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CN-224205531-U - Strip laying machine

CN224205531UCN 224205531 UCN224205531 UCN 224205531UCN-224205531-U

Abstract

The utility model discloses a strip laying machine which is applied to the technical field of strip laying machines and has the technical scheme that a feeding assembly, a punching assembly, a feeding roller, a cutting assembly and a laying assembly are sequentially arranged along the conveying direction of a material belt, an adsorption supporting plate assembly is arranged at the output end of the feeding roller, the laying assembly comprises a fixedly arranged laying frame and a material preparation platform fixedly connected to one end of the laying frame, which is close to the head of the cutting assembly, the end of the head of the laying frame is movably connected with the material preparation assembly which is used for adsorbing and conveying the material belt on the lifting adsorption supporting plate assembly onto the material preparation platform and is divided into a plurality of rows for arrangement, and a first adsorption conveying assembly and a second adsorption conveying assembly which are used for adsorbing and conveying the material belt on the material preparation platform onto a glass assembly are respectively and slidably connected onto the laying frame.

Inventors

  • LI XINYUE
  • LI XINLI

Assignees

  • 无锡市精电技术有限公司

Dates

Publication Date
20260505
Application Date
20250506

Claims (7)

  1. 1. The utility model provides a rectangular strander, its characterized in that is equipped with material loading subassembly (1), punching a hole subassembly (2), feed roll, cuts subassembly (4) and lays subassembly (5) in proper order along the direction of delivery of material area, the output of feed roll is equipped with and is used for holding up and adsorbs lift adsorption supporting plate subassembly (6) of material area head, lay subassembly (5) including fixed setting lay frame (51) and fixed connection in lay frame (51) be close to prepare material platform (52) of the head one end of cutting subassembly (4), lay frame (51) head one end based on lead screw slip subassembly (53) swing joint have be used for with the material area on lift adsorption supporting plate subassembly (6) adsorb and carry to prepare material subassembly (54) that are arranged on material platform (52) and divide into a plurality of columns, be used for with on lay frame (51) respectively sliding connection first adsorption conveying subassembly (55) and second adsorption conveying subassembly (56) on the glass subassembly are adsorbed to the material area on material platform (52).
  2. 2. A strip laying machine according to claim 1, characterized in that the lifting adsorption pallet assembly (6) comprises a pallet (61) slidingly connected to the laying frame (51) along the vertical direction and a lifting cylinder (62) fixedly connected to the laying frame (51) along the vertical direction and used for driving the pallet (61) to lift, and a plurality of negative pressure adsorption holes (63) used for adsorbing the material strips are uniformly arranged on the pallet (61) at intervals along the conveying direction perpendicular to the material strips.
  3. 3. The strip laying machine according to claim 1, wherein the screw rod sliding assembly (53) comprises a screw rod shaft (531) which is rotationally connected to the laying frame (51) along a conveying direction parallel to a material belt and a material preparation sliding seat (532) which is slidingly connected to the laying frame (51) along the conveying direction parallel to the material belt, screw rod holes matched with the screw rod shaft (531) are formed in the material preparation sliding seat (532), the material preparation assembly (54) comprises a lifting material preparation cylinder (533) which is fixedly connected to the material preparation sliding seat (532) along a vertical direction, a material preparation plate (534) is fixedly connected to a telescopic end of the lifting material preparation cylinder (533), material preparation sucking discs (535) for adsorbing the material belt are uniformly and alternately fixedly connected to the material preparation plate (534) along the conveying direction perpendicular to the material belt, and screw rod driving assemblies (536) for driving the screw rod shaft (531) to rotate are fixedly connected to the laying frame (51).
  4. 4. A strip laying machine according to claim 3, characterized in that the screw drive assembly (536) comprises a first drive gear ring (537) fixedly connected to the screw shaft (531) and a screw drive motor (538) fixedly connected to the laying frame (51), a second drive gear ring (539) is fixedly connected to the rotating shaft of the screw drive motor (538), and transmission is realized between the first drive gear ring (537) and the second drive gear ring (539) based on a screw transmission belt (5310).
  5. 5. A strip laying machine according to claim 1, characterized in that the cutting assembly (4) comprises a horizontal sliding table (41) fixedly connected to the laying frame (51) along the conveying direction perpendicular to the material belt and a cutting seat (42) fixedly connected to the sliding end of the horizontal sliding table (41), the cutting seat (42) is fixedly connected with a cutting motor (43), and a cutting disc (44) is fixedly connected to the rotating shaft of the cutting motor (43).
  6. 6. The strip laying machine according to claim 1, wherein the first adsorption conveying assembly (55) and the second adsorption conveying assembly (56) comprise a sliding guide rail (551) fixedly connected to the laying frame (51) along a direction parallel to the conveying direction of the material strip and a sliding seat (552) slidingly connected to the sliding guide rail (551), a screw lifting sliding table (553) is fixedly connected to the sliding seat (552) along a vertical direction, a conveying table (554) arranged along a horizontal direction is fixedly connected to a sliding end of the screw lifting sliding table (553), at least one row of material strip suction cups (555) are arranged on the conveying table (554) at intervals along a direction parallel to the conveying direction of the material strip, the first adsorption conveying assembly (55) is provided with two rows of material strip suction cups (555) for laying the material strip on the head portion and the middle portion of the glass panel, and the second adsorption conveying assembly (56) is provided with one row of material strip suction cups (555) for laying the material strip on the tail portion of the glass panel.
  7. 7. The strip laying machine according to claim 6, wherein the laying frame (51) is provided with a sliding driving assembly (556) for driving the sliding seat (552) to slide, the sliding driving assembly (556) comprises a third driving gear ring (557) and a fourth driving gear ring (558) which are respectively and symmetrically connected with the head and the tail of the laying frame (51) in a rotating mode, the laying frame (51) is fixedly connected with a sliding driving motor (559) for driving the third driving gear ring (557) and the fourth driving gear ring (558) to rotate, transmission is achieved between the third driving gear ring (557) and the fourth driving gear ring (558) based on a conveying transmission belt, and the conveying transmission belt is fixedly connected to the sliding seat (552).

