CN106697363B - For fully-automatic thermal-formation vacuum packaging machine - Google Patents

Abstract

One kind being used for fully-automatic thermal-formation vacuum packaging machine, it includes room, shaping mould and shaping cylinder under heat-sealing electric hot plate, heat-sealing work that it, which seals operating room, shaping mould is slidably mounted under heat-sealing work in the U-shaped chamber of room, in the case where sealing work, shaping cylinder is installed in the bottom of room, the piston rod on shaping cylinder top is connect with shaping mould, in the case where sealing work, the upper end of room is equipped with the heat-sealing electric hot plate that can be moved up and down, and is equipped with corresponding shaping groove with the adjacent surface of room under heat-sealing work in the heat-sealing electric hot plate.The invention has the advantages that the upper film and lower film common eigenvector of product packaging form the soft box for accommodating packaged material, amplitude of deformation is small, and packaging thickness is uniform, greatly reduces the breakage of packaging；Also certain products are met to the symmetrical particular/special requirement of shape of product.

Description

For fully-automatic thermal-formation vacuum packaging machine

Technical field

The present invention relates to one kind to be used for fully-automatic thermal-formation vacuum packaging machine, is mainly used for.

Background technique

Shown in traditional packing machine such as Fig. 1-Fig. 3 (and referring to Fig. 4), lower film 11 is shaped to more through molding plastic uptake operating room 13 Packaged material 7 is put into soft box 14 by a recessed soft box 14 when soft box 14 moves forward into blowing area 15；At the same time, In the subsequent top in blowing area 15, upper film 10 is introduced into the soft box 14 for being laid on and being packed into material after upper film plastic uptake device 22 Above, and together it moves ahead；By heat-sealing operating room 16 vacuumize it is hot-forming after, using revolving knife 17 be cut into it is crosscutting after Product (lateral strip) 18 and longitudinal knife 19 are finished product 20.Seal operating room 16 include heat-sealing electric hot plate 1, heat-sealing work under room 2, Shaping mould 3 and shaping cylinder 6, shaping mould 3 are slidably mounted under heat-sealing work in the U-shaped chamber of room 2, in the case where sealing work Shaping cylinder 6 is installed in the bottom of room 2, and for pushing shaping mould 3 to move back and forth up and down, in the case where sealing work, the upper end of room 2 is set There is the heat-sealing electric hot plate 1 that can be moved up and down, heat-sealing electric hot plate 1 is plate, and upper film 10 and the lower film 11 with soft box 14 enter It seals under electric hot plate 1 and heat-sealing work between room 2, then the piston rod of shaping cylinder 6 pushes shaping mould 3 to move up, heat-sealing electricity Hot plate 1 moves down, and by upper film 10 and 11 heat sealed package of lower film, is finally cut into single finished product 20.It is needed before heat-sealing true with taking out Null device will seal and vacuumize (not shown) in room 2 under work.The characteristics of finished product 20 for be above it is flat, protrude below, such as Fig. 3 It is shown.The shape (as shown in Figure 7) for having a big chunk product requirement symmetrical above and below currently on the market, due to soft box 14 only by Lower film is molded with, and soft 14 amplitude of deformation of box is larger, causes its in uneven thickness, and product is caused to be easy breakage；In addition, existing set Standby and technique can not pack out such shape.

Summary of the invention

The present invention is intended to provide it is a kind of for fully-automatic thermal-formation vacuum packaging machine, it is of the existing technology to solve Product is caused to be easy damaged problem due to packing in uneven thickness.

The technical scheme is that a kind of be used for fully-automatic thermal-formation vacuum packaging machine, including lower film molding is inhaled Film plastic uptake transport mechanism, working face, heat-sealing operating room and cutting mechanism in modeling transport mechanism, upper film, lower film form plastic uptake transmission Mechanism is located at the front end of working face, and film plastic uptake transport mechanism is located above the middle part of working face on upper film, on corresponding to this on film Heat-sealing operating room and cutting mechanism are sequentially arranged on the subsequent working face of film plastic uptake transport mechanism；The heat-sealing operating room with vacuumize Equipment connection, which is characterized in that the heat-sealing operating room includes room, shaping mould and whole under heat-sealing electric hot plate, heat-sealing work Shape cylinder, shaping mould are slidably mounted under heat-sealing work in the U-shaped chamber of room, and in the case where sealing work, shaping is installed in the bottom of room The piston rod of cylinder, shaping cylinder top is connect with shaping mould, and in the case where sealing work, the upper end of room is equipped with and can move up and down Heat-sealing electric hot plate, the heat-sealing electric hot plate with heat-sealing work under room adjacent surface be equipped with corresponding shaping groove.

