CN212477241U - Film material processing device - Google Patents

Abstract

The utility model provides a film material processingequipment relates to film material processing technology field, include the operation panel, cut mechanism and knitting mechanism, cut the mechanism connect in on the operation panel, it is used for cutting into the film material as textile raw material's film strip to cut the mechanism, knitting mechanism connect in on the operation panel, knitting mechanism is used for cooperating corresponding appurtenance to weave and cuts the back film material. The film material is integrally designed and improved from the production of the base material to the related flow of the film fabric, so that the requirements on cutting and weaving of the film material are met, the film material is processed into the film fabric, the processing of the film material is finally completed, and the film material is recycled.

Description

Film material processing device

Technical Field

The utility model relates to a film material processing technology field particularly, relates to a film material processingequipment.

Background

The film is a silver salt photosensitive film, also called film. This is now commonly referred to as film, but also as negative in printing plate making. The film is widely applied to the fields of machinery, electronics, articles for daily use and the like, so a large amount of waste films are generated every day, the existing film is difficult to directly recycle after being discarded and can only be used as garbage generally, more chemical substances exist on the waste films, the waste films are difficult to degrade, the waste films can be destroyed only by special treatment, and the film is poor in availability and high in treatment difficulty.

SUMMERY OF THE UTILITY MODEL

The utility model provides a film material be difficult to the problem of recovery and reuse.

In order to solve the problem, the utility model provides a film material processingequipment, include the operation panel, cut mechanism and knitting mechanism, cut the mechanism connect in on the operation panel, it is used for cutting into the film material as textile raw materials's film strip to cut the mechanism, knitting mechanism connect in on the operation panel, knitting mechanism is used for cooperating corresponding appurtenance to weave and cuts the back film material.

Further, the cutting mechanism comprises a cutting plate and a cutting knife, the cutting plate is connected to the operating table, a cutting groove is formed in the cutting plate, and the cutting knife is used for cutting the film material along the cutting groove.

Further, the cutting plate comprises a supporting plate and a fixing plate, the supporting plate is rotatably connected with the fixing plate or detachably connected with the fixing plate, the supporting plate is fixedly connected to the operating platform and located between the fixing plate and the operating platform, the fixing plate is used for being matched with the supporting plate to clamp the film material, and the fixing plate is provided with the cutting groove which vertically penetrates through the fixing plate.

Further, the cutting knife comprises at least one cutting piece, the cutting piece comprises a cutting piece main body and a blade, the blade is arranged on the cutting piece main body and used for penetrating through the cutting groove to cut the film material, the width of the cutting piece main body is larger than that of the cutting groove, a splicing portion is arranged on one side of the cutting piece main body, a splicing groove is formed in the other side of the cutting piece main body, and the splicing portion of the cutting piece and the splicing groove of the cutting piece are connected to achieve splicing of the cutting piece.

Further, weave the mechanism including weaving the couple, weave couple fixed connection in the both sides of operation panel, weave the couple and be used for articulating with braided wire, through appurtenance will cut the film material with braided wire weaves into the film surface fabric.

Further, weave the mechanism and still include first slipmat and second slipmat, first slipmat set up in the middle of on the operation panel, the second slipmat set up in the vicinity weave the couple the side of operation panel, first slipmat thickness is greater than the second slipmat, first slipmat with the cooperation of second slipmat skids when preventing to weave.

The film fabric to be subjected to edge locking woven by the weaving mechanism in cooperation with the auxiliary tool is subjected to edge locking.

Further, the serging mechanism comprises a sliding block, a sewing machine and two sliding rails, the sewing machine is fixedly connected to the sliding block, the sliding block is connected with the sliding rails in a sliding mode, two ends of the sliding block are respectively sleeved on the two sliding rails, and the sliding rails are fixedly connected to the operating table.

Further, still include hardware processing mechanism, hardware processing mechanism with operation panel threaded connection, hardware processing mechanism is used for after will lockstitching a border the film surface fabric is fixed in the preset position of operation panel to the cooperation processing instrument carries out hardware processing.

