接,以使该接带机构31跟随第二摆臂322在备胶位置和接带位置之间摆动。如此,两个接带机构31分别通过两个第二摆动机构32驱动而在各自的备胶位置和接带位置之间摆动。两个接带机构31摆动至接带位置时,与支撑机构21配合完成接带。两个接带机构31摆动至各自的备胶位置,以完成备胶(即为第一抵接部310和第二抵接部311提供胶带C)。可选地,第二摆动驱动件321可以采用电机。
需要说明的是,两个接带机构31分别布置在支撑机构21在第二方向Y上的两侧,两个接带机构31均朝向支撑机构21摆动,直至到达接带位置。两个接带机构31朝向彼此远离的方向摆动,直至均到达各自的备胶位置。显然,两个接带机构31的备胶位置并不能理解为是同一个位置,而应该理解为两个接带机构31的备胶位置为两个不同的位置。
具体到实施例中,每一接带机构31包括第一驱动件314、移动块315、第二驱动件316、第一抵接部310、第二抵接部311、第三驱动件317及裁切部312。该第一驱动件314安装在第二摆臂322上,移动块315设置在第一驱动件314的驱动端,使得第一驱动件314能够驱动移动块315移动。第二驱动件316、第一抵接部310和第三驱动件317均安装在移动块315上,使得第二驱动件316、第一抵接部310和第三驱动件317跟随移动块315一同移动。第二抵接部311设置在第二驱动件316的驱动端,使得第二驱动件316能够驱动第二抵接部311移动。裁切部312设置在第三驱动件317的驱动端,以使第三驱动件317能够驱动裁切部312移动,从而完成裁切动作。
当第二摆臂322带动接带机构31摆动至接带位置时,第一驱动件314驱动移动块315沿第二方向Y伸出,以带动第一抵接部310将料带(工作料带B1或备用料带B2)压紧在支撑机构21的一侧,第三驱动件317能够驱动裁切部312由支撑机构21的上游侧切断工作料带B1,第二驱动件316能够驱动第二抵接部311沿第二方向Y伸出,以将支撑机构21下游侧的工作料带B1向支撑机构21的相对的另一侧抵压,直至该工作料带B1与胶带C粘贴。可选地,第一驱动件314、第二驱动件316及第三驱动件317均可采用气缸。第一抵接部 310和第二抵接部311均可采用抵接块,裁切部312可采用切刀。
请参见图11及图12所示,具体到实施例中,接带装置还包括备胶机构33,该备胶机构33用于对摆动至备胶位置的接带机构31进行备胶(即将胶带C吸附在第一抵接部310和第二抵接部311上)。该备胶机构33包括移动座331及设置在移动座331上的供胶组件336,供胶组件336具有一用于吸附胶带C的供胶吸盘3361,该供胶吸盘3361沿第一预设方向可受控移动。该移动座331可受控地移动至每一接带机构31的备胶位置;当移动座331移动至任一接带机构31的备胶位置时,供胶吸盘3361与运动至该备胶位置的接带机构31的第一抵接部310和第二抵接部311在第一预设方向上相对布设,从而使得供胶吸盘3361能够沿第一预设方向朝向第一抵接部310和第二抵接部311移动,直至第一抵接部310和第二抵接部311吸取供胶吸盘3361上的胶带C。可选地,该第一预设方向与第一方向X平行。
进一步地,第一抵接部310和第二抵接部311上均具有第三吸附面d1。当第二驱动件316驱动第二抵接部311缩回时,第一抵接部310和第二抵接部311的两个第三吸附面d1平齐,以共同形成吸胶面d,从而可利用该吸胶面d吸取供胶吸盘3361上的胶带C。当第二摆臂322带动接带机构31摆动至备胶位置时,第一抵接部310和第二抵接部311的两个第三吸附面d1平齐,以共同形成吸胶面d,且该吸胶面d与移动至该备胶位置的供胶吸盘3361在第一预设方向上相对,以便于供胶吸盘3361能够沿第一预设方向朝向第一抵接部310和第二抵接部311移动,直至该吸胶面d吸取供胶吸盘3361上的胶带C。
具体到实施例中,备胶机构33还包括安装在移动座331上的胶带放卷组件333、夹胶组件334、切胶组件335和拉胶组件337。
胶带放卷组件333用于向夹胶组件334放卷输出胶带料带h,夹胶组件334可受控地夹持或松开途经的胶带料带h。供胶吸盘3361位于夹胶组件334的下游侧,用于吸附途经的胶带料带h。拉胶组件337被构造为可受控地夹取穿过夹胶组件334的胶带料带h,并牵引该胶带料带h移动至供胶吸盘3361背离夹胶组件334的一侧。切胶组件335位于夹胶组件334和供胶吸盘3361之间,用于切断途经的胶带料带h。
如此,当供胶吸盘3361上需要胶带C时,首先,胶带料带h的头部被夹胶组件334夹持,控制拉胶组件337朝向夹胶组件334移动,直至夹取夹胶组件334上的胶带料带h的头部。然后,夹胶组件334松开胶带料带h,控制拉胶组件337牵引胶带料带h途经供胶吸盘3361,直至到达供胶吸盘3361背离夹胶组件334的一侧。然后,夹胶组件334夹紧胶带料带h,供胶吸盘3361吸附固定途经的胶带料带h,并控制切胶组件335由夹胶组件334与供胶吸盘3361之间切断胶带料带h,拉胶组件337松开,此时,被吸附在供胶吸盘3361上的部分即为胶带C。
具体到实施例中,供胶组件336还包括安装在移动座331上的供胶驱动部件3362和安 装在该供胶驱动部件3362的驱动端的供胶驱动件3363。供胶驱动部件3362用于驱动供胶驱动件3363沿与第一预设方向相交的第二预设方向移动。该供胶驱动件3363与供胶吸盘3361驱动连接,以驱动供胶吸盘3361沿第一预设方向移动。如此,当需要向移动至备胶位置的接带机构31提供胶带C时,首先,移动座331移动至备胶位置,并通过供胶驱动部件3362驱动供胶驱动件3363和供胶吸盘3361沿第二预设方向移动,直至供胶吸盘3361与接带机构31的第一抵接部310和第二抵接部311在第一预设方向上相对。然后,通过供胶驱动件3363驱动供胶吸盘3361沿第一预设方向移动,直至将胶带C送至接带机构31的第一抵接部310和第二抵接部311上。可选地,供胶驱动件3363可以采用气缸。
具体到图11所示的实施例中,第一预设方向为上下方向,第二预设方向为垂直于纸面的方向。
可选地,供胶驱动部件3362包括第一移动驱动件3364和第二移动驱动件3365。第一移动驱动件3364安装在移动座331,第二移动驱动件3365设置在第一移动驱动件3364的驱动端,以由第一移动驱动件3364驱动沿第二预设方向移动。供胶驱动件3363设置在第二移动驱动件3365的驱动端,以由第二移动驱动件3365驱动沿第二预设方向移动。如此,通过第一移动驱动件3364和第二移动驱动件3365二者驱动供胶驱动件3363和供胶吸盘3361沿第二预设方向移动,一方面确保了供胶吸盘3361的行程满足需求;另一方面与采用一个大行程的驱动件相比,本实施例中采用两个较小行程的驱动件代替大行程的驱动件,有利于节省所需占用的空间,使得结构更加紧凑。可选地,第一移动驱动件3364和第二移动驱动件3365均可采用气缸。
需要说明的是,当然,在其他实施例中,供胶驱动部件3362也可仅设置一个移动驱动件,也可设置三个或三个以上的移动驱动件,只要能够驱动供胶吸盘3361沿第二预设方向移动,且满足行程需求即可,在此不作限定。
具体到实施例中,夹胶组件334包括安装在移动座331上的夹爪气缸和安装在夹爪气缸的驱动端的夹爪,夹爪气缸驱动夹爪夹持或松开途经的胶带料带h。当然,在其它实施例中也可采用其它类型的夹持结构,只要能够实现对途经的胶带料带h的夹持即可,在此不作限定。
具体到实施例中,切胶组件335包括安装在移动座331上的切胶气缸及安装在切胶气缸的驱动端的切胶刀,切胶气缸驱动切胶刀切断途经的胶带料带h。当然,在其它实施例中也可采用其它类型的裁切结构,只要能够实现对途经的胶带料带h切断即可,在此不作限定。
