Device and machine for production of plastic network with open cells. RU patent 2508423.

FIELD: textiles, paper.

SUBSTANCE: device for twisting plastic monofilaments for forming a plastic network with open cells comprises: a front mechanism for twisting and the rear mechanism for twisting, which comprise the respective pairs of front and rear cop guides for introducing the plastic monofilaments for twisting into them. Each pair of front cop guide and rear cop guide is connected by the respective thermally conductive thread guides, preferably made in the form of tubes through which the uniform heating of the plastic monofilament is provided, which is conducted through the tube. The machine for twisting plastic monofilaments for forming a plastic network with open cells comprises: supply, heating, twisting, collecting devices, and additionally supporting device located downstream of the twisting device, to maintain uniform form of the newly formed network with open cells.

EFFECT: creation of the strong, uniform, durable plastic network with open cells or a network with cells in the form of honeycombs.

11 cl, 6 dwg

The area of technical application

The present invention relates to devices and machines for the manufacture of networks with open cells.

In the context of this discussion, the term «network of cells in the form of honeycombs also used to refer to network with open cells, where several wires connected through twisting neighboring wires to each other so that the network has been formed, the openings of which resemble the cells of a honeycomb. However, the present invention is not limited hexagonal cells or networks with double twisting.

The invention was created with special attention to the device with which you can twist the plastic monofilament and make network with open cells or cells in the form of a honeycomb.

In simple design according to the present invention, every plastic filament is heated uniformly immediately before twisting. Thanks to the use of the present invention is also simplified and facilitated the operation filling of plastic monofilaments and, in addition, in the field of manufacturing network with cells in the form of a honeycomb, thanks to the use of this device contribute to the maintenance of the uniform grid cells in the form of a honeycomb.

Prerequisites for the creation of the invention

Known on the network with the cells of a honeycomb, woven with the use of twisted metal wires or twisted synthetic plastic monofilaments.

Network with cells honeycomb formed of twisted wires, located near and twisted with each other. Strength and durability of such a network is extremely high and, thus, the network can be used to protect, consolidate cultivated land, retention of falling rocks etc. Twisted and woven network of plastic with honeycomb cells cannot corrode or rust, compared with networks of metal wires with cells in the honeycomb, and, thus, they have greater longevity.

With regard to the strength and frequency of the cell network, <should say that> was created by such a network has a very high qualitative characteristics, described in the patent document JP 57-56556 relating to the method of manufacture of the body of a network of cells in the form of a honeycomb.

In the patent document JP 57-56556 shows how you can pre-heat the deformable, not a hard wire up to set temperatures, then twist it taut. After the formation of the body of the network is heated constantly, <maintaining a> is the desired shape, then cooled rapidly, keeping the form.

Previously known patent documents JP 57-28645, JP 54-96183, JP 54-46970 also identify the prerequisites to the establishment of the present invention.

Formerly, the technology has various drawbacks, discussed below.

Preliminary uniform heating of plastic monofilament (corresponding monofilament applied according to the patents-analogues and prototype before its twisting, is a daunting task, especially through the use of a heater or by passing the monofilament through a heated airside. It often happens that is partly uneven preheating, which is then difficult to twist and weave monofilament network with open cells or cells in the form of a honeycomb, where desirable uniform and strength.

Also, if you have to perform the operation filling, every plastic filament should fill, or to introduce, in provided in rear mechanism for twisting network, the movement of which is coordinated with the movement of similar and corresponding front mechanism for twisting the network. Every plastic filament will then be necessary to refuel or enter in the appropriate front mechanism for twisting the network. This operation is rather critical, since if the filament mistakenly filled up not in the proper , for example, in another a mechanism for rolling network, all monofilament will be displaced, and the whole operation filling is required again.

Invariably confirmed that the operation of refueling, with rear mechanism for twisting network in front mechanism for twisting network, known machines and devices are precarious and requires spending a large amount of work and time.

