CN202878409U - Blister cold cutting device - Google Patents

Abstract

The utility model relates to a blister cold cutting device. The blister cold cutting device comprises a supporting frame, a blanking device and a belt driving device, wherein transmission paths of blister belts are formed on the upper surface of the supporting frame and the blanking device is arranged at the front end of the supporting frame. The belt driving device comprises guiding components arranged in parallel with the transmission paths, a sliding block matched with the guiding components in a sliding mode and a first actuator driving the sliding block to move to and fro periodically on the guiding components. The sliding block is provided with clamping devices for clamping the blister belts on the supporting frame when the sliding block reaches the ends farthest away from the blanking device. The blister cold cutting device has the advantages that the left and right positions of the blister belts entering the blanking device are restricted through the mutual cooperation between the clamping devices on the belt driving device and the supporting frame, the front and back positions of the blister belts entering the blanking device are restricted through air cylinders on the clamping devices, so that feeding accuracy is improved. In addition, by arranging a high-precision pressure plate, a high-precision fixed die and a high-precision moving die, die cutting quality is improved further.

Description

A kind of cell-shell cold cut equipment

Technical field

The utility model relates to the plastic products cutting equipment, relates in particular to a kind of cell-shell cold cut equipment.

Background technology

Cell-shell is a kind of transparent plastic that adopts plastic uptake technique transparent plastic hard plate to be made specific convex shape.It as the part of product external packaging or external packing, covers in product surface usually, makes client can observe directly the interior product of external packing, to protect and to beautify the effect of product.The above-mentioned external packing mode with cell-shell extensively is used as in the life articles for daily use such as medicine, food, toy, digital product, daily chemical products, school supply and stationery and toothbrush.

Cell-shell is prepared as follows usually: at first adopt the hot forming technology to process the cell-shell of the held product of continuous distributed at the plastic hard plate band, form thus the cell-shell band of bar shaped, utilize afterwards the thermal cutting technology such as the physics cutting techniques (claiming again cold cut) such as die-cut, cross cutting or laser cutting, high frequency ultrasound cutting that each cell-shell is cut down from the cell-shell band.The filling of product can be carried out before cutting or after the cutting according to the concrete structure of external packing.

In the above-mentioned processing technology, cutting technique is one of comparatively crucial operation, and the profile precision of the prepared cell-shell of this step will have a strong impact on the qualification rate of final finished.In the above-mentioned various cutting techniques, the edge that high frequency ultrasound cutting and laser cutting technique obtain is neat appearance comparatively, but has the shortcomings such as price is high, energy consumption is too high, production efficiency is lower; And relative above-mentioned thermal cutting technology, it is so not smooth that various cold cut technology edge, but have that production efficiency is higher, low price and the low advantage of production cost.Therefore, how to improve the cutting accuracy of physics cutting, and further improve the production efficiency of physics cutting technique, to produce part for the not high cell-shell product of required precision, become an important problem.

In addition, except the cell-shell edge definition that is limited by cutting knife, another crucial technology is exactly the precision of at every turn cutting feeding in the cutting technique, and existing cutting equipment exists pushing precision lower, and it is inaccurate to cause cutting contraposition, affects cut quality.

The utility model content

The purpose of the utility model embodiment is for the shortcoming of existing cell-shell physics cutting equipment, proposes a kind of cell-shell cold cut equipment, has cutting accuracy height, cutting efficiency is high, pushing precision is high advantage.

In order to reach above-mentioned utility model purpose, a kind of cell-shell cold cut equipment that the utility model embodiment proposes is achieved through the following technical solutions:

A kind of cell-shell cold cut equipment is used for downcutting the cell-shell on the cell-shell band, it is characterized in that described cold cut equipment comprises that upper surface forms the bracing frame of described cell-shell band transport path, the blanking apparatus of being located at the support frame as described above front end and tape deck; Described tape deck comprises: the slide block that be parallel to the director element of described transport path setting, is slidingly matched with described director element and drive the first executing agency that described slide block periodically moves back and forth on described director element; The clamping device that has the cell-shell band on the clamping support frame as described above when slide block reaches the described blanking apparatus distal-most end of distance on the described slide block.

Have two described clamping devices on the described slide block, and be built up in respectively the support frame as described above both sides; Described clamping device has and support frame as described above upper surface concordant pressure-bearing surface roughly, and is successively set on the pressing plate of described pressure-bearing surface top and the described pressing plate of cyclic drive to the second executing agency that described pressure-bearing surface moves.

