CN205418294U - Packagine machine corner cut device - Google Patents

Abstract

The utility model provides a packagine machine corner cut device, its include mould drop feed mechanism and two connect respectively this mould drop feed mechanism's opposite ends pull out angle corner cut mechanism, this mould drop feed mechanism includes fixed plate, two backup pads, guide rails, presss from both sides die holder, mould, presss from both sides mould cylinder and air cylinder thrust boards, this guide rail and this mould bear respectively on this fixed plate, and this clamp die holder bears on the guide rail that corresponds, and this clamp mould cylinder setting just is located the outside of this backup pad at the lower surface of this fixed plate, the one end of this air cylinder thrust board is passed this fixed plate and is fixed on this clamp die holder, and one side of the other end is connected with this clamp mould cylinder, it includes base, motor element, drive mechanism and toolbox to pull out angle corner cut mechanism, motor element with drive mechanism installs respectively on the base, above -mentioned structure, not only convenient operation, simple practices thrift the cost and improves production efficiency, realizes automatic corner cut to packaged product moreover.

Description

A kind of packer cutter for cutting corners

Technical field

This utility model belongs to packaging machine field, particularly relates to a kind of packer cutter for cutting corners for packaged product carries out corner cut.

Background technology

In order to protect product so that it is outer package is not scratched, is difficult to make moist, and play the effect beautifying product appearance, need the outer surface at product package material pack layer of plastic film and excise corner.

In existing package packing machine, when packing product, general conventional packaging machine does not the most have corner cut function, the packer of function without corner cut can shrink the part at four angles to get up when packing after product through supercontraction machine the most together, packaging product out is made to have influence on attractive in appearance, when having particular/special requirement to need corner cut, can recycle manually or need to buy Semi-automatic sealing machine again and complete so that it is very cost of idleness and time when packing product.

At present, the traditional handicraft seaming dress corner cut in carrying out packing material carries out thin film packaging corner cut mainly by duplicature packer to product, and traditional handicraft is as follows: first, bilayer film is made the packaging bag of one end open, delivers to multiple package position；Subsequently, packing material is pushed made packaging bag.Then, the opening of packaging bag is packaged by enclosed mechanism, then carries out corner cut；Finally, encapsulate complete packing material to send through discharging opening.Traditional handicraft at least has the drawback that one, for technology of the package, individually adds the step making packaging bag, complex manufacturing technology, and operative's technology is required height；Carrying out further, since make packaging bag and packaging action substep, be serial packaging action, this manner of packing can cause the production capacity packed and inefficient.

Its two, for packer, its chamfering mechanism is fixed on packer.When the packing material of different volumes and shape is carried out corner cut, chamfering mechanism cannot move up and down and then excise the thin film corner of the packing material of differing heights state, and the versatility of this packer is poor, be unfavorable for promoting.

Its three, when utilizing this technological process or packer to pack, cost of manufacture can be also increased relatively time-consuming, arduously, simultaneously；Not being suitable for large-scale production, its range of application is less.Therefore, traditional handicraft and packer can affect the economic benefit of enterprise, it is impossible to meet the demand in market, and can not fully meet the demand of modern industrialization.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of packer cutter for cutting corners, it is intended to it not only has convenient and simple for operation, cost-effective and improve the performance of production efficiency, and the product of packaged square shape is being realized automatic corner cut.

This utility model is realized in, a kind of packer cutter for cutting corners, what it included mould discharge mechanism and two opposite ends being connected to described mould discharge mechanism pulls out angle chamfering mechanism, and described mould discharge mechanism includes fixed plate, two gripper shoes, guide rail, clamping seat, mould, clamping cylinder and cylinder thrust plate；Described fixed plate is rectangle structure, said two gripper shoe is fixedly connected on the lower surface position near two ends of described fixed plate along the longitudinally of described fixed plate, described guide rail and described mould are carried in described fixed plate respectively, described clamping seat is carried on the guide rail of correspondence, and described clamping cylinder is arranged on the lower surface of described fixed plate and is positioned at the outside of described gripper shoe；One end of described cylinder thrust plate is through described fixed plate and is fixed on described clamping seat, and the side of the other end is connected with described clamping cylinder；The described angle chamfering mechanism that pulls out includes pedestal, electric machine assembly, drive mechanism and toolbox；Described electric machine assembly and described drive mechanism are separately mounted on described pedestal, and described toolbox is arranged on the upper surface of described pedestal, and described electric machine assembly is connected with described drive mechanism.