具体到实施例中,拉胶组件337包括拉胶驱动部件3371、拉胶滑座3372、拉胶夹爪气缸3373及拉胶夹爪3374。拉胶驱动部件3371安装在移动座331上,拉胶滑座3372安装在拉胶驱动部件3371的驱动端,使得拉胶驱动部件3371能够驱动拉胶滑座3372移动。拉胶夹爪气缸3373安装在拉胶滑座3372上,以随拉胶滑座3372一同移动。拉胶夹爪3374安装 在拉胶夹爪气缸3373的驱动端,使得拉胶夹爪气缸3373能够驱动拉胶夹爪3374夹持或松开胶带料带h。如此,当需要拉出胶带料带h时,首先,拉胶驱动部件3371驱动拉胶滑座3372靠近夹胶组件334移动,直至拉胶夹爪气缸3373能够驱动拉胶夹爪3374夹持到夹胶组件334处的胶带料带h。然后,夹胶组件334松开胶带料带h,拉胶驱动部件3371驱动拉胶滑座3372远离夹胶组件334,直至到达供胶吸盘3361背离夹胶组件334的一侧,即完成拉胶。
需要说明的是,拉胶驱动部件3371可以采用现有技术中的例如电机丝杆模组或电缸等直线驱动模组,在此不作限定。
在一些实施例中,接带装置还包括料筒搬运机构35和料筒收集机构34(见图1),料筒搬运机构35安装在移动座331上。料筒收集机构34布置在第一位置,放卷装置包括分别布置在第二位置和第三位置的两个放卷机构11。
移动座331可受控的在第一位置、第二位置和第三位置之间移动。当移动座331移动至第二位置或第三位置时,料筒搬运机构35夹取对应的放卷机构11上的空料筒A3。当移动座331移动至第一位置时,料筒搬运机构35将夹取的空料筒A3转移至料筒收集机构34。如此,实现了自动将放卷机构11上的空料筒A3搬运至料筒收集机构34上进行收集,进一步降低了人工成本,提升了自动化程度。
具体到实施例中,料筒搬运机构35包括搬运驱动组件及夹持组件356。搬运驱动组件安装在移动座331上,夹持组件356安装在搬运驱动组件的驱动端,以由该搬运驱动组件驱动沿放卷机构11的放卷轴的轴向移动。该夹持组件356用于夹持或松开空料筒A3。如此,当移动座331移动至第二位置或第三位置时,搬运驱动组件驱动夹持组件356靠近放卷机构11的放卷轴上的空料筒A3,直至夹持组件356夹持空料筒A3。然后,搬运驱动组件驱动夹持组件356沿放卷轴的轴向移动,直至夹持组件356带动空料筒A3脱离放卷机构11的放卷轴。再然后,移动座331移动至第一位置,搬运驱动组件驱动夹持组件356朝向料筒收集机构34移动,直至空料筒A3置于料筒收集机构34上。再然后,夹持组件356松开对空料筒A3的夹持,并在搬运驱动组件的驱动下远离料筒收集机构34移动,以为下一次的空料筒A3的搬运作准备。
可选地,搬运驱动组件包括第一搬运驱动件351、第一驱动板352、第二搬运驱动件353及第二驱动板354。第一搬运驱动件351安装在移动座331上,第一驱动板352安装在第一搬运驱动件351的驱动端,以使第一搬运驱动件351能够驱动第一驱动板352沿放卷机构11的放卷轴的轴向移动。第二搬运驱动件353安装在第一驱动板352上,以随第一驱动板352一同移动。第二驱动板354安装在第二搬运驱动件353的驱动端,使得第二搬运驱动件353能够驱动第二驱动板354沿放卷机构11的放卷轴的轴向移动。夹持组件356安装在第二驱动板354上,使得夹持组件356能够跟随第二驱动板354一同移动。
如此,当移动座331移动至第二位置或第三位置时,第一搬运驱动件351或第二搬运驱动件353驱动夹持组件356靠近放卷机构11的放卷轴上的空料筒A3,直至夹持组件356夹持空料筒A3。然后,第一搬运驱动件351或第二搬运驱动件353驱动夹持组件356沿放卷轴的轴向移动,直至夹持组件356带动空料筒A3脱离放卷机构11的放卷轴。再然后,移动座331移动至第一位置,第一搬运驱动件351和第二搬运驱动件353驱动夹持组件356朝向料筒收集机构34移动,直至空料筒A3置于料筒收集机构34上。再然后,夹持组件356松开对空料筒A3的夹持,并在第一搬运驱动件351和第二搬运驱动件353的驱动下远离料筒收集机构34移动,以为下一次的空料通的搬运作准备。可选地,第一搬运驱动件351和第二搬运驱动件353均可以采用气缸。夹持组件356可以是气动夹爪或电动夹爪等,只要能够实现对空料筒A3的夹持和松开即可,在此不作限定。
当然,并不仅限于采用两个搬运驱动件形成对夹持组件356的两级驱动。在其它实施例中,也可仅仅设置一个搬运驱动件来驱动夹持组件356移动(即一级驱动)。在另一些实施例中,也可设置三个或更多的搬运驱动件,在此不作限定。
具体到实施例中,备胶机构33还包括移动驱动组件332,该移动驱动组件332与移动座331驱动连接,以驱动移动座331沿第二方向Y移动,使得移动座331途经第一位置、第二位置、第三位置以及两个接带机构31各自的备胶位置。可以理解的是,当移动座331移动至第一位置时,料筒搬运机构35将空料筒A3置于料筒收集机构34上;当移动座331移动至第二位置或第三位置时,料筒搬运机构35取下对应的放卷机构11的放卷轴上的空料筒A3;当移动座331移动至其中一个接带机构31的备胶位置时,备胶机构33对该接带机构31的第一抵接部310和第二抵接部311的吸胶面d上进行备胶;当移动座331移动至其中另一个接带机构31的备胶位置时,备胶机构33对该接带机构31的第一抵接部310和第二抵接部311的吸胶面d上进行备胶。
需要说明的是,移动驱动组件332可以是现有技术中例如电机丝杆模组或电缸等直线驱动模组,在此不作限定。
请参见图13至15所示,在一些实施例中,料筒收集机构34包括连接座340及收料轴341。收料轴341连接在连接座340上,且具有作为其纵长两端的固定端3412和收料端3411。当料筒搬运机构35移动至第一位置时,夹持组件356上夹取的空料筒A3与收料轴341的收料端3411对齐,使得第一搬运驱动件351和第二搬运驱动件驱动夹持组件356沿收料轴341的轴向向收料轴341移动时,能够将空料筒A3套设在收料轴341上。当空料筒A3沿收料轴341移动到位后,夹持组件356松开该空料筒A3并在第一搬运驱动件351和第二搬运驱动件的驱动下返回。
具体到一个实施例中,当移动座331移动至第二位置或第三位置时,首先,第一搬运驱动件351或第二搬运驱动件353驱动夹持组件356靠近放卷机构11的放卷轴上的空料筒 A3,直至夹持组件356夹持空料筒A3。然后,第一搬运驱动件351或第二搬运驱动件353驱动夹持组件356沿放卷轴的轴向移动,直至夹持组件356带动空料筒A3脱离放卷机构11的放卷轴。
当料筒搬运机构35移动至第一位置时,首先,第一搬运驱动件351和第二搬运驱动件353驱动夹持组件356沿收料轴341的轴向向收料轴341移动,使得夹持组件356夹持的空料筒A3由收料轴341的收料端3411套入收料轴341上。然后,夹持组件356松开空料筒A3,第一搬运驱动件351和第二搬运驱动件353驱动夹持组件356返回,直至从收料轴341的收料端3411脱出,以便于进行下一次的空料筒A3的搬运。
需要说明的是,在第二位置或第三位置夹取空料筒A3时与在第一位置释放空料筒A3时夹持组件356的行程不同,因此设置第一搬运驱动件351和第二搬运驱动件353来满足对不同行程的需求。也就是说,在第二位置或第三位置时通过第一搬运驱动件351或第二搬运驱动件353来满足夹持组件356的所需行程,在第一位置时通过第一搬运驱动件351和第二搬运驱动件353共同来满足夹持组件356的所需行程。
具体到实施例中,料筒收集机构34还包括滑动套342、连接杆343及拉手344。收料轴341为空心轴,且开设有沿其轴向纵长延伸的滑槽。滑动套342设置在收料轴341内,并沿收料轴341的轴向可移动。滑动套342具有推料部3421,该推料部3421由该滑槽伸出至收料轴341的周侧表面,从而使得滑动套342由收料轴341的固定端3412至收料端3411移动时,推料部3421能够推动收料轴341上的空料筒A3向收料端3411移动,直至各个空料筒A3依次由收料端3411卸料。连接杆343设置在收料轴341内,且连接杆343的一端与滑动套342连接,连接杆343的另一端延伸至收料端3411,并与拉手344连接。