Described blanking apparatus comprises the be fixed fixed mold that arranges and the moving mold that periodically moves to described solid plate under driving mechanism drives; Wherein, be formed with the cutting head that at least one extends towards described moving mold direction on the described fixed mold, described cutting head is formed with described stamping-out head position correspondence and form fit die-cut mouthful towards the form fit of end face and the described cell-shell of described moving mold on the described moving platen.

Described blanking apparatus comprises that also holding pad and Duo Gen are vertically fixed on the guide pillar on the described fixed mold, described moving platen and described holding pad all are set on the described guide pillar, and described holding pad is formed with the opening that passes through for described stamping-out head on the described holding pad between described fixed mold and moving mold.

Run through on the described fixed mold and be provided with the hole that ejects of passing through described cutting head; Corresponding, described cold cut equipment also comprises the liftout attachment of the opposite side that is fixed at the relatively described moving mold of described fixed mold, described liftout attachment comprises being built up on the briquetting and with described and ejects one to one thimble of hole, and drives the 3rd executing agency that described briquetting moves up and down.

Described moving mold, holding pad, fixed mold and liftout attachment from top to bottom set gradually.

Described cold cut equipment comprises also by pallet and driving tray and carries out the carrying device that the 4th executing agency of horizontal reciprocating movement forms that when described thimble moved to extreme position downwards, described pallet just was positioned under the described fixed mold.

Support frame as described above is comprised of many smooth surfaces and the guide post that parallels, the upper limb of described guide post is on the same level face to consist of the upper surface of support frame as described above, leave the spacing for the cell-shell embedding of projection on the described cell-shell band between the described guide post, the length direction of described guide post is defined as described cell-shell band transport path thus.

Described cold cut equipment also comprises the winding wheel of recoiling the cell-shell band after cell-shell is punched.

Each described executing agency is cylinder, and described director element is guide pillar.

Compared with prior art, the beneficial effects of the utility model are: by adopting such scheme, can retrain the position, the left and right sides that the cell-shell band enters blanking apparatus by cooperatively interacting between the clamping device on the tape deck and the bracing frame, control the front and back position that the cell-shell band enters blanking apparatus by the cylinder on the clamping device, improved thus pushing precision.In addition, by being set, high-precision holding pad, fixed mold and moving mold further improved the cross cutting quality, and automatically export the complete cell-shell of cutting to equipment outer assigned address by liftout attachment and liftout attachment are set, further improved thus production efficiency.

Description of drawings

By the description of its exemplary embodiment being carried out below in conjunction with accompanying drawing, the above-mentioned feature and advantage of the utility model will become apparent and understand easily.

Fig. 1 is the utility model embodiment overall structure schematic diagram;

Fig. 2 is the utility model embodiment bracing frame and tape deck part-structure schematic diagram;

Fig. 3 is the utility model embodiment cell-shell stamping-out part-structure schematic diagram;

Fig. 4 is the utility model embodiment cell-shell stamping-out part explosive view.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in further detail, so that technical staff's of the same trade understanding:

Shown in Fig. 1-4, label represents respectively:

Bracing frame 1; support body 11; guide post 12; tape deck 2; guide pillar 21; slide block 22; cylinder 23; clamping device 24; pressure-bearing surface 241; pressing plate 242; cylinder 243; winding wheel 3; guide roller assembly 4; the first guide roller 41; the second guide roller 42; the 3rd guide roller 43; crank 44; blanking apparatus 5; pedestal 51; guide pillar 52; driving mechanism 53; cam 531; driven member 532; moving mold 54; die-cut mouthful 541; holding pad 55; opening 551; fixed mold 56; cover half pedestal 561; cutting head 562; liftout attachment 6; briquetting 61; thimble 62; the 3rd executing agency 63; carrying device 7; pallet 71; the 4th executing agency 72.

Shown in Fig. 1-4, provide a kind of cell-shell cold cut equipment for downcutting the cell-shell on the cell-shell band in the present embodiment.This cold cut equipment has the frame as agent structure, and the realization of its function mainly partly is made of cell-shell band transport portion and cell-shell stamping-out, and cell-shell band transport portion and cell-shell stamping-out part all are arranged on this frame.Below will describe respectively these two parts is specifically addressed with the embodiment for whole cold cut equipment.