In addition, after twisting two plastic monofilaments in the car of a known type, these same two plastic monofilament bred, i.e. assign from one another in opposite directions for the formation of the cells of a honeycomb, i.e. for the education of one of the openings network with open cells. However, when you perform this operation, curled part of the network is subjected to strong tension in opposite directions so that it can be deformed to such an extent that the form hundred cannot retrieve or save properly. Thus, twisting monofilaments and weaving a network of cells in the honeycomb, which has a uniform and consistent form and strength, is difficult.

Short description of the invention

The present invention is to solve the problems mentioned above. Another aim of the invention is a device to be used in the machine for the manufacture of solid, uniform and durable plastic network with open cells or network with cells in the form of a honeycomb, with reduced cost, high performance, and little need for maintenance or when there is no need for maintenance.

To achieve the above objectives the invention of a device for the manufacture of plastic network with open cells or network with cells in the honeycomb, which is available two relevant yarn guide in the front mechanism for twisting network and rear auxiliary equipment for Curling network, respectively, are connected .

In a preferred, but not bounding <volume of inventions> example heat transfer thread is in the form of heat-conducting, tube or channel.

Through this device, every plastic filament before twisting carry through this heated heat transfer thread or, preferably, a tube, so that the plastic filament pre-uniformly heated through the use of this simple design to prevent partial uneven preheating. The use of the guide, especially in its preferred form as a channel or pipe, you can simplify and facilitate the surgery filling plastic monofilament, starting from the back of the subsidiary machinery for twisting network, a mechanism for rolling network.

According to another aspect of the present invention every place twisting directly after the release of a mechanism for rolling network can be maintained, keeping interval network in width and uniform, and uniform hundred so that woven network of the honeycomb cells possessed a uniform strength.

On the machine for the manufacture of plastic network according to the invention, provides a mechanism for rolling network containing several pairs located in the direction of the resulting width of the network. These contain for plastic monofilament, and they <> connected in pairs so that they can be rotated together to twist pair monofilaments, dressed in their respective . After the Commission of a small number of revolutions pairs rotation leads to a corresponding twisting several pairs of plastic monofilaments, distributed along the width of the resulting network, each pair divert one from the other, and one or both of the relevant slip sideways until she <they> overlaps <align> with another neighbouring for education other pair , which then rotate to education following the twisted part of the network in the form of a honeycomb. Then move back to its original position for education by turning and twisting monofilaments another twisted part of the network.

Behind this mechanism for twisting network is an auxiliary mechanism for twisting the network containing the appropriate torque , which correspond to one another, each mechanism for twisting the network. Each support mechanism for twisting network contains the corresponding for plastic monofilament, and it is synchronized motion, which includes: rotation, challenge one another and displacement in the direction of the width of the network, with relevant front mechanism for twisting the network.

The mechanism for prevention of twisting is located behind the mentioned support mechanism for twisting the network, and contains the guide gear, synchronized by rotate with each paired mechanism for twisting network and support mechanism for twisting the network. Inside this guide gears installed front feed reel or coil, which serves plastic filament to one , while the rear supply reel or coil, which serves plastic filament to another pair, is located behind the gear guide. Plastic filament coming from the rear of the supply reel, bend at the outer peripheral channel guide gear, rotating together with it.

Between the front of the supply coil and the back of the supply coil next to the relevant guide gear established a guiding device, designed to change the sagging plastic monofilament supplied with each rear of the supply reel.

According to another aspect of the present invention provided support tools, in a preferred embodiment made in the form of support combs that are after the mechanism for twisting network, to improve the uniformity and consistency of manufactured plastic network with cells in the form of a honeycomb. These supporting tools contain, at least, a number of concave parts, each of which is placed in a location that meets each twisted part of a network of cells in the form of a hundred in the direction of the network. These supporting tools preferably, but not exclusively, made from a piece of the wave-like plastic, received the injection. Supporting means to move slightly forward with the same speed with which the transport network with cells in the form honeycomb from the mechanism for twisting network, then quickly move back to its original position to repeat this movement forward.

