CN220282987U

CN220282987U - Non-stop reel changing device

Info

Publication number: CN220282987U
Application number: CN202321828655.9U
Authority: CN
Inventors: 李岳云; 黄凯标
Original assignee: Guangdong Yuedong Mechanical Industry Co Ltd
Current assignee: Guangdong Yuedong Mechanical Industry Co Ltd
Priority date: 2023-07-12
Filing date: 2023-07-12
Publication date: 2024-01-02
Anticipated expiration: 2033-07-12

Abstract

The utility model relates to a non-stop reel changing device, which is characterized in that a first film-free detection device and a second film-free detection device are arranged to respectively detect whether a reel material released by a first reel and a reel material released by a second reel are about to run out, automatically track the unreeling progress of the reel material, and automatically start an opening and closing driving mechanism to carry out material receiving and reel changing operations when detecting that the reel material released by the first reel or the second reel is about to run out.

Description

Non-stop reel changing device

Technical Field

The utility model relates to unreeling equipment, in particular to a non-stop reel changing device.

Background

For sealers, color printers, etc., devices that unwind a web (e.g., web, etc.) require a new web to be replaced when the web is completed. Conventional reel change operations typically require manual operations, which are not only time consuming and labor intensive, but also require the equipment to be suspended for the reel change. In order to solve the problem of manual reel change, some devices are provided with a device that can change the reel without stopping. For example, chinese patent No. 207142402U discloses a non-stop roll-changing device for a color press, where two first press rolls capable of moving relatively are provided, the two first press rolls are driven by a pneumatic pressure device to move relatively to open and close, during roll-changing, the two first press rolls are clamped, and a cloth pressing sheet moves upward, so that two rolls of cloth are adhered to each other and unreeled together, and when the adhered portion leaves the first press rolls, the two first press rolls are separated, so that roll-changing is completed.

However, in actual operation, although the above-mentioned reel changer can change a reel without stopping, it is necessary to manually follow up the unreeling advance of the existing reel material, observe whether the previous reel material is about to run out, start the pneumatic pressure device in time, and once the worker forgets to check the unreeling progress, miss the reel change timing, thereby affecting the subsequent unreeling operation.

Disclosure of Invention

The utility model aims to solve the problem of providing a non-stop reel changing device which can automatically track the unreeling progress of a reel material, improve the automation degree of reel changing of the reel material and ensure smooth reel changing and unreeling. The technical scheme adopted is as follows:

a non-stop reel changing device comprises a frame, a first unreeling shaft, a first guide roller set, a second unreeling shaft, a second guide roller set, a pressing mechanism and a traction mechanism; the pressing mechanism comprises a first pressing roller, a second pressing roller and an opening and closing driving mechanism capable of driving the first pressing roller and the second pressing roller to press or separate; the first guide roller set comprises at least one first guide roller, the first unreeling shaft, each first guide roller and the first laminating roller are sequentially arranged from front to back along the conveying direction of the roll material, the second guide roller set comprises at least one second guide roller, and the second unreeling shaft, each second guide roller and the second laminating roller are sequentially arranged from front to back along the conveying direction of the roll material; the opening and closing driving mechanism and the traction mechanism are arranged on the frame, and the traction mechanism is arranged at the rear part of the pressing mechanism; the method is characterized in that: the non-stop roll changing device further comprises a control circuit, a first material pressing mechanism for pressing the front end of the roll material on the first pressing roller, a first film-free detection device for detecting whether the roll material passes through, a second material pressing mechanism for pressing the front end of the roll material on the second pressing roller, and a second film-free detection device for detecting whether the roll material passes through; the first film-free detection device is positioned between the first unreeling shaft and the first laminating roller, and the second film-free detection device is positioned between the second unreeling shaft and the second laminating roller; the first membraneless detection device and the second membraneless detection device are respectively and electrically connected with corresponding input ends of the control circuit, and the opening and closing driving mechanism is electrically connected with corresponding output ends of the control circuit.

The above-mentioned direction of transport of the web: when the first unreeling shaft unreels, the winding drum material is conveyed by the first unreeling shaft, each first guide roller, the pressing mechanism (the winding material passes through the space between the first pressing roller and the second pressing roller) and the traction mechanism in sequence; when the second unreeling shaft unreels, the winding material is conveyed by the second unreeling shaft, each second guide roller, the pressing mechanism (the winding material passes through the space between the first pressing roller and the second pressing roller) and the traction mechanism in sequence.

Specifically, along the conveying direction of the web, the first unreeling shaft, the first film-free detection device, the first pressing mechanism and the first pressing roller are sequentially arranged from front to back, and the second unreeling shaft, the second film-free detection device, the second pressing mechanism and the second pressing roller are sequentially arranged from front to back.

Typically, the first unreeling shaft, the first guide roller, the second unreeling shaft, and the second guide roller are rotatably mounted on the frame.

