CN215551712U - Material belt processing equipment - Google Patents

Abstract

The application provides a material area processing equipment includes: the laminating part comprises a laminating device and a material breakage sensing device, the laminating device is used for laminating at least two material belts to form a material belt to be processed and transmitting the material belt to be processed, and the material breakage sensing device is used for detecting whether the material belts are broken or not; the die cutting part comprises a cutting device, a winding device and a second sensing device, the cutting device is used for processing the material belt to be processed, the winding device is arranged on one side, away from the laminating part, of the cutting device, the winding device is used for winding the material belt to be processed of the laminating part, the second sensing device is arranged on one side, close to the laminating part, of the cutting device, and the second sensing device is used for detecting whether the material belt to be processed is in a detection range or not; and the control device is electrically connected with the laminating part and the die cutting part. The material area processing equipment can realize that equipment automatic monitoring material area is expected absolutely, and can in time shut down.

Description

Material belt processing equipment

Technical Field

The application relates to the field of die cutting equipment manufacturing and die cutting forming processing, in particular to material belt processing equipment.

Background

Traditional equipment that the cross cutting trade used does not possess automatic shutdown alarming function, needs the people to control the operation of switch operation equipment or stop, does not notice when the workman's operation that the material area has run out and in time not supply the material area, causes the product to scrap easily, and when the equipment line is longer, personnel can't accomplish the timeliness to shut down to equipment, and need start all control switch during the operation equipment, comparatively loaded down with trivial details.

SUMMERY OF THE UTILITY MODEL

The present application is directed to solving at least one of the problems in the prior art. For this reason, this application provides a material area processing equipment, can realize that equipment automatic monitoring material area expects absolutely, and can in time shut down.

According to this application embodiment's material area processing equipment includes: the laminating part comprises a laminating device and a material breakage sensing device, the laminating device is used for laminating at least two material belts to form a material belt to be processed and transmitting the material belt to be processed, and the material breakage sensing device is used for detecting whether the material belts are broken or not; the die cutting part comprises a cutting device, a winding device and a second sensing device, the cutting device is used for processing the material belt to be processed, the winding device is arranged on one side, away from the laminating part, of the cutting device, the winding device is used for winding the material belt to be processed of the laminating part, the second sensing device is arranged on one side, close to the laminating part, of the cutting device, and the second sensing device is used for detecting whether the material belt to be processed is in a detection range; and the control device is electrically connected with the laminating part and the die cutting part.

According to the material belt processing equipment of the embodiment of the application, at least the following beneficial effects are achieved: the laminating device laminates at least two material belts to form a material belt to be processed, and the material belt to be processed is wound by the winding device, so that the material belt to be processed is conveyed to the inverse cutting device to be cut, and the material belt laminating and the material belt to be processed die cutting processes are completed; the material breakage sensing device can detect whether the material belt is broken or not, when the material breakage sensing device detects that the material belt is broken, the control device controls the laminating part to stop, at the moment, the laminating part stops conveying the material belt to be processed to the die cutting part, the die cutting part continues to work, the material belt to be processed is gradually far away from the detection range of the second sensing device under the traction of the winding device, and when the second sensing device detects that the material belt to be processed is not in the detection range of the second sensing device, the control device controls the die cutting part to stop; when realizing disconnected material, laminating portion in time is shut down, the function of the driven shut down of cross cutting portion.

According to some embodiments of the present application, the attaching portion further includes at least two unwinding devices, and the unwinding devices are used for unwinding the material belt.

According to some embodiments of the application, the material break sensing device comprises at least one first sensing device for detecting whether the material strip is broken.

According to some embodiments of the application, compression fittings includes motor and at least a set of compression roller set, the motor with compression roller set connects, the motor is used for the drive compression roller set rotates to the messenger passes the material area laminating of compression roller set.

According to some embodiments of the application, the nip roller set includes a first nip roller and a second nip roller, the first nip roller contacts with the second nip roller, and a gap for the material belt to pass through is formed between the first nip roller and the second nip roller.

According to some embodiments of the application, the pressing device further comprises a conveying frame, a groove matched with the first pressing roller is formed in the conveying frame, the first pressing roller is embedded in the groove, and the second pressing roller is arranged above the conveying frame so that the first pressing roller is in contact with the second pressing roller.

According to some embodiments of the application, the attaching portion further comprises a guide member, the guide member is obliquely arranged at the feeding end of the pressing device, and the inclination of the guide member is adjustable.

According to some embodiments of the application, the attachment portion further comprises a switching device electrically connected with the control device, the switching device being configured to turn on or off the motor.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The present application is further described with reference to the following figures and examples, in which:

FIG. 1 is a schematic structural diagram of an embodiment of the present disclosure during normal processing;

fig. 2 is a schematic structural diagram at shutdown in the embodiment of the present application.