Further, aforesaid mould be carried on described fixed plate upper surface centre position and between said two guide rail；Described clamping cylinder is positioned at the bottom of described clamping seat, and described clamping seat is U-shape structure, and described cylinder thrust plate is T-type structure.

Further, aforesaid clamping seat includes pulling out angle block, guide shaft, guide shaft fix seat, spring and corner cutter holder；The described angle block that pulls out is arranged on the outside of U-shaped sidewall of described clamping seat and pulls out angle chamfering mechanism near one end of described mould and towards described, described guide shaft is fixed seat and is arranged on described U-shaped side-wall outer side and is oppositely arranged away from one end of described mould and with the described angle block that pulls out, described spring pulls out angle block and described guide shaft is fixed between seat described in being connected to, and described corner cutter holder correspondence is arranged on each clamping seat near the side of described mould and is disposed adjacent with the described angle block that pulls out.

Further, the generally rectangular structure of aforesaid pedestal, it includes base plate, two side plates and top board；Described base plate is oppositely arranged with described top board, and said two side plate is vertically connected between described base plate and described top board；State base plate, said two side plate and described top board and surround the receiving space of a hollow；Described electric machine assembly is arranged on the left bottom of described base plate, and described drive mechanism is placed in described receiving space, and said two toolbox is carried on described top board；The area of described base plate more than the area of described top board, described top board in its lengthwise to opposite end offer opening respectively, said two toolbox is arranged between said two opening.

Further, aforesaid electric machine assembly includes four support columns, motor and shaft coupling；Described four support columns are arranged on the lower end of described base plate and are connected with four corners of described motor respectively, and described motor is connected to the lower end of described four support columns；One end of described shaft coupling is connected on the lower surface of described base plate, and its other end is then connected with described motor；Described motor is connected with described drive mechanism by described shaft coupling.

Further, aforesaid drive mechanism includes the first guide rail, pulls out angle base plate, the second guide rail, cylinder, pulls out angle fixed plate, pulls out angle contiguous block, pulls out angle bead；Described first guide rail is contained in interior and along described base plate the longitudinally of described receiving space and is carried on the upper surface of described base plate；The described angle base plate that pulls out is fixed on described first guide rail by corresponding slide block, described second guide rail be fixed on described in pull out on the base plate of angle；Described cylinder pulls out on the base plate of angle described in being fixed on, and with described, the motion bar of described cylinder pulls out that angle contiguous block is fixing to be connected；Described angle fixed plate of pulling out is fixed on described second guide rail, and described in pull out angle contiguous block be fixed on described in pull out in the fixed plate of angle, described in pull out angle bead be fixed on described in pull out on the contiguous block of angle.

Further, aforesaid drive mechanism also includes that the first synchronization mold insert, the second synchronization mold insert, Timing Belt, main synchronization wheel, regulation axle and secondary synchronization are taken turns；Described regulation axle is fixed on the upper surface of described base plate；Described first synchronizes mold insert and described second synchronizes mold insert and is connected with corresponding angle fixed plate of pulling out and is separately fixed on the two sides of described Timing Belt so that the corresponding direction of motion pulling out angle base plate is contrary respectively；The described main wheel that synchronizes not only is connected with described shaft coupling, but also wheel Tong Bu with described pair is connected by described Timing Belt, and the described secondary wheel that synchronizes is connected with described regulation axle.

