CN216035640U - Full-automatic metal material belt laminating machine - Google Patents
Full-automatic metal material belt laminating machine Download PDFInfo
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- CN216035640U CN216035640U CN202122614002.8U CN202122614002U CN216035640U CN 216035640 U CN216035640 U CN 216035640U CN 202122614002 U CN202122614002 U CN 202122614002U CN 216035640 U CN216035640 U CN 216035640U
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Abstract
The utility model relates to a full-automatic metal material belt laminating machine, which comprises a rack, wherein a machine case provided with a control system is arranged at the lower part of the rack, a material belt conveying platform is arranged on the rack, a material belt feeding mechanism is arranged at the left side of the rack, a material belt receiving mechanism is arranged at the right side of the rack, at least two label feeding mechanisms are arranged at the front side of the rack, a Y-axis conveying mechanism is arranged at the upper side of the material belt conveying platform, an X-axis conveying mechanism is arranged on the Y-axis conveying mechanism, a label attaching mechanism is arranged on the X-axis conveying mechanism, the label attaching mechanism comprises at least two groups of independently controlled attaching devices, and a plurality of attaching stations and a plurality of pressing stations are arranged on the material belt conveying platform; according to the full-automatic metal material belt laminating machine, the attaching station and the pressing station are arranged on the material belt conveying platform, and the subsequent pressing station does not need to be arranged independently, so that the structure of the device is simplified, the size of the device is reduced, and the cost is saved.
Description
Technical Field
The utility model relates to the technical field of laminating machines, in particular to a full-automatic metal material belt laminating machine.
Background
The sticking machine is a device for taking off the self-adhesive paper label (paper or metal foil) from the self-adhesive paper label roll and sticking the self-adhesive paper label to the PCB, FPC or other products. In the prior art, label attaching is usually performed on an attaching machine, and further, another pressing device is needed to perform subsequent pressing on a semi-finished product of an attached label, so that the device is large in size and high in cost. In addition, a plurality of attaching heads in the existing attaching machine can only absorb the same type of label generally, and different attaching heads are required to be arranged for different products; and because a plurality of attaching heads are synchronously controlled, the requirements on the positions and the supply process of a plurality of label rolls are high. In addition, for the product in the material belt form, a proper material belt feeding mechanism is not provided, the material belt is generally required to be punched in advance, and continuous feeding is required to be performed manually during attaching.
SUMMERY OF THE UTILITY MODEL
In view of the above, there is a need to provide a full-automatic metal tape laminating machine capable of performing the attaching and pressing processes on the tape conveying platform.
The utility model provides a full-automatic metal material strip rigging machine, includes the frame, be provided with material strip conveying platform in the frame, the frame left side is provided with material strip feed mechanism, and the frame right side is provided with material strip receiving agencies, and the frame front side is provided with two at least label feed mechanisms, material strip conveying platform upside is provided with Y axle transport mechanism, be provided with X axle transport mechanism on the Y axle transport mechanism, be provided with the attached mechanism of label on the X axle transport mechanism, the attached mechanism of label includes the attached device of at least two sets of independent control, is provided with a plurality of attached stations and a plurality of pressfitting station on the material strip conveying platform.
In one embodiment, the material belt conveying platform comprises a material pulling platform, an attaching lifting mechanism, a pressing plate lifting mechanism, a pressing piece and a material pulling driving mechanism; an attaching station notch and a pressing station notch are formed in the pulling platform from left to right, an attaching lifting mechanism is arranged below the attaching station notch, a pressing lifting mechanism is arranged below the pressing station notch, and a pressing plate lifting mechanism corresponding to the pressing lifting mechanism is arranged above the pressing lifting mechanism; a lower pressing piece is arranged on the right side of the gap of the pressing station on the material pulling platform, and a material pulling driving mechanism is arranged on the rear side of the material pulling platform corresponding to the position of the lower pressing piece; a plurality of attached stations are arranged on the attached lifting mechanism, and a plurality of press-fit stations are arranged on the press-fit lifting mechanism.