Reference numerals:

the device comprises a laminating part 100, a laminating device 110, a first laminating roller 111, a second laminating roller 112, a first unreeling device 120, a second unreeling device 130, a first sensing device 140, a conveying frame 150, a guide piece 160, a die cutting part 200, a cutting device 210, a second sensing device 220, a reeling device 230, a first material belt 300, a second material belt 400, a material belt 500 to be processed, a material belt lowest point 600 and a detection range 700.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the positional descriptions, such as the directions of up, down, front, rear, left, right, etc., referred to herein are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the present application.

In the description of the present application, the meaning of a plurality is one or more, the meaning of a plurality is two or more, and the above, below, exceeding, etc. are understood as excluding the present number, and the above, below, within, etc. are understood as including the present number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present application, unless otherwise expressly limited, terms such as set, mounted, connected and the like should be construed broadly, and those skilled in the art can reasonably determine the specific meaning of the terms in the present application by combining the detailed contents of the technical solutions.

In the description of the present application, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

A tape processing apparatus according to an embodiment of the present application is described below with reference to fig. 1 to 2.

As shown in fig. 1, the strip processing apparatus according to the present application includes: a bonding part 100, a die cutting part 200 and a control device.

The laminating part 100 comprises a laminating device 110 and a material breakage sensing device, wherein the laminating device 110 is used for laminating at least two material belts to form a material belt 500 to be processed and transmitting the material belt 500 to be processed, and the material breakage sensing device is used for detecting whether the material belts are broken or not; the die cutting part 200 comprises a cutting device 210, a winding device 230 and a second sensing device 220, the cutting device 210 is used for processing the material belt 500 to be processed, the winding device 230 is arranged on one side of the cutting device 210 far away from the attaching part 100, the winding device 230 is used for winding the material belt 500 to be processed of the attaching part 100, the second sensing device 220 is arranged on one side of the cutting device 210 near the attaching part 100, and the second sensing device 220 is used for detecting whether the material belt 500 to be processed is in a detection range 700; the control device is electrically connected to the bonding part 100 and the die cutting part 200.

Specifically, in this embodiment, the material belts include a first material belt 300 and a second material belt 400, the laminating device 110 laminates the first material belt 300 and the second material belt 400 to form a material belt 500 to be processed, and the rolling device 230 rolls the material belt 500 to be processed, so that the material belt 500 to be processed is conveyed to the inverse cutting device 210 to be cut, and the lamination of the first material belt 300 and the second material belt 400 and the die cutting process of the material belt 500 to be processed are completed; the material breakage sensing device can detect whether the material belt is broken or not, when the material breakage sensing device detects that the material belt is broken, the control device controls the attaching part 100 to stop working, at the moment, the attaching part 100 stops conveying the material belt 500 to be processed to the die cutting part 200, the die cutting part 200 continues working, the material belt 500 to be processed is gradually far away from the detection range 700 of the second sensing device 220 under the traction of the winding device 230, and when the second sensing device 220 detects that the material belt 500 to be processed is not in the detection range 700 of the second sensing device 220, the control device controls the die cutting part 200 to stop working; when the material is cut off, the laminating part 100 is stopped in time, and the die cutting part 200 is stopped in a driven mode. It will be understood that the number of strips can be adjusted according to the actual requirement, for example, the strips include three or four or five strips.

Further, referring to fig. 1 and fig. 2, due to the mismatch of the running speeds of the laminating part 100 and the die-cutting part 200, the material belt 500 to be processed is in a loose state between the laminating part 100 and the die-cutting part 200 to form a material belt lowest point 600, and the second sensing device 220 is disposed on a side of the cutting device 210 close to the laminating part 100, that is, the second sensing device 220 is disposed between the laminating part 100 and the cutting device 210, and when the laminating part 100 and the die-cutting part 200 work normally, the material belt lowest point 600 is located within the detection range 700 of the second sensing device 220; when the material belt of the laminating portion 100 is broken, the laminating portion 100 stops, the material belt 500 to be processed is not conveyed to the die cutting portion 200, at this time, the die cutting portion 200 continues to work, the lowest point 600 of the material belt is gradually far away from the detection range 700 which can be detected by the second sensing device 220 under the traction of the winding device 230 of the material belt 500 to be processed, and when the second sensing device 220 detects that the lowest point 600 of the material belt exceeds the detection range 700, the die cutting portion 200 stops.

