CN205467534U - Non -woven bag making machine - Google Patents

Abstract

The utility model relates to a non -woven bag making machine, including the frame that is provided with material import and material export, locate the feeding mechanism in the frame, hold -down mechanism, a cutting mechanism, scrap recycling machine constructs to and the 2nd cutting mechanism, feeding mechanism is including setting up in the conveyer belt of material import one side, it can be with the locating component and the spacing unit of non -woven fabrics location to be equipped with a plurality of on the conveyer belt, the 2nd cutting mechanism goes up including pressing the material piece, cuts out the piece, and drive is simultaneously pressed the material piece and is cut out the cylinder of piece motion, be equipped with the buffering subassembly on the pressure material piece.

Description

A kind of non-woven fabrics bag

Technical field

This utility model relates to a kind of non-woven fabrics bag, and especially a kind of feeding is convenient, and rewinding is effective, the non-woven fabrics bag of simple in construction.

Background technology

It is non-woven fabrics that non-woven fabrics bag is suitable for raw material, can process various different size, the non-woven bag of different shaped shape, package, handbag, suitcase bag etc., industry bag newly-increased in recent years also has non-woven fabrics fruit bag, plastics Turnround basket bagging, grape bagging, Apple Bags etc..Non-woven fabrics bag be by batcher reality phase powder feeding material (colloid or liquid) to packer above hopper device in, introduce speed by photoelectric positioning apparatus control, the sealing paper (or other packaging material) of rolling drives through deflector roll and introduces to the lapel shaper, become barrel-shaped by vertical sealing machine overlap joint again after being bent over, in the bag that material is filled to after automatic gauge make, bag bucket is drawn downwards while carrying out heat-sealing cutting by transverse sealing device, eventually form lapped seam three side sealing mouth flat bag, complete the sealing of a bag.The course of processing is generally divided into feeding (non-woven fabric coiled material) → folding → ultrasonic bonds → cutting → bag (blurting out) → waste recovery → counting → stacking.

Wherein, a feeder is generally used to deliver to non-woven fabrics roll up on rod in feeding process, transmission is carried out by several volume rods, but when non-woven fabrics is sent on volume rod, because some extrinsic factor well cannot carry out planarizing process to harmless cloth, may result in some harmless cloth to be deposited on volume rod, follow-up operation can be caused large effect.

On the other hand; a rewinding bucket would generally be provided with below frame during rewinding; this rewinding bucket is the moulding arranging cavity in simple drum, but such material collecting device is piled up in bottom staving, to some solid accumulations of initial stage less in the case of can not take easily.

Finally, in this link of material recycle, it usually needs arrange a binder block and cutting block simultaneously with the use of, but binder block and cutting block are usually split and arrange, but need two stations to operate after being set as, it is achieved more inconvenience of getting up, structure is complicated.

Summary of the invention

It is convenient that problem to be solved in the utility model is to provide a kind of feeding, and rewinding is effective, the non-woven fabrics bag of simple in construction.

For solving above-mentioned technical problem, including the frame being provided with material inlet and material outlet, the feed mechanism being located in frame, hold-down mechanism, first cutting mechanism, Waste recovery mechanism, and second cutting mechanism, described feed mechanism includes the conveyer belt being arranged at material inlet side, described conveyer belt is provided with several positioning component that can be positioned by non-woven fabrics and position-limiting units, and described second cutting mechanism includes binder block, cutting block, simultaneously driving binder block and the cylinder of cutting block motion, described binder block is provided with Buffer Unit.

After have employed said structure, owing to being additionally provided with conveyer belt at material inlet side, the technical scheme difference that will be in the past placed directly on volume rod, conveyer belt can be that non-woven fabrics provides a platform planarized by non-woven fabrics, positioning component and arranging of position-limiting unit can facilitate each corner planarizing of non-woven fabrics, only non-woven fabrics need to be positioned on this positioning component, just can play the technique effect of location, on the other hand, binder block and cutting block are arranged in a mechanism simultaneously, a mechanism can be the most only used to achieve that binder and cutting, not only save cost, but also simplify structure.

As further improvement of the utility model, the positioning component on described conveyer belt is that several are arranged at conveyer belt to the fixture block of both sides, and the interval width between the fixture block that said two is arranged oppositely and fixture block is consistent with the width of non-woven fabrics.

After have employed said structure, non-woven fabrics can be positioned in this fixture block by arranging of fixture block, utilizes the position of fixture block to arrange and direction is arranged, non-woven fabrics can well be carried out planarizing process.

As further improvement of the utility model, described fixture block includes the first fixture block and the second fixture block, and the gap length between described first fixture block and the second fixture block arranges and can be positioned between the first fixture block and the second fixture block by non-woven fabrics.

After have employed said structure, the fixture block being oppositely arranged is possible not only to carry out non-woven fabrics easily forcing planarizing process, and its structure is relatively simple, implements also and uncomplicated.

As further improvement of the utility model, described position-limiting unit is the spacing block set that conveyer belt belt surface is arranged at material outlet, and described spacing block set is fixedly installed at conveyer belt belt surface one, and the length of spacing block set is less than or equal to 1 centimetre.