Further, hardware processing mechanism includes mounting and bolt, the mounting passes through bolt threaded connection in on the operation panel, through the mounting with the operation panel cooperation is carried behind the lockstitch the film surface fabric.

The utility model has the advantages that: the film material is cut through the cutting mechanism, and the cut film material is woven through the matching of the weaving mechanism and corresponding auxiliary tools, so that the integrated design and improvement of the process from the production of the base material to the production of the film material are realized, the cutting and weaving requirements on the film material are realized, the film material is processed into the film material, the processing of the film material is finally completed, and the reutilization of the film material is realized.

Drawings

Fig. 1 is a schematic structural diagram of a film material processing apparatus according to an embodiment of the present invention;

fig. 2 is a top view of a film material processing device wound with braided wires according to an embodiment of the present invention;

fig. 3 is a side view of a film material processing apparatus according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a cutting board with a film material fixed thereon according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a fixing plate according to an embodiment of the present invention;

FIG. 6 is a first schematic diagram of an exemplary cutting element according to an embodiment of the present invention;

FIG. 7 is a first exemplary front view of a cut piece provided in accordance with an embodiment of the present invention;

FIG. 8 is a second exemplary view of a cutting element according to an embodiment of the present invention;

fig. 9 is a second exemplary front view of a cut piece provided in an embodiment of the present invention;

fig. 10 is a top view of a film material processing apparatus with a fabric fixing mechanism according to an embodiment of the present invention;

fig. 11 is a front view of a fabric fixing mechanism provided in an embodiment of the present invention;

fig. 12 is a side view of the fabric fixing mechanism according to the embodiment of the present invention.

Description of reference numerals:

1-console, 2-cutting mechanism, 21-cutting plate, 211-fixing plate, 2111-cutting groove, 212-support plate, 22-cutting piece, 220-cutting piece body, 221-blade, 222-splicing groove, 223-splicing part, 3-weaving mechanism, 31-weaving hook, 32-second non-slip mat, 33-first non-slip mat, 34-coil support, 4-slide rail, 5-slide block, 6-hardware processing mechanism, 61-fixing piece, 62-bolt, 7-drawer, 8-weaving thread, 9-film material, 10-fabric fixing mechanism, 101-support frame, 102-first roller shaft, 103-second roller shaft, 104-elastic piece, 105-first fixing piece, 106-second fixing element.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it is to be understood that the terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as being equal to or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. Throughout this specification, the schematic representations of the terms used above do not necessarily refer to the same implementation or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in the drawing, an XYZ coordinate system is provided, in which X forward direction represents "left", X reverse direction represents "right", Y forward direction represents "front", Y reverse direction represents "rear", Z forward direction represents "up", and Z direction represents "down".

Wherein, the vertical direction is the Z-axis direction. For the operation table 1, the X direction is the width direction, the Y direction is the length direction, and the Z direction is the height direction; the cutting board 2 has a longitudinal direction in the X direction, a width direction in the Y direction, and a height or thickness direction in the Z direction.

As shown in fig. 1-3, the utility model discloses a film material processingequipment of embodiment, include operation panel 1, cut mechanism 2 and weaving mechanism 3, cut mechanism 2 fixed connection in on the operation panel 1, it is used for cutting into the film material 9 as textile raw material's film strip to cut mechanism 2, weaving mechanism 3 connect in on the operation panel 1, weaving mechanism 3 is used for cooperating corresponding appurtenance to weave after cutting film material 9.

The weaving mechanism 3 is arranged at the front end of the operating platform 1, the cutting mechanism 2 is arranged on the upper surface in the middle of the operating platform 1, the cutting plate 21 is fixedly connected to the upper surface in the middle of the operating platform 1 along the left-right direction, the length of the cutting plate 21 is approximately the same as the width of the operating platform 1, and the cutting mechanism 2 cuts the film material 9 along the left-right direction to cut the film material 9 into film strips.

In this embodiment, two cutting plates 2 are provided on the table 1, whereby two film materials 9 can be cut at the same time.