As shown in fig. 1, the attaching portion 100 further includes at least two unwinding devices, and the unwinding devices are used for unwinding the material tape. Specifically, the unwinding devices include two unwinding devices, which are respectively a first unwinding device 120 and a second unwinding device 130, where the first unwinding device 120 is used for unwinding the first material tape 300, and the second unwinding device 130 is used for unwinding the second material tape 400. In this embodiment, the first unwinding device 120 is disposed above the pressing device 110, the second unwinding device 130 is disposed at the left lower side of the pressing device 110, and the first tape 300 unwound by the first unwinding device 120 and the second tape 400 unwound by the second unwinding device 130 pass through the pressing device 110, so that the first tape 300 and the second tape 400 are attached to each other. It can be understood that the positions of the first unwinding device 120 and the second unwinding device 130 can be arbitrarily set at desired positions as required, and the number of the unwinding devices can be adjusted according to the number of the tapes, for example, three tapes are processed, and then three unwinding devices are provided.

It can be understood that the laminating part 100 further comprises a guide 160, the guide 160 is obliquely arranged at the feeding end of the laminating device 110, the guide 160 is used for guiding the material belt to pass through the laminating device 110 and plays a role of supporting, and the inclination of the guide 160 can be adjusted according to the position of the unwinding device, so that the material belt is smoothly attached to the guide 160 for transmission.

As shown in fig. 1, the material break sensing device includes a first sensing device 140, the first sensing device 140 is an inductive fiber probe, the first sensing device 140 is disposed between the first unwinding device 120 and the pressing device 110, that is, disposed at any position between the first unwinding device 120 and the pressing device 110 where the first material tape 300 unwound by the first unwinding device reaches, and the material break sensing device is configured to detect whether the first material tape 300 is broken. It can be understood that the material break sensing device further includes a third sensing device, the third sensing device is disposed between the second unwinding device 130 and the pressing device 110, that is, disposed at any position between the second unwinding device 130 and the pressing device 110 where the second material tape 400 unwound reaches the pressing device, and the third sensing device is configured to detect whether the second material tape 400 is broken.

As shown in fig. 1, the pressing device 110 includes a motor and at least one pressing roller set, the motor is connected to the pressing roller set, and the motor is used to drive the pressing roller set to rotate, so as to fit the material belt passing through the pressing roller set. Specifically, the motor is connected with the compression roller group, can drive the compression roller group and rotate, so that the first material belt 300 and the second material belt 400 which pass through the compression roller group are laminated, and the laminated material belt 500 to be processed is driven to be conveyed to the rotating direction through the rotating action of the compression roller group, three compression roller groups are arranged in the embodiment, the first material belt 300 and the second material belt 400 which are laminated through the compression device 110 can be laminated more tightly, the effect is good, and the quantity of the compression roller group can be adjusted according to actual needs, for example, the quantity is set to be two or four or five.

As shown in fig. 1, the press roller set includes a first press roller 111 and a second press roller 112, the first press roller 111 contacts with the second press roller 112, a gap is formed between the first press roller 111 and the second press roller 112 for the first material tape 300 and the second material tape 400 to pass through, the first material tape 300 and the second material tape 400 are placed in the gap, the first material tape 300 and the second material tape 400 are attached by the rotation of the first press roller 111 and the second press roller 112, and the attached material tape 500 to be processed can be driven to move in the rotation direction. It can be understood that the pressing device 110 further includes a conveying frame 150, a groove adapted to the first pressing roller 111 is formed in the conveying frame 150, the first pressing roller 111 is embedded in the groove, the second pressing roller 112 is disposed above the conveying frame 150, so that the first pressing roller 111 contacts with the second pressing roller 112, the conveying frame 150 is used for supporting the material belt 500 to be processed, the material belt 500 to be processed can be more stable in the conveying process, the material belt 500 to be processed can be in a tensioned state, and the material belt 500 to be processed is prevented from being in a loose state when being conveyed between two pressing roller sets, so that the subsequent processing process is affected.

The attaching portion 100 further includes a switching device electrically connected to the control device, the switching device being used to turn on or off the motor. Specifically, when the material breakage sensing device detects that the first material belt 300 is broken, the motor automatically stops running, at this time, the attaching portion 100 stops running, and after the first material belt 300 is supplemented, the switch device is started, and then the attaching portion 100 can restart to continue the operation. It will be appreciated that the switch device may be turned off to effect the stop of the attachment portion 100.

The tape processing apparatus according to an embodiment of the present application is described in detail below with reference to fig. 1 and 2 as a specific embodiment. It is to be understood that the following description is illustrative only and is not intended to be in any way limiting.