The first unreeling shaft and the second unreeling shaft are unreeled in turn, and when the first unreeling shaft or the second unreeling shaft is unreeled, the first pressing roller and the second pressing roller are separated, and the winding drum material is pulled and conveyed by the traction mechanism.

The traction mechanism generally comprises a traction motor and two traction rollers which are mutually pressed, wherein one traction roller is in transmission connection with a power output shaft of the traction motor. The winding drum material passes through the space between the two traction rollers, and the traction motor drives the traction rollers to carry out traction and conveying on the winding drum material.

When the first unreeling shaft or the second unreeling shaft unreels, the other unreeling shaft can assemble the roll material before unreeling is completed, the front end of the roll material is pulled to the first pressing roller or the second pressing roller in advance, and the first pressing mechanism or the second pressing mechanism presses the first pressing roller or the second pressing roller.

When the first unreeling shaft unreels, a standby reel material can be pre-installed on the second unreeling shaft, the front end part of the standby reel material passes through the space between the first pressing roller and the second pressing roller after being guided by the second guide roller group, the standby reel material is pressed by the second pressing mechanism, and double-sided adhesive paper is adhered on the standby reel material; when the first film-free detection device detects that the web material passes through (namely, the rear end part of the web material released by the first unreeling shaft passes through the first film-free detection device), judging that the web material released by the first unreeling shaft is about to run out, sending a corresponding signal to the control circuit, sending a control signal to the opening and closing driving mechanism by the control circuit, and driving the first pressing roller and the second pressing roller to clamp each other by the opening and closing driving mechanism, wherein the front end part of the standby web material is attached to the rear end part of the web material to be used up, and the rear end part of the web material to be used up drives the standby web material to move under the action of friction force; when the part of the standby winding drum material, to which the double-sided adhesive paper is adhered, passes through the space between the first pressing roller and the second pressing roller, the double-sided adhesive paper is adhered to the rear end part of the winding drum material to be used up, so that the connection between the standby winding drum material and the winding drum material to be used up is realized, and then the standby winding drum material on the second unwinding shaft is normally unwound, so that the reel change work is completed.

Similarly, when the second unreeling shaft unreels, a standby reel material can be pre-installed on the first unreeling shaft, the front end part of the standby reel material passes through the space between the first pressing roller and the second pressing roller after being guided by the first guiding roller group, the standby reel material is pressed by the first pressing mechanism, and double-sided adhesive paper is adhered on the standby reel material; when the second film-free detection device detects that the web material passes through (namely, the rear end part of the web material released by the second unreeling shaft passes through the second film-free detection device), judging that the web material released by the second unreeling shaft is about to run out, sending a corresponding signal to the control circuit, and sending a control signal to the opening and closing driving mechanism by the control circuit, wherein the opening and closing driving mechanism drives the first pressing roller and the second pressing roller to clamp each other, at the moment, the front end part of the standby web material is attached to the rear end part of the web material about to run out, and under the action of friction force, the rear end part of the web material about to run out drives the standby web material to move; when the part of the standby winding drum material, to which the double-sided adhesive paper is adhered, passes through the space between the first pressing roller and the second pressing roller, the double-sided adhesive paper is adhered to the rear end part of the winding drum material to be used up, so that the connection between the standby winding drum material and the winding drum material to be used up is realized, and then the standby winding drum material on the first unreeling shaft is normally unreeled, so that the reel changing work is completed.

The utility model is provided with the first film-free detection device and the second film-free detection device, so that whether the winding materials released by the first unwinding shaft and the winding materials released by the second unwinding shaft are about to run out or not is detected, the unwinding progress of the winding materials is automatically tracked, and when the winding materials released by the first unwinding shaft or the second unwinding shaft are detected to run out, the opening and closing driving mechanism is automatically started to carry out the operations of receiving and replacing the winding materials, therefore, a worker only needs to install standby winding materials on the other unwinding shaft during the normal unwinding period of the first unwinding shaft or the second unwinding shaft, and prepares for receiving materials, and does not need to follow the unwinding progress of the winding materials in the unwinding all the time, thereby improving the automation degree of reel replacement of the winding materials.

As a preferable mode of the present utility model, the first film-free detecting device corresponds to a first guide roller position in the first guide roller group, and the second film-free detecting device corresponds to a second guide roller position in the second guide roller group; the first film-free detection device and the second film-free detection device comprise a fixed rod, a fixed seat and a swinging plate, wherein the fixed rod is fixedly arranged on the frame, the first end of the swinging plate is rotatably arranged on the fixed rod, the fixed seat is arranged on the fixed rod, and a detection element capable of detecting the position change of the swinging plate is arranged on the fixed seat; the corresponding first guide roller, second guide roller or third guide roller is provided with an annular groove along the circumferential direction of the roller surface, and the swinging plate is positioned on the upper side of the annular groove and aligned with the annular groove.