如此,当收料轴341上的空料筒A3装满时,需要对收料轴341上的空料筒A3进行卸料,首先拉出拉手344,使得连接杆343带动滑动套342向收料端3411移动,滑动套342的推料部3421推动收料轴341上的各个空料筒A3向收料端3411移动,直至收料轴341上的各个空料筒A3依次从收料端3411脱出,即完成卸料。
进一步地,料筒收集机构34还包括设置在收料轴341内的导向杆345,该导向杆345的两端分别与收料端3411和固定端3412连接。滑动套342套设在导向杆345上,从而利用导向杆345对滑动套342沿收料轴341的轴向移动进行导向。
进一步地,料筒收集机构34还包括第一传感器346及检测棒348。第一传感器346安装在连接座340上,检测棒348安装在滑动套342上。当滑动套342移动至固定端3412时,第一传感器346能够检测到检测棒348。如此,当第一传感器346检测到检测棒348时,则表明滑动套342移动到达了固定端3412,此时收料轴341可承接由料筒搬运机构35搬运的空料筒A3。可选地,第一传感器346可以是光电传感器或接近传感器。
进一步地,料筒收集机构34还包括安装在连接座340上的第二传感器347,该第二传 感器347能够检测到移动至固定端3412的空料筒A3。如此,当第二传感器347检测到移动至固定端3412的空料筒A3时,则表明收料轴341上的空料筒A3已经装满,需要拉动拉手344对空料筒A3进行卸料。可选地,第二传感器347可以是光电传感器。
进一步地,料筒收集机构34还包括安装在收料轴341的固定端3412的挡料块349,利用该挡料块349对移动至固定端3412的空料筒A3进行止挡限位。
请参见图16至图17所示,本申请的实施例中,每一放卷机构11包括放卷组件13和拨料组件14。放卷组件13包括承载座131、承载轴132及放卷轴。该承载轴132安装在承载座131上,放卷轴同轴地设置在承载轴132上,且具有安装段1331和放卷段1332。放卷轴相对承载轴132可绕自身轴线旋转和沿轴向移动。放卷轴相对承载轴132沿轴向移动地过程中,能够带动放卷段1332与承载轴132轴向对接或分离。其中,承载轴132用于沿轴向承载一个或多个备用料卷A2,拨料组件14用于拨动承载轴132上的备用料卷A2向放卷段1332移动,直至最前端的备用料卷A2被拨动至放卷段1332上。
如此,当料筒搬运机构35将放卷轴的放卷段1332上的空料筒A3搬运走后,拨料组件14将承载轴132上的一个备用料卷A2拨动至放卷轴的放卷段1332上。在自动换卷完成后,该放卷段1332上的备用料卷A2切换为了工作料卷A1,且在放卷轴的带动下旋转,从而实现向下游放卷输出工作料带B1。
具体到实施例中,放卷机构11还包括设置在承载座131上的放卷驱动组件。承载轴132为中空轴,放卷轴穿设在承载轴132内,且放卷段1332由承载轴132的一端穿出。安装段1331背离放卷段1332的一端与放卷驱动组件驱动连接,使得放卷驱动组件能够驱动放卷轴沿轴向移动或绕自身轴线旋转。如此,当需要将备用料卷A2拨动至放卷轴的放卷段1332上时,放卷驱动组件驱动放卷轴沿轴向移动,直至放卷段1332与承载轴132轴向对接。然后,利用拨料组件14将承载轴132上的备用料卷A2拨动至放卷段1332上。再然后,放卷驱动组件驱动放卷轴沿轴向反向移动,使得放卷段1332与承载轴132分离,从而避免承载轴132对放卷轴的放卷过程造成不良影响。当需要放卷时,放卷驱动组件驱动放卷轴旋转,从而带动放卷段1332上的工作料卷A1转动实现放卷。
具体到实施例中,放卷驱动组件包括分离座134、放卷驱动件136及分离驱动件135。分离座134沿承载轴132的轴向可移动地连接在承载座131上。放卷驱动件136安装在分离座134上,且与安装段1331驱动连接,以驱动放卷轴旋转。分离驱动件135安装在承载座131上,且与分离座134驱动连接,以驱动分离座134沿承载轴132的轴向移动,进而带动放卷驱动件136及放卷轴沿放卷轴的轴向移动,实现放卷轴的放卷段1332与承载轴132的轴向对接和分离。可选地,放卷驱动件136可以是电机,分离驱动件135可以是气缸。
可选地,放卷驱动组件还包括主动齿轮1361和从动齿轮,该主动齿轮1361安装在放卷驱动件136的驱动端,该从动齿轮安装在放卷轴的安装段1331,并与主动齿轮1361相啮 合。如此,放卷驱动件136驱动主动齿轮1361旋转,主动齿轮1361带动从动齿轮旋转,从动齿轮带动放卷轴旋转,进而实现放卷。
可选地,承载座131与分离座134之间可设置滑轨和滑块结构,利用该滑轨和滑块结构对分离座134相对承载座131的移动进行导向。
在一些实施例中,放卷组件13还包括止挡结构,该止挡结构包括止挡块1371。承载轴132靠近放卷段1332的一端的周向侧面上具有安装槽1321。止挡块1371设置在该安装槽1321内,且可受控地沿承载轴132的径向移动至止挡位置和上料位置。当止挡块1371位于止挡位置时,止挡块1371凸出于承载轴132的周向侧面,以阻挡承载轴132上的备用料卷A2向放卷段1332移动。当止挡块1371位于上料位置时,止挡块1371缩回至承载轴132内,以允许承载轴132上的备用料卷A2向放卷段1332移动。
请参见图18至图19所示,具体到实施例中,止挡结构还包括第一楔形块1374、第二楔形块1373及止挡驱动件1372(见图17)。第一楔形块1374安装在承载轴132的安装槽1321内,且具有一相对承载轴132的轴向倾斜的第一倾斜面L1。第二楔形块1373与第一倾斜面L1滑动配合,并与止挡块1371沿承载轴132的径向抵接,从而使得第二楔形块1373沿承载轴132的轴向移动的同时,在第一倾斜面L1的导向作用下沿承载轴132的径向移动,进而带动止挡块1371沿承载轴132的径向移动,即实现止挡块1371在止挡位置和上料位置之间移动。
止挡驱动件1372安装在承载座131或承载轴132上,且与第二楔形块1373驱动连接,以驱动第二楔形块1373沿承载轴132的轴向移动,以实现止挡块1371在止挡位置和上料位置之间移动。如此,利用第二楔形块1373与第一楔形块1374的第一倾斜面L1的滑动配合,将第二楔形块1373沿承载轴132的轴向运动转化成止挡块1371沿承载轴132的径向的运动,结构简单,且止挡块1371在止挡位置和上料位置之间的切换稳定可靠。可选地,止挡驱动件1372可以采用气缸。
进一步地,止挡结构还包括传动杆1377(见图17),该传动杆1377的一端与第二楔形块1373连接,传动杆1377的另一端延伸至承载轴132靠近承载座131的一端,并与止挡驱动件1372的驱动端连接。如此,利用传动杆1377将止挡驱动件1372输出的沿承载轴132的轴向的直线运动传递至第二楔形块1373。可选地,承载轴132开设有沿其轴向延伸的收容槽,该收容槽用于收容传动杆1377,以避免传动杆1377与承载轴132上的备用料卷A2相互影响。
进一步地,第二楔形块1373具有与第一倾斜面L1平行的第二倾斜面L2,该第一倾斜面L1和第二倾斜面L2相贴合,使得第二楔形块1373相对第一楔形块1374的移动更加顺畅,且稳定可靠。
进一步地,第二楔形块1373还具有用于与止挡块1371相抵接的抵接平面,该抵接平面 位于第二楔形块1373背离第二倾斜面L2的一侧,且与承载轴132的轴向平行。
具体到实施例中,止挡结构还包括限位块1375及弹性件1376。限位块1375安装在安装槽1321内,并与止挡块1371滑动配合,且当止挡块1371移动至止挡位置时与止挡块1371限位抵接,以阻止止挡块1371继续向安装槽1321外移动。弹性件1376与止挡块1371和限位块1375连接,以提供使得止挡块1371具有朝向上料位置的移动趋势的预紧力。