In the structure, the auxiliary tool comprises a clamping tool and a carding tool, the clamping tool is used for clamping the film strips cut by the cutting mechanism 2, the film strips are alternately inserted into the knitting line 8, and after the insertion is completed, the positions of the film strips on the knitting line 8 are carded through the carding tool, so that the different film strips can be mutually abutted. The above process is repeated, and the film strip and the knitting yarn 8 can be knitted into the film fabric without the overlock.

The embodiment of the utility model provides a cut film material 9 through cutting mechanism 2 to weave the film material 9 after cutting through the corresponding appurtenance of the 3 cooperation of knitting mechanism, thereby carry out integrated design and improvement with film material 9 from basic material production to the flow that the film surface fabric relates, realize cutting, weaving the requirement to film material 9, in order to process film material 9 into the film surface fabric, and then finally accomplish film material 9's processing, realize film material 9's recycle from this.

Preferably, as shown in fig. 1 to 2, the cutting mechanism 2 includes a cutting plate 21 and a cutting blade, the cutting plate 21 is fixedly connected to the operating platform 1, a cutting groove 2111 is formed in the cutting plate 21, and the cutting blade is used for cutting the film material 9 along the cutting groove 2111.

Specifically, the cutting plate 21 is fixed to the operation table 1, the cutting plate 21 is provided with a plurality of cutting grooves 2111 in parallel, a plurality of blades 221 are correspondingly provided in parallel on the cutting blade, the blades 221 can be cut into the cutting grooves 2111, and the film material 9 is cut into film strips by cooperation of the blades 221 and the cutting grooves 2111.

Wherein the film material 9 can be directly placed on the cutting plate 21, then the film material 9 is pressed by hand, the cutting knife cuts the film material 9 along the cutting groove 2111, and the film material 9 is cut into film strips, in the above structure, in order to avoid the cutting knife damaging the operating table 1, the length of the blade of the cutting knife is less than the height of the cutting groove 2111. The cutting grooves 2111 are equidistantly provided on the cutting plate 21, and correspondingly, the blades 221 are equidistantly provided on the cutting blade.

Preferably, as shown in fig. 1, 4 and 5, the cutting plate 21 includes a supporting plate 212 and a fixing plate 211, the supporting plate 212 is rotatably or detachably connected to the fixing plate 211, the supporting plate 212 is fixedly connected to the operating platform 1 and is located between the fixing plate 211 and the operating platform 1, the fixing plate 211 is configured to cooperate with the supporting plate 212 to clamp the film material 9, and the fixing plate 211 is provided with the cutting groove 2111 vertically penetrating through the fixing plate 211.

Wherein the blade 221 of the cutting blade may pass through the cutting slot 2111.

Specifically, one end of the supporting plate 212 is rotatably connected with one end of the fixing plate 211, so that the fixing plate 211 can only rotate relative to the supporting plate 212, and in an initial state, the fixing plate 211 is placed on the supporting plate 212 and attached to the supporting plate 212, and when the film material 9 needs to be cut, the other end of the fixing plate 211, which is not connected with the supporting plate 212, is lifted, so that the fixing plate 211 and the supporting plate 212 have a certain angle, and the film material 9 to be cut can be placed between the fixing plate 211 and the supporting plate 212. Then, the film material 9 is placed on the supporting plate 212, the fixing plate 211 is lowered, the fixing plate 211 presses the film material 9 to fix the film material 9, and after the film material 9 is fixed, the blade 221 of the cutting knife passes through the cutting groove 2111 to cut the film material 9 into film strips, and the width of the film strips cut by this embodiment is the same.

If the supporting plate 212 is detachably connected to the fixing plate 211, when the film material 9 needs to be cut, the fixing plate 211 needs to be detached from the supporting plate 212, then the film material 9 is placed on the supporting plate 212, the fixing plate 211 is reinstalled, then the cutting is performed, and after the cutting, the fixing plate 211 needs to be detached again, so that the film strip can be taken out. When the supporting plate 212 is detachably connected to the fixing plate 211, the cutting process is complicated, and therefore, it is preferable that one end of the supporting plate 212 is rotatably connected to one end of the fixing plate 211.