In one embodiment, the tape conveying platform further comprises a material pulling driving reset sensor and an optical fiber sensor; the material pulling driving reset inductor is arranged on the material pulling driving mechanism; the optical fiber sensor is arranged on the material pulling platform and located on the right side of the material pulling driving mechanism and used for controlling whether the material pulling driving mechanism stops pulling materials or not.
In one embodiment, the material tape feeding mechanism includes a material hanging wheel and a first material tape conveying slot, a right end of the first material tape conveying slot is disposed corresponding to a left end of the material tape conveying platform, and the material hanging wheel is located above the first material tape conveying slot.
In one embodiment, the material tape receiving mechanism includes a receiving wheel, a second material tape conveying slot and a paper separating supply wheel, the left end of the second material tape conveying slot is disposed corresponding to the right end of the material tape conveying platform, the receiving wheel is located above the second material tape conveying slot, and the paper separating supply wheel is located below the second material tape conveying slot.
In one embodiment, the label feeding mechanism comprises a fixed side plate, a discharging wheel and a stripping device, the fixed side plate is arranged on the rack, the discharging wheel and the stripping device are respectively and fixedly arranged on the fixed side plate, and the discharging wheel is arranged at the front end of the fixed side plate.
In one embodiment, the label attaching mechanism further comprises a fixed seat, and the attaching device is arranged on the X-axis conveying mechanism in a sliding mode through the fixed seat; attached device includes lifting unit and attached head, lifting unit sets up on the fixing base, attached head sets up in the lifting unit below to cooperate with label feeding mechanism and material area conveying platform respectively through lifting unit.
In one embodiment, the full-automatic metal material tape laminating machine further comprises a housing for coating the rack, wherein openings are formed in the left side and the right side of the housing, and the openings in the two sides respectively correspond to the positions of the material tape feeding mechanism and the material tape receiving mechanism.
According to the full-automatic metal material belt laminating machine, the material belt conveying platform is provided with the attaching station and the pressing station, so that the subsequent pressing station does not need to be independently arranged, the structure of the device is simplified, the size of the device is reduced, and the cost is saved; in addition, at least two groups of attaching devices in the label attaching mechanism are independently controlled, so that label adsorption can be flexibly carried out, and the requirement on the synchronous degree of labels in at least two rolls of label rolls is low; and at least two same labels or different labels can be adsorbed in one stroke, so that one machine has multiple purposes, and the cost is saved. In addition, the material area that uses in this application is the roll-type supplied material, adopts material area feed mechanism to carry out the feed, and the material area need not die-cut in advance, need not artifical incessant material of throwing, practices thrift the cost of labor, adopts material area receiving agencies to receive the material, practices thrift the place.
Drawings
Fig. 1 is a schematic view of an overall structure of a full-automatic metal tape laminating machine according to the present invention;
fig. 2 is an exploded view of a full-automatic metal tape laminating machine according to the present invention;
fig. 3 is a schematic structural view of a material tape conveying platform of a full-automatic metal material tape laminating machine according to the present invention;
fig. 4 is a schematic structural view of a material tape feeding mechanism of a full-automatic metal material tape laminating machine according to the present invention;
fig. 5 is a schematic structural view of a material tape receiving mechanism of the full-automatic metal material tape laminating machine according to the present invention;
fig. 6 is a schematic structural diagram of a label attaching mechanism of a full-automatic metal tape laminating machine according to the present invention;
the label sticking device comprises a rack 1, a case 2, a material belt conveying platform 3, a material belt feeding mechanism 4, a material belt receiving mechanism 5, a label feeding mechanism 6, a Y-axis conveying mechanism 7, an X-axis conveying mechanism 8, a label attaching mechanism 9 and a shell 10;
the device comprises a guide head 301, a pulling platform 302, an attaching lifting mechanism 303, a pressing lifting mechanism 304, a pressing plate lifting mechanism 305, a lower pressing piece 306, a pulling driving mechanism 307, an attaching station notch 308, a pressing station notch 309, an attaching station 310 and a pressing station 311;
a hanging wheel 401, a first material belt conveying slot 402;
a material receiving wheel 501, a second material belt conveying clamping groove 502 and a paper separating supply wheel 503;
a fixing seat 901, a lifting component 902 and an attaching head 903.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
As shown in fig. 1 to 6, the full-automatic metal material tape laminating machine in this embodiment includes a frame 1, a material tape conveying platform 3 is provided on the frame 1, a material tape feeding mechanism 4 is provided on the left side of the frame 1, a material tape receiving mechanism 5 is provided on the right side of the frame 1, two label feeding mechanisms 6 are provided on the front side of the frame 1, a Y-axis conveying mechanism 7 is provided on the upper side of the material tape conveying platform 3, an X-axis conveying mechanism 8 is provided on the Y-axis conveying mechanism 7, a label attaching mechanism 9 is provided on the X-axis conveying mechanism 8, the label attaching mechanism 9 includes two sets of independently controlled attaching devices, and four attaching stations 310 and four pressing stations 311 are provided on the material tape conveying platform 3.
