CN107324120B - Vacuum-free surrounding edge cladding machine - Google Patents

Abstract

The invention relates to the technical field of surrounding edge cladding machines, in particular to a vacuum-free surrounding edge cladding machine, which comprises a frame, a surface material feeding device, a bottom material feeding and positioning device, a cladding forming device, a cutting and shaping device, a material conveying device and an electrical control system, wherein the surface material feeding device, the bottom material feeding and positioning device, the cladding forming device, the cutting and shaping device and the electrical control system are arranged on the frame; the fabric feeding device comprises a fabric winding frame, a fabric guide rod, a fabric guide positioning adjusting block, a fabric detection pressing plate, a base paper stripping scroll and an anti-sticking pressing roller which are sequentially connected by fabrics; the backing material feeding and positioning device comprises a supporting frame, a backing material length positioning adjusting block, a backing material positioning supporting stop block, a feeding cylinder and a discharging pressing plate cylinder, wherein the backing material length positioning adjusting block is arranged on the supporting frame. The non-vacuum surrounding edge coating machine can simplify the equipment adjusting operation, expand the application range of the type of materials and the product size processed by the non-vacuum surrounding edge coating machine, and increase the adaptable product rate of the surrounding edge coating machine; the running stability of the surrounding edge cladding machine is improved, and the production efficiency is further improved.

Description

Vacuum-free surrounding edge cladding machine

Technical Field

The invention relates to the technical field of surrounding edge cladding machines, in particular to a vacuum-free surrounding edge cladding machine.

Background

The automatic surrounding edge coating machine is used for inserting edges of various packaging boxes in batch production, and the automatic surrounding edge coating machine is wide in application range in the packaging field. However, the automatic edge wrapping machine in the prior art has the following problems: (1) The prior surrounding edge cladding machine limits that the material of the surrounded edge is gray board paper, the surrounding edge material is flannelette, and the surrounding edge cladding machine cannot be suitable for producing cladding fabrics with a larger width adjustable range of more than 30mm, therefore, the size adjustable range is single, and the material applicability is severely limited; (2) The existing surrounding edge coating machine needs to convey gray paperboard in a vacuum adsorption mode, and as the vacuum adsorption Kong Jiyi is blocked by lint dust, gray cards are blocked at a pressing position, so that the positioning of the gray cards is affected, and serious product quality problems are caused; (3) The starting time of the existing surrounding edge cladding machine is as long as 2 hours, if the vacuum adsorption holes are blocked, restarting and debugging are needed, and the production efficiency is seriously affected; (4) The adjustment of the material pressing part is difficult, the balance between the pressure and the tension is difficult to control, and the material Yi Kazu is positioned at the material pressing plate, so that the fabric is not pressed tightly, and the quality problem is caused.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides the vacuum-free surrounding edge cladding machine, which has the advantages of wide material application range, high stability and accurate positioning, can avoid the occurrence of vacuum adsorption hole gambling phenomenon, and reduces the defective rate.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the vacuum-free surrounding edge cladding machine comprises a frame, a surface material feeding device, a bottom material feeding and positioning device, a cladding forming device, a cutting device, a material conveying device and an electrical control system, wherein the surface material feeding device, the bottom material feeding and positioning device, the cladding forming device, the cutting device, the material conveying device and the electrical control system are arranged on the frame; the electric control system is respectively and electrically connected with the fabric feeding device, the backing material feeding and positioning device, the overmoulding device, the cutting and shaping device and the material conveying device;

the fabric feeding device comprises a fabric winding frame, a fabric guide rod, a fabric guide positioning adjusting block, a fabric detection pressing plate, a base paper stripping scroll and an anti-sticking pressing roller which are sequentially connected by fabrics;

the bed charge feeding and positioning device comprises a support frame, a bed charge length positioning adjusting block, a bed charge positioning supporting stop block, a feeding cylinder and a discharging pressing plate cylinder, wherein the bed charge length positioning adjusting block is arranged on the support frame; the feeding cylinder drives the base material to be sequentially connected with the base material length positioning adjusting block and the base material positioning supporting stop block, and then the blanking pressing plate cylinder continuously drives the base material to the cladding forming device;

and the fabric is conveyed to the cladding forming device through the fabric feeding device, meanwhile, the bottom material is conveyed to the cladding forming device through the bottom material feeding and positioning device, then the fabric and the bottom material enter the cutting and shaping device at the same time to be cut into shapes, and then the fabric and the bottom material are output through the conveying device.