Preferably, as shown in fig. 6 to 9, the cutting blade includes at least one cutting member 22, the cutting member 22 includes a cutting member main body 220 and a blade 221, the blade 221 is disposed on the cutting member main body 220, the blade 221 is configured to penetrate through the cutting groove 2111 to cut the film material 9, the width of the cutting member main body 220 is greater than the width of the cutting groove 2111, one side of the cutting member main body 220 is provided with a splicing portion 223, the other side of the cutting member main body is provided with a splicing groove 222, and the splicing of the two cutting members 22 is realized by connecting the splicing portion 223 of one cutting member 22 with the splicing groove 222 of the other cutting member 22.

Wherein the cutting pieces 22 can be mutually spliced. When the cut piece 22 is cut, the cut piece 22 is attached to the fixing plate 211, the blade 221 passes through the cutting groove 2111, at this time, the Y-axis direction is the width direction of the cut piece main body 220, and the width of the cut piece main body 220 is larger than the width of the cutting groove 2111, so that the cut piece 22 is limited by the fixing plate 211 in the Z-axis direction.

Specifically, the cutting blade may be a single cutting member 22, or a cutting structure in which a plurality of cutting members 22 are combined, so that the length of the cutting blade and the number of blades 221 included in the cutting blade can be controlled, and thus different cutting plates 21 can be fitted, and thus film materials 9 of different widths can be cut.

In application, the size of the cut piece 22 and the size of the cut plate 21 are selected according to actual circumstances, and there may be a plurality of sizes of the cut piece 22 and the cut plate 21 in order to expand the applicable range of the cutting mechanism 2.

Preferably, as shown in fig. 6 and 8, the blade 221 is protruded from the cutting body 220, and the thickness of the blade 221 gradually increases from the tip end to the end connected to the cutting body 220.

Specifically, the blade 221 is gradually increased in thickness from the tip end to the end connected to the cutter body 220, so that the tip end of the blade 221 can cut the film material 9 more easily, and the blade 221 has high toughness and hardness and is less likely to deform and break.

Preferably, the thickness of the end of the blade 221 connected to the cutting member main body 220 is smaller than the width of the cutting groove 211, and the length of the blade 221 is greater than the thickness of the fixing plate 21 and smaller than the thickness of the cutting plate 2.

Wherein the length of the blade 221 is preferably slightly greater than the thickness of the fixing plate 21 so as not to excessively damage the support plate. The fixing plate 211 and the supporting plate 212 are made of rubber, so that the fixing plate 211 and the supporting plate 212 have certain strength and toughness and are not easy to damage.

Specifically, by making the thickness of the end of the blade 221 connected to the cutter main body 220 smaller than the width of the cutting groove 2111, the cutter main body 220 can be brought into surface abutment with the fixed plate 211 when the cutting blade cuts the filmy material 9, so that the cutting blade can easily cut the filmy material 9 along the cutting groove 2111; by making the length of the blade 221 larger than the thickness of the fixing plate 211 and smaller than the thickness of the entire cutting plate 21, the blade 221 of the cutting blade does not damage the operation table 1, while enabling the blade 221 to pass through the cutting groove 2111, and the filmic material 9 is cut into filmic strips.

Preferably, as shown in fig. 5, a plurality of cutting grooves 2111 are arranged in parallel on the fixing plate 211, a plurality of blades 221 are arranged in parallel on the cutting member main body 220, and the distance between two adjacent cutting grooves 2111 is the same as the distance between two adjacent blades 221.

The distance between two adjacent cutting grooves 2111 is the same, and the distance between two adjacent blades 221 is the same, so the width of the film strip cut by the embodiment is the same.

Specifically, by defining the pitch of the adjacent two cutting grooves 2111 to be the same as the pitch of the adjacent two blades 221, the blades 221 can be inserted into the cutting grooves 2111 in a one-to-one correspondence, and thus the cutting of the filmic material 9 into strips can be achieved.