Cell-shell band transport portion mainly comprises:

Bracing frame 1

The upper surface of bracing frame 1 forms the transport path of described cell-shell band.See also Fig. 2, bracing frame 1 is comprised of support body 11 and the many guide posts 12 that are fixedly installed on support body 11 upper ends.Guide post 12 smooth surfaces and being parallel to each other, the upper surface of each guide post 12 all are on the same level face to consist of the upper surface of support frame as described above 1; And the spacing that leaves between the guide post 12 can embed for the cell-shell of projection on the described cell-shell band, and the length direction of described guide post 12 defines described cell-shell tape feeding direction thus, has also just formed the transport path of cell-shell band on bracing frame 1.

Tape deck 2

Tape deck 2 is used for the periodic cell-shell band that drives and moves at bracing frame 1.See also Fig. 2, tape deck 2 comprises: two slide block 22 and the first executing agencies that are parallel to guide pillar 21 that described guide post 12 arranges, are set on the guide pillar 21 and are slidingly matched with guide pillar 21.The first executing agency is cylinder 23 in the present embodiment, and cylinder 23 relative support frames as described above 1 are tilted to lower setting, and the middle part of its cylinder body is hinged on the frame, and its tailpiece of the piston rod then is hinged on the slide block 22.Drive by cylinder 23, slide block periodically moves back and forth on guide pillar 21.When the clamping device 24 that then has the cell-shell band on the clamping support frame as described above 1 when slide block 22 reaches apart from the blanking apparatus distal-most end on the slide block 22.Specifically, the both sides that are built up in support frame as described above 1 that have 24, two clamping device 24 symmetries of two described clamping devices on the described slide block 22.Described clamping device 24 has and support frame as described above 1 upper surface concordant pressure-bearing surface 241 roughly, and be successively set on the pressing plate 242 of described pressure-bearing surface 241 tops and the described pressing plate 242 of cyclic drive to the second executing agency that described pressure-bearing surface 241 moves, in the present embodiment, the second executing agency is cylinder 243.

Winding wheel 3

Winding wheel 3 is the driving wheel that rotates by motor-driven, and its Main Function is the cell-shell band after being punched by the recoil cell-shell, and the tractive force for the cell-shell band is provided.

Guide roller assembly 4

Guide roller assembly 4 comprises the first guide roller 41, the second guide roller 42 and the 3rd guide roller 43, is located between winding wheel 3 and the cell-shell stamping-out part transport path of the cell-shell band after retraining respectively cell-shell and being punched between unreeling wheel 3 and cell-shell stamping-out part.Wherein the second guide roller 42 and the 3rd guide roller 43 are arranged on the frame turnably, the first guide roller 41 then is fixed on the frame by crank 44, the first guide roller 41 is arranged on crank 44 1 ends turnably, the other end of crank 44 then is articulated on the frame, but thus the first guide roller 41 flexing handles 44 1 end rotations, and the other end of flexing handle 44 rotation.Naturally droop under the first guide roller 41 action of gravitations.

The cell-shell band enters winding wheel 3 around the first guide roller 41, the second guide roller 42 and the 3rd guide roller 43 afterwards successively by the stamping-out part, and pocket is on winding wheel 3.

Cell-shell stamping-out part mainly comprises:

Blanking apparatus 5

Blanking apparatus 5 is used for finishing the cutting for the cell-shell band.It comprises pedestal 51, the many guide pillars 52 that are vertically fixed on pedestal 51 that are fixedly installed on the frame and is successively set on from the bottom to top driving mechanism 53, moving mold 54, holding pad 55 and fixed mold 56 on the pedestal 51.Wherein:

Driving mechanism 53 is constituted by cam 531 and driven member 532.Cam 531 consists of driving link, and driven member 532 bottoms have the roller that joins with cam 531, and driven member 532 is set on the guide pillar 52, and can move up and down along guide pillar 52.

Moving mold 54 and holding pad 55 are set on the guide pillar 52 equally, and can move up and down along guide pillar 52.During cam 531 uniform rotation of driving mechanism 53, drive driven member 532 and periodically pump, thereby drive moving mold 54 and holding pad 55 periodically moves back and forth.

56 upper ends that are fixed on guide pillar 52 of fixed mold.Fixed mold 56 is comprised of cover half pedestal 561 and several cutting heads 562 that are fixedly mounted on cover half pedestal 561 belows; wherein; cover half pedestal 561 lower surfaces are concaved with the groove of several and cutting head 562 form fit; cutting head 562 then is inlaid in the groove one to one, and is connected with cover half pedestal 561 bolts.For easy to process, cover half pedestal 561 is divided into three layers, is followed successively by fixed clamping plate, cover half connecting plate, the cutting head installing plate of fitting and arranging from top to bottom.Offer perforate on the cutting head installing plate, and be combined to form described groove with cover half connecting plate lower surface.