When the first unreeling shaft (or the second unreeling shaft) is unreeled normally, the corresponding first guide roller (or the second guide roller) is provided with a reel material to pass through, the reel material covers the annular groove, the swinging plate is contacted with the reel material at the moment, the second end of the swinging plate corresponds to the detecting element, the detecting element detects the swinging plate, and the condition that the reel material is unreeled normally is judged to be present; when the rear end of the web released by the first unreeling shaft passes over the first film-free detection device (or the rear end of the web released by the second unreeling shaft passes over the second film-free detection device), the swinging plate falls into the annular groove due to no support of the web, at this time, the swinging plate cannot be detected by the detection element, the first film-free detection device (or the second film-free detection device) detects that the web passes, and the web released by the first unreeling shaft (or the second unreeling shaft) is judged to be about to run out, and a corresponding signal is sent to the control circuit.

Typically, the fixing bar is above and parallel to the corresponding first or second guide roller.

As a further preferable mode of the present utility model, the detection element is a proximity switch or a photo eye (e.g., a reflective photo eye).

In addition, the first and second membraneless detection devices may use opposite-type photoelectric eyes, and the emitting part and the receiving part of the opposite-type photoelectric eyes are respectively located at two sides of the web.

As the preferable scheme of the utility model, the first material pressing mechanism and the second material pressing mechanism comprise a material supporting plate, a supporting rod, a swinging arm, a spring seat and a compression spring, wherein the material supporting plate and the supporting rod are fixedly arranged on the frame, the supporting rod is positioned above the material supporting plate, the spring seat is arranged on the supporting rod, the upper end of the swinging arm is rotatably arranged on the supporting rod, the compression spring is sleeved on the supporting rod and is positioned between the upper end of the swinging arm and the spring seat, a limiting part is arranged on the supporting rod, and the upper end of the swinging arm is in close contact with the limiting part under the action of the compression spring; the lower end of the swing arm is provided with a pressing block.

Under the action of the compression spring, the upper end of the swing arm is in close contact with the limiting part, and the position of the swing arm can be kept stable by virtue of the friction force between the upper end of the swing arm and the limiting part; when the standby winding drum material is installed, the standby winding drum material is pressed on the material supporting plate by using the pressing block. In the reel changing process, when the back end part of the finished reel material drives the standby reel material to move, the standby reel material applies a horizontal acting force to the pressing block, so that the swinging arm rotates around the supporting rod, and the pressing block does not press the standby reel material any more.

Specifically, the limiting part can adopt a truncated cone shape or an annular step, and the compression spring is pressed on the peripheral surface of the limiting part.

As a further preferable scheme of the utility model, the upper surface of the material supporting plate is provided with a transverse graduated scale. The position of the standby web in the transverse direction can be calibrated by the transverse scale, so that when the front end of the standby web is attached to the rear end of the web to be used up, the two positions are aligned with each other in the transverse direction.

As a preferable scheme of the utility model, the opening and closing driving mechanism comprises two sliding blocks, two guide grooves and two auxiliary spring mechanisms; the two guide grooves are horizontally arranged on the frame, and the two sliding blocks are slidably arranged in the corresponding two guide grooves; the two ends of the first pressing roller are fixedly connected with connecting shaft heads respectively, the axes of the two connecting shaft heads are mutually overlapped, and the axis of the first pressing roller deviates from the axis of the connecting shaft heads; the two connecting shaft heads are respectively arranged on the two sliding blocks through bearings, and a rotating driving mechanism capable of driving the connecting shaft heads to rotate is arranged on the frame; the second pressing roller is rotatably arranged on the frame; the two auxiliary spring mechanisms are respectively connected with two ends of the first pressing roller and apply acting force towards the second pressing roller to two ends of the first pressing roller.

Because the axis of the first laminating roller deviates from the axis of the connecting shaft head, the axis of the connecting shaft head is taken as a rotation center, the outer diameters of all parts of the first laminating roller in the circumferential direction are different (similar to an eccentric circle), and in this way, the connecting shaft head is driven to rotate by the rotation driving mechanism, so that the first laminating roller is switched between the following two positions: in one position, the part with smaller outer diameter in the circumferential direction of the first pressing roller corresponds to the second pressing roller, and a gap is formed between the first pressing roller and the second pressing roller and is in a separated state; in another position, the part with larger outer diameter in the circumferential direction of the first laminating roller corresponds to the second laminating roller, and at the moment, the first laminating roller and the second laminating roller are in close contact and are in a laminating state. Under the action of the two auxiliary spring mechanisms, the two sliding blocks are usually respectively positioned at one end of the two guide grooves, which is close to the second pressing roller; when the first pressing roller and the second pressing roller are in a pressing state, the two auxiliary spring mechanisms can also play a role in buffering, so that mechanical matching errors are eliminated, and the first pressing roller and the second pressing roller can better keep a pressing state.