On the machine for the manufacture of plastic network with cells honeycomb according to the present invention, plastic monofilament pass through the appropriate heat transfer , preferably heat transfer, tube, which linked to relevant in secured in the front mechanism for twisting network and rear auxiliary equipment for Curling network. Use a heating device for uniform heating the plastic monofilament, passing through the heat transfer thread, or preferably through a tube prevents uneven twisting monofilaments due to the irregularity of their pre-heating in such a way that you can weave plastic network with cells in the form of a honeycomb, with a uniform shape and uniform strength.

In addition, thanks to achieve such conductive thread guide with, or preferably tube, usually unreliable operation filling of plastic monofilaments in front mechanism for twisting the network after filling in rear mechanism for twisting the network can be excluded, and thus simplified and facilitated the operation filling of plastic monofilaments thus, thanks to which dramatically reduces the time of execution of the transaction.

By providing support funds are placed, or downstream from the front mechanism for twisting the network, especially, but not exclusively, executed in the form of a sinusoidal supporting device, which has a correspondingly, at least, the concave part in the place corresponding to each twisted part of a network of cells in the form of a hundred in the direction of the width of the network where these supporting tools displace or move at a small distance forward at the same speed with which the transport network with cells in the form honeycomb from the mechanism for twisting the network, and then quickly move back to its original position and repeat this movement forward, provide the possibility of maintain each twisted parts directly after the release of a mechanism for rolling network and at proper distance, or with appropriate intervals, in the direction of the width of the network. Thus, even if the two monofilament bred, or assign to the both sides, with constant tension, it is possible to prevent deformation of the twisted part of the network, even if any of the parties (the right side or left side) tight to weave a network of cells in the form of a honeycomb, with a uniform form hundred and given strength.

Brief description of drawings

In the subsequent detailed description presented additional features and advantages of the preferred, though not the bounding <volume of inventions>, variants of the invention with reference to the accompanying drawings shown as not bounding <volume of inventions> example, which shows:

figure 1 - schematic drawing machines for manufacturing plastic network with cells honeycomb according to the present invention;

figure 2 - partial view of the term mechanism for twisting network and support mechanism for twisting network, where shows the rotating ;

figure 3 - partial view in perspective mechanism presented in figure 2, which shows the diversion of one from the other and offset ;

figure 4 - partial view of the term mechanism to prevent kinking;

figure 5 - the partial view of the future support funds according to the invention in the form of supporting device; and

in Fig. 6A-6C - partial cross sections showing the movement of means of supporting presented in figure 5.

A detailed description of the preferred embodiments of the invention

Machine 1 (see Fig. 1-3) for the manufacture of plastic network with open cells contains a mechanism 2 for twisting the network to twist the plastic monofilaments and a plexus them to form a network of b-cells in the form of a honeycomb. Auxiliary mechanism for twisting network, or an auxiliary mechanism 3, located behind the mechanism 2 for twisting the network. Figure 1 also shows the gear guide 41; front feeding Bobina 42 for submission of plastic monofilament a; rear supply Bobina 43; mechanism of 4 to prevent kinking, containing the guiding device, 44, installed between the front of the supply coil 42 and the back of the supply coil 43. In addition, the machine 1 contains the heating device 5 for uniform heating the plastic monofilament a passing inside heat-conducting, tube 51, installed between the 2 for twisting the network and an auxiliary mechanism 3 to twist the network. Support tools 6, preferably supporting a device must be installed before mentioned mechanism 2 for twisting the network to support a network of cells in the form of a honeycomb.

Mechanism 2 for twisting the network contains a pair twisting 21 and 22, which mode rotate together, and then take away one from the other and move in the direction of the width of the network in such a way that the plastic monofilaments weave a network of b cells in the form of a honeycomb. Network of b cells in the form of hundreds of continuously made through the mechanism of 2 for twisting the network. In the mechanism of 2 for twisting network gear racks 23, located at the top and bottom and containing teeth, being in engagement with the 21 and 22, to their rotation.