The cladding forming device comprises a pre-cladding guide plate and a cladding forming press roller which are sequentially connected by a plus material and a backing material.

The cutting device comprises a cutting scissors, a cutting fixed material pressing cylinder and a material clamping pneumatic finger which are sequentially connected by a plus material and a base material.

The conveying device comprises a finished product linear movement driver and a discharging guide groove which are sequentially arranged.

The electric control system comprises a touch screen arranged on the rack and an electric cabinet arranged at the bottom of the rack; the electric cabinet is provided with a pneumatic electromagnetic valve.

The bottom material feeding and positioning device further comprises a bottom material module center adjusting hand wheel which is arranged on the supporting frame and used for controlling the position of the bottom material.

The fabric feeding device further comprises a bottom paper stripping motor in driving connection with the bottom paper stripping scroll.

The base paper peeling reel is provided with a clamping member for clamping the peeled base paper.

The cutting device comprises a movable cylinder in driving connection with the cutting scissors.

The fabric winding rack comprises a fixing frame and a winding tray arranged on the fixing frame; the fabric guide rod is arranged on the fixing frame;

the support frame includes the bottom plate, set up in the feed frame on the bottom plate.

The invention has the beneficial effects that:

(1) The invention relates to a vacuum-free surrounding edge cladding machine, which comprises a frame, a surface material feeding device, a bottom material feeding and positioning device, a cladding forming device, a cutting device, a material conveying device and an electrical control system, wherein the surface material feeding device, the bottom material feeding and positioning device, the cladding forming device, the cutting device, the material conveying device and the electrical control system are arranged on the frame; the electric control system is respectively and electrically connected with the surface material feeding device, the backing material feeding and positioning device, the cladding forming device, the cutting and shaping device and the material conveying device; the fabric feeding device comprises a fabric winding frame, a fabric guide rod, a fabric guide positioning adjusting block, a fabric detection pressing plate, a base paper stripping scroll and an anti-sticking pressing roller which are sequentially connected by fabrics; the bed charge feeding and positioning device comprises a support frame, a bed charge length positioning adjusting block, a bed charge positioning support stop block, a feeding cylinder and a discharging pressing plate cylinder, wherein the bed charge length positioning adjusting block is arranged on the support frame; the feeding cylinder drives the base material to be sequentially connected with the base material length positioning adjusting block and the base material positioning supporting stop block, and then the blanking pressing plate cylinder continuously drives the base material to the cladding forming device; the fabric is conveyed to the cladding forming device through the fabric feeding device, meanwhile, the base material is conveyed to the cladding forming device through the base material feeding and positioning device, then the fabric and the base material enter the cutting device for cutting forming, and then the fabric and the base material are output through the conveying device. The vacuum-free surrounding edge cladding machine not only realizes automation and greatly improves surrounding edge efficiency, but also has no vacuum adsorption device, and reduces noise and energy consumption.

(2) The vacuum-free surrounding edge coating machine can simplify the equipment adjusting operation, expand the application range of the type of materials and the size of products processed by the vacuum-free surrounding edge coating machine, and increase the adaptable product rate of the surrounding edge coating machine; the running stability of the surrounding edge cladding machine is improved, and the production efficiency is further improved. The vacuum-free surrounding edge coating machine is wider in material application range, the surrounding edge coating machine in the prior art is single in applicable size and can not adjust the blanking positioning point, and the surrounding edge coating machine is applicable to materials with the length of 50-330 mm and the width of 10-50 mm; the vacuum-free surrounding edge coating machine is higher in stability, and the vacuum adsorption hole blockage phenomenon cannot occur because the vacuum-free surrounding edge coating machine adopts mechanical module type feeding; the vacuum-free surrounding edge cladding machine adopts mechanical foolproof positioning, so that the positioning is more accurate, and the defective rate is reduced.