Further, aforesaid toolbox includes left tool rest, right tool rest, corner cut cylinder, the corner cut axis of guide, tool rest contiguous block, thermal insulation board, backplate, corner cutter and heat-generating pipe；Described left tool rest and described right tool rest are separately fixed on described top board, and described left tool rest is identical with the structure of described right tool rest, the most rough wedge structure；The said two corner cut axis of guide and described corner cut cylinder are arranged substantially in parallel on each tool rest, and described cylinder is between the said two corner cut axis of guide；One end of described cylinder and the described corner cut axis of guide is all connected with described tool rest contiguous block, and its other end then extends to outside described top board；One end that described tool rest contiguous block is not connected with described cylinder is connected with described backplate by described thermal insulation board, and described thermal insulation board is fixed with described corner cutter, and described heat-generating pipe is arranged on described corner cutter.

This utility model is compared with prior art, have the beneficial effects that: the packer cutter for cutting corners that this utility model embodiment provides, angle chamfering mechanism is pulled out by what the mould discharge mechanism and two arranging mutual organic cooperation was positioned at described mould discharge mechanism both sides, fast and effeciently packaged product can be realized automatic corner cut, the most convenient and simple for operation, and cost-effective and raising production efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of the packer cutter for cutting corners that this utility model embodiment provides.

Fig. 2 is the structural representation of the mould discharge mechanism of the packer cutter for cutting corners in Fig. 1.

Fig. 3 is the structural representation pulling out angle chamfering mechanism of the packer cutter for cutting corners in Fig. 1.

Fig. 4 is the structural representation pulling out angle another angle of chamfering mechanism of the packer cutter for cutting corners in Fig. 1.

Fig. 5 is the structural representation that the packer cutter for cutting corners in Fig. 1 pulls out the another angle of angle chamfering mechanism.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.

Refer to shown in Fig. 1, the packer cutter for cutting corners that this utility model provides is for carrying out automatic corner cut to the product of packaged square shape, described packer cutter for cutting corners include mould discharge mechanism 1 and two pull out angle chamfering mechanism 2, said two is pulled out angle chamfering mechanism 2 and is connected to the opposite end of described mould discharge mechanism 1.

Referring to shown in Fig. 2, described mould discharge mechanism 1 includes 10, two gripper shoes of fixed plate, 12, two clamping seats 13 of 11, two guide rails, mould 14, clamping cylinder 15 and cylinder thrust plate 16.Described fixed plate 10 is rectangle structure, said two gripper shoe 11 is fixedly connected on the lower surface position near two ends of described fixed plate 10 along the longitudinally of described fixed plate 10, said two guide rail 12 is carried on the lengthwise of the upper surface of described fixed plate 10 respectively to two ends, and said two clamping seat 13 is carried on the guide rail 12 of correspondence respectively.Described mould 14 is carried on the centre position of the upper surface of described fixed plate 10 and between said two guide rail 12.Described clamping cylinder 15 is arranged on the lower surface of described fixed plate 10 and is positioned at outside and the bottom of described clamping seat 13 of described gripper shoe 11.One end of described cylinder thrust plate 16 is through described fixed plate 10 and is fixed on below described clamping seat 13, and the side of the other end is connected with described clamping cylinder 15.In the present embodiment, described clamping seat 13 is U-shape structure, and described cylinder thrust plate 17 is T-type structure.

Described clamping seat 13 includes pulling out angle block 110, guide shaft 111, guide shaft fix seat 112, spring 113 and corner cutter holder 114.The described angle block 110 that pulls out is arranged on the outside of U-shaped sidewall (non-label) of described clamping seat 13 and pulls out angle chamfering mechanism 2 near one end of described mould 14 and towards described, described guide shaft is fixed seat 112 and is arranged on described U-shaped side-wall outer side and is oppositely arranged away from one end of described mould 14 and with the described angle block 110 that pulls out, described spring 113 pulls out angle block 110 and described guide shaft is fixed between seat 112 described in being connected to, and described corner cutter holder 114 correspondence is arranged on each clamping seat 13 near the side of described mould 14 and is disposed adjacent with the described angle block 110 that pulls out.