The full-automatic metal material belt laminating machine further comprises a control system, an input system and a display, which are components commonly existing in the prior art, wherein the control system is arranged in a case 2 at the lower part of the rack 1, and the input system and the display are arranged on the front side of the rack, so that a worker can conveniently control the laminating machine; the Y-axis conveying mechanism and the X-axis conveying mechanism in the application can be Y-axis conveying mechanisms and X-axis conveying mechanisms in existing laminating machines; for example, the guide rail slider structure driven by the linear motor, or the lead screw nut structure driven by the motor, in this embodiment, is the guide rail slider structure driven by the linear motor.
According to the application, the attachment station 310 and the pressing station 311 are arranged on the material belt conveying platform 3, so that the subsequent pressing station does not need to be arranged independently, the structure of the device is simplified, the size of the device is reduced, and the cost is saved; in addition, because two groups of attaching devices in the label attaching mechanism 9 are independently controlled, label adsorption can be flexibly carried out, and the requirement on the synchronous degree of labels in two rolls of label rolling materials is low; and two same labels or two different labels can be adsorbed in one stroke, so that one machine has multiple purposes, and the cost is saved.
Further, the tape conveying platform 3 includes a material pulling platform 302, an attaching lifting mechanism 303, a pressing lifting mechanism 304, a pressing plate lifting mechanism 305, a pressing member 306, a material pulling driving mechanism 307, a material pulling driving reset sensor, and an optical fiber sensor; an attaching station notch 308 and a pressing station notch 309 are formed in the pulling platform 302 from left to right, an attaching lifting mechanism 303 is arranged below the attaching station notch 308, a pressing lifting mechanism 304 is arranged below the pressing station notch 309, and a pressing plate lifting mechanism 305 corresponding to the pressing lifting mechanism 304 is arranged above the pressing lifting mechanism 304; a lower pressing piece 306 is arranged on the right side of the pressing station gap 309 on the material pulling platform 302, and a material pulling driving mechanism 307 is arranged on the rear side of the material pulling platform 302 corresponding to the position of the lower pressing piece 306; a material pulling driving reset sensor is arranged on the material pulling driving mechanism 307, and an optical fiber sensor for controlling whether the material pulling driving mechanism 307 stops pulling is arranged at the position, on the right side of the material pulling driving mechanism 307, of the material pulling platform 302; the four attaching stations 310 are disposed on the attaching lifting mechanism 303, and the four pressing stations 311 are disposed on the pressing lifting mechanism 304.
The material belt conveying platform 3 in this embodiment may further include a guiding head 301, where the guiding head 301 is connected to the left end of the material pulling platform, and is configured to guide the material belt supplied by the material belt supplying mechanism 4 and send the material belt to the material pulling platform.
In this embodiment, the attachment lifting mechanism 303 and the pressing lifting mechanism 304 are both devices driven by cylinders and capable of lifting, and the pressing plate lifting mechanism 305 is a device driven by cylinders and capable of pressing; the drawing drive mechanism 307 is a device with a gear driven by a motor. In addition, the hold-down 306 may be a hold-down wheel, a paddle, or other component that may effect hold-down.