(3) The vacuum-free surrounding edge cladding machine has the characteristics of simple structure, low production cost and suitability for large-scale production.

Drawings

FIG. 1 is a schematic view of a vacuum-free peripheral cladding machine according to the present invention.

Fig. 2 is a partially enlarged schematic structural view at a in fig. 1.

Fig. 3 is a partially enlarged structural schematic diagram at B in fig. 1.

Fig. 4 is a partially enlarged structural schematic diagram at C in fig. 1.

Reference numerals:

a frame 1;

the fabric feeding device 2, the fabric winding frame 21, the fabric guide rod 22, the fabric guide positioning adjusting block 23, the fabric detection pressing plate 24, the base paper stripping scroll 25, the anti-sticking pressing roller 26, the base paper stripping motor 27, the clamping piece 201, the fixing frame 202 and the winding disc 203;

the bottom material feeding and positioning device 3, a bottom material length positioning and adjusting block 31, a bottom material positioning and supporting stop block 32, a feeding cylinder 33, a discharging pressing plate cylinder 34, a bottom material module center adjusting hand wheel 35, a bottom plate 36 and a feeding frame 37;

an overmolding device 4, a pre-overmolding guide 41, and an overmolding press roll 42;

the cutting device comprises a cutting device 5, a cutting scissors 51, a cutting fixed material pressing cylinder 52, a material clamping pneumatic finger 53 and a moving cylinder 54;

a material conveying device 6, a finished product linear movement driver 61 and a material discharging guide groove 62;

a primer 7;

a touch screen 8;

and an electric cabinet 9.

Detailed Description

The present invention will be described in detail with reference to specific embodiments and drawings.

The vacuum-free surrounding edge coating machine of the embodiment, as shown in fig. 1 to 4, comprises a frame 1, a surface material feeding device 2 arranged on the frame 1, a bottom material feeding and positioning device 3, a coating forming device 4, a cutting forming device 5, a material conveying device 6 and an electrical control system; the electric control system is respectively and electrically connected with the surface material feeding device 2, the backing material feeding and positioning device 3, the cladding forming device 4, the cutting forming device 5 and the material conveying device 6; the fabric feeding device 2 comprises a fabric winding frame 21, a fabric guide rod 22, a fabric guide positioning adjusting block 23, a fabric detection pressing plate 24, a base paper stripping scroll 25 and an anti-sticking pressing roller 26 which are sequentially connected by fabrics; the bottom material feeding and positioning device 3 comprises a supporting frame, a bottom material length positioning adjusting block 31, a bottom material positioning supporting stop block 32, a feeding cylinder 33 and a discharging pressing plate cylinder 34, wherein the bottom material length positioning adjusting block is arranged on the supporting frame; the feeding cylinder 33 drives the base material 7 to be sequentially connected with the base material length positioning adjusting block 31 and the base material positioning supporting stop block 32, and then the blanking pressing plate cylinder 34 continuously drives the base material 7 to the cladding forming device 4; wherein, the surface fabric is carried to the cladding forming device 4 through the surface fabric feedway 2, and simultaneously the backing material 7 is carried to the cladding forming device 4 through backing material feed and positioning device 3, then surface fabric and backing material 7 get into cutting into shape device 5 simultaneously and cut into shape, then export through the material conveying device 6.

In this embodiment, the overmolding device 4 includes a pre-overmolding guide 41 and an overmolding press 42 that are sequentially connected by a facing and a backing material 7. The facing and backing material 7 first enter the pre-clad guide 41 and then enter the clad forming press roll 42.