如此,请参见图17及图19所示,当止挡驱动件1372驱动第二楔形块1373向右移动时,第二楔形块1373沿第一楔形块1374的第一倾斜面L1的上坡方向移动,从而驱使止挡块1371由上料位置移动至止挡位置,使得止挡块1371凸出于承载轴132的周向侧面。当止挡驱动件1372驱动第二楔形块1373向左移动时,第二楔形块1373沿第一楔形块1374的第一倾斜面L1的下坡方向移动,使得止挡块1371在弹性件1376的作用下向安装槽1321内移动,直至完全进入安装槽1321内(即到达上料位置)。可选地,该弹性件1376可采用扭簧。
请继续参见图16至图17所示,在一些实施例中,每一放卷机构11还包括纠偏组件12,该纠偏组件12包括纠偏底板121及纠偏驱动件122。放卷组件13的承载座131沿承载轴132的轴向可移动地连接在纠偏底板121上,承载座131能够带动承载轴132和放卷轴一同沿轴向移动。纠偏驱动件122设置在纠偏底板121上,且与承载座131驱动连接,以驱动承载座131沿放卷轴的轴向移动,进而承载座131带动放卷轴及放卷轴的放卷段1332上的工作料卷A1一同沿轴向移动,即实现对工作料带B1的纠偏。可选地,纠偏驱动件122可以是直线模组等。
进一步地,纠偏底板121与承载座131之间可设置滑轨和滑块的导向结构,从而利用滑轨和滑块的导向结构对承载座131相对纠偏底板121的移动进行导向。
在一些实施例中,拨料组件14包括拨料驱动组件141及安装在拨料驱动组件141的驱动端的拨料叉142,拨料叉142具有一延伸至承载轴132处的拨料端。拨料驱动组件141用于驱动拨料叉142沿承载轴132的轴向移动,从而利用该拨料端拨动承载轴132上的备用料卷A2向放卷段1332移动,直至最前方的一个备用料卷A2移动至放卷段1332上。进一步地,该拨料端的形状与承载轴132的周侧表面形状相匹配,以便于更好的拨动备用料卷A2。可选地,拨料驱动组件141可以采用直线模组等。
请参见图16和图20所示,本申请的实施例中,自动换卷设备还包括用于对两个放卷机构11中的任一个放卷输出的工作料带B1进行导向的导向装置40。每一放卷机构11的放卷组件13还包括连接在承载座131或承载轴132上的连接驱动块15。为便于描述,将两个放卷机构11的放卷组件13分别命名为第一放卷组件13a和第二放卷组件13b。
导向装置40包括固定座42、导向架44及切换机构45。导向架44沿与放卷组件13的放卷轴的轴向平行的方向可移动地连接在固定座42上。导向架44上安装有供工作料带B1 绕经的导向辊41。切换机构45与导向架44连接,且可选择性地与第一放卷组件13a的连接驱动块15或第二放卷组件13b的连接驱动块15中的一者连接。
上述导向装置40,当第一放卷组件13a上的料卷为工作料卷A1,第二放卷组件13b上的料卷为备用料卷A2,且第一放卷组件13进行纠偏时,首先控制切换机构45与第一放卷组件13a的连接驱动块15连接,使得第一放卷组件13a在纠偏组件12的驱动下沿放卷轴的轴向进行纠偏运动的同时,也带动导向架44和导向架44上的导向辊41进行同步地纠偏运动。
当第二放卷组件13b上的料卷为工作料卷A1,第一放卷组件13a上的料卷为备用料卷A2,且第二放卷组件13b进行纠偏时,首先控制切换机构45与第二放卷组件13b的连接驱动块15连接,使得第二放卷组件13b在纠偏组件12的驱动下沿放卷轴的轴向进行纠偏运动的同时,也带动导向架44和导向架44上的导向辊41进行同步地纠偏运动。如此,本实施例中利用切换机构45可选择性的与两个放卷组件13的连接驱动块15中的一者连接,从而确保导向辊41和装载工作料卷A1的放卷轴的纠偏一致性好,提升纠偏效果,确保产品质量。
在一些实施例中,切换机构45包括安装在导向架44上的第一抱紧组件451和第二抱紧组件452。第一抱紧组件451可与其中一个放卷组件13的连接驱动块15连接或分离,第二抱紧组件452可与其中另一个放卷组件13的连接驱动块15连接或分离。例如,第一抱紧组件451可与第一放卷组件13a的连接驱动块15连接或分离。第二抱紧组件452可与第二放卷组件13b的连接驱动块15连接或分离。如此,当第一放卷组件13a上的料卷为工作料卷A1时,第一抱紧组件451与第一放卷组件13a的连接驱动块15连接,第二抱紧组件452与第二放卷组件13b的连接驱动块15分离,使得导向辊41与第一放卷组件13a同步进行纠偏运动。当第二放卷组件13b上的料卷为工作料卷A1时,第一抱紧组件451与第一放卷组件13a的连接驱动块15分离,第二抱紧组件452与第二放卷组件13b的连接驱动块15连接,使得导向辊41与第二放卷组件13b同步进行纠偏运动。
具体到实施例中,第一抱紧组件451包括两个第一抱紧块4511及第一抱紧驱动件4512。两个第一抱紧块4511彼此相对地设置在导向架44上。第一抱紧驱动件4512与两个第一抱紧块4511传动连接。在第一抱紧驱动件4512的驱动下,两个第一抱紧块4511中的至少一者靠近或远离另一者移动,以夹紧或松开对应放卷组件13的连接驱动块15。
进一步地,两个第一抱紧块4511上均连接有第一连接块4513。第一抱紧驱动件4512具有第一固定端和相对第一固定端可伸缩的第一伸缩端。该第一固定端和第一伸缩端分别与两个第一连接块4513连接,从而通过第一伸缩端相对第一固定端的伸缩来带动两个第一抱紧块4511夹紧或松开对应放卷组件13的连接驱动块15。可选地,第一抱紧驱动件4512可以是气缸。
进一步地,导向架44上设置有第一滑轨,两个第一抱紧块4511上均设置有与第一滑轨滑动配合的第一滑块。如此,利用两个第一滑块分别沿第一滑轨滑动来对两个第一抱紧块4511相对导向架44彼此靠近或远离的运动进行导向。
具体到实施例中,第二抱紧组件452包括两个第二抱紧块4521及第二抱紧驱动件4522。两个第二抱紧块4521彼此相对地设置在导向架44上。第二抱紧驱动件4522与两个第二抱紧块4521传动连接。在第二抱紧驱动件4522的驱动下,两个第二抱紧块4521中的至少一者靠近或远离另一者移动,以夹紧或松开对应放卷组件13的连接驱动块15。
进一步地,两个第二抱紧块4521上均连接有第二连接块4523。第二抱紧驱动件4522具有第二固定端和相对第二固定端可伸缩的第二伸缩端。该第二固定端和第二伸缩端分别与两个第二连接块4523连接,从而通过第二伸缩端相对第二固定端的伸缩来带动两个第二抱紧块4521夹紧或松开对应放卷组件13的连接驱动块15。可选地,第二抱紧驱动件4522可以是气缸。
进一步地,导向架44上设置有第二滑轨,两个第二抱紧块4521上均设置有与第二滑轨滑动配合的第二滑块。如此,利用两个第二滑块分别沿第二滑轨滑动来对两个第二抱紧块4521相对导向架44彼此靠近或远离的运动进行导向。
在一些实施例中,导向架44包括第一导柱441、导向辊座43及运动座442。第一导柱441与固定座42滑动配合,导向辊座43连接在第一导柱441的一端,使得导向辊座43能够跟随第一导柱441一同相对固定座42移动。导向辊41安装在导向辊座43上,使得能够跟随导向辊座43一同移动。运动座442连接在第一导柱441的另一端,上述切换机构45安装在运动座442上。如此,当切换机构45与其中一个放卷组件13的连接驱动块15连接,且该放卷组件13进行纠偏运动时,通过切换机构45带动运动座442同步移动,进而运动座442通过第一导柱441和导向辊座43带动导向辊41同步移动,确保导向辊41与该放卷组件13的放卷轴同步纠偏。
具体到实施例中,导向架44还包括与运动座442滑动配合的第二导柱443,该第二导柱443的一端与固定座42连接。如此,利用第一导柱441和第二导柱443共同对运动座442和导向辊座43的移动进行导向。