Specifically, the first pressing roller comprises a mandrel and a roller body sleeved outside the mandrel, the roller body is connected with the mandrel through a bearing, a rubber layer is coated on the surface of the roller body, in this case, the axis of the mandrel deviates from the axis of the connecting shaft heads, and the two connecting shaft heads are respectively and fixedly connected to two ends of the mandrel; the second nip roller may be a steel roller.

Specifically, the rotation driving mechanism comprises an air cylinder and a first swing arm, the cylinder body of the air cylinder is hinged with the frame, one end of the first swing arm is hinged with a piston rod of the air cylinder, and the other end of the first swing arm is connected with a connecting shaft head. In other embodiments, the rotation driving mechanism includes a motor and a transmission mechanism (such as belt transmission and chain transmission), and a power output shaft of the motor is in transmission connection with a connecting shaft head through the transmission mechanism.

As a further preferable mode of the utility model, the auxiliary spring mechanism comprises an auxiliary compression spring fixing seat, an auxiliary compression spring and a supporting spring seat; the auxiliary compression spring fixing seat is arranged on the frame, the supporting spring seat is sleeved on the roller shaft of the first pressing roller, one end of the auxiliary compression spring is connected to the auxiliary compression spring fixing seat, the other end of the auxiliary compression spring is connected to the supporting spring seat, and the length direction of the auxiliary compression spring is consistent with the translation direction of the first pressing roller.

As a preferable scheme of the utility model, the first unreeling shaft and the second unreeling shaft are both inflatable shafts, and the rotation of the first unreeling shaft and the second unreeling shaft is controlled by a tension controller.

Compared with the prior art, the utility model has the following advantages:

the utility model does not shut down the reel change device, because of setting up the first membraneless detection device and second membraneless detection device, detect the reel material that the first unreel shaft releases, reel material that the second unreel shaft releases is about to run out, track the unreeling progress of the reel material automatically, and start the open-close driving mechanism automatically when detecting the reel material that the first unreel shaft or second unreel shaft releases is about to run out, receive, change the reel operation, therefore, the staff only need during first unreel shaft or second unreel shaft normally unreel, install the reserve reel material on another unreel shaft, and make the preparation work of receiving, needn't follow the unreel progress of reel material in unreeling all the time, improve the automation degree of reel material change.

Drawings

FIG. 1 is a schematic view of a preferred embodiment of the present utility model;

FIG. 2 is a schematic diagram (top view) of the first membraneless detection device of FIG. 1;

FIG. 3 is a schematic diagram showing the cooperation of the wobble plate of the first membraneless detection device of FIG. 1 with the corresponding annular groove of the first guide roller;

FIG. 4 is a schematic diagram illustrating the swing plate of the first membraneless detection device of FIG. 1;

FIG. 5 is a schematic structural view of the first pressing mechanism in FIG. 1 (omitting the tray);

FIG. 6 is a right side view of FIG. 5;

FIG. 7 is a schematic view showing a state in which the first nip roller is separated from the second nip roller;

FIG. 8 is a schematic view showing a state in which the first nip roller and the second nip roller are closed;

FIG. 9 is a schematic diagram showing the cooperation of the slider and the guide groove in FIGS. 7 and 8;

wherein each of the marks is as follows: 1-a frame, 2-a first unreeling shaft, 3-a first guide roller set, 301-a first guide roller; the device comprises a first material pressing mechanism, a material supporting plate, a supporting rod, a swing arm, a spring seat, a compression spring, a limiting part and a pressing block, wherein the first material pressing mechanism is 4-401-material supporting plate, the supporting rod is 402-403-swing arm, the spring seat is 404-405-the compression spring is 406-the limiting part is 407-the pressing block; 5-first membraneless detection device, 501-fixed rod, 502-fixed seat, 503-swinging plate, 504-detection element, 505-annular groove; 6-second unreeling shafts, 7-second guide roller sets, 701-second guide rollers, 8-second pressing mechanisms and 9-second film-free detection devices; 10-pressing mechanism, 101-first pressing roller, 1011-mandrel, 102-second pressing roller, 103-opening and closing driving mechanism, 1031-sliding block, 1032-guiding groove, 1033-auxiliary spring mechanism, 10331-auxiliary compression spring fixing seat, 10332-auxiliary compression spring, 10333-supporting spring seat, 1034-connecting shaft head, 1035-bearing, 1036-rotation driving mechanism, 10361-cylinder and 10362-first swing arm.

Detailed Description

The preferred embodiments of the present utility model will be further described with reference to the accompanying drawings.

