CN203065787U - Auto-induction sewing system of overedger - Google Patents

Abstract

The utility model provides an auto-induction sewing system of an overedger. A start inductor and a front thread trimming inductor transmit signals to a controller, and then the controller controls the overedger to operate, so that automatic cloth sewing is realized; and then, when detecting the cloth leaving time, a rear thread trimming inductor transmits a signal to the controller, and then the controller controls a thread trimming knife to trim threads, so that the automatic cloth thread trimming is realized. The auto-induction sewing system solves the problem that manual cloth spreading and mechanical thread trimming does not cooperate, the thread trimming knife is enabled not to trim threads, the qualification rate of the product is ensured, and the working efficiency is improved.

Description

Overlock machine is responded to sewing system automatically

Technical field

The utility model relates to a kind of overlock machine and responds to sewing system automatically.

Background technology

Overlock machine also claims to play sidecar, reach the bone car, generally divides three-thread overlock, four string overlock seaming machines and 5-thread overedger, and its major function generally is the stitching bound edge operation of clothes.The overlock machine deburring is cut out with sewing and can be carried out simultaneously, and stitching also is applicable to elastic fabric as mesh.Overlock machine not only can be used for bound edge, can also be applied to sew up T-shirt, sportswear, underwear, fabric such as knitting.

Along with the automation development of overlock machine, overlock machine has automatic tangent and the neat industrial requirements of outward appearance.Generally, when automatic tangent, all be to rely on manually that granny rag cooperates the mode of tangent line to finish with machine.But because the speed of staff granny rag is uncontrollable, the end of a thread phenomenon different in size appears in regular meeting, even might reduce the qualification rate of cloth because the speed of staff granny rag is slow, and thread trimmer can be cut cloth, influences operating efficiency.

Granted publication number draws wheel mechanism for the Chinese patent of CN202380240U discloses a kind of industrial overlock machine, it comprises draws the material axle, the described material axle that draws is the step axle, the thin shaft part of step stretches out a square step on the bottom surface, be with jump ring on the thin axle in step place, draw the thin shaft part of material axle to pass needle bearing, needle bearing is installed in the bearing mounting hole that draws wheel support, draw the square step on the thin shaft part bottom surface of material axle to pass bearing mounting hole, main synchronizing wheel is fixedly arranged on the square step, main synchronizing wheel is formed the belt transmission group by synchronous belt and from synchronizing wheel, from synchronizing wheel be contained in draw the human relations support from bearing, stretch out a bar handle from the synchronizing wheel axle center, be installed with the granny rag wheel on the bar handle.The designed industrial overlock machine of this utility model draws wheel mechanism to adopt the synchronous pay-off medium power of industrial overlock machine source feed spool as power source, guaranteed to draw wheel swinging distance and hunting frequency and overlock machine cloth pushing shaft identical, and be not easy to skid, the end of a thread burr are also removed easily.But adopt the above-mentioned wheel mechanism that draws, can not thoroughly solve the problem that granny rag and machine tangent line manually are difficult to cooperate.

The utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of overlock machine to respond to sewing system automatically, be used for solving prior art manually granny rag be difficult to cooperate with the machine tangent line, cut the problem of cloth easily.

Reach other relevant purposes for achieving the above object, the utility model provides a kind of overlock machine to respond to sewing system automatically, comprises the seam platform and is located at the needle plate that stitches on the platform; This sewing system also comprises the priming inductor that is positioned on the seam platform, preceding trimming inductor and back trimming inductor, and priming inductor, preceding trimming inductor and back trimming inductor are arranged in order along the moving direction of cloth; Priming inductor is positioned at the front end sidepiece of needle plate, and when priming inductor detected cloth, priming inductor sent a signal to controller, and controller control overlock machine begins to prepare sewing work; Preceding trimming inductor is positioned at the rear end sidepiece of needle plate, and when current trimming inductor detected cloth, preceding trimming inductor sent a signal to controller, and controller control overlock machine is prepared the trimming action; Back trimming inductor is positioned at the rear end of thread trimmer, and when the afterbody that detects cloth when back trimming inductor left back trimming inductor, back trimming inductor sent a signal to controller, and controller is controlled the thread trimmer trimming.

Preferably, priming inductor comprises the startup infrared emission tube that is positioned at the startup infrared receiver tube on the seam platform and is positioned at startup infrared receiver tube top.

Preferably, preceding trimming inductor comprises the preceding trimming infrared emission tube that is positioned at the preceding trimming infrared receiver tube on the seam platform and is positioned at preceding trimming infrared receiver tube top.

Preferably, back trimming inductor comprises the back trimming infrared emission tube that is positioned at the back trimming infrared receiver tube on the seam platform and is positioned at trimming infrared receiver tube top, back.

As mentioned above, the utility model overlock machine is responded to sewing system automatically, has following beneficial effect:

This overlock machine is responded to sewing system automatically, gives controller by priming inductor and preceding trimming inductor transmission signal, and controller is controlled overlock machine work, has realized the automatic sewing of cloth; Detect the time that cloth leaves by back trimming inductor again, the transmission signal is given controller, controller control thread trimmer trimming, realized the automatic shearing of cloth, granny rag and the inharmonic problem of machine tangent line have manually been solved, make thread trimmer can not switch to cloth, guaranteed the qualification rate of product, improved operating efficiency.