具体到实施例中,导向装置40还包括设置在运动座442上的锁定组件46,该锁定组件46被构造为能够与第二导柱443连接或分离。如此,当需要进行自动换卷时,锁定组件46与第二导柱443连接,使得运动座442不能相对固定座42移动,从而锁定导向辊41的位置,确保绕在导向辊41上的工作料带B1不会移动,从而确保在进行自动换卷时备用料卷A2的备用料带B2与工作料带B1对齐。当需要进行纠偏时,锁定组件46与第二导柱443分离,使得运动座442能够跟随放卷组件13进行同步的纠偏运动。
可选地,锁定组件46包括锁定驱动件及抱紧爪,该锁定驱动件安装在运动座442,抱 紧爪安装在锁定驱动件的驱动端,锁定驱动件用于驱动抱紧爪抱紧或松开第二导柱443。如此,当锁定驱动件驱动抱紧爪抱紧第二导柱443时,运动座442不能相对固定座42移动,即锁定导向辊41的位置。当锁定驱动件驱动抱紧爪松开第二导柱443时,运动座442能够相对固定座42移动,使得导向辊41能够通过切换机构45与任一放卷组件13进行同步的纠偏运动。可选地,锁定驱动件可以是夹爪气缸。
下面结合图3至图7对本申请的自动换卷设备的自动换卷过程进行说明:
初始时,第一放卷机构11a上的料卷为工作料卷A1,放卷输出的工作料带B1经过导向辊41向下游输送。第二放卷机构11b上的料卷为备用料卷A2。第一接带机构31a的第一抵接部310和第二抵接部311上共同吸附有胶带C,第二接带机构31b的第一抵接部310和第二抵接部311上没有吸附胶带C。
当第一放卷机构11a上的工作料卷A1放卷完成时,需要进行自动换卷。首先,拾取机构22在第一摆动机构23的驱动下沿顺时针摆动,直至第一夹持件2221和第二夹持件2223均与第二放卷机构11b上的备用料卷A2相抵靠,且备用料卷A2的料带起头端B21位于第一夹持件2221和第二夹持件2223之间。
然后,第二夹持件2223上的两个吹气面g2吹气,从而将料带起头端B21的两个边角部B211分别吹起至第一夹持件2221上的两个第二吸附面g1上,并被两个第二吸附面g1吸附固定。控制第二夹持件2223朝向第一夹持件2221移动,直至与第一夹持件2221共同夹紧料带起头端B21的两个边角部B211。
再然后,拾取机构22在第一摆动机构23的驱动下沿逆时针摆动,直至第一夹持件2221和第二夹持件2223带动料带起头端B21由避让位置和接带位置之间穿过(即由支撑机构21的上方穿过)。支撑机构21向上运动至接带位置,使得备用料带B2绕在支撑机构21的第二支撑辊213上。
再然后,第一接带机构31a跟随第二摆臂322顺时针摆动至接带位置,使得该第一接带机构31a的抵接辊313将备用料带B2抵接在第一支撑辊212上。控制第二夹持件2223远离第一夹持件2221移动,从而松开料带起头端B21。第二放卷机构11b带动备用料卷A2顺时针旋转,使得备用料带B2逐渐收卷在备用料卷A2上,直至料带起头端B21吸附在支撑块210左侧的第一吸附面2101上。在收卷备用料带B2的过程中,支撑块210左侧和右侧的两个第一吸附面2101分别对途经的备用料带B2进行吸附,避免了料带起头端B21任意摆动。
再然后,第一接带机构31a的第一抵接部310和第二抵接部311向左运动,直至该第一抵接部310将胶带C和备用料带B2压紧在支撑块210右侧的第一吸附面2101上,使得备用料带B2的右侧与胶带C的下半部分粘接。
再然后,第二接带机构31b跟随第二摆臂322逆时针摆动至接带位置,使得该第二接带机构31b的抵接辊313将工作料带B1压紧在第一支撑辊212上。控制第二接带机构31b的 第一抵接部310和第二抵接部311向右运动,直至该第一抵接部310将工作料带B1和料带起头端B21抵压在支撑块210左侧的第一吸附面2101上。控制第二接带机构31b的裁切部312由抵接辊313与第一抵接部310之间切断工作料带B1。接着,控制第二接带机构31b的第二抵接部311向右移动,直至该第二抵接部311将工作料带B1抵压在第一接带机构31a的第二抵接部311的胶带C上,使得工作料带B1与胶带C的上半部分粘接。此时,工作料带B1和备用料带B2的右侧均与胶带C粘接,即完成接带。
再然后,第一接带机构31a跟随第二摆臂322逆时针摆动至备胶位置,第二接带机构31b跟随第二摆臂322顺时针摆动至备胶位置,支撑机构21向下移动至避让位置。第二放卷机构11b上的备用料卷A2切换为工作料卷A1,第二放卷机构11b驱动其上的工作料卷A1逆时针旋转,从而向下游输送工作料带B1。
在工作料带B1被切断后,可利用料筒搬运机构35将第一放卷机构11a上的空料筒A3搬运至料筒收集机构34的收料轴341上。第二接带机构31b摆动至备胶位置时,可利用备胶机构33对第二接带机构31b的第一抵接部310和第二抵接部311上进行备胶,以为下一次的自动换卷作准备。
空料筒A3的搬运和对接带机构31的备胶过程请参见前文所述,在此不作赘述。
需要说明的是,起头处理装置并不仅限于如上述第一实施例中采用夹取的方式来拾取备用料卷A2上的料带起始端B21。在第二些实施例中,也可采用利用胶带料带E进行粘取的方式来实现对备用料卷A2上的料带起始端B21的拾取。
下面对第二实施例进行说明,为便于描述,仅对第二实施例的与第一实施例不同之处进行说明。请参见图11至图14所示,在第二实施例中,拾取机构22包括安装座221及粘取组件(图未标)。安装座221可受控地靠近或远离备用料卷A2运动。粘取组件包括均设置在安装座221上的胶带放卷结构224、胶带收卷结构225和粘取件226。胶带放卷结构224用于向粘取件226输出胶带料带E,以使该胶带料带E绕经粘取件226,且胶带料带E背离粘取件226的一侧为带胶面,即胶带料带E的非胶面与粘取件226接触。胶带收卷结构225用于收卷绕经粘取件226后的胶带料带E。其中,安装座221靠近备用料卷A2运动时,能够带动粘取件226与备用料卷A2抵接,以使粘取件226上的胶带料带E粘取备用料卷A2上的料带起始端B21。
如此,当需要拾取备用料卷A2上的料带起始端B21时,(请参见图11至图14所示)首先,控制安装座221靠近备用料卷A2运动,直至带动粘取件226抵接在备用料卷A2上,从而使得绕在粘取件226上的胶带料带E粘取备用料卷A2上的料带起始端B21。然后,控制安装座221远离备用料卷A2运动,由于备用料卷A2上的料带起始端B21粘接固定在胶带料带E上,从而备用料卷A2上的备用料带B2被牵引出,以便于后续进行备用料带B2和工作 料带B1的接带。
如此,利用绕在粘取件226上的胶带料带E粘取备用料卷A2上的料带起始端B21,并通过安装座221远离备用料卷A2运动而牵引出备用料卷A2的备用料带B2。采用胶带料带E进行粘取的方式对料带起始端B21进行固定,使得对料带起始端B21的固定更加牢靠且稳定,不会出现料带起始端B21脱落而导致不能牵引出备用料带B2的情况,进而提升了设备运行的稳定性。
具体到实施例中,该粘取件226可以采用粘取辊,该粘取辊绕自身轴线可旋转地连接在安装座221上,从而使得胶带料带E能够更顺畅地从粘取辊上绕过。
进一步地,当安装座221带动粘取辊与备用料卷A2抵接时,胶带收卷结构225收卷胶带料带E并带动粘取辊旋转,且粘取辊的旋转方向与备用料卷A2的旋转方向相反,从而使得胶带料带E粘取一段由备用料卷A2放出的备用料带B2,即胶带料带E粘取更长一段备用料带B2,使得更加牢靠的固定备用料带B2,进一步避免料带起始端B21脱落。如此,当需要拾取备用料卷A2上的料带起始端B21时,(请参见图11至图14所示)首先,控制安装座221靠近备用料卷A2运动,直至带动粘取辊抵接在备用料卷A2上,从而使得绕在粘取辊上的胶带料带E粘取备用料卷A2上的料带起始端B21。然后,胶带收卷结构225和胶带放卷结构224带动胶带料带E走带一段距离,与此同时备用料卷A2也旋转并放卷出一段备用料带B2,由于粘取辊保持与备用料卷A2的抵接,从而使得放卷出的备用料带B2粘接固定在胶带料带E上,即此时除了备用料带B2的料带起始端B21粘接固定在胶带料带E上之外,还有一段备用料带B2也粘接固定在胶带料带E上,使得对备用料带B2的粘连更加牢靠。再然后,控制安装座221远离备用料卷A2运动,由于备用料卷A2上的料带起始端B21粘接固定在胶带料带E上,从而备用料卷A2上的备用料带B2被牵引出,以便于后续进行备用料带B2和工作料带B1的接带。