After have employed said structure, the arranging of spacing block set can allow user preferably feeding to non-woven fabrics divide, in order to follow-up processed.

As further improvement of the utility model, described decker includes demixing plate and demixing plate reset assembly, and described demixing plate is separated into two identical daughter boards of shape, and for being articulated and connected between two daughter boards.

After have employed said structure, being provided with decker in recycling bin, this decker includes demixing plate and demixing plate reset assembly, so when waste material is fallen in recycling bin, a barrel inner bottom part will not be fallen to, but first fall on demixing plate, and below demixing plate, be provided with reset assembly, thus when the waste material on demixing plate save bit by bit more and more time, demixing plate can be opened downwards, waste material is flowed into bottom recycling bin, is resetted again by reset assembly, again play the technique effect of layering.

As further improvement of the utility model, described decker includes demixing plate and demixing plate reset assembly, and described demixing plate is separated into two identical daughter boards of shape, and for being articulated and connected between two daughter boards.

After have employed said structure, on the one hand arranging of spring can abut against demixing plate, when waste material save bit by bit more and more time, when its gravity is more than the elastic force of spring, the hinged end of the demixing plate that split is arranged will be opened downwards, and waste material runs past this opening and skids off bottom staving.

As further improvement of the utility model, described binder block and cutting block are integrated in a briquetting, and are respectively arranged in the one side that briquetting is corresponding with frame, and this face described is provided with the placing trough placed with cutting block for binder block.

After have employed said structure, binder block and cutting block are integrated in a briquetting, simplify structure and operating procedure, and on this face, be provided with the placing trough placed with cutting block for binder block.This placing trough substantially reduces volume, saves material.

As further improvement of the utility model, described placing trough includes binder block placing trough and cutting block placing trough, and described binder block placing trough is arranged at cutting block placing trough side, and its position arranges consistent with the machining shape of non-woven fabrics.

After have employed said structure, the binder block placing trough arranged according to the position of machining shape and cutting block placing trough, thus can well play the step of binder and cutting.

Be additionally provided with slip dashpot on described binder block with the cutting block place of leaning, described cutting block is additionally provided with linkage block with this slip dashpot relative to place.

After have employed said structure, slip dashpot and arranging of linkage block can make cutting block when by air cylinder driven return, and binder block there is also portion of time makes it push down material, serves the technique effect of buffering.

Accompanying drawing explanation

Figure 1 It show the self-contained figure of non-woven fabrics bag；

Figure 2 It show non-woven fabrics bag feeding machine structure schematic diagram；

Figure 3 It show Waste recovery mechanism structural representation；

Figure 4 It show Waste recovery mechanism internal structure exploded perspective view；

Figure 5 It show the second cutting mechanism side view.

Detailed description of the invention

As shown in Fig. 1 Fig. 2, this utility model includes the frame 1 being provided with material inlet and material outlet, it is located at the feed mechanism in frame 1, hold-down mechanism, first cutting mechanism, Waste recovery mechanism 4, and second cutting mechanism 3, described feed mechanism includes the conveyer belt 2 being arranged at material inlet side, described conveyer belt 2 is provided with several positioning component that can be positioned by non-woven fabrics and position-limiting units, binder block 31 is included on described second cutting mechanism 3, cutting block 32, simultaneously drive binder block and the cylinder of cutting block motion, described binder block is provided with Buffer Unit.Owing to being additionally provided with conveyer belt at material inlet side, the technical scheme difference that will be in the past placed directly on volume rod, conveyer belt can be that non-woven fabrics provides a platform planarized by non-woven fabrics, positioning component and arranging of position-limiting unit can facilitate each corner planarizing of non-woven fabrics, only non-woven fabrics need to be positioned on this positioning component, just can play the technique effect of location, on the other hand, binder block 31 and cutting block 32 are arranged in a mechanism simultaneously, a mechanism can be the most only used to achieve that binder and cutting, not only save cost, but also simplify structure.Positioning component on described conveyer belt is that several are arranged at conveyer belt to consistent with the width of non-woven fabrics to the interval width between the fixture block 21 of both sides, the fixture block 21 that said two is arranged oppositely and fixture block 21.Non-woven fabrics can be positioned in this fixture block by arranging of fixture block, utilizes the position of fixture block to arrange and direction is arranged, non-woven fabrics can well be carried out planarizing process.Described fixture block includes the first fixture block and the second fixture block, and the gap length between described first fixture block and the second fixture block arranges and can be positioned between the first fixture block and the second fixture block by non-woven fabrics.The fixture block being oppositely arranged is possible not only to carry out non-woven fabrics easily forcing planarizing process, and its structure is relatively simple, implements also and uncomplicated.Described position-limiting unit is the spacing block set 22 that conveyer belt belt surface is arranged at material outlet, and described spacing block set is fixedly installed at conveyer belt belt surface one, and the length of spacing block set 22 is less than or equal to 1 centimetre.The arranging of spacing block set can allow user preferably feeding to non-woven fabrics divide, in order to follow-up processed.