The invention has the advantages that the upper film and lower film common eigenvector of product packaging form the soft box for accommodating packaged material, Amplitude of deformation is small, and packaging thickness is uniform, greatly reduces the breakage of packaging；Also it is symmetrical to shape of product that certain products are met Particular/special requirement.

Detailed description of the invention

Fig. 1 is the schematic diagram of the structure (before heat-sealing) of prior art heat-sealing operating room；

Fig. 2 is the schematic diagram of the structure (after heat-sealing) of prior art heat-sealing operating room；

Fig. 3 is the structure sectional view that the prior art packs molding product；

Fig. 4 is the general structure schematic diagram of the embodiment of the present invention；

Fig. 5 is the schematic diagram of the structure (before heat-sealing) of present invention heat-sealing operating room；

Fig. 6 is the schematic diagram of the structure (after heat-sealing) of present invention heat-sealing operating room；

Fig. 7 is the structure sectional view that the present invention packs molding product.

Description of symbols: 1, heat-sealing electric hot plate, 2, vacuum chamber, 3, shaping mould, 4, sealing cover, 5, cylinder push plate, 6, Shaping cylinder, 8, shaping mould drive rod, 9, shaping cylinder piston rod, 10, upper packaging film, 11, lower packaging film, 12, lower film leads To roller, 13, molding plastic uptake operating room, 14, the soft box of lower film, 15, blowing area, 16, heat-sealing operating room, 17, revolving knife, 18, crosscutting Product afterwards, 19, longitudinal knife, 20, finished product, 21, upper film guide roller, 22, upper film plastic uptake device, 23, working face, 24, lower film blowing Bracket, 25, upper film releasing bracket.

Specific embodiment

Referring to fig. 4~Fig. 7, the present invention is a kind of to be used for fully-automatic thermal-formation vacuum packaging machine, including lower film molding is inhaled Film plastic uptake transport mechanism, working face 23, heat-sealing operating room 16 and cutting mechanism, lower film form plastic uptake in modeling transport mechanism, upper film Transport mechanism is located at the front end of working face, and film plastic uptake transport mechanism is located above the middle part of working face on upper film, on corresponding to this Heat-sealing operating room 16 and cutting mechanism are sequentially arranged on film on the subsequent working face of film plastic uptake transport mechanism；The heat-sealing operating room 16 Connect with vaccum-pumping equipment, which is characterized in that the heat-sealing operating room 16 include heat-sealing electric hot plate 1, heat-sealing work under room 2, Shaping mould 3 and shaping cylinder 6, shaping mould 3 are slidably mounted under heat-sealing work in the U-shaped chamber of room 2, in the case where sealing work Shaping cylinder 6 is installed in the bottom of room 2, and the piston rod on 6 top of shaping cylinder is connect with shaping mould 3, the room 2 in the case where sealing work Upper end is equipped with the heat-sealing electric hot plate 1 that can be moved up and down, and is equipped in the heat-sealing electric hot plate 1 and the adjacent surface of room 2 under heat-sealing work Corresponding shaping groove.

Room 2 is equipped with multiple U-shaped chambers under the heat-sealing work, equipped with whole described in one in each U-shaped chamber Shape mold 3, the bottom surface of each shaping mould 3 are connect with a shaping mould drive rod 8, under the shaping mould drive rod 8 End is hermetically pierced by the sealing cover 4 of 2 bottom surface of room under the heat-sealing work, and connect with a cylinder push plate 5, the cylinder push plate 5 Bottom surface is connect with the piston rod top end of the shaping cylinder 6；It is equipped with and multiple shapings below the heat-sealing electric hot plate 1 The corresponding groove in 3 top surface of mold.

The lower film molding plastic uptake transport mechanism includes lower film releasing bracket 24, lower film guide roller 12 and molding plastic uptake work Make room 13, lower film releasing bracket 24 is located at the front end of working face 23, is successively arranged lower film at 24 rear portion of lower film releasing bracket and leads To roller 12 and molding plastic uptake operating room 13.

Film plastic uptake transport mechanism includes upper film releasing bracket 25, upper film guide roller 21 and upper film plastic uptake dress on the upper film 22 are set, upper film releasing bracket 25 is located at the top, and upper film plastic uptake device 22 is located between film releasing bracket 25 and working face 23, Between upper film plastic uptake device 22 and upper film releasing bracket 25, and upper film guide roller 21 is respectively provided between working face 23.

The cutting mechanism includes revolving knife 17 and longitudinal knife 19, after revolving knife 17 is located at the heat-sealing operating room 16 Portion, longitudinal knife 19 are located at the rear portion of revolving knife 17.