需要说明的是,为了确保备用料卷A2旋转而放卷出的备用料带B2能够粘结在胶带料带E上,设置成胶带料带E走带时带动粘取辊旋转的旋转方向与备用料卷A2的旋转方向相反(即如图12所示的,粘取辊沿顺时针旋转,备用料卷A2沿逆时针旋转),从而使得粘取辊与备用料卷A2之间的胶带料带E和备用料带B2的走带方向一致,进而确保放卷出的备用料带B2能够粘连在胶带料带E上。
请参见图17所示,具体到实施例中,胶带放卷结构224包括固定轴2241、放卷辊2242及阻尼器2243。固定轴2241固定安装在安装座221上。放卷辊2242通过轴承套设在固定轴2241上,使得放卷辊2242相对固定轴2241绕自身轴线可旋转。该放卷辊2242用于装载胶带料卷G(见图11),使得放卷辊2242与胶带料卷G同步旋转。阻尼器2243安装在放卷辊2242与固定轴2241之间。如此,在放卷时,胶带收卷结构225对胶带料带E(见图11)进行收卷,在胶带收卷结构225的牵引作用下,带动放卷辊2242及其上的胶带料卷G相对 固定轴2241旋转,从而放卷出胶带料带E。当停止放卷时,胶带收卷结构225停止收卷胶带料带E,并且放卷辊2242在阻尼器2243提供的阻尼作用下也停止相对固定轴2241旋转,即停止放卷出胶带料带E。
请参见图18至图20所示,具体到实施例中,胶带收卷结构225包括绕自身轴线可旋转地连接在安装座221上的收卷辊2251。该收卷辊2251具有一沿自身轴向延伸的穿带狭缝2252,该穿带狭缝2252供胶带料带E的起始端插入。收卷辊2251的内部设置有压紧件2254,该压紧件2254用于压紧固定插入至穿带狭缝2252内的胶带料带E的起始端。如此,在安装胶带料卷G时,首先将胶带料卷G安装在放卷辊2242上,然后牵引胶带料卷G上的胶带料带E的起始端绕经粘取辊后到达收卷辊2251处,并将胶带料带E的起始端插入至收卷辊2251的穿带狭缝2252内,进而利用收卷辊2251内的压紧件2254将胶带料带E的起始端压紧固定在穿带狭缝2252内,使得收卷辊2251旋转时能够实现对胶带料带E的收卷。
进一步地,胶带收卷结构225还包括抵接座2257及弹性件2256,抵接座2257固定安装在收卷辊2251内,压紧件2254通过限位螺钉安装在抵接座2257上,使得压紧件2254能够相对抵接座2257移动。弹性件2256抵接在抵接座2257与压紧件2254之间,在弹性件2256的弹力作用下驱使压紧件2254移动并进入穿带狭缝2252,直至将插入穿带狭缝2252内的胶带料带E的起始端压紧固定。可选地,该弹性件2256可以是弹簧。
进一步地,胶带收卷结构225还包括传动轴2253及收卷驱动件227(见图16),该传动轴2253可转动地连接在安装座221上,并与收卷辊2251同轴连接,使得传动轴2253能够带动收卷辊2251同步旋转。收卷驱动件227安装在安装座221上,并与传动轴2253传动连接,以驱动该传动轴2253旋转,进而该传动轴2253带动收卷辊2251旋转,收卷轴2251旋转而实现对胶带料带E的收卷。
可选地,收卷驱动件227的输出轴与传动轴2253之间可通过带传动结构传动连接,使得收卷驱动件227能够通过该带传动结构驱动传动轴2253旋转。可选地,该收卷驱动件227可以采用电机。
请参见图21至图24所示,需要说明的是,在牵引出备用料带B2的过程中,胶带料带E不能产生晃动或移动,否则将导致备用料带B2牵引不到位或无法牵引出备用料带B2。为了避免在牵引出备用料带B2的过程中胶带料带E晃动或移动,具体到实施例中,拾取机构22还包括第一过辊2281及压紧组件2282。该第一过辊2281绕自身轴线可旋转地连接在安装座221上,且位于胶带放卷结构224与粘取件226之间。该第一过辊2281用于供途经放卷结构224与粘取件226之间的胶带料带E绕经。该压紧组件2282可受控地将绕经第一过辊2281的胶带料带E压紧在第一过辊2281上,从而阻止胶带料带E继续走带,进而避免了在牵引出备用料带B2的过程中胶带料带E晃动或移动。需要说明的是,为了避免第一过辊2281与胶带料带E的带胶面粘连,第一过辊2281的周向表面需要进行了防粘处理。
进一步地,压紧组件2282包括压紧驱动件F2及压紧块F1。该压紧驱动件F2安装在安装座221上,压紧块F1安装在压紧驱动件F2的驱动端上,使得压紧驱动件F2能够驱动压紧块F1靠近或远离第一过辊2281,从而实现压紧块F1压紧或松开绕在第一过辊2281上的胶带料带E。
需要说明的是,胶带收卷结构225与粘取件226之间还设置有供胶带料带E绕经的至少一个导向过辊229,利用该导向过辊229对胶带料带E进行导向,使得胶带放卷结构224放卷出的胶带料带E走带到达粘取件226上。同理,粘取件226与胶带放卷结构224之间也设置有供胶带料带E绕经的至少一个导向过辊229,利用该导向过辊229对胶带料带E进行导向,使得经过粘取件226的胶带料带E走带到达胶带收卷结构225上。
具体到实施例中,粘取件226设置为两个,当第一放卷机构11a上的料卷为备用料卷A2时,安装座221能够带动其中一个粘取件226与第一放卷机构11a上的料卷抵接;当第二放卷机构11b上的料卷为备用料卷A2时,安装座221能够带动其中另一个粘取件226与第二放卷机构11b上的料卷抵接。
具体到图11所示的实施例中,左侧的料卷为工作料卷A1,右侧的料卷为备用料卷A2。当需要牵引出备用料带B2时,安装座221带动右侧的粘取件226与右侧的料卷抵接,使得胶带料带E粘取右侧的料卷上的料带起始端B21,之后安装座221再带动右侧的粘取件226朝向左侧的料卷运动,以牵引出右侧的料卷上的备用料带B2。
具体到实施例中,支撑机构包括避让状态和接带状态。当支撑机构21处于避让状态时,支撑机构21对安装座221带动粘取件226远离备用料卷A2的运动进行避让(即避免支撑机构21与安装座221上的导向过辊229发生碰撞),从而确保能够顺利地牵引出备用料卷A2上的备用料带B2。当支撑机构21处于接带状态时(见图26所示),支撑机构21供被粘取件226上的胶带料带E牵引出的备用料带B2绕经,进而使得支撑机构21配合接带装置在支撑机构21上进行备用料带B2和工作料带B1的接带动作。
进一步地,支撑机构21还包括移载座215,该移载座215安装在升降组件214的驱动端,使得升降组件214能够驱动移载座215沿第一方向X在避让位置和接带位置之间移动。支撑块210的一端可转动地连接在移载座215上。
当支撑机构21处于接带状态时,支撑块210相对移载座215摆动至支撑块210的长度方向(即如图25所示的垂直于纸面的方向)与备用料带B2的宽幅方向平行,以便于备用料带B2绕经在支撑块210上。当支撑块210转动至避让位置时,支撑块210相对移载座215摆动至支撑块210的长度方向与备用料带B2的宽幅方向相交,即支撑块210的长度方向与各个导向过辊229的轴线相交,使得支撑块210不会与各个导向过辊229和胶带料带E发生碰撞,进而使得在安装座221摆动时能够顺利的牵引出备用料带B2。优选地,当支撑块210转动至避让位置时,支撑块210的长度方向与备用料带B2的宽幅方向垂直。
可选地,支撑机构21还包括第三移动驱动件216、齿条217及齿轮218。第三移动驱动件216安装在移载座215上,齿条217安装在第三移动驱动件216的驱动端。齿轮218安装在支撑块210上,且与齿条217相啮合。第三移动驱动件216用于驱动齿条217移动,使得齿条217通过齿轮218带动支撑块210摆动。如此,利用齿轮218与齿条217的啮合进行传动,将第三移动驱动件216输出的直线运动转化成支撑块210相对移载座215的摆动运动,结构简单传动稳定可靠,所需占用的空间小。可选地,该第三移动驱动件216可以是气缸。