Further, the material belt conveying platform 3 further comprises a material pulling driving reset sensor and an optical fiber sensor; the material pulling driving reset sensor is arranged on the material pulling driving mechanism 307; the optical fiber sensor is arranged on the material pulling platform 302 and located on the right side of the material pulling driving mechanism 307, and is used for controlling whether the material pulling driving mechanism 307 stops pulling the material.
After the laminating machine is started each time, the material pulling driving mechanism 307 needs to return to the original point; the initial state of the motor is sensed by the material pulling driving reset sensor, if the motor is not in the original point state, the control system sends out an instruction for enabling the motor in the material pulling driving mechanism 307 to return to the original point, and the motor rotates until the original point state is returned.
The material area edge that uses in this application has the through-hole, when drawing material actuating mechanism and beginning to draw the material, calculates the quantity through the through-hole on its material area through optical fiber sensor, when calculating quantity and reaching predetermined quantity, draws material actuating mechanism to stop, draws the material to accomplish.
In this application, the material area is sent to drawing the material platform, and the material area is gone up and down and is pasted the label by attached elevating system in attached station 310 department, and after the label had all been pasted to the product of four attached station 310 departments, it is drawn to material actuating mechanism and is pulled to pressfitting station 311 to be pressfitting under pressfitting elevating system and clamp plate elevating system's effect, and the material area after the pressfitting is sent to material area receiving agencies 5.
Further, the material belt feeding mechanism 4 includes a material hanging wheel 401 and a first material belt conveying clamping groove 402, the right end of the first material belt conveying clamping groove 402 is arranged corresponding to the left end of the material belt conveying platform 3, and the material hanging wheel 401 is located above the first material belt conveying clamping groove 402.
In this application, hang the material wheel and be used for hanging the material roll coil of strip, first material area conveying draw-in groove is used for leading the material area to material area conveying platform 3.
Further, the material tape receiving mechanism 5 includes a receiving wheel 501, a second material tape conveying clamping groove 502 and a paper separating supply wheel 503, the left end of the second material tape conveying clamping groove 502 is arranged corresponding to the right end of the material tape conveying platform 3, the receiving wheel 501 is located above the second material tape conveying clamping groove 502, and the paper separating supply wheel 503 is located below the second material tape conveying clamping groove 502.
In this application, second material area conveying draw-in groove is used for leading the material area of pasting the label that draws forth from material area conveying platform 3 to receiving the material wheel, separates the paper supply wheel and is used for supplying to separate paper, receives the material wheel and is used for the material area and separate paper behind the rolling pasted label.
The material that uses in this application is the roll-type supplied material, adopts material area feed mechanism 4 to carry out the feed, and the material area need not die-cut in advance, need not artifical incessant material of throwing, practices thrift the cost of labor, adopts material area receiving agencies 5 to receive the material, practices thrift the place.
Further, the label feeding mechanism 6 comprises a fixed side plate, a discharging wheel and a stripping device, the fixed side plate is arranged on the rack 1, the discharging wheel and the stripping device are respectively and fixedly arranged on the fixed side plate, and the discharging wheel is arranged at the front end of the fixed side plate.
The peeling device in this embodiment is a peeling device in the prior art, and a label material roll drawn out from a discharge wheel is peeled off by the peeling device.
Further, the label attaching mechanism 9 further includes a fixing seat 901, and the attaching device is slidably disposed on the X-axis conveying mechanism 8 through the fixing seat 901; the attaching device comprises a lifting component 902 and an attaching head 903, wherein the lifting component 902 is arranged on a fixed seat 901, and the attaching head 903 is arranged below the lifting component 902 and is matched with a label feeding mechanism 6 and a material belt conveying platform 3 through the lifting component 902. The lifting component in this embodiment may be a common lifting component in the prior art, for example, a motor drives a belt to lift; the attaching head is a common adsorption head in the prior art, for example, the adsorption head can be driven by a motor to rotate. In addition, referring to the prior art, the label attaching mechanism 9 further includes an image pickup device, such as a CCD camera, which takes a picture by using the CCD camera to determine the position of the tape and adjust the position of the attaching head, so as to improve the attaching quality.