The course of work of the invention is: the lower film 11 being located on lower film releasing bracket 24 is oriented to through three lower film guide rollers 12 To the front end of working face 23, by 11 plastic uptake of lower film at the equally distributed multiple soft of needs after 13 plastic uptake of plastics sucking moulding room Then box 14 will need the material 7 packed to be put into the soft box 14 that lower film molds, subsequently into heat-sealing work in blowing area 15 In room 2；At the same time, the upper film 10 on upper film releasing bracket 25 is set, through upper film plastic uptake device 22 and upper film guide roller 21 Above the soft box 14 of lower film 11 after being laid on blowing after guiding；Then heat-sealing operating room 2 is vacuumized, when reaching vacuum degree Afterwards, electric hot plate 1 moves down and (individually removed device, and belonged to routine techniques, is not shown), shaping mould 3 is in shaping cylinder 6 for heat-sealing (passing through the promotion of cylinder push plate 5) moves up, by the equal heat-sealing in region around each soft box 14；Finally successively by crosscutting Each product unit is cut into independent packaging product (shape shown in Fig. 7) by knife 17 and longitudinal knife 19 in transverse direction and longitudinal direction, is completed Packaging process.

Claims (3)

1. one kind is used for fully-automatic thermal-formation vacuum packaging machine, including lower film molding plastic uptake transport mechanism, upper film plastic uptake pass Mechanism, working face, heat-sealing operating room and cutting mechanism are sent, lower film molding plastic uptake transport mechanism is located at the front end of working face, upper film Plastic uptake transport mechanism is located above the middle part of working face, is successively filled on subsequent working face of film plastic uptake transport mechanism on corresponding to this There are heat-sealing operating room and cutting mechanism；The heat-sealing operating room is connect with vaccum-pumping equipment, which is characterized in that the heat-sealing work Room includes room, shaping mould and shaping cylinder under heat-sealing electric hot plate, heat-sealing work, and shaping mould is slidably mounted under heat-sealing work In the U-shaped chamber of room, in the case where sealing work, shaping cylinder, the piston rod and shaping mould on shaping cylinder top are installed in the bottom of room Connection, in the case where sealing work, the upper end of room is equipped with the heat-sealing electric hot plate that can be moved up and down, in the heat-sealing electric hot plate and heat-sealing work The adjacent surface for making lower room is equipped with corresponding shaping groove；

Room is equipped with multiple U-shaped chambers under the heat-sealing work, equipped with sizing die described in one in each U-shaped chamber Tool, the bottom surface of each shaping mould are connect with a shaping mould drive rod, and the lower end of the shaping mould drive rod is hermetically It is pierced by the bottom surface of room under the heat-sealing work, and is connect with a cylinder push plate, the bottom surface of the cylinder push plate and the shaping gas The piston rod top end of cylinder connects；Groove corresponding with multiple shaping mould top surfaces is equipped with below the heat-sealing electric hot plate；

The lower film molding plastic uptake transport mechanism includes lower film releasing bracket, lower film guide roller and forms plastic uptake operating room, under Film releasing bracket is located at the front end of working face, is successively arranged lower film guide roller and molding plastic uptake work at lower film releasing bracket rear portion Make room；

The course of work is: the lower film being located on lower film releasing bracket is directed to above the front end of working face through lower film guide roller, warp By lower film plastic uptake at equally distributed multiple soft boxes of needs after the plastic uptake of plastics sucking moulding room, then needs are packed in blowing area Material is put into the soft box that lower film molds, subsequently into heat-sealing operating room；At the same time, it is arranged on upper film releasing bracket Upper film, be laid on above the soft box of the lower film after blowing after upper film plastic uptake device and upper film guiding roller guide；Then to heat Envelope operating room vacuumizes, and after reaching vacuum degree, electric hot plate is moved down, shaping mould is moved up in shaping cylinder for heat-sealing, will be each soft The equal heat-sealing in region around box；Finally successively pass through revolving knife and longitudinal knife for each product unit in transverse direction and longitudinal direction It is cut into independent packaging product, completes packaging process.

2. according to claim 1 be used for fully-automatic thermal-formation vacuum packaging machine, which is characterized in that the upper film Plastic uptake transport mechanism includes upper film releasing bracket, upper film guide roller and upper film plastic uptake device, and upper film releasing bracket is located at the top, Upper film plastic uptake device is located between film releasing bracket and working face, between upper film plastic uptake device and upper film releasing bracket, with And upper film guide roller is respectively provided between working face.

3. according to claim 1 be used for fully-automatic thermal-formation vacuum packaging machine, which is characterized in that the cutting Mechanism includes revolving knife and longitudinal knife, and revolving knife is located at the rear portion of the heat-sealing operating room, and longitudinal knife is located at the rear portion of revolving knife.