Description of drawings

Fig. 1 is shown as the structural representation that overlock machine of the present utility model is responded to sewing system automatically.

Fig. 2 is shown as the enlarged diagram that overlock machine shown in Figure 1 is responded to sewing system automatically.

Fig. 3 is shown as the enlarged diagram that overlock machine shown in Figure 1 is responded to sewing system automatically.

Fig. 4 is shown as the partial exploded view that overlock machine shown in Figure 1 is responded to sewing system automatically

The element numbers explanation

1 seam platform

2 needle plates

3 priming inductors

31 start infrared receiver tube

32 start infrared emission tube

Trimming inductor before 4

Trimming infrared receiver tube before 41

Trimming infrared emission tube before 42

5 back trimming inductors

51 back trimming infrared receiver tubes

52 back trimming infrared emission tubes

6 thread trimmers

7 transmitting tube supports

8 gripper shoes

The specific embodiment

Below by particular specific embodiment embodiment of the present utility model is described, person skilled in the art scholar can understand other advantages of the present utility model and effect easily by the disclosed content of this specification.

See also Fig. 1 to Fig. 4.Notice, the appended graphic structure that illustrates of this specification, ratio, size etc., equal contents in order to cooperate specification to disclose only, understand and reading for person skilled in the art scholar, be not in order to limit the enforceable qualifications of the utility model, so technical essential meaning of tool not, the adjustment of the modification of any structure, the change of proportionate relationship or size, do not influencing under the effect that the utility model can produce and the purpose that can reach, all should still drop on the technology contents that the utility model discloses and get in the scope that can contain.Simultaneously, quote in this specification as " on ", D score, " left side ", " right side ", " centre " reach the term of " " etc., also only for ease of understanding of narrating, but not in order to limit the enforceable scope of the utility model, the change of its relativeness or adjustment, under no essence change technology contents, when also being considered as the enforceable category of the utility model.

As shown in Figure 1 to Figure 3, the utility model provides a kind of overlock machine to respond to sewing system automatically, comprise seam platform 1 and be located at the needle plate 2 that stitches on the platform 1, this sewing system also comprises the priming inductor 3 that is positioned on the seam platform 1, preceding trimming inductor 4 and back trimming inductor 5, and priming inductor 3, preceding trimming inductor 4 and back trimming inductor 5 are arranged in order along the moving direction of cloth; Priming inductor 3 is positioned at the front end sidepiece of needle plate 2, and when priming inductor 3 detected cloth, priming inductor 3 sent a signal to controller, and controller control overlock machine begins to prepare sewing work; Preceding trimming inductor 4 is positioned at the rear end sidepiece of needle plate 2, and when current trimming inductor 4 detected cloth, preceding trimming inductor 4 sent a signal to controller, and controller control overlock machine is prepared the trimming action; Back trimming inductor 5 is positioned at the rear end of thread trimmer 6, and when the afterbody that detects cloth when back trimming inductor 5 left back trimming inductor 5, back trimming inductor 5 sent a signal to controller, and controller is controlled thread trimmer 6 trimmings.

As shown in Figure 2, priming inductor 3 comprises the startup infrared emission tube 32 that is positioned at the startup infrared receiver tube 31 on the seam platform 1 and is positioned at startup infrared receiver tube 31 tops; When cloth covers startup infrared receiver tube 31, start infrared receiver tube 31 and do not receive the infrared ray that starts infrared emission tube 32 emissions, startup infrared receiver tube 31 sends the signal of " cloth is arranged " and gives controller, and controller control overlock machine begins to prepare sewing work.Preceding trimming inductor 4 comprises the preceding trimming infrared emission tube 42 that is positioned at the preceding trimming infrared receiver tube 41 on the seam platform 1 and is positioned at preceding trimming infrared receiver tube 41 tops; Before cloth covers during trimming infrared receiver tube 41, the infrared ray of trimming infrared emission tube 42 emissions before preceding trimming infrared receiver tube 41 does not receive, preceding trimming infrared receiver tube 41 sends the signal of " cloth is arranged " and gives controller, and controller control overlock machine is prepared the trimming action.

As shown in Figure 3, back trimming inductor 5 comprises the back trimming infrared emission tube 52 that is positioned at the back trimming infrared receiver tube 51 on the seam platform 1 and is positioned at trimming infrared receiver tube 51 tops, back.Trimming infrared receiver tube 51 after the cloth tail of cloth leaves, back trimming infrared receiver tube 51 receives the infrared ray that back trimming infrared emission tube 52 sends again, the signal that back trimming infrared receiver tube 51 sends " cloth leaves " is given to controller, controller control thread trimmer 6 trimmings.As shown in Figure 4, trimming infrared emission tube 52 is installed on the transmitting tube support 7, and transmitting tube support 7 is connected with the overlock machine main body by gripper shoe 8.