Mechanism 2 for twisting the network contains 21a and 22a for plastic monofilaments of a, and, for example, several pairs of 21 and 22 of the installed one after the other in the direction of the width of the network. After twisting several turns, plastic monofilament a, conducted through 21a and 22a, backed respectively in the paired, twisting 21 and 22, which rotate together, one or both 21 and 22 divert one from another, and/or shift in the direction of the width of the network until () not located (settle down) respectively, top to bottom, with the adjacent ones, but other 21 and 22 (see figure 3). And then produce a rotation of the newly formed couples twisting 21 and 22 for rolling several times in two plastic monofilaments a skipped through the filling 21a, 22a mentioned 21 and 22. After this operation move back to its original position and repeat the operation twisting using previously with them twisting 21 and 22 through their rotation together and weaving a network of b cells in the form of a honeycomb.

Mechanism 2 for twisting the network contains a design in which, for example, several coupled upper and lower twisting 21 and 22 established in the direction of the width of the network. In appropriate located at the top and bottom, coupled twisting 21 and 22 of the formed gas 21a, 22a, respectively, and the plastic monofilament a seasoned in each tank 21a, 22a. Dual (upper and lower) torque 21 and 22 are formed in such a way that they can be rotated several times and, at the end of the process of rotation achieve similar (upper and lower) the provisions shown in figure 1, where 21 again is located on top of the other, relevant 22.

The topmost 21 and the lowest 22 are formed to one or both of you could allocate from one another or to shift in the direction of the width of the network until they will not be in the upper and lower provisions concerning a near-located respectively other twisting 21, 22.

Behind the above-mentioned mechanism 2 for twisting the network, i.e. the higher flow in the direction of feed plastic monofilaments a, provided with an auxiliary mechanism 3 to twist the network that contains the relevant subsidiary twisting 31, 32, each of which separately corresponds to each torsion 21, 22 the mechanism 2 for twisting the network.

Each auxiliary 31 and 32 in the supporting mechanism 3 to twist the network contains the corresponding for the filling him in a plastic monofilament a. The movement of each satellite torsion 31 and 32 in the supporting mechanism 3 to twist the network synchronized with movement, including: rotating and moving from one another, and a bias in the direction of the width of the network, and each is made with the possibility of rotation and divert one from the other, and displacement in the direction of the width of the network. In the supporting mechanism 3 to twist the network gear racks 33 are located on the top and bottom so that they were in engagement with the teeth of the auxiliary twisting 31, 32.

Auxiliary mechanism 3 to twist the network was established almost a similar way with the mechanism 2 for twisting the network, as it should perform the same motion with the mechanism 2 for twisting the network. This is needed to avoid contact and twisting each other conductive tubes 51 in the course of displacement, including rotation, abstracted from one another and displacement in the direction of the width of the network of twisting 21, 22. In fact, if the heat transfer, tube 51

touch or twisted to one another, it would become difficult or problematic to carry out rotation of the lead single from the other, and offset twisting 21, 22 in the mechanism 2 for twisting the network. In addition, if the heat transfer, tube 51 break or bend, or if the charged plastic monofilament a broken or twisted, it becomes implementation of the process of weaving a network of b cells in the form of a honeycomb. Auxiliary mechanism 3 to twist the network located behind the mechanism 2 for twisting the network to prevent this.

Through the mechanism of 4 to prevent kinking prevent an additional twist plastic monofilaments a twisted mechanism 2 for twisting the network, through synchronous rotation plastic monofilament of a continuously fed to the auxiliary mechanism 3 to twist the network. In fact, excessive additional twisting of plastic monofilaments a continuously fed to the auxiliary mechanism 3 to twist the network and then twisted in the mechanism 2 for twisting the network can lead to problems in the uniform of forming a network of b cells in the honeycomb, and this may adversely affect its durability.