Description

Strip laying machine Technical Field The utility model relates to the technical field of strip laying machines, in particular to a strip laying machine. Background EVA is used as important packaging material of photovoltaic cell trade because of its advantage in adhesion, light transmissivity and durability, and photovoltaic cell group is in the manufacturing process, needs to cut the glued membrane into required size earlier, encapsulates the battery piece between glass and backplate through upper and lower two-layer EVA glued membrane, reduces external environment and produces the influence to the electrical property of battery piece, can also prevent that photovoltaic module from appearing the battery piece shadow and splitting in transport and installation. At present, three EVA adhesive film strips (the bandwidth is generally 20-50mm, the middle one can be selected to be not paved) are additionally paved on the head and the tail and in the middle of the glass assembly in the production process, the middle one needs to be punched and avoided to enable EVA to be exposed out of a lead position on the assembly, in the prior art, the adhesive film strips are clamped through clamping structures and conveyed to corresponding positions to be paved, but in the practical use process, the fact that the clamping assemblies cannot be clamped effectively due to the fact that the width of the adhesive film is smaller on one hand, so that the adhesive film strips sag to affect the paving effect is found out, and in the cutting process, the clamping and blocking phenomenon is generated in the cutting process of the adhesive film due to the fact that the width of the adhesive film is smaller on the other hand, the paving efficiency is directly affected, and the improvement is necessary. Disclosure of utility model The utility model aims to provide a strip laying machine which has the advantages of high laying efficiency and reduced possibility of blocking materials. The long strip laying machine is characterized in that a feeding assembly, a punching assembly, a feeding roller, a cutting assembly and a laying assembly are sequentially arranged along the conveying direction of a material strip, a lifting adsorption supporting plate assembly for supporting and adsorbing a material strip head is arranged at the output end of the feeding roller, the laying assembly comprises a fixedly arranged laying frame and a material preparation platform fixedly connected to one end of the laying frame, which is close to the head of the cutting assembly, one end of the head of the laying frame is movably connected with a material preparation assembly for adsorbing and conveying the material strip on the lifting adsorption supporting plate assembly onto the material preparation platform and dividing the material strip into a plurality of rows for arrangement, and a first adsorption conveying assembly and a second adsorption conveying assembly for adsorbing and conveying the material strip on the material preparation platform onto a glass assembly are respectively and slidably connected to the laying frame. The lifting adsorption supporting plate assembly is further arranged to comprise a supporting plate which is connected to the laying frame in a sliding mode along the vertical direction and a lifting cylinder which is fixedly connected to the laying frame along the vertical direction and used for driving the supporting plate to lift, and a plurality of negative pressure adsorption holes used for adsorbing the material belt are uniformly arranged on the supporting plate at intervals along the conveying direction perpendicular to the material belt. The utility model further provides that the screw rod sliding assembly comprises a screw rod shaft and a material preparation sliding seat, wherein the screw rod shaft is connected to the laying frame in a rotating manner along a conveying direction parallel to a material belt, the material preparation sliding seat is connected to the laying frame in a sliding manner along the conveying direction parallel to the material belt, a screw rod hole matched with the screw rod shaft is formed in the material preparation sliding seat, the material preparation assembly comprises a lifting material preparation cylinder fixedly connected to the material preparation sliding seat along a vertical direction, a material preparation plate is fixedly connected to a telescopic end of the lifting material preparation cylinder, material preparation sucking discs used for adsorbing the material belt are fixedly connected to the material preparation plate at uniform intervals along the conveying direction perpendicular to the material belt, and a screw rod driving assembly driving the screw rod shaft to rotate is fixedly connected to the laying frame. The utility model is further characterized in that the screw rod driving assembly comprises a first driving gear ring and a screw rod driving motor, wherein the first