Cutting head 564 extends towards described moving mold 54 directions, the form fit of the lower surface of cutting head 564 (towards the end face of described moving mold 54) and described cell-shell.Corresponding, be formed with opening corresponding to described cutting head 564 positions on moving mold 54 and the holding pad 55.Wherein, the opening 551 on the holding pad 55 can allow cutting head 564 to pass through, and the opening on the moving mold 54 is then identical with cutting head 564 shape sizes, consists of die-cut mouthful 541.

Liftout attachment 6

In above-mentioned blanking apparatus 5, if the stroke that moving mold 54 is moved up not merely only makes its upper punch otch 541 and cutting head 564 easy edges, but it is own to make cutting head 4 pass through moving mold 54 fully, and then cell-shell can be released moving mold 54 for punched 564.But owing to adopt such setting significantly to increase the stroke of moving mold 564, and be that assurance is accurately die-cut, the movement posture of driving mechanism 53 is comparatively stable mild, has therefore significantly increased the time in each die-cut cycle, affects operating efficiency.For these reasons, also arrange on the cold cut equipment and be specifically designed to the liftout attachment 6 that cell-shell is ejected.In addition, for cooperating liftout attachment 6, run through being provided with the hole that ejects of passing through described cutting head on the fixed mold 56, specifically, each ejects all vertical fixed clamping plate, cover half connecting plate and cutting heads 562 of running through of hole.Liftout attachment 6 is fixedly mounted on the top of fixed mold 56, comprise briquetting 61, be built up on the briquetting 61 and with the described one to one thimble 62 of hole that ejects, and driving the 3rd executing agency 63 that described briquetting 61 moves up and down, cylinders are adopted in the present embodiment the 3rd executing agency 63 same selections.Owing to be relatively set with the driving mechanism 53 of the transmission mechanism such as cam, cylinder has the advantages such as action is fast, energy consumption is little, has not only significantly improved the frequency in each die-cut cycle, and has reduced the energy consumption of whole equipment.

Carrying device 7

Carrying device 7 is used for collecting the cell-shell that liftout attachment 6 ejects, and it is sent outside the cold cut equipment.Carrying device 7 is comprised of the 4th executing agency 72 that pallet 71 and driving tray 71 carry out horizontal reciprocating movement.In the present embodiment, the 4th executing agency 72 same cylinders of selecting.When described thimble 62 moved to extreme position downwards, described pallet 71 just was positioned under the described moving mold 54, the cell-shell that acceptance is ejected from moving mold 54, and the 4th executing agency 72 shifts out pallet 71 levels outside the equipment afterwards, and employment is taken.

Hold above-mentionedly, below will describe the operation principle of cold cut equipment in the present embodiment in detail:

Before the work of cold cut equipment, at first need the cell-shell band is installed in the cold cut equipment, specifically, the cell-shell band need to be passed between moving mold 54 and holding pad 55, and the termination is fixed on the winding wheel 3, and the cell-shell band is placed on bracing frame 1, with the position location of cell-shell band between moving mold 54 and holding pad 55.

Behind the device start, the cam 531 in the driving mechanism 53 rotates, and drives driven member 532 and rises, and moving mold 54 rises with driven member 532, after reaching a certain height, in the die-cut mouth 541 on the cell-shell embedding moving mold 54 on the cell-shell band.When moving mold 54 began to oppress the base band of cell-shell band, holding pad 55 and moving mold 54 combinations clamped the baseband portion of cell-shell band.When after this driven member 532 continues to rise, holding pad 55, moving mold 54 and the cell-shell band portion between the two rise together thereupon, until cutting head 564 passes through the opening 551 on the holding pad 55, and and moving mold 54 on die-cut mouthfuls 541 easily along and mistake is finished the cutting of cell-shell thus.This moment, the peak of cam 531 turned to highest point.

Thimble 62 moves down in the liftout attachment 6 at this moment, and the cell-shell that will be positioned at die-cut mouthful 541 ejects outside die-cut mouthful.Pallet 71 is accepted those cell-shells.

When cam 531 was rotated further afterwards, driven member 532 began to descend, and drove moving mold 54 declines until get back to original position.And holding pad 55 is supported by the cell-shell band after dropping to certain altitude.Leave the gap of passing through for the cell-shell band this moment between moving mold 54 and the holding pad 55.Clamping device on the tape deck 2 24 clamps the edge of cell-shell bands at this moment, and cylinder 23 drives slide blocks 22 and moves, and one section new cell-shell band is sent in the blanking apparatus 5, and clamping device 24 unclamps afterwards.