In the structure, the splicing part 223 is arranged on one side of the cutting part main body 220, and the splicing groove 222 is arranged on the other side of the cutting part main body, so that the cutting part 22 can be spliced with the side surface of another cutting part 22, the splicing of the two cutting parts 22 is realized, the length of the cutting knife is changed, and the blades 221 on the cutting knife are arranged side by side.

Optionally, as shown in fig. 6 and 7, the splicing portion 223 is a strip-shaped protrusion protruding from one side of the cutting member main body 220, the splicing groove 222 is disposed on the other side of the cutting member main body 220, and at least one end of the splicing groove is communicated with the outside.

Specifically, the splicing part 223 is arranged to be a strip-shaped protrusion protruding from one side of the cutting part main body 220, the splicing groove 222 is arranged on the other side of the cutting part main body 220, at least one end of the splicing groove is communicated with the outside, and the strip-shaped protrusion on one cutting part 22 can slide into the strip-shaped splicing groove 222 from one end of the strip-shaped splicing groove 222, so that the splicing of the cutting part 22 is realized.

Alternatively, as shown in fig. 8 and 9, the splicing portion 223 is a flat protrusion protruding from one side of the cutting body 220, and the splicing groove 222 is a flat hole formed in the other side of the cutting body 220.

The flat bulge refers to a bulge with a non-circular cross section, the cross section of the flat bulge can be in a polygonal structure such as a quadrangle, a pentagon, a hexagon and the like, and can also be in other shapes such as an ellipse and the like, and the size and the shape of the flat hole correspond to the size and the shape of the cross section of the flat bulge, so that the flat bulge on one cutting piece 22 can be in clearance fit with the flat hole on the other cutting piece 22; the flat bulges can be a plurality of, and the number of the flat holes is the same as that of the flat bulges.

Specifically, through setting up the concatenation portion 223 to protruding the flat arch of locating cutting member main part 220 one side, set up the concatenation groove 222 to the flat hole of locating cutting member main part 220 opposite side to make the flat arch on one cutting member 22 can with the flat hole clearance fit on another cutting member 22, thereby realize the amalgamation of one cutting member 22 and another cutting member 22, make two cutting members 22 can not take place relative rotation simultaneously.

Preferably, the flat bulge is a cuboid, and the flat hole is a rectangular hole corresponding to the cuboid in size and shape.

Specifically, through setting up the flat arch into the cuboid, the flat hole sets up to the rectangular hole corresponding with the cuboid size to make the flat arch on one cut 22 can with another cut the flat hole clearance fit on 22, make simultaneously that relative rotation can not take place between two cuts 22 of amalgamation.

Preferably, the cutting body 220 is a magnetic cutting body 220, so that the side surfaces of the two cutting pieces 22 can be mutually adsorbed, and the stability of the cutting pieces 22 after splicing is further improved.

In this embodiment, drawer grooves are formed in both sides of the console 1, the drawer 7 can slide in the drawer grooves, and the cutting knife can be placed in the drawer 7.

Preferably, as shown in fig. 2, the knitting mechanism 3 includes a knitting hook 31, the knitting hook 31 is fixedly connected to two sides of the operating platform 1, the knitting hook 31 is used for hooking with the knitting yarn 8, and the cut film material 9 and the knitting yarn 8 are knitted into a film fabric by the auxiliary tool.

Wherein, the operating platform 1 is further provided with a coil supporting member 34 for supporting and limiting the braided coil so as to fixedly connect the initial end of the braided wire 8 with the braided hook 31.

Specifically, the knitting hooks 31 are fixedly connected to two sides of the operation table 1, and the knitting yarns 8 are alternately wound around the knitting hooks 31 on the two sides, so that the knitting yarns 8 are arranged on the operation table 1 at intervals, and the knitting yarns 8 are a continuous whole, wherein the interval between adjacent knitting yarns 8 is related to the interval between the knitting hooks 31.