Referring to shown in Fig. 3 to Fig. 5, described each angle chamfering mechanism 2 that pulls out includes pedestal 3, electric machine assembly 4, drive mechanism 5 and two toolboxs 6.Described pedestal 3 is hollow rectangular frame structure, described electric machine assembly 4 be arranged on the lengthwise of described pedestal 3 to lower-left end and be connected with described drive mechanism 5, described drive mechanism 5 is housed in the hollow frame of described pedestal 3, said two toolbox 6 be arranged on the lengthwise of described pedestal 3 to upper surface on, one of them toolbox 6 be positioned at described pedestal 3 lengthwise to left upper end, another toolbox 6 is located substantially at the centre position of described pedestal 3.

The described generally rectangular structure of pedestal 3, it includes 30, two side plates 31 of base plate and top board 32.Described base plate 30 is oppositely arranged with described top board 32, and said two side plate 31 is vertically connected between described base plate 30 and described top board 32, and described base plate 30, said two side plate 31 and described top board 32 surround the receiving space 200 of a hollow.Described electric machine assembly 4 is arranged on the left bottom of described base plate 30, and described drive mechanism 5 is placed in described receiving space 200, and said two toolbox 6 is carried on described top board 32.In the present embodiment, the area of described base plate 30 more than the area of described top board 32, described top board 32 in its lengthwise to opposite end offer opening (non-label) respectively, said two toolbox 6 is arranged between said two opening.

Described electric machine assembly 4 includes multiple support column 40, motor 41 and shaft coupling 42.The plurality of support column 40 is arranged on the lower end of described base plate 30 and the bottom of the position between said two toolbox 6, described motor 41 is connected to the lower end of the plurality of support column 40, one end of described shaft coupling 42 is connected on the lower surface of described base plate 30, and its other end is then connected with described motor 41；Described motor 41 is connected with described drive mechanism 5 by described shaft coupling 42.In the present embodiment, described electric machine assembly 4 includes that four support columns 40, described four support columns 40 are connected with four corners of described motor 41 respectively, and described shaft coupling 42 is contained between described four support columns 40.

Described drive mechanism 5 includes the first guide rail 50, pulls out angle base plate the 51, second guide rail 52, cylinder 53, pulls out angle fixed plate 54, pulls out angle contiguous block 55, pulls out angle bead 56, first and synchronize mold insert 57a, second synchronize mold insert 57b, Timing Belt 58, main synchronization wheel 59, regulation axle 500 and secondary synchronize wheel 501.Described first guide rail 50 is contained in interior and along described base plate 30 the longitudinally of described receiving space 200 and is carried on the upper surface of described base plate 30.The described angle base plate 51 of pulling out is fixed on described first guide rail 50 by corresponding slide block (not shown), described second guide rail 52 be fixed on described in pull out on angle base plate 51.Described cylinder 53 pulls out on angle base plate 51 described in being fixed on, and with described, the motion bar of described cylinder 53 pulls out that angle contiguous block 55 is fixing to be connected.Described angle fixed plate 54 of pulling out is fixed on described second guide rail 52, and described in pull out angle contiguous block 55 be fixed on described in pull out in angle fixed plate 54, described in pull out angle bead 56 be fixed on described in pull out on angle contiguous block 55.Described first synchronizes mold insert 57a and described second synchronizes mold insert 57b and is connected and is separately fixed on the two sides of described Timing Belt 58 with corresponding angle fixed plate 54 of pulling out, so that the direction of motion pulling out angle base plate 51 of correspondence is contrary respectively.The described main wheel 59 that synchronizes not only is connected with described shaft coupling 42, but also wheel 501 Tong Bu with described pair is connected by described Timing Belt 58, and the described secondary wheel 501 that synchronizes is connected with described regulation axle 500.And described regulation axle 500 is fixed on the upper surface of described base plate 30.