Simultaneously, the 4th executing agency 72 shifts out pallet 71 levels outside the equipment, and returns moving mold 54 belows.

Repeat above-mentioned steps, realize the continuous cutting of cell-shell band.

The utility model one of ordinary skill in the art be appreciated that; the above embodiment of the utility model only is one of preferred embodiment of the present utility model; be the length restriction; here can not all embodiments of particularize; any enforcement that can embody the utility model claim technical scheme is all in protection domain of the present utility model.

It should be noted that; above content is in conjunction with concrete embodiment further detailed description of the utility model; can not assert that the specific embodiment of the present utility model only limits to this; under the guidance of above-described embodiment; those skilled in the art can carry out various improvement and distortion on the basis of above-described embodiment, and these improvement or distortion drop in the protection domain of the present utility model.

Claims (10)

1. a cell-shell cold cut equipment is used for downcutting the cell-shell on the cell-shell band, it is characterized in that described cold cut equipment comprises that upper surface forms the bracing frame of described cell-shell band transport path, the blanking apparatus of being located at the support frame as described above front end and tape deck; Described tape deck comprises: the slide block that be parallel to the director element of described transport path setting, is slidingly matched with described director element and drive the first executing agency that described slide block periodically moves back and forth on described director element; The clamping device that has the cell-shell band on the clamping support frame as described above when slide block reaches the described blanking apparatus distal-most end of distance on the described slide block.

2. a kind of cell-shell cold cut equipment according to claim 1 is characterized in that: have two described clamping devices on the described slide block, and be built up in respectively the support frame as described above both sides; Described clamping device has and support frame as described above upper surface concordant pressure-bearing surface roughly, and is successively set on the pressing plate of described pressure-bearing surface top and the described pressing plate of cyclic drive to the second executing agency that described pressure-bearing surface moves.

3. a kind of cell-shell cold cut equipment according to claim 2 is characterized in that: described blanking apparatus comprises the be fixed fixed mold that arranges and the moving mold that periodically moves to described solid plate under driving mechanism drives; Wherein, be formed with the cutting head that at least one extends towards described moving mold direction on the described fixed mold, described cutting head is formed with described stamping-out head position correspondence and form fit die-cut mouthful towards the form fit of end face and the described cell-shell of described moving mold on the described moving platen.

4. a kind of cell-shell cold cut equipment according to claim 3, it is characterized in that: described blanking apparatus comprises that also holding pad and Duo Gen are vertically fixed on the guide pillar on the described fixed mold, described moving platen and described holding pad all are set on the described guide pillar, and described holding pad is formed with the opening that passes through for described stamping-out head on the described holding pad between described fixed mold and moving mold.

5. a kind of cell-shell cold cut equipment according to claim 4 is characterized in that: run through being provided with the hole that ejects of passing through described cutting head on the described fixed mold; Corresponding, described cold cut equipment also comprises the liftout attachment of the opposite side that is fixed at the relatively described moving mold of described fixed mold, described liftout attachment comprises being built up on the briquetting and with described and ejects one to one thimble of hole, and drives the 3rd executing agency that described briquetting moves up and down.

6. a kind of cell-shell cold cut equipment according to claim 5, it is characterized in that: described moving mold, holding pad, fixed mold and liftout attachment from top to bottom set gradually.

7. a kind of cell-shell cold cut equipment according to claim 6, it is characterized in that: described cold cut equipment also comprises by pallet and driving tray and carries out the carrying device that the 4th executing agency of horizontal reciprocating movement forms, when described thimble moved to extreme position downwards, described pallet just was positioned under the described fixed mold.

8. a kind of cell-shell cold cut equipment according to claim 7, it is characterized in that: support frame as described above is comprised of many smooth surfaces and the guide post that parallels, the upper limb of described guide post is on the same level face to consist of the upper surface of support frame as described above, leave the spacing for the cell-shell embedding of projection on the described cell-shell band between the described guide post, the length direction of described guide post is defined as described cell-shell band transport path thus.

9. a kind of cell-shell cold cut equipment according to claim 8 is characterized in that: described cold cut equipment also comprises the winding wheel of recoiling the cell-shell band after cell-shell is punched.

10. a kind of cell-shell cold cut equipment according to claim 9, it is characterized in that: each described executing agency is cylinder, described director element is guide pillar.

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