Further, the full-automatic metal material belt laminating machine further comprises a shell 10 for cladding the rack, openings are formed in the left side and the right side of the shell 10, and the openings in the two sides correspond to the positions of the material belt feeding mechanism 4 and the material belt receiving mechanism 5 respectively.
In the application, the shell 10 plays a role in protecting components inside the shell 10, and meanwhile, the safety performance can be improved, and the laminating machine is attractive as a whole; the left and right sides of the housing 10 are provided with openings to facilitate the entry and exit of the strip.
The full-automatic metal material belt laminating machine of the embodiment is characterized in that before work, a material belt is arranged on a material belt feeding mechanism 4, label rolls are arranged on two label feeding mechanisms 6, when the full-automatic metal material belt laminating machine works, a control system controls the running process of the whole machine, the material belt is conveyed to a material belt conveying platform 3, an upper CCD camera is used for photographing and positioning, adhesive labels on the two rolls of the material belt are respectively peeled off through the two label feeding mechanisms 6, a label attaching mechanism 9 is used for adjusting the positions of the label attaching mechanism 9 in the X-axis direction and the Y-axis direction through an X-axis conveying mechanism 8 and a Y-axis conveying mechanism 7 so that the label attaching mechanism 9 reaches a specified position, two groups of attaching devices respectively run downwards and adsorb the adhesive labels at the two label feeding mechanisms 6, then the positions of the label attaching mechanism 9 in the X-axis direction and the Y-axis direction are adjusted through the X-axis conveying mechanism 8 and the Y-axis conveying mechanism 7, a CCD camera is used for photographing and correcting, the two groups of attaching devices run downwards and attach two self-adhesive labels to two attaching positions on the material belt, wherein the two attaching positions are two attaching positions on one product; then, the label attaching mechanism 9 performs the next label taking and attaching process; the label attaching process of four products is carried out at the attaching station; after the four tapes at the four attaching stations 310 are all attached with the labels, the tape conveying platform 3 controls the tapes to move rightwards for a certain distance, so that the four products attached with the labels on the tapes reach the pressing station 311, the four products attached with the labels are pressed simultaneously by the tape conveying platform 3, and the tapes after being pressed are sent to the tape receiving mechanism 5.
According to the full-automatic metal material belt laminating machine, the material belt conveying platform 3 is provided with the attaching station 310 and the pressing station 311, so that the subsequent pressing station does not need to be independently arranged, the structure of the device is simplified, the size of the device is reduced, and the cost is saved; in addition, because at least two groups of attaching devices in the label attaching mechanism 9 are independently controlled, label adsorption can be flexibly carried out, and therefore, the requirement on the synchronous degree of labels in at least two rolls of label rolling materials is low; and at least two same labels or different labels can be adsorbed in one stroke, so that one machine has multiple purposes, and the cost is saved. In addition, the material area that uses in this application is the roll-type supplied material, adopts material area feed mechanism 4 to carry out the feed, and the material area need not die-cut in advance, need not artifical incessant material of throwing, practices thrift the cost of labor, adopts material area receiving agencies 5 to receive the material, practices thrift the place.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (8)
1. The utility model provides a full-automatic metal material strip rigging machine, a serial communication port, including frame (1), be provided with material area conveying platform (3) in frame (1), frame (1) left side is provided with material area feed mechanism (4), and frame (1) right side is provided with material area receiving agencies (5), and frame (1) front side is provided with two at least label feed mechanisms (6), material area conveying platform (3) upside is provided with Y axle transport mechanism (7), be provided with X axle transport mechanism (8) on Y axle transport mechanism (7), be provided with attached mechanism of label (9) on X axle transport mechanism (8), attached mechanism of label (9) are provided with a plurality of attached stations (310) and a plurality of pressfitting station (311) including at least two sets of independent control's attached device on material area conveying platform (3).