As shown in fig. 1, a non-stop reel changing device comprises a frame 1, a control circuit (not shown in the drawing), a first unreeling shaft 2, a first guide roller set 3, a first material pressing mechanism 4, a first film-free detection device 5 for detecting whether a reel material passes through, a second unreeling shaft 6, a second guide roller set 7, a second material pressing mechanism 8, a second film-free detection device 9 for detecting whether the reel material passes through, a pressing mechanism 10 and a traction mechanism (not shown in the drawing); the first unreeling shaft 2 and the second unreeling shaft 6 are all inflatable shafts, and the rotation of the first unreeling shaft 2 and the second unreeling shaft 6 is controlled by a tension controller; the pressing mechanism 10 includes a first pressing roller 101, a second pressing roller 102, and an opening and closing driving mechanism 103 capable of driving the first pressing roller 101 to press or separate from the second pressing roller 102; the first guide roller set 3 comprises at least one first guide roller 301, the first unreeling shaft 2, each first guide roller 301 and the first laminating roller 101 are sequentially arranged from front to back along the conveying direction of the web, the second guide roller set 7 comprises at least one second guide roller 701, the second unreeling shaft 6, each second guide roller 701 and the second laminating roller 102 are sequentially arranged from front to back along the conveying direction of the web, and the first unreeling shaft 2, each first guide roller 301, the second unreeling shaft 6 and each second guide roller 701 can be rotatably arranged on the frame 1; specifically, along the conveying direction of the web, the first unreeling shaft 2, the first film-free detection device 5, the first pressing mechanism 4 and the first pressing roller 101 are sequentially arranged from front to back, and the second unreeling shaft 6, the second film-free detection device 9, the second pressing mechanism 8 and the second pressing roller 102 are sequentially arranged from front to back; the opening and closing driving mechanism 103 and the traction mechanism are arranged on the frame 1, and the traction mechanism is arranged at the rear of the pressing mechanism 10; the first film-free detection device 5 corresponds to the position of one first guide roller 301 in the first guide roller group 3, and the second film-free detection device 9 corresponds to the position of one second guide roller 701 in the second guide roller group 7; the first membraneless detection device 5 and the second membraneless detection device 9 are respectively and electrically connected with corresponding input ends of the control circuit, the opening and closing driving mechanism 103 is electrically connected with corresponding output ends of the control circuit, and the traction mechanism is electrically connected with corresponding output ends of the control circuit.

When the first unreeling shaft 2 unreels, the web material is conveyed by the first unreeling shaft 2, each first guide roller 301, the pressing mechanism 10 (the winding material passes through the space between the first pressing roller 101 and the second pressing roller 102) and the traction mechanism in sequence; when the second unreeling shaft 6 unreels, the web material is conveyed by the second unreeling shaft 6, each second guide roller 701, the pressing mechanism 10 (the winding material passes through the space between the first pressing roller 101 and the second pressing roller 102) and the traction mechanism in sequence; the first unreeling shaft 2 and the second unreeling shaft 6 are unreeled in turn, and when the first unreeling shaft 2 or the second unreeling shaft 6 is unreeled, the first pressing roller 101 is separated from the second pressing roller 102, and the reel material is pulled and conveyed by the traction mechanism.

When the first unreeling shaft 2 unreels, a standby roll material can be pre-installed on the second unreeling shaft 6, the front end part of the standby roll material passes through the space between the first pressing roller 101 and the second pressing roller 102 after being guided by the second guiding roller group 7, the standby roll material is pressed by the second pressing mechanism 8, and double-sided adhesive paper is adhered on the standby roll material; when the first film-free detection device 5 detects that no roll material passes (namely, the rear end part of the roll material released by the first unreeling shaft 2 passes through the first film-free detection device 5), judging that the roll material released by the first unreeling shaft 2 is about to run out, sending a corresponding signal to a control circuit, sending a control signal to an opening and closing driving mechanism 103 by the control circuit, and driving the first pressing roller 101 and the second pressing roller 102 to clamp each other by the opening and closing driving mechanism 103, wherein the front end part of the standby roll material is attached to the rear end part of the roll material about to run out, and the rear end part of the roll material about to run out drives the standby roll material to move under the action of friction force; when the part of the standby roll material, to which the double-sided adhesive paper is adhered, passes through the space between the first pressing roller 101 and the second pressing roller 102, the double-sided adhesive paper is adhered to the rear end part of the roll material to be used up, so that the connection between the standby roll material and the roll material to be used up is realized, and then the standby roll material on the second unreeling shaft 6 is unreeled normally, so that the roll changing work is completed.