以上所述实施例的各技术特征可以进行任意的组合,为使描述简洁,未对上述实施例中的各个技术特征所有可能的组合都进行描述,然而,只要这些技术特征的组合不存在矛盾,都应当认为是本说明书记载的范围。
以上所述实施例仅表达了本申请的几种实施方式,其描述较为具体和详细,但并不能因此而理解为对专利范围的限制。应当指出的是,对于本领域的普通技术人员来说,在不脱离本申请构思的前提下,还可以做出若干变形和改进,这些都属于本申请的保护范围。因此,本专利的保护范围应以所附权利要求为准。
Claims (20)
- 一种自动换卷设备,其特征在于,包括:放卷装置,用于装载工作料卷和备用料卷,并驱动所述工作料卷放卷输出工作料带;起头处理装置,包括支撑机构和拾取机构,所述支撑机构位于所述备用料卷和所述工作料卷之间;所述拾取机构用于拾取备用料带上的料带起头端,并牵引所述料带起头端到达所述支撑机构与所述工作料卷之间,使得所述备用料带绕经在所述支撑机构上;及接带装置,包括任意一者携带胶带的两个接带机构,携带有所述胶带的所述接带机构用于将所述胶带的第一部分与所述备用料带压紧至所述支撑机构的一侧;未携带所述胶带的所述接带机构用于将所述工作料带压紧至所述支撑机构的相对的另一侧,并由所述支撑机构的上游侧切断所述工作料带,且由所述支撑机构的下游侧将所述工作料带压紧至所述胶带的第二部分上。
- 根据权利要求1所述的自动换卷设备,其特征在于,所述支撑机构可受控地沿第一方向在避让位置与接带位置之间移动,所述放卷装置包括沿与所述第一方向相交的第二方向间隔布设的两个放卷机构,两个所述放卷机构上装载的料卷可交替地分别作为所述工作料卷和所述备用料卷;所述拾取机构可受控地在两个所述放卷机构之间运动,以牵引所述料带起头端由所述避让位置与所述接带位置之间穿过,使得所述支撑机构由所述避让位置移动至所述接带位置时,所述备用料带绕经在所述支撑机构上。
- 根据权利要求2所述的自动换卷设备,其特征在于,所述支撑机构包括沿所述第一方向可受控移动的支撑块,所述支撑块在所述第二方向上的两侧均具有第一吸附面,所述第一吸附面用于吸附所述备用料带。
- 根据权利要求3所述的自动换卷设备,其特征在于,所述支撑机构还包括可转动地设置在所述支撑块上的第一支撑辊,且所述第一支撑辊位于所述支撑块朝向所述避让位置的一侧;每一所述接带机构均具有可转动的抵接辊;在所述接带位置,携带有所述胶带的所述接带机构的所述抵接辊用于将所述备用料带压紧在所述第一支撑辊上,未携带有所述胶带的所述接带机构的所述抵接辊用于将所述工作料带压紧在所述第一支撑辊上。
- 根据权利要求3所述的自动换卷设备,其特征在于,所述支撑机构还包括可转动地设置在所述支撑块上的第二支撑辊,所述第二支撑辊位于所述支撑块朝向所述接带位置的一侧,且用于供所述备用料带绕经。
- 根据权利要求2所述的自动换卷设备,其特征在于,所述起头处理装置还包括与所述拾取机构驱动连接的第一摆动机构,所述第一摆动机构用于驱动所述拾取机构在两个所述放卷机构之间摆动。
- 根据权利要求1所述的自动换卷设备,其特征在于,所述接带装置还包括与两个所 述接带机构一一对应的两个第二摆动机构,每一所述第二摆动机构与对应的所述接带机构驱动连接,以驱动对应的所述接带机构朝向靠近或远离所述支撑机构的方向摆动。
- 根据权利要求1所述的自动换卷设备,其特征在于,所述拾取机构包括安装座以及设置在所述安装座上的夹取组件,所述夹取组件具有相对布设的第一夹持件和第二夹持件;所述第一夹持件和所述第二夹持件之间形成用于夹持所述备用料卷上的料带起头端的夹持空间,且二者中的至少一者相对另一者可靠近或远离;其中,所述安装座可受控地带动所述夹取组件运动至所述备用料卷处以夹持料带起头端,并带动所述夹取组件运动,从而牵引备用料带绕经所述支撑机构。
- 根据权利要求8所述的自动换卷设备,其特征在于,所述第一夹持件朝向所述第二夹持件的一侧具有第二吸附面,所述第二夹持件朝向所述第一夹持件的一侧具有吹气面;当所述安装座带动所述夹取组件运动至所述备用料卷处时,所述吹气面将料带起头端的边角部朝向所述第二吸附面吹起而被所述第二吸附面吸附。
- 根据权利要求1所述的自动换卷设备,其特征在于,所述拾取机构包括:安装座,可受控地靠近或远离所述备用料卷运动;粘取组件,包括均设置在所述安装座上的胶带放卷结构、胶带收卷结构和粘取件;所述胶带放卷结构用于向所述粘取件输出胶带料带,以使所述胶带料带绕经所述粘取件,且所述胶带料带背离所述粘取件的一侧为带胶面;所述胶带收卷结构用于收卷绕经所述粘取件后的所述胶带料带;其中,所述安装座靠近所述备用料卷运动时,能够带动所述粘取件与所述备用料卷抵接,以使所述粘取件上的所述胶带料带粘取所述备用料卷上的料带起始端。
- 根据权利要求10所述的自动换卷设备,其特征在于,所述粘取件为粘取辊,所述粘取辊绕自身轴线可旋转地连接在所述安装座上。
- 根据权利要求11所述的自动换卷设备,其特征在于,当所述安装座带动所述粘取辊与所述备用料卷抵接时,所述胶带收卷结构收卷所述胶带料带并带动所述粘取辊旋转,所述备用料卷旋转以放卷出备用料带,且所述粘取辊的旋转方向与所述备用料卷的旋转方向相反。
- 根据权利要求10所述的自动换卷设备,其特征在于,所述支撑机构具有避让状态和接带状态;当所述支撑机构处于所述避让状态时,所述支撑机构对所述安装座带动所述粘取件远离所述备用料卷的运动进行避让;当所述支撑机构处于所述接带状态时,所述支撑机构供被所述粘取件上的所述胶带料带牵引出的所述备用料带绕经。
- 根据权利要求13所述的自动换卷设备,其特征在于,所述支撑机构包括移载座及 支撑块,所述支撑块的一端可转动地连接在所述移载座上;其中,当所述支撑机构处于所述接带状态时,所述支撑块相对所述移载座摆动至所述支撑块的长度方向与所述备用料带的宽幅方向平行;当所述支撑机构处于所述避让状态时,所述支撑块相对所述移载座摆动至所述支撑块的长度方向与所述备用料带的宽幅方向相交。
- 根据权利要求1所述的自动换卷设备,其特征在于,每一所述接带机构均具有可共同携带所述胶带的第一抵接部和第二抵接部;携带有所述胶带的所述接带机构运动至所述接带位置时,通过自身的所述第一抵接部将所述胶带和所述备用料带压紧至所述支撑机构的一侧;未携带所述胶带的所述接带机构运动至所述接带位置时,通过自身的所述第一抵接部将所述工作料带压紧至所述支撑机构的另一侧,并通过自身的第二抵接部由所述支撑机构的下游侧将所述工作料带向携带有所述胶带的所述接带机构抵压,直至与携带有所述胶带的所述接带机构的所述第二抵接部压紧。
- 根据权利要求15所述的自动换卷设备,其特征在于,每一所述接带机构还包括用于切断所述工作料带的裁切部,所述裁切部位于所述第一抵接部背离所述第二抵接部的一侧。
- 根据权利要求15所述的自动换卷设备,其特征在于,每一所述接带机构均可受控地在各自的备胶位置与所述接带位置之间运动;所述接带装置还包括备胶机构,所述备胶机构包括移动座及设置在所述移动座上的供胶组件,所述供胶组件具有一用于吸附所述胶带的供胶吸盘,所述供胶吸盘沿第一预设方向可受控移动;所述移动座可受控地移动至每一所述接带机构的备胶位置;当所述移动座移动至任一所述接带机构的备胶位置时,所述供胶吸盘与对应的所述接带机构的所述第一抵接部和所述第二抵接部在所述第一预设方向上相对布设。
- 根据权利要求17所述的自动换卷设备,其特征在于,所述接带装置还包括料筒搬运机构和料筒收集机构,所述料筒搬运机构安装在所述移动座上,所述料筒收集机构布置在第一位置;所述放卷装置包括分别布置在第二位置和第三位置的两个放卷机构;所述移动座可受控地在所述第一位置、所述第二位置和第三位置之间移动;当所述移动座移动至所述第二位置或所述第三位置时,所述料筒搬运机构夹取对应的所述放卷机构上的空料筒;当所述移动座移动至所述第一位置时,所述料筒搬运机构将夹取的空料筒转移至所述料筒收集机构。