In this embodiment, the cutting device 5 includes a cutting scissors 51, a cutting fixed pressing cylinder 52, and a clamping pneumatic finger 53, which are sequentially connected by the facing material and the backing material 7.

In this embodiment, the feeding device 6 includes a finished product linear motion driver 61 and a discharge guide groove 62 that are sequentially arranged. Wherein the final linear motion actuator 61 is provided with a linear drive shaft.

In this embodiment, the electrical control system includes a touch screen 8 disposed on the frame 1, and an electric cabinet 9 disposed at the bottom of the frame 1; the electric cabinet 9 is provided with a pneumatic solenoid valve.

In this embodiment, the base material feeding and positioning device 3 further includes a base material module center adjusting hand wheel 35 disposed on the supporting frame and used for controlling the position of the base material.

In this embodiment the facestock feed device 2 further comprises a backing paper stripping motor 27 in driving connection with the backing paper stripping reel 25. The base paper peeling motor 27 drives the base paper peeling spool 25 to run.

In the present embodiment, the base paper peeling spool 25 is provided with a clamp 201 for clamping peeled base paper.

In this embodiment, the cutting device 5 comprises a moving cylinder 54 in driving connection with the cutting scissors 51.

In this embodiment, the fabric rolling rack 21 includes a fixing rack 202 and a rolling tray 203 disposed on the fixing rack 202; the fabric guide rod 22 is arranged on the fixing frame 202; in this embodiment, the support frame includes a base plate 36 and a feeding frame 37 disposed on the base plate 36.

The actual production process of the vacuum-free surrounding edge cladding machine comprises the following steps:

(1) Firstly, installing and positioning a fabric, wherein the fabric is in a roll form and is a non-setting adhesive fabric with base paper, installing the non-setting adhesive fabric with base paper on a fabric roll rack 21, fixing the fabric by a roll tray 203, then extracting a fabric head to bypass a fabric guide rod 22, adjusting the fabric by a fabric guide positioning adjusting block 23, passing through the lower part of a fabric detection pressing plate 24, peeling the base paper from the fabric, clamping the peeled base paper on a base paper peeling scroll 25 by using a clamping piece 201, passing the non-setting adhesive fabric after peeling the base paper through an anti-sticking press roll 26, and stretching the non-setting adhesive fabric until the non-setting adhesive fabric is coated on a forming device 4;

(2) Then, the bottom material 7 is adjusted and positioned, firstly, the bottom material 7 is loaded into a feeding frame 37, and then, a bottom material length positioning adjusting block 31 is utilized to adjust and adjust a blanking positioning point of the bottom material 7, namely, the blanking center position of the bottom material feeding and positioning device 3 is adjusted to be in the same straight line with the center of the cladding forming device 4 and the center of the surface material;

(3) Then, the product forming is regulated, a control power switch is turned on, the operation mode of the touch screen 8 is changed into a manual mode, and a feeding and discharging key on the touch screen 8 is clicked, so that the base material 7 is positioned on the fabric; then manually introducing the dough with the base material 7 to the cutting and shaping device 5, adjusting the shaping length and the bag Bian Xingzhuang, clicking the scissors and the shear key on the touch screen 8 to confirm the accuracy of the length positioning;

(4) And then the automatic production is put into operation, after the first part is checked and confirmed, the operation mode of the touch screen 8 is changed from a manual mode to an automatic mode, and an automatic start key on the touch screen 8 is clicked, so that the vacuum-free surrounding edge coating machine can perform automatic production operation.