Similarly, when the second unreeling shaft 6 unreels, a standby roll material can be pre-installed on the first unreeling shaft 2, the front end part of the standby roll material passes through between the first pressing roller 101 and the second pressing roller 102 after being guided by the first guiding roller set 3, the standby roll material is pressed by the first pressing mechanism 4, and double-sided adhesive paper is adhered on the standby roll material; when the second film-free detection device 9 detects that the web material passes (namely, the rear end part of the web material released by the second unreeling shaft 6 passes through the second film-free detection device 9), judging that the web material released by the second unreeling shaft 6 is about to run out, sending a corresponding signal to a control circuit, sending a control signal to an opening and closing driving mechanism 103 by the control circuit, and driving the first pressing roller 101 and the second pressing roller 102 to clamp each other by the opening and closing driving mechanism 103, wherein the front end part of the standby web material is attached to the rear end part of the web material about to run out at the moment, and the rear end part of the web material about to run out drives the standby web material to move under the action of friction force; when the part of the standby roll material, to which the double-sided adhesive paper is adhered, passes between the first pressing roller 101 and the second pressing roller 102, the double-sided adhesive paper is adhered to the rear end part of the roll material to be used up, so that the connection between the standby roll material and the roll material to be used up is realized, and then the standby roll material on the first unreeling shaft 2 is unreeled normally, so that the roll changing work is completed.

The first film-free detection device 5 and the second film-free detection device 9 are arranged, so that whether the reel materials released by the first unreeling shaft 2 and the reel materials released by the second unreeling shaft 6 are about to run out or not is detected, the unreeling progress of the reel materials is automatically tracked, and when the condition that the reel materials released by the first unreeling shaft 2 or the second unreeling shaft 6 are about to run out is detected, the opening and closing driving mechanism 103 is automatically started to carry out material receiving and reel changing operations, therefore, a worker only needs to install standby reel materials on the other unreeling shaft during the normal unreeling period of the first unreeling shaft 2 or the second unreeling shaft 6, and does not need to keep up with the unreeling progress of the reel materials in unreeling, and the automation degree of reel material changing is improved.

In this embodiment, the traction mechanism generally includes a traction motor and two traction rollers that are pressed against each other, one of which is in driving connection with a power output shaft of the traction motor. The web passes between the two traction rollers, and the traction motor drives the traction rollers to carry out traction and transportation on the web, which belongs to the conventional technology in the field, so the drawing is omitted.

As shown in fig. 2 to 4, taking the first membraneless detection device 5 as an example (the structure of the second membraneless detection device 9 is the same as that of the first membraneless detection device 5), the first membraneless detection device 5 comprises a fixed rod 501, a fixed seat 502 and a swinging plate 503, wherein the fixed rod 501 is fixedly arranged on the frame 1, and the fixed rod 501 is positioned above the corresponding first guide roller 301 and is parallel to the corresponding first guide roller 301; the first end of the swinging plate 503 is rotatably mounted on the fixed rod 501, the fixed seat 502 is provided with a detection element 504 capable of detecting the position change of the swinging plate 503, and the detection element 504 is a proximity switch or a photoelectric eye (such as a reflective photoelectric eye); the corresponding first guide roller 301 is provided with an annular groove 505 along the circumferential direction of the roller surface thereof, and the swinging plate 503 is positioned on the upper side of the annular groove 505 and aligned with the annular groove 505.

When the first unreeling shaft 2 is unreeled normally, the corresponding first guide roller 301 (or the second guide roller 701) is provided with a reel material passing through, the reel material covers the annular groove 505, the swinging plate 503 is contacted with the reel material at the moment, the second end of the swinging plate 503 corresponds to the detecting element 504, the detecting element 504 detects the swinging plate 503, and the reel material is unreeled normally when the detecting element 504 judges that the reel material is unreeled normally; when the rear end portion of the web released from the first unreeling shaft 2 passes over the first film-free detecting device 5 (or the rear end portion of the web released from the second unreeling shaft 6 passes over the second film-free detecting device 9), the swinging plate 503 falls down into the annular groove 505 due to no support of the web, at this time, the detecting element 504 does not detect the swinging plate 503, the first film-free detecting device 5 (or the second film-free detecting device 9) detects that the web passes, and it is determined that the web released from the first unreeling shaft 2 (or the second unreeling shaft 6) is about to run out, and a corresponding signal is sent to the control circuit.

As shown in fig. 1, 5 and 6, taking the first swager 4 as an example (the structure of the second swager 8 is the same as that of the first swager 4), the first swager 4 includes a pallet 401, a support bar 402, a swing arm 403, a spring seat 404 and a compression spring 405; the material supporting plate 401 and the supporting rod 402 are fixedly arranged on the frame 1, and a transverse graduated scale (not shown in the figure) is arranged on the upper surface of the material supporting plate 401; the support rod 402 is positioned above the material supporting plate 401, the spring seat 404 is arranged on the support rod 402, the upper end of the swing arm 403 is rotatably arranged on the support rod 402, and the compression spring 405 is sleeved on the support rod 402 and is positioned between the upper end of the swing arm 403 and the spring seat 404; the support rod 402 is provided with a limiting part 406, the upper end of the swing arm 403 is tightly contacted with the limiting part 406 under the action of the compression spring 405, in this embodiment, the limiting part 406 can be in a truncated cone shape, and the compression spring 405 is tightly pressed on the peripheral surface of the limiting part 406; a pressing block 407 is provided at the lower end of the swing arm 403.