In addition, through the mechanism of 4 to prevent kinking can prevent entanglement of each plastic monofilament of a continuously fed to the auxiliary mechanism 3 to twist the network because of the movement, including the rotation of the lead from one another and displacement in the direction of the width of the network, each 31, 32 in a supporting mechanism 3 to twist the network so uniformly applying plastic filament to a subsidiary mechanism 3 to twist the network.

Mechanism 4 to prevent kinking contains: gear guide 41; front feed reel 42, which serves plastic monofilament a; rear supply reel 43, which serves another plastic monofilament a; a guiding device, etc. located behind referred to the subsidiary machinery 3 to twist the network. Working backwards, we can say that guide pinion 41, front feeding Bobina 42, guiding device, 44 and rear supply Bobina 43 are located in this order.

Guide gear 41 rotate synchronized movement with the rotation of each paired 21, 22, 31, 32 in the mechanism 2 for twisting the network and auxiliary equipment 3 to twist the network. Guide gear diameter greater front of the supply reel 42, is located behind the mentioned support mechanism 3 to twist the network. Gear formed on the outer periphery of the gear guide 41, and provided with a driving gear 41a, being in engagement with the toothed wheel, for rotation gear guide 41. On the part of the outer periphery of the gear guide 41 formed outer peripheral canal 41b for bending and rotation plastic monofilament a supplied from the back of the supply reel 43.

With the front of the supply reel 42 serves plastic monofilament a one of twisting 21 or 22 in the mechanism 2 for twisting the network through one of the convenience twisting 31 or 32 in the corresponding auxiliary equipment 3 to twist the network. Plastic monofilament a wound on the front of the feed reel 42. Front supply Bobina 42 is located within the periphery of the gear guide 41. Front supply Bobina 42 mounted so that it does not obstruct the rotation of the rotatable gear guide 41.

From the back of the supply reel 43 plastic monofilament a curved into outer peripheral canal 41b gear guide 41 and , serves to another 22 or 21 in the mechanism 2 for twisting the network through other supporting 32 or 31 in the corresponding auxiliary equipment 3 to twist the network. Plastic monofilament a wound on the back of the feed reel 43, and the bobbin is located behind the gear guide 41 and a guide 44.

One end of the heat-conducting, tube 51 attached to 21a torsion 21 in the mechanism 2 for twisting the network, and the other end of the heat-conducting, tube 51 attached to 31a auxiliary torsion 31 in the supporting mechanism 3 to twist the network to meet a torsion 21, which movement, including the rotation of the lead from one another and displacement in the direction of the width of the network synchronized. Similarly, one end of another heat-conducting, tube 51 attached to 22a torsion 22 in the mechanism 2 for twisting the network, and the other end of the heat-conducting, tube 51 attached to 32a auxiliary, torsion 32 in the supporting mechanism 3 to twist the network to meet a torsion 22, the movement of which, including the rotation of the lead from one another and displacement in the direction of the width of the network synchronized.

Each heat transfer, tube 51 is hollow inside, to be miss one plastic monofilament a. If one plastic filament pass from each satellite torsion 31, 32 in a supporting mechanism 3 to twist the network to the appropriate each torsion 21, 22, through the use of heat-conducting, tube 51, refueling can be produced continuously and in its simplest form.

Each , tube 51 preferably made in the form of heat-conducting, for example, metal, cylindrical tube. If every , tube 51 heat the heating device 5, the heat is transmitted to all , tubes 51. Each dressed plastic monofilament a in this heat evenly and softened inside the tube when you move monofilament to the front engine 2 for twisting the network from heat-conducting, tube 51. Each of the softened plastic filament then evenly twisted and splice into a network of b cells honeycomb without manifestations <> torsional resistance during the process of curl.