2. The full-automatic metal tape laminating machine according to claim 1, wherein the tape conveying platform (3) comprises a drawing platform (302), an attaching lifting mechanism (303), a pressing lifting mechanism (304), a pressing plate lifting mechanism (305), a pressing member (306), and a drawing driving mechanism (307); an attaching station notch (308) and a pressing station notch (309) are formed in the material pulling platform (302) from left to right, an attaching lifting mechanism (303) is arranged below the attaching station notch (308), a pressing lifting mechanism (304) is arranged below the pressing station notch (309), and a pressing plate lifting mechanism (305) corresponding to the pressing lifting mechanism is arranged above the pressing lifting mechanism (304); a lower pressing piece (306) is arranged on the right side of the pressing station gap (309) on the material pulling platform (302), and a material pulling driving mechanism (307) is arranged on the rear side of the material pulling platform (302) corresponding to the position of the lower pressing piece (306); the plurality of attaching stations (310) are arranged on the attaching lifting mechanism (303), and the plurality of pressing stations (311) are arranged on the pressing lifting mechanism (304).
3. The full-automatic metal tape laminating machine according to claim 2, wherein the tape conveying platform (3) further comprises a material pulling driving reset sensor and an optical fiber sensor; the material pulling driving reset sensor is arranged on the material pulling driving mechanism (307); the optical fiber sensor is arranged on the material pulling platform (302), is positioned on the right side of the material pulling driving mechanism (307), and is used for controlling whether the material pulling driving mechanism (307) stops pulling materials or not.
4. The full-automatic metal tape laminating machine according to claim 1, wherein the tape feeding mechanism (4) comprises a material hanging wheel (401) and a first tape conveying slot (402), a right end of the first tape conveying slot (402) is disposed corresponding to a left end of the tape conveying platform (3), and the material hanging wheel (401) is located above the first tape conveying slot (402).
5. The full-automatic metal tape laminating machine according to claim 4, wherein the tape receiving mechanism (5) comprises a receiving wheel (501), a second tape conveying slot (502) and a paper separation supply wheel (503), a left end of the second tape conveying slot (502) is disposed corresponding to a right end of the tape conveying platform (3), the receiving wheel (501) is located above the second tape conveying slot (502), and the paper separation supply wheel (503) is located below the second tape conveying slot (502).
6. The full-automatic metal material belt laminating machine according to claim 1, wherein the label feeding mechanism (6) comprises a fixed side plate, a feeding wheel and a stripping device, the fixed side plate is disposed on the machine frame (1), the feeding wheel and the stripping device are respectively and fixedly disposed on the fixed side plate, and the feeding wheel is disposed at the front end of the fixed side plate.
7. The full-automatic metal material tape laminating machine according to claim 1, wherein the label applying mechanism (9) further comprises a fixing seat (901), and the applying device is slidably arranged on the X-axis conveying mechanism (8) through the fixing seat (901); the attaching device comprises a lifting component (902) and an attaching head (903), wherein the lifting component (902) is arranged on a fixing seat (901), the attaching head (903) is arranged below the lifting component (902) and is matched with a label feeding mechanism (6) and a material belt conveying platform (3) through the lifting component (902).
8. The full-automatic metal tape laminating machine according to claim 1, wherein: the material belt feeding mechanism is characterized by further comprising a shell (10) for coating the rack, wherein openings are formed in the left side and the right side of the shell (10), and the openings in the two sides correspond to the positions of the material belt feeding mechanism (4) and the material belt receiving mechanism (5) respectively.
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CN202122614002.8U CN216035640U (en) | 2021-10-29 | 2021-10-29 | Full-automatic metal material belt laminating machine |
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CN202122614002.8U CN216035640U (en) | 2021-10-29 | 2021-10-29 | Full-automatic metal material belt laminating machine |
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CN216035640U true CN216035640U (en) | 2022-03-15 |
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CN202122614002.8U Active CN216035640U (en) | 2021-10-29 | 2021-10-29 | Full-automatic metal material belt laminating machine |
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