This overlock machine is responded to the using method of sewing system automatically, may further comprise the steps:

1) cloth is placed on the seam platform 1;

2) when priming inductor 3 detects cloth, priming inductor 3 sends a signal to controller, and controller control overlock machine begins to prepare sewing work;

When 3) current trimming inductor 4 detected cloth, preceding trimming inductor 4 sent a signal to described controller, and described controller control overlock machine is prepared the trimming action;

4) cloth continues to move forward, and when the afterbody that detects cloth when back trimming inductor 5 left back trimming inductor 5, back trimming inductor 5 sent a signal to controller, and controller is controlled thread trimmer 6 trimmings.

Wherein, priming inductor 3 comprises the startup infrared emission tube 32 that is positioned at the startup infrared receiver tube 31 on the seam platform 1 and is positioned at startup infrared receiver tube 31 tops; When cloth covers startup infrared receiver tube 31, start infrared receiver tube 31 and do not receive the infrared ray that starts infrared emission tube 32 emissions, startup infrared receiver tube 31 sends the signal of " cloth is arranged " and gives controller, and controller control overlock machine begins to prepare sewing work.

Wherein, preceding trimming inductor 4 comprises the preceding trimming infrared emission tube 42 that is positioned at the preceding trimming infrared receiver tube 41 on the seam platform 1 and is positioned at preceding trimming infrared receiver tube 41 tops; Before cloth covers during trimming infrared receiver tube 41, the infrared ray of trimming infrared emission tube 42 emissions before preceding trimming infrared receiver tube 41 does not receive, preceding trimming infrared receiver tube 41 sends the signal of " cloth is arranged " and gives controller, and controller control overlock machine is prepared the trimming action.

Wherein, back trimming inductor 5 comprises the back trimming infrared emission tube 52 that is positioned at the back trimming infrared receiver tube 51 on the seam platform 1 and is positioned at trimming infrared receiver tube 51 tops, back; Trimming infrared receiver tube 51 after the cloth tail of cloth leaves, back trimming infrared receiver tube 51 receives the infrared ray that back trimming infrared emission tube 52 sends again, the signal that back trimming infrared receiver tube 51 sends " cloth leaves " is given to controller, controller control thread trimmer 6 trimmings.

In sum, the utility model overlock machine is responded to sewing system automatically, gives controller by priming inductor and preceding trimming inductor transmission signal, and controller is controlled overlock machine work, has realized the automatic sewing of cloth; Detect the time that cloth leaves by back trimming inductor again, the transmission signal is given controller, controller control back thread trimmer trimming, realized the automatic shearing of cloth, granny rag and the inharmonic problem of machine tangent line have manually been solved, make thread trimmer can not switch to cloth, guaranteed the qualification rate of product, improved operating efficiency.So the utility model has effectively overcome various shortcoming of the prior art and the tool high industrial utilization.

Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not is used for restriction the utility model.Any person skilled in the art scholar all can be under spirit of the present utility model and category, and above-described embodiment is modified or changed.Therefore, have in the technical field under such as and know that usually the knowledgeable modifies or changes not breaking away from all equivalences of finishing under spirit that the utility model discloses and the technological thought, must be contained by claim of the present utility model.

Claims (4)

1. an overlock machine is responded to sewing system automatically, comprise seam platform (1) and be located at needle plate (2) on the described seam platform (1), it is characterized in that: the priming inductor (3) on the described seam platform (1), preceding trimming inductor (4) and back trimming inductor (5), described priming inductor (3), preceding trimming inductor (4) and back trimming inductor (5) are arranged in order along the moving direction of cloth;

Described priming inductor (3) is positioned at the front end sidepiece of described needle plate (2), and when described priming inductor (3) when detecting cloth, described priming inductor (3) sends a signal to controller, and described controller control overlock machine begins to prepare sewing work;

Trimming inductor (4) is positioned at the rear end sidepiece of described needle plate (2) before described, trimming inductor (4) is when detecting cloth before described, trimming inductor (4) sends a signal to described controller before described, trimming action before described controller control overlock machine is prepared;

Described back trimming inductor (5) is positioned at the rear end of thread trimmer (6), when the afterbody that detects cloth when described back trimming inductor (5) leaves described back trimming inductor (5), described back trimming inductor (5) sends a signal to described controller, and described controller is controlled described thread trimmer (6) trimming.

2. overlock machine according to claim 1 is responded to sewing system automatically, it is characterized in that: described priming inductor (3) comprises the startup infrared receiver tube (31) that is positioned on the described seam platform (1) and is positioned at the startup infrared emission tube (32) of described startup infrared receiver tube (31) top.

3. overlock machine according to claim 1 is responded to sewing system automatically, it is characterized in that: trimming inductor (4) comprises the preceding trimming infrared emission tube (42) that is positioned at the preceding trimming infrared receiver tube (41) on the described seam platform (1) and is positioned at described preceding trimming infrared receiver tube (41) top before described.

4. overlock machine according to claim 1 is responded to sewing system automatically, it is characterized in that: described back trimming inductor (5) comprises the back trimming infrared emission tube (52) that is positioned at the back trimming infrared receiver tube (51) on the described seam platform (1) and is positioned at described back trimming infrared receiver tube (51) top.

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