- 根据权利要求1所述的自动换卷设备,其特征在于,所述放卷装置包括两个放卷机构,所述自动换卷设备还包括用于对两个所述放卷机构中的任一个放卷输出的工作料带进行导向的导向装置;每一所述放卷机构包括纠偏组件和安装在所述纠偏组件驱动端的放卷组件,所述放卷组件具有用于装载工作料卷或备用料卷的放卷轴,所述纠偏组件用于驱动所述放卷组件沿所述放卷轴的轴向移动;所述导向装置包括固定座、导向架、导向辊及切换机构;所述导向架沿与所述放卷轴的轴向平行的方向可移动地连接在所述固定座上,所述导向辊安装在所述导向架上,所述切换机构与所述导向架连接,且可选择性地与两个所述放卷机构的所述放卷组件中的任一者连接。
- 根据权利要求1所述的自动换卷设备,其特征在于,所述放卷装置包括两个放卷机构,每一所述放卷机构包括放卷组件和拨料组件,所述放卷组件包括承载座、承载轴及放卷轴;所述承载轴安装在所述承载座上,所述放卷轴同轴地设置在所述承载轴上,且具有安装段和放卷段,所述放卷轴相对所述承载轴绕自身轴线可旋转和沿轴向可移动,所述放卷轴相对所述承载轴沿轴向移动地过程中,能够带动所述放卷段与所述承载轴轴向对接或分离;其中,所述承载轴用于承载一个或多个备用料卷,所述拨料组件用于拨动所述承载轴上的备用料卷向所述放卷段移动。
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP22919302.4A EP4321462A1 (en) | 2022-07-01 | 2022-11-30 | Automatic roll changing apparatus |
US18/233,504 US20240002184A1 (en) | 2022-07-01 | 2023-08-14 | Automatic roll-replacing apparatus |
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CN202210773819.6 | 2022-07-01 | ||
CN202210773819.6A CN115258766A (zh) | 2022-07-01 | 2022-07-01 | 一种自动换卷设备 |
CN202222914721.6U CN218707710U (zh) | 2022-11-02 | 2022-11-02 | 一种起头处理装置及自动换卷设备 |
CN202222914721.6 | 2022-11-02 |
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US18/233,504 Continuation US20240002184A1 (en) | 2022-07-01 | 2023-08-14 | Automatic roll-replacing apparatus |
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WO2024001033A1 true WO2024001033A1 (zh) | 2024-01-04 |
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PCT/CN2022/135488 WO2024001033A1 (zh) | 2022-07-01 | 2022-11-30 | 一种自动换卷设备 |
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US (1) | US20240002184A1 (zh) |
EP (1) | EP4321462A1 (zh) |
WO (1) | WO2024001033A1 (zh) |
Citations (8)
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JPH08157112A (ja) * | 1994-10-06 | 1996-06-18 | Kyodo Printing Co Ltd | ウェブ巻取装置および巻取方法 |
CN111924606A (zh) * | 2020-08-05 | 2020-11-13 | 无锡先导智能装备股份有限公司 | 接带装置及叠片设备 |
CN113233231A (zh) * | 2021-05-06 | 2021-08-10 | 无锡先导智能装备股份有限公司 | 换卷装置及贴胶设备 |
CN114314109A (zh) * | 2021-12-31 | 2022-04-12 | 无锡先导智能装备股份有限公司 | 一种换卷设备 |
CN115258766A (zh) * | 2022-07-01 | 2022-11-01 | 无锡先导智能装备股份有限公司 | 一种自动换卷设备 |
CN218319742U (zh) * | 2022-07-01 | 2023-01-17 | 无锡先导智能装备股份有限公司 | 一种自动换卷设备 |
CN218491056U (zh) * | 2022-07-01 | 2023-02-17 | 无锡先导智能装备股份有限公司 | 一种起头处理装置及自动换卷设备 |
CN218491058U (zh) * | 2022-07-01 | 2023-02-17 | 无锡先导智能装备股份有限公司 | 一种放卷装置及自动换卷设备 |
-
2022
- 2022-11-30 WO PCT/CN2022/135488 patent/WO2024001033A1/zh unknown
- 2022-11-30 EP EP22919302.4A patent/EP4321462A1/en active Pending
-
2023
- 2023-08-14 US US18/233,504 patent/US20240002184A1/en active Pending
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH08157112A (ja) * | 1994-10-06 | 1996-06-18 | Kyodo Printing Co Ltd | ウェブ巻取装置および巻取方法 |
CN111924606A (zh) * | 2020-08-05 | 2020-11-13 | 无锡先导智能装备股份有限公司 | 接带装置及叠片设备 |
CN113233231A (zh) * | 2021-05-06 | 2021-08-10 | 无锡先导智能装备股份有限公司 | 换卷装置及贴胶设备 |
CN114314109A (zh) * | 2021-12-31 | 2022-04-12 | 无锡先导智能装备股份有限公司 | 一种换卷设备 |
CN115258766A (zh) * | 2022-07-01 | 2022-11-01 | 无锡先导智能装备股份有限公司 | 一种自动换卷设备 |
CN218319742U (zh) * | 2022-07-01 | 2023-01-17 | 无锡先导智能装备股份有限公司 | 一种自动换卷设备 |
CN218491056U (zh) * | 2022-07-01 | 2023-02-17 | 无锡先导智能装备股份有限公司 | 一种起头处理装置及自动换卷设备 |
CN218491058U (zh) * | 2022-07-01 | 2023-02-17 | 无锡先导智能装备股份有限公司 | 一种放卷装置及自动换卷设备 |
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US20240002184A1 (en) | 2024-01-04 |
EP4321462A1 (en) | 2024-02-14 |
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