The first unwinding device 120 is disposed above the laminating device 110, the second unwinding device 130 is disposed at the lower left of the laminating device 110, the first unwinding device 120 is configured to unwind the first material tape 300, and the second unwinding device 130 is configured to unwind the second material tape 400; the pressing device 110 comprises a conveying frame 150, a motor and three pressing roller sets, wherein each pressing roller set comprises a first pressing roller 111 and a second pressing roller 112, a groove matched with the first pressing roller 111 is formed in the conveying frame 150, the first pressing roller 111 is embedded in the groove, the second pressing roller 112 is arranged above the conveying frame 150, namely the first pressing roller 111 is in contact with the second pressing roller 112, a gap for the first material belt 300 and the second material belt 400 to pass through is formed between the first pressing roller 111 and the second pressing roller 112, and the motor is used for driving the first pressing roller 111 and the second pressing roller 112 to rotate so that the first pressing roller 111 and the second pressing roller 112 are matched with each other to attach the first material belt 300 and the second material belt 400 to form the material belt 500 to be processed; when the motor operates, the first material belt 300 and the second material belt 400 can be attached through the rolling action of the first pressing roller 111 and the second pressing roller 112, the function of conveying the material belt 500 to be processed is achieved, and under the winding action of the winding device 230, the material belt 500 to be processed is conveyed to the cutting device 210 for cutting, so that the attachment of the first material belt 300 and the second material belt 400 and the die cutting process of the material belt 500 to be processed are completed; because the running speeds of the laminating part 100 and the die cutting part 200 are not matched, the material belt 500 to be processed is in a loose state between the laminating part 100 and the die cutting part 200 to form the lowest point 600 of the material belt; the second sensing device 220 is disposed on one side of the cutting device 210 close to the attaching portion 100, that is, the second sensing device 220 is located between the attaching portion 100 and the cutting device 210, and when the attaching portion 100 and the die cutting portion 200 work normally, the lowest point 600 of the material strap is located within the detection range 700 of the second sensing device 220; the first sensing device 140 is arranged at any position through which the first material belt 300 passes before reaching the pressing device 110 from the first unwinding device 120, the first sensing device 140 is used for detecting whether the first material belt 300 is broken or not, if the first sensing device 140 detects that the material is broken, the control device controls the motor to stop running, at this time, the attaching part 100 stops running, the attaching part 100 stops conveying the material belt 500 to be processed to the die cutting part 200, the die cutting part 200 continues to work, the material belt 500 to be processed gradually leaves the detection range 700 of the second sensing device 220 under the traction of the winding device 230, when the second sensing device 220 detects that the lowest point 600 of the material belt is not in the detection range 700 of the second sensing device 220, the die cutting part 200 automatically stops, when the material is broken, the attaching part 100 stops in time, and the die cutting part 200 stops being driven; when the first strip 300 is replenished and the switch device is turned on, the laminating part 100 can restart the continuous operation, and when the second sensing device 220 detects again that the lowest point 600 of the strip is located within the detection range 700 of the second sensing device 220, the die-cutting part 200 restarts the continuous operation.

The embodiments of the present application have been described in detail with reference to the drawings, but the present application is not limited to the embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present application. Furthermore, the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

Claims (8)

1. A material belt processing device, comprising:

the laminating part comprises a laminating device and a material breakage sensing device, the laminating device is used for laminating at least two material belts to form a material belt to be processed and transmitting the material belt to be processed, and the material breakage sensing device is used for detecting whether the material belts are broken or not;

the die cutting part comprises a cutting device, a winding device and a second sensing device, the cutting device is used for processing the material belt to be processed, the winding device is arranged on one side, away from the laminating part, of the cutting device, the winding device is used for winding the material belt to be processed of the laminating part, the second sensing device is arranged on one side, close to the laminating part, of the cutting device, and the second sensing device is used for detecting whether the material belt to be processed is in a detection range;

and the control device is electrically connected with the laminating part and the die cutting part.

2. The strip processing apparatus of claim 1, wherein the attaching portion further comprises at least two unwinding devices, and the unwinding devices are configured to unwind the strip.

3. The strip processing apparatus of claim 1, wherein the material break sensing device comprises at least one first sensing device, and the first sensing device is configured to detect whether the strip is broken.

4. The tape processing apparatus of claim 1, wherein the pressing device comprises a motor and at least one pressing roller set, the motor is connected to the pressing roller set, and the motor is configured to drive the pressing roller set to rotate so as to apply the tape passing through the pressing roller set.

5. The tape processing apparatus of claim 4, wherein the pressing roller set comprises a first pressing roller and a second pressing roller, the first pressing roller contacts with the second pressing roller, and a gap is formed between the first pressing roller and the second pressing roller for the tape to pass through.

6. The strip processing apparatus of claim 5, wherein the pressing device further comprises a conveying frame, the conveying frame is provided with a groove adapted to the first pressing roller, the first pressing roller is embedded in the groove, and the second pressing roller is disposed above the conveying frame so as to contact the first pressing roller with the second pressing roller.

7. The tape processing apparatus of claim 1, wherein the attaching portion further comprises a guide member, the guide member is disposed at an inclined position at the feeding end of the pressing device, and the inclination of the guide member is adjustable.

8. The tape processing apparatus of claim 4, wherein the attaching portion further comprises a switch device electrically connected to the control device, the switch device being configured to turn on or off the motor.

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