In application, after the braided wire 8 is wound, the film strips are clamped through the corresponding clamping devices and are alternately inserted into the braided wire 8, wherein the direction of the film strips is approximately vertical to the direction of the braided wire 8. And then repeatedly inserting the film strips, weaving by corresponding auxiliary tools, and repeating the process to finally form the film fabric without the locked edges.

Preferably, the weaving mechanism 3 further includes a first non-slip pad 33 and a second non-slip pad 32, the first non-slip pad 33 is disposed on the middle of the operation table 1, the second non-slip pad 32 is disposed on the side edge of the operation table 1 adjacent to the weaving hook 31, the thickness of the first non-slip pad 33 is greater than that of the second non-slip pad 32, and the first non-slip pad 33 and the second non-slip pad 32 cooperate to prevent slipping during weaving.

Wherein, the height of the first non-slip mat 33 is higher than that of the second non-slip mat 32; both the first and second anti-slip pads 33, 32 are preferably rubber anti-slip pads.

In this embodiment, the number of the second anti-slip pads 32 is two, and the two second anti-slip pads 32 are respectively disposed on two side edges of the console 1 adjacent to the knitting hook 31

Specifically, a first anti-slip mat 33 is arranged in the middle of the operating platform 1, two second anti-slip mats 32 are respectively arranged on two side edges of the operating platform 1, which are adjacent to the weaving hook 31, and slipping during weaving is prevented by arranging the first anti-slip mat 33 and the second anti-slip mats 32.

Preferably, the rubber piece fabric overlock machine further comprises an overlock mechanism, wherein the overlock mechanism is connected to the operating table 1 and used for overlock-stitching the rubber piece fabric to be overlock stitched, which is woven by the weaving mechanism in cooperation with the auxiliary tool.

The operation table 1 is provided with the serging mechanism, so that an operator can serge the film fabric woven by the film material 9 on the operation table 1, the film material 9 is cut, woven and serged on the operation table 1, and the film material 9 is basically processed and molded.

Preferably, the serging mechanism comprises a sliding block 5, a sewing machine and two sliding rails 4, the sewing machine is fixedly connected to the sliding block 5, the sliding block 5 is connected with the sliding rails 4 in a sliding mode, two ends of the sliding block 5 are respectively sleeved on the two sliding rails 4, and the sliding rails 4 are fixedly connected to the operating platform 1.

Specifically, because the film material 9 has a smooth surface and has certain strength and toughness, when the sewing machine sews the film fabric processed by the film material 9, the cloth pushing and routing function of the sewing machine fails, so that the relative movement between the sewing machine and the film fabric cannot be realized, therefore, in the embodiment, the sliding rail 4 is arranged to fixedly connect the sliding rail 4 to the operating platform 1, then the sewing machine is in sliding connection with the sliding rail 4, so that the sewing machine can slide on the operating platform 1, the relative sliding between the sewing machine and the film fabric is realized by sliding the sewing machine, and the edge locking of the film fabric is further completed.

In application, the above embodiment is a preferred embodiment, and the sewing machine can be driven to reciprocate by the conveying belt.

Preferably, still include hardware processing mechanism 6, hardware processing mechanism 6 with operation panel 1 threaded connection, hardware processing mechanism 6 is used for after will lockstitching the film surface fabric is fixed in operation panel 1's preset position to the cooperation processing instrument carries out hardware processing.

Specifically, when the film fabric needs to be fixed, the film fabric is placed between the fixing member 61 and the operation table 1, then the fixing member 61 presses the film fabric, then the fixing member 61 and the operation table 1 are fixed through the bolt 62, and when the film fabric needs to be taken out, the bolt 62 is adjusted to enable the fixing member 61 to be lifted a certain distance from the operation table 1, so that the film fabric is taken out after the fixing member 61 is lifted.

Preferably, still include hardware processing mechanism 6, hardware processing mechanism 6 includes mounting 61 and bolt 62, mounting 61 passes through bolt 62 threaded connection in on the operation panel 1, through mounting 61 with behind the lockstitch is cliied in the cooperation of operation panel 1 the film surface fabric.