Described toolbox 6 includes left tool rest 60a, right tool rest 60b, corner cut cylinder 61, the corner cut axis of guide 62, tool rest contiguous block 63, thermal insulation board 64, backplate 65, corner cutter 66 and heat-generating pipe 67.Described left tool rest 60a and described right tool rest 60b is separately fixed on described top board 32, and in the present embodiment, described left tool rest 60a is identical with the structure of described right tool rest 60b, the most rough wedge structure.The said two corner cut axis of guide 62 and described corner cut cylinder 61 are arranged substantially in parallel on each tool rest, and described cylinder 61 is between the said two corner cut axis of guide 62.One end of described cylinder 61 and the described corner cut axis of guide 62 is all connected with described tool rest contiguous block 63, and its other end then extends to outside described top board 32.One end that described tool rest contiguous block 63 is not connected with described cylinder 61 is connected with described backplate 65 by described thermal insulation board 64, and described thermal insulation board 64 is fixed with described corner cutter 66, and described heat-generating pipe 67 is arranged on described corner cutter 66.

When described packer cutter for cutting corners works, first pass through machinery to be placed on described mould 14 by the product sealing mouth, said two clamping cylinder 15 promotes corresponding cylinder thrust plate 16, and said two cylinder thrust plate 16 drives corresponding clamping seat 13 along described guide rail 12 move toward one another with by described clamping product；After clamping product, said two is pulled out angle chamfering mechanism 2 and is worked simultaneously, the motion of described cylinder 53 pulls out angle bead 56 when arriving to product described in making, described motor 41 drives described main Tong Bu wheel 59 motion connected with described shaft coupling 42, the described main connected described pair of wheel 59 drive that synchronizes synchronizes wheel 501 motion, and then drive described Timing Belt 58 the most mobile, described Timing Belt 58 drives described first to synchronize mold insert 57a and described second and synchronizes mold insert 57b motion, pull out angle fixed plate 54 linearly guide rail 50 described in driving reversely to move simultaneously, described four are pulled out angle bead 56 and are against the good product of described sealing and clamp four angles make in order outward with the described angle contiguous block 55 that pulls out, the most described corner cut cylinder 61 stretches out, described corner cutter 66 is made to be cut off by the film on four angles of product；After cutting, described corner cut cylinder 61 is retracted, and other parts are returned to work start position simultaneously, completes a work samsara.

The packer cutter for cutting corners that this utility model embodiment provides, angle chamfering mechanism is pulled out by what the mould discharge mechanism and two arranging mutual organic cooperation was positioned at described mould discharge mechanism both sides, fast and effeciently packaged product can be realized automatic corner cut, the most convenient and simple for operation, and cost-effective and raising production efficiency.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, within should be included in protection domain of the present utility model.

Claims (8)

1. a packer cutter for cutting corners, it is characterized in that, what described packer cutter for cutting corners included mould discharge mechanism and two opposite ends being connected to described mould discharge mechanism pulls out angle chamfering mechanism, and described mould discharge mechanism includes fixed plate, two gripper shoes, guide rail, clamping seat, mould, clamping cylinder and cylinder thrust plate；Described fixed plate is rectangle structure, said two gripper shoe is fixedly connected on the lower surface position near two ends of described fixed plate along the longitudinally of described fixed plate, described guide rail and described mould are carried in described fixed plate respectively, described clamping seat is carried on the guide rail of correspondence, and described clamping cylinder is arranged on the lower surface of described fixed plate and is positioned at the outside of described gripper shoe；One end of described cylinder thrust plate is through described fixed plate and is fixed on described clamping seat, and the side of the other end is connected with described clamping cylinder；The described angle chamfering mechanism that pulls out includes pedestal, electric machine assembly, drive mechanism and toolbox；Described electric machine assembly and described drive mechanism are separately mounted on described pedestal, and described toolbox is arranged on the upper surface of described pedestal, and described electric machine assembly is connected with described drive mechanism.

2. packer cutter for cutting corners as claimed in claim 1, it is characterised in that described mould is carried on the centre position of the upper surface of described fixed plate and between said two guide rail；Described clamping cylinder is positioned at the bottom of described clamping seat, and described clamping seat is U-shape structure, and described cylinder thrust plate is T-type structure.