The heating device 5 is, as mentioned above, a device for uniform heating the plastic monofilament a, tucked in , tube 51. The heating device and 5 are located in the area of location of pipes, where several conductive, tubes 51 set parallel to each other between the front mechanism 2 for twisting the network and rear auxiliary mechanism 3 to twist the network. The heating device and 5 are located in the transverse direction relatively few thermally conductive, tubes 51, installed parallel to each other. As a heating device 5 use, for example, an electric heater. The gap between the 2 for twisting the network and an auxiliary mechanism 3 to twist the network, designed for the arrangement of the heating device 5 and each heat-conducting, tube 51, for example, is confined space to heat remained within this space without its dilution or with small dispersion in outer space.

Before the mentioned mechanism 2 for twisting the network there are two supporting device 6, similar to the combs and preferably are supporting devices. With the help of devices that support 6 support form honeycomb woven network of b cells in the form honeycomb from the mechanism of 2 for twisting the network. The two supporting device 6 are connected to each other connective Board 62 (see figure 5), and using them to perform the same actions. Each device supports 6 contains at least the concave portion of the 61 as part corresponding to each twisted part of c in the direction of the width of a network of b cells in the form honeycomb from the mechanism of 2 for twisting the network. Each retaining device 6, you can move forward with the speed of the release of a network of b cells in the form of hundreds of mechanism 2 for twisting the network. After moving the unit 6 forward a short distance it quickly led back to its original position, and the device is made with the possibility of repeating the motion. In addition, these two supporting device 6, United connective Board 62, made with the possibility of bringing it in action associated with the action mechanism 2 for twisting network b using the drive mechanism (not shown).

Each concave part 61, for example, rounded so that it is not damaged by pressing on top of each curled part c. Many of these parts is performed with the same step from the bottom of the oblong supporting device 6. Retaining device 6 is performed in the form of the wave-like devices, as can be seen by the front. It is possible to implement the process in which each twisted part c in the direction of the width of a network of b cells in the form honeycomb from the mechanism of 2 for twisting the network is under appropriately completed concave part 61, provided from the bottom of the oblong supporting device 6. In a preferred the example shown on the drawings, twisted part c network of b cells in the form of honeycombs are alternating concave parts of 61 supporting device 6. This means that the concave part 61 alternately empty or occupied curled parts c network of b cells in the form of a honeycomb.

As clearly shown in Fig. 6A-6C, concave part 61, made in the two plastic-enabled devices 6 received the injection, and arranged one behind the other, exhibited <along the longitudinal axes>. And two support devices 6 twisted part c, located from two parties of a hexagonal cell network b cells in the form of a honeycomb, hold, forward-back, Central position in the hexagonal cell. The concave parts of the 61, joined in the forward-backward in two support devices 6, are thus alternatively empty or occupied twisted part c network of b cells in the form of a honeycomb. This means that, if the twisted part of a network of b cells in the honeycomb is inside the concave part 61 front-supporting device 6, the concave part 61 rear supporting device 6, which is combined in the forward-backward, not busy.

Rear support device located directly next to the mechanism 2 for twisting network b, pushing curled part c, which becomes right and left sides of the hexagonal <cell> network b cells in the form of a honeycomb, newly released from the mechanism 2 for twisting the network, and the concave parts of the 61 <a supporting device 6> are alternatively filled and empty. Retaining device in the United state moved forward at the same speed with which move the network of b cells in the form of a hundred, a total distance equal to the length of a twisted part c, which becomes the right and left sides of the hexagonal <cell> network b cells in the form of hundreds, and to the sine (<relation> front hand to the sine sloping sides) distance from the latter end of the twisted part c to the initial one end of the twisted part of the next <plot> network b cells in the form of a hundred; then <retaining device 6> quickly led back to the starting position, and repeat this movement.

Twisted part of two plastic monofilaments, which become the right and left sides of the hexagonal <cell> network b cells honeycomb released from twisting 21, 22 the mechanism 2 for twisting the network accompany the movement, including: - abstracted from one another and the shift of the upper and lower 21, 22, whereby assign the right and left monofilament from the latter end of the twisted part c so that <they> corresponded to the heatsink near the twisting . Then again the United parts (upper and lower) is twisted, and weave a network of b cells in the form of a honeycomb.