Wherein the fixing member 61 is preferably a rectangular plate having a certain thickness, and the bolt 62 includes a screw and two nuts. The hardware processing mechanism 6 is arranged on two side edges of one end of the operating platform 1, which is far away from the weaving mechanism 3.

Specifically, be equipped with the screw hole on the operation panel 1, the corresponding screw hole that is equipped with on the mounting 61, when needs fixed film surface fabric, place the film surface fabric between mounting 61 and operation panel 1, then press the film surface fabric with mounting 61, then insert the screw rod respectively the screw hole of mounting 61 and the screw hole on the operation panel 1, then adopt the nut to fix. After the fixing, the hardware processing is carried out through corresponding processing tools, so that the film material 9 is completely processed and molded.

As shown in fig. 10 to 12, it is preferable that the fabric fixing mechanism 10 further includes a support frame 101, an elastic member 104, a first roller 102, a second roller 103, a first fixing member 105, and a second fixing member 106, where the first roller 102 is rotatably connected to the first fixing member 105, the first fixing member 105 is connected to the support frame 101 through the elastic member 104, the second roller 103 is rotatably connected to the second fixing member 106, the second fixing member 106 is fixedly connected to the support frame 101, the support frame 101 is detachably connected to the console 1, an electromagnet is embedded in a side of the second fixing member 106 adjacent to the first fixing member 105, and the second fixing member 106 is an iron metal block.

The fabric fixing mechanism 10 can fix film fabrics and can also fix common fabrics.

The first roller shaft 102 is rotatably connected to the first fixing member 105 through a bearing, and the second roller shaft 103 is rotatably connected to the second fixing member 106 through a bearing. The outer layer of the first roller 102 and the second roller 103 can be a rubber layer to facilitate pushing the film material to move. The resilient member is preferably a spring.

Specifically, when the electromagnet is not electrified, a gap is formed between the first roller shaft 102 and the second roller shaft 103, fabric can easily pass through the gap, and after the electromagnet is electrified, the first fixing piece 105 is adsorbed by the second fixing piece 106, so that the first roller shaft 102 and the second roller shaft 103 are tightly attached, and therefore, after the electromagnet is electrified, the first roller shaft 102 and the second roller shaft 103 can clamp the fabric between the first roller shaft 102 and the second roller shaft 103; the position of the fabric can be changed by rotating the first roller 102 or the second roller 103 or by directly pulling the fabric.

In application, a corresponding motor can be additionally arranged, and an output shaft of the motor is in transmission connection with the second roller 103, so that the second roller 103 is controlled to rotate by the motor, and further, the fabric between the first roller 102 and the second roller 103 is controlled to move.

Because the moving distance of the sewing machine is limited, for fabrics with longer length, the sewing machine is difficult to finish the serging of all positions of the fabrics under the condition of not changing the positions of the fabrics, and the sewing machine is not convenient to hold and fix the fabrics through the hardware processing mechanism 6, so that the fabric fixing mechanism 10 can be arranged, namely the fabrics can be fixed, and the positions of the fabrics can be changed to finish the integral sewing serging of the fabrics.

In this embodiment, the hardware processing mechanism 6 is connected to the operation table 1 by a screw, and if necessary, the hardware processing mechanism 6 can be detached, and the fabric fixing mechanism 10 is connected to the operation table 1 by a screw and fixed by the fabric fixing mechanism 6.

In another embodiment of the present invention, the structure of the film material processing device can be as shown in fig. 10, which extends the length of the operation table 1, and connects the thread of the fabric fixing mechanism 10 to the operation table 1 between the hardware processing mechanism 8 and the serging mechanism. The corresponding position of the operation table 1 connected with the fabric fixing mechanism 10 can be provided with a plurality of threaded holes, so that the position of the fabric fixing mechanism 10 connected with the operation table 1 can be changed, and fabrics with different lengths can be clamped conveniently.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the present disclosure, and these changes and modifications are intended to fall within the scope of the present disclosure.