As shown in Fig. 3 Fig. 4, described Waste recovery mechanism 4 includes recycling bin 41, and the decker 42 being arranged in recycling bin.Described decker 42 includes demixing plate 421 and demixing plate reset assembly 422, and described demixing plate includes two daughter boards, and described daughter board is hinged.Decker it is provided with in recycling bin, this decker includes demixing plate and demixing plate reset assembly, so when waste material is fallen in recycling bin, a barrel inner bottom part will not be fallen to, but first falls on demixing plate, and below demixing plate, it is provided with reset assembly, so when the waste material on demixing plate save bit by bit more and more time, demixing plate can be opened downwards, is flowed into by waste material bottom recycling bin, resetted again by reset assembly, again played the technique effect of layering.Described demixing plate reset assembly is to be arranged at the first spring 422 below hinged end, described first spring 422 one end is fixed on barrel inwall, the other end leans with hinged end, and described first spring 422 forward is resisted against on hinged end, and fixing end is fixed with inner wall of barrel and is connected.On the one hand arranging of spring can abut against demixing plate, when waste material save bit by bit more and more time, when its gravity is more than the elastic force of spring, the hinged end of the demixing plate that split is arranged will be opened downwards, and waste material runs past this opening and skids off bottom staving.

As it is shown in figure 5, described binder block 31 and cutting block 32 are integrated in a briquetting 33, and it is respectively arranged in the one side that briquetting is corresponding with frame, this face described is provided with the placing trough placed with cutting block for binder block.Binder block and cutting block are integrated in a briquetting, simplify structure and operating procedure, and on this face, be provided with the placing trough placed with cutting block for binder block.This placing trough substantially reduces volume, saves material.Described placing trough includes binder block placing trough and cutting block placing trough, and described binder block placing trough is arranged at cutting block placing trough side, and its position arranges consistent with the machining shape of non-woven fabrics.Binder block 31 placing trough arranged according to the position of machining shape and cutting block 32 placing trough, thus can well play the step of binder and cutting.Be additionally provided with slip dashpot 33 on described binder block 31 with cutting block 32 place of leaning, described cutting block is additionally provided with linkage block 34 with this relative place of slip dashpot 33.Slip dashpot and arranging of linkage block can make cutting block when by air cylinder driven return, and binder block there is also portion of time makes it push down material, serves the technique effect of buffering.

Claims (10)

1. a non-woven fabrics bag, including the frame being provided with material inlet and material outlet, the feed mechanism being located in frame, hold-down mechanism, first cutting mechanism, Waste recovery mechanism, and second cutting mechanism, it is characterized in that: described feed mechanism includes being arranged at the conveyer belt of material inlet side, described conveyer belt is provided with several positioning component that can be positioned by non-woven fabrics and position-limiting units, and described second cutting mechanism includes binder block, cutting block, simultaneously driving binder block and the cylinder of cutting block motion, described binder block is provided with Buffer Unit.

Non-woven fabrics bag the most according to claim 1, it is characterized in that: the positioning component on described conveyer belt is that several are arranged at conveyer belt to the fixture block of both sides, and the interval width between the fixture block that said two is arranged oppositely and fixture block is consistent with the width of non-woven fabrics.

Non-woven fabrics bag the most according to claim 2, it is characterised in that: described fixture block includes the first fixture block and the second fixture block, and the gap length between described first fixture block and the second fixture block arranges and can be positioned between the first fixture block and the second fixture block by non-woven fabrics.

Non-woven fabrics bag the most according to claim 1, it is characterized in that: described position-limiting unit is the spacing block set that conveyer belt belt surface is arranged at material outlet, described spacing block set is fixedly installed at conveyer belt belt surface one, and the length of spacing block set is less than or equal to 1 centimetre.

Non-woven fabrics bag the most according to claim 1, it is characterised in that: described Waste recovery mechanism includes recycling bin, and the decker being arranged in recycling bin.

Non-woven fabrics bag the most according to claim 5, it is characterised in that: described decker includes demixing plate and demixing plate reset assembly, and described demixing plate is separated into two identical daughter boards of shape, and for being articulated and connected between two daughter boards.

Non-woven fabrics bag the most according to claim 6, it is characterized in that: described demixing plate reset assembly is to be arranged at the first spring below hinged end, described first spring one end is fixed on barrel inwall, the other end leans with hinged end, described first spring forward is resisted against on hinged end, and fixing end is fixed with inner wall of barrel and is connected.

Non-woven fabrics bag the most according to claim 1, it is characterized in that: described binder block and cutting block are integrated in a briquetting, and it is respectively arranged in the one side that briquetting is corresponding with frame, this face described is provided with the placing trough placed with cutting block for binder block.

Non-woven fabrics bag the most according to claim 8, it is characterized in that: described placing trough includes binder block placing trough and cutting block placing trough, described binder block placing trough is arranged at cutting block placing trough side, and its position arranges consistent with the machining shape of non-woven fabrics.

Non-woven fabrics bag the most according to claim 9, it is characterised in that: be additionally provided with slip dashpot on described binder block with the cutting block place of leaning, described cutting block is additionally provided with linkage block with this slip dashpot relative to place.