Therefore, the vacuum-free surrounding edge cladding machine not only realizes automation and greatly improves surrounding edge efficiency, but also has no vacuum adsorption device, and reduces noise and energy consumption. In addition, the non-vacuum surrounding edge coating machine can simplify the equipment adjusting operation, expand the application range of the type of materials and the product size processed by the non-vacuum surrounding edge coating machine, and increase the adaptable product rate of the surrounding edge coating machine; the running stability of the surrounding edge cladding machine is improved, and the production efficiency is further improved. The vacuum-free surrounding edge coating machine is wider in material application range, the surrounding edge coating machine in the prior art is single in applicable size and can not adjust the blanking positioning point, and the surrounding edge coating machine is applicable to materials with the length of 50-330 mm and the width of 10-50 mm; the vacuum-free surrounding edge coating machine is higher in stability, and the vacuum adsorption hole blockage phenomenon cannot occur because the vacuum-free surrounding edge coating machine adopts mechanical module type feeding; the vacuum-free surrounding edge cladding machine adopts mechanical foolproof positioning, so that the positioning is more accurate, and the defective rate is reduced.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a no vacuum surrounding edge cladding machine which characterized in that: comprises a frame, a surface material feeding device, a bottom material feeding and positioning device, a cladding forming device, a cutting device, a material conveying device and an electrical control system, wherein the surface material feeding device, the bottom material feeding and positioning device, the cladding forming device, the cutting device and the material conveying device are arranged on the frame; the electric control system is respectively and electrically connected with the fabric feeding device, the backing material feeding and positioning device, the overmoulding device, the cutting and shaping device and the material conveying device;

the fabric feeding device comprises a fabric winding frame, a fabric guide rod, a fabric guide positioning adjusting block, a fabric detection pressing plate, a base paper stripping scroll and an anti-sticking pressing roller which are sequentially connected by fabrics;

the bed charge feeding and positioning device comprises a support frame, a bed charge length positioning adjusting block, a bed charge positioning supporting stop block, a feeding cylinder and a discharging pressing plate cylinder, wherein the bed charge length positioning adjusting block is arranged on the support frame; the feeding cylinder drives the base material to be sequentially connected with the base material length positioning adjusting block and the base material positioning supporting stop block, and then the blanking pressing plate cylinder continuously drives the base material to the cladding forming device;

and the fabric is conveyed to the cladding forming device through the fabric feeding device, meanwhile, the bottom material is conveyed to the cladding forming device through the bottom material feeding and positioning device, then the fabric and the bottom material enter the cutting and shaping device at the same time to be cut into shapes, and then the fabric and the bottom material are output through the conveying device.

2. The non-vacuum peripheral cladding machine according to claim 1, wherein: the cladding forming device comprises a pre-cladding guide plate and a cladding forming press roller which are sequentially connected by a plus material and a backing material.

3. The non-vacuum peripheral cladding machine according to claim 1, wherein: the cutting device comprises a cutting scissors, a cutting fixed material pressing cylinder and a material clamping pneumatic finger which are sequentially connected by a plus material and a base material.

4. The non-vacuum peripheral cladding machine according to claim 1, wherein: the conveying device comprises a finished product linear movement driver and a discharging guide groove which are sequentially arranged.

5. The non-vacuum peripheral cladding machine according to claim 1, wherein: the electric control system comprises a touch screen arranged on the rack and an electric cabinet arranged at the bottom of the rack; the electric cabinet is provided with a pneumatic electromagnetic valve.

6. The non-vacuum peripheral cladding machine according to claim 1, wherein: the bottom material feeding and positioning device further comprises a bottom material module center adjusting hand wheel which is arranged on the supporting frame and used for controlling the position of the bottom material.

7. The non-vacuum peripheral cladding machine according to claim 1, wherein: the fabric feeding device further comprises a bottom paper stripping motor in driving connection with the bottom paper stripping scroll.

8. The non-vacuum peripheral cladding machine according to claim 1, wherein: the base paper peeling reel is provided with a clamping member for clamping the peeled base paper.

9. The non-vacuum peripheral cladding machine according to claim 1, wherein: the cutting device comprises a movable cylinder in driving connection with the cutting scissors.

10. The non-vacuum peripheral cladding machine according to claim 1, wherein: the fabric winding rack comprises a fixing frame and a winding tray arranged on the fixing frame; the fabric guide rod is arranged on the fixing frame;

the support frame includes the bottom plate, set up in the feed frame on the bottom plate.

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