3. packer cutter for cutting corners as claimed in claim 2, it is characterised in that described clamping seat includes pulling out angle block, guide shaft, guide shaft fix seat, spring and corner cutter holder；The described angle block that pulls out is arranged on the outside of U-shaped sidewall of described clamping seat and pulls out angle chamfering mechanism near one end of described mould and towards described, described guide shaft is fixed seat and is arranged on described U-shaped side-wall outer side and is oppositely arranged away from one end of described mould and with the described angle block that pulls out, described spring pulls out angle block and described guide shaft is fixed between seat described in being connected to, and described corner cutter holder correspondence is arranged on each clamping seat near the side of described mould and is disposed adjacent with the described angle block that pulls out.

4. packer cutter for cutting corners as claimed in claim 3, it is characterised in that the generally rectangular structure of described pedestal, it includes base plate, two side plates and top board；Described base plate is oppositely arranged with described top board, and said two side plate is vertically connected between described base plate and described top board；State base plate, said two side plate and described top board and surround the receiving space of a hollow；Described electric machine assembly is arranged on the left bottom of described base plate, and described drive mechanism is placed in described receiving space, and said two toolbox is carried on described top board；The area of described base plate more than the area of described top board, described top board in its lengthwise to opposite end offer opening respectively, said two toolbox is arranged between said two opening.

5. packer cutter for cutting corners as claimed in claim 4, it is characterised in that described electric machine assembly includes four support columns, motor and shaft coupling；Described four support columns are arranged on the lower end of described base plate and are connected with four corners of described motor respectively, and described motor is connected to the lower end of described four support columns；One end of described shaft coupling is connected on the lower surface of described base plate, and its other end is then connected with described motor；Described motor is connected with described drive mechanism by described shaft coupling.

6. packer cutter for cutting corners as claimed in claim 5, it is characterised in that described drive mechanism includes the first guide rail, pulls out angle base plate, the second guide rail, cylinder, pulls out angle fixed plate, pulls out angle contiguous block, pulls out angle bead；Described first guide rail is contained in interior and along described base plate the longitudinally of described receiving space and is carried on the upper surface of described base plate；The described angle base plate that pulls out is fixed on described first guide rail by corresponding slide block, described second guide rail be fixed on described in pull out on the base plate of angle；Described cylinder pulls out on the base plate of angle described in being fixed on, and with described, the motion bar of described cylinder pulls out that angle contiguous block is fixing to be connected；Described angle fixed plate of pulling out is fixed on described second guide rail, and described in pull out angle contiguous block be fixed on described in pull out in the fixed plate of angle, described in pull out angle bead be fixed on described in pull out on the contiguous block of angle.

7. packer cutter for cutting corners as claimed in claim 6, it is characterised in that described drive mechanism also includes that the first synchronization mold insert, the second synchronization mold insert, Timing Belt, main synchronization wheel, regulation axle and secondary synchronization are taken turns；Described regulation axle is fixed on the upper surface of described base plate；Described first synchronizes mold insert and described second synchronizes mold insert and is connected with corresponding angle fixed plate of pulling out and is separately fixed on the two sides of described Timing Belt so that the corresponding direction of motion pulling out angle base plate is contrary respectively；The described main wheel that synchronizes not only is connected with described shaft coupling, but also wheel Tong Bu with described pair is connected by described Timing Belt, and the described secondary wheel that synchronizes is connected with described regulation axle.

8. packer cutter for cutting corners as claimed in claim 7, it is characterised in that described toolbox includes left tool rest, right tool rest, corner cut cylinder, the corner cut axis of guide, tool rest contiguous block, thermal insulation board, backplate, corner cutter and heat-generating pipe；Described left tool rest and described right tool rest are separately fixed on described top board, and described left tool rest is identical with the structure of described right tool rest, the most rough wedge structure；The said two corner cut axis of guide and described corner cut cylinder are arranged substantially in parallel on each tool rest, and described cylinder is between the said two corner cut axis of guide；One end of described cylinder and the described corner cut axis of guide is all connected with described tool rest contiguous block, and its other end then extends to outside described top board；One end that described tool rest contiguous block is not connected with described cylinder is connected with described backplate by described thermal insulation board, and described thermal insulation board is fixed with described corner cutter, and described heat-generating pipe is arranged on described corner cutter.