At this time, these two plastic monofilament a directs the right and to the left from the last to the end of the twisted part c.

With a strong tension right and left latter end of each twisted c parts in contact with the concave part 61, made from the bottom of the supporting device 6, thanks to which <twisted part> are supported in a Central position, but not the right or left side, and saved hexagonal form of cells of a network of the honeycomb.

In particular, immediately after twisting plastic monofilament a still thanks to their heat, so if softened state the right and left of plastic monofilaments a very slightly different, there is a risk that (when using machines and devices known type) they will unequally stretch to the right or left side so that the form honeycomb is disrupted. When using the supporting device according to the present invention, especially, but not exclusively, made in the form of supporting device 6, the latter end side of each twisted part c is connected with the concave part 61 or concave part 61 and held it so that you can keep in shape in the form of a honeycomb without the risk of stretching to the right or left side.

Below explained the action of the preferred option of the implementation of the present invention.

Plastic monofilament a, supplied with each rear of the supply reel mechanism 4 to prevent kinking, located behind the injected, respectively, in each 31a auxiliary torsion 31, situated in front of an auxiliary mechanism 3 to twist the network. Plastic filament and then fill in , tube 51, and end out of yarn guide 22a torsion 22 the mechanism 2 for twisting network b, located in the front.

Similarly plastic monofilament a, supplied with each rear of the supply reel 43 in the mechanism of 4 to prevent kinking, located in the rear of the curve in the outer peripheral canal 41b gear guide 41, located on the outer periphery of each front of the supply reel 42 so that it corresponded to the front side of the sending device 44. Through each of the guiding device, 44, respectively located in the front, enter monofilament a, respectively, in each 32a, for example, supporting a torsion 32, located in the supporting mechanism 3 to twist the network before gear guide 41, is charged in , tube 51, and end out of yarn guide 22a torsion 22 in the mechanism 2 for twisting the network, located in the front.

As mentioned above, after the introduction of plastic monofilament a machine 1 for the manufacture of plastic network of b cells in the form of honeycombs, the heating device 5 heat for heating of each heat-conducting, tube 51. After heating of thermally conductive, tubes 51, their heat is transmitted to all , tubes 51 thus, to plastic filament inside a tube 51 evenly heated and . Thus, after softening plastic monofilaments a to their resistance to twisting decreased, all mechanisms: mechanism 2 for twisting the network and auxiliary mechanism 3 to twist the network associated with the first and gear guide 41 mechanism 4 to prevent kinking and guiding device, 44, include in the action.

Mechanism 2 for twisting the network is that after twisting in a few turns two plastic monofilaments a tucked into 21a, 22a, United with each other and coupled through the use of appropriate twisting 21, 22, one or both of these 21, 22 divert one from the other and move in the direction of the width of the network so as to achieve and pair with adjacent, other 21, 22. By rotation of the newly paired relevant twisting 21, 22 two plastic monofilament a twisted in a few turns and then < 21, 22> move back to the starting position, and repeat the action with the corresponding previously used 21, 22 and, finally, rotate again. In this way weave a network of b cells in the honeycomb, and put out one <number> cell after the other from the front of the mechanism 2 for twisting the network.

The movement of the heat-conducting, tubes 51, installed between the 2 for twisting the network and an auxiliary mechanism 3 to twist the network synchronized with the rotation and diverting one from another, and a shift in the direction of the width of the network of twisting 21, 22 so that the movement corresponds with the movement of the mechanism 2 for twisting the network, including the rotation of the lead from one another and displacement in the direction of the width of the network.