Claims (10)

1. The utility model provides a film material processingequipment, its characterized in that includes operation panel (1), cuts mechanism (2) and weaving mechanism (3), cut mechanism (2) connect in on operation panel (1), it is used for cutting film material (9) into the film strip as textile raw material to cut mechanism (2), weaving mechanism (3) connect in on operation panel (1), weaving mechanism (3) are used for cooperating corresponding appurtenance to weave the back of cutting film material (9).

2. The filmic material processing apparatus according to claim 1, wherein the cutting mechanism (2) comprises a cutting plate (21) and a cutting blade, the cutting plate (21) is attached to the operation table (1), the cutting plate (21) is provided with a cutting groove (2111), and the cutting blade is used for cutting the filmic material (9) along the cutting groove (2111).

3. The photographic film material processing apparatus according to claim 2, wherein the cutting plate (21) comprises a support plate (212) and a fixing plate (211), one end of the support plate (212) is rotatably or detachably connected with one end of the fixing plate (211), the support plate (212) is fixedly connected to the operating platform (1) and is located between the fixing plate (211) and the operating platform (1), the fixing plate (211) is used for clamping the photographic film material (9) in cooperation with the support plate (212), and the fixing plate (211) is provided with the cutting slot (2111) vertically penetrating through the fixing plate (211).

4. The filmic material processing apparatus according to any one of claims 2 to 3, wherein the cutting blade comprises at least one cut piece (22), the cut piece (22) comprises a cut piece main body (220) and a blade (221), the blade (221) is provided on the cut piece main body (220), the blade (221) is used for cutting the filmic material (9) through the cutting groove (2111), the width of the cut piece main body (220) is larger than that of the cutting groove (2111), the cut piece main body (220) is provided with a splicing portion (223) on one side and a splicing groove (222) on the other side, and the splicing of the two cut pieces (22) is realized by connecting the splicing portion (223) of one cut piece (22) with the splicing groove (222) of the other cut piece (22).

5. The film material processing device according to claim 4, wherein the knitting mechanism (3) comprises a knitting hook (31), the knitting hook (31) is fixedly connected to both sides of the operation table (1), the knitting hook (31) is used for being hooked with the knitting line (8), and the cut film material (9) and the knitting line (8) are knitted into a film fabric through the auxiliary tool.

6. The film material processing device of claim 5, wherein the weaving mechanism (3) further comprises a first non-slip mat (33) and a second non-slip mat (32), the first non-slip mat (33) being disposed in the middle of the console (1), the second non-slip mat (32) being disposed on the side of the console (1) adjacent to the weaving hook (31), the first non-slip mat (33) having a thickness greater than the second non-slip mat (32), the first non-slip mat (33) and the second non-slip mat (32) cooperating to prevent slippage during weaving.

7. The film material processing device according to any one of claims 5 to 6, further comprising a locking mechanism connected to the operation table (1), wherein the locking mechanism is used for locking the film material to be locked woven by the weaving mechanism (3) in cooperation with the auxiliary tool.

8. The film material processing device according to claim 7, wherein the overlock mechanism comprises a slider (5), a sewing machine and two slide rails (4), the sewing machine is fixedly connected to the slider (5), the slider (5) is slidably connected to the slide rails (4), two ends of the slider (5) are respectively sleeved on the two slide rails (4), and the slide rails (4) are fixedly connected to the operating table (1).

9. The film material processing device according to claim 7, further comprising a hardware processing mechanism (6), wherein the hardware processing mechanism (6) is in threaded connection with the operation table (1), and the hardware processing mechanism (6) is used for fixing the film fabric after the overlock to a preset position of the operation table (1) so as to cooperate with a processing tool to perform hardware processing.

10. The film material processing device according to claim 9, wherein the hardware processing mechanism (6) comprises a fixing member (61) and a bolt (62), the fixing member (61) is screwed on the operation table (1) through the bolt (62), and the film material after the overlock is clamped through the cooperation of the fixing member (61) and the operation table (1).

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