Under the action of the compression spring 405, the upper end of the swing arm 403 is in close contact with the limiting part 406, and the position of the swing arm 403 can be kept stable by virtue of the friction force between the upper end of the swing arm 403 and the limiting part 406; when the standby roll material is mounted, the standby roll material is pressed against the pallet 401 by the pressing block 407. In the reel change process, when the rear end of the finished reel material drives the standby reel material to move, the standby reel material applies a horizontal acting force to the pressing block 407, so that the swinging arm 403 rotates around the supporting rod 402, and the pressing block 407 does not press the standby reel material any more. The position of the standby web in the transverse direction can be calibrated by the transverse scale, so that when the front end of the standby web is attached to the rear end of the web to be used up, the two positions are aligned with each other in the transverse direction.

As shown in fig. 1, 7 and 8, the opening and closing driving mechanism 103 includes two slide blocks 1031, two guide grooves 1032, and two auxiliary spring mechanisms 1033; two guide grooves 1032 are horizontally provided on the frame 1, and two sliding blocks 1031 are slidably provided in the corresponding two guide grooves 1032; the two ends of the first laminating roller 101 are fixedly connected with connecting shaft heads 1034 respectively, the axes of the two connecting shaft heads 1034 are mutually overlapped, and the axis of the first laminating roller 101 deviates from the axis of the connecting shaft heads 1034; in this embodiment, the first laminating roller 101 includes a mandrel 1011 and a roller body sleeved outside the mandrel 1011, the roller body is connected with the mandrel 1011 through a bearing, and a rubber layer is coated on the surface of the roller body, in this case, the axis of the mandrel 1011 deviates from the axis of the connecting shaft heads 1034, two connecting shaft heads 1034 are fixedly connected to two ends of the mandrel 1011 respectively, and the second laminating roller 102 may be a steel roller; the two connecting shaft heads 1034 are respectively installed on the two sliding blocks 1031 through bearings 1035, a rotating driving mechanism 1036 capable of driving the connecting shaft heads 1034 to rotate is arranged on the frame 1, in the embodiment, the rotating driving mechanism 1036 comprises an air cylinder 10361 and a first swing arm 10362, a cylinder body of the air cylinder 10361 is hinged with the frame, one end of the first swing arm 10362 is hinged with a piston rod of the air cylinder 10361, and the other end of the first swing arm 10362 is connected with a connecting shaft head 1034; the second pressing roller 102 is rotatably arranged on the frame 1; two auxiliary spring mechanisms 1033 are installed on the frame 1, the two auxiliary spring mechanisms 1033 are respectively connected with two ends of the first pressing roller 101, acting force towards the second pressing roller 102 is applied to the two ends of the first pressing roller 101, the auxiliary spring mechanisms 1033 comprise auxiliary compression spring fixing bases 10331, auxiliary compression springs 10332 and supporting spring bases 10333, the auxiliary compression spring fixing bases 10331 are installed on the frame 1, the supporting spring bases 10333 are sleeved on a roller shaft of the first pressing roller 101, one end of each auxiliary compression spring 10332 is connected to the corresponding auxiliary compression spring fixing base 10331, the other end of each auxiliary compression spring 10332 is connected to the corresponding supporting spring base 10333, and the length direction of each auxiliary compression spring 10332 is consistent with the translation direction of the corresponding first pressing roller 101.

Since the axis of the first pinch roller 101 is offset from the axis of the connecting stub shaft 1034, the outer diameters of the portions of the first pinch roller 101 in the circumferential direction are different (similar to an eccentric circle) with the axis of the connecting stub shaft 1034 as the rotation center, and thus, the rotation driving mechanism 1036 drives the connecting stub shaft 1034 to rotate, so that the first pinch roller 101 is switched between the following two positions: in one of the positions, a part with a smaller outer diameter in the circumferential direction of the first laminating roller 101 corresponds to the second laminating roller 102, and at this time, a gap is formed between the first laminating roller 101 and the second laminating roller 102, and the first laminating roller and the second laminating roller are in a separated state; at another position, a portion of the first nip roller 101 having a larger outer diameter in the circumferential direction corresponds to the second nip roller 102, and at this time, the first nip roller 101 is in close contact with the second nip roller 102 in a nip state. Under the action of the two auxiliary spring mechanisms 1033, the two sliding blocks 1031 are usually respectively located at one ends of the two guide grooves 1032 close to the second laminating roller 102; when the first pressing roller 101 and the second pressing roller 102 are in the pressing state, the two auxiliary spring mechanisms 1033 can also play a role in buffering, so that mechanical fit errors are eliminated, and the first pressing roller 101 and the second pressing roller 102 can better keep the pressing state.

In addition, it should be noted that, in the specific embodiments described in the present specification, names of various parts and the like may be different, and all equivalent or simple changes of the structures, features and principles described in the conception of the present utility model are included in the protection scope of the present utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the utility model as defined in the accompanying claims.

Claims

1. A non-stop reel changing device comprises a frame, a first unreeling shaft, a first guide roller set, a second unreeling shaft, a second guide roller set, a pressing mechanism and a traction mechanism; the pressing mechanism comprises a first pressing roller, a second pressing roller and an opening and closing driving mechanism capable of driving the first pressing roller and the second pressing roller to press or separate; the first guide roller set comprises at least one first guide roller, the first unreeling shaft, each first guide roller and the first laminating roller are sequentially arranged from front to back along the conveying direction of the roll material, the second guide roller set comprises at least one second guide roller, and the second unreeling shaft, each second guide roller and the second laminating roller are sequentially arranged from front to back along the conveying direction of the roll material; the opening and closing driving mechanism and the traction mechanism are arranged on the frame, and the traction mechanism is arranged at the rear part of the pressing mechanism; the method is characterized in that: the non-stop roll changing device further comprises a control circuit, a first material pressing mechanism for pressing the front end of the roll material on the first pressing roller, a first film-free detection device for detecting whether the roll material passes through, a second material pressing mechanism for pressing the front end of the roll material on the second pressing roller, and a second film-free detection device for detecting whether the roll material passes through; the first film-free detection device is positioned between the first unreeling shaft and the first laminating roller, and the second film-free detection device is positioned between the second unreeling shaft and the second laminating roller; the first membraneless detection device and the second membraneless detection device are respectively and electrically connected with corresponding input ends of the control circuit, and the opening and closing driving mechanism is electrically connected with corresponding output ends of the control circuit.

2. The non-stop reel changer of claim 1, wherein: the first film-free detection device corresponds to the position of one first guide roller in the first guide roller group, and the second film-free detection device corresponds to the position of one second guide roller in the second guide roller group; the first film-free detection device and the second film-free detection device comprise a fixed rod, a fixed seat and a swinging plate, wherein the fixed rod is fixedly arranged on the frame, the first end of the swinging plate is rotatably arranged on the fixed rod, the fixed seat is arranged on the fixed rod, and a detection element capable of detecting the position change of the swinging plate is arranged on the fixed seat; the corresponding first guide roller, second guide roller or third guide roller is provided with an annular groove along the circumferential direction of the roller surface, and the swinging plate is positioned on the upper side of the annular groove and aligned with the annular groove.

3. The non-stop reel changer of claim 2, wherein: the detection element is a proximity switch or a photoelectric eye.

4. A non-stop reel changer according to any one of claims 1 to 3, characterized in that: the first material pressing mechanism and the second material pressing mechanism comprise a material supporting plate, a supporting rod, a swing arm, a spring seat and a compression spring, wherein the material supporting plate and the supporting rod are fixedly arranged on the frame; the lower end of the swing arm is provided with a pressing block.

5. The non-stop reel changer of claim 4, wherein: the upper surface of the material supporting plate is provided with a transverse graduated scale.

6. A non-stop reel changer according to any one of claims 1 to 3, characterized in that: the opening and closing driving mechanism comprises two sliding blocks, two guide grooves and two auxiliary spring mechanisms; the two guide grooves are horizontally arranged on the frame, and the two sliding blocks are slidably arranged in the corresponding two guide grooves; the two ends of the first pressing roller are fixedly connected with connecting shaft heads respectively, the axes of the two connecting shaft heads are mutually overlapped, and the axis of the first pressing roller deviates from the axis of the connecting shaft heads; the two connecting shaft heads are respectively arranged on the two sliding blocks through bearings, and a rotating driving mechanism capable of driving the connecting shaft heads to rotate is arranged on the frame; the second pressing roller is rotatably arranged on the frame; the two auxiliary spring mechanisms are respectively connected with two ends of the first pressing roller and apply acting force towards the second pressing roller to two ends of the first pressing roller.

7. The non-stop reel changer of claim 6, wherein: the auxiliary spring mechanism comprises an auxiliary compression spring fixing seat, an auxiliary compression spring and a supporting spring seat; the auxiliary compression spring fixing seat is arranged on the frame, the supporting spring seat is sleeved on the roller shaft of the first pressing roller, one end of the auxiliary compression spring is connected to the auxiliary compression spring fixing seat, the other end of the auxiliary compression spring is connected to the supporting spring seat, and the length direction of the auxiliary compression spring is consistent with the translation direction of the first pressing roller.

8. A non-stop reel changer according to any one of claims 1 to 3, characterized in that: the first unreeling shaft and the second unreeling shaft are both air expansion shafts, and the rotation of the first unreeling shaft and the second unreeling shaft is controlled by a tension controller.