Similarly movement mechanism 4 to prevent kinking, located behind the subsidiary machinery 3 to twist the network synchronized with the rotation, spreading from one another and a shift in the direction of the width of the network of twisting 21, 22 in the mechanism 2 for twisting the network by twisting the back of a plastic monofilament a supplied continuously with the front of the supply reel 42 and the back of the supply reel 43 to the subsidiary mechanism 3 to twist the network. Thus prevent the possibility of additional twisting plastic monofilament a, in the supporting mechanism 3 to twist the network. In addition, prevent intertwining with each other plastic monofilaments a fed continuously to the subsidiary mechanism 3 when the message movements, including the rotation of the lead from one another and displacement in the direction of the width of a network of committed each torsion auxiliary 31, 32 in a supporting mechanism 3 to twist the network.

When the last tail piece of the twisted part c of plastic monofilament passed through the fuel 21a, 22a torsion 21, 22 in the mechanism 2 for twisting the network, rear retaining device 6 lowered down and push the latest tail piece of the twisted part c inside the concave part 61, made from the bottom of the device 6, connect and enter it (see fig.6). When plastic monofilament a is still in a softened state after the release of the mechanism 2 for twisting the network, each curled part c hold together and support with the help of concave part 61 rear supporting device 6. Immediately after this, the two plastic monofilament a retard in the right and left sides, respectively, and thus separate from one another, but the last end of each twisted part c held together with the help of concave part 61 supporting device 6, so you retain the cellular form without a shift to the right and/or left.

When the concave part 61 rear supporting device 6, located near the mechanism 2 for twisting the network, pushing the last part of the plastic monofilament of a each twisted part c, and, thus, remain connected, the concave portion of the 61 front-supporting device 6 at the same time lowered from the top down, push and connect the last end of each twisted part that has already been released one step earlier.

After each concave part 61 supporting device 6 push and connect each curled part of the last end part the relevant plastic monofilament a, with the same speed with which the advance network of b cells in the form honeycomb from the mechanism 2 for twisting network-aware device 6 is moved to the front end of overall length, <equitable> twisted part c, which becomes right and left sides of the hexagonal cell network b cells in the form of hundreds, and to the sine (<relation> front hand to the sine sloping sides) distance from the latter end of the twisted part c to the initial one end of the twisted part of the next <plot> network b cells honeycomb (see fig.6, 6C), and then move quickly to the top and at the same time divert ago back in its original position, lowered from the top down, push and connect the last end of the plastic monofilament a, which has just been released from the mechanism 2 for twisting the network, where each plastic monofilament a curled with part c (see fig.6). This movement of the front and rear support devices 6 repeat.

Directly after weaving a network of cells in the honeycomb network of b cells in the form of a hundred is still tempered with native-heating, and there is a possibility of its deformation, but thanks to the use of the above mentioned mechanism to move forward and backward supporting device 6, retain their shape each twisted part c and not bend sideways so that prevented deformation of the cellular form.

Network of b cells in the form of a honeycomb, woven through the use of the mechanism 2 for twisting the network, move forward and reel device (not shown), as groves 71 advancing forward shaft 7, located beyond the supporting device 6, grasp and pull the top sides of the hexagon grid cells with the cells of a honeycomb.

Naturally, one of the distinctive features of the present invention can be modified and changed by adjusting equivalents within the scope of the invention, in the formula of the invention.

1. Device for rolling plastic monofilaments for the formation of a plastic network with open cells containing: a mechanism for rolling and rear mechanism for twisting, and front and rear mechanisms for twisting contain the corresponding pairs of front and rear for the introduction of a plastic monofilaments, subject to curl; each pair of front yarn guide and rear yarn guide is connected to the relevant .

2. The device of claim 1, wherein each heat transfer thread is heat-conducting tube.

3. The device according to claim 2, in which each tube heat transfer is a metal tube.

4. Device of any one of claims 1 to 3, additionally contains a heating device located between the front mechanism for twisting and rear mechanism for twisting, for heating of thermally conductive .

5. The device according to claim 4, in which the heat transfer and the heating device is located in the closed space.

9. Machine 6 or 7, which supports device made from a piece of the wave-like plastic, received the injection.

10. Machine of claim 9, containing device of any one of claims 1 to 5.

11. Machine on any of the paragraph 6-8, containing device of